本発明は、伸縮可能な伸縮装置に関する。
The present invention relates to a telescopic device capable of stretching.
従来から、例えばカメラを支持するカメラ支持具等の支持装置(三脚や一脚等)が広く知られている(例えば特許文献1)。
2. Description of the Related Art Conventionally, for example, a support device (such as a tripod or a monopod) that supports a camera is widely known (for example, Patent Document 1).
そして、この種の支持装置は、伸縮可能な伸縮装置である脚体を具備し、この脚体は、例えば図9に示すような構成となっている。
This type of support device includes a leg that is a telescopic device that can be expanded and contracted, and this leg has a configuration as shown in FIG. 9, for example.
この図9に示された脚体1は、上段管状体2と、この上段管状体2内に移動可能に挿入された下段管状体3と、この下段管状体3を上段管状体2に対して解除可能に固定する固定手段4とを備えている。
The leg 1 shown in FIG. 9 includes an upper tubular body 2, a lower tubular body 3 movably inserted into the upper tubular body 2, and the lower tubular body 3 with respect to the upper tubular body 2. And fixing means 4 for releasably fixing.
また、固定手段4は、上段管状体2の下端部の外周側に螺着された操作ナット6と、この操作ナット6と下段管状体3との間に配設された固定リング7とを有している。
The fixing means 4 has an operation nut 6 screwed to the outer peripheral side of the lower end portion of the upper tubular body 2, and a fixing ring 7 disposed between the operation nut 6 and the lower tubular body 3. doing.
そして、操作ナット6を固定方向に回転操作すると、固定リング7が下段管状体3の外周面に圧着されることによって、下段管状体3が上段管状体2に対して固定される。また、操作ナット6を固定解除方向に回転操作すると、固定リング7の圧着が解除されることによって、下段管状体3の上段管状体2に対する固定が解除される。
When the operation nut 6 is rotated in the fixing direction, the fixing ring 7 is pressed against the outer peripheral surface of the lower tubular body 3, whereby the lower tubular body 3 is fixed to the upper tubular body 2. Further, when the operation nut 6 is rotated in the fixing release direction, the fixing of the fixing ring 7 is released, whereby the fixing of the lower tubular body 3 to the upper tubular body 2 is released.
特開2004−258451号公報JP 2004-258451 A
しかしながら、上記従来の構成では、下段管状体3の上段管状体2に対する固定を解除するために、操作ナット6を例えば120度回転操作した場合、これを再度固定するには、120度の逆方向への回転操作で足りるが、解除のために例えば5回転させた場合、再度固定するには5回転させなければならず、操作性が悪い。
However, in the above-described conventional configuration, when the operation nut 6 is rotated, for example, by 120 degrees in order to release the fixing to the upper tubular body 2 of the lower tubular body 3, in order to fix the operation nut 6 again, the reverse direction of 120 degrees However, if, for example, 5 rotations are required for release, the rotation must be performed 5 times to fix again, and the operability is poor.
本発明は、このような点に鑑みなされたもので、操作性が良好な伸縮装置を提供することを目的とする。
This invention is made | formed in view of such a point, and it aims at providing the expansion / contraction apparatus with favorable operativity.
請求項1記載の伸縮装置は、上段管状体と、この上段管状体内に移動可能に挿入された下段管状体と、この下段管状体を前記上段管状体に対して解除可能に固定する固定手段とを備え、前記固定手段は、回動操作可能な操作体を有し、前記操作体の所定角度の回動操作によって、前記下段管状体の前記上段管状体に対する固定およびその解除が行われるものである。
The telescopic device according to claim 1, an upper tubular body, a lower tubular body movably inserted into the upper tubular body, and a fixing means for releasably fixing the lower tubular body to the upper tubular body. The fixing means includes an operating body that can be rotated, and the lower tubular body is fixed to and released from the upper tubular body by a rotating operation of the operating body at a predetermined angle. is there.
請求項2記載の伸縮装置は、請求項1記載の伸縮装置において、操作体の360度以下の所定角度の回動操作によって、下段管状体の上段管状体に対する固定およびその解除が行われるものである。
The telescopic device according to claim 2 is the telescopic device according to claim 1, wherein the lower tubular body is fixed to and released from the upper tubular body by rotating the operating body at a predetermined angle of 360 degrees or less. is there.
請求項3記載の伸縮装置は、請求項1または2記載の伸縮装置において、上段管状体は、当接受面を有し、操作体は、前記当接受面に当接する当接面を有し、下段管状体の上段管状体に対する固定を解除する際に、前記当接面と前記当接受面との当接により前記操作体の固定解除方向への回動操作が規制されるものである。
The telescopic device according to claim 3 is the telescopic device according to claim 1 or 2, wherein the upper tubular body has a contact receiving surface, and the operating body has a contact surface that contacts the contact receiving surface, When releasing the fixation of the lower tubular body with respect to the upper tubular body, the rotation operation of the operation body in the fixing release direction is restricted by the contact between the contact surface and the contact receiving surface.
請求項4記載の伸縮装置は、請求項1ないし3のいずれか一記載の伸縮装置において、上段管状体は、当接受面を有する凸部を外周側に有し、操作体は、前記凸部が挿入され当接面を有する凹部を内周側に有し、下段管状体の上段管状体に対する固定を解除する際に、前記凹部の当接面が前記凸部の当接受面に当接し、この当接により前記操作体の固定解除方向への回動操作が規制されるものである。
The telescopic device according to claim 4 is the telescopic device according to any one of claims 1 to 3, wherein the upper tubular body has a convex portion having a contact receiving surface on an outer peripheral side, and the operating body is the convex portion. Has a concave portion having a contact surface inserted on the inner peripheral side, and when the lower tubular body is released from being fixed to the upper tubular body, the contact surface of the concave portion contacts the contact receiving surface of the convex portion, By this contact, the turning operation of the operation body in the fixing release direction is restricted.
請求項5記載の伸縮装置は、請求項4記載の伸縮装置において、上段管状体は、当接受面を有する凸部が外周面に形成されるとともに、操作体の内周ねじ部と螺合する外周ねじ部が外周面に形成され、かつ内方突出部が内周面に形成された筒状部材を有し、前記筒状部材は、前記凸部をプレス加工により形成した後に、内周面に前記内方突出部を切削加工により形成するとともに、外周面に前記外周ねじ部を切削加工により形成したものである。
According to a fifth aspect of the present invention, in the telescopic device according to the fourth aspect, the upper tubular body has a convex portion having a contact receiving surface formed on the outer peripheral surface and is screwed with an inner peripheral screw portion of the operating body. An outer peripheral thread portion is formed on the outer peripheral surface, and an inward protruding portion is formed on the inner peripheral surface. The cylindrical member has an inner peripheral surface after the convex portion is formed by pressing. The inner projecting portion is formed by cutting and the outer peripheral thread portion is formed by cutting on the outer peripheral surface.
本発明によれば、操作体の所定角度の回動操作によって下段管状体の上段管状体に対する固定およびその解除が行われるため、操作性が良好である。
According to the present invention, since the operation body is fixed to and released from the upper tubular body by rotating the operation body at a predetermined angle, the operability is good.
本発明の一実施の形態に係る伸縮装置(脚体)の分解斜視図である。It is a disassembled perspective view of the expansion-contraction apparatus (leg body) which concerns on one embodiment of this invention.
同上伸縮装置の固定手段の固定体の分解斜視図である。It is a disassembled perspective view of the fixing body of the fixing means of an expansion / contraction apparatus same as the above.
同上伸縮装置の固定手段による固定解除時(アンロック時)の断面図である。It is sectional drawing at the time of fixation cancellation | release by the fixing means of the expansion / contraction apparatus same as the above (at the time of unlocking).
図3におけるA−A断面図である。It is AA sectional drawing in FIG.
同上伸縮装置の固定手段による固定時(ロック時)の断面図である。It is sectional drawing at the time of fixation (at the time of a lock | rock) by the fixing means of an expansion-contraction apparatus same as the above.
図5におけるB−B断面図である。It is BB sectional drawing in FIG.
同上伸縮装置を具備した一脚の斜視図で、(a)は縮めた状態の図で、(b)は伸ばした状態の図である。It is a perspective view of the monopod which comprised the same expansion-contraction apparatus same as the above, (a) is a figure of the state contracted, (b) is a figure of the state which extended.
(a)ないし(c)は筒状部材の製造方法を説明するための説明図である。(A) thru | or (c) is explanatory drawing for demonstrating the manufacturing method of a cylindrical member.
従来の伸縮装置の断面図である。It is sectional drawing of the conventional expansion-contraction apparatus.
本発明の伸縮装置の一実施の形態を図1ないし図8を参照して説明する。
One embodiment of the telescopic device of the present invention will be described with reference to FIGS.
図7において、11は、被支持物(図示せず)を支持する支持装置としての一脚(モノポッド)である。被支持物は、例えばカメラ等の光学機器である。
In FIG. 7, 11 is a monopod as a support device for supporting a supported object (not shown). The supported object is an optical device such as a camera.
一脚11は、上下方向に長手方向を有する長手状でその長手方向に沿って伸縮可能な1本の伸縮装置である脚体12と、この脚体12の上端部に取り付けられ、被支持物を支持する支持体13とを具備している。
The monopod 11 is attached to an upper end portion of the leg body 12 and a leg body 12 that is a single telescopic device that has a longitudinal direction in the vertical direction and can be expanded and contracted along the longitudinal direction. And a support 13 for supporting the.
支持体13は、カメラ等の被支持物(図示せず)を支持する円板状の支持板14を備え、この支持板14の中央部には取付用ねじ15が設けられている。
The support 13 includes a disk-shaped support plate 14 that supports a supported object (not shown) such as a camera, and a mounting screw 15 is provided at the center of the support plate 14.
脚体12は、少なくとも、上段管状体21と、この上段管状体21内に上下方向(軸方向)に移動可能に挿入され、上段管状体21に対する移動によりその上段管状体21の下端からの突出長さを調整可能な下段管状体22と、この下段管状体22を上段管状体21に対して解除可能に固定する固定手段31とを備えている。
The leg body 12 is inserted into at least the upper tubular body 21 so as to be movable in the vertical direction (axial direction) into the upper tubular body 21, and protrudes from the lower end of the upper tubular body 21 by movement with respect to the upper tubular body 21. A lower tubular body 22 whose length is adjustable, and a fixing means 31 for releasably fixing the lower tubular body 22 to the upper tubular body 21 are provided.
つまり、例えば図7に示す例では、脚体12は、複数段、例えば6段式のもので、それぞれ径寸法が少しずつ異なる複数本、例えば6本の円筒状(略円筒状を含む。以下同様)の第1ないし第6の管状体21〜26と、管状体21〜25の下端側に設けられた複数、例えば5つの第1ないし第5の固定手段31〜35とを備えている。
That is, for example, in the example shown in FIG. 7, the leg body 12 has a plurality of stages, for example, a six-stage type, and a plurality of, for example, six cylinders (including a substantially cylindrical shape) each having a slightly different diameter size. (Same) first to sixth tubular bodies 21 to 26 and a plurality of, for example, five first to fifth fixing means 31 to 35 provided on the lower ends of the tubular bodies 21 to 25.
なお、最上段の管状体21の上端部には支持体13が取り付けられ、最下段の管状体26の下端部には石突30が取り付けられている。また、最上段の管状体21の外周側には、円筒状の発砲ゴム製のグリップ29が嵌着されている。
A support 13 is attached to the upper end of the uppermost tubular body 21, and a stone bump 30 is attached to the lower end of the lowermost tubular body 26. A cylindrical foamed rubber grip 29 is fitted on the outer peripheral side of the uppermost tubular body 21.
ここで、上段管状体21は、図1、図3ないし図6に示されるように、円筒状の上段管状部材41と、この上段管状部材41の下端部の外周側に上部が嵌合固着された円筒状の筒状部材(筒状部)42とを有している。なお、例えば上段管状部材41と筒状部材42とを一体に構成してもよい。
Here, as shown in FIGS. 1, 3 to 6, the upper tubular body 21 has an upper portion fitted and fixed to the outer peripheral side of the cylindrical upper tubular member 41 and the lower end portion of the upper tubular member 41. And a cylindrical member (cylindrical portion) 42 having a cylindrical shape. For example, the upper tubular member 41 and the tubular member 42 may be integrally formed.
上段管状部材41の内周面には、互いに離間対向する2本の上下方向長手状の回り止め用の突出部43が形成されている。
On the inner peripheral surface of the upper tubular member 41, two vertically extending protrusions 43 that are spaced apart from each other and are opposed to each other are formed.
筒状部材42の上部外周面における1箇所には、上下方向に長手方向を有する略楕円形状の当接受部である凸部45が形成されている。凸部45は、筒状部材42の上部外周側に筒状部材42の上端部近傍から筒状部材42の上下方向中央部近傍にわたって形成されている。凸部45は、上下方向長手状の当接受面46を上下方向に沿った一方の面(固定方向aの前面)に有している(図6参照)。なお、凸部45のうち当接受面46とは反対側の面、つまり上下方向に沿った他方の面(固定解除方向bの前面)が対向面50となっている。
A convex portion 45 that is a substantially elliptical contact receiving portion having a longitudinal direction in the vertical direction is formed at one location on the upper outer peripheral surface of the cylindrical member 42. The convex portion 45 is formed on the upper outer peripheral side of the cylindrical member 42 from the vicinity of the upper end portion of the cylindrical member 42 to the vicinity of the central portion in the vertical direction of the cylindrical member 42. The convex portion 45 has an abutting receiving surface 46 that is vertically long on one surface (front surface in the fixing direction a) along the vertical direction (see FIG. 6). Note that the surface of the convex portion 45 opposite to the contact receiving surface 46, that is, the other surface along the vertical direction (front surface in the fixing release direction b) is the facing surface 50.
筒状部材42の下部外周面には、螺旋状の溝からなる外周ねじ部47が形成されている。筒状部材42の上下方向中央部の内周面には、筒状部材42の周方向に沿った円形環状の内方突出部48が形成されている。
An outer peripheral thread portion 47 formed of a spiral groove is formed on the lower outer peripheral surface of the cylindrical member 42. A circular annular inward projecting portion 48 along the circumferential direction of the cylindrical member 42 is formed on the inner peripheral surface of the cylindrical member 42 in the center in the vertical direction.
下段管状体22は、図1、図3ないし図6に示されるように、上段管状部材41に比べて径寸法が小さい円筒状の下段管状部材51と、この下段管状部材51の上端部の外周側に嵌合固着され、下段管状体22が上段管状体21内から抜け出るのを防止する円筒状の抜止部材(抜止部)52とを有している。なお、例えば下段管状部材51と抜止部材52とを一体に構成してもよい。
As shown in FIGS. 1, 3 to 6, the lower tubular member 22 includes a cylindrical lower tubular member 51 having a smaller diameter than the upper tubular member 41, and the outer periphery of the upper end portion of the lower tubular member 51. It has a cylindrical retaining member (preventing part) 52 that is fitted and fixed to the side and prevents the lower tubular body 22 from coming out of the upper tubular body 21. For example, the lower tubular member 51 and the retaining member 52 may be configured integrally.
下段管状部材51の内周面には、互いに離間対向する2本の上下方向長手状の回り止め用の突出部53が形成されている。なお、下段管状部材51の下端部外周側には、筒状部材42と同様の筒状部材(図示せず)が固着されている。
On the inner peripheral surface of the lower tubular member 51, two vertically extending projections 53 for preventing rotation are formed so as to be spaced apart from each other. A cylindrical member (not shown) similar to the cylindrical member 42 is fixed to the outer peripheral side of the lower end portion of the lower tubular member 51.
抜止部材52は、この抜止部材52に周方向に分割された複数、例えば2つの湾曲板状の分割部材54にて構成されている。各分割部材54は、円形状の嵌入凸部55を内面側に有し、この嵌入凸部55が下段管状部材51の上端部の孔部56に嵌入されている。なお、両分割部材54の対向端部間に、上段管状部材41の突出部43が挿入されている。
The retaining member 52 includes a plurality of, for example, two curved plate-shaped divided members 54 that are divided in the circumferential direction by the retaining member 52. Each divided member 54 has a circular insertion convex portion 55 on the inner surface side, and this insertion convex portion 55 is inserted into the hole 56 at the upper end portion of the lower tubular member 51. Note that the protruding portion 43 of the upper tubular member 41 is inserted between the opposed end portions of the two split members 54.
固定手段31は、図1ないし図6に示されるように、上段管状体21の下端部の外周側、つまり筒状部材42の外周ねじ部47に螺着され、その筒状部材42に対して上下方向回動中心軸線を中心として回動操作可能な円筒状の操作体61と、上段管状体21の下端部内周面(筒状部材42の内周面)と下段管状体22の外周面との間に配設され、操作体61の回動操作に基づいて下段管状体22を上段管状体21に対して解除可能に固定する円筒状の固定体62とを有している。なお、固定体62は、筒状部材42の内方突出部48と操作体61の内方突出状の環状板部69との間で挟持されている。
As shown in FIGS. 1 to 6, the fixing means 31 is screwed to the outer peripheral side of the lower end portion of the upper tubular body 21, that is, the outer peripheral threaded portion 47 of the cylindrical member 42, and is fixed to the cylindrical member 42. A cylindrical operation body 61 that can be rotated about a vertical rotation center axis, an inner peripheral surface of the lower end portion of the upper tubular body 21 (an inner peripheral surface of the cylindrical member 42), and an outer peripheral surface of the lower tubular body 22 And a cylindrical fixing body 62 that releasably fixes the lower tubular body 22 to the upper tubular body 21 based on a turning operation of the operating body 61. The fixed body 62 is sandwiched between the inward projecting portion 48 of the cylindrical member 42 and the inward projecting annular plate portion 69 of the operating body 61.
操作体61は、例えば上段管状体21の筒状部材42の外周ねじ部47に螺着された円筒状のロックナットである螺着部材64と、この螺着部材64の外周側にスプライン嵌合により装着された円筒状の操作部材65と、この操作部材65の外周側に嵌着され、操作部材65および螺着部材64を覆うゴム製の円筒状のカバー部材66とに構成されている。
The operating body 61 includes, for example, a screw member 64 that is a cylindrical lock nut screwed to the outer peripheral thread portion 47 of the cylindrical member 42 of the upper tubular body 21, and a spline fitting on the outer peripheral side of the screw member 64. The cylindrical operation member 65 is attached to the outer peripheral side of the operation member 65, and a rubber cylindrical cover member 66 that covers the operation member 65 and the screwing member 64 is provided.
螺着部材64は、図3等に示されるように、円筒状の筒状部68を有し、この筒状部68の下端部内周面から円形環状の環状板部69が内方に向かって一体に突出している。なお、固定体62は、筒状部材42の内方突出部48と操作体61の内方突出状の環状板部69との間で挟持されている。
As shown in FIG. 3 and the like, the screw member 64 has a cylindrical tubular portion 68, and a circular annular plate portion 69 is directed inward from the inner peripheral surface of the lower end portion of the tubular portion 68. Protrusively. The fixed body 62 is sandwiched between the inward projecting portion 48 of the cylindrical member 42 and the inward projecting annular plate portion 69 of the operating body 61.
また、筒状部68の内周面には、筒状部材42の外周ねじ部47と螺合する内周ねじ部70が形成されている。筒状部68の外周面には、軸方向に沿った複数の外周溝71が形成されている(図1参照)。そして、操作部材65の下部内周面には、螺着部材64の外周溝71と対応する複数の内周溝72が軸方向に沿って形成されている。
Further, an inner peripheral screw portion 70 that is screwed with the outer peripheral screw portion 47 of the cylindrical member 42 is formed on the inner peripheral surface of the cylindrical portion 68. A plurality of outer peripheral grooves 71 along the axial direction are formed on the outer peripheral surface of the cylindrical portion 68 (see FIG. 1). A plurality of inner peripheral grooves 72 corresponding to the outer peripheral grooves 71 of the screwing member 64 are formed in the lower inner peripheral surface of the operation member 65 along the axial direction.
