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JP2016202666A - Continuous pocket coil spring row, continuous pocket coil spring row manufacturing method, and continuous pocket coil spring row manufacturing apparatus - Google Patents

Continuous pocket coil spring row, continuous pocket coil spring row manufacturing method, and continuous pocket coil spring row manufacturing apparatus Download PDF

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JP2016202666A
JP2016202666A JP2015089204A JP2015089204A JP2016202666A JP 2016202666 A JP2016202666 A JP 2016202666A JP 2015089204 A JP2015089204 A JP 2015089204A JP 2015089204 A JP2015089204 A JP 2015089204A JP 2016202666 A JP2016202666 A JP 2016202666A
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coil spring
width direction
sheet material
belt
longitudinal
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JP6446319B2 (en
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幸二 浅田
Koji Asada
幸二 浅田
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Matsushita Industrial Co Ltd
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Abstract

PROBLEM TO BE SOLVED: To provide a continuous pocket coil spring row in which projections unnecessary for contour are not formed, and provide its manufacturing apparatus.SOLUTION: A continuous pocket coil spring row is formed in a row by storing one coil spring 2 in one bag of continuous cylindrical bags 10 formed in a pocket shape by a strip-shaped sheet material 1 having breathability. The continuous cylindrical bag 10 is structured such that the coil spring 2 is contained in a space formed by folding the strip-shaped sheet material 1 from both sides in the width direction. The continuous cylindrical bag is welded along the width direction at a predetermined pitch along the longitudinal direction of the strip-shaped sheet material 1 and is formed by welding the longitudinal ends together obtained by folding the strip-shaped sheet material 1. The longitudinal ends are characterized in that a first longitudinal end 1a folded from one side of the width direction and a second longitudinal end 1b folded from the other side of the width direction are welded together in an overlaid state for the top and bottom plane, and the welding position is positioned in the central part of the width direction.SELECTED DRAWING: Figure 1

Description

本発明は、椅子やソファー等の家具やベットマットレス等の寝具に内装されて使用される連続ポケットコイルバネ列及びその製造方法と製造装置に関するものである。   The present invention relates to a continuous pocket coil spring array used in furniture such as chairs and sofas and bedding such as a bed mattress, a manufacturing method thereof, and a manufacturing apparatus thereof.

かかる連続ポケットコイルバネ列およびその製造装置(製造方法)については、下記特許文献1に開示される技術が公知である。この文献に開示される装置は、ポケット素材(帯状シート材)の筒を形成するため、ポケット素材を誘導するカセットを備えている。このカセットは第1要素と第2要素を備えており、ポケット素材を幅方向両側から折り畳んで矩形の筒状に整形し、筒状の空間にコイルバネが収容されるように構成されている(要約および請求項1)。コイルバネを封入するために、ポケット素材をヒートシールするため、カートリッジの下流側にポケット素材を幅方向に沿ってシールをするためのヒートシール機器と、ポケット素材を長手方向に沿ってシールするためのヒートシール機器が備えられている(特許文献1の図3参照)。   Regarding such a continuous pocket coil spring array and a manufacturing apparatus (manufacturing method) thereof, a technique disclosed in the following Patent Document 1 is known. The apparatus disclosed in this document includes a cassette for guiding the pocket material in order to form a cylinder of the pocket material (strip-shaped sheet material). This cassette includes a first element and a second element, and is configured such that a pocket material is folded from both sides in the width direction and shaped into a rectangular cylinder, and a coil spring is accommodated in the cylindrical space (summary). And claim 1). In order to heat seal the pocket material in order to enclose the coil spring, a heat sealing device for sealing the pocket material along the width direction on the downstream side of the cartridge, and for sealing the pocket material along the longitudinal direction A heat seal device is provided (see FIG. 3 of Patent Document 1).

特表2014−529553号公報Special table 2014-529553 gazette

しかしながら、上記製造装置により製造される連続ポケットコイルバネ列に関して、以下のような課題がある。第1要素の端部と第2要素の端部が向かい合う位置において、ポケット素材の端部を垂直に折り曲げており、その垂直に折り曲げた端部同志を向い合せて、ヒートシール機器によりシールするようにしている。   However, the continuous pocket coil spring array manufactured by the manufacturing apparatus has the following problems. At the position where the end portion of the first element and the end portion of the second element face each other, the end portion of the pocket material is bent vertically, and the vertically bent end portions face each other and are sealed by a heat sealing device. I have to.

従って、製造された連続ポケットコイルバネ列の幅方向の中央部において、シールした箇所が垂直に折り曲げた分だけ突出した形態になる。このような突出部分の存在は、ソファーやマットレスの形成時に不快な凹凸になる可能性がある。   Therefore, in the center portion in the width direction of the manufactured continuous pocket coil spring row, the sealed portion protrudes by the amount bent vertically. The presence of such protruding portions may cause unpleasant irregularities when forming a sofa or mattress.

本発明は上記実情に鑑みてなされたものであり、外形に不要な突出部が形成されない連続ポケットコイルバネ列およびその製造装置を提供することである。   This invention is made | formed in view of the said situation, and is providing the continuous pocket coil spring row | line | column and its manufacturing apparatus in which the unnecessary protrusion part is not formed in the external shape.

