JPH0212648A - Recording or reproducing device - Google Patents

Abstract

PURPOSE:To simplify a constitution and to improve working performance by arranging a plate elastic member where at least two of elastic pieces regulating the position of a stable member, the position of the pressing means and the relative position between the cover and holder respectively are formed integrally between a cover and a holder. CONSTITUTION:Plate elastic members 50a, 50b in which at least two of an elastic piece 402 for regulating the relative position between a holder 30 and a cover 40 for a recording medium, an elastic piece 401c for operation control or position regulation of a pressing means 36 pressing the recording medium to be coupled with its driving means, and an elastic piece for position regulation of the stabilizing member 41 stabilizing the recording medium closely thereto are formed integrally are arranged between the cover 40 and the holder 30. Thus, plural elastic members used for plural devices are mounted at once. Thus, the constitution is simplified remarkably and the work performance is improved.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an improvement in a recording medium loading device suitable for use in a recording or reproducing V2 device.

(Prior Art) A recording or reproducing apparatus that records or reproduces video signals, audio signals, and data signals using a five-rotation magnetic disk is known.

In this type of device, the relative position of the holder that moves the magnetic disk from the ejecting position to the predetermined loading position and the lid placed on the outside of the holder is regulated, and the center core of the magnetic disk is attached to the spindle for rotation. Many elastic members are used for many mechanisms, including the operation control or position regulation of the disk pressing mechanism that presses the disk as much as possible, and the position regulation of the stabilizing member that contacts the loaded magnetic disk at the loading position and stabilizes its running. is used.

(Problems to be Solved by the Invention) However, in conventional devices, the elastic members used in each mechanism have different setting conditions and different positions, so each elastic member is separately provided. The number of parts is large, the installation work is troublesome, and the elasticity and shape of each elastic member must be set, resulting in poor work efficiency in terms of both design and assembly. It had points.

(Means for Solving the Problems) The present invention has been made for the purpose of solving the above-mentioned problem, and is characterized by: a holder for moving a recording medium to a predetermined loading position; a lid disposed on the outside of the holder; a pressing means for pressing the recording medium to couple it to the driving means in response to movement of the recording medium to the loading position; and a pressing means for stabilizing the recording medium in proximity to the recording medium. an elastic piece for regulating the position of the stabilizing member, an elastic piece for regulating the position of the pressing means, and an elastic piece for regulating the relative position of the lid body and the holder, at least two of which are integrated. By disposing a molded plate-like elastic member between the lid body and the holder, it is possible to attach a plurality of elastic members used in a plurality of mechanisms at once, and to set the arrangement and elasticity of each elastic member. This recording or reproducing device is designed to simplify the configuration and improve workability by allowing conditions to be set according to the forming position and length of each elastic member when designing the plate-like elastic member.

(Example) The recording or reproducing apparatus of the present invention will be explained below with reference to the respective figures.

FIG. 13 is a perspective view showing an example of a jacket in which a recording medium used in the apparatus of the present invention can be placed.

In the same figure, l is a jacket containing a recording medium,
A magnetic disk 2 as a recording medium is rotatably housed inside the disk. The center of the magnetic disk 2 is molded with synthetic resin and has an engagement hole 3 for a spindle for rotating the disk.
A center core 3 having a shape a is attached and exposed through a central hole bored in the upper and lower surfaces of the jacket. Further, on the lower surface of the center core 3, a magnetic plate 3a is arranged which is magnetically attracted to a magnet arranged on a spindle, which will be described later. Further, as shown in FIG. 11, the magnetic plate 3a is integrally bent with a protrusion 3b that passes through the center core 3 and is exposed to the upper surface. A rotational phase display member (hereinafter referred to as PG pin) 3b is formed to guide the magnetic flux of the magnet to the upper surface of the center core and to indicate the rotational phase of the disk.

1a and 1b are disc exposure openings formed at mutually opposing positions on the upper and lower surfaces of the jacket l, respectively, and recording, which will be described later, is carried out from the lower surface side opening 1b.

A stabilizing plate (described later) for stabilizing the contact state between the magnetic disk 2 and the magnetic head can be inserted into the reproduction magnetic head from the upper opening 1a. In the openings 1a and lb, shutters 4 for opening and closing these openings are arranged on a sliding white cloth in the direction of the arrow. Reference numeral 4a designates an engagement hole that engages with a shutter closing mechanism, which will be described later, when the shutter 4 is opened.

Further, reference numeral 5 denotes a locking member for locking the shutter 4 in the closed position, and although the details are omitted, a part of it is exposed on the side surface of the jacket where the shutter 4 is arranged, and as will be described later, when the jacket is inserted. The lock is released by operating a release member on the jacket holder side.

lc and ld are positioning holes drilled at predetermined locations near the side edges of the jacket 1 to position the loading position when the jacket 1 is loaded into a jacket mounting section (to be described later); 1e is a hole on the bottom surface of the jacket 1; This is an operation piece installed to prevent erroneous recording.

Next, the configuration of the apparatus of the present invention will be explained in order with reference to each figure. As a procedure for explanation, first an outline of the entire device will be explained, and then individual mechanisms will be explained in detail.

FIG. 1 is an exploded perspective view showing the basic structure of the jacket loading mechanism in the apparatus of the present invention.

Reference numeral 10 denotes the chassis of the main body of the recording or reproducing apparatus, which is molded with high precision by die-casting or the like, and is inserted through the lower side opening 1b of the jacket l loaded with a spindle 12 for rotating the disk and a spindle motor l11 for rotationally driving the spindle 12. A magnetic head 13 which is inserted into the magnetic disk 2 and performs recording and reproduction by contacting it, a transport mechanism (not shown) for the magnetic head 13, and positioning posts 14a, 14b, 14c for accurately positioning the jacket at the loading position are provided. , a jacket mounting section is configured. Each positioning post receives the lower surface of the jacket when it is loaded, and positions the positioning post 1 in the height direction.
4a and 14b are positioning holes 1c of the jacket.

