JP2004310836A - Disk device and camera equipped with disk device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a disk device equipped with both of vibration-proof property for a loading part and of the assurance of closing property for a cover, and provide a camera equipped with the disk device. <P>SOLUTION: In the disk device, the loading part 24 capable of accommodating a disk cartridge 8 inserted from an insertion hole 10 formed in a housing 4 is mounted on the housing 4 while intervening a vibration-proof member 27, and the cover 5 is mounted on a housing 4b while separated from the loading part 24. Further, locking members 58a, 58b movable between an engagement position where it engages with the cover 5 located at a closing position for covering the insertion hole 10 and a releasing position where the foregoing engagement is released are mounted on the housing 4 while separated from the loading part 24. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a disk device that performs recording and reproduction on a disk-shaped recording medium, and a camera equipped with the disk device. More specifically, the present invention relates to a structure in which a loading unit and a lid are not mechanically connected to each other to prevent vibration and dust from the loading unit. And a camera provided with the same.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a camera-integrated recording / reproducing apparatus (hereinafter simply referred to as a camera) including a disk device for recording captured data on a writable disk-shaped recording medium has been known. For example, it is disclosed in Patent Documents 1 and 2.
[0003]
[Patent Document 1]
JP 2001-101855 A
[0004]
[Patent Document 2]
JP 2001-101675 A
[0005]
In general, cameras are often used outdoors (especially cameras used by broadcast stations and the like for reporting), and are required to have anti-vibration, dust-proof, and drip-proof properties. In particular, disk drives use optical components that are sensitive to vibration and dust, such as optical pickups, so they have even better vibration, dust, and drip proofness than cameras that use magnetic tape as a recording medium. Required.
[0006]
[Problems to be solved by the invention]
However, conventionally, both a lid for closing the insertion opening of the disk cartridge and a lock member for holding the closed position of the lid are provided in the loading portion of the disk device (the optical drive, the rotation driving mechanism of the disk cartridge, and the loading / unloading of the disk cartridge). That is equipped with a loader for performing the above. The opening / closing operation of the lid, the locking operation for holding the closed position, and the releasing operation thereof are performed in mechanical linkage with the operation of the loader.
[0007]
If the loading section is not firmly attached to the housing in order to prevent vibrations in the loading section, for example, if a structure is adopted in which vibration-proof rubber is interposed between the loading section and the housing, the loading section becomes a vibration-proof rubber. Due to this, a slight movement is allowed, so if the lid and its lock member are connected to such a loading portion, there will be a deviation in positioning to the closed position, or On the other hand, a sufficient gap may not be obtained, or the gap may not be completely locked, resulting in a minute gap, from which dust or water droplets may enter the loading section through the insertion port. .
[0008]
SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and has as its object to provide a disk device that achieves both vibration isolation for a loading unit and ensuring the tightness of a lid, and a camera provided with the disk device. It is in.
[0009]
[Means for Solving the Problems]
In order to solve the above-described problems, the disk device of the present invention has a loading unit capable of accommodating a disk cartridge inserted from an insertion opening opened in the housing, attached to the housing via a vibration isolating member, and a cover. A lock member that is movable between an engagement position that engages with the lid at a closed position that covers the insertion port and a release position where the engagement is released, It is characterized in that it is attached to the housing separately from the loading section.
[0010]
Further, a camera according to the present invention includes the above-mentioned disk device. That is, in the camera of the present invention, the captured data can be recorded on the disk-shaped recording medium in the disk cartridge loaded in the loading section of the disk device.
[0011]
The vibration isolating member buffers the shock applied to the housing, and prevents or attenuates the shock to the loading section where recording / reproducing is performed on the disk cartridge. As a result, a recording / reproducing error with respect to the disk cartridge can be prevented. As the vibration isolating member, for example, a member made of a rubber material can be used. However, the member is not limited as long as it has a buffer function. For example, a coil spring or the like may be used.
[0012]
The lid has a function of protecting the insertion slot from the external environment at the closed position, and allows the insertion or removal of the disk cartridge from the insertion slot when the cover is at the open position. The lock member holds the lid in the closed position by engaging the lid in the closed position. The lid and the lock member are attached to the housing and are not mechanically connected to the loading section. Therefore, the opening / closing operation of the vibration isolating member interposed between the loading portion and the housing (the effect of deformation or vibration due to a buffering action) and the engagement / disengagement of the locking member with the lid are prevented. The release operation can be performed stably.
[0013]
Also, by providing an electric motor that moves the lock member from the position of engagement with the lid to the position of release, for example, during writing of data to the disk cartridge, without operating the electric motor, it is operated after the end of writing, or Automatic control of releasing the lock (holding the closed position) of the lid can be performed, for example, by operating the electric motor when the disk cartridge is moved to the vicinity of the insertion slot by the operation of the loader. As a result, the time during which the lid is open can be controlled to a necessary minimum, and drip-proofing and dust-proofing of the disk cartridge and the optical pickup can be thoroughly performed. Of course, the operation of the lock member may be performed manually.