上記課題を解決するため本発明に係る連続ポケットコイルバネ列は、
通気性を有する帯状シート材によりポケット状に形成された連続円筒形袋の1袋に1個のコイルバネを収納して列状に形成された連続ポケットコイルバネ列であって、
前記連続円筒形袋は、前記帯状シート材を幅方向の両側から折り畳んで形成される空間にコイルバネが収容される構造とし、前記帯状シート材の長手方向に沿って所定ピッチで前記幅方向に沿って溶着すると共に、前記帯状シート材を折り畳んだ長手方向端部同士を溶着して形成され、
前記長手方向の端部同士は、前記幅方向の一方側から折り畳んだ第1長手方向端部と、前記幅方向の他方側から折り畳んだ第2長手方向端部同志とを、上下平面的に重ねた状態で溶着され、かつ、その溶着位置が前記幅方向の中央部に位置することを特徴とするものである。
In order to solve the above problems, the continuous pocket coil spring array according to the present invention is:
A continuous pocket coil spring row formed in a row by storing one coil spring in one bag of a continuous cylindrical bag formed in a pocket shape by a belt-like sheet material having air permeability,
The continuous cylindrical bag has a structure in which a coil spring is accommodated in a space formed by folding the belt-shaped sheet material from both sides in the width direction, and along the width direction at a predetermined pitch along the longitudinal direction of the belt-shaped sheet material. And is formed by welding the longitudinal ends of the belt-like sheet material folded,
The longitudinal ends overlap each other in a vertical plane with a first longitudinal end folded from one side in the width direction and a second longitudinal end folded from the other side in the width direction. And the welding position is located at the center in the width direction.

かかる構成による連続ポケットコイルバネ列の作用・効果は以下の通りである。まず、連続円筒形袋は、帯状シート材を幅方向の両側から折り畳んで形成される空間にコイルバネが収容される構造とする。帯状シート材の長手方向に沿って所定ピッチで幅方向に沿って溶着する。この溶着により、コイルバネが収容される空間が区画されることになる。また、帯状シート材を折り畳んだ長手方向端部同士を溶着するに際して、幅方向の一方側から折り畳んだ第1長手方向端部と、幅方向の他方側から折り畳んだ第2長手方向端部同志とを、上下平面的に重ねた状態で溶着される。平面的に重ねることで外形に不要な突出部分を形成しないようにすることができる。   The operation and effect of the continuous pocket coil spring array having such a configuration is as follows. First, the continuous cylindrical bag has a structure in which a coil spring is accommodated in a space formed by folding a belt-like sheet material from both sides in the width direction. It welds along a width direction with a predetermined pitch along the longitudinal direction of a strip-shaped sheet material. A space in which the coil spring is accommodated is partitioned by this welding. In addition, when welding the longitudinal ends of the belt-shaped sheet material, the first longitudinal ends folded from one side in the width direction and the second longitudinal ends folded from the other side in the width direction Are welded in a state where they are overlapped in a vertical plane. It is possible to prevent unnecessary protruding portions from being formed on the outer shape by overlapping in a plane.

上記課題を解決するため本発明に係る連続ポケットコイルバネ列の製造方法は、
通気性を有する帯状シート材によりポケット状に形成された連続円筒形袋の1袋に1個のコイルバネを収納して列状に形成された連続ポケットコイルバネ列の製造方法であって、
前記帯状シート材を幅方向の両側から折り畳んでコイルバネを収容する空間を形成する工程と、前記空間にコイルバネを順次収容していく工程と、前記コイルバネを収容した後に、帯状シート材の長手方向に沿って所定ピッチで前記幅方向に沿って溶着する工程と、前記帯状シート材を折り畳んだ長手方向端部同士を溶着して工程と、を有し、
前記長手方向の端部同士は、前記幅方向の一方側から折り畳んだ第1長手方向端部と、前記幅方向の他方側から折り畳んだ第2長手方向端部同志とを、上下平面的に重ねた状態で溶着するものであることを特徴とする。
In order to solve the above problems, a method for manufacturing a continuous pocket coil spring array according to the present invention is as follows.
A method for producing a continuous pocket coil spring array in which one coil spring is housed in one bag of a continuous cylindrical bag formed into a pocket shape by a belt-like sheet material having air permeability,
Folding the strip-shaped sheet material from both sides in the width direction to form a space for accommodating the coil spring, sequentially storing the coil spring in the space, and after receiving the coil spring, in the longitudinal direction of the strip-shaped sheet material A step of welding along the width direction at a predetermined pitch along, and a step of welding the longitudinal ends of the belt-shaped sheet material folded,
The longitudinal ends overlap each other in a vertical plane with a first longitudinal end folded from one side in the width direction and a second longitudinal end folded from the other side in the width direction. It is characterized by being welded in a heated state.

かかる構成による連続ポケットコイルバネ列の製造方法は、帯状シート材を幅方向の両側から折り畳むことで、コイルバネが収容される空間を形成するが、幅方向の一方側から折り畳んだ第1長手方向端部と、前記幅方向の他方側から折り畳んだ第2長手方向端部同志とを、上下平面的に重ねた状態で溶着するようにしている。平面的に重ねることで外形に不要な突出部分を形成しないようにすることができる。なお、製造工程の順序は、上記の記載順序に限定されるものではなく、必要に応じて変更できる。   The manufacturing method of the continuous pocket coil spring row | line | column by this structure forms the space in which a coil spring is accommodated by folding a strip | belt-shaped sheet | seat material from the both sides of the width direction, but the 1st longitudinal direction edge part folded from the one side of the width direction And the second longitudinal direction end members folded from the other side in the width direction are welded in a state where they are overlapped in the vertical plane. It is possible to prevent unnecessary protruding portions from being formed on the outer shape by overlapping in a plane. Note that the order of the manufacturing steps is not limited to the order described above, and can be changed as necessary.

本発明に係る連続ポケットコイルバネ列を製造するための製造装置は、
断面四辺形状に形成される内側整形部と、
この内側整形部の外表面側に位置し、外表面との間に隙間を形成して、帯状シート材を幅方向の一方側から折り畳むための第1外側整形部と、
前記内側整形部の外表面側に位置し、外表面との間に隙間を形成して、帯状シート材を幅方向の他方側から折り畳むための第2外側整形部と、を備え、
前記第1外側整形部と前記第2外側整形部は、前記幅方向の中央部に隙間を有する重なり部を有しており、
前記重なり部において、前記第1長手方向端部と前記第2長手方向端部のいずれか一方が重なり部の隙間を通過可能に構成されると共に、前記第1長手方向端部と前記第2長手方向端部のいずれか他方が重なり部の下側を通過可能に構成されていることを特徴とするものである。
A manufacturing apparatus for manufacturing a continuous pocket coil spring array according to the present invention is as follows.
An inner shaping part formed in a quadrilateral cross section;
A first outer shaping portion for folding the belt-like sheet material from one side in the width direction, located on the outer surface side of the inner shaping portion, forming a gap with the outer surface,
A second outer shaping part for folding the belt-like sheet material from the other side in the width direction, located on the outer surface side of the inner shaping part, forming a gap with the outer surface,
The first outer shaping portion and the second outer shaping portion have an overlapping portion having a gap at the center in the width direction,
In the overlapping portion, one of the first longitudinal end and the second longitudinal end is configured to be able to pass through a gap between the overlapping portions, and the first longitudinal end and the second longitudinal Any one of the direction end portions is configured to be able to pass under the overlapping portion.