Projections 141a and 141b are formed to be inserted into the ld so that positioning in the horizontal direction can be performed simultaneously. Note that the positioning post 14a is also used for positioning a stabilizer plate, which will be described later.

Further, at a predetermined location on the upper surface of the peripheral portion of the main body chassis 10, there is a projection 10d for positioning the mounting position of a frame 20 that supports a jacket loading mechanism unit, which will be described later.
10e and a screw hole 10a for screwing at the mounting position.
, 10b, and 10c are respectively formed, and a protrusion 10 that comes into contact with a support plate 42 that supports a stabilizing plate 41 to be described later to regulate its position in the height direction.
f, 10g, and 10h are formed.

The supporting plate of the stabilizing plate is inserted into the opening 1a of the jacket 1 loaded in the jacket loading section and positioned in the height direction of the operating position where it comes into contact with the magnetic disk 2 using the above-mentioned protrusion Log, 10h. Positioning the horizontal position by the post 14a and the protrusion 10
They are respectively positioned by f. Details will be described later.

20 is a holder 30, which will be described later, on the device main body chassis lO.
．． This is a frame for assembling a jacket loading mechanism consisting of a lid body 40.

This frame 20 has a front plate 20a and a right side plate 20b, which are formed by bending a relatively low-rigid metal plate into a substantially U-shape.

The left side plate 20c consists of bent pieces 20e and 20f formed at the ends of both side plates of the main body chassis 10.
Insert the screws 15 into the screw holes 10b and 10c of the same chassis while being positioned on the upper protrusions 10d and 10e, respectively.
By screwing the bent piece 20d formed inside the front plate 20a into the screw hole 10a on the chassis 10 with the screw 15, the device can be supported at three points including two points near the hinge. It is fixed on the main body chassis lO.

In other words, if the device main body chassis 10 is formed with high precision by die-casting or the like, the position of the frame 20 can be accurately determined by the above-mentioned three-point support structure, and the metal that forms it also needs to have high rigidity, precision, and strength. I don't. On the other hand, by forming the frame 20 from a thin, flexible metal plate with low rigidity, it is easy to form the frame 20, and it is easy to form the frame 20 by positioning the frame 20 at the time of installation.
Even if stress is generated due to screwing, etc., it can be absorbed by the frame 20, and the attachment to the apparatus main body chassis 10 will not cause deterioration in precision or deformation due to distortion or unnecessary external force.

The frame 20 has ends of both side plates and bent pieces 20f.
By inserting the support shaft 21 into the holes drilled in each of the projections 20g, 20h, and 20i formed at the tip,
A hinge portion 22 is configured to rotatably support a jacket holder 30 and a lid body 40, which will be described later. Moreover, since the free end of the frame 20 is connected by the support shaft 21, even if the frame 20 has low rigidity and is made of weak metal, the hinge part for supporting the jacket loading mechanism has sufficient strength. and accuracy can be ensured. By using this approximately U-shaped frame 20 and attaching it with three-point support, it is no longer necessary to provide a top plate, whereas in conventional devices each side plate was installed separately or in series via a top plate. Since there are no holes, there are fewer processing steps, which makes it possible to make the product thinner and easier to assemble.Furthermore, since the side surfaces in three directions can be molded and attached at once, the positions between each surface can be determined easily.

Further, a control lever 23 for controlling a disk pressing member 36 that presses a center core, which will be described later, is rotatably attached to the left side plate 20c of the frame 20 by a shaft 24, and is always biased clockwise by a spring 25. Protrusion 2
The rotation position is regulated by 01.

Also, on the inside of the front plate is a lock lever 27, which will be described later.
A lock lever 28 and the like for locking the lid 40 and the holder 30 in the closed position are provided, and these will be described later.

Further, 20j engages with an engaging arm 40c of the lid 40, which will be described later, and the lid 40. A protrusion is provided for determining the open position of the holder 30, and a protrusion 20 is provided for regulating the closed position of the holder 30.

Reference numeral 30 denotes a jacket holder that holds the jacket l inserted from the outside and transfers it to the jacket loading position on the device main body chassis 10. The jacket 1 is inserted in the direction of the arrow IN, and both sides of the jacket are placed on both sides of the lower part of the jacket holder. A guide portion/holding portion 30a for holding the.

30b is formed.

The holder 30 has a hinge protrusion 30c formed on its rear edge.
, 30d is the support shaft 21 of the hinge portion 22 of the frame 20.
It is rotatably attached to the coil spring 31, and is biased in the normally open direction by a coil spring 31, that is, counterclockwise as seen in FIGS. 1 and 3, and as shown in FIG.
The hinge portion 30d is constantly pressed against the protruding piece 20h on one side of the frame 20 by the elastic force in the direction of the support shaft 21. This prevents the holder 30 from wobbling at the hinge part,
This is to improve the accuracy of the loading position of the jacket.

On the upper surface of the holder 30, a disk pressing member 36 (described later) is provided.
Openings 30e and 30f are formed through which various operating members such as the stabilizer plate 41 and the like can pass.

An elastic member (plate spring) 32 as a jacket discharge member is disposed at the rear inside the holder 30, and on the right side, when the jacket l is inserted into the holder 30, it engages with the shutter 4 to open it. A shutter opening member 33 and a shutter opening member 34 formed of an elastic member (a leaf spring) for closing the shutter 4 by the ejection operation of the jacket are arranged. Further, on the rear upper surface of the holder 30, there is an engagement hole 30k for locking the rearward pressing position of the jacket discharge member 32.
is formed.

At the center of the upper surface of the holder, a magnetic disk 2 is mounted on the spindle 12 and is rotated.
A phase detection member (PG coil) 3 for detecting the PG bin 3b on the center core 3 and detecting the rotational phase of the disk.
5 is placed. Further, in the opening 30f adjacent to the PG coil 35, there is a disk that presses the top surface of the center core 3 of the disk to forcibly fit it into the spindle when loading the disk into the jacket mounting section on the device main body chassis 10. The pressing member 36 has a substantially middle portion thereof attached to the protruding piece 30g on the holder 30.