[0014]
Note that, even when the lock member is operated by the electric motor, it is preferable to provide a manual operation unit. For example, if a slide piece that is moved between an engagement position and a release position integrally with the lock member is provided facing the outside of the housing, the battery serving as a power supply unit for the electric motor runs out, Even if the motor itself breaks down, the lock piece integrated with the slide piece can be moved to the release position by manually moving the slide piece using, for example, some jig.
[0015]
Further, if the sealing material is provided at least at a position in contact with the insertion port forming surface on the inner surface of the lid facing the insertion port forming surface of the housing in which the insertion port is formed in the closed position. In addition, the sealing force of the lid can be further increased. As the sealing material, any material may be used as long as it is squeezed between the inner surface of the lid and the insertion port forming surface and is brought into close contact with both. For example, a rubber material, a resin material, or the like can be used.
[0016]
Further, the disk cartridge in the present invention is not limited to a structure in which one disk-shaped recording medium (optical disk, magneto-optical disk, magnetic disk) is rotatably accommodated in a space formed in a flat cartridge. Also, there is included a magnetic disk having a structure in which one or a plurality of magnetic disks are accommodated in a casing and a magnetic head for reading and writing the magnetic disks (so-called portable hard disk).
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a disk device according to an embodiment of the present invention and a camera equipped with the disk device will be described with reference to the drawings.
[0018]
(Overall configuration of camera)
FIG. 1 is an external perspective view of a camera 1 as one embodiment of the present invention. The camera 1 roughly includes a main body 3 and a lens 2. An image sensor and various signal processing circuits for converting optical information imaged by the lens 2 into electric signals are provided in a housing 4 of the main body 3, and data obtained by digitizing the electric signals is optically transferred to a disk-shaped recording medium. A built-in disk device for recording / reproducing.
[0019]
Hereinafter, the disk device will be described.
[0020]
(Structure of loading section)
The disk device is built in the right side of the camera body 3 in FIG. FIG. 4 shows a state in which the right side housing 4b is removed from the main body 3 and the loading unit 24 of the disk device is exposed. The loading unit 24 includes the chucking table 19, the optical pickup (not shown), the frame 21, the loader 20, and the like as one unit.
[0021]
Next, the mounting structure of the loading section 24 to the housing 4 will be described with reference to FIG. At four corners of the loading portion 24, mounting portions 23 projecting outward are provided. Each mounting portion 23 has a boss portion 26 (see FIG. 4) formed on the housing 4 side, and a vibration isolating member 27 interposed between the boss portion 26 and the mounting portion 23 to form a stepped screw 22. Screwed.
[0022]
The vibration isolating member 27 is made of, for example, a rubber material having a cylindrical shape, and a groove 27a is formed on the outer peripheral surface thereof along the circumferential direction. The vibration isolating member 27 engages the groove 27 a with an edge of a through hole formed in the mounting portion 23, and has a lower surface thereof in contact with an upper surface of the boss portion 26. The stepped screw 22 penetrates the vibration isolating member 27, and the small diameter portion at the tip is screwed into a screw hole formed in the boss portion 26. It should be noted that the screwing points are not limited to the four corners as long as the desired mounting strength and vibration damping action can be obtained for the loading portion 24.
[0023]
In addition to the loading section 24, an insertion port for inserting a disk cartridge into the loading section 24, an inner door for opening and closing the insertion port, and a lid that can be sealed by covering the insertion port and the inner door. The disk device according to the present embodiment is provided with a lock mechanism for holding the lid at the closed position, and the like.
[0024]
(Structure near the insertion port)
FIG. 2 shows a perspective view near the insertion port 10. At a connection portion between the upper housing 4a and the right housing 4b of the camera body 3, an insertion opening forming surface 9 recessed from the other outer surfaces of these housings 4a, 4b is formed. An insertion port 10 that extends in the front-rear direction of the camera body 3 is opened in the insertion port forming surface 9. The right side case 4b is attached to the upper side case 4a by, for example, screwing. At this time, a substantially U-shaped notch 10a formed in the upper side case 4a and a right side case 4b are formed. By making the notches 10b of substantially U-shape face each other, a substantially rectangular insertion opening 10 is obtained.
[0025]
The length of the insertion slot 10 is slightly larger than the width of the disc cartridge 8 to be inserted, and the width of the insertion slot 10 is slightly larger than the thickness of the disc cartridge 8. Can be inserted into or removed from the loading section 24.
[0026]
On the inner side of the insertion opening forming surface 9, hollow portions 13a and 13b penetrating the upper housing 4a are formed. Locking members 58a and 58b, which will be described later, and bent portions 40a and 40b for operating the locking members 58a and 58b to the engagement position with the lid 5 are arranged in the hollow portions 13a and 13b, respectively.