かかる構成による製造装置の作用・効果は以下の通りである。帯状シート材を所定の形状に整形するために内側整形部、第1外側整形部、第2外側整形部を備えている。帯状シート材の幅方向の一方は、内側整形部と第1外側整形部の間に形成される隙間を通過する。これにより、帯状シート材を幅方向の一方側から折り畳むようにする。帯状シート材の幅方向の他方は、内側整形部と第2外側整形部の間に形成される隙間を通過する。これにより、帯状シート材を幅方向の他方側から折り畳むようにする。第1外側整形部と第2外側整形部は、幅方向の中央部に隙間を有する重なり部を有している。重なり部は、第1外側整形部と第2外側整形部のいずれが上であってもよい。仮に第2外側整形部が上であるとする。この場合、第1長手方向端部の上に第2長手方向端部が上下方向に平面的に重なる形になる。従って、外形に不要な突出部分を形成しない連続ポケットコイルバネ列を製造することができる。なお、重ねる方向である上下方向は、実際の製品の方向を示すものではなく、便宜上そのように呼ぶものである。   The operation and effect of the manufacturing apparatus having such a configuration is as follows. An inner shaping part, a first outer shaping part, and a second outer shaping part are provided for shaping the belt-like sheet material into a predetermined shape. One of the strip-shaped sheet members in the width direction passes through a gap formed between the inner shaping portion and the first outer shaping portion. Thus, the belt-like sheet material is folded from one side in the width direction. The other in the width direction of the belt-like sheet material passes through a gap formed between the inner shaping portion and the second outer shaping portion. Accordingly, the belt-like sheet material is folded from the other side in the width direction. The first outer shaping portion and the second outer shaping portion have an overlapping portion having a gap at the center in the width direction. Either the first outer shaping portion or the second outer shaping portion may be on the overlapping portion. Assume that the second outer shaping portion is on the top. In this case, the second longitudinal end portion overlaps the first longitudinal direction end portion in the vertical direction. Accordingly, it is possible to manufacture a continuous pocket coil spring array that does not form unnecessary protruding portions on the outer shape. In addition, the up-down direction which is a direction to overlap does not indicate the actual product direction but is referred to as such for convenience.

本発明において、前記内側整形部の上側であって、かつ、前記重なり部の下流側に、前記第1長手方向端部と前記第2長手方向端部を溶着するための溶着部が設けられていることが好ましい。   In the present invention, a welding portion for welding the first longitudinal end and the second longitudinal end is provided on the upper side of the inner shaping portion and on the downstream side of the overlapping portion. Preferably it is.

この構成によると、第1長手方向端部と第2長手方向端部が上下方向に平面的に重なった状態で溶着部により溶着することができる。   According to this configuration, the first longitudinal direction end portion and the second longitudinal direction end portion can be welded by the welding portion in a state where the first longitudinal direction end portion and the vertical direction overlap in a plane.

連続ポケットコイルバネ列の外観を示す斜視図Perspective view showing appearance of continuous pocket coil spring array 図1の連続ポケットコイルバネ列の長手方向に沿った断面図Sectional drawing along the longitudinal direction of the continuous pocket coil spring row | line | column of FIG. 図1の連続ポケットコイルバネ列の幅方向に沿った断面図Sectional drawing along the width direction of the continuous pocket coil spring row | line | column of FIG. 連続ポケットコイルバネ列製造装置の構成を概念的に示す斜視図The perspective view which shows notionally the structure of the continuous pocket coil spring row | line | column manufacturing apparatus 図4に示す製造装置の矢視AView A of the manufacturing apparatus shown in FIG. 製造工程を概念的に示す斜視図である。It is a perspective view which shows a manufacturing process notionally. 製造工程を概念的に示す斜視図である。It is a perspective view which shows a manufacturing process notionally. 製造工程を概念的に示す斜視図である。It is a perspective view which shows a manufacturing process notionally. 製造工程を概念的に示す斜視図である。It is a perspective view which shows a manufacturing process notionally. 製造工程を示す断面図Sectional view showing the manufacturing process 製造工程を示す断面図Sectional view showing the manufacturing process 製造工程を示す断面図Sectional view showing the manufacturing process

本発明に係る連続ポケットコイルバネ列及びその製造装置の好適な実施形態を図面を用いて説明する。   A preferred embodiment of a continuous pocket coil spring array and a manufacturing apparatus thereof according to the present invention will be described with reference to the drawings.

<連続ポケットコイルバネ列の構成>
図1は、製造された連続ポケットコイルバネ列の外観を示す斜視図である。図2は、図1の連続ポケットコイルバネ列の長手方向に沿った断面図を示す図である。図3は、図1の連続ポケットコイルバネ列の幅方向に沿った断面図を示す図である。
<Construction of continuous pocket coil spring array>
FIG. 1 is a perspective view showing an appearance of a manufactured continuous pocket coil spring array. FIG. 2 is a cross-sectional view taken along the longitudinal direction of the continuous pocket coil spring array of FIG. FIG. 3 is a cross-sectional view taken along the width direction of the continuous pocket coil spring array of FIG.