また、操作部材65の上部内周面の所定部位には、窪み状の凹部75が上端面から切り欠かれるように形成されている。つまり、凹部75は、操作部材65の上部内周側に操作部材65の上端面から操作部材65の上下方向中央部にわたって形成されている。この凹部75には、筒状部材42の外周側の凸部45がその凹部75に対して操作部材65の周方向に移動可能に挿入されて収納されている。
In addition, a recessed portion 75 is formed in a predetermined portion of the upper inner peripheral surface of the operation member 65 so as to be cut out from the upper end surface. That is, the concave portion 75 is formed on the upper inner peripheral side of the operation member 65 from the upper end surface of the operation member 65 to the central portion in the vertical direction of the operation member 65. A convex portion 45 on the outer peripheral side of the cylindrical member 42 is inserted into and stored in the concave portion 75 so as to be movable in the circumferential direction of the operation member 65 with respect to the concave portion 75.
そして、図4および図6等に示されるように、操作部材65の凹部75のうちその操作部材65の径方向に沿って位置する上下方向長手状の一方の面が、凸部45の当接受面46に当接する当接面76となっている。また、操作部材65の凹部75のうちその操作部材65の径方向に沿って位置する上下方向長手状の他方の面が、凸部45の対向面50と離間対向する対向面77となっている。さらに、操作部材65の凹部75のうちその操作部材65の周方向に沿って位置する円弧面状の面が、筒状部材42の外周面と対向する円弧面78となっている。
4 and 6 and the like, one of the concave portions 75 of the operating member 65, which has a longitudinally long surface positioned along the radial direction of the operating member 65, is in contact with the convex portion 45. A contact surface 76 that contacts the surface 46 is formed. In addition, the other longitudinally long surface located along the radial direction of the operation member 65 among the recesses 75 of the operation member 65 is a facing surface 77 that faces the facing surface 50 of the convex portion 45 so as to be spaced apart. . Further, an arcuate surface located along the circumferential direction of the operating member 65 in the recess 75 of the operating member 65 is an arcuate surface 78 facing the outer peripheral surface of the cylindrical member 42.
なお、操作体61の固定解除方向bへの回動の際に凹部75の当接面76は凸部45の当接受面46に当接するが、操作体61の固定方向aへの回動の際に凹部75の対向面77は凸部45の対向面50に当接しない。
Note that the contact surface 76 of the concave portion 75 contacts the contact receiving surface 46 of the convex portion 45 when the operating body 61 rotates in the fixing release direction b. At this time, the facing surface 77 of the concave portion 75 does not contact the facing surface 50 of the convex portion 45.
さらに、カバー部材66は、図3等に示されるように、操作部材65の外周面全体を覆う円筒状の筒状部81を有している。筒状部81の上端部内周面から円形環状の上環状板部82が内方に向かって一体に突出し、この上環状板部82の内周面が筒状部材42の上端部外周面に接触している。また、筒状部81の下端部内周面から円形環状の下環状板部83が内方に向かって一体に突出し、この下環状板部83にて螺着部材64の下面が覆われている。
Further, as shown in FIG. 3 and the like, the cover member 66 has a cylindrical tubular portion 81 that covers the entire outer peripheral surface of the operation member 65. A circular annular upper annular plate portion 82 projects integrally inward from the inner peripheral surface of the upper end portion of the cylindrical portion 81, and the inner peripheral surface of the upper annular plate portion 82 contacts the outer peripheral surface of the upper end portion of the cylindrical member 42. doing. Further, a circular annular lower annular plate portion 83 protrudes inward from the inner peripheral surface of the lower end portion of the tubular portion 81, and the lower annular plate portion 83 covers the lower surface of the screw member 64.
なお、カバー部材66の下環状板部83の内周面と下段管状体22の外周面との間には第1隙間84が存在する。また同様に、螺着部材64の環状板部69の内周面と下段管状体22の外周面との間には第1隙間84に連通する第2隙間85が存在し、この第2隙間85の上面が後述の被押圧面98にて閉鎖されている。
A first gap 84 exists between the inner peripheral surface of the lower annular plate portion 83 of the cover member 66 and the outer peripheral surface of the lower tubular body 22. Similarly, a second gap 85 that communicates with the first gap 84 exists between the inner peripheral surface of the annular plate portion 69 of the screw member 64 and the outer peripheral surface of the lower tubular body 22. Is closed by a pressed surface 98 described later.
固定体62は、図2および図3等に示されるように、例えば上方に向かって徐々に拡径する截頭円錐状の複数(例えば5つ)の内周上向傾斜面86を上部内周側に有しかつ下方に向かって徐々に拡径する截頭円錐状の複数(例えば5つ)の内周下向傾斜面87を下部内周側に有する円筒状の外側部材88と、内周上向傾斜面86と面状に接触する複数(例えば5つ)の外周下向傾斜面91を外周側に有する円筒状の上内側部材92と、内周下向傾斜面87と面状に接触する複数(例えば5つ)の外周上向傾斜面93を外周側に有する円筒状の下内側部材94とにて構成されている。
As shown in FIGS. 2 and 3, etc., the fixed body 62 has a plurality of frustoconical (for example, five) inner circumferential upward inclined surfaces 86 that gradually increase in diameter toward the upper inner circumference. A cylindrical outer member 88 having a plurality of (e.g., five) frusto-cone-shaped inner circumferential downward inclined surfaces 87 on the lower inner peripheral side, which are provided on the side and gradually increase in diameter downward. A cylindrical upper inner member 92 having a plurality of (for example, five) outer peripheral downward inclined surfaces 91 in contact with the upward inclined surface 86 in a planar shape, and an inner peripheral downward inclined surface 87 in a planar shape. And a cylindrical lower inner member 94 having a plurality of (for example, five) outer peripheral upward inclined surfaces 93 on the outer peripheral side.
なお、筒状部材42の内周面と下段管状体22の外周面との間の空間部における外周側部分に外側部材88が配設され、その空間部における内周側部分に上内側部材92および下内側部材94が配設されている。つまり、1つの外側部材88の内周側に上下2つの内側部材92,94がその外側部材88の内周面に接触して配設されている。これら上下対をなす内側部材92,94は互いに接触しないように配設され、上内側部材92の下端面と下内側部材94の上端面とが隙間90を介して互いに離間対向している。
An outer member 88 is disposed in the outer peripheral portion of the space between the inner peripheral surface of the cylindrical member 42 and the outer peripheral surface of the lower tubular body 22, and the upper inner member 92 is disposed in the inner peripheral portion of the space. A lower inner member 94 is disposed. That is, the upper and lower inner members 92 and 94 are disposed on the inner peripheral side of one outer member 88 so as to contact the inner peripheral surface of the outer member 88. These upper and lower inner members 92 and 94 are arranged so as not to contact each other, and the lower end surface of the upper inner member 92 and the upper end surface of the lower inner member 94 are spaced apart from each other with a gap 90 therebetween.
そして、操作体61が一方向である固定方向aに回動操作(例えば90度以下の所定角度θの回動操作)されると、外側部材88から受ける径方向内方への力に基づいて上内側部材92および下内側部材94が弾性的に縮径変形して下段管状体22の外周面に圧着されることによって、下段管状体22が上段管状体21に対して固定される。
Then, when the operating body 61 is rotated in a fixed direction a which is one direction (for example, a rotating operation of a predetermined angle θ of 90 degrees or less), based on the radially inward force received from the outer member 88. The upper inner member 92 and the lower inner member 94 are elastically reduced in diameter and pressed onto the outer peripheral surface of the lower tubular body 22, whereby the lower tubular body 22 is fixed to the upper tubular body 21.
また、操作体61が一方向とは反対の他方向である固定解除方向bに回動操作(例えば90度以下の所定角度θの回動操作)されると、弾性復元力に基づいて両内側部材92,94が元の形状に復帰して下段管状体22の外周面に対する上内側部材92および下内側部材94の圧着が解除されることによって、下段管状体22の上段管状体21に対する固定が解除される。この固定解除により、下段管状体22は上段管状体21に対して軸方向に移動可能な状態となる。
Further, when the operation body 61 is rotated in a fixing release direction b which is the other direction opposite to one direction (for example, a rotation operation of a predetermined angle θ of 90 degrees or less), both inner sides are based on the elastic restoring force. The members 92 and 94 are restored to their original shapes, and the upper inner member 92 and the lower inner member 94 are released from the outer peripheral surface of the lower tubular body 22, thereby fixing the lower tubular body 22 to the upper tubular body 21. Canceled. By the release of the fixing, the lower tubular body 22 becomes movable in the axial direction with respect to the upper tubular body 21.
なお、筒状部材42に対して操作体61を回動操作する際の所定角度θは、360度以下、例えば120〜90度以下であり、好ましくは40度〜60度の範囲内の角度、例えば50度である。図6中、点Pは操作体61の回動中心軸線上の点であり、また、固定位置に位置した操作体61の当接面76と点Pとを通る線L1と、筒状部材42の当接受面46と点Pとを通る線L2とがなす角度が所定角度θである。
In addition, the predetermined angle θ when the operating body 61 is rotated with respect to the cylindrical member 42 is 360 degrees or less, for example, 120 to 90 degrees or less, preferably an angle within a range of 40 degrees to 60 degrees, For example, it is 50 degrees. In FIG. 6, a point P is a point on the rotation center axis of the operating body 61, a line L1 passing through the contact surface 76 of the operating body 61 located at the fixed position and the point P, and the cylindrical member 42. The angle formed between the contact receiving surface 46 and the line L2 passing through the point P is a predetermined angle θ.
ここで、外側部材88は、この外側部材88の周方向に分割された複数、例えば2つの分割部材95にて構成されている。一方の分割部材95の上端面が階段状に形成され、他方の分割部材95の下端面が階段状に形成されている。そして、各分割部材95の上部内周面には上下に並ぶ互いに平行な複数の内周上向傾斜面86が形成され、各分割部材95の下部内周面には上下に並ぶ互いに平行な複数の内周下向傾斜面87が形成されている。つまり、外側部材88は、互いに向きの異なる鋸状の山を内周側に有している。なお、外側部材88および下内側部材94は、操作体61の回動操作に基づいて、上段管状体21に対して若干量だけ上下方向に移動可能となっている。
Here, the outer member 88 is configured by a plurality of, for example, two divided members 95 divided in the circumferential direction of the outer member 88. The upper end surface of one split member 95 is formed in a step shape, and the lower end surface of the other split member 95 is formed in a step shape. In addition, a plurality of mutually parallel inner circumferential upward inclined surfaces 86 are formed on the upper inner peripheral surface of each divided member 95, and a plurality of parallel inner parallel upper and lower surfaces are formed on the lower inner peripheral surface of each divided member 95. An inner circumferential downward inclined surface 87 is formed. That is, the outer member 88 has saw-shaped peaks of different directions on the inner peripheral side. The outer member 88 and the lower inner member 94 are movable in the vertical direction by a slight amount with respect to the upper tubular body 21 based on the turning operation of the operating body 61.
また、上内側部材92は、縮径変形し易いように切欠部96を有したC字状をなすものであり、この上内側部材92の外周面には、内周上向傾斜面86に対応して上下に並ぶ互いに平行な複数の外周下向傾斜面91が形成されている。つまり、上内側部材92は、鋸状の山を外周側に有している。なお、上内側部材92の上端面は、筒状部材42の内方突出部48に常時接触している。また、上内側部材92の上端面と抜止部材52の下端面との当接により、下段管状体22の上段管状体21内からの抜けが防止される。
The upper inner member 92 has a C-shape with a notch 96 so that it can be easily reduced in diameter, and the outer peripheral surface of the upper inner member 92 corresponds to the inner peripheral upward inclined surface 86. Thus, a plurality of outer peripheral downward inclined surfaces 91 that are parallel to each other are formed vertically. That is, the upper inner member 92 has a saw-like peak on the outer peripheral side. The upper end surface of the upper inner member 92 is always in contact with the inward protruding portion 48 of the cylindrical member 42. Further, the contact between the upper end surface of the upper inner member 92 and the lower end surface of the retaining member 52 prevents the lower tubular body 22 from coming off from the upper tubular body 21.
さらに、下内側部材94も、上内側部材92と同様、縮径変形し易いように切欠部97を有したC字状をなすものであり、この下内側部材94の外周面には、内周下向傾斜面87に対応して上下に並ぶ互いに平行な複数の外周上向傾斜面93が形成されている。つまり、下内側部材94は、上内側部材92の鋸状の山とは向きが異なる鋸状の山を外周側に有している。
Further, the lower inner member 94 also has a C-shape having a notch 97 so as to be easily deformed in diameter as in the case of the upper inner member 92. The outer peripheral surface of the lower inner member 94 has an inner peripheral surface. Corresponding to the downward inclined surface 87, a plurality of parallel outer peripheral upward inclined surfaces 93 arranged in the vertical direction are formed. In other words, the lower inner member 94 has a saw-shaped mountain on the outer peripheral side that is different in direction from the saw-shaped mountain of the upper inner member 92.
また、下内側部材94は、下段管状体22の軸方向に直交する方向に沿った水平状の被押圧面98を下端面に有している。そして、被押圧面98は、操作体61の固定方向への回動操作に基づいて、螺着部材64の押圧面99によって上方へ押圧される。この押圧面99は、螺着部材64の環状板部69の上面、つまり螺着部材64の軸方向に直交する方向に沿った環状板部69の上面の内周部分に平面状に形成され、被押圧面98と常時接触している。
In addition, the lower inner member 94 has a horizontal pressed surface 98 along the direction orthogonal to the axial direction of the lower tubular body 22 at the lower end surface. Then, the pressed surface 98 is pressed upward by the pressing surface 99 of the screw member 64 based on the turning operation of the operating body 61 in the fixing direction. The pressing surface 99 is formed in a planar shape on the upper surface of the annular plate portion 69 of the screw member 64, that is, on the inner peripheral portion of the upper surface of the annular plate portion 69 along the direction orthogonal to the axial direction of the screw member 64, It is always in contact with the pressed surface 98.
なお、第1、第2の管状体21,22および第1の固定手段31について説明したが、他の管状体23〜26および固定手段32〜35も同様の構成である。
Although the first and second tubular bodies 21 and 22 and the first fixing means 31 have been described, the other tubular bodies 23 to 26 and the fixing means 32 to 35 have the same configuration.
またここで、図8は、筒状部材42の製造方法を説明するための図であり、この図を参照して筒状部材42の製法方法を説明する。
Here, FIG. 8 is a diagram for explaining a method of manufacturing the cylindrical member 42, and a method of manufacturing the cylindrical member 42 will be described with reference to this drawing.
図8(a)に示す円筒部材101は、アルミニウム等の金属製のもので、内周面および外周面がいずれも円筒面状に形成されている。
The cylindrical member 101 shown in FIG. 8A is made of a metal such as aluminum, and both the inner peripheral surface and the outer peripheral surface are formed in a cylindrical surface shape.
まず、図8(b)に示すように、プレス機によるプレス加工によって、円筒部材101の外周面に略楕円形状の凸部45を外方に向けて突出形成する。このプレス加工の際、円筒部材101の内周面には、略楕円形状の凹部102が形成される。
First, as shown in FIG. 8B, a substantially elliptical convex portion 45 is formed on the outer peripheral surface of the cylindrical member 101 so as to protrude outward by pressing with a press. At the time of this pressing, a substantially elliptical concave portion 102 is formed on the inner peripheral surface of the cylindrical member 101.
その後、図8(c)に示すように、旋盤による切削加工によって、円筒部材101の外周面に外周ねじ部47を形成するとともに、円筒部材101の内周面に円形環状の内方突出部48を形成する。
Thereafter, as shown in FIG. 8C, an outer peripheral threaded portion 47 is formed on the outer peripheral surface of the cylindrical member 101 by cutting with a lathe, and a circular annular inward protruding portion 48 is formed on the inner peripheral surface of the cylindrical member 101. Form.
このようにして、凸部45、外周ねじ部47および内方突出部48を有する筒状部材42が完成する。この完成した筒状部材42を上段管状部材41に取り付ける際には、上段管状部材41の下端面が筒状部材42の内方突出部48に当接するまで、上段管状部材41の下端部を筒状部材42内に嵌入する。
In this way, the cylindrical member 42 having the convex portion 45, the outer peripheral threaded portion 47, and the inward protruding portion 48 is completed. When attaching the completed tubular member 42 to the upper tubular member 41, the lower end portion of the upper tubular member 41 is tubular until the lower end surface of the upper tubular member 41 contacts the inwardly projecting portion 48 of the tubular member 42. It is inserted into the shaped member 42.
なお、例えばカーボン三脚と、ねじ部をパイプとは別部品にて形成し接合により一体化させる手法においては、ねじ部の素管はとても肉厚である。よって、素管のうちに形成されたエンボス(凸部)は重複部が十分にとれ外力を受けてももげることはない。
For example, in a method in which the carbon tripod and the threaded portion are formed separately from the pipe and integrated by joining, the threaded tube is very thick. Therefore, the embossing (convex part) formed in the raw tube does not peel off even when the overlapping part is sufficiently removed.
なお、筒状部材42、各管状部材41,51、抜止部材52、螺着部材64および操作部材65は例えばアルミニウム等の金属製(カーボン製でもよい)であり、固定体62を構成する外側部材88、上内側部材92および下内側部材94は例えばPOM等の合成樹脂製である。
The tubular member 42, the tubular members 41 and 51, the retaining member 52, the screwing member 64, and the operation member 65 are made of metal such as aluminum (may be made of carbon), for example, and are outer members that constitute the fixed body 62. 88, the upper inner member 92 and the lower inner member 94 are made of a synthetic resin such as POM, for example.
次に、上記一実施の形態の作用等を説明する。
Next, the operation and the like of the one embodiment will be described.
例えば一脚11の脚体12の長さを所望長さに調整した後、下段管状体22を上段管状体21に対して固定手段31で固定する場合、その一脚11の使用者は、操作体61を90度以下の所定角度θだけ固定方向aに向けて回動操作する。つまり、操作体61を筒状部材42に対して締め付け方向に所定角度θだけ回動させる。
For example, when adjusting the length of the leg 12 of the monopod 11 to a desired length and then fixing the lower tubular body 22 to the upper tubular body 21 with the fixing means 31, the user of the monopod 11 can operate The body 61 is rotated by a predetermined angle θ of 90 degrees or less toward the fixed direction a. That is, the operating body 61 is rotated by a predetermined angle θ in the tightening direction with respect to the cylindrical member 42.
すると、図5および図6に示すように、固定体62の上内側部材92および下内側部材94が下段管状体22の外周面に圧着され、この圧着により下段管状体22が上段管状体21に対して固定される。
Then, as shown in FIGS. 5 and 6, the upper inner member 92 and the lower inner member 94 of the fixed body 62 are crimped to the outer peripheral surface of the lower tubular body 22, and the lower tubular body 22 is bonded to the upper tubular body 21 by this crimping. It is fixed against.
すなわち、操作体61が固定方向aへの回動に応じて少し上動すると、下内側部材94の被押圧面98が操作体61の押圧面99にて上方へ押圧される。
That is, when the operating body 61 is slightly moved upward according to the rotation in the fixing direction a, the pressed surface 98 of the lower inner member 94 is pressed upward by the pressing surface 99 of the operating body 61.
その結果、上内側部材92および下内側部材94が、外側部材88の傾斜面86,87から受ける径方向内方への力に基づいて弾性的に縮径変形し、それら両内側部材92,94の内周面が下段管状体22の外周面に押し付けられて圧着固定される。なおこのとき、下内側部材94および外側部材88が筒状部材42に対して若干量だけ上方へ移動する。上内側部材92は、内方突出部48に当接しているため、上方へ移動しない。
As a result, the upper inner member 92 and the lower inner member 94 are elastically reduced in diameter based on the radially inward force received from the inclined surfaces 86, 87 of the outer member 88, and both the inner members 92, 94 The inner peripheral surface is pressed against the outer peripheral surface of the lower tubular body 22 and fixed by pressure. At this time, the lower inner member 94 and the outer member 88 move upward by a slight amount with respect to the cylindrical member 42. Since the upper inner member 92 is in contact with the inward projecting portion 48, it does not move upward.
