KR0136618Y1 - The device of tray for optical disk drive - Google Patents

Abstract

The present invention relates to a tray device of an optical disk driver, and the conventional tray has a seating surface and a side guide portion so as to mount optical disks of various standards, to solve the problem of being limited to thin film. The present invention as described above is driven by a drive means for moving forward and backward movement, and the mounting surface 35 on which the optical disk (D) is formed is formed to be installed inside the moving tray (20) The tray 30 and the lifting drive unit for lifting and lowering the loading tray 30 is configured. According to the present invention, there is an advantage in that the thickness of the entire optical disc driver can be thinned while being able to mount various types of optical discs in the loading tray.

Description

Tray device of optical disk driver

1 is a plan view showing a configuration of an optical disk driver according to the prior art.

2 is a view showing an unloading state of the optical disk driver according to the prior art, where (a) is a front sectional view and (b) is a side sectional view.

3 is a view showing a loading state of the optical disk driver according to the prior art, (a) is a front sectional view, (b) a side sectional view.

4 is a cross-sectional view showing a main structure of a tray apparatus of an optical disk driver according to the prior art.

5 is an exploded perspective view showing the configuration of the tray device of the optical disk driver according to the present invention.

6 is a plan sectional view of the tray apparatus according to the present invention.

7 is a perspective view of a drive lever of a tray apparatus according to the present invention.

8 is a view showing the operating relationship of the apparatus according to the present invention, (a) is a side cross-sectional view showing a state that the tray device is completely protruded to the outside of the optical disk driver, (b) is a tray device is the inside of the optical disk driver (C) is a side cross-sectional view showing a state in which the cartridge type optical disk is mounted on the tray device.

9 is a view showing a case in which a cartridge type optical disk is used in the device according to the present invention, (a) is a cross-sectional view showing a state before loading of the deck, (b) is a cross-sectional view showing a loading state of the deck.

10 is a view showing a case where a general optical disk is used in the device according to the present invention, (a) is a cross-sectional view showing a state before loading the deck, (b) is a cross-sectional view showing a loading state of the deck.

11 is a view for explaining that a cartridge-type optical disc is loaded into the apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

20: moving tray 21: side plate

22, 23: fixed slot 24: guide slot

25: jam jaw 30: loading tray

31: side plate 32, 33: hinge pin

41: 1st interlocking lever 42: 2nd interlocking lever

45: drive lever 46: interlock slot

47: guide pin 48: lever arm

50 housing 52 lifter

The present invention relates to a tray device of an optical disc driver, and in particular, an optical disc driver, which is configured to load various optical discs having various diameters and optical discs stored in cartridges through Shanghai East of the loading tray, to form a thin film of the optical disc driver. It relates to a tray device of.

1 is a plan view showing the structure of an optical disc driver according to the prior art, and FIG. 2 is a view showing an unloading state of the optical disc driver according to the prior art, (a) is a front sectional view, and (b) is a side sectional view. 3 is a view showing a loading state of the optical disk driver according to the prior art, (a) is a front sectional view, (b) is a side sectional view, and FIG. 4 is a main structure of the tray device of the optical disk driver according to the prior art. It is a cross section shown.

As shown in the drawing, a tray apparatus for an optical disc driver according to the prior art has a plurality of seatings having a predetermined diameter to accommodate optical discs D (for example, diameters Φ 80 and Φ 120) and cartridge type optical discs of various diameters. Surfaces 12, 13, 14 and side guide portions 12 ', 13', 14 'are formed. In addition, a gear part 11 engaged with a gear (not shown) driven by a driving means (not shown) to move the tray 10 to the inside and the outside of the optical disk driver 1 includes a tray 10 of the tray 10. It is formed long on one side.

On the other hand, each of the mounting surface 12, 13, 14 and the side guide portion 12 '(13', 14 ') shown in the drawings are mounted to the Φ 80, Φ 120 and the cartridge type optical disk, respectively Side and side guides.

In the drawings, reference numeral 2 denotes a chassis, 3 a deck base, 4 and 4 'deck guide pins, 5 a slider pin, 5 a slider, 7 a turntable, 7' a spindle motor, and 8 a clamp mechanism.

Looking at the process of loading the optical disk (D) mounted on the tray 10 in the optical disk driver 1 having a tray device according to the prior art having the above configuration as follows.