The PG coil 35 is arranged rotatably around a shaft 37 supported by a shaft 30h, and a PG coil 35
．． A pressing portion 36a that escapes from the spindle 11 and presses onto the center core 3 of the disk is formed, and the other end is provided with an engaging piece 3 that engages with the control lever 23 on the side surface of the frame 20 described above.
6b is formed. In addition, 30i is a lid body 40 which will be described later.
As is clear from FIG. 2, the protrusion 30j for regulating the relative rotational position with respect to This is a protrusion that prevents the support shaft 37 from being pulled out.
is a relay board that relays a lead wire (not shown) when wiring the output of the PG coil to a servo circuit board (not shown) provided on the device main body side, and is connected to the holder on the other end side of the support shaft 37. The thickness of the support shaft 37 prevents the other end of the support shaft 37 from being pulled out.

As a result, it is possible to prevent the support shaft 37 from being removed by using the circuit board on the holder without caulking or attaching an E-ring to both ends of the support shaft 37, and the configuration can be greatly simplified. can.

Reference numeral 40 denotes a lid body disposed on the outside of the holder 30 so as to be openable and closable together with the holder 30.

The lid body 40 is rotatably attached to the support shaft 21 of the hinge 22 together with the holder 30 via supporting pieces 40a and 40b as hinge parts formed on the rear edge.
The holder 30 is always biased counterclockwise by a leaf spring 50a, which will be described later, and is attached directly to the holder 30. By positioning it on the lower side,
The relative rotation range is restricted, and by positioning the lower engagement portion 402c of the engagement arm 40c below the protrusion 20j on the side surface of the frame, the open position of both the lid 40 and the holder 30 relative to the frame 20 can be adjusted. Regulated.

Inside the lid 40, there is a stabilizing plate 41 that comes into contact with the magnetic disk 2 through the opening 30e on the top surface of the holder 30 when closed.
is supported via a support plate 42. and support plate 4
2 is attached so as to be vertically movable with respect to the lid body 40 by pins 44a, 44b on the front side of the lid body 40 and an engaging protrusion 42c engaged in a hole 40d on the front surface of the lid body, and is constantly held by a leaf spring 50b to be described later. It is pressed downward, that is, toward the device main body chassis 10 side.

In addition, the support plate 42 includes a positioning boss 14 as a positioning protrusion 10 g on the device main body chassis 10 when the lid body 40 is closed.
Adjustable positioning pins 43a to 43c are arranged to abut on the pins 10h and perform positioning in the height direction and horizontal direction.

The detailed support structure of this stabilizer plate will be described later.

Further, a lock pawl 40e is formed on the front surface of the lid 40 to engage with a lock lever 28 disposed at the front of the frame 20 to lock the lid 4o and the holder 30 in the closed position.
At a position facing the engagement hole 30 of the holder 3o on the inside of the upper plate near the hinge 22, there is a cassette ejection member 3 of the holder 3o.
A release protrusion 40f for releasing the engagement between 2 and the engagement hole 30j is formed.

Further, 40g is an engaging portion that engages with the control lever 23 when the lid body 40 is closed and releases the pressing operation of the disk pressing member, and 40h, 40i, and 40j are the engaging portions of the frame 2.
0 to holder 30. After assembling the lid body 40, the frame 2
This hole allows a screw or a screwdriver (not shown) to be inserted so that the fixing screw 15 between the device body chassis 1o and the device body chassis 1o can be attached and removed.
There is no need to disassemble and remove the lid, holder, and frame separately when replacing the head (lid 40, holder 30).
．． It can be removed as a jacket loading mechanism unit from the frame 20, and serviceability and workability are greatly improved.

According to the device of the present invention configured as described above, the jacket l is inserted into the holder 30 in the open state in the direction of the arrow IN against the jacket discharge member 32, and after the jacket is stored in the holder 3o. By closing the lid body 40 toward the apparatus main body chassis 10, the holder 30 is loaded into the jacket loading position on the chassis 10, and by further closing the lid body 40, it is locked in the open position, The jacket loading operation is completed.

Further, when taking out the jacket 1, by releasing the lock of the lid body 40, the holder 30 is held by the spring 31.
．． The lid body 40 is opened and the jacket is discharged to the outside of the holder by the jacket discharge member 32.

The main structure of the apparatus of the present invention is as described above, and the detailed structure will be explained in detail below.

(1) Lid body 40. Regarding the opening/closing operation of the holder 30, the jacket ejection mechanism, and the shutter opening/closing mechanism, we will first explain the lid body 40. FIG. 2 shows the jacket discharging mechanism and shutter opening/closing mechanism that discharge the jacket l to the outside of the holder when the holder 30 is loaded with the jacket, and when the holder is opened.
This will be explained mainly using FIGS. 3 and 4.

FIG. 2 is a top view of the jacket loading mechanism unit viewed from above, and FIGS. 3(a) to 3(d) are side views in different operating states.

Lid body 40. In the open position where the holder 30 is opened and the jacket 1 can be attached and detached, the holder 30 is rotated counterclockwise as seen in the figure by the coil spring 31 disposed on the hinge 22, as shown in FIG. 3(a). The lid body 40 is disposed on the back surface thereof, and is further rotated counterclockwise with respect to the holder 30 by a leaf spring 50a that presses the upper surface of the holder 30 relatively. These open positions are shown in Figure 5 (a
), the gap between the lid 40 and the holder 30, that is, the rotation angle, is determined by the engagement between the upper engaging portion 401C of the engaging arm 40c of the lid 40 and the protrusion 30i of the holder 30. Furthermore, the rotation angle of the lid body 40 relative to the chassis 10 is restricted by the lower engaging portion 402C of the engaging arm 40c and the protrusion 20j. The open positions of the lid 40 and the holder 30 are determined by these interactions.