こうして、固定手段31によって下段管状体(下段パイプ)22が上段管状体(上段パイプ)21に対して固定される。そして、この固定手段31による固定時において、下段管状体22は、上下2つの両内側部材92,94による十分な固定力によって、上段管状体21に対して強固に固定されているため、ガタつくことがなく、上段管状体21に対して首を振るようなことがない。すなわち例えば図7(b)に示すように、一脚11の脚体12を最大長さまで伸ばして固定手段31〜35で固定した場合であっても、互いに隣り合う両管状体21〜26同士の接続部(関節部)が屈曲せず、脚体12の真っ直ぐに伸びた状態が維持される。
Thus, the lower tubular body (lower pipe) 22 is fixed to the upper tubular body (upper pipe) 21 by the fixing means 31. When the fixing means 31 is fixed, the lower tubular body 22 is firmly fixed to the upper tubular body 21 with sufficient fixing forces by the upper and lower inner members 92 and 94, and thus rattles. There is no such thing as shaking the head with respect to the upper tubular body 21. That is, for example, as shown in FIG. 7B, even when the leg 12 of the monopod 11 is extended to the maximum length and fixed by the fixing means 31 to 35, the two adjacent tubular bodies 21 to 26 are adjacent to each other. The connecting portion (joint portion) is not bent, and the leg body 12 is kept straight.
また、例えば外周ねじ部47に対して内周ねじ部70がガタつく場合であっても、操作体61の押圧面99が下内側部材94の被押圧面98に対して摺動するため、両内側部材92,94による十分な固定力が維持される。
Further, for example, even when the inner peripheral thread portion 70 is rattled with respect to the outer peripheral thread portion 47, the pressing surface 99 of the operating body 61 slides against the pressed surface 98 of the lower inner member 94. A sufficient fixing force by the inner members 92 and 94 is maintained.
次いで、例えば固定手段31による固定を解除する場合、一脚11の使用者は、操作体61を90度以下の所定角度θだけ固定解除方向bに向けて回動操作する。つまり、操作体61を筒状部材42に対して緩め方向に所定角度θだけ回動させる。
Next, for example, when releasing the fixation by the fixing means 31, the user of the monopod 11 rotates the operation body 61 by a predetermined angle θ of 90 degrees or less in the fixation release direction b. That is, the operating body 61 is rotated by a predetermined angle θ in the loosening direction with respect to the cylindrical member 42.
すると、図3および図4に示すように、下段管状体22の外周面に対する上内側部材92および下内側部材94の圧着が解除され、この圧着解除により下段管状体22の上段管状体21に対する固定が解除される。
Then, as shown in FIGS. 3 and 4, the pressure bonding of the upper inner member 92 and the lower inner member 94 with respect to the outer peripheral surface of the lower tubular body 22 is released, and the fixing to the upper tubular body 21 of the lower tubular body 22 is performed by releasing the pressure bonding. Is released.
すなわち、操作体61が固定解除方向bへの回動に応じて少し下動すると、操作体61の押圧面99による被押圧面98の押圧が解除される。
That is, when the operating body 61 is slightly moved downward in accordance with the rotation in the fixing release direction b, the pressing of the pressed surface 98 by the pressing surface 99 of the operating body 61 is released.
その結果、上内側部材92および下内側部材94が、弾性復元力に基づいて元の形状に復帰し、それら両内側部材92,94の内周面が下段管状体22の外周面から僅かに離れた状態となり、その外周面に対する両内側部材92,94の圧着が解除される。なおこのとき、下内側部材94および外側部材88が筒状部材42に対して若干量だけ下方へ移動する。
As a result, the upper inner member 92 and the lower inner member 94 return to their original shapes based on the elastic restoring force, and the inner peripheral surfaces of the inner members 92 and 94 are slightly separated from the outer peripheral surface of the lower tubular body 22. In this state, the crimping of the inner members 92 and 94 to the outer peripheral surface is released. At this time, the lower inner member 94 and the outer member 88 move downward by a slight amount with respect to the cylindrical member 42.
また、操作体61を固定解除方向bに回動操作して下段管状体22の上段管状体21に対する固定を解除する際に、操作体61の凹部75の当接面76が上段管状体21の凸部45の当接受面46に当接し、この当接により操作体61の固定解除方向bへの回動操作が規制される。
Further, when the operating body 61 is rotated in the fixing release direction b to release the fixing to the upper tubular body 21 of the lower tubular body 22, the contact surface 76 of the concave portion 75 of the operating body 61 has the upper tubular body 21. The abutment surface 46 abuts on the abutment receiving surface 46 of the convex portion 45, and the abutment operation restricts the operation body 61 in the fixing release direction b.
つまり、凹部75の当接面76が凸部45の当接受面46に当接するため、使用者は、操作体61を固定解除方向bに向けて必要以上に回し過ぎることがなく、操作体61を上下方向の回動中心軸線を中心として所定角度θだけ固定解除方向bへ回動操作することとなる。
That is, since the contact surface 76 of the concave portion 75 contacts the contact receiving surface 46 of the convex portion 45, the user does not turn the operation body 61 more than necessary in the fixing release direction b. Is rotated in the fixed release direction b by a predetermined angle θ about the rotation center axis in the vertical direction.
こうして、固定手段31による下段管状体22の上段管状体21に対する固定が解除される。そして、この固定手段31による固定解除時において、下段管状体22を上段管状体21に対して移動させることにより、一脚11の脚体12の長さを調整することが可能である。
Thus, the fixing of the lower tubular body 22 to the upper tubular body 21 by the fixing means 31 is released. When the fixing means 31 releases the fixation, the length of the leg 12 of the monopod 11 can be adjusted by moving the lower tubular body 22 relative to the upper tubular body 21.
そして、上記一実施の形態によれば、固定手段31〜35の固定体62による固定時における管状体22〜26のガタつきを防止でき、よって、例えば一脚11を使用してカメラによる安定的な撮影を行うことができる。
According to the above-described embodiment, rattling of the tubular bodies 22 to 26 at the time of fixing by the fixing body 62 of the fixing means 31 to 35 can be prevented. Can be taken.
また、固定体62は外側部材88、上内側部材92および下内側部材94にて構成され、外側部材88が複数の内周上向傾斜面86および複数の内周下向傾斜面87を有し、上内側部材92が複数の外周下向傾斜面91を有し、下内側部材94が複数の外周上向傾斜面93を有するため、固定手段31〜35による固定時における管状体22〜26のガタつきを適切に防止できる。
The fixed body 62 includes an outer member 88, an upper inner member 92, and a lower inner member 94. The outer member 88 has a plurality of inner peripheral upward inclined surfaces 86 and a plurality of inner peripheral downward inclined surfaces 87. Since the upper inner member 92 has a plurality of outer peripheral downward inclined surfaces 91 and the lower inner member 94 has a plurality of outer peripheral upward inclined surfaces 93, the tubular bodies 22 to 26 at the time of fixing by the fixing means 31 to 35 are provided. The rattle can be prevented appropriately.
さらに、下内側部材94は下段管状体22の軸方向に直交する方向に沿った被押圧面98を下端面に有し、操作体61は下内側部材94の被押圧面98を押圧する押圧面99を有するため、上段管状体21の外周ねじ部47に対する操作体61の内周ねじ部70のガタつきの影響を受けず、固定手段31〜35による固定時における管状体22〜26のガタつきをより一層適切に防止できる。
Further, the lower inner member 94 has a pressed surface 98 along the direction orthogonal to the axial direction of the lower tubular body 22 at the lower end surface, and the operating body 61 is a pressing surface that presses the pressed surface 98 of the lower inner member 94. 99, it is not affected by the backlash of the inner peripheral thread portion 70 of the operating body 61 with respect to the outer peripheral thread portion 47 of the upper tubular body 21, and the backlash of the tubular bodies 22 to 26 at the time of fixing by the fixing means 31 to 35 is prevented. This can be prevented more appropriately.
また、常に操作体61の360度(好ましくは120度、さらに好ましくは90度)以下の所定角度θの回動操作によって、下段管状体22の上段管状体21に対する固定およびその解除が行われるため、操作性が良好である。
In addition, the operation body 61 is always fixed to and released from the upper tubular body 21 by rotating the operation body 61 at a predetermined angle θ of 360 degrees (preferably 120 degrees, more preferably 90 degrees) or less. The operability is good.
さらに、操作体61を回動操作して下段管状体22の上段管状体21に対する固定を解除する際に、当接面76と当接受面46との当接により操作体61の固定解除方向への回動操作が規制されるため、操作体61を固定解除方向へ回し過ぎることを適切に防止できる。
Further, when the operation body 61 is rotated to release the fixing of the lower tubular body 22 from the upper tubular body 21, the contact of the contact surface 76 and the contact receiving surface 46 causes the operation body 61 to be released from the unlocking direction. Therefore, it is possible to appropriately prevent the operating body 61 from being turned too far in the fixing release direction.
なお、上記一実施の形態では、伸縮装置は一脚11の脚体12である場合について説明したが、例えば三脚の脚体でもよく、また支持装置の脚体以外でもよい。
In the above embodiment, the case where the telescopic device is the leg 12 of the monopod 11 has been described. However, for example, a tripod leg or a leg other than the leg of the support device may be used.
また、伸縮装置は、6本の管状体21〜26および5つの固定手段31〜35を備える構成には限定されず、少なくとも2本の管状体21,22および1つの固定手段31を備える構成であればよい。
Further, the telescopic device is not limited to the configuration including the six tubular bodies 21 to 26 and the five fixing means 31 to 35, and is configured to include at least two tubular bodies 21, 22 and one fixing means 31. I just need it.
さらに、固定体62の内周上向傾斜面86、内周下向傾斜面87、外周下向傾斜面91および外周上向傾斜面93の数は、いずれも任意であり、複数でもよく、1つでもよい。
Further, the number of the inner peripheral upward inclined surface 86, the inner peripheral downward inclined surface 87, the outer peripheral downward inclined surface 91, and the outer peripheral upward inclined surface 93 of the fixed body 62 is arbitrary and may be plural. One may be sufficient.
また、例えば操作体61の回動操作により下段管状体22を上段管状体21に対して固定する際に、筒状部材42の凸部45の対向面50と操作体61の凹部75の対向面77との当接により、操作体61の固定方向aへの回動操作が規制される構成でもよい。
Further, for example, when the lower tubular body 22 is fixed to the upper tubular body 21 by rotating the operation body 61, the opposed surface 50 of the convex portion 45 of the cylindrical member 42 and the opposed surface of the concave portion 75 of the operating body 61 The configuration may be such that the rotation operation of the operation body 61 in the fixing direction a is restricted by the contact with 77.
本発明は、例えば支持装置が具備する伸縮可能な脚体等に利用される。
The present invention is used for, for example, an extendable leg body included in a support device.
12 伸縮装置である脚体
21 上段管状体
22 下段管状体
31 固定手段
42 筒状部材
45 凸部
46 当接受面
47 外周ねじ部
48 内方突出部
61 操作体
70 内周ねじ部
75 凹部
76 当接面
b 固定解除方向12 Legs that are telescopic devices
21 Upper tubular body
22 Lower tubular body
31 Fixing means
42 Tubular member
45 Convex
46 Contact surface
47 External thread
48 Inward protrusion
61 Operation body
70 Inner thread
75 recess
76 Contact surface b Unlocking direction
請求項1記載の伸縮装置は、上段管状体と、この上段管状体内に移動可能に挿入された下段管状体と、この下段管状体を前記上段管状体に対して解除可能に固定する固定手段とを備え、前記固定手段は、回動操作可能な操作体を有し、前記操作体の360度以下の所定角度の回動操作によって、前記下段管状体の前記上段管状体に対する固定およびその解除が行われるものである。
The telescopic device according to claim 1, an upper tubular body, a lower tubular body movably inserted into the upper tubular body, and a fixing means for releasably fixing the lower tubular body to the upper tubular body. The fixing means has an operating body that can be rotated, and the lower tubular body can be fixed to and released from the upper tubular body by rotating the operating body at a predetermined angle of 360 degrees or less. Is to be done.
請求項2記載の伸縮装置は、請求項1記載の伸縮装置において、操作体の90度以下の所定角度の回動操作によって、下段管状体の上段管状体に対する固定およびその解除が行われるものである。
The telescopic device according to claim 2 is the telescopic device according to claim 1, wherein the lower tubular body is fixed to and released from the upper tubular body by rotating the operating body at a predetermined angle of 90 degrees or less. is there.
請求項3記載の伸縮装置は、請求項1または2記載の伸縮装置において、上段管状体は、当接受面および対向面を有し、操作体は、前記当接受面に当接する当接面を有するとともに前記対向面と離間対向する対向面を有し、下段管状体の上段管状体に対する固定を解除する際に、前記当接面と前記当接受面との当接により前記操作体の固定解除方向への回動操作が規制されるが、前記下段管状体を前記上段管状体に対して固定する際には前記両対向面同士が当接しないものである。
According to a third aspect of the present invention, in the telescopic device according to the first or second aspect, the upper tubular body has a contact receiving surface and an opposing surface , and the operating body has a contact surface that contacts the contact receiving surface. as well as organic have opposing surfaces spaced apart opposing to the opposing surface, when releasing the fixing against the upper tubular body of the lower tubular body, fixing of the contact by the operation of said abutment surface and said contact receiving surface Although the turning operation in the release direction is restricted, the opposing surfaces do not come into contact with each other when the lower tubular body is fixed to the upper tubular body .
12 伸縮装置である脚体
21 上段管状体
22 下段管状体
31 固定手段
42 筒状部材
45 凸部
46 当接受面
47 外周ねじ部
48 内方突出部
50 対向面
61 操作体
70 内周ねじ部
75 凹部
76 当接面
77 対向面
b 固定解除方向
12 Legs that are telescopic devices
21 Upper tubular body
22 Lower tubular body
31 Fixing means
42 Tubular member
45 Convex
46 Contact surface
47 External thread
48 Inward protrusion
50 facing surface
61 Operation body
70 Inner thread
75 recess
76 Contact surface
77 Opposing surface b Unlocking direction
本発明は、伸縮可能な伸縮装置に関する。
The present invention relates to a telescopic device capable of stretching.
従来から、例えばカメラを支持するカメラ支持具等の支持装置(三脚や一脚等)が広く知られている(例えば特許文献1)。
2. Description of the Related Art Conventionally, for example, a support device (such as a tripod or a monopod) that supports a camera is widely known (for example, Patent Document 1).
そして、この種の支持装置は、伸縮可能な伸縮装置である脚体を具備し、この脚体は、例えば図9に示すような構成となっている。
This type of support device includes a leg that is a telescopic device that can be expanded and contracted, and this leg has a configuration as shown in FIG. 9, for example.
この図9に示された脚体1は、上段管状体2と、この上段管状体2内に移動可能に挿入された下段管状体3と、この下段管状体3を上段管状体2に対して解除可能に固定する固定手段4とを備えている。
The leg 1 shown in FIG. 9 includes an upper tubular body 2, a lower tubular body 3 movably inserted into the upper tubular body 2, and the lower tubular body 3 with respect to the upper tubular body 2. And fixing means 4 for releasably fixing.
また、固定手段4は、上段管状体2の下端部の外周側に螺着された操作ナット6と、この操作ナット6と下段管状体3との間に配設された固定リング7とを有している。
The fixing means 4 has an operation nut 6 screwed to the outer peripheral side of the lower end portion of the upper tubular body 2, and a fixing ring 7 disposed between the operation nut 6 and the lower tubular body 3. doing.
そして、操作ナット6を固定方向に回転操作すると、固定リング7が下段管状体3の外周面に圧着されることによって、下段管状体3が上段管状体2に対して固定される。また、操作ナット6を固定解除方向に回転操作すると、固定リング7の圧着が解除されることによって、下段管状体3の上段管状体2に対する固定が解除される。
When the operation nut 6 is rotated in the fixing direction, the fixing ring 7 is pressed against the outer peripheral surface of the lower tubular body 3, whereby the lower tubular body 3 is fixed to the upper tubular body 2. Further, when the operation nut 6 is rotated in the fixing release direction, the fixing of the fixing ring 7 is released, whereby the fixing of the lower tubular body 3 to the upper tubular body 2 is released.
特開2004−258451号公報JP 2004-258451 A
しかしながら、上記従来の構成では、下段管状体3の上段管状体2に対する固定を解除するために、操作ナット6を例えば120度回転操作した場合、これを再度固定するには、120度の逆方向への回転操作で足りるが、解除のために例えば5回転させた場合、再度固定するには5回転させなければならず、操作性が悪い。
However, in the above-described conventional configuration, when the operation nut 6 is rotated, for example, by 120 degrees in order to release the fixing to the upper tubular body 2 of the lower tubular body 3, in order to fix the operation nut 6 again, the reverse direction of 120 degrees However, if, for example, 5 rotations are required for release, the rotation must be performed 5 times to fix again, and the operability is poor.
本発明は、このような点に鑑みなされたもので、操作性が良好な伸縮装置を提供することを目的とする。
This invention is made | formed in view of such a point, and it aims at providing the expansion / contraction apparatus with favorable operativity.
請求項1記載の伸縮装置は、上段管状体と、この上段管状体内に移動可能に挿入された下段管状体と、この下段管状体を前記上段管状体に対して解除可能に固定する固定手段とを備え、前記固定手段は、回動操作可能な操作体を有し、前記操作体の40度〜60度の範囲内の所定角度の回動操作によって、前記下段管状体の前記上段管状体に対する固定およびその解除が行われるものである。
The telescopic device according to claim 1, an upper tubular body, a lower tubular body movably inserted into the upper tubular body, and a fixing means for releasably fixing the lower tubular body to the upper tubular body. The fixing means includes an operation body that can be rotated, and the lower tubular body is moved relative to the upper tubular body by a rotation operation of a predetermined angle within a range of 40 degrees to 60 degrees of the operation body. It is fixed and released.
請求項2記載の伸縮装置は、請求項1記載の伸縮装置において、上段管状体は、上段管状部材と、この上段管状部材の下端部に固着された筒状部材とを有し、操作体は、前記筒状部材の外周ねじ部に螺着された螺着部材と、この螺着部材の外周側に装着された操作部材とを有し、前記筒状部材の上部外周面には、当接受面および対向面を有する凸部が形成され、前記筒状部材の下部外周面には、前記螺着部材の内周ねじ部と螺合する前記外周ねじ部が形成され、前記操作部材の上部内周面には、前記当接受面に当接する当接面および前記対向面と離間対向する対向面を有する凹部が形成され、前記凹部には、前記凸部が前記凹部に対して前記操作部材の周方向に移動可能に挿入されており、前記操作体を固定解除方向に回動操作して下段管状体の前記上段管状体に対する固定を解除する際に、前記凹部の前記当接面が前記凸部の前記当接受面に当接し、この当接により前記操作体の固定解除方向への回動操作が規制されるものである。The telescopic device according to claim 2 is the telescopic device according to claim 1, wherein the upper tubular body has an upper tubular member and a cylindrical member fixed to a lower end portion of the upper tubular member, and the operating body is A screw member that is screwed onto the outer peripheral threaded portion of the cylindrical member, and an operation member that is mounted on the outer peripheral side of the screw member, A convex portion having a surface and an opposing surface is formed, and the outer peripheral screw portion that is screwed with the inner peripheral screw portion of the screw member is formed on the lower outer peripheral surface of the cylindrical member, A concave portion having a contact surface that contacts the contact receiving surface and a facing surface that is spaced apart from the facing surface is formed on the peripheral surface, and the convex portion is formed on the operation member with respect to the concave portion. It is inserted so as to be movable in the circumferential direction. When the fixing to the upper tubular body is released, the contact surface of the concave portion comes into contact with the contact receiving surface of the convex portion, and by this contact, the operation body is rotated in the unlocking direction. It is regulated.