[0027]
(Structure of inner door)
FIG. 3 shows the inner surface side (the side facing the loading unit 24) of the right side housing 4b. A rectangular inner door 12 larger than the size of the insertion port 10 is attached to the back surface of the edge of the U-shaped notch 10b constituting half of the insertion port 10 via a hinge mechanism (not shown). The inner door 12 is urged upward by a torsion coil spring (not shown), and closes the insertion port 10 in a normal state by abutting against the rear surface of the edge of the insertion port 10. When the disc cartridge 8 is inserted, the outer surface of the inner door 12 is pushed by the end face on the insertion side of the disc cartridge 8, and is tilted toward the inner surface side of the right side housing 4b around the hinge mechanism described above. The insertion of the disk cartridge 8 is permitted.
[0028]
(Lid structure)
In the right side housing 4b, a closed position covering the entire insertion opening forming surface 9 including the insertion opening 10 (the state shown in FIG. 1) and an open position opening the insertion opening 10 and the insertion opening forming surface 9 (FIG. 2) ) Is attached. One end of each of a pair of hinges 11a and 11b penetrating the right side housing 4b is connected to an inner surface of the lid 5 facing the insertion opening forming surface 9. The lid 5 is urged by a torsion coil spring (not shown) in a direction to open the insertion port forming surface 9.
[0029]
The other end of one of the hinges 11b is connected to a plurality of gears 14 provided on the inner surface of the right side housing 4b and a damper 15 having a built-in impeller. The rotational speed to the open position due to is damped.
[0030]
A pair of metal fittings 16 a and 16 b are attached to the inner surface of the lid 5 with screws 17. Each of the metal fittings 16a, 16b has a U-shape that forms a concave space with the inner surface. Further, a sealing material 18 is attached to an edge of the inner surface. The sealing material 18 is made of, for example, a rubber material, and is in close contact with the insertion port forming surface 9 when the lid 5 is in the closed position, to improve the sealing performance when the lid 5 is in the closed position.
[0031]
(Configuration of lock mechanism)
Next, the lock mechanism will be described. FIG. 7 is a bottom view of the lock mechanism 30 in the engagement position for holding the lid 5 in the closed position. FIG. 6 shows a bottom view of the lock mechanism 30 in the release position where the engagement with the lid 5 is released. 9 and 10 show front views of the lock mechanism 30 in the engagement position. FIG. 8 shows a front view of the lock mechanism 30 in the release position. FIG. 12 shows a perspective rear view of the lock mechanism 30 in the engaged position. FIG. 11 shows a rear perspective view of the lock mechanism 30 in the release position.
[0032]
The lock mechanism 30 mainly includes a base plate 31 fixed to the housing 4, a slide plate 32 slidable on the base plate 31, a lock release gear 37 rotatably supported on the base plate 31, An unlock motor 65 (see FIG. 13) for rotating the unlock gear 37 is provided. Both the base plate 31 and the slide plate 32 are formed by bending a sheet metal made of, for example, a stainless material. The slide plate 32 is coated with, for example, a fluororesin paint in order to enhance the slidability.
[0033]
As shown in FIG. 8, round holes 57 a and 57 b are formed at both ends of the first plate portion 33 having an elongated strip shape in the base plate 31. The base plate 31 is screwed to the housing 4 by passing screws through the round holes 57a and 57b. As shown in FIG. 4, the lock mechanism 30 has the first plate portion 33 of the base plate 31 and the first plate portion 32 of the slide plate 32 facing the front in the drawing (removed in the drawing) at the position above the loading portion 24. (Toward the right side housing 4b).
[0034]
As shown in FIG. 8, a pair of guide pins 39 for guiding movement of the slide plate 32 along the longitudinal direction is provided on the surface of the first plate portion 33 of the base plate 31.
[0035]
A member 46 (see FIGS. 6 and 11) made of, for example, a resin material is attached to the second plate portion 34 of the base plate 31 which is bent substantially at right angles to the first plate portion 33 by screwing. A long hole 46a is formed in the member 46 along the moving direction of the slide plate 32 as a through hole. Although the member 46 is separate from the second plate 34 of the base plate 31, the member 46 may be integrated with the second plate 34.
[0036]
The slide plate 32, like the base plate 31, has a shape in which the second plate portion 36 is bent at a substantially right angle with respect to the elongated plate-like first plate portion 35. The back surface of the first plate portion 35 of the slide plate 32 is overlaid on the surface of the first plate portion 33 of the base plate 31, and the back surface of the second plate portion 36 of the slide plate 32 is overlaid on the surface of the second plate portion 34 of the base plate 31.
[0037]
The first plate portion 35 of the slide plate 32 is formed with a pair of elliptical guide holes 59 (see FIG. 8) along the longitudinal direction, and each guide hole 59 is formed in the base plate 31 described above. The guide pin 39 is fitted.
[0038]
As shown in FIG. 8, in the first plate portion 35 of the slide plate 32, a pair of lock members 58a and 58b are formed integrally near each guide hole 59. Each of the lock members 58a and 58b has an L-shape protruding upward and bent rightward.