On the other hand, the jacket ejection member 32 disposed inside the holder 30 has one end fixed to the rear edge inside the holder 30, and the other end formed with a jacket pressing part 32a that comes into contact with the rear surface of the jacket l inserted into the holder 30. has been done. Further, an engaging portion 32b that can be engaged with the engaging hole 30 on the rear upper surface of the holder is formed on the upper surface of the other end. Also, this elastic member 32
is attached in a biased state so as to always maintain upward pressure, that is, the back surface of the upper plate of the holder 30. Therefore, when inserting or ejecting the jacket, the engaging portion 32b
moves while sliding while being pressed against the back surface of the upper plate of the holder 30.

In this state, when the jacket 1 is inserted from the jacket insertion opening of the holder 30, the jacket ejection member 32 is pressed backward against its elasticity and rotates in the direction of arrow A in FIG. When it reaches the position facing the engagement hole 30k of the holder 30, it is engaged into the engagement hole 30 by the upward pre-pressure.

As a result, the jacket ejecting member 32 is locked at the pressed position, and the jacket l is kept housed in the holder 30 without being ejected from the holder 30.

This state is shown in FIG. 3(b).

Note that when the jacket 1 is inserted into the holder 30, the holder 3
The front edge of the shutter 4 comes into contact with the shutter opening member on the inner surface of the jacket, and the shutter 4 is opened by the operation of inserting the jacket. Further, prior to this operation, a shutter lock release protrusion (not shown) on the inner surface of the holder engages with the shutter lock lever 5, so that the shutter 4 is unlocked.

After storing the jacket and closing the lid 40, the image shown in Fig. 3 (C) will appear.
As shown in FIG. 2, the holder 30 is also closed via the leaf spring 50a against the coil spring 31, and the holder 30 is rotated until its lower surface abuts against the protrusion 20k.

The jacket 1 within the holder 30 is positioned in the vertical and horizontal directions by positioning posts 14a to 14c on the chassis IO. Then, the magnetic head 13 is inserted through the opening 1b with the shutter 4 open and brought into contact with the disk 2.

Further, by closing the lid 40 against the leaf spring 50a, the lid 40 is locked in the closed position by a locking mechanism to be described later. Further, the protrusion 40f on the lower surface of the lid body 40 is inserted into the hole 30 of the holder 30, and the engaged portion 32b of the jacket discharge member 32, which is locked, is disengaged. As a result, the jacket discharge member 32 comes into a state in which the pressing portion 32a is pressed against the rear surface of the jacket 1 due to its elasticity.

This pressing also has the effect of eliminating rattling between the positioning posts 14a, 14b and the positioning holes lc, ld of the jacket l. This state is shown in FIG. 3(d).

In this state, the stabilizing plate 11 attached to the lid body 40 side
is inserted into the opening ld of the jacket 1 through the opening 30e of the holder 30, and the contact between the magnetic head 13 and the disk 2 can be stabilized.

Further, at a position facing the center core 3 of the disk 2 on the holder 30, there is a PG for detecting the rotational phase of the disk.
Coil 35 is positioned at a predetermined detection position.

Incidentally, in the process of opening the holder 30 described above, when the center core 3 of the disk 2 is attached to the spindle 12, the disk pressing member 36 disposed on the holder 30 operates to push the center core 3 onto the spindle 12. An operation of forcibly fitting is performed.

These individual operations will be described later. Therefore, when the lid body 40 is next unlocked and opened together with the holder 30, the elastic member 32 serving as the jacket discharge member returns elastically in the direction opposite to the arrow A, as shown in FIGS. 2 and 3(a).
The jacket 1 is returned to the position , and the jacket 1 is ejected to the outside of the holder 30, that is, in the direction opposite to the arrow IN, and can be easily taken out.

Further, a shutter closing mechanism is provided which automatically closes the shutter 4 which has been opened by the operation of ejecting the jacket 1 from the holder 30.

As described above, as shown in FIGS. 1 and 2, the shirt closure member 34 made of a leaf spring is disposed on the left inner surface of the holder 30. In the shirt shutter closing member 34, one end of the leaf spring on the inside of the holder is fixed to the left inner surface of the holder by caulking or the like, and the other end on the jacket insertion opening side is engaged with the engaging portion 4a of the shutter 4. A protrusion 34a is formed by bending. The protrusion 34a has a sloped surface on the jacket insertion side, and when the jacket 1 is inserted, the front edge of the shutter 4 can easily pass over the protrusion 34a and be introduced into the engagement hole 4a.

Therefore, when the jacket 1 is housed in the holder 30, the shutter 4 is locked by the jacket closing member 34, so the shutter 4 can be closed by the operation of discharging the jacket l from the holder 30. . Further, as is clear from the enlarged view of FIG. 4, the free end 34b of the shirt closure member 34 extends outward from the side surface of the holder 30, and the free end 34b extends outward from the side surface of the holder and the protrusion 30 cut up on the side surface.
It is sandwiched between A and A without being fixed. As a result, when the jacket 1 is inserted and the shirt closure member 4 is pressed outward from the side of the holder, the free end will not protrude to the side and will not interfere with other members. Also, since both ends of the leaf spring are restricted, a stronger elastic engagement force can be obtained compared to one where the other end is free.Furthermore, when the leaf spring is bent, its free end 34b is fixed. Since it is not attached, stress applied to the leaf spring can be released, and the durability of the leaf spring, that is, the shirt closure member is excellent.

(2) Regarding the locking mechanism of the lid 40 (holder 30) and the means for detecting the completion of loading of the jacket, the lid 40. Figures 5(a) to 5(a) show a locking mechanism for locking the holder 30 in its closed position and a detection mechanism for detecting that the jacket l has been reliably loaded into the jacket loading section and that the holder and lid have been locked. This will be explained using FIG. 5(d).

FIG. 5 shows the structure of the back side of the front plate 20a of the frame 20. On the back side of the front plate 20a of the frame 20, a lock lever 28 for locking the lid body 40 in the closed position is connected to its elongated holes 28a, 28b. Bin guide 2 on front plate 2Oa
01a and 202a so as to be slidable left and right, and an operating portion 28c at one end thereof protrudes to the side of the frame 20.
operably mounted.

A protrusion 28d extending from the upper edge of the lock lever 28 is provided with a lock pin 28e that engages and locks the lock pawl 40e when the lid 40 is closed.