請求項3記載の伸縮装置は、請求項2記載の伸縮装置において、操作部材の凹部は、前記操作部材の上部内周側に前記操作部材の上端面から前記操作部材の上下方向中央部にわたって形成されているものである。The telescopic device according to claim 3 is the telescopic device according to claim 2, wherein the concave portion of the operation member is formed on the upper inner peripheral side of the operation member from the upper end surface of the operation member to the center in the vertical direction of the operation member. It is what has been.
請求項4記載の伸縮装置は、請求項2または3記載の伸縮装置において、固定手段は、操作体の回動操作に基づいて下段管状体を上段管状体に対して解除可能に固定する固定体を有し、前記固定体は、上段管状体の筒状部材の内周面と下段管状体の外周面との間に配設されているものである。The telescopic device according to claim 4 is the telescopic device according to claim 2 or 3, wherein the fixing means fixes the lower tubular body to the upper tubular body so as to be releasable based on a turning operation of the operating body. The fixed body is disposed between the inner peripheral surface of the tubular member of the upper tubular body and the outer peripheral surface of the lower tubular body.
請求項5記載の伸縮装置は、請求項4記載の伸縮装置において、固定体は、上段管状体の筒状部材の内方突出部と操作体の螺着部材の内方突出状の環状板部との間で挟持されているものである。The telescopic device according to claim 5 is the telescopic device according to claim 4, wherein the fixed body is an inward projecting portion of the tubular member of the upper tubular body and an inward projecting annular plate portion of the screw member of the operating body. Is sandwiched between.
本発明によれば、操作体の所定角度の回動操作によって下段管状体の上段管状体に対する固定およびその解除が行われるため、操作性が良好である。
According to the present invention, since the operation body is fixed to and released from the upper tubular body by rotating the operation body at a predetermined angle, the operability is good.
本発明の一実施の形態に係る伸縮装置(脚体)の分解斜視図である。It is a disassembled perspective view of the expansion-contraction apparatus (leg body) which concerns on one embodiment of this invention.
同上伸縮装置の固定手段の固定体の分解斜視図である。It is a disassembled perspective view of the fixing body of the fixing means of an expansion / contraction apparatus same as the above.
同上伸縮装置の固定手段による固定解除時(アンロック時)の断面図である。It is sectional drawing at the time of fixation cancellation | release by the fixing means of the expansion / contraction apparatus same as the above (at the time of unlocking).
図3におけるA−A断面図である。It is AA sectional drawing in FIG.
同上伸縮装置の固定手段による固定時(ロック時)の断面図である。It is sectional drawing at the time of fixation (at the time of a lock | rock) by the fixing means of an expansion-contraction apparatus same as the above.
図5におけるB−B断面図である。It is BB sectional drawing in FIG.
同上伸縮装置を具備した一脚の斜視図で、(a)は縮めた状態の図で、(b)は伸ばした状態の図である。It is a perspective view of the monopod which comprised the same expansion-contraction apparatus same as the above, (a) is a figure of the state contracted, (b) is a figure of the state which extended.
(a)ないし(c)は筒状部材の製造方法を説明するための説明図である。(A) thru | or (c) is explanatory drawing for demonstrating the manufacturing method of a cylindrical member.
従来の伸縮装置の断面図である。It is sectional drawing of the conventional expansion-contraction apparatus.
本発明の伸縮装置の一実施の形態を図1ないし図8を参照して説明する。
One embodiment of the telescopic device of the present invention will be described with reference to FIGS.
図7において、11は、被支持物(図示せず)を支持する支持装置としての一脚(モノポッド)である。被支持物は、例えばカメラ等の光学機器である。
In FIG. 7, 11 is a monopod as a support device for supporting a supported object (not shown). The supported object is an optical device such as a camera.
一脚11は、上下方向に長手方向を有する長手状でその長手方向に沿って伸縮可能な1本の伸縮装置である脚体12と、この脚体12の上端部に取り付けられ、被支持物を支持する支持体13とを具備している。
The monopod 11 is attached to an upper end portion of the leg body 12 and a leg body 12 that is a single telescopic device that has a longitudinal direction in the vertical direction and can be expanded and contracted along the longitudinal direction. And a support 13 for supporting the.
支持体13は、カメラ等の被支持物(図示せず)を支持する円板状の支持板14を備え、この支持板14の中央部には取付用ねじ15が設けられている。
The support 13 includes a disk-shaped support plate 14 that supports a supported object (not shown) such as a camera, and a mounting screw 15 is provided at the center of the support plate 14.
脚体12は、少なくとも、上段管状体21と、この上段管状体21内に上下方向(軸方向)に移動可能に挿入され、上段管状体21に対する移動によりその上段管状体21の下端からの突出長さを調整可能な下段管状体22と、この下段管状体22を上段管状体21に対して解除可能に固定する固定手段31とを備えている。
The leg body 12 is inserted into at least the upper tubular body 21 so as to be movable in the vertical direction (axial direction) into the upper tubular body 21, and protrudes from the lower end of the upper tubular body 21 by movement with respect to the upper tubular body 21. A lower tubular body 22 whose length is adjustable, and a fixing means 31 for releasably fixing the lower tubular body 22 to the upper tubular body 21 are provided.
つまり、例えば図7に示す例では、脚体12は、複数段、例えば6段式のもので、それぞれ径寸法が少しずつ異なる複数本、例えば6本の円筒状(略円筒状を含む。以下同様)の第1ないし第6の管状体21〜26と、管状体21〜25の下端側に設けられた複数、例えば5つの第1ないし第5の固定手段31〜35とを備えている。
That is, for example, in the example shown in FIG. 7, the leg body 12 has a plurality of stages, for example, a six-stage type, and a plurality of, for example, six cylinders (including a substantially cylindrical shape) each having a slightly different diameter size. (Same) first to sixth tubular bodies 21 to 26 and a plurality of, for example, five first to fifth fixing means 31 to 35 provided on the lower ends of the tubular bodies 21 to 25.
なお、最上段の管状体21の上端部には支持体13が取り付けられ、最下段の管状体26の下端部には石突30が取り付けられている。また、最上段の管状体21の外周側には、円筒状の発砲ゴム製のグリップ29が嵌着されている。
A support 13 is attached to the upper end of the uppermost tubular body 21, and a stone bump 30 is attached to the lower end of the lowermost tubular body 26. A cylindrical foamed rubber grip 29 is fitted on the outer peripheral side of the uppermost tubular body 21.
ここで、上段管状体21は、図1、図3ないし図6に示されるように、円筒状の上段管状部材41と、この上段管状部材41の下端部の外周側に上部が嵌合固着された円筒状の筒状部材(筒状部)42とを有している。なお、例えば上段管状部材41と筒状部材42とを一体に構成してもよい。
Here, as shown in FIGS. 1, 3 to 6, the upper tubular body 21 has an upper portion fitted and fixed to the outer peripheral side of the cylindrical upper tubular member 41 and the lower end portion of the upper tubular member 41. And a cylindrical member (cylindrical portion) 42 having a cylindrical shape. For example, the upper tubular member 41 and the tubular member 42 may be integrally formed.
上段管状部材41の内周面には、互いに離間対向する2本の上下方向長手状の回り止め用の突出部43が形成されている。
On the inner peripheral surface of the upper tubular member 41, two vertically extending protrusions 43 that are spaced apart from each other and are opposed to each other are formed.
筒状部材42の上部外周面における1箇所には、上下方向に長手方向を有する略楕円形状の当接受部である凸部45が形成されている。凸部45は、筒状部材42の上部外周側に筒状部材42の上端部近傍から筒状部材42の上下方向中央部近傍にわたって形成されている。凸部45は、上下方向長手状の当接受面46を上下方向に沿った一方の面(固定方向aの前面)に有している(図6参照)。なお、凸部45のうち当接受面46とは反対側の面、つまり上下方向に沿った他方の面(固定解除方向bの前面)が対向面50となっている。
A convex portion 45 that is a substantially elliptical contact receiving portion having a longitudinal direction in the vertical direction is formed at one location on the upper outer peripheral surface of the cylindrical member 42. The convex portion 45 is formed on the upper outer peripheral side of the cylindrical member 42 from the vicinity of the upper end portion of the cylindrical member 42 to the vicinity of the central portion in the vertical direction of the cylindrical member 42. The convex portion 45 has an abutting receiving surface 46 that is vertically long on one surface (front surface in the fixing direction a) along the vertical direction (see FIG. 6). Note that the surface of the convex portion 45 opposite to the contact receiving surface 46, that is, the other surface along the vertical direction (front surface in the fixing release direction b) is the facing surface 50.
筒状部材42の下部外周面には、螺旋状の溝からなる外周ねじ部47が形成されている。筒状部材42の上下方向中央部の内周面には、筒状部材42の周方向に沿った円形環状の内方突出部48が形成されている。
An outer peripheral thread portion 47 formed of a spiral groove is formed on the lower outer peripheral surface of the cylindrical member 42. A circular annular inward projecting portion 48 along the circumferential direction of the cylindrical member 42 is formed on the inner peripheral surface of the cylindrical member 42 in the center in the vertical direction.
下段管状体22は、図1、図3ないし図6に示されるように、上段管状部材41に比べて径寸法が小さい円筒状の下段管状部材51と、この下段管状部材51の上端部の外周側に嵌合固着され、下段管状体22が上段管状体21内から抜け出るのを防止する円筒状の抜止部材(抜止部)52とを有している。なお、例えば下段管状部材51と抜止部材52とを一体に構成してもよい。
As shown in FIGS. 1, 3 to 6, the lower tubular member 22 includes a cylindrical lower tubular member 51 having a smaller diameter than the upper tubular member 41, and an outer periphery of the upper end portion of the lower tubular member 51. It has a cylindrical retaining member (preventing part) 52 that is fitted and fixed to the side and prevents the lower tubular body 22 from coming out of the upper tubular body 21. For example, the lower tubular member 51 and the retaining member 52 may be configured integrally.
下段管状部材51の内周面には、互いに離間対向する2本の上下方向長手状の回り止め用の突出部53が形成されている。なお、下段管状部材51の下端部外周側には、筒状部材42と同様の筒状部材(図示せず)が固着されている。
On the inner peripheral surface of the lower tubular member 51, two vertically extending projections 53 for preventing rotation are formed so as to be spaced apart from each other. A cylindrical member (not shown) similar to the cylindrical member 42 is fixed to the outer peripheral side of the lower end portion of the lower tubular member 51.
抜止部材52は、この抜止部材52に周方向に分割された複数、例えば2つの湾曲板状の分割部材54にて構成されている。各分割部材54は、円形状の嵌入凸部55を内面側に有し、この嵌入凸部55が下段管状部材51の上端部の孔部56に嵌入されている。なお、両分割部材54の対向端部間に、上段管状部材41の突出部43が挿入されている。
The retaining member 52 includes a plurality of, for example, two curved plate-shaped divided members 54 that are divided in the circumferential direction by the retaining member 52. Each divided member 54 has a circular insertion convex portion 55 on the inner surface side, and this insertion convex portion 55 is inserted into the hole 56 at the upper end portion of the lower tubular member 51. Note that the protruding portion 43 of the upper tubular member 41 is inserted between the opposed end portions of the two split members 54.
固定手段31は、図1ないし図6に示されるように、上段管状体21の下端部の外周側、つまり筒状部材42の外周ねじ部47に螺着され、その筒状部材42に対して上下方向回動中心軸線を中心として回動操作可能な円筒状の操作体61と、上段管状体21の下端部内周面(筒状部材42の内周面)と下段管状体22の外周面との間に配設され、操作体61の回動操作に基づいて下段管状体22を上段管状体21に対して解除可能に固定する円筒状の固定体62とを有している。なお、固定体62は、筒状部材42の内方突出部48と操作体61の内方突出状の環状板部69との間で挟持されている。
As shown in FIGS. 1 to 6, the fixing means 31 is screwed to the outer peripheral side of the lower end portion of the upper tubular body 21, that is, the outer peripheral threaded portion 47 of the cylindrical member 42, and is fixed to the cylindrical member 42. A cylindrical operation body 61 that can be rotated about a vertical rotation center axis, an inner peripheral surface of the lower end portion of the upper tubular body 21 (an inner peripheral surface of the cylindrical member 42), and an outer peripheral surface of the lower tubular body 22 And a cylindrical fixing body 62 that releasably fixes the lower tubular body 22 to the upper tubular body 21 based on a turning operation of the operating body 61. The fixed body 62 is sandwiched between the inward projecting portion 48 of the cylindrical member 42 and the inward projecting annular plate portion 69 of the operating body 61.
操作体61は、例えば上段管状体21の筒状部材42の外周ねじ部47に螺着された円筒状のロックナットである螺着部材64と、この螺着部材64の外周側にスプライン嵌合により装着された円筒状の操作部材65と、この操作部材65の外周側に嵌着され、操作部材65および螺着部材64を覆うゴム製の円筒状のカバー部材66とに構成されている。
The operating body 61 includes, for example, a screw member 64 that is a cylindrical lock nut screwed to the outer peripheral thread portion 47 of the cylindrical member 42 of the upper tubular body 21, and a spline fitting on the outer peripheral side of the screw member 64. The cylindrical operation member 65 is attached to the outer peripheral side of the operation member 65, and a rubber cylindrical cover member 66 that covers the operation member 65 and the screwing member 64 is provided.
螺着部材64は、図3等に示されるように、円筒状の筒状部68を有し、この筒状部68の下端部内周面から円形環状の環状板部69が内方に向かって一体に突出している。なお、固定体62は、筒状部材42の内方突出部48と操作体61の内方突出状の環状板部69との間で挟持されている。
As shown in FIG. 3 and the like, the screw member 64 has a cylindrical tubular portion 68, and a circular annular plate portion 69 is directed inward from the inner peripheral surface of the lower end portion of the tubular portion 68. Protrusively. The fixed body 62 is sandwiched between the inward projecting portion 48 of the cylindrical member 42 and the inward projecting annular plate portion 69 of the operating body 61.
また、筒状部68の内周面には、筒状部材42の外周ねじ部47と螺合する内周ねじ部70が形成されている。筒状部68の外周面には、軸方向に沿った複数の外周溝71が形成されている(図1参照)。そして、操作部材65の下部内周面には、螺着部材64の外周溝71と対応する複数の内周溝72が軸方向に沿って形成されている。
Further, an inner peripheral screw portion 70 that is screwed with the outer peripheral screw portion 47 of the cylindrical member 42 is formed on the inner peripheral surface of the cylindrical portion 68. A plurality of outer peripheral grooves 71 along the axial direction are formed on the outer peripheral surface of the cylindrical portion 68 (see FIG. 1). A plurality of inner peripheral grooves 72 corresponding to the outer peripheral grooves 71 of the screwing member 64 are formed in the lower inner peripheral surface of the operation member 65 along the axial direction.
また、操作部材65の上部内周面の所定部位には、窪み状の凹部75が上端面から切り欠かれるように形成されている。つまり、凹部75は、操作部材65の上部内周側に操作部材65の上端面から操作部材65の上下方向中央部にわたって形成されている。この凹部75には、筒状部材42の外周側の凸部45がその凹部75に対して操作部材65の周方向に移動可能に挿入されて収納されている。
In addition, a recessed portion 75 is formed in a predetermined portion of the upper inner peripheral surface of the operation member 65 so as to be cut out from the upper end surface. That is, the concave portion 75 is formed on the upper inner peripheral side of the operation member 65 from the upper end surface of the operation member 65 to the central portion in the vertical direction of the operation member 65. A convex portion 45 on the outer peripheral side of the cylindrical member 42 is inserted into and stored in the concave portion 75 so as to be movable in the circumferential direction of the operation member 65 with respect to the concave portion 75.
そして、図4および図6等に示されるように、操作部材65の凹部75のうちその操作部材65の径方向に沿って位置する上下方向長手状の一方の面が、凸部45の当接受面46に当接する当接面76となっている。また、操作部材65の凹部75のうちその操作部材65の径方向に沿って位置する上下方向長手状の他方の面が、凸部45の対向面50と離間対向する対向面77となっている。さらに、操作部材65の凹部75のうちその操作部材65の周方向に沿って位置する円弧面状の面が、筒状部材42の外周面と対向する円弧面78となっている。
4 and 6 and the like, one of the concave portions 75 of the operating member 65, which has a longitudinally long surface positioned along the radial direction of the operating member 65, is in contact with the convex portion 45. A contact surface 76 that contacts the surface 46 is formed. In addition, the other longitudinally long surface located along the radial direction of the operation member 65 among the recesses 75 of the operation member 65 is a facing surface 77 that faces the facing surface 50 of the convex portion 45 so as to be spaced apart. . Further, an arcuate surface located along the circumferential direction of the operating member 65 in the recess 75 of the operating member 65 is an arcuate surface 78 facing the outer peripheral surface of the cylindrical member 42.
なお、操作体61の固定解除方向bへの回動の際に凹部75の当接面76は凸部45の当接受面46に当接するが、操作体61の固定方向aへの回動の際に凹部75の対向面77は凸部45の対向面50に当接しない。
Note that the contact surface 76 of the concave portion 75 contacts the contact receiving surface 46 of the convex portion 45 when the operating body 61 rotates in the fixing release direction b. At this time, the facing surface 77 of the concave portion 75 does not contact the facing surface 50 of the convex portion 45.
さらに、カバー部材66は、図3等に示されるように、操作部材65の外周面全体を覆う円筒状の筒状部81を有している。筒状部81の上端部内周面から円形環状の上環状板部82が内方に向かって一体に突出し、この上環状板部82の内周面が筒状部材42の上端部外周面に接触している。また、筒状部81の下端部内周面から円形環状の下環状板部83が内方に向かって一体に突出し、この下環状板部83にて螺着部材64の下面が覆われている。
Further, as shown in FIG. 3 and the like, the cover member 66 has a cylindrical tubular portion 81 that covers the entire outer peripheral surface of the operation member 65. A circular annular upper annular plate portion 82 projects integrally inward from the inner peripheral surface of the upper end portion of the cylindrical portion 81, and the inner peripheral surface of the upper annular plate portion 82 contacts the outer peripheral surface of the upper end portion of the cylindrical member 42. doing. Further, a circular annular lower annular plate portion 83 protrudes inward from the inner peripheral surface of the lower end portion of the tubular portion 81, and the lower annular plate portion 83 covers the lower surface of the screw member 64.
なお、カバー部材66の下環状板部83の内周面と下段管状体22の外周面との間には第1隙間84が存在する。また同様に、螺着部材64の環状板部69の内周面と下段管状体22の外周面との間には第1隙間84に連通する第2隙間85が存在し、この第2隙間85の上面が後述の被押圧面98にて閉鎖されている。
A first gap 84 exists between the inner peripheral surface of the lower annular plate portion 83 of the cover member 66 and the outer peripheral surface of the lower tubular body 22. Similarly, a second gap 85 that communicates with the first gap 84 exists between the inner peripheral surface of the annular plate portion 69 of the screw member 64 and the outer peripheral surface of the lower tubular body 22. Is closed by a pressed surface 98 described later.