連続ポケットコイルバネ列においてコイルバネを収容するために帯状シート材1を使用する。帯状シート材1は、例えば、通気性の良い不織布が用いられる。不織布の種類としては、特定のものに限定されるものではない。図1、図2に示すように、コイルバネ2が1つ収容されるポケット状の円筒形袋10が長手方向に沿って連続的に形成されている。長手方向において隣接する円筒形袋10の境界は溶着領域11であり、後述するヒートシール機器により溶着される。   The belt-like sheet material 1 is used to accommodate the coil spring in the continuous pocket coil spring array. As the belt-like sheet material 1, for example, a non-woven fabric with good air permeability is used. The type of nonwoven fabric is not limited to a specific type. As shown in FIGS. 1 and 2, a pocket-shaped cylindrical bag 10 in which one coil spring 2 is accommodated is continuously formed along the longitudinal direction. The boundary between the cylindrical bags 10 adjacent in the longitudinal direction is a welding region 11, which is welded by a heat seal device described later.

図3に示すように円筒形袋10は、断面で見ると、底面部100、左側面部101、右側面部102、左上面部103、右上面部104により構成され、左上面部103の右端側が第1長手方向端部1aであり、右上面部104の左端側が第2長手方向端部1bである。もともとは平面的な帯状シート材1を折り畳むことにより図3に示すような断面形状が得られる。断面形状は、ほぼ四辺形である。なお、便宜上、上記の名称を付けているが、実際に使用される場合の姿勢とは関係がない。例えば、製品においては、左側面部101や右側面部102が上になることもある。また、コイルバネ2は、収容された状態で、所定量圧縮された状態で収容される。また、四辺形の形状についても正方形状、長方形状等、また縦横比についても特定の形状や大きさに限定されるものではない。   As shown in FIG. 3, when viewed in cross section, the cylindrical bag 10 is composed of a bottom surface portion 100, a left side surface portion 101, a right side surface portion 102, a left upper surface portion 103, and a right upper surface portion 104, and the right end side of the left upper surface portion 103 is in the first longitudinal direction. The end 1a, and the left end of the right upper surface 104 is the second longitudinal end 1b. 3 is obtained by folding the flat belt-like sheet material 1 originally. The cross-sectional shape is substantially a quadrilateral. In addition, although the above-mentioned name is given for convenience, it has nothing to do with the posture when actually used. For example, in the product, the left side surface portion 101 and the right side surface portion 102 may be on the top. In addition, the coil spring 2 is accommodated in a state where it is accommodated and compressed by a predetermined amount. The quadrilateral shape is not limited to a square shape, a rectangular shape, or the like, and the aspect ratio is not limited to a specific shape or size.

図3において、帯状シート材1の幅方向の左側(一方側に相当)を折り畳むと共に、幅方向の右側(他方側に相当)を折り畳んだ形態であり、左右とも2カ所で折られている。第1長手方向端部1aと第2長手方向端部1bは、図3に示すように、上下方向に重ねた状態であり、この重なり部12が溶着される。重なり領域12の幅方向の長さは適宜設定することができる。重なり領域12の高さ(平面的な位置)は、左上面部103、右上面部104と同じかほぼ同じであるので、上方に突出しない。   In FIG. 3, the band-shaped sheet material 1 is folded on the left side (corresponding to one side) in the width direction and is folded on the right side (corresponding to the other side) in the width direction. As shown in FIG. 3, the first longitudinal end 1a and the second longitudinal end 1b are overlapped in the vertical direction, and the overlapping portion 12 is welded. The length in the width direction of the overlapping region 12 can be set as appropriate. Since the height (planar position) of the overlapping region 12 is the same as or substantially the same as the left upper surface portion 103 and the right upper surface portion 104, it does not protrude upward.

<連続ポケットコイルバネ列製造装置>
次に、図1〜図3に示す連続ポケットコイルバネ列を製造するための製造装置を図4、図5により説明する。なお、これらの図において帯状シート材は描かれていない。図4は、装置の主要な構成を示す斜視図である。図5は、図4の矢視Aである。
<Continuous pocket coil spring array manufacturing device>
Next, a manufacturing apparatus for manufacturing the continuous pocket coil spring array shown in FIGS. 1 to 3 will be described with reference to FIGS. In these drawings, the belt-like sheet material is not drawn. FIG. 4 is a perspective view showing the main configuration of the apparatus. FIG. 5 is an arrow A in FIG.

内側整形部として機能する第1内側整形プレート30と第2内側整形プレート31が設けられている。図5にも示すように、左側の第1内側整形プレート31は断面がC字状であり、右側の第2内側整形プレートは断面が逆C字状である。これら第1・第2内側整形プレート30,31は左右対称的に配置されている。なお、内側整形部として第1・第2内側整形プレートのように複数部材で構成するのではなく、単一のプレート部材で構成してもよい。部材の構成数には限定されるものではない。また、プレート以外の形状の部材で構成してもよい。   A first inner shaping plate 30 and a second inner shaping plate 31 that function as an inner shaping portion are provided. As shown in FIG. 5, the left first inner shaping plate 31 has a C-shaped cross section, and the right second inner shaping plate 31 has a reverse C-shaped cross section. These first and second inner shaping plates 30 and 31 are arranged symmetrically. The inner shaping portion may be constituted by a single plate member instead of being constituted by a plurality of members like the first and second inner shaping plates. The number of members is not limited. Moreover, you may comprise by members of shapes other than a plate.

第1内側整形プレート30の表面には第1外側整形プレート32(第1外側整形部に相当)が配置され、第2内側整形プレート31の表面には第2外側整形プレート33(第2外側整形部に相当)が配置される。これら第1・第2外側整形プレート32,33は、逆L字形の断面形状を有している。図5において、内側整形部の断面形状は、ほぼ四辺形(正方形又は長方形)になるように構成される。なお四辺形の角は90度であるが、適当な大きさの丸み(R形状)を帯びていてもよい。   A first outer shaping plate 32 (corresponding to a first outer shaping portion) is arranged on the surface of the first inner shaping plate 30, and a second outer shaping plate 33 (second outer shaping plate 33) is arranged on the surface of the second inner shaping plate 31. Corresponding to the part). These first and second outer shaping plates 32 and 33 have an inverted L-shaped cross-sectional shape. In FIG. 5, the cross-sectional shape of the inner shaping portion is configured to be substantially a quadrilateral (square or rectangular). The angle of the quadrilateral is 90 degrees, but it may be rounded in an appropriate size (R shape).