Further, a lock lever 27 for holding the lock lever 28 in the unlocked position is rotatably attached at one end to the guide bin 202a, and is connected to the lock lever 28 by a spring 29a.

The other end of the locking lever 27 has a protrusion 27a that engages with the lower edge of the lid 40 and is pushed down when the lid 40 is closed.
is formed at a predetermined position on the upper edge and engages with an engagement piece 28f bent on the side of the lock lever 28, so that the lock lever 28 is placed in the left position (unlocked position) when viewed from the figure. An engaging stepped portion 27b is formed to engage with.

Also, at the left end of the front panel 20a, there is a jacket 1.
A leaf switch SW is attached to detect when the cassette is loaded at a predetermined cassette loading position and when the lid 40 is completely locked. In the guide bin 201a, a switch control lever 26 is always biased counterclockwise by a spring 29b to operate the leaf switch SW depending on the presence or absence of a jacket in the holder and the movement of the lock lever 28 when the holder is opened. It is arranged so that it can rotate freely. An engaging portion 26a that is pressed by the lower surface of the jacket in the holder 30 is formed at one end of the control lever 26, and an operating portion 26b for operating the leaf switch SW is formed at the other end.
Furthermore, a notch 26c and a protrusion 26d are formed approximately in the middle to engage with an engaging piece 28g bent on the side surface of the lock lever 28, respectively.

FIG. 5(a) shows the open or ejected state in which the operating portion 28c of the lock lever 28 is pushed to the left as viewed in the drawing, and the lock pin 28e is separated from the lock claw 40e of the lid body 40. Lid body 40. Both holders 30 are in an open state.

On the other hand, as the lock lever 28 moves to the left, the locking lever 27 is rotated counterclockwise via the spring 29a, and the protruding piece 27a is projected upward, that is, to a position where it can engage with the lower surface of the jacket. It is in a state of being The lock lever 28 is locked at the left position, that is, at the unlocked position, by the engagement piece 28f being locked with the engagement step 27b of the locking lever 27. Further, the switch control lever 26 is rotated counterclockwise by a spring 29b, so that the operating portion 26b is separated from the leaf switch SW, and the engaging portion 27a is projected to a position where it can be engaged with the lower surface of the jacket.

In this state, when the lid 40 is closed to the main body of the apparatus, in the process, the holder 30 is first moved to a predetermined loading position, as shown in FIG. 5(b). At this time, if the jacket is stored in the holder 30, the switch control lever 26 rotates clockwise against the spring 29b as the engaging portion 26a is pushed down by the lower surface of the jacket, and the operating portion 26b is rotated clockwise. Move to a predetermined position adjacent to switch SW.

Subsequently, by closing the lid body 40 to the lock position,
The lock claw 40e is the lock pin 2 of the lock lever 28.
The position is opposite to 8e. On the other hand, the locking lever 27 is
The lower front edge of the lid body 40 presses the engaging portion 27a and rotates counterclockwise against the spring 29a, releasing the lock lever 28 from the engaging stepped portion 27b. The lock lever 28 is slid to the right by the elasticity of the spring 29a, and the lock pin 28e is moved to the lock claw 4 of the lid body 40.
0e to lock the lid body 40 and holder 30 in the closed position.

Also, by sliding this lock lever 28, the engaging piece 2
8g rides on the upper surface of the protrusion 26d of the switch control lever 26 and rotates it clockwise.

As a result, the leaf switch SW is closed, it is detected that the jacket I is loaded and the lid is completely locked, and recording, reproducing operations, etc. are performed by a control circuit (not shown). This state is shown in FIG. 5(C).

By the way, the holder 30. If the jacket is not stored in the holder 30 when the lid body 40 is closed, the switch will not be activated when the holder 30 is closed to the position shown in FIG. 5(b) because the jacket 1 is not present. The control lever 26 is not rotated, and therefore the operating portion 26b is not moved from the position spaced apart from the leaf switch SW. In this position, the notch 26c of the switch control lever 26 faces the engagement piece 28g of the lock lever 28. Therefore, the lid body 40 is closed to the lock position, and the lock lever is
28 slides to the right and locks it, the engagement piece 28g is engaged in the notch 26c of the switch control lever 26, the switch control lever 26 does not rotate, and the leaf switch SW is It is not closed.As a result, it is detected that the jacket is not stored in the holder 30 when the lid is completely locked.This state is shown in Fig. 5(d).
Shown below. Further, in this case, since the switch control lever 26 is locked by the lock lever 28, there is no possibility of rattling due to vibration or the like and no malfunction of the switch SW.

When the lid body 40 and the holder 30 are opened, the operation part 28c of the lock lever 28 is pressed and slid to the right unlocked position.

By unlocking the lid 40, the lid 40 and the holder 30 are opened, and the locking lever 27 also rotates clockwise with the opening operation of the lid 40, so that the engagement step 27b
The engaging piece 28f of the lock lever 28 is locked, and the lock lever 28 is locked to the unlocked position and returned to the position shown in FIG. 5(a).

Since the lock lever 28 is held at the unlocked position until the lid 40 is closed, the lock lever does not become a load when the lid is closed, and the closing operation can be performed smoothly.

(3) About the disk pressing mechanism When closing the holder 30 to the device main body chassis 10 and mounting the stored disk in the jacket l onto the spindle 12, the center core 3 of the disk is pressed toward the spindle 12. As mentioned above, the disc pressing mechanism 36 for forcibly fitting the discs is provided.

In a device like this device, which fits the hole in the center core 3 into the spindle 12, a pressing force of about 100-odd grams is required to securely fit the center core 3 into the spindle. If the disk is loaded by simply closing the holder, there is a risk that the center core and spindle may be misaligned or the center core may be uneven, resulting in incomplete loading. A disk pressing mechanism is provided to prevent this.