固定体62は、図2および図3等に示されるように、例えば上方に向かって徐々に拡径する截頭円錐状の複数(例えば5つ)の内周上向傾斜面86を上部内周側に有しかつ下方に向かって徐々に拡径する截頭円錐状の複数(例えば5つ)の内周下向傾斜面87を下部内周側に有する円筒状の外側部材88と、内周上向傾斜面86と面状に接触する複数(例えば5つ)の外周下向傾斜面91を外周側に有する円筒状の上内側部材92と、内周下向傾斜面87と面状に接触する複数(例えば5つ)の外周上向傾斜面93を外周側に有する円筒状の下内側部材94とにて構成されている。
As shown in FIGS. 2 and 3, etc., the fixed body 62 has a plurality of frustoconical (for example, five) inner circumferential upward inclined surfaces 86 that gradually increase in diameter toward the upper inner circumference. A cylindrical outer member 88 having a plurality of (e.g., five) frusto-cone-shaped inner circumferential downward inclined surfaces 87 on the lower inner peripheral side, which are provided on the side and gradually increase in diameter downward. A cylindrical upper inner member 92 having a plurality of (for example, five) outer peripheral downward inclined surfaces 91 in contact with the upward inclined surface 86 in a planar shape, and an inner peripheral downward inclined surface 87 in a planar shape. And a cylindrical lower inner member 94 having a plurality of (for example, five) outer peripheral upward inclined surfaces 93 on the outer peripheral side.
なお、筒状部材42の内周面と下段管状体22の外周面との間の空間部における外周側部分に外側部材88が配設され、その空間部における内周側部分に上内側部材92および下内側部材94が配設されている。つまり、1つの外側部材88の内周側に上下2つの内側部材92,94がその外側部材88の内周面に接触して配設されている。これら上下対をなす内側部材92,94は互いに接触しないように配設され、上内側部材92の下端面と下内側部材94の上端面とが隙間90を介して互いに離間対向している。
An outer member 88 is disposed in the outer peripheral portion of the space between the inner peripheral surface of the cylindrical member 42 and the outer peripheral surface of the lower tubular body 22, and the upper inner member 92 is disposed in the inner peripheral portion of the space. A lower inner member 94 is disposed. That is, the upper and lower inner members 92 and 94 are disposed on the inner peripheral side of one outer member 88 so as to contact the inner peripheral surface of the outer member 88. These upper and lower inner members 92 and 94 are arranged so as not to contact each other, and the lower end surface of the upper inner member 92 and the upper end surface of the lower inner member 94 are spaced apart from each other with a gap 90 therebetween.
そして、操作体61が一方向である固定方向aに回動操作(例えば90度以下の所定角度θの回動操作)されると、外側部材88から受ける径方向内方への力に基づいて上内側部材92および下内側部材94が弾性的に縮径変形して下段管状体22の外周面に圧着されることによって、下段管状体22が上段管状体21に対して固定される。
Then, when the operating body 61 is rotated in a fixed direction a which is one direction (for example, a rotating operation of a predetermined angle θ of 90 degrees or less), based on the radially inward force received from the outer member 88. The upper inner member 92 and the lower inner member 94 are elastically reduced in diameter and pressed onto the outer peripheral surface of the lower tubular body 22, whereby the lower tubular body 22 is fixed to the upper tubular body 21.
また、操作体61が一方向とは反対の他方向である固定解除方向bに回動操作(例えば90度以下の所定角度θの回動操作)されると、弾性復元力に基づいて両内側部材92,94が元の形状に復帰して下段管状体22の外周面に対する上内側部材92および下内側部材94の圧着が解除されることによって、下段管状体22の上段管状体21に対する固定が解除される。この固定解除により、下段管状体22は上段管状体21に対して軸方向に移動可能な状態となる。
Further, when the operation body 61 is rotated in a fixing release direction b which is the other direction opposite to one direction (for example, a rotation operation of a predetermined angle θ of 90 degrees or less), both inner sides are based on the elastic restoring force. The members 92 and 94 are restored to their original shapes, and the upper inner member 92 and the lower inner member 94 are released from the outer peripheral surface of the lower tubular body 22, thereby fixing the lower tubular body 22 to the upper tubular body 21. Canceled. By the release of the fixing, the lower tubular body 22 becomes movable in the axial direction with respect to the upper tubular body 21.
なお、筒状部材42に対して操作体61を回動操作する際の所定角度θは、360度以下、例えば120〜90度以下であり、好ましくは40度〜60度の範囲内の角度、例えば50度である。図6中、点Pは操作体61の回動中心軸線上の点であり、また、固定位置に位置した操作体61の当接面76と点Pとを通る線L1と、筒状部材42の当接受面46と点Pとを通る線L2とがなす角度が所定角度θである。
In addition, the predetermined angle θ when the operating body 61 is rotated with respect to the cylindrical member 42 is 360 degrees or less, for example, 120 to 90 degrees or less, preferably an angle within a range of 40 degrees to 60 degrees, For example, it is 50 degrees. In FIG. 6, a point P is a point on the rotation center axis of the operating body 61, a line L1 passing through the contact surface 76 of the operating body 61 located at the fixed position and the point P, and the cylindrical member 42. The angle formed between the contact receiving surface 46 and the line L2 passing through the point P is a predetermined angle θ.
ここで、外側部材88は、この外側部材88の周方向に分割された複数、例えば2つの分割部材95にて構成されている。一方の分割部材95の上端面が階段状に形成され、他方の分割部材95の下端面が階段状に形成されている。そして、各分割部材95の上部内周面には上下に並ぶ互いに平行な複数の内周上向傾斜面86が形成され、各分割部材95の下部内周面には上下に並ぶ互いに平行な複数の内周下向傾斜面87が形成されている。つまり、外側部材88は、互いに向きの異なる鋸状の山を内周側に有している。なお、外側部材88および下内側部材94は、操作体61の回動操作に基づいて、上段管状体21に対して若干量だけ上下方向に移動可能となっている。
Here, the outer member 88 is configured by a plurality of, for example, two divided members 95 divided in the circumferential direction of the outer member 88. The upper end surface of one split member 95 is formed in a step shape, and the lower end surface of the other split member 95 is formed in a step shape. In addition, a plurality of mutually parallel inner circumferential upward inclined surfaces 86 are formed on the upper inner peripheral surface of each divided member 95, and a plurality of parallel inner parallel upper and lower surfaces are formed on the lower inner peripheral surface of each divided member 95. An inner circumferential downward inclined surface 87 is formed. That is, the outer member 88 has saw-shaped peaks of different directions on the inner peripheral side. The outer member 88 and the lower inner member 94 are movable in the vertical direction by a slight amount with respect to the upper tubular body 21 based on the turning operation of the operating body 61.
また、上内側部材92は、縮径変形し易いように切欠部96を有したC字状をなすものであり、この上内側部材92の外周面には、内周上向傾斜面86に対応して上下に並ぶ互いに平行な複数の外周下向傾斜面91が形成されている。つまり、上内側部材92は、鋸状の山を外周側に有している。なお、上内側部材92の上端面は、筒状部材42の内方突出部48に常時接触している。また、上内側部材92の上端面と抜止部材52の下端面との当接により、下段管状体22の上段管状体21内からの抜けが防止される。
The upper inner member 92 has a C-shape with a notch 96 so that it can be easily reduced in diameter, and the outer peripheral surface of the upper inner member 92 corresponds to the inner peripheral upward inclined surface 86. Thus, a plurality of outer peripheral downward inclined surfaces 91 that are parallel to each other are formed vertically. That is, the upper inner member 92 has a saw-like peak on the outer peripheral side. The upper end surface of the upper inner member 92 is always in contact with the inward protruding portion 48 of the cylindrical member 42. Further, the contact between the upper end surface of the upper inner member 92 and the lower end surface of the retaining member 52 prevents the lower tubular body 22 from coming off from the upper tubular body 21.
さらに、下内側部材94も、上内側部材92と同様、縮径変形し易いように切欠部97を有したC字状をなすものであり、この下内側部材94の外周面には、内周下向傾斜面87に対応して上下に並ぶ互いに平行な複数の外周上向傾斜面93が形成されている。つまり、下内側部材94は、上内側部材92の鋸状の山とは向きが異なる鋸状の山を外周側に有している。
Further, the lower inner member 94 also has a C-shape having a notch 97 so as to be easily deformed in diameter as in the case of the upper inner member 92. The outer peripheral surface of the lower inner member 94 has an inner peripheral surface. Corresponding to the downward inclined surface 87, a plurality of parallel outer peripheral upward inclined surfaces 93 arranged in the vertical direction are formed. In other words, the lower inner member 94 has a saw-shaped mountain on the outer peripheral side that is different in direction from the saw-shaped mountain of the upper inner member 92.
また、下内側部材94は、下段管状体22の軸方向に直交する方向に沿った水平状の被押圧面98を下端面に有している。そして、被押圧面98は、操作体61の固定方向への回動操作に基づいて、螺着部材64の押圧面99によって上方へ押圧される。この押圧面99は、螺着部材64の環状板部69の上面、つまり螺着部材64の軸方向に直交する方向に沿った環状板部69の上面の内周部分に平面状に形成され、被押圧面98と常時接触している。
In addition, the lower inner member 94 has a horizontal pressed surface 98 along the direction orthogonal to the axial direction of the lower tubular body 22 at the lower end surface. Then, the pressed surface 98 is pressed upward by the pressing surface 99 of the screw member 64 based on the turning operation of the operating body 61 in the fixing direction. The pressing surface 99 is formed in a planar shape on the upper surface of the annular plate portion 69 of the screw member 64, that is, on the inner peripheral portion of the upper surface of the annular plate portion 69 along the direction orthogonal to the axial direction of the screw member 64, It is always in contact with the pressed surface 98.
なお、第1、第2の管状体21,22および第1の固定手段31について説明したが、他の管状体23〜26および固定手段32〜35も同様の構成である。
Although the first and second tubular bodies 21 and 22 and the first fixing means 31 have been described, the other tubular bodies 23 to 26 and the fixing means 32 to 35 have the same configuration.
またここで、図8は、筒状部材42の製造方法を説明するための図であり、この図を参照して筒状部材42の製法方法を説明する。
Here, FIG. 8 is a diagram for explaining a method of manufacturing the cylindrical member 42, and a method of manufacturing the cylindrical member 42 will be described with reference to this drawing.
図8(a)に示す円筒部材101は、アルミニウム等の金属製のもので、内周面および外周面がいずれも円筒面状に形成されている。
The cylindrical member 101 shown in FIG. 8A is made of a metal such as aluminum, and both the inner peripheral surface and the outer peripheral surface are formed in a cylindrical surface shape.
まず、図8(b)に示すように、プレス機によるプレス加工によって、円筒部材101の外周面に略楕円形状の凸部45を外方に向けて突出形成する。このプレス加工の際、円筒部材101の内周面には、略楕円形状の凹部102が形成される。
First, as shown in FIG. 8B, a substantially elliptical convex portion 45 is formed on the outer peripheral surface of the cylindrical member 101 so as to protrude outward by pressing with a press. At the time of this pressing, a substantially elliptical concave portion 102 is formed on the inner peripheral surface of the cylindrical member 101.
その後、図8(c)に示すように、旋盤による切削加工によって、円筒部材101の外周面に外周ねじ部47を形成するとともに、円筒部材101の内周面に円形環状の内方突出部48を形成する。
Thereafter, as shown in FIG. 8C, an outer peripheral threaded portion 47 is formed on the outer peripheral surface of the cylindrical member 101 by cutting with a lathe, and a circular annular inward protruding portion 48 is formed on the inner peripheral surface of the cylindrical member 101. Form.
このようにして、凸部45、外周ねじ部47および内方突出部48を有する筒状部材42が完成する。この完成した筒状部材42を上段管状部材41に取り付ける際には、上段管状部材41の下端面が筒状部材42の内方突出部48に当接するまで、上段管状部材41の下端部を筒状部材42内に嵌入する。
In this way, the cylindrical member 42 having the convex portion 45, the outer peripheral threaded portion 47, and the inward protruding portion 48 is completed. When attaching the completed tubular member 42 to the upper tubular member 41, the lower end portion of the upper tubular member 41 is tubular until the lower end surface of the upper tubular member 41 contacts the inwardly projecting portion 48 of the tubular member 42. It is inserted into the shaped member 42.
なお、例えばカーボン三脚と、ねじ部をパイプとは別部品にて形成し接合により一体化させる手法においては、ねじ部の素管はとても肉厚である。よって、素管のうちに形成されたエンボス(凸部)は重複部が十分にとれ外力を受けてももげることはない。
For example, in a method in which the carbon tripod and the threaded portion are formed separately from the pipe and integrated by joining, the threaded tube is very thick. Therefore, the embossing (convex part) formed in the raw tube does not peel off even when the overlapping part is sufficiently removed.
なお、筒状部材42、各管状部材41,51、抜止部材52、螺着部材64および操作部材65は例えばアルミニウム等の金属製(カーボン製でもよい)であり、固定体62を構成する外側部材88、上内側部材92および下内側部材94は例えばPOM等の合成樹脂製である。
The tubular member 42, the tubular members 41 and 51, the retaining member 52, the screwing member 64, and the operation member 65 are made of metal such as aluminum (may be made of carbon), for example, and are outer members that constitute the fixed body 62. 88, the upper inner member 92 and the lower inner member 94 are made of a synthetic resin such as POM, for example.
次に、上記一実施の形態の作用等を説明する。
Next, the operation and the like of the one embodiment will be described.
例えば一脚11の脚体12の長さを所望長さに調整した後、下段管状体22を上段管状体21に対して固定手段31で固定する場合、その一脚11の使用者は、操作体61を90度以下の所定角度θだけ固定方向aに向けて回動操作する。つまり、操作体61を筒状部材42に対して締め付け方向に所定角度θだけ回動させる。
For example, when adjusting the length of the leg 12 of the monopod 11 to a desired length and then fixing the lower tubular body 22 to the upper tubular body 21 with the fixing means 31, the user of the monopod 11 can operate The body 61 is rotated by a predetermined angle θ of 90 degrees or less toward the fixed direction a. That is, the operating body 61 is rotated by a predetermined angle θ in the tightening direction with respect to the cylindrical member 42.
すると、図5および図6に示すように、固定体62の上内側部材92および下内側部材94が下段管状体22の外周面に圧着され、この圧着により下段管状体22が上段管状体21に対して固定される。
Then, as shown in FIGS. 5 and 6, the upper inner member 92 and the lower inner member 94 of the fixed body 62 are crimped to the outer peripheral surface of the lower tubular body 22, and the lower tubular body 22 is bonded to the upper tubular body 21 by this crimping. It is fixed against.
すなわち、操作体61が固定方向aへの回動に応じて少し上動すると、下内側部材94の被押圧面98が操作体61の押圧面99にて上方へ押圧される。
That is, when the operating body 61 is slightly moved upward according to the rotation in the fixing direction a, the pressed surface 98 of the lower inner member 94 is pressed upward by the pressing surface 99 of the operating body 61.
その結果、上内側部材92および下内側部材94が、外側部材88の傾斜面86,87から受ける径方向内方への力に基づいて弾性的に縮径変形し、それら両内側部材92,94の内周面が下段管状体22の外周面に押し付けられて圧着固定される。なおこのとき、下内側部材94および外側部材88が筒状部材42に対して若干量だけ上方へ移動する。上内側部材92は、内方突出部48に当接しているため、上方へ移動しない。
As a result, the upper inner member 92 and the lower inner member 94 are elastically reduced in diameter based on the radially inward force received from the inclined surfaces 86, 87 of the outer member 88, and both the inner members 92, 94 The inner peripheral surface is pressed against the outer peripheral surface of the lower tubular body 22 and fixed by pressure. At this time, the lower inner member 94 and the outer member 88 move upward by a slight amount with respect to the cylindrical member 42. Since the upper inner member 92 is in contact with the inward projecting portion 48, it does not move upward.
こうして、固定手段31によって下段管状体(下段パイプ)22が上段管状体(上段パイプ)21に対して固定される。そして、この固定手段31による固定時において、下段管状体22は、上下2つの両内側部材92,94による十分な固定力によって、上段管状体21に対して強固に固定されているため、ガタつくことがなく、上段管状体21に対して首を振るようなことがない。すなわち例えば図7(b)に示すように、一脚11の脚体12を最大長さまで伸ばして固定手段31〜35で固定した場合であっても、互いに隣り合う両管状体21〜26同士の接続部(関節部)が屈曲せず、脚体12の真っ直ぐに伸びた状態が維持される。
Thus, the lower tubular body (lower pipe) 22 is fixed to the upper tubular body (upper pipe) 21 by the fixing means 31. When the fixing means 31 is fixed, the lower tubular body 22 is firmly fixed to the upper tubular body 21 with sufficient fixing forces by the upper and lower inner members 92 and 94, and thus rattles. There is no such thing as shaking the head with respect to the upper tubular body 21. That is, for example, as shown in FIG. 7B, even when the leg 12 of the monopod 11 is extended to the maximum length and fixed by the fixing means 31 to 35, the two adjacent tubular bodies 21 to 26 are adjacent to each other. The connecting portion (joint portion) is not bent, and the leg body 12 is kept straight.
また、例えば外周ねじ部47に対して内周ねじ部70がガタつく場合であっても、操作体61の押圧面99が下内側部材94の被押圧面98に対して摺動するため、両内側部材92,94による十分な固定力が維持される。
Further, for example, even when the inner peripheral thread portion 70 is rattled with respect to the outer peripheral thread portion 47, the pressing surface 99 of the operating body 61 slides against the pressed surface 98 of the lower inner member 94. A sufficient fixing force by the inner members 92 and 94 is maintained.
次いで、例えば固定手段31による固定を解除する場合、一脚11の使用者は、操作体61を90度以下の所定角度θだけ固定解除方向bに向けて回動操作する。つまり、操作体61を筒状部材42に対して緩め方向に所定角度θだけ回動させる。
Next, for example, when releasing the fixation by the fixing means 31, the user of the monopod 11 rotates the operation body 61 by a predetermined angle θ of 90 degrees or less in the fixation release direction b. That is, the operating body 61 is rotated by a predetermined angle θ in the loosening direction with respect to the cylindrical member 42.
すると、図3および図4に示すように、下段管状体22の外周面に対する上内側部材92および下内側部材94の圧着が解除され、この圧着解除により下段管状体22の上段管状体21に対する固定が解除される。
Then, as shown in FIGS. 3 and 4, the pressure bonding of the upper inner member 92 and the lower inner member 94 with respect to the outer peripheral surface of the lower tubular body 22 is released, and the fixing to the upper tubular body 21 of the lower tubular body 22 is performed by releasing the pressure bonding. Is released.
すなわち、操作体61が固定解除方向bへの回動に応じて少し下動すると、操作体61の押圧面99による被押圧面98の押圧が解除される。
That is, when the operating body 61 is slightly moved downward in accordance with the rotation in the fixing release direction b, the pressing of the pressed surface 98 by the pressing surface 99 of the operating body 61 is released.
その結果、上内側部材92および下内側部材94が、弾性復元力に基づいて元の形状に復帰し、それら両内側部材92,94の内周面が下段管状体22の外周面から僅かに離れた状態となり、その外周面に対する両内側部材92,94の圧着が解除される。なおこのとき、下内側部材94および外側部材88が筒状部材42に対して若干量だけ下方へ移動する。
As a result, the upper inner member 92 and the lower inner member 94 return to their original shapes based on the elastic restoring force, and the inner peripheral surfaces of the inner members 92 and 94 are slightly separated from the outer peripheral surface of the lower tubular body 22. In this state, the crimping of the inner members 92 and 94 to the outer peripheral surface is released. At this time, the lower inner member 94 and the outer member 88 move downward by a slight amount with respect to the cylindrical member 42.
また、操作体61を固定解除方向bに回動操作して下段管状体22の上段管状体21に対する固定を解除する際に、操作体61の凹部75の当接面76が上段管状体21の凸部45の当接受面46に当接し、この当接により操作体61の固定解除方向bへの回動操作が規制される。
Further, when the operating body 61 is rotated in the fixing release direction b to release the fixing to the upper tubular body 21 of the lower tubular body 22, the contact surface 76 of the concave portion 75 of the operating body 61 has the upper tubular body 21. The abutment surface 46 abuts on the abutment receiving surface 46 of the convex portion 45, and the abutment operation restricts the operation body 61 in the fixing release direction b.