[0039]
The second plate portion 36 of the slide plate 32 is integrally formed with a slide piece 47 (see FIGS. 6 and 11) bent toward the back surface, and this slide piece 47 passes through the above-described elongated hole 46a. ing.
[0040]
As shown in FIG. 11, a pair of levers 61 and 62 made of, for example, a stainless material are attached to the first plate portion 33 of the base plate 31 so as to be swingable about pins 63 and 64. Each of the levers 61 and 62 is integrally formed with a plurality of bent portions described below.
[0041]
First, the lever 61 will be described. An L-shaped bent portion 40a is formed on one end of the lever 61 so as to protrude from the first plate portion 33 of the base plate 31. The bent portion 40a is located near the lock member 58a and opposed to the inner surface of the lock member 58a.
[0042]
A bent portion 42 is formed on the other end of the lever 61 so as to penetrate the second plate portion 34 of the base plate 31 and protrude toward the surface of the second plate portion 34. The bent portion 42 comes into contact with a folded portion 41 (see FIGS. 6 and 8) formed by being folded back on the surface side of the second plate portion 35 of the slide plate 32, and moves to the right of the slide plate 32 (with the lid 5). It functions as a stopper for restricting movement (to the engagement position).
[0043]
In the vicinity of the pin 63, a bent portion 45 bent through the second plate portion 34 of the base plate 31 and the second plate portion 36 of the slide plate 32 to protrude toward the surface side of the second plate portion 36 (FIG. 6, 8) are formed. One end of a coil spring 43 is hooked on the bent portion 45. The other end of the coil spring 43 is hung on a folded portion 44 that is folded back on the surface side of the second plate portion 34 of the base plate 31.
[0044]
The coil spring 43 urges the bent portion 45 by pulling it to the left. That is, the lever 61 is biased by the coil spring 43 to rotate counterclockwise about the pin 63 in FIG. When the connection boundary between the bent portion 42 and the lever 61 comes into contact with the back surface of the second plate portion 34 of the base plate 31, further rotation is restricted and the lever 61 is held in the state shown in FIG.
[0045]
The other lever 62 also has an L-shaped bent portion 40b formed at one end thereof so as to protrude from the first plate portion 33 of the base plate 31. The bent portion 40b is located near the lock member 58b and opposed to the inner surface of the lock member 58b.
[0046]
A bent portion 56 is formed on the other end of the lever 62 so as to penetrate the second plate portion 34 of the base plate 31 and protrude toward the surface of the second plate portion 34. The bent portion 56 comes into contact with a folded portion 55 (see FIGS. 6 and 8) formed by being folded back on the surface side of the second plate portion 36 of the slide plate 32, and moves to the right of the slide plate 32 (with the lid 5). It functions as a stopper for restricting movement (to the engagement position).
[0047]
In the vicinity of the pin 64, two bent portions 54 and 53 (see FIGS. 6 and 8) which are bent so as to penetrate the second plate portion 34 of the base plate 31 and protrude toward the surface side of the second plate portion 34. Is formed. One end of the coil spring 51 is hooked on the bent portion 54. The other end of the coil spring 51 is hung on a folded portion 50 folded on the surface side of the second plate portion 34 of the base plate 31.
[0048]
The coil spring 51 urges the bent portion 54 by pulling it to the left. That is, the lever 62 is biased by the coil spring 51 to rotate counterclockwise in FIG. 11 around the pin 64. When the connection boundary between the bent portion 56 and the lever 62 abuts against the back surface of the second plate portion 34 of the base plate 31, further rotation is restricted, and the lever 62 is held in the state shown in FIG.
[0049]
The other bent portion 53 functions as a shutter that shields and transmits a photocoupler 72 (see FIG. 15), which will be described later, as the lever 62 swings.
[0050]
As shown in FIG. 6, a lock release gear 37 made of, for example, a resin material is attached to substantially the center of the surface of the second plate portion 34 of the base plate 31. The lock release gear 37 is rotatable about a shaft 37 a supported by the second plate portion 34 of the base plate 31.
[0051]
As shown in FIG. 8, in the unlocking gear 37, an actuator 60 is formed on the back surface of the base plate 31 facing the second plate portion 34 so as to protrude toward the second plate portion 34. The actuator 60 is formed integrally with the lock release gear 37 on the outer peripheral portion on the back surface of the lock release gear 37. Therefore, when the lock release gear 37 rotates, the actuator 60 also changes its position along with the rotation by drawing a circular locus around the shaft 37a.
[0052]
As shown in FIGS. 6 and 8, a rib 38 is integrally formed on the surface of the unlocking gear 37. The rib 38 is located on the outer peripheral portion of the surface of the unlocking gear 37 and extends along the circumferential direction. The extension length is, for example, about 1/5 of the entire circumference. The rib 38 changes its position by drawing a circular locus around the shaft 37a as the lock release gear 37 rotates, and functions as a shutter that shields and transmits a photocoupler 71 (see FIG. 15) described later. I do.