Referring to FIG. 1, the opening 30 on the top surface of the holder 30
A disk pressing lever 36 is rotatably supported approximately in the middle of a shaft 37 disposed between support pieces 30g and 30h on both sides of f, and is supported by a leaf spring 50d attached directly to the lid body 40. The disk pressing portion located on the center core 3 is urged counterclockwise, that is, in a direction in which the disk pressing portion located on the center core 3 is separated from the spindle 12. This spring may be weak because it only needs to separate the disk pressing portion from the center core of the disk.

As is clear from FIG. 2, the disk pressing portion 36a is
The upper end of the spindle 12, on the left side, has a pressing protrusion formed at its tip in order to avoid the PC detection member 35 and press the upper surface of the center core 3 at two points on both sides.

It is composed of right arms 361a and 362a.

At the end opposite to the spindle 12, a frame 2 is attached.
An engagement piece 36b that engages with the control lever 23 rotatably attached to the shaft 24 is formed on the left side surface. The control lever 23 is biased clockwise by a spring 25 that is stronger than the leaf spring 50d that biases the disk pressing member 36, and its rotational position is restricted by a protrusion 201 on the side surface of the frame 20.

In the open state shown in FIGS. 6(a) and 7(a), when the jacket 1 is inserted into the holder 30 and the lid body 40 is closed, the holder 30 first comes into contact with the lid body 40 and the plate as described above. It starts moving to the jacket loading position while maintaining a predetermined distance by the spring 50d. In the open state, the disk pressing lever 36 is moved by the disk pressing portion 36a (361a) by the leaf spring 50d.

362a) is rotated in a direction away from the center core 3 of the disk 2. Therefore, when inserting the jacket l into the holder 30, the disk pressing part does not get in the way, and operability is good.

FIG. 6(b) shows the state immediately before the holder 30 reaches the open position.

As shown in FIG. 7(b), the engaging piece 36b of the disc pressing lever 36 comes into contact with the protrusion 23a at the tip of the control lever 23, and the holder 30 is further closed, so that the disc pressing lever 36 is The engaging piece 36b is pushed up and rotated clockwise by the control lever 23, and the disk pressing portion 36a presses the center core 3 of the disk 2 toward the spindle, forcing it to fit into the spindle 12. In order to perform this pressing operation, the spring 25 for biasing the control lever 23 needs to be stronger than the spring 50d for separating the disk pressing lever 36 from the disk.

When the holder 30 is further lowered to the closed position, the disk pressing lever 36 does not rotate any further after the center core 3 is fitted to the spindle 12, and its engagement piece 36b moves the control lever 23 to the spring 25. Push down against this and rotate counterclockwise. This makes it possible to absorb the extra pressing stroke of the disk pressing lever 36 after the fitting operation between the center core 3 and the spindle 12 is completed.

Therefore, damage to the center core 3 and the disk pressing mechanism can be prevented.

The holder 30 is moved to a predetermined loading position, and the lid 40 is closed against the leaf spring 50a disposed between it and the holder 30, and the lid 40 is locked in the closed position as described above. When the position is reached, as shown in FIG. 7(C), the engaging part 40g on the lower edge of the lid body 40 presses the end engaging part 23b of the control lever 23, which is further rotated counterclockwise. move. As a result, the protrusion 23a of the control lever 23 is disengaged from the engagement piece 36b of the disc pressing member 36, the disc pressing lever 36 is released from the pressed state by the control lever 23, and is rotated counterclockwise again by the leaf spring 50d. Then, as shown in FIG. 6(C), the disk pressing part 36
A is separated from the center core 3. Therefore, after the center core 3 of the disk 2 is fitted to the spindle 12, the pressing load is released and unnecessary rotational load is not applied thereafter (smooth and reasonable disk rotation control can be performed).

Also, press the operating part 28c of the lock lever 28 to
0, and remove the lid 40. The operation when the holder 30 is opened will be explained.

Lid body 40. Since the holder 30 is opened by the coil spring 31 of the hinge 21, the control lever 23 is rotated clockwise by the spring 25, as shown in FIG. 36
The disk press lever 36 is brought into contact with the engagement piece 36b and held in place. Therefore, even when the lid body 40 and the holder 30 are opened, the disk press lever 36 is engaged with its biasing spring 50d in the release position, that is, the non-press position. This allows the disk pressing lever 36 to be reliably held so that it does not move toward the center core 3 or wobble due to vibration or the like.

Then, by further opening the holder 30, the center core 3 of the disk 2 is detached from the spindle 12, and
The disk pressing lever 36 is also completely separated from the control lever 23 and returns to the position shown in FIGS. 6(a) and 7(a).

As described above, the disk pressing mechanism of this device is
is closed and temporarily presses the disk only when it is installed on the spindle, and is released from the holder in other situations, so there is no sudden load change on the spindle when loading or unloading the disk. It has excellent reliability and operability. According to the disk pressing mechanism of the present invention, the disk pressing lever is always biased in the direction of releasing the pressure on the center core, and it is only necessary to press the center core with an external force when loading a disk. The spring for releasing the disk pressure lever should be as strong as necessary to release the pressure (it can be weak, and there is no risk of deforming or rattling other parts. In other words, it should always be biased in the direction of pressing the disk. This type of mechanism requires a strong pressing force, so a large force is also required to release it, and a strong force is required to maintain the release position even after the jacket loading operation is completed.Therefore, There is a problem that the accuracy of the mechanism part after loading is likely to deteriorate.According to the device of the present invention, the disk pressing lever 36
The control lever 23 that applies a pressing force to the disc only operates when the lid is closed, and does not act equally on the disk pressing member or other members on the holder in both the open and closed (loaded) states. Therefore, the above problem does not occur.

(4) Regarding the stabilizer plate The stabilizer plate 41 attached to the back surface of the lid body 40 via the support plate 42 is attached to the holder 3 when the holder 30 and the lid body 40 are closed.
As described above, the magnetic head 13 and the disk 2 are sandwiched and abutted against each other through the opening 30e of the jacket and the opening 1a of the jacket to stabilize the head touch, as described above. A specific supporting method will be explained below using FIGS. 3 and 8 to 10.

FIG. 8 shows the structure of the lid body 40, and in order to make the internal mechanism easier to understand, the lid body itself is shown in dashed lines.