つまり、凹部75の当接面76が凸部45の当接受面46に当接するため、使用者は、操作体61を固定解除方向bに向けて必要以上に回し過ぎることがなく、操作体61を上下方向の回動中心軸線を中心として所定角度θだけ固定解除方向bへ回動操作することとなる。
That is, since the contact surface 76 of the concave portion 75 contacts the contact receiving surface 46 of the convex portion 45, the user does not turn the operation body 61 more than necessary in the fixing release direction b. Is rotated in the fixed release direction b by a predetermined angle θ about the rotation center axis in the vertical direction.
こうして、固定手段31による下段管状体22の上段管状体21に対する固定が解除される。そして、この固定手段31による固定解除時において、下段管状体22を上段管状体21に対して移動させることにより、一脚11の脚体12の長さを調整することが可能である。
Thus, the fixing of the lower tubular body 22 to the upper tubular body 21 by the fixing means 31 is released. When the fixing means 31 releases the fixation, the length of the leg 12 of the monopod 11 can be adjusted by moving the lower tubular body 22 relative to the upper tubular body 21.
そして、上記一実施の形態によれば、固定手段31〜35の固定体62による固定時における管状体22〜26のガタつきを防止でき、よって、例えば一脚11を使用してカメラによる安定的な撮影を行うことができる。
According to the above-described embodiment, rattling of the tubular bodies 22 to 26 at the time of fixing by the fixing body 62 of the fixing means 31 to 35 can be prevented. Can be taken.
また、固定体62は外側部材88、上内側部材92および下内側部材94にて構成され、外側部材88が複数の内周上向傾斜面86および複数の内周下向傾斜面87を有し、上内側部材92が複数の外周下向傾斜面91を有し、下内側部材94が複数の外周上向傾斜面93を有するため、固定手段31〜35による固定時における管状体22〜26のガタつきを適切に防止できる。
The fixed body 62 includes an outer member 88, an upper inner member 92, and a lower inner member 94. The outer member 88 has a plurality of inner peripheral upward inclined surfaces 86 and a plurality of inner peripheral downward inclined surfaces 87. Since the upper inner member 92 has a plurality of outer peripheral downward inclined surfaces 91 and the lower inner member 94 has a plurality of outer peripheral upward inclined surfaces 93, the tubular bodies 22 to 26 at the time of fixing by the fixing means 31 to 35 are provided. The rattle can be prevented appropriately.
さらに、下内側部材94は下段管状体22の軸方向に直交する方向に沿った被押圧面98を下端面に有し、操作体61は下内側部材94の被押圧面98を押圧する押圧面99を有するため、上段管状体21の外周ねじ部47に対する操作体61の内周ねじ部70のガタつきの影響を受けず、固定手段31〜35による固定時における管状体22〜26のガタつきをより一層適切に防止できる。
Further, the lower inner member 94 has a pressed surface 98 along the direction orthogonal to the axial direction of the lower tubular body 22 at the lower end surface, and the operating body 61 is a pressing surface that presses the pressed surface 98 of the lower inner member 94. 99, it is not affected by the backlash of the inner peripheral thread portion 70 of the operating body 61 with respect to the outer peripheral thread portion 47 of the upper tubular body 21, and the backlash of the tubular bodies 22 to 26 at the time of fixing by the fixing means 31 to 35 is prevented. This can be prevented more appropriately.
また、常に操作体61の360度(好ましくは120度、さらに好ましくは90度)以下の所定角度θの回動操作によって、下段管状体22の上段管状体21に対する固定およびその解除が行われるため、操作性が良好である。
In addition, the operation body 61 is always fixed to and released from the upper tubular body 21 by rotating the operation body 61 at a predetermined angle θ of 360 degrees (preferably 120 degrees, more preferably 90 degrees) or less. The operability is good.
さらに、操作体61を回動操作して下段管状体22の上段管状体21に対する固定を解除する際に、当接面76と当接受面46との当接により操作体61の固定解除方向への回動操作が規制されるため、操作体61を固定解除方向へ回し過ぎることを適切に防止できる。
Further, when the operation body 61 is rotated to release the fixing of the lower tubular body 22 from the upper tubular body 21, the contact of the contact surface 76 and the contact receiving surface 46 causes the operation body 61 to be released from the unlocking direction. Therefore, it is possible to appropriately prevent the operating body 61 from being turned too far in the fixing release direction.
なお、上記一実施の形態では、伸縮装置は一脚11の脚体12である場合について説明したが、例えば三脚の脚体でもよく、また支持装置の脚体以外でもよい。
In the above embodiment, the case where the telescopic device is the leg 12 of the monopod 11 has been described. However, for example, a tripod leg or a leg other than the leg of the support device may be used.
また、伸縮装置は、6本の管状体21〜26および5つの固定手段31〜35を備える構成には限定されず、少なくとも2本の管状体21,22および1つの固定手段31を備える構成であればよい。
Further, the telescopic device is not limited to the configuration including the six tubular bodies 21 to 26 and the five fixing means 31 to 35, and is configured to include at least two tubular bodies 21, 22 and one fixing means 31. I just need it.
さらに、固定体62の内周上向傾斜面86、内周下向傾斜面87、外周下向傾斜面91および外周上向傾斜面93の数は、いずれも任意であり、複数でもよく、1つでもよい。
Further, the number of the inner peripheral upward inclined surface 86, the inner peripheral downward inclined surface 87, the outer peripheral downward inclined surface 91, and the outer peripheral upward inclined surface 93 of the fixed body 62 is arbitrary and may be plural. One may be sufficient.
また、例えば操作体61の回動操作により下段管状体22を上段管状体21に対して固定する際に、筒状部材42の凸部45の対向面50と操作体61の凹部75の対向面77との当接により、操作体61の固定方向aへの回動操作が規制される構成でもよい。
Further, for example, when the lower tubular body 22 is fixed to the upper tubular body 21 by rotating the operation body 61, the opposed surface 50 of the convex portion 45 of the cylindrical member 42 and the opposed surface of the concave portion 75 of the operating body 61 The configuration may be such that the rotation operation of the operation body 61 in the fixing direction a is restricted by the contact with 77.
本発明は、例えば支持装置が具備する伸縮可能な脚体等に利用される。
The present invention is used for, for example, an extendable leg body included in a support device.
12 伸縮装置である脚体
21 上段管状体
22 下段管状体
31 固定手段
41 上段管状部材
42 筒状部材
45 凸部
46 当接受面
47 外周ねじ部
48 内方突出部
50 対向面
61 操作体
62 固定体
64 螺着部材
65 操作部材
69 環状板部
70 内周ねじ部
75 凹部
76 当接面
77 対向面
b 固定解除方向
12 Legs that are telescopic devices
21 Upper tubular body
22 Lower tubular body
31 Fixing means
41 Upper tubular member
42 Tubular member
45 Convex
46 Contact surface
47 External thread
48 Inward protrusion
50 Opposite surface
61 Operation body
62 fixed body
64 screw members
65 operation parts
69 annular plate
70 Inner thread
75 recess
76 Contact surface
77 Opposing surface b Unlocking direction
本発明は、伸縮可能な伸縮装置に関する。
The present invention relates to a telescopic device capable of stretching.
従来から、例えばカメラを支持するカメラ支持具等の支持装置(三脚や一脚等)が広く知られている(例えば特許文献1)。
2. Description of the Related Art Conventionally, for example, a support device (such as a tripod or a monopod) that supports a camera is widely known (for example, Patent Document 1).
そして、この種の支持装置は、伸縮可能な伸縮装置である脚体を具備し、この脚体は、例えば図9に示すような構成となっている。
This type of support device includes a leg that is a telescopic device that can be expanded and contracted, and this leg has a configuration as shown in FIG. 9, for example.
この図9に示された脚体1は、上段管状体2と、この上段管状体2内に移動可能に挿入された下段管状体3と、この下段管状体3を上段管状体2に対して解除可能に固定する固定手段4とを備えている。
The leg 1 shown in FIG. 9 includes an upper tubular body 2, a lower tubular body 3 movably inserted into the upper tubular body 2, and the lower tubular body 3 with respect to the upper tubular body 2. And fixing means 4 for releasably fixing.
また、固定手段4は、上段管状体2の下端部の外周側に螺着された操作ナット6と、この操作ナット6と下段管状体3との間に配設された固定リング7とを有している。
The fixing means 4 has an operation nut 6 screwed to the outer peripheral side of the lower end portion of the upper tubular body 2, and a fixing ring 7 disposed between the operation nut 6 and the lower tubular body 3. doing.
そして、操作ナット6を固定方向に回転操作すると、固定リング7が下段管状体3の外周面に圧着されることによって、下段管状体3が上段管状体2に対して固定される。また、操作ナット6を固定解除方向に回転操作すると、固定リング7の圧着が解除されることによって、下段管状体3の上段管状体2に対する固定が解除される。
When the operation nut 6 is rotated in the fixing direction, the fixing ring 7 is pressed against the outer peripheral surface of the lower tubular body 3, whereby the lower tubular body 3 is fixed to the upper tubular body 2. Further, when the operation nut 6 is rotated in the fixing release direction, the fixing of the fixing ring 7 is released, whereby the fixing of the lower tubular body 3 to the upper tubular body 2 is released.
特開2004−258451号公報JP 2004-258451 A
しかしながら、上記従来の構成では、下段管状体3の上段管状体2に対する固定を解除するために、操作ナット6を例えば120度回転操作した場合、これを再度固定するには、120度の逆方向への回転操作で足りるが、解除のために例えば5回転させた場合、再度固定するには5回転させなければならず、操作性が悪い。
However, in the above-described conventional configuration, when the operation nut 6 is rotated, for example, by 120 degrees in order to release the fixing to the upper tubular body 2 of the lower tubular body 3, in order to fix the operation nut 6 again, the reverse direction of 120 degrees However, if, for example, 5 rotations are required for release, the rotation must be performed 5 times to fix again, and the operability is poor.
本発明は、このような点に鑑みなされたもので、操作性が良好な伸縮装置を提供することを目的とする。
This invention is made | formed in view of such a point, and it aims at providing the expansion / contraction apparatus with favorable operativity.
請求項1記載の伸縮装置は、上段管状体と、この上段管状体内に移動可能に挿入された下段管状体と、この下段管状体を前記上段管状体に対して解除可能に固定する固定手段とを備え、前記固定手段は、回動操作可能な操作体を有し、前記操作体の40度〜60度の範囲内の所定角度の回動操作によって、前記下段管状体の前記上段管状体に対する固定およびその解除が行われる伸縮装置であって、前記上段管状体は、上段管状部材と、この上段管状部材の下端部に固着された筒状部材とを有し、前記操作体は、前記筒状部材の外周ねじ部に螺着された螺着部材と、この螺着部材の外周側に装着された操作部材とを有し、前記筒状部材の上部外周面には、当接受面および対向面を有する凸部が形成され、前記筒状部材の下部外周面には、前記螺着部材の内周ねじ部と螺合する前記外周ねじ部が形成され、前記操作部材の上部内周面には、前記当接受面に当接する当接面および前記対向面と離間対向する対向面を有する凹部が形成され、前記凹部には、前記凸部が前記凹部に対して前記操作部材の周方向に移動可能に挿入されており、前記操作体を固定解除方向に回動操作して前記下段管状体の前記上段管状体に対する固定を解除する際には、前記凹部の前記当接面が前記凸部の前記当接受面に当接し、この当接により前記操作体の固定解除方向への回動操作が規制され、前記操作体を固定方向に回動操作して前記下段管状体を前記上段管状体に対して固定する際には、前記凹部の前記対向面が前記凸部の前記対向面に当接しないものである。
Stretching apparatus 請 Motomeko 1 described, the upper tubular body, and a lower tubular body inserted to be movable in the upper tubular body, fixing means for releasably securing the lower tubular body with respect to the upper tubular member The fixing means has an operation body that can be rotated, and the upper tubular body of the lower tubular body by a rotation operation of a predetermined angle within a range of 40 degrees to 60 degrees of the operation body. a fixed and telescoping device that releasing is performed on the upper tubular body has a upper tubular member and a cylindrical member fixed to the lower end of the upper tubular member, the operating body, the A screw member that is screwed to the outer peripheral thread portion of the cylindrical member; and an operation member that is attached to the outer peripheral side of the screw member. The upper outer peripheral surface of the cylindrical member includes a contact receiving surface and A convex portion having an opposing surface is formed, and a lower outer peripheral surface of the cylindrical member The outer peripheral threaded portion that is screwed with the inner peripheral threaded portion of the receiving member is formed, and the upper inner peripheral surface of the operation member includes a contact surface that contacts the contact receiving surface and a facing surface that is spaced apart from the facing surface. a recess is formed having, in the recess, the protrusion is inserted movably in a circumferential direction of the operating member relative to the recess, by turning operation of the operating body in the unlocking direction the when releasing the fixing with respect to the upper tubular body of the lower tubular body, said abutment surface of said recess is in contact with the contact receiving surfaces of the convex portion, this abutment against the unlocking direction of the operating body When the rotation operation is restricted and the operation body is rotated in the fixing direction to fix the lower tubular body to the upper tubular body, the opposed surface of the concave portion is opposed to the convex portion. It does not contact the surface .
請求項2記載の伸縮装置は、請求項1記載の伸縮装置において、操作部材の凹部は、前記操作部材の上部内周側に前記操作部材の上端面から前記操作部材の上下方向中央部にわたって形成されているものである。
The telescopic device according to claim 2 is the telescopic device according to claim 1 , wherein the concave portion of the operating member is formed on the upper inner peripheral side of the operating member from the upper end surface of the operating member to the vertical center of the operating member. It is what has been.
請求項3記載の伸縮装置は、請求項1または2記載の伸縮装置において、固定手段は、操作体の回動操作に基づいて下段管状体を上段管状体に対して解除可能に固定する固定体を有し、前記固定体は、上段管状体の筒状部材の内周面と下段管状体の外周面との間に配設されているものである。
Extension device according to claim 3, wherein, in the extension device according to claim 1 or 2, wherein the fixing means is fixed member releasably securing the lower tubular member against the upper tubular body on the basis of the rotational operation of the control member The fixed body is disposed between the inner peripheral surface of the tubular member of the upper tubular body and the outer peripheral surface of the lower tubular body.
請求項4記載の伸縮装置は、請求項3記載の伸縮装置において、固定体は、上段管状体の筒状部材の内方突出部と操作体の螺着部材の内方突出状の環状板部との間で挟持されているものである。
The telescopic device according to claim 4 is the telescopic device according to claim 3, wherein the fixed body is an inward projecting portion of the tubular member of the upper tubular body and an inward projecting annular plate portion of the screw member of the operating body. Is sandwiched between.
本発明によれば、操作体の所定角度の回動操作によって下段管状体の上段管状体に対する固定およびその解除が行われるため、操作性が良好である。
According to the present invention, since the operation body is fixed to and released from the upper tubular body by rotating the operation body at a predetermined angle, the operability is good.
本発明の一実施の形態に係る伸縮装置(脚体)の分解斜視図である。It is a disassembled perspective view of the expansion-contraction apparatus (leg body) which concerns on one embodiment of this invention.
同上伸縮装置の固定手段の固定体の分解斜視図である。It is a disassembled perspective view of the fixing body of the fixing means of an expansion / contraction apparatus same as the above.
同上伸縮装置の固定手段による固定解除時(アンロック時)の断面図である。It is sectional drawing at the time of fixation cancellation | release by the fixing means of the expansion / contraction apparatus same as the above (at the time of unlocking).
図3におけるA−A断面図である。It is AA sectional drawing in FIG.
同上伸縮装置の固定手段による固定時(ロック時)の断面図である。It is sectional drawing at the time of fixation (at the time of a lock | rock) by the fixing means of an expansion-contraction apparatus same as the above.
図5におけるB−B断面図である。It is BB sectional drawing in FIG.
同上伸縮装置を具備した一脚の斜視図で、(a)は縮めた状態の図で、(b)は伸ばした状態の図である。It is a perspective view of the monopod which comprised the same expansion-contraction apparatus same as the above, (a) is a figure of the state contracted, (b) is a figure of the state which extended.
(a)ないし(c)は筒状部材の製造方法を説明するための説明図である。(A) thru | or (c) is explanatory drawing for demonstrating the manufacturing method of a cylindrical member.
従来の伸縮装置の断面図である。It is sectional drawing of the conventional expansion-contraction apparatus.
本発明の伸縮装置の一実施の形態を図1ないし図8を参照して説明する。
One embodiment of the telescopic device of the present invention will be described with reference to FIGS.
図7において、11は、被支持物(図示せず)を支持する支持装置としての一脚(モノポッド)である。被支持物は、例えばカメラ等の光学機器である。
In FIG. 7, 11 is a monopod as a support device for supporting a supported object (not shown). The supported object is an optical device such as a camera.
一脚11は、上下方向に長手方向を有する長手状でその長手方向に沿って伸縮可能な1本の伸縮装置である脚体12と、この脚体12の上端部に取り付けられ、被支持物を支持する支持体13とを具備している。
The monopod 11 is attached to an upper end portion of the leg body 12 and a leg body 12 that is a single telescopic device that has a longitudinal direction in the vertical direction and can be expanded and contracted along the longitudinal direction. And a support 13 for supporting the.
支持体13は、カメラ等の被支持物(図示せず)を支持する円板状の支持板14を備え、この支持板14の中央部には取付用ねじ15が設けられている。
The support 13 includes a disk-shaped support plate 14 that supports a supported object (not shown) such as a camera, and a mounting screw 15 is provided at the center of the support plate 14.
脚体12は、少なくとも、上段管状体21と、この上段管状体21内に上下方向(軸方向)に移動可能に挿入され、上段管状体21に対する移動によりその上段管状体21の下端からの突出長さを調整可能な下段管状体22と、この下段管状体22を上段管状体21に対して解除可能に固定する固定手段31とを備えている。
The leg body 12 is inserted into at least the upper tubular body 21 so as to be movable in the vertical direction (axial direction) into the upper tubular body 21, and protrudes from the lower end of the upper tubular body 21 by movement with respect to the upper tubular body 21. A lower tubular body 22 whose length is adjustable, and a fixing means 31 for releasably fixing the lower tubular body 22 to the upper tubular body 21 are provided.
つまり、例えば図7に示す例では、脚体12は、複数段、例えば6段式のもので、それぞれ径寸法が少しずつ異なる複数本、例えば6本の円筒状(略円筒状を含む。以下同様)の第1ないし第6の管状体21〜26と、管状体21〜25の下端側に設けられた複数、例えば5つの第1ないし第5の固定手段31〜35とを備えている。
That is, for example, in the example shown in FIG. 7, the leg body 12 has a plurality of stages, for example, a six-stage type, and a plurality of, for example, six cylinders (including a substantially cylindrical shape) each having a slightly different diameter size. (Same) first to sixth tubular bodies 21 to 26 and a plurality of, for example, five first to fifth fixing means 31 to 35 provided on the lower ends of the tubular bodies 21 to 25.
なお、最上段の管状体21の上端部には支持体13が取り付けられ、最下段の管状体26の下端部には石突30が取り付けられている。また、最上段の管状体21の外周側には、円筒状の発砲ゴム製のグリップ29が嵌着されている。
A support 13 is attached to the upper end of the uppermost tubular body 21, and a stone bump 30 is attached to the lower end of the lowermost tubular body 26. A cylindrical foamed rubber grip 29 is fitted on the outer peripheral side of the uppermost tubular body 21.
ここで、上段管状体21は、図1、図3ないし図6に示されるように、円筒状の上段管状部材41と、この上段管状部材41の下端部の外周側に上部が嵌合固着された円筒状の筒状部材(筒状部)42とを有している。なお、例えば上段管状部材41と筒状部材42とを一体に構成してもよい。
Here, as shown in FIGS. 1, 3 to 6, the upper tubular body 21 has an upper portion fitted and fixed to the outer peripheral side of the cylindrical upper tubular member 41 and the lower end portion of the upper tubular member 41. And a cylindrical member (cylindrical portion) 42 having a cylindrical shape. For example, the upper tubular member 41 and the tubular member 42 may be integrally formed.