[0053]
As shown in FIG. 13, a first worm 68 meshing with the lock release gear 37 is disposed on the side of the lock release gear 37. A gear 69 that rotates integrally with the first worm 68 is attached to one end of the first worm 68. A lock release motor 65 is provided beside the gear 69. The lock release motor 65 is an electric motor connected to a circuit board 66 via an electric wire 67.
[0054]
The rotation shaft of the unlocking motor 65 is connected to a second worm 70, which meshes with the gear 69. Therefore, the rotational driving force of the unlocking motor 65 is transmitted to the unlocking gear 37 via the second worm 70, the gear 69, and the first worm 68.
[0055]
The first worm 68, the gear 69, the second worm 70, and the unlocking motor 65 are configured as an integrated unit, and are attached to the second plate portion 34 of the base plate 31 by, for example, screws.
[0056]
An actuated body 49 made of, for example, a resin material is disposed on the side of the unlocking gear 37 that is in mesh with the first worm 68 and on the opposite side of the shaft 37a. The actuated body 49 is, for example, screwed to the surface of the second plate portion 36 of the slide plate 32 and is moved integrally with the slide plate 32. The actuated body 49 may be formed integrally with the slide plate 32 instead of being formed separately.
[0057]
The one end face (the right end face in FIGS. 8 and 13) of the actuated body 49 moves right and left in the space between the lock release gear 37 and the second plate portion 36 as the slide plate 32 moves in the longitudinal direction. Moved to
[0058]
Mounting portions 48 and 52 are formed on the second plate portion 34 of the base plate 31 so as to be folded back to the front side. A circuit board 66 is mounted on the mounting portions 48 and 52 as shown in FIGS. A control circuit for the unlock motor 65 and the like are formed on the circuit board 66. Further, two photocouplers 71 and 72 are mounted.
[0059]
Each of the photocouplers 71 and 72 has a U-shape, and includes a light projecting element and a light receiving element capable of receiving light from the light projecting element. The photocoupler 72 switches between light shielding and light transmission by the above-described bent portion 53, and the photocoupler 71 switches between light shielding and light transmission by the rib 38 of the unlocking gear 37.
[0060]
Next, the operation of the disk device configured as described above will be described with reference to timing charts shown in FIGS.
[0061]
The correspondence between the terms shown in FIGS. 20 and 21 and the components described above will be described. The unlocking gear sensor corresponds to the photocoupler 71, and the lock / release sensor corresponds to the photocoupler 72. The other terms described will be described together with the operation description below.
[0062]
(Disc cartridge insertion operation)
Before describing the insertion operation, it is assumed that the lock mechanism 30 is in the state shown in FIGS. 7, 9, 12, 15, and 19, and the lid 5 is in the closed position covering the insertion port forming surface 9. That is, as shown in FIG. 19, the lock members 58a and 58b are in the engagement position where they are engaged with the fittings 16b and 16a of the lid 5. The lock members 58a and 58b are located in the hollow portions 13a and 13b shown in FIG. 2 and are in a state where they can be engaged with the fittings 16b and 16a of the lid 5 at the closed position.
[0063]
The lock members 58a, 58b have their bent portions inserted into the space between the fittings 16b, 16a and the inner surface of the lid 5, so that the lid 5 catches the fittings 16b, 16a on the lock members 58a, 58b. The movement to the open position is restricted and the closed position is maintained.
[0064]
In this state, first, when the ejection button 6 provided on the upper housing 4a of the main body 3 shown in FIG. 1 is pressed, an electric signal is sent to the lock release motor 65, and the lock release motor 65 starts rotating. .
[0065]
The rotation driving force of the unlocking motor 65 is transmitted to the unlocking gear 37 via the second worm 70, the gear 69, and the first worm 68, and the unlocking gear 37 is moved from the state shown in FIG. Rotates counterclockwise.
[0066]
With the rotation of the lock release gear 37, the actuator 60 also rotates counterclockwise about the shaft 37a, and reaches a position shown in FIG. Then, by further rotation, the operating element 60 pushes and moves the operated body 49 to the left. As a result, the slide plate 32 and the lock members 58a and 58b integrated with the operated body 49 move to the left, and reach the release position shown in FIGS. As a result, the lock members 58a, 58b are removed from the space between the fittings 16b, 16a and the inner surface of the lid 5, and the engagement with the fittings 16b, 16a is released.
[0067]
When the unlocking gear 37 starts to rotate from the state shown in FIG. 15, the rib 38 transmits light from the position where the photocoupler 71 blocks light (FIG. 16), and the position where the rib 38 rotates once to block light again (FIG. 17). ), The rotation of the unlock motor 65 is stopped in response to the detection signal. That is, the lock release gear 37 stops at a position where the photocoupler 71 is shielded from light.