The stabilizer plate 41 is attached to the cover body 40 in a suspended manner via a support plate 42. As is clear from FIG. 3, a groove 41a is formed in the stabilizing plate at a position facing the magnetic head 13 in accordance with the moving path of the head.

The support plate 42 has a long hole 42a at the rear thereof on the hinge side.

42b into the pins 44a and 44b set on the lid 40, and by engaging the front engagement protrusion 42c on the jacket insertion port side with the hole 40d on the front surface of the lid. , arranged so as to be able to move slightly in the vertical and horizontal directions. The plate spring 50b is always biasing downward, that is, toward the holder 30 side. still,
Although not shown, the pin 44a.

Needless to say, the tip of the support plate 44b is provided with a means to prevent the support plate 42 from falling off, such as a locking member attached thereto or a large diameter portion formed on the pin itself.

Further, a notch 42d is formed on the rear edge of the support plate 42 to engage with a pin 10f having a conical tip on the chassis when the support plate 42 is loaded onto the chassis 10 of the main body of the apparatus.

Also, the engagement protrusion 4 of the support plate 42 in the engagement hole 40d of the lid body 40
As shown in FIGS. 9 and 1O, the engaging portions 2c are formed with inclined engaging portions 401d and 401d. Therefore, when the lid body 40 is open, the support plate 42 is pressed toward the holder by the plate springs 50b, 50b, 50b, and the engagement protrusion 42c
01d and is positioned at the center of the engagement hole 40. As a result, even when the lid is open and the stabilizing plate 41 is separated from the disk, the mounting position of the stabilizing plate 4F can be regulated, and when the stabilizing plate 41 is mounted, it is possible to prevent the stabilizing plate 41 from being misaligned before mounting. The mounting position may vary,
Consideration has been taken to avoid inconveniences such as incomplete engagement with the positioning means.

As is clear from FIGS. 8, 9, and 10, the support plate 42 is positioned with respect to the apparatus main body chassis 10 by positioning pins 43a to 4 screwed into three locations on the support plate 42.
3c on the positioning posts 14a to 14 on the chassis 10.
This is done by engaging the notch 42d with the bin 10f. Positioning bin 43a~
As shown in FIGS. 9 and 10, 43c is a wave-shaped washer 431 whose distal end protrudes below the support plate 42.
The support plate, that is, the stabilizing plate 41 can be adjusted in position by adjusting the amount of screwing. Further, the bottle 43a has a conical projection formed at its tip.

Therefore, the holder 30. When the lid body 40 is closed,
As is clear from FIGS. 3 and 10, the support plate 42 connects the positioning bins 43b and 43c to the chassis 10, respectively.
The upper protrusions 10g and 10h, the notch 42d to the protrusion 10f, and the positioning pin 43a to the positioning post 14a fitted into the positioning hole IC of the jacket are pressed and engaged by the leaf springs 50b, respectively, to the operating position. Positioning is performed. As a result, the stabilizer plate 41
The positioning of the chassis 10 and the jacket can be performed with one positioning member, and the position of the stabilizer plate, which requires highly accurate setting, relative to the jacket can also be accurately regulated. At this time, the support plate 42 is attached to the leaf spring 1
5b, the engagement protrusion 42c is attached to the inclined surface 401 of the engagement hole 40d, as shown in FIG.
d and 401d so that positioning on the lid body 40 side does not interfere with positioning on the chassis 10.

With the above configuration, the vertical positioning of the support plate 42, that is, the stabilizing plate 41 is performed using the positioning post 14a1 protrusion 10g.
, 10h, and horizontal positioning is performed by the positioning post 14a and the bin 10f.

(5) Regarding the rotational phase detection member (PG) Disc 20
The rotational phase detection member (PG) 35 that detects the rotational phase is
The spindle 12 is arranged in a position close to and facing the center core 3 of the disk 2, and the magnetic bottle 3b on the center core
is guided by the spindle magnet 12b arranged in
As is clear from FIG. 11, a detection coil is wound around a yoke 353 consisting of a detection bottle 353a and a flange 353b. A magnet 354 is placed on the side. This magnet is used to strengthen the magnetism detected by the PG coil 352.

That is, the polarity of the magnet 354 is set so that it acts to draw the lines of magnetic force induced from the magnet 12b on the spindle 12 through the magnetic bottle 3b into the detection coil 352. This polarity may be appropriately set depending on the polarity of the spindle magnet 12b. As a result, it is possible to obtain a sufficient detection signal level of very weak PG without increasing the number of coil windings as in the conventional case. Highly sensitive detection can be performed without causing problems such as deterioration of S/N due to contamination.

In particular, since various members are arranged on the center core 3, including a disk pressing member for pressing the center core 3 and attaching it to the spindle, miniaturization of the PG detecting member is extremely effective.

In this embodiment, the magnet 354 is separately arranged on the yoke 353, but the yoke itself may be magnetized and used as a magnet (the same effect can be obtained).

The yoke 353 to which the above-mentioned PG coil 352 is attached is
It is attached to the upper surface of the holder at a position facing the center core 3 via the PG holder 351, and its attachment structure will be explained as will be clear with reference to both the top view in FIG. 2 and the perspective view in FIG. 12. In addition, a hole 30m for attaching a PG detection member is formed on the upper surface of the holder 30, and a notch 30n, which is narrower in width than the diameter of the hole 30m and connected to the opening 30e, is formed in a part of this hole. ing.

On the other hand, the PG holder 351 is formed with an engagement groove 351a on its outer periphery, which has a diameter equal to or slightly larger than the hole 30m and a width approximately equal to the thickness of the upper plate of the holder. Small diameter portion 3 that can pass through the notch 30n
51b is formed.

Therefore, when attaching the PG detection member 35 to the holder 30, the small diameter portion 3 of the engagement groove 351a of the PG holder 351
51b into the mounting hole 30m from the opening 30e side through the notch 30n, and from this state, rotate the PG holder approximately 90'' in the direction of arrow a to insert the small diameter portion 351b into the notch 3
By moving it to a position where it does not face 0n, it can be held within the mounting hole.