First, when the loading button is pressed to load the optical disc D, the rotation of the gear (not shown) driven by the driving means is transmitted to the gear unit 11 installed on one side of the tray 10 to transfer the tray 10. ) Comes out of the optical disk driver 1. In this state, the optical disk D of the type desired to be used is seated on the seating surfaces 12, 13 and 14 of the tray 10, and then the tray 10 is pushed inside the optical disk driver 1 by pressing a button. Will be stored. At this time, the turntable 7 and the deck base 3 is maintained in the lowered state as shown in (a) of FIG. At this time, the turntable 7 should be lowered down enough to not interfere with each other during the movement of the tray 10 even if any kind of optical disc is mounted on the tray 10.

Once the optical disc D is mounted on the tray 10, the tray 10 is pushed into the optical disc driver 1 by pressing a button. The operation of the tray 10 is driven by a driving means. Is made as described above. At this time, the turntable 7 and the deck base 3 continue to maintain the lowered state, as shown in FIG. 2A, and the clamp mechanism 8 is also lifted upward.

When the tray 10 is accommodated in the optical disk driver 1 as described above, the driving means drives the slider 5 so that the turntable 7 and the deck base 3 move upward and simultaneously. The clamp mechanism 8 moves downward to seat the optical disc D on the turntable 7.

On the other hand, the process of unloading the optical disk (D) is performed in the reverse order of the loading exaggeration.

However, the tray apparatus of the conventional optical disk driver as described above has a plurality of seating surfaces 12, 13, 14 and side surfaces in order to accommodate and use various various optical disks D in one tray apparatus. The guide portions 12 ', 13', 14 'are formed in layers, and further, the side guide portions 12', 13 ', 14' of the optical disc D are prevented from being released from their positions. The slope and depth must be sufficiently formed. In this case, there is a problem that the height of the tree 10 becomes high and becomes a limiting factor in the thinning of the product.

In other words, the turntable is a distance obtained by adding the heights of the collision avoidance gaps and the heights of the side guide parts 12 ', 13', 14 'to prevent the turntable 7 and the tray 10 from causing interference. As the 7 moves up and down, the rise and fall distances of the turntable 7 become a factor of thickening the thickness of the optical disc driver 1, and the rise and fall distances of the turntable 7 as described above. If it becomes longer, the possibility of turning of the turntable 7 with the tray 10 at the time of unloading of the optical disc D becomes high, which also lowers the reliability of the optical disc driver 1.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to minimize the thickness of the tray device loaded with various sizes and types of optical discs to reduce the thickness of the optical disc driver and increase the reliability of the operation. will be.

The purpose of the present invention as described above is a driving tray driven by the drive means for moving forward and backward, and a loading tray is formed on the inside of the moving tray is formed a seating surface on which the optical disk is mounted, and the loading tray It is achieved by the tray device of the optical disk driver, characterized in that the lifting drive unit for lifting and lowering movement.

The elevating drive unit is rotatably inserted into a hinge pin formed on the side plate of the loading tray, and the first and second rotation pins formed on one side of the lifting pin are inserted into and fixed to the fixing slot formed on the side plate of the moving tray. An interlocking slot and an interlocking slot into which an interlocking pin formed on the other side of the second interlocking lever is fitted are formed, and a guide rotating pin inserted into the guide slot in which the side plate of the moving tray is formed is formed to form the loading tray. A drive lever configured to move up and down, an elastic member for holding the drive lever above the moving tray, and a lifter formed inside the housing to guide the guide pin of the drive lever to rotate the drive lever about the guide rotation pin. Characterized in that consisting of.

The elastic member is characterized in that one side is fixed to the lever arm formed on the other side of the drive lever, the other side is fixed to one side of the upper surface of the moving tray.

The lifter is formed with a guide slope for guiding the guide pin of the drive lever, characterized in that the outer upper end is provided with a locking step.

The driving lever is characterized in that the one end portion formed with the interlocking slot and the other end portion formed with the guide pin to form a predetermined angle around the guide rotation pin.

Referring to the tray device of the optical disk driver according to the present invention as described above in detail with reference to the embodiment shown in the accompanying drawings as follows. The same thing as the prior art is described with the same reference numerals.

5 is an exploded perspective view showing the configuration of the tray device of the optical disk driver according to the present invention, Figure 6 is a plan sectional view of the tray device according to the present invention, Figure 7 is a perspective view of the drive lever of the tray device according to the present invention.