[0068]
As described above, when the engagement between the lock members 58a, 58b and the metal fittings 16b, 16a is released, the lid 5 is biased to the open position by the torsion coil spring as described above. To open the insertion port forming surface 9 (the state of FIG. 2).
[0069]
In this state, the inner door 12 is tilted toward the inside of the housing 4 at the insertion end surface of the disk cartridge 8, and the disk cartridge 8 is inserted from the insertion opening 10. At a position where the disk cartridge 8 is inserted in a correct posture and the upper end surface of the disk cartridge 8 is substantially flush with the insertion slot 10, a loader IN switch (not shown) provided in the loading section 24 is turned on.
[0070]
Then, the lid 5 is manually closed. At this time, as shown in FIG. 18, the lower end surfaces of the fittings 16b, 16a attached to the inner surface of the lid 5 press the bent portions 40a, 40b formed at one end of the levers 61, 62. Thus, the levers 61 and 62 swing clockwise around the pins 63 and 64 from the state shown in FIG. 11 to the state shown in FIG.
[0071]
Due to this swing, the bent portions 42 and 56 formed at the other ends of the levers 61 and 62 are disengaged from the folded portions 41 and 55 formed on the slide plate 32. , 51 to the engagement position shown in FIG. As a result, the lock members 58a and 58b allow the bent portions to enter the space between the metal fittings 16b and 16a and the inner surface of the lid 5, and the lid 5 catches the metal fittings 16b and 16a on the lock members 58a and 58b. The movement to the open position is restricted and the closed position is maintained.
[0072]
If both of the bent portions 40a and 40b are not pushed by the metal fittings 16b and 16a, respectively, the contact between the bent portions 42 and 56 and the folded portions 41 and 55 is not released, and the one that is not released by only one of them is used. The slide plate 32 is not moved to the engagement position due to the contact between the bent portion and the folded portion. This prevents incomplete locking of the lid 5 due to half locking.
[0073]
The lid 5 is completely separated from the loading portion 24 attached to the housing 4 in a structure that allows some movement by the vibration isolating member 27, and is directly attached to the housing 4, so that the lid 5 is in the closed position. In doing so, the insertion opening forming surface 9 can be covered without causing a positional shift and without reducing the sealing force. Furthermore, the insertion port 10 is shut off from the outside in a state where the airtightness and the liquid tightness are further improved by the sealing material 18 formed on the inner surface. As a result, dust-proofing and water-proofing properties for preventing dust and moisture from entering the loading section 24 from the insertion port 10 are improved, and protection of precision components such as an optical pickup can be achieved.
[0074]
Along with the swing of the lever 62 by the above operation, the bent portion 53 integral with the lever 62 also swings, and the photocoupler 72 is moved from the position where the photocoupler 72 is shielded from light as shown in FIG. Deviates to the position where light is transmitted. As a result, the locked state of the lid 5 (the state of holding the closed position) is detected.
[0075]
As described above, when the loader IN switch is turned on and the light transmitting state of the photocoupler 72 (the locked state of the lid 5) is detected, the loader 20 shown in FIG. Down).
[0076]
When the loader is lowered to the loader H-END position, a loader H-END switch (not shown) provided in the loading unit 24 is turned on, the descent is stopped, and the chucking table 19 is moved. Accordingly, the center hole of the disk-shaped recording medium accommodated in the disk cartridge 8 is engaged with the chucking table 19, and the disk-shaped recording medium can be recorded and reproduced.
[0077]
At this time, since the loading section 24 is attached to the housing 4 with the anti-vibration member 27 interposed therebetween, even if an impact is applied to the housing 4, the mounting portion 24 is buffered by the anti-vibration member 27, thereby suppressing a recording / reproducing operation failure. it can.
[0078]
(When the eject button 6 is pressed from the play, stop, fast forward, or rewind mode)
When the loader 20 separates from the chucking table 19 and reaches the loader H-END position and the loader H-END switch is turned on, the unlocking motor 65 starts rotating.
[0079]
The rotation driving force of the unlocking motor 65 is transmitted to the unlocking gear 37 via the second worm 70, the gear 69, and the first worm 68, and the unlocking gear 37 is moved from the state shown in FIG. Rotates counterclockwise.
[0080]
With the rotation of the lock release gear 37, the actuator 60 also rotates counterclockwise about the shaft 37a, and reaches a position shown in FIG. Then, by further rotation, the operating element 60 pushes and moves the operated body 49 to the left. As a result, the slide plate 32 and the lock members 58a and 58b integrated with the operated body 49 move to the left, and reach the release position shown in FIGS. As a result, the lock members 58a, 58b are removed from the space between the fittings 16b, 16a and the inner surface of the lid 5, and the engagement with the fittings 16b, 16a is released.
[0081]
When the unlocking gear 37 starts to rotate from the state shown in FIG. 15, the rib 38 transmits light from the position where the photocoupler 71 blocks light (FIG. 16), and the position where the rib 38 rotates once to block light again (FIG. 17). ), The rotation of the unlock motor 65 is stopped in response to the detection signal. That is, the lock release gear 37 stops at a position where the photocoupler 71 is shielded from light.