また、第1外側整形プレート32と第2外側整形プレート33は、幅方向の中央部に重なり部34を有している。第1外側整形プレート32と第1内側整形プレート30の間には側面隙間g1と上面隙間g3が形成される。側面隙間g1と上面隙間g3は直交しており、これにより、帯状シート材は強制的に折り畳まれた状態でこれらの隙間の間を通過する。第2外側整形プレート33と第2内側整形プレート31の間には側面隙間g2が形成され、この隙間を帯状シート材1が通過する。重なり部34において、第1外側整形プレート32と第2外側整形プレート33の間に隙間g4が形成され、この間を帯状シート材1が通過する。   Moreover, the 1st outer shaping plate 32 and the 2nd outer shaping plate 33 have the overlap part 34 in the center part of the width direction. A side gap g1 and an upper face gap g3 are formed between the first outer shaping plate 32 and the first inner shaping plate 30. The side surface gap g1 and the upper surface gap g3 are orthogonal to each other, so that the belt-like sheet material passes between these gaps in a state where it is forcibly folded. A side gap g2 is formed between the second outer shaping plate 33 and the second inner shaping plate 31, and the belt-like sheet material 1 passes through this gap. In the overlapping portion 34, a gap g4 is formed between the first outer shaping plate 32 and the second outer shaping plate 33, and the belt-like sheet material 1 passes through the gap g4.

内側整形部の内側には、さらにバネガイド筒40が設けられる。バネガイド筒40は、断面形状がほぼ矩形であり、側方からバネ挿入筒42を介してコイルバネ2が挿入される。コイルバネ2は不図示のバネ製造装置で製造され、1つずつバネガイド筒40内に押し込まれていく。バネガイド筒40の右側面にバネ送り筒42が設けられており、このバネ送り筒42を介して、コイルバネ2が1つずつ送り込まれる。コイルバネ2は圧縮された状態でバネガイド筒40内に1つずつ押し込まれていく。押し込まれたコイルバネ2は、バネ送り部材41により1つずつ前方へ送られていく。   A spring guide tube 40 is further provided inside the inner shaping portion. The spring guide cylinder 40 has a substantially rectangular cross-sectional shape, and the coil spring 2 is inserted from the side via the spring insertion cylinder 42. The coil spring 2 is manufactured by a spring manufacturing apparatus (not shown), and is pushed into the spring guide cylinder 40 one by one. A spring feed tube 42 is provided on the right side surface of the spring guide tube 40, and the coil springs 2 are fed one by one through the spring feed tube 42. The coil springs 2 are pushed into the spring guide tube 40 one by one in a compressed state. The coil springs 2 that have been pushed in are fed forward by the spring feed member 41 one by one.

第1外側整形プレート32は、側面部に傾斜端部32aを有し、上面部にも傾斜端部32bを有する。同様に第2外側整形プレート33も、傾斜端部33a,33bを有する。左右の第1・第2内側整形プレート30,31は、上面側において隙間をもって配置されている。この隙間から、バネガイド筒40の上面部が露出する形になっている。バネガイド筒40の下流側の先端は、内側整形部の下流側の先端と同じ位置になるように配置される。   The first outer shaping plate 32 has an inclined end portion 32a on the side surface portion, and also has an inclined end portion 32b on the upper surface portion. Similarly, the second outer shaping plate 33 also has inclined end portions 33a and 33b. The left and right first and second inner shaping plates 30 and 31 are disposed with a gap on the upper surface side. From this gap, the upper surface of the spring guide tube 40 is exposed. The distal end on the downstream side of the spring guide tube 40 is arranged to be at the same position as the distal end on the downstream side of the inner shaping portion.

重なり部34の下流側に、第1ヒートシール機器(溶着手段に相当)の第1圧着部50が設けられている。第1圧着部50に対応して第1圧着受け部51が設けられている。第1圧着受け部51は、バネガイド筒40の上面に設けられており、第1圧着部50と第1圧着受け部51により帯状シート材1を挟持して加熱することで溶着するようにしている。第1ヒートシール機器は、帯状シート材1が搬送される長手方向に沿った溶着を行うものである。   A first pressure bonding part 50 of a first heat seal device (corresponding to welding means) is provided on the downstream side of the overlapping part 34. A first crimp receiving portion 51 is provided corresponding to the first crimp portion 50. The first crimp receiving part 51 is provided on the upper surface of the spring guide tube 40 and is welded by sandwiching and heating the belt-like sheet material 1 between the first crimping part 50 and the first crimp receiving part 51. . The first heat sealing device performs welding along the longitudinal direction in which the belt-like sheet material 1 is conveyed.

内側整形部及び外側整形部の下流側に第2ヒートシール機器を構成する第2圧着部52と第2圧着受け部53が設けられている。この第2ヒートシール機器は、帯状シート材1を幅方向に沿って溶着するものであり、これにより、コイルバネ2が1つ収容される円筒形袋が形成される。第2圧着部52と第2圧着受け部53で帯状シート材1を挟持して溶着する点は、第1ヒートシール機器と同じであるが、この第2ヒートシール機器は帯状シート材1を挟持した状態で下流側へ所定量移動する機能も有する。これにより、帯状シート材1を所定ピッチで間欠的に搬送することができる。   A second pressure-bonding part 52 and a second pressure-bonding receiving part 53 constituting the second heat seal device are provided downstream of the inner shaping part and the outer shaping part. This 2nd heat seal apparatus welds the strip | belt-shaped sheet | seat material 1 along the width direction, and, thereby, the cylindrical bag in which the one coil spring 2 is accommodated is formed. The point that the belt-like sheet material 1 is sandwiched and welded between the second pressure-bonding portion 52 and the second pressure-bonding receiving portion 53 is the same as that of the first heat-sealing device, but this second heat-sealing device sandwiches the belt-like sheet material 1. In this state, it also has a function of moving a predetermined amount downstream. Thereby, the strip | belt-shaped sheet material 1 can be intermittently conveyed with a predetermined pitch.