8 is a view showing the operation relationship of the apparatus according to the present invention, (a) is a side cross-sectional view showing a state in which the tray device is completely protruded to the outside of the optical disk driver, (b) the tray device is an optical disk driver (C) is a side cross-sectional view showing a state in which a tray-type cartridge-mounted optical disc is mounted, and FIG. 9 is a cartridge type optical disc in the apparatus according to the present invention. Figure (a) is a cross-sectional view showing the state before the deck loading, (b) is a cross-sectional view showing the loading state of the deck, Figure 10 is a view showing a case where a general optical disk is used in the device according to the present invention (A) is a cross-sectional view showing a state before loading the deck, (b) is a cross-sectional view showing a loading state of the deck, Figure 11 is a cartridge-type optical disk is loaded into the apparatus according to the present invention A view illustrating a.

As shown in the figure, the tray device of the optical disk driver according to the present invention is driven by a drive means (not shown) moving tray 20 to move forward and backward, and the seating surface on which the optical disk (D) is seated ( 35 is formed and includes a loading tray 30 installed to move up and down inside the moving tray 20, and a lifting drive unit for lifting and lowering the loading tray 30.

The moving tray 20 moves in and out of the housing 50 of the optical disc driver while supporting the tray device according to the present invention, and side plates 21 are formed at both ends thereof. Each of the side plates 21 has fixed slots 22 and 23 formed therein, and guide slots 24 into which the rotation guide pins 45p of the drive lever 45 of the elevating drive unit are inserted are formed. On one side of the side plate 21 on which the guide slot 24 is formed, the locking jaw 25 to which the pin 53 of the driving lever 45 is engaged is formed.

The loading tray 30 is installed to be movable up and down inside the moving tray 20, and each seating surface 35 is formed on an inner surface thereof so that an optical disc D having various standards is mounted thereon. Then, both side plates 31 of the loading tray 30 are formed with hinge pins 32 and 33 to which the interlocking levers 41 and 42 of the elevating drive unit to be described below are rotatably fitted.

The elevating drive unit is rotatably inserted into the hinge pins 32 and 33 formed on the side plate 31 of the loading tray 30, and rotating pins 41p and 42p formed at one side thereof are provided in the moving tray. First and second interlocking levers 41 and 42 inserted into and fixed to the fixed slots 22 and 23 formed in the side plate 21 of the 20, and formed on the other side of the second interlocking lever 42. An interlocking slot 46 into which the interlocking pin 43 is fitted is formed and a guide rotating pin 45p is inserted into the guide slot 24 formed in the side plate 21 of the movable tray 20. And a driving lever 45 for elevating and driving the loading tree 30, an elastic member (not shown) for holding the driving lever 45 on the moving tray 20, and the driving lever 45. Consists of a lifter 52 formed on the inside of the housing 50 to guide the guide pin 47 of the drive lever 45 to rotate the rotation around the guide rotary pin (45p) The.

One side of the elastic member (not shown) is fixed to the lever arm 48 formed on the other side of the driving lever 45, and the other side of the fixing hole 26 formed on one side of the upper surface of the moving tray 20. Is fixed to. As such, the elastic member supports the driving lever 45 in a direction in which the lever arm 48 of the driving lever 45 is in close contact with the upper surface of the loading tray 30.

The lifter 52 is formed with a guide inclined surface 53 for guiding the guide pin 47 of the drive lever 45 and a locking jaw 52t is provided at the outer upper end of the housing 50. It is formed on the side wall.

The driving lever 45 is formed such that one end portion formed with the interlocking slot 46 and the other end portion formed with the guide pin 47 form a predetermined angle with respect to the guide rotation pin 45p.

The rotation pins 41p and 42p of the first and second interlocking levers 41 and 42 are fixed to the fixing slots 22 and 23 as shown in (c) of FIG. 8. 23 is fixed by the fixing jaw 23t.

Meanwhile, the side plates 21 and 31 of the moving tray 20 and the loading tray 30 are formed symmetrically at both ends of the tray, and thus, various components of the elevating drive unit are also symmetrically at both ends of the tray. It will be installed.

In the figure, reference numeral 7 denotes a turntable, 7 'a spindle motor, and SH a shutter of a cartridge type optical disc.

Referring to the operation of the tray device according to the present invention configured as described above are as follows.

First, a state in which the tray apparatus is completely drawn out of the optical disk driver is shown in FIG. According to this, the loading tray 30 is seated on the inner surface of the moving tray 20, the guide pin 47 of the drive lever 45 spans the engaging jaw (52t) of the lifter 52 and guide rotation pin ( 45p) is outside the guide slot 24 formed on the side plate 21 of the moving tray 20.