[0082]
As described above, when the engagement between the lock members 58a, 58b and the metal fittings 16b, 16a is released, the lid 5 is biased to the open position by the torsion coil spring as described above. To open the insertion port forming surface 9 (the state of FIG. 2). During the above operation, for example, the extraction LED provided on the housing 4 blinks.
[0083]
In parallel with the above operation, the loader 20 holding the disk cartridge 8 rises (unload operation), and the inner door 12 tilts to open the insertion slot 10 in conjunction with the movement of the loader 20. As a result, the upper portion of the disk cartridge 8 is exposed from the insertion slot 10, and the disk cartridge 8 can be taken out.
[0084]
After taking out the disk cartridge 8, the lid 5 is manually closed. At this time, as described above, as shown in FIG. 18, the lower end surfaces of the fittings 16b, 16a attached to the inner surface of the lid 5 press the bent portions 40a, 40b formed at one end of the levers 61, 62. . Thus, the levers 61 and 62 swing clockwise around the pins 63 and 64 from the state shown in FIG. 11 to the state shown in FIG.
[0085]
Due to this swing, the bent portions 42 and 56 formed at the other ends of the levers 61 and 62 are disengaged from the folded portions 41 and 55 formed on the slide plate 32. , 51 to the engagement position shown in FIG. As a result, the lock members 58a and 58b allow the bent portions to enter the space between the metal fittings 16b and 16a and the inner surface of the lid 5, and the lid 5 catches the metal fittings 16b and 16a on the lock members 58a and 58b. The movement to the open position is restricted and the closed position is maintained.
[0086]
(When the eject button 6 is pressed after the recording mode (REC mode) operation)
After writing the data on the disk-shaped recording medium and performing the unmounting process, in the same manner as described above (when the eject button 6 is pressed from the playback, stop, fast forward, or rewind mode), the lid 5 is moved to the open position by unlocking the lid 5. And the unloading of the disk cartridge 8 by the loader 20 is performed.
[0087]
(When eject button 6 is pressed during REC mode)
In this case, even if the ejection button 6 is pressed, a signal for driving the lock release motor 65 is not sent, so that the opening operation of the lid 5 and the unloading operation of the loader 20 are not performed. Thereby, a writing error can be prevented.
[0088]
(When the loader IN switch is turned off while the loader 20 is performing the loader down operation, or when the loader 20 is unloaded due to the disc cartridge ID difference during the loader down operation)
When the light blocking state of the photocoupler 72 is detected and the lid 5 is closed, first, the loader 20 moves to the loader H-END position and waits. Then, when the person presses the takeout button 6, the above-described opening operation of the lid 5 and unloading operation of the loader 20 are performed. During this time, an alarm is issued by turning on or blinking a lamp.
[0089]
If the light-transmitting state of the photocoupler 72 is detected and the lid 5 is open, the loader 20 is moved to the loader H-END position and then automatically unloaded again.
[0090]
(When the power is abnormally shut down while the loader 20 is operating and the power is turned on again)
(1) When the loader IN switch is on.
When the light blocking state of the photocoupler 72 is detected and the lid 5 is closed, the loader 20 is moved down.
[0091]
If the light-transmitting state of the photocoupler 72 is detected and the lid 5 is open, the loader 20 is lowered when the lid 5 is closed (when the light-shielding state of the photocoupler 72 is detected). Then, when the takeout button 6 is pressed, unloading is performed. During this time, an alarm is issued by turning on or blinking a lamp.
[0092]
(2) When the loader IN switch is off (the loader cannot be down because the positional relationship between the disk cartridge 8 and the loader 20 is shifted).
When the light blocking state of the photocoupler 72 is detected and the lid 5 is closed, first, the loader 20 moves to the loader H-END position and waits. Then, when the person presses the takeout button 6, the above-described opening operation of the lid 5 and unloading operation of the loader 20 are performed. During this time, an alarm is issued by turning on or blinking a lamp.
[0093]
If the light-transmitting state of the photocoupler 72 is detected and the lid 5 is open, the loader 20 is moved to the loader H-END position and then automatically unloaded again.
[0094]
Further, in a state where the disc cartridge 8 is loaded in the loading section 24 and the lid 5 is locked and is in the closed position, the lock release motor 65 cannot be driven due to, for example, running out of battery, so that the manual unlocking is performed. Release means is provided.
[0095]
Specifically, as shown in FIG. 1, a hole 7 communicating with the inside is formed in the upper housing 4a, and a slide piece 47 formed integrally with the slide plate 32 is arranged in the hole 7. . The hole 7 is normally protected by a cap made of a rubber material, for example, from being inserted thereinto, and when the cap is removed, the slide piece 47 is exposed to the outside of the housing as shown in FIG. Then, by sliding the slide piece 47 with a tapered object such as a screwdriver, the lock members 58a and 58b can be moved to a position where the engagement with the metal fittings 16b and 16a is released. As a result, since the lid 5 is urged to the open position by the torsion coil spring as described above, the lid 5 is automatically opened and the disk cartridge 8 can be taken out.