<製造工程>
つぎに、図4、図5による製造装置を用いて、図1〜図3に示す連続ポケットコイルバネ列を製造する工程について説明する。図6A〜図6Dは、製造工程を概念的に示す斜視図である。図7A〜図7Cは、製造工程を示す断面図である。
<Manufacturing process>
Next, a process of manufacturing the continuous pocket coil spring array shown in FIGS. 1 to 3 using the manufacturing apparatus shown in FIGS. 4 and 5 will be described. 6A to 6D are perspective views conceptually showing the manufacturing process. 7A to 7C are cross-sectional views showing the manufacturing process.

図6Aは、実際に帯状シート材1をロール1Rから引き出して、コイルバネ2を収容していく工程を示している。内側整形部と外側整形部の間の隙間に帯状シート材1を通過させた状態が図7Aの断面図に示される。   FIG. 6A shows a process of actually pulling out the belt-like sheet material 1 from the roll 1R and accommodating the coil spring 2 therein. A state in which the belt-like sheet material 1 is passed through the gap between the inner shaping portion and the outer shaping portion is shown in the sectional view of FIG. 7A.

図7Aにおいて、帯状シート材1は幅方向の両側から折り畳まれるが、左側の側面隙間g1に帯状シート材1の左側面部101が位置し、上面隙間g3に左上面部103が位置する。このように帯状シート材1は、幅方向の左側(一方側)から折り畳まれる。右側の側面隙間g2に帯状シート材1の右側面部102が位置し、重なり部34における隙間g4に右上面部104が位置する。この状態では、第1長手方向端部1aと第2長手方向端部1bの間には第1外側整形プレート32が位置する。また、第1・第2長手方向端部1a,1bは、上下方向に重なった状態に整形されている。このように、帯状シート材1は、幅方向の右側(他方側)から折り畳まれる。   7A, the belt-like sheet material 1 is folded from both sides in the width direction, but the left side surface portion 101 of the belt-like sheet material 1 is located in the left side surface gap g1, and the left top surface portion 103 is located in the top surface gap g3. Thus, the belt-shaped sheet material 1 is folded from the left side (one side) in the width direction. The right side surface portion 102 of the belt-like sheet material 1 is located in the right side surface gap g2, and the right upper surface portion 104 is located in the gap g4 in the overlapping portion 34. In this state, the first outer shaping plate 32 is located between the first longitudinal end 1a and the second longitudinal end 1b. The first and second longitudinal end portions 1a and 1b are shaped so as to overlap in the vertical direction. Thus, the belt-like sheet material 1 is folded from the right side (the other side) in the width direction.

コイルバネ2はバネガイド筒40内に圧縮された状態で収容される。バネガイド筒40内に収容されているが、まだ帯状シート材内に直接収容されていない。図6Aに示すように、コイルバネ2がバネガイド筒2内に押し込まれるのとほぼ同じタイミングで第1圧着部50が下方に移動して、第1・第2長手方向端部1a,1bを挟持して圧着する。この状態を図7Bに示す。   The coil spring 2 is accommodated in a compressed state in the spring guide tube 40. Although it is accommodated in the spring guide tube 40, it is not yet directly accommodated in the belt-like sheet material. As shown in FIG. 6A, the first pressure-bonding portion 50 moves downward at approximately the same timing as the coil spring 2 is pushed into the spring guide tube 2 to sandwich the first and second longitudinal end portions 1a and 1b. And crimp. This state is shown in FIG. 7B.

図7Bは、重なり部34の下流側における断面図である。この位置には、第1・第2外側整形プレート32,33、すなわち、重なり部34が存在しない。従って、第1圧着部50と第1圧着受け部51により、第1・第2長手方向端部1a,1bを圧着し溶融する。これにより、帯状シート材1の長手方向の所定長さを溶着することができる。所定長さは、第1圧着部50の長手方向に沿った長さで決まる。所定長さが適宜設定することができる。   FIG. 7B is a cross-sectional view on the downstream side of the overlapping portion 34. At this position, the first and second outer shaping plates 32 and 33, that is, the overlapping portion 34 does not exist. Therefore, the first and second longitudinal end portions 1a and 1b are crimped and melted by the first crimping portion 50 and the first crimping receiving portion 51. Thereby, the predetermined length of the longitudinal direction of the strip | belt-shaped sheet material 1 can be welded. The predetermined length is determined by the length along the longitudinal direction of the first crimping portion 50. The predetermined length can be set as appropriate.

図6Bに示すように、第1圧着部50による圧着溶融が終わると、第1圧着部50は上方に移動する。そのタイミングに合わせて、バネ送り部材41が前方に移動して、バネガイド筒40内のコイルバネ2が1つだけ押し出される。すなわち、バネガイド筒40の先端から押し出されると同時に、第1・第2内側整形プレート30,31の先端からも押し出される形になる。これにより、圧縮されていたコイルバネ2は、その復元力により、帯状シート材1内の幅方向に伸びた状態に収容される。   As shown in FIG. 6B, when the crimping and melting by the first crimping part 50 is finished, the first crimping part 50 moves upward. In accordance with the timing, the spring feed member 41 moves forward, and only one coil spring 2 in the spring guide tube 40 is pushed out. That is, it is pushed out from the tips of the first and second inner shaping plates 30 and 31 simultaneously with being pushed out from the tip of the spring guide tube 40. Thereby, the compressed coil spring 2 is accommodated in a state extending in the width direction in the belt-like sheet material 1 due to its restoring force.