上段管状部材41の内周面には、互いに離間対向する2本の上下方向長手状の回り止め用の突出部43が形成されている。
On the inner peripheral surface of the upper tubular member 41, two vertically extending protrusions 43 that are spaced apart from each other and are opposed to each other are formed.
筒状部材42の上部外周面における1箇所には、上下方向に長手方向を有する略楕円形状の当接受部である凸部45が形成されている。凸部45は、筒状部材42の上部外周側に筒状部材42の上端部近傍から筒状部材42の上下方向中央部近傍にわたって形成されている。凸部45は、上下方向長手状の当接受面46を上下方向に沿った一方の面(固定方向aの前面)に有している(図6参照)。なお、凸部45のうち当接受面46とは反対側の面、つまり上下方向に沿った他方の面(固定解除方向bの前面)が対向面50となっている。
A convex portion 45 that is a substantially elliptical contact receiving portion having a longitudinal direction in the vertical direction is formed at one location on the upper outer peripheral surface of the cylindrical member 42. The convex portion 45 is formed on the upper outer peripheral side of the cylindrical member 42 from the vicinity of the upper end portion of the cylindrical member 42 to the vicinity of the central portion in the vertical direction of the cylindrical member 42. The convex portion 45 has an abutting receiving surface 46 that is vertically long on one surface (front surface in the fixing direction a) along the vertical direction (see FIG. 6). Note that the surface of the convex portion 45 opposite to the contact receiving surface 46, that is, the other surface along the vertical direction (front surface in the fixing release direction b) is the facing surface 50.
筒状部材42の下部外周面には、螺旋状の溝からなる外周ねじ部47が形成されている。筒状部材42の上下方向中央部の内周面には、筒状部材42の周方向に沿った円形環状の内方突出部48が形成されている。
An outer peripheral thread portion 47 formed of a spiral groove is formed on the lower outer peripheral surface of the cylindrical member 42. A circular annular inward projecting portion 48 along the circumferential direction of the cylindrical member 42 is formed on the inner peripheral surface of the cylindrical member 42 in the center in the vertical direction.
下段管状体22は、図1、図3ないし図6に示されるように、上段管状部材41に比べて径寸法が小さい円筒状の下段管状部材51と、この下段管状部材51の上端部の外周側に嵌合固着され、下段管状体22が上段管状体21内から抜け出るのを防止する円筒状の抜止部材(抜止部)52とを有している。なお、例えば下段管状部材51と抜止部材52とを一体に構成してもよい。
As shown in FIGS. 1, 3 to 6, the lower tubular member 22 includes a cylindrical lower tubular member 51 having a smaller diameter than the upper tubular member 41, and the outer periphery of the upper end portion of the lower tubular member 51. It has a cylindrical retaining member (preventing part) 52 that is fitted and fixed to the side and prevents the lower tubular body 22 from coming out of the upper tubular body 21. For example, the lower tubular member 51 and the retaining member 52 may be configured integrally.
下段管状部材51の内周面には、互いに離間対向する2本の上下方向長手状の回り止め用の突出部53が形成されている。なお、下段管状部材51の下端部外周側には、筒状部材42と同様の筒状部材(図示せず)が固着されている。
On the inner peripheral surface of the lower tubular member 51, two vertically extending projections 53 for preventing rotation are formed so as to be spaced apart from each other. A cylindrical member (not shown) similar to the cylindrical member 42 is fixed to the outer peripheral side of the lower end portion of the lower tubular member 51.
抜止部材52は、この抜止部材52に周方向に分割された複数、例えば2つの湾曲板状の分割部材54にて構成されている。各分割部材54は、円形状の嵌入凸部55を内面側に有し、この嵌入凸部55が下段管状部材51の上端部の孔部56に嵌入されている。なお、両分割部材54の対向端部間に、上段管状部材41の突出部43が挿入されている。
The retaining member 52 includes a plurality of, for example, two curved plate-shaped divided members 54 that are divided in the circumferential direction by the retaining member 52. Each divided member 54 has a circular insertion convex portion 55 on the inner surface side, and this insertion convex portion 55 is inserted into the hole 56 at the upper end portion of the lower tubular member 51. Note that the protruding portion 43 of the upper tubular member 41 is inserted between the opposed end portions of the two split members 54.
固定手段31は、図1ないし図6に示されるように、上段管状体21の下端部の外周側、つまり筒状部材42の外周ねじ部47に螺着され、その筒状部材42に対して上下方向回動中心軸線を中心として回動操作可能な円筒状の操作体61と、上段管状体21の下端部内周面(筒状部材42の内周面)と下段管状体22の外周面との間に配設され、操作体61の回動操作に基づいて下段管状体22を上段管状体21に対して解除可能に固定する円筒状の固定体62とを有している。なお、固定体62は、筒状部材42の内方突出部48と操作体61の内方突出状の環状板部69との間で挟持されている。
As shown in FIGS. 1 to 6, the fixing means 31 is screwed to the outer peripheral side of the lower end portion of the upper tubular body 21, that is, the outer peripheral threaded portion 47 of the cylindrical member 42, and is fixed to the cylindrical member 42. A cylindrical operation body 61 that can be rotated about a vertical rotation center axis, an inner peripheral surface of the lower end portion of the upper tubular body 21 (an inner peripheral surface of the cylindrical member 42), and an outer peripheral surface of the lower tubular body 22 And a cylindrical fixing body 62 that releasably fixes the lower tubular body 22 to the upper tubular body 21 based on a turning operation of the operating body 61. The fixed body 62 is sandwiched between the inward projecting portion 48 of the cylindrical member 42 and the inward projecting annular plate portion 69 of the operating body 61.
操作体61は、例えば上段管状体21の筒状部材42の外周ねじ部47に螺着された円筒状のロックナットである螺着部材64と、この螺着部材64の外周側にスプライン嵌合により装着された円筒状の操作部材65と、この操作部材65の外周側に嵌着され、操作部材65および螺着部材64を覆うゴム製の円筒状のカバー部材66とに構成されている。
The operating body 61 includes, for example, a screw member 64 that is a cylindrical lock nut screwed to the outer peripheral thread portion 47 of the cylindrical member 42 of the upper tubular body 21, and a spline fitting on the outer peripheral side of the screw member 64. The cylindrical operation member 65 is attached to the outer peripheral side of the operation member 65, and a rubber cylindrical cover member 66 that covers the operation member 65 and the screwing member 64 is provided.
螺着部材64は、図3等に示されるように、円筒状の筒状部68を有し、この筒状部68の下端部内周面から円形環状の環状板部69が内方に向かって一体に突出している。なお、固定体62は、筒状部材42の内方突出部48と操作体61の内方突出状の環状板部69との間で挟持されている。
As shown in FIG. 3 and the like, the screw member 64 has a cylindrical tubular portion 68, and a circular annular plate portion 69 is directed inward from the inner peripheral surface of the lower end portion of the tubular portion 68. Protrusively. The fixed body 62 is sandwiched between the inward projecting portion 48 of the cylindrical member 42 and the inward projecting annular plate portion 69 of the operating body 61.
また、筒状部68の内周面には、筒状部材42の外周ねじ部47と螺合する内周ねじ部70が形成されている。筒状部68の外周面には、軸方向に沿った複数の外周溝71が形成されている(図1参照)。そして、操作部材65の下部内周面には、螺着部材64の外周溝71と対応する複数の内周溝72が軸方向に沿って形成されている。
Further, an inner peripheral screw portion 70 that is screwed with the outer peripheral screw portion 47 of the cylindrical member 42 is formed on the inner peripheral surface of the cylindrical portion 68. A plurality of outer peripheral grooves 71 along the axial direction are formed on the outer peripheral surface of the cylindrical portion 68 (see FIG. 1). A plurality of inner peripheral grooves 72 corresponding to the outer peripheral grooves 71 of the screwing member 64 are formed in the lower inner peripheral surface of the operation member 65 along the axial direction.
また、操作部材65の上部内周面の所定部位には、窪み状の凹部75が上端面から切り欠かれるように形成されている。つまり、凹部75は、操作部材65の上部内周側に操作部材65の上端面から操作部材65の上下方向中央部にわたって形成されている。この凹部75には、筒状部材42の外周側の凸部45がその凹部75に対して操作部材65の周方向に移動可能に挿入されて収納されている。
In addition, a recessed portion 75 is formed in a predetermined portion of the upper inner peripheral surface of the operation member 65 so as to be cut out from the upper end surface. That is, the concave portion 75 is formed on the upper inner peripheral side of the operation member 65 from the upper end surface of the operation member 65 to the central portion in the vertical direction of the operation member 65. A convex portion 45 on the outer peripheral side of the cylindrical member 42 is inserted into and stored in the concave portion 75 so as to be movable in the circumferential direction of the operation member 65 with respect to the concave portion 75.
そして、図4および図6等に示されるように、操作部材65の凹部75のうちその操作部材65の径方向に沿って位置する上下方向長手状の一方の面が、凸部45の当接受面46に当接する当接面76となっている。また、操作部材65の凹部75のうちその操作部材65の径方向に沿って位置する上下方向長手状の他方の面が、凸部45の対向面50と離間対向する対向面77となっている。さらに、操作部材65の凹部75のうちその操作部材65の周方向に沿って位置する円弧面状の面が、筒状部材42の外周面と対向する円弧面78となっている。
4 and 6 and the like, one of the concave portions 75 of the operating member 65, which has a longitudinally long surface positioned along the radial direction of the operating member 65, is in contact with the convex portion 45. A contact surface 76 that contacts the surface 46 is formed. In addition, the other longitudinally long surface located along the radial direction of the operation member 65 among the recesses 75 of the operation member 65 is a facing surface 77 that faces the facing surface 50 of the convex portion 45 so as to be spaced apart. . Further, an arcuate surface located along the circumferential direction of the operating member 65 in the recess 75 of the operating member 65 is an arcuate surface 78 facing the outer peripheral surface of the cylindrical member 42.
なお、操作体61の固定解除方向bへの回動の際に凹部75の当接面76は凸部45の当接受面46に当接するが、操作体61の固定方向aへの回動の際に凹部75の対向面77は凸部45の対向面50に当接しない。
Note that the contact surface 76 of the concave portion 75 contacts the contact receiving surface 46 of the convex portion 45 when the operating body 61 rotates in the fixing release direction b. At this time, the facing surface 77 of the concave portion 75 does not contact the facing surface 50 of the convex portion 45.
さらに、カバー部材66は、図3等に示されるように、操作部材65の外周面全体を覆う円筒状の筒状部81を有している。筒状部81の上端部内周面から円形環状の上環状板部82が内方に向かって一体に突出し、この上環状板部82の内周面が筒状部材42の上端部外周面に接触している。また、筒状部81の下端部内周面から円形環状の下環状板部83が内方に向かって一体に突出し、この下環状板部83にて螺着部材64の下面が覆われている。
Further, as shown in FIG. 3 and the like, the cover member 66 has a cylindrical tubular portion 81 that covers the entire outer peripheral surface of the operation member 65. A circular annular upper annular plate portion 82 projects integrally inward from the inner peripheral surface of the upper end portion of the cylindrical portion 81, and the inner peripheral surface of the upper annular plate portion 82 contacts the outer peripheral surface of the upper end portion of the cylindrical member 42. doing. Further, a circular annular lower annular plate portion 83 protrudes inward from the inner peripheral surface of the lower end portion of the tubular portion 81, and the lower annular plate portion 83 covers the lower surface of the screw member 64.
なお、カバー部材66の下環状板部83の内周面と下段管状体22の外周面との間には第1隙間84が存在する。また同様に、螺着部材64の環状板部69の内周面と下段管状体22の外周面との間には第1隙間84に連通する第2隙間85が存在し、この第2隙間85の上面が後述の被押圧面98にて閉鎖されている。
A first gap 84 exists between the inner peripheral surface of the lower annular plate portion 83 of the cover member 66 and the outer peripheral surface of the lower tubular body 22. Similarly, a second gap 85 that communicates with the first gap 84 exists between the inner peripheral surface of the annular plate portion 69 of the screw member 64 and the outer peripheral surface of the lower tubular body 22. Is closed by a pressed surface 98 described later.
固定体62は、図2および図3等に示されるように、例えば上方に向かって徐々に拡径する截頭円錐状の複数(例えば5つ)の内周上向傾斜面86を上部内周側に有しかつ下方に向かって徐々に拡径する截頭円錐状の複数(例えば5つ)の内周下向傾斜面87を下部内周側に有する円筒状の外側部材88と、内周上向傾斜面86と面状に接触する複数(例えば5つ)の外周下向傾斜面91を外周側に有する円筒状の上内側部材92と、内周下向傾斜面87と面状に接触する複数(例えば5つ)の外周上向傾斜面93を外周側に有する円筒状の下内側部材94とにて構成されている。
As shown in FIGS. 2 and 3, etc., the fixed body 62 has a plurality of frustoconical (for example, five) inner circumferential upward inclined surfaces 86 that gradually increase in diameter toward the upper inner circumference. A cylindrical outer member 88 having a plurality of (e.g., five) frusto-cone-shaped inner circumferential downward inclined surfaces 87 on the lower inner peripheral side, which are provided on the side and gradually increase in diameter downward. A cylindrical upper inner member 92 having a plurality of (for example, five) outer peripheral downward inclined surfaces 91 in contact with the upward inclined surface 86 in a planar shape, and an inner peripheral downward inclined surface 87 in a planar shape. And a cylindrical lower inner member 94 having a plurality of (for example, five) outer peripheral upward inclined surfaces 93 on the outer peripheral side.
なお、筒状部材42の内周面と下段管状体22の外周面との間の空間部における外周側部分に外側部材88が配設され、その空間部における内周側部分に上内側部材92および下内側部材94が配設されている。つまり、1つの外側部材88の内周側に上下2つの内側部材92,94がその外側部材88の内周面に接触して配設されている。これら上下対をなす内側部材92,94は互いに接触しないように配設され、上内側部材92の下端面と下内側部材94の上端面とが隙間90を介して互いに離間対向している。
An outer member 88 is disposed in the outer peripheral portion of the space between the inner peripheral surface of the cylindrical member 42 and the outer peripheral surface of the lower tubular body 22, and the upper inner member 92 is disposed in the inner peripheral portion of the space. A lower inner member 94 is disposed. That is, the upper and lower inner members 92 and 94 are disposed on the inner peripheral side of one outer member 88 so as to contact the inner peripheral surface of the outer member 88. These upper and lower inner members 92 and 94 are arranged so as not to contact each other, and the lower end surface of the upper inner member 92 and the upper end surface of the lower inner member 94 are spaced apart from each other with a gap 90 therebetween.
そして、操作体61が一方向である固定方向aに回動操作(例えば90度以下の所定角度θの回動操作)されると、外側部材88から受ける径方向内方への力に基づいて上内側部材92および下内側部材94が弾性的に縮径変形して下段管状体22の外周面に圧着されることによって、下段管状体22が上段管状体21に対して固定される。
Then, when the operating body 61 is rotated in a fixed direction a which is one direction (for example, a rotating operation of a predetermined angle θ of 90 degrees or less), based on the radially inward force received from the outer member 88. The upper inner member 92 and the lower inner member 94 are elastically reduced in diameter and pressed onto the outer peripheral surface of the lower tubular body 22, whereby the lower tubular body 22 is fixed to the upper tubular body 21.
また、操作体61が一方向とは反対の他方向である固定解除方向bに回動操作(例えば90度以下の所定角度θの回動操作)されると、弾性復元力に基づいて両内側部材92,94が元の形状に復帰して下段管状体22の外周面に対する上内側部材92および下内側部材94の圧着が解除されることによって、下段管状体22の上段管状体21に対する固定が解除される。この固定解除により、下段管状体22は上段管状体21に対して軸方向に移動可能な状態となる。
Further, when the operation body 61 is rotated in a fixing release direction b which is the other direction opposite to one direction (for example, a rotation operation of a predetermined angle θ of 90 degrees or less), both inner sides are based on the elastic restoring force. The members 92 and 94 are restored to their original shapes, and the upper inner member 92 and the lower inner member 94 are released from the outer peripheral surface of the lower tubular body 22, thereby fixing the lower tubular body 22 to the upper tubular body 21. Canceled. By the release of the fixing, the lower tubular body 22 becomes movable in the axial direction with respect to the upper tubular body 21.
なお、筒状部材42に対して操作体61を回動操作する際の所定角度θは、360度以下、例えば120〜90度以下であり、好ましくは40度〜60度の範囲内の角度、例えば50度である。図6中、点Pは操作体61の回動中心軸線上の点であり、また、固定位置に位置した操作体61の当接面76と点Pとを通る線L1と、筒状部材42の当接受面46と点Pとを通る線L2とがなす角度が所定角度θである。
In addition, the predetermined angle θ when the operating body 61 is rotated with respect to the cylindrical member 42 is 360 degrees or less, for example, 120 to 90 degrees or less, preferably an angle within a range of 40 degrees to 60 degrees, For example, it is 50 degrees. In FIG. 6, a point P is a point on the rotation center axis of the operating body 61, a line L1 passing through the contact surface 76 of the operating body 61 located at the fixed position and the point P, and the cylindrical member 42. The angle formed between the contact receiving surface 46 and the line L2 passing through the point P is a predetermined angle θ.
ここで、外側部材88は、この外側部材88の周方向に分割された複数、例えば2つの分割部材95にて構成されている。一方の分割部材95の上端面が階段状に形成され、他方の分割部材95の下端面が階段状に形成されている。そして、各分割部材95の上部内周面には上下に並ぶ互いに平行な複数の内周上向傾斜面86が形成され、各分割部材95の下部内周面には上下に並ぶ互いに平行な複数の内周下向傾斜面87が形成されている。つまり、外側部材88は、互いに向きの異なる鋸状の山を内周側に有している。なお、外側部材88および下内側部材94は、操作体61の回動操作に基づいて、上段管状体21に対して若干量だけ上下方向に移動可能となっている。
Here, the outer member 88 is configured by a plurality of, for example, two divided members 95 divided in the circumferential direction of the outer member 88. The upper end surface of one split member 95 is formed in a step shape, and the lower end surface of the other split member 95 is formed in a step shape. In addition, a plurality of mutually parallel inner circumferential upward inclined surfaces 86 are formed on the upper inner peripheral surface of each divided member 95, and a plurality of parallel inner parallel upper and lower surfaces are formed on the lower inner peripheral surface of each divided member 95. An inner circumferential downward inclined surface 87 is formed. That is, the outer member 88 has saw-shaped peaks of different directions on the inner peripheral side. The outer member 88 and the lower inner member 94 are movable in the vertical direction by a slight amount with respect to the upper tubular body 21 based on the turning operation of the operating body 61.
また、上内側部材92は、縮径変形し易いように切欠部96を有したC字状をなすものであり、この上内側部材92の外周面には、内周上向傾斜面86に対応して上下に並ぶ互いに平行な複数の外周下向傾斜面91が形成されている。つまり、上内側部材92は、鋸状の山を外周側に有している。なお、上内側部材92の上端面は、筒状部材42の内方突出部48に常時接触している。また、上内側部材92の上端面と抜止部材52の下端面との当接により、下段管状体22の上段管状体21内からの抜けが防止される。
The upper inner member 92 has a C-shape with a notch 96 so that it can be easily reduced in diameter, and the outer peripheral surface of the upper inner member 92 corresponds to the inner peripheral upward inclined surface 86. Thus, a plurality of outer peripheral downward inclined surfaces 91 that are parallel to each other are formed vertically. That is, the upper inner member 92 has a saw-like peak on the outer peripheral side. The upper end surface of the upper inner member 92 is always in contact with the inward protruding portion 48 of the cylindrical member 42. Further, the contact between the upper end surface of the upper inner member 92 and the lower end surface of the retaining member 52 prevents the lower tubular body 22 from coming off from the upper tubular body 21.