In this state, first, the operation of loading the general optical disc D in the future is as follows. When a loading signal is input in the initial state shown in FIG. 8A, a driving source (not shown) inside the optical disc driver is driven to start the moving tray 20 into the optical disc driver. The movement of the movable tray 20 causes the guide rotary pin 45p of the drive lever 45 to be guided and moved inside the guide slot 24 and guides along the inclined surface 53 of the lifter 52. Pin 47 is guided. When the guide rotary pin 45p is completely moved into the guide slot 24 as described above, the guide pin 47 of the drive lever 45 is guided along the inclined surface 53 of the lifter 52 to drive the drive lever. 45 rotates in a clockwise direction about the guide rotation pin 45p. The rotation of the drive lever 45 is the elastic force of the elastic member is the driving force. Therefore, the interlocking pin 43 inserted into the interlocking slot 46 of the driving lever 45 is guided in the interlocking slot 46 so that the second interlocking lever 42 rotates counterclockwise while the loading tray 30 is rotated. Is raised. Meanwhile, together with the rotation of the second interlocking lever 42 as described above, the first interlocking lever 41 also rotates counterclockwise to raise the loading tray 30. Such a state is shown in Fig. 8B.

On the other hand, the rotation of the drive lever 45 is continued until the guide pin 47 is caught by the engaging jaw 25 of the moving tray 20. In this way, the tray device is completely loaded into the optical disc driver while the loading tray 30 is lifted from the moving tray 20 by a predetermined height.

In addition, when the cartridge-type optical disc D as shown in FIG. 11 is loaded into the loading tray 30, the cartridge-type optical disc D may be mounted on the seating surface of the loading tray 30. It is seated at 35 and the moving tray 20 is driven by the tray loading signal. The moving tray 20 starts to move, and the guide rotating plate 45p of the driving lever 45 is guided along the guide slot 24 of the moving tray 20 to move inwardly of the guide slot 24 and to drive the lever. The driving pin 45 rotates while the guide pin 47 of 45 is guided along the inclined surface 53 of the lifter 52. The rotation of the driving lever 45 proceeds until the lever arm 48 of the driving lever 45 is mounted on one side of the cartridge optical disc D, as shown in FIG. At this time, the loading tray 30 is in a state seated on the inner surface of the moving tray 20, the moving tray 20 is seated inside the optical disk driver in this state.

The tray device according to the present invention, as described in detail above, is capable of loading optical discs of various shapes and specifications onto one or more moving trays, and the line on which the cartridge type optical disc is placed and the line on which the general optical disc is placed as close as possible. Since the lifting distance of the turntable is reduced, the product thickness of the optical disc driver is reduced by about half as compared with the conventional one, and the height of the side guide part of the optical disc can be secured to the maximum by easily increasing the lift distance.

In addition, the whole tray supports the up and down movement of the optical disc and minimizes the distance from the turntable, thereby preventing the optical disc from being separated. In the case of the cartridge type optical disc, the lever arm presses the cartridge to prevent the cartridge from swinging up and down. There are also effects such as being.

Claims (5)

A moving tray driven by the driving means to move forward and backward, a seating surface on which the optical disc is seated is formed, and a loading tray installed inside the moving tray, and a lifting driver for lifting and lowering the loading tray. Tray device for optical disk driver. According to claim 1, The elevating drive unit is rotatably inserted into the hinge pin formed on the side plate of the loading tray and the rotation pin formed on one side is fixed to the fixed slot formed in the side plate of the moving tray. Interlocking slots to which the first and second interlocking levers and the interlocking pins formed on the other side of the second interlocking lever are inserted are formed and guide guide pins inserted into the guide slots formed on the side plates of the moving trays. A driving lever configured to lift and lower the loading tray, an elastic member for holding the driving lever above the moving tray, and a guide pin of the driving lever to rotate the driving lever about the guide rotation pin. Tray device of an optical disk driver, characterized in that consisting of a lifter formed inside the housing. 3. The tray apparatus of claim 2, wherein the elastic member is fixed at one side to a lever arm formed at the other side of the driving lever, and the other side is fixed to one side of an upper surface of the moving tray. The tray apparatus of claim 2, wherein the lifter has a guide inclined surface for guiding the guide pin of the driving lever, and a locking jaw is provided at an outer upper end thereof. 3. The tray apparatus of claim 2, wherein the driving lever has one end portion formed with an interlocking slot and the other end portion formed with a guide pin to form a predetermined angle with respect to the guide rotation pin.