In addition, when the PG holder 351 is inserted into the mounting hole 30m,
It is designed to reach the optimal position by rotating it by 0 degrees, but by making the center of rotation in the engagement groove part and the mounting position of the PG yoke slightly eccentric, the PG
The position of the PG coil relative to the magnetic pin 3b on the center core 3 can be adjusted by rotating the holder left and right while it is fitted into the mounting hole 30m. In the figure, 351c is a hole for engaging an adjustment jig when rotating the PG holder 351.

A further feature of this PG mounting structure is the means for positioning its operating position. In FIG. 11, with the holder 30 closed and the center core 3 of the disk mounted on the spindle 12, the PG holder 35 is
The lower surface of the PG holder 351 contacts the upper end of the non-rotating support shaft 12a of the spindle 12, and the PG holder 351 can be positioned in the vertical direction by the spindle shaft. The upper end of the spindle is a fixed shaft that rotatably supports the spindle 12 via a bearing 12c, and the rotation of the spindle is not hindered by engagement with the PG holder 351.

This makes it possible to regulate the position of the PG coil with respect to the spindle that supports the center core 3 without providing a separate member for positioning the PG holder 351 and without being affected by errors caused by the hinge 22 of the holder 30, etc. Therefore, positional accuracy can be easily obtained.

In addition, due to the lifting of the holder 30, etc., the PG holder 351
so as not to rise above the upper end of the spindle and cause variations in the distance between the PG yoke and the magnetic pin 3b of the center core.
When the lid body 40 is closed, the PG holder 351 is moved by the leaf spring 50c provided inside the lid body 40 in response to the closing of the lid body 40.
Since a part of the PG is pressed against the support shaft 12a of the spindle 12, the positional relationship between the PG and the spindle is reliably maintained with high precision.

In addition, 12b in the figure is a cap for attaching and positioning the spindle 12 to the support shaft 12a.

(6) Regarding the configuration of the biasing springs of each mechanical part In the above description, in this device, the leaf spring 50a arranged between the lid body 40 and the holder 30, and the support plate 42 to which the stabilizing plate 41 is attached are used. Leaf springs with four functions are used: a leaf spring 50b that biases the holder side, a leaf spring 50C that biases the PG detection member toward the spindle, and a leaf spring 50d that biases the disk pressing lever 36 in the release direction. However, as shown in Figure 8,
These leaf springs are integrally molded on a leaf spring substrate 50 attached to the front surface of the lid body 40. Therefore, by simply attaching the leaf spring substrate 50 to the lid body 40, all of the plates can be attached and positioned at predetermined operating positions at the same time.

Further, the pressing force of each leaf spring can be individually set by appropriately changing the position of the bent portion of the leaf spring.

In addition, the leaf springs are also dispersed so that the pressing force of the springs does not impinge on any part of the lid or holder, ensuring a stable mechanism without applying unnecessary force to other mechanical parts. realizable.

(Effects of the Invention) As described above, according to the recording or reproducing apparatus of the present invention, the elastic piece for regulating the relative position between the holder of the recording medium and the lid, and the elastic piece for coupling the recording medium to its driving means. An elastic piece for controlling the operation or regulating the position of the pressing means for pressing, and an elastic piece for regulating the position of the stabilizing member that is close to the recording medium and stabilizes it, and at least two of the elastic pieces are integrally molded. Since the member is arranged between the lid body and the holder, ? ! Multiple elastic members used in several mechanisms can be attached at once, and setting conditions such as the arrangement and elasticity of each elastic member can be easily set by changing the formation position and length of each elastic member when designing the plate-like elastic member. This greatly simplifies the configuration, improves workability, and is extremely effective in small devices in which multiple mechanisms are concentrated.

[Brief Description of the Drawings] Fig. 1 is a perspective view showing an embodiment in which the present invention is applied to a recording or reproducing device, Fig. 2 is a top view of the embodiment, and Figs. 3(d) is a side view for explaining the structure and operation of the jacket ejection means, holder, and M body;
The figure is a perspective view of the shutter closing mechanism, FIGS. 5(a) to 5(d) are side views for explaining the configuration and operation of the locking mechanism of the holder and M body, and FIGS. 6(a) to 5(d) Fig. 6(C), Fig. 7(a) to Fig. 7(d) are a front view, a side view, and Fig. 8 to Fig. 1
Figure 0 is a diagram for explaining the support mechanism of the stabilizing plate and the configuration of the leaf spring, Figures 11 and 12 are perspective views and side views for explaining the configuration of the PG detection member, and Figure 13 is a diagram for explaining the configuration of the PG detection member. FIG. 2 is a perspective view of the &Ii disk and its jacket used in the example device. 1... Jacket 2... Magnetic disk 3... Center core 3b...
・PG bin 4...Shutter 10...
・Device main body chassis! 2...Spindle 1
3...Head! 4a to 14b...Positioning post 20...Frame 22...
... Hinge 23 ... Control lever 26 ... Switch control lever 27 ... Locking lever 28 ... Lock lever 30 ... Holder 32... Jacket ejection lever 34...
・Shutter closing lever 35...PG detection member 36...Disk pressing lever 38...PC relay board 40...Lid body 41... - Stabilizing plate 42...Supporting plates 43a to 43c...Positioning bin 50...
...Plate spring SW...Jacket loading lock detection switch o
tL Figure 7(b) I2c District 72

Claims (1)

[Claims] a holder for moving a recording medium to a predetermined loading position; a lid disposed on the outside of the holder; and a pressing means for pressing the recording medium to be coupled to a driving means in response to movement of the recording medium to the loading position. , a stabilizing member that is close to the recording medium and stabilizes the recording medium, an elastic piece that regulates the position of the stabilizing member, an elastic piece that regulates the position of the pressing means, and a relative position between the lid and the holder. A recording or reproducing device comprising a plate-shaped elastic member integrally formed with at least two of elastic pieces for regulating the amount of air, and disposed between the lid and the holder.