さらに、下内側部材94も、上内側部材92と同様、縮径変形し易いように切欠部97を有したC字状をなすものであり、この下内側部材94の外周面には、内周下向傾斜面87に対応して上下に並ぶ互いに平行な複数の外周上向傾斜面93が形成されている。つまり、下内側部材94は、上内側部材92の鋸状の山とは向きが異なる鋸状の山を外周側に有している。
Further, the lower inner member 94 also has a C-shape having a notch 97 so as to be easily deformed in diameter as in the case of the upper inner member 92. The outer peripheral surface of the lower inner member 94 has an inner peripheral surface. Corresponding to the downward inclined surface 87, a plurality of parallel outer peripheral upward inclined surfaces 93 arranged in the vertical direction are formed. In other words, the lower inner member 94 has a saw-shaped mountain on the outer peripheral side that is different in direction from the saw-shaped mountain of the upper inner member 92.
また、下内側部材94は、下段管状体22の軸方向に直交する方向に沿った水平状の被押圧面98を下端面に有している。そして、被押圧面98は、操作体61の固定方向への回動操作に基づいて、螺着部材64の押圧面99によって上方へ押圧される。この押圧面99は、螺着部材64の環状板部69の上面、つまり螺着部材64の軸方向に直交する方向に沿った環状板部69の上面の内周部分に平面状に形成され、被押圧面98と常時接触している。
In addition, the lower inner member 94 has a horizontal pressed surface 98 along the direction orthogonal to the axial direction of the lower tubular body 22 at the lower end surface. Then, the pressed surface 98 is pressed upward by the pressing surface 99 of the screw member 64 based on the turning operation of the operating body 61 in the fixing direction. The pressing surface 99 is formed in a planar shape on the upper surface of the annular plate portion 69 of the screw member 64, that is, on the inner peripheral portion of the upper surface of the annular plate portion 69 along the direction orthogonal to the axial direction of the screw member 64, It is always in contact with the pressed surface 98.
なお、第1、第2の管状体21,22および第1の固定手段31について説明したが、他の管状体23〜26および固定手段32〜35も同様の構成である。
Although the first and second tubular bodies 21 and 22 and the first fixing means 31 have been described, the other tubular bodies 23 to 26 and the fixing means 32 to 35 have the same configuration.
またここで、図8は、筒状部材42の製造方法を説明するための図であり、この図を参照して筒状部材42の製法方法を説明する。
Here, FIG. 8 is a diagram for explaining a method of manufacturing the cylindrical member 42, and a method of manufacturing the cylindrical member 42 will be described with reference to this drawing.
図8(a)に示す円筒部材101は、アルミニウム等の金属製のもので、内周面および外周面がいずれも円筒面状に形成されている。
The cylindrical member 101 shown in FIG. 8A is made of a metal such as aluminum, and both the inner peripheral surface and the outer peripheral surface are formed in a cylindrical surface shape.
まず、図8(b)に示すように、プレス機によるプレス加工によって、円筒部材101の外周面に略楕円形状の凸部45を外方に向けて突出形成する。このプレス加工の際、円筒部材101の内周面には、略楕円形状の凹部102が形成される。
First, as shown in FIG. 8B, a substantially elliptical convex portion 45 is formed on the outer peripheral surface of the cylindrical member 101 so as to protrude outward by pressing with a press. At the time of this pressing, a substantially elliptical concave portion 102 is formed on the inner peripheral surface of the cylindrical member 101.
その後、図8(c)に示すように、旋盤による切削加工によって、円筒部材101の外周面に外周ねじ部47を形成するとともに、円筒部材101の内周面に円形環状の内方突出部48を形成する。
Thereafter, as shown in FIG. 8C, an outer peripheral threaded portion 47 is formed on the outer peripheral surface of the cylindrical member 101 by cutting with a lathe, and a circular annular inward protruding portion 48 is formed on the inner peripheral surface of the cylindrical member 101. Form.
このようにして、凸部45、外周ねじ部47および内方突出部48を有する筒状部材42が完成する。この完成した筒状部材42を上段管状部材41に取り付ける際には、上段管状部材41の下端面が筒状部材42の内方突出部48に当接するまで、上段管状部材41の下端部を筒状部材42内に嵌入する。
In this way, the cylindrical member 42 having the convex portion 45, the outer peripheral threaded portion 47, and the inward protruding portion 48 is completed. When attaching the completed tubular member 42 to the upper tubular member 41, the lower end portion of the upper tubular member 41 is tubular until the lower end surface of the upper tubular member 41 contacts the inwardly projecting portion 48 of the tubular member 42. It is inserted into the shaped member 42.
なお、例えばカーボン三脚と、ねじ部をパイプとは別部品にて形成し接合により一体化させる手法においては、ねじ部の素管はとても肉厚である。よって、素管のうちに形成されたエンボス(凸部)は重複部が十分にとれ外力を受けてももげることはない。
For example, in a method in which the carbon tripod and the threaded portion are formed separately from the pipe and integrated by joining, the threaded tube is very thick. Therefore, the embossing (convex part) formed in the raw tube does not peel off even when the overlapping part is sufficiently removed.
なお、筒状部材42、各管状部材41,51、抜止部材52、螺着部材64および操作部材65は例えばアルミニウム等の金属製(カーボン製でもよい)であり、固定体62を構成する外側部材88、上内側部材92および下内側部材94は例えばPOM等の合成樹脂製である。
The tubular member 42, the tubular members 41 and 51, the retaining member 52, the screwing member 64, and the operation member 65 are made of metal such as aluminum (may be made of carbon), for example, and are outer members that constitute the fixed body 62. 88, the upper inner member 92 and the lower inner member 94 are made of a synthetic resin such as POM, for example.
次に、上記一実施の形態の作用等を説明する。
Next, the operation and the like of the one embodiment will be described.
例えば一脚11の脚体12の長さを所望長さに調整した後、下段管状体22を上段管状体21に対して固定手段31で固定する場合、その一脚11の使用者は、操作体61を90度以下の所定角度θだけ固定方向aに向けて回動操作する。つまり、操作体61を筒状部材42に対して締め付け方向に所定角度θだけ回動させる。
For example, when adjusting the length of the leg 12 of the monopod 11 to a desired length and then fixing the lower tubular body 22 to the upper tubular body 21 with the fixing means 31, the user of the monopod 11 can operate The body 61 is rotated by a predetermined angle θ of 90 degrees or less toward the fixed direction a. That is, the operating body 61 is rotated by a predetermined angle θ in the tightening direction with respect to the cylindrical member 42.
すると、図5および図6に示すように、固定体62の上内側部材92および下内側部材94が下段管状体22の外周面に圧着され、この圧着により下段管状体22が上段管状体21に対して固定される。
Then, as shown in FIGS. 5 and 6, the upper inner member 92 and the lower inner member 94 of the fixed body 62 are crimped to the outer peripheral surface of the lower tubular body 22, and the lower tubular body 22 is bonded to the upper tubular body 21 by this crimping. It is fixed against.
すなわち、操作体61が固定方向aへの回動に応じて少し上動すると、下内側部材94の被押圧面98が操作体61の押圧面99にて上方へ押圧される。
That is, when the operating body 61 is slightly moved upward according to the rotation in the fixing direction a, the pressed surface 98 of the lower inner member 94 is pressed upward by the pressing surface 99 of the operating body 61.
その結果、上内側部材92および下内側部材94が、外側部材88の傾斜面86,87から受ける径方向内方への力に基づいて弾性的に縮径変形し、それら両内側部材92,94の内周面が下段管状体22の外周面に押し付けられて圧着固定される。なおこのとき、下内側部材94および外側部材88が筒状部材42に対して若干量だけ上方へ移動する。上内側部材92は、内方突出部48に当接しているため、上方へ移動しない。
As a result, the upper inner member 92 and the lower inner member 94 are elastically reduced in diameter based on the radially inward force received from the inclined surfaces 86, 87 of the outer member 88, and both the inner members 92, 94 The inner peripheral surface is pressed against the outer peripheral surface of the lower tubular body 22 and fixed by pressure. At this time, the lower inner member 94 and the outer member 88 move upward by a slight amount with respect to the cylindrical member 42. Since the upper inner member 92 is in contact with the inward projecting portion 48, it does not move upward.
こうして、固定手段31によって下段管状体(下段パイプ)22が上段管状体(上段パイプ)21に対して固定される。そして、この固定手段31による固定時において、下段管状体22は、上下2つの両内側部材92,94による十分な固定力によって、上段管状体21に対して強固に固定されているため、ガタつくことがなく、上段管状体21に対して首を振るようなことがない。すなわち例えば図7(b)に示すように、一脚11の脚体12を最大長さまで伸ばして固定手段31〜35で固定した場合であっても、互いに隣り合う両管状体21〜26同士の接続部(関節部)が屈曲せず、脚体12の真っ直ぐに伸びた状態が維持される。
Thus, the lower tubular body (lower pipe) 22 is fixed to the upper tubular body (upper pipe) 21 by the fixing means 31. When the fixing means 31 is fixed, the lower tubular body 22 is firmly fixed to the upper tubular body 21 with sufficient fixing forces by the upper and lower inner members 92 and 94, and thus rattles. There is no such thing as shaking the head with respect to the upper tubular body 21. That is, for example, as shown in FIG. 7B, even when the leg 12 of the monopod 11 is extended to the maximum length and fixed by the fixing means 31 to 35, the two adjacent tubular bodies 21 to 26 are adjacent to each other. The connecting portion (joint portion) is not bent, and the leg body 12 is kept straight.
また、例えば外周ねじ部47に対して内周ねじ部70がガタつく場合であっても、操作体61の押圧面99が下内側部材94の被押圧面98に対して摺動するため、両内側部材92,94による十分な固定力が維持される。
Further, for example, even when the inner peripheral thread portion 70 is rattled with respect to the outer peripheral thread portion 47, the pressing surface 99 of the operating body 61 slides against the pressed surface 98 of the lower inner member 94. A sufficient fixing force by the inner members 92 and 94 is maintained.
次いで、例えば固定手段31による固定を解除する場合、一脚11の使用者は、操作体61を90度以下の所定角度θだけ固定解除方向bに向けて回動操作する。つまり、操作体61を筒状部材42に対して緩め方向に所定角度θだけ回動させる。
Next, for example, when releasing the fixation by the fixing means 31, the user of the monopod 11 rotates the operation body 61 by a predetermined angle θ of 90 degrees or less in the fixation release direction b. That is, the operating body 61 is rotated by a predetermined angle θ in the loosening direction with respect to the cylindrical member 42.
すると、図3および図4に示すように、下段管状体22の外周面に対する上内側部材92および下内側部材94の圧着が解除され、この圧着解除により下段管状体22の上段管状体21に対する固定が解除される。
Then, as shown in FIGS. 3 and 4, the pressure bonding of the upper inner member 92 and the lower inner member 94 with respect to the outer peripheral surface of the lower tubular body 22 is released, and the fixing to the upper tubular body 21 of the lower tubular body 22 is performed by releasing the pressure bonding. Is released.
すなわち、操作体61が固定解除方向bへの回動に応じて少し下動すると、操作体61の押圧面99による被押圧面98の押圧が解除される。
That is, when the operating body 61 is slightly moved downward in accordance with the rotation in the fixing release direction b, the pressing of the pressed surface 98 by the pressing surface 99 of the operating body 61 is released.
その結果、上内側部材92および下内側部材94が、弾性復元力に基づいて元の形状に復帰し、それら両内側部材92,94の内周面が下段管状体22の外周面から僅かに離れた状態となり、その外周面に対する両内側部材92,94の圧着が解除される。なおこのとき、下内側部材94および外側部材88が筒状部材42に対して若干量だけ下方へ移動する。
As a result, the upper inner member 92 and the lower inner member 94 return to their original shapes based on the elastic restoring force, and the inner peripheral surfaces of the inner members 92 and 94 are slightly separated from the outer peripheral surface of the lower tubular body 22. In this state, the crimping of the inner members 92 and 94 to the outer peripheral surface is released. At this time, the lower inner member 94 and the outer member 88 move downward by a slight amount with respect to the cylindrical member 42.
また、操作体61を固定解除方向bに回動操作して下段管状体22の上段管状体21に対する固定を解除する際に、操作体61の凹部75の当接面76が上段管状体21の凸部45の当接受面46に当接し、この当接により操作体61の固定解除方向bへの回動操作が規制される。
Further, when the operating body 61 is rotated in the fixing release direction b to release the fixing to the upper tubular body 21 of the lower tubular body 22, the contact surface 76 of the concave portion 75 of the operating body 61 has the upper tubular body 21. The abutment surface 46 abuts on the abutment receiving surface 46 of the convex portion 45, and the abutment operation restricts the operation body 61 in the fixing release direction b.
つまり、凹部75の当接面76が凸部45の当接受面46に当接するため、使用者は、操作体61を固定解除方向bに向けて必要以上に回し過ぎることがなく、操作体61を上下方向の回動中心軸線を中心として所定角度θだけ固定解除方向bへ回動操作することとなる。
That is, since the contact surface 76 of the concave portion 75 contacts the contact receiving surface 46 of the convex portion 45, the user does not turn the operation body 61 more than necessary in the fixing release direction b. Is rotated in the fixed release direction b by a predetermined angle θ about the rotation center axis in the vertical direction.
こうして、固定手段31による下段管状体22の上段管状体21に対する固定が解除される。そして、この固定手段31による固定解除時において、下段管状体22を上段管状体21に対して移動させることにより、一脚11の脚体12の長さを調整することが可能である。
Thus, the fixing of the lower tubular body 22 to the upper tubular body 21 by the fixing means 31 is released. When the fixing means 31 releases the fixation, the length of the leg 12 of the monopod 11 can be adjusted by moving the lower tubular body 22 relative to the upper tubular body 21.
そして、上記一実施の形態によれば、固定手段31〜35の固定体62による固定時における管状体22〜26のガタつきを防止でき、よって、例えば一脚11を使用してカメラによる安定的な撮影を行うことができる。
According to the above-described embodiment, rattling of the tubular bodies 22 to 26 at the time of fixing by the fixing body 62 of the fixing means 31 to 35 can be prevented. Can be taken.
また、固定体62は外側部材88、上内側部材92および下内側部材94にて構成され、外側部材88が複数の内周上向傾斜面86および複数の内周下向傾斜面87を有し、上内側部材92が複数の外周下向傾斜面91を有し、下内側部材94が複数の外周上向傾斜面93を有するため、固定手段31〜35による固定時における管状体22〜26のガタつきを適切に防止できる。
The fixed body 62 includes an outer member 88, an upper inner member 92, and a lower inner member 94. The outer member 88 has a plurality of inner peripheral upward inclined surfaces 86 and a plurality of inner peripheral downward inclined surfaces 87. Since the upper inner member 92 has a plurality of outer peripheral downward inclined surfaces 91 and the lower inner member 94 has a plurality of outer peripheral upward inclined surfaces 93, the tubular bodies 22 to 26 at the time of fixing by the fixing means 31 to 35 are provided. The rattle can be prevented appropriately.
さらに、下内側部材94は下段管状体22の軸方向に直交する方向に沿った被押圧面98を下端面に有し、操作体61は下内側部材94の被押圧面98を押圧する押圧面99を有するため、上段管状体21の外周ねじ部47に対する操作体61の内周ねじ部70のガタつきの影響を受けず、固定手段31〜35による固定時における管状体22〜26のガタつきをより一層適切に防止できる。
Further, the lower inner member 94 has a pressed surface 98 along the direction orthogonal to the axial direction of the lower tubular body 22 at the lower end surface, and the operating body 61 is a pressing surface that presses the pressed surface 98 of the lower inner member 94. 99, it is not affected by the backlash of the inner peripheral thread portion 70 of the operating body 61 with respect to the outer peripheral thread portion 47 of the upper tubular body 21, and the backlash of the tubular bodies 22 to 26 at the time of fixing by the fixing means 31 to 35 is prevented. This can be prevented more appropriately.
また、常に操作体61の360度(好ましくは120度、さらに好ましくは90度)以下の所定角度θの回動操作によって、下段管状体22の上段管状体21に対する固定およびその解除が行われるため、操作性が良好である。
In addition, the operation body 61 is always fixed to and released from the upper tubular body 21 by rotating the operation body 61 at a predetermined angle θ of 360 degrees (preferably 120 degrees, more preferably 90 degrees) or less. The operability is good.
さらに、操作体61を回動操作して下段管状体22の上段管状体21に対する固定を解除する際に、当接面76と当接受面46との当接により操作体61の固定解除方向への回動操作が規制されるため、操作体61を固定解除方向へ回し過ぎることを適切に防止できる。
Further, when the operation body 61 is rotated to release the fixing of the lower tubular body 22 from the upper tubular body 21, the contact of the contact surface 76 and the contact receiving surface 46 causes the operation body 61 to be released from the unlocking direction. Therefore, it is possible to appropriately prevent the operating body 61 from being turned too far in the fixing release direction.
なお、上記一実施の形態では、伸縮装置は一脚11の脚体12である場合について説明したが、例えば三脚の脚体でもよく、また支持装置の脚体以外でもよい。
In the above embodiment, the case where the telescopic device is the leg 12 of the monopod 11 has been described. However, for example, a tripod leg or a leg other than the leg of the support device may be used.
また、伸縮装置は、6本の管状体21〜26および5つの固定手段31〜35を備える構成には限定されず、少なくとも2本の管状体21,22および1つの固定手段31を備える構成であればよい。
Further, the telescopic device is not limited to the configuration including the six tubular bodies 21 to 26 and the five fixing means 31 to 35, and is configured to include at least two tubular bodies 21, 22 and one fixing means 31. I just need it.
さらに、固定体62の内周上向傾斜面86、内周下向傾斜面87、外周下向傾斜面91および外周上向傾斜面93の数は、いずれも任意であり、複数でもよく、1つでもよい。
Further, the number of the inner peripheral upward inclined surface 86, the inner peripheral downward inclined surface 87, the outer peripheral downward inclined surface 91, and the outer peripheral upward inclined surface 93 of the fixed body 62 is arbitrary and may be plural. One may be sufficient.
また、例えば操作体61の回動操作により下段管状体22を上段管状体21に対して固定する際に、筒状部材42の凸部45の対向面50と操作体61の凹部75の対向面77との当接により、操作体61の固定方向aへの回動操作が規制される構成でもよい。
Further, for example, when the lower tubular body 22 is fixed to the upper tubular body 21 by rotating the operation body 61, the opposed surface 50 of the convex portion 45 of the cylindrical member 42 and the opposed surface of the concave portion 75 of the operating body 61 The configuration may be such that the rotation operation of the operation body 61 in the fixing direction a is restricted by the contact with 77.
本発明は、例えば支持装置が具備する伸縮可能な脚体等に利用される。
The present invention is used for, for example, an extendable leg body included in a support device.
12 伸縮装置である脚体
21 上段管状体
22 下段管状体
31 固定手段
41 上段管状部材
42 筒状部材
45 凸部
46 当接受面
47 外周ねじ部
48 内方突出部
50 対向面
61 操作体
62 固定体
64 螺着部材
65 操作部材
69 環状板部
70 内周ねじ部
75 凹部
76 当接面
77 対向面
a 固定方向
b 固定解除方向
12 Legs that are telescopic devices
21 Upper tubular body
22 Lower tubular body
31 Fixing means
41 Upper tubular member
42 Tubular member
45 Convex
46 Contact surface
47 External thread
48 Inward protrusion
50 Opposite surface
61 Operation body
62 Fixed body
64 Threaded member
65 Control members
69 Annular plate
70 Inner thread
75 recess
76 Contact surface
77 Opposite surface
a Fixing direction b Fixing release direction