[0096]
Although the embodiments of the present invention have been described above, the present invention is, of course, not limited thereto, and various modifications can be made based on the technical idea of the present invention.
[0097]
The disk device of the present embodiment is not limited to being used in a camera, but may be provided in other devices. Of course, the configuration may be a single disk device. In particular, the present invention is effective for outdoor use, application to be mounted on a vehicle, and application to carry, where vibration proof property and dust proof property are required.
[0098]
Further, the sealing material 18 provided on the inner surface of the lid 5 may be provided not only on the edge but also on the entire inner surface.
[0099]
【The invention's effect】
As described above, according to the present invention, the loading portion capable of accommodating the disk cartridge is attached to the housing with the vibration isolating member interposed therebetween, and the lid is separated from the loading portion and attached to the housing. Since the lock member movable between an engagement position for engaging with the lid at the covering closed position and a release position where the engagement is released is attached to the housing separately from the loading portion, the lid and Vibration isolation for the loading portion can be achieved without impairing the operation stability of the lock member. As a result, the recording / reproducing operation for the disc cartridge loaded in the loading section can be prevented from being defective due to the vibration-proofing effect of the vibration-proofing member and the dust-proofing and drip-proofing effect due to the reliable sealing of the lid.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a camera according to an embodiment of the present invention.
FIG. 2 is an enlarged perspective view of the vicinity of a disc cartridge insertion slot in the embodiment.
FIG. 3 is a perspective view showing an attachment structure of a lid to a housing in the embodiment.
FIG. 4 is a schematic plan view of the inside of the disk device according to the embodiment;
FIG. 5 is a cross-sectional view showing a mounting structure of the loading section to the housing according to the embodiment.
FIG. 6 is a bottom view of the lock mechanism according to the embodiment (unlocked state).
FIG. 7 is a bottom view of the lock mechanism (locked state).
FIG. 8 is a front view of the lock mechanism (unlocked state).
FIG. 9 is a front view of the lock mechanism (locked state).
FIG. 10 is a view showing a state in which an unlocking gear has been operated from the state of FIG. 9;
FIG. 11 is a rear perspective view of the lock mechanism (unlocked state).
FIG. 12 is a rear perspective view of the lock mechanism (locked state).
13 is a view showing a state where a lock release motor is attached to the lock mechanism shown in FIG. 6;
FIG. 14 is a view showing a state where a circuit board is further attached to the lock mechanism shown in FIG. 13;
FIG. 15 is a view showing a state where a circuit board is attached to the lock mechanism shown in FIG. 9;
FIG. 16 is a view showing a state where a circuit board is attached to the lock mechanism shown in FIG. 10;
FIG. 17 is a view showing a state where a circuit board is attached to the lock mechanism shown in FIG. 8;
FIG. 18 is a view for explaining a locking action accompanying the movement of the lid to the closed position.
FIG. 19 is a view showing a state in which the lid is locked by an operation continued from FIG. 18;
FIG. 20 is a timing chart when a disk cartridge is removed.
FIG. 21 is a timing chart when the disk cartridge is removed after the REC mode ends.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Camera, 2 ... Lens, 3 ... Main body, 4, 4a, 4b ... Housing, 5 ... Lid, 6 ... Eject button, 8 ... Disc cartridge, 9 ... Insertion opening forming surface, 10 ... Insertion opening, 12 ... Inside Door, 18 ... Sealing material, 20 ... Loader, 22 ... Stepped screw, 23 ... Mounting part, 24 ... Loading part, 26 ... Housing side boss part, 27 ... Anti-vibration member, 37 ... Lock release gear, 47 ... Slide piece , 58a, 58b: locking member, 65: electric motor, 66: circuit board, 71, 72: photocoupler.

Claims (5)

A housing;
An insertion opening opened in the housing,
A loading unit capable of accommodating a disk cartridge inserted from the insertion opening,
A disk device having a lid that is rotated between a closed position that covers the insertion port and an open position that opens the insertion port,
The loading unit is attached to the housing with a vibration isolating member interposed therebetween,
The lid is separated from the loading section and attached to the housing,
A lock member movable between an engagement position for engaging the lid in the closed position and a release position for releasing the engagement is attached to the housing separately from the loading portion. A disk device characterized by the following. The disk device according to claim 1, further comprising an electric motor that moves the lock member from the engagement position to the release position. 3. The disk device according to claim 2, wherein a slide piece integrally moved with the lock member between the engagement position and the release position is provided facing the outside of the housing. In the closed position, a sealing material is provided at least on a portion of the inner surface of the lid facing the insertion opening forming surface of the housing where the insertion opening is formed, in contact with the insertion opening forming surface. 2. The disk device according to claim 1, wherein: A camera comprising the disk device according to claim 1.

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