図7Cは、内側整形部およびバネガイド筒40から押し出されたコイルバネ2が帯状シート材1の内部に収容された状態を示す断面図である。また、この時点では、すでに重なり領域12は溶着されているので、コイルバネ2の復元力にもかかわらず、帯状シート材1の断面形状は維持される。重なり領域12において、第1長手方向端部1aと第2長手方向端部1bは水平状態で上下に重なっているので、突出した部分が形成されない。   FIG. 7C is a cross-sectional view showing a state in which the coil spring 2 pushed out from the inner shaping portion and the spring guide cylinder 40 is accommodated in the belt-like sheet material 1. At this time, since the overlapping region 12 is already welded, the cross-sectional shape of the strip-shaped sheet material 1 is maintained despite the restoring force of the coil spring 2. In the overlapping region 12, the first longitudinal end 1a and the second longitudinal end 1b overlap vertically in the horizontal state, so that no protruding portion is formed.

コイルバネ2が1つ押し出されると、第2圧着部52が下方に移動して、隣接して収容されているコイルバネ2とコイルバネ2の間を第2圧着部52と第2圧着受け部53により挟持・圧着する。これにより、コイルバネ2とコイルバネ2の間の部分、すなわち、帯状シート材1の幅方向に沿って加熱溶着される。これにより、円筒形袋10が形成される。すなわち、完全に閉じた空間である円筒形袋10が形成され、その内部空間に1つのコイルバネ2が収容される。   When one coil spring 2 is pushed out, the second crimping portion 52 moves downward, and the coil spring 2 and the coil spring 2 accommodated adjacent to each other are sandwiched between the second crimping portion 52 and the second crimp receiving portion 53.・ Crimp. Thereby, it heat-welds along the part between the coil spring 2 and the coil spring 2, ie, the width direction of the strip | belt-shaped sheet material 1. FIG. Thereby, the cylindrical bag 10 is formed. That is, the cylindrical bag 10 which is a completely closed space is formed, and one coil spring 2 is accommodated in the internal space.

第2圧着部52が下方に移動して、第2圧着部52と第2圧着受け部53とにより帯状シート材1を挟持した状態で搬送方向下流側(長手方向前方:x方向)に移動する。この移動距離はコイルバネ2の配列ピッチと同じである。これにより、帯状シート材1の全体が上記ピッチ分だけ下流側に移動させられる(図6C参照)。   The second crimping part 52 moves downward and moves downstream in the transport direction (longitudinal direction forward: x direction) with the belt-like sheet material 1 sandwiched between the second crimping part 52 and the second crimping receiving part 53. . This moving distance is the same as the arrangement pitch of the coil springs 2. Thereby, the whole strip | belt-shaped sheet material 1 is moved downstream by the said pitch (refer FIG. 6C).

所定ピッチ移動した後、第2圧着部52が上方に移動し、搬送方向の逆方向(x’方向)に移動する(図6D参照)。以後は、再び図6Aに戻り同じ動作を繰り返す。   After moving by a predetermined pitch, the second crimping portion 52 moves upward and moves in the opposite direction (x ′ direction) to the transport direction (see FIG. 6D). Thereafter, returning to FIG. 6A again, the same operation is repeated.

<別実施形態>
本実施形態では、重なり部34の構成に関して、第2外側整形プレート33が第1外側整形プレート32の上に位置しているが、上下関係についてはどちらが上になってもよい。
<Another embodiment>
In the present embodiment, with respect to the configuration of the overlapping portion 34, the second outer shaping plate 33 is positioned on the first outer shaping plate 32, but either may be up in the vertical relationship.

内側整形部と外側整形部を構成する部材はプレート状に形成されているが、部材の材質、加工方法、形状については、本実施形態に限定されるものではない。   The members constituting the inner shaping portion and the outer shaping portion are formed in a plate shape, but the material, processing method, and shape of the members are not limited to this embodiment.

第1・第2長手方向端部1a,1bを重ねて溶着する領域は、幅方向の中央部であるが、これは厳密に中央(1/2)を意味するものではなく、ある程度の幅を有するものである。厳密な中央位置からずれていてもよい。溶着する面積、数、等についても適宜決めることができる。   The region where the first and second longitudinal direction end portions 1a and 1b are overlapped and welded is the central portion in the width direction, but this does not strictly mean the center (1/2), and has a certain width. It is what you have. It may deviate from the exact center position. The area to be welded, the number, etc. can also be determined as appropriate.

1 帯状シート材
1a 第1長手方向端部
1b 第2長手方向端部
10 円筒形袋
11 圧着領域
12 重なり領域
2 コイルバネ
30 第1内側整形プレート(内側整形部)
31 第2内側整形プレート(内側整形部)
32 第1外側整形プレート(第1外側整形部)
33 第2外側整形プレート(第2外側整形部)
34 重なり部
50 第1圧着部
51 第1圧着受け部
DESCRIPTION OF SYMBOLS 1 Strip-shaped sheet material 1a 1st longitudinal direction edge part 1b 2nd longitudinal direction edge part 10 Cylindrical bag 11 Crimping area | region 12 Overlapping area | region 2 Coil spring 30 1st inner shaping plate (inner shaping part)
31 2nd inside shaping plate (inside shaping part)
32 1st outside shaping plate (1st outside shaping part)
33 2nd outside shaping plate (2nd outside shaping part)
34 Overlapping portion 50 First crimping portion 51 First crimping receiving portion

Claims (4)

通気性を有する帯状シート材によりポケット状に形成された連続円筒形袋の1袋に1個のコイルバネを収納して列状に形成された連続ポケットコイルバネ列であって、
前記連続円筒形袋は、前記帯状シート材を幅方向の両側から折り畳んで形成される空間にコイルバネが収容される構造とし、前記帯状シート材の長手方向に沿って所定ピッチで前記幅方向に沿って溶着すると共に、前記帯状シート材を折り畳んだ長手方向端部同士を溶着して形成され、
前記長手方向の端部同士は、前記幅方向の一方側から折り畳んだ第1長手方向端部と、前記幅方向の他方側から折り畳んだ第2長手方向端部同志とを、上下平面的に重ねた状態で溶着され、かつ、その溶着位置が前記幅方向の中央部に位置することを特徴とする連続ポケットコイルバネ列。
A continuous pocket coil spring row formed in a row by storing one coil spring in one bag of a continuous cylindrical bag formed in a pocket shape by a belt-like sheet material having air permeability,
The continuous cylindrical bag has a structure in which a coil spring is accommodated in a space formed by folding the belt-shaped sheet material from both sides in the width direction, and along the width direction at a predetermined pitch along the longitudinal direction of the belt-shaped sheet material. And is formed by welding the longitudinal ends of the belt-like sheet material folded,
The longitudinal ends overlap each other in a vertical plane with a first longitudinal end folded from one side in the width direction and a second longitudinal end folded from the other side in the width direction. A continuous pocket coil spring array characterized in that it is welded in a state where the weld position is located at the center in the width direction.
通気性を有する帯状シート材によりポケット状に形成された連続円筒形袋の1袋に1個のコイルバネを収納して列状に形成された連続ポケットコイルバネ列の製造方法であって、
前記帯状シート材を幅方向の両側から折り畳んでコイルバネを収容する空間を形成する工程と、
前記空間にコイルバネを順次収容していく工程と、
前記コイルバネを収容した後に、帯状シート材の長手方向に沿って所定ピッチで前記幅方向に沿って溶着する工程と、
前記帯状シート材を折り畳んだ長手方向端部同士を溶着して工程と、を有し、
前記長手方向の端部同士は、前記幅方向の一方側から折り畳んだ第1長手方向端部と、前記幅方向の他方側から折り畳んだ第2長手方向端部同志とを、上下平面的に重ねた状態で溶着するものであることを特徴とする連続ポケットコイルバネ列の製造方法。
A method for producing a continuous pocket coil spring array in which one coil spring is housed in one bag of a continuous cylindrical bag formed into a pocket shape by a belt-like sheet material having air permeability,
Folding the belt-like sheet material from both sides in the width direction to form a space for accommodating a coil spring; and
Sequentially storing coil springs in the space;
After accommodating the coil spring, the step of welding along the width direction at a predetermined pitch along the longitudinal direction of the strip-shaped sheet material;
Welding the longitudinal ends of the belt-like sheet material folded together, and
The longitudinal ends overlap each other in a vertical plane with a first longitudinal end folded from one side in the width direction and a second longitudinal end folded from the other side in the width direction. A method for manufacturing a continuous pocket coil spring array, characterized in that the welding is performed in a wet state.
請求項1に記載の連続ポケットコイルバネ列を製造するための製造装置であって、
断面四辺形状に形成される内側整形部と、
この内側整形部の外表面側に位置し、外表面との間に隙間を形成して、帯状シート材を幅方向の一方側から折り畳むための第1外側整形部と、
前記内側整形部の外表面側に位置し、外表面との間に隙間を形成して、帯状シート材を幅方向の他方側から折り畳むための第2外側整形部と、を備え、
前記第1外側整形部と前記第2外側整形部は、前記幅方向の中央部に隙間を有する重なり部を有しており、
前記重なり部において、前記第1長手方向端部と前記第2長手方向端部のいずれか一方が重なり部の隙間を通過可能に構成されると共に、前記第1長手方向端部と前記第2長手方向端部のいずれか他方が重なり部の下側を通過可能に構成されていることを特徴とする連続ポケットコイルバネ列製造装置。
A manufacturing apparatus for manufacturing the continuous pocket coil spring array according to claim 1,
An inner shaping part formed in a quadrilateral cross section;
A first outer shaping portion for folding the belt-like sheet material from one side in the width direction, located on the outer surface side of the inner shaping portion, forming a gap with the outer surface,
A second outer shaping part for folding the belt-like sheet material from the other side in the width direction, located on the outer surface side of the inner shaping part, forming a gap with the outer surface,
The first outer shaping portion and the second outer shaping portion have an overlapping portion having a gap at the center in the width direction,
In the overlapping portion, one of the first longitudinal end and the second longitudinal end is configured to be able to pass through a gap between the overlapping portions, and the first longitudinal end and the second longitudinal The continuous pocket coil spring array manufacturing apparatus, wherein either one of the end portions in the direction is configured to be able to pass below the overlapping portion.
前記内側整形部の上側であって、かつ、前記重なり部の下流側に、前記第1長手方向端部と前記第2長手方向端部を溶着するための溶着手段が設けられていることを特徴とする請求項2に記載の連続ポケットコイルバネ列製造装置。 Welding means for welding the first longitudinal end and the second longitudinal end is provided on the upper side of the inner shaping portion and downstream of the overlapping portion. The continuous pocket coil spring array manufacturing apparatus according to claim 2.
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CN110683124A (en) * 2019-10-21 2020-01-14 浙江华剑智能装备股份有限公司 Production equipment and production method of bagged spring
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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP6262389B1 (en) * 2017-06-08 2018-01-17 松下工業株式会社 Continuous pocket coil spring array and continuous pocket coil spring array manufacturing method
JP2018202034A (en) * 2017-06-08 2018-12-27 松下工業株式会社 Continuous pocket coil spring row and method for manufacturing the same
CN113873922A (en) * 2018-12-20 2021-12-31 Hs产品有限公司 Pocket spring unit and method of manufacture
CN110683124A (en) * 2019-10-21 2020-01-14 浙江华剑智能装备股份有限公司 Production equipment and production method of bagged spring
CN110683125A (en) * 2019-10-21 2020-01-14 浙江华剑智能装备股份有限公司 Production equipment and production method of bagged spring
CN112829976A (en) * 2020-12-30 2021-05-25 浙江华剑智能装备股份有限公司 Cloth welding device, pocket spring string manufacturing equipment and pocket spring string manufacturing method

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