KR100258059B1 - Apparatus for moving of disc reception piece - Google Patents

Abstract

PURPOSE: A device for transferring a disk setting member is provided to install a wireless loading motor for transferring a disk tray on a PCB(Printed Circuit Board) substrate, so as to perform a power supply function or a location sensing function without a switch. CONSTITUTION: A dynamic force transfer gear(120) installed on an axis of a loading motor(110) is in gear with by being interlocked with a rack gear(11) of a tray(10). The axis of the loading motor(110) is inserted into a guide groove(12) of the tray(10). Terminals(111,112) of the loading motor(110) are grounded on the first power supplier(213) and the second power supplier(214) patterned on a PCB(Printed Circuit Board) substrate(210). If a 5-voltage is applied to the first power supplier(213) and a 0-voltage is applied to the second power supplier(214), the loading motor(110) moves to make the terminal(111) contacted with the first loading location decider(211). A 5-voltage power is applied to the first loading location decider(211) to recognize a loading completed location.

Description

Disc seat member moving device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical recording medium loading apparatus, and more particularly, to a power supply and a switch function for driving a loading motor for transporting a tray of an optical recording medium player such as a compact disk (CD) or a digital video disk (DVD). The present invention relates to an optical recording medium loading apparatus using a wireless power supply means to enable a position sensing function without a separate switch.

In general, the disc player is equipped with a loading motor for transporting the disc tray T from the outside of the main body 1 to the inside of the main body 1 or the outside of the main base, as shown in FIG. On the other side, the pickup drive motor is formed on the guide side of the pickup base and is equipped with a pickup driving motor for sliding the pickup for detecting data recorded on the disk.

Such a loading device of a conventional disc player usually forms a rack gear portion at the bottom of the tray, and engages the pinion gear, which receives the rotational force from the loading motor, with the rack portion so that relative movement of the disc is performed with respect to the turntable installed on the pickup base. And a loading and vice versa unloading operation for moving the disk to the turntable side.

However, in the above disc tray moving device, the loading motor is fixedly installed on the main base, and the number of necessary parts constituting the power transmission means from the loading motor to the pinion gear is large, the rotation radius of the idle gear is large, and the space is large. The use of occupied belt pulleys has disadvantages in terms of miniaturization of the device and the accuracy of power transmission.

In addition, although not shown in the drawing, a separate locking device is installed to prevent the flow of the tray after the loading operation of the tray is completed, which also serves as another factor preventing the miniaturization of the device.

Therefore, in order to solve the above problems, the applicant has been described in 96-39474.

That is, the configuration thereof is guided to the guide bar 30 fixed at both ends along the horizontal direction on one front side of the main base (not shown), as shown in FIG. 2, and then moved horizontally along the horizontal direction of the main base. A bracket 20 having a guide cam groove 21 on one side and a loading motor M1 mounted on the lower side of the bracket 20 and a loading motor M1 installed on an upper surface of the bracket 20 may be installed. Power transmission means (40) consisting of a transmission gear (M2) and an idle gear (M3) for transmitting the power from the tray 10 of the optical recording medium, and is installed at one end of the movement path of the bracket (20) The circuit part 50 and the tray 10 with the rack gear part 11 formed in the bottom surface are comprised.

In the state in which the loading apparatus configured as described above is shown in FIG. 3 (a), that is, the ejecting state, the bracket 20 on which the loading motor M1 is mounted is in a position state in which the loading device is closely attached to the right side in the drawing (hereinafter referred to as a first position). The pinion gear of the idle gear (M3) is coupled to the front end of the vertical rack gear portion (11a) of the rack gear 11 of the tray 10, the upper end of the second shaft of the idle gear (M3) tray ( The slide base 60 in the guide cam groove 21 of the bracket 20 as shown in FIG. 3 (b) when the ejected state is maintained in the first guide groove 12 of FIG. The projection 61 of the insertion is at this time, the position of the projection 61 is located in the lower horizontal portion 21a of the guide cam groove, so that the slade base 60 is also lowered.

Next, when the disk is placed in the disk seating recess 13 of the tray 10 and a loading signal is applied, the loading motor M1 is driven so that the rotational driving force is the transmission gear M2 and the idle gear which are geared to each other. As the rack gear 11 of the tray 10 is driven through the M3, the tray 10 is moved toward the A direction of the third (a), that is, the turntable (not shown).

The movement of the tray 10 is performed at the rear end of the vertical portion 11a of the rack gear 11, that is, at the connection portion between the vertical portion 11a and the horizontal portion 11b of the pinion gear installed on the idle gear M3. When it reaches, it stops. At this time, the tray 10 moves while the pinion gear moves through the vertical portion 11a of the rack gear 11 and the horizontal portion 11b connected thereto by the continuous driving of the loading motor M1. Is stopped, and the bracket 20 on which the loading motor M1 is mounted is guided to the guide bar 30 to be horizontally moved and positioned at the second position.

On the other hand, while the pinion gear of the idle gear M3 moves the horizontal portion 11b of the rack gear 11 by the continuous driving of the loading motor M1, the bracket 20 moves in the direction B again in FIG. In other words, the protrusion 61 inserted into the guide cam groove 21 of the bracket 20 according to the movement toward the circuit portion 50 passes through the first inclined portion 21b in which the inclination is steep. By being located on the inclined portion 21c, the slide base 60 is raised.

Next, while the tray 10 moves beyond the end of the horizontal rack gear portion 11b of the rack gear 11 and moves the inclined portion 11c connected thereto by the continuous driving of the loading motor M1, the bracket 20 ) Continues to move in the B direction, in which case the pinion gear of the idle gear M3 is coupled to the inclined portion 11c of the rack gear 11 so that the arm 41 on which the idle gear M3 is installed is loaded. It rotates clockwise around the motor shaft.

At this time, as the projection 61 of the slade base 60 coupled in the cam groove 21 of the bracket 20 is moved to the upper horizontal portion 21d, the slade base 60 is centered on the hinge axis 62 thereof. The ascending rotation is completed and the pick-up base P is also moved upward, and the disk D is completed by being seated on the turntable of the spindle motor.

However, by using a plurality of parts, such as the position sensing means for detecting the position movement of the loading motor and the spindle motor, the loading motor as described above, there is a problem such as the productivity is lowered and the noise generated by a plurality of gear trains.

Accordingly, the present invention is to solve the above problems, by installing a drive source for moving the disk tray, that is, a wireless drive motor to be movable on the PCB substrate, by not using the position sensing means and a plurality of gear groups The purpose is to reduce the required parts, improve the accuracy of power transmission, and improve productivity and product performance by reducing required parts.

In order to achieve the above object, the present invention includes a tray for transferring a disk mounted through the optical recording medium insertion port to the turntable; The technical configuration feature of the present invention is imparted in that the power transmission means for moving the tray is grounded to a wireless power supply means installed in the horizontal direction on the main base so as to move along the upper surface of the power supply means.

1 is a perspective view showing the appearance of a general disc player.

2 is a plan view of a conventional disk driver.

3 (a) to 3 (c) are plan views showing ejection states of a conventional disk.

4 is a plan view showing a loading state of a conventional disk.

Figure 5 is a perspective view showing a part of the disk loading apparatus using a wireless power supply means of the present invention.

6 is a plan view showing the loading of the disc of the present invention.

7 is a plan view showing the ejecting time of the disk of the present invention.

* Explanation of symbols for main parts of the drawings

10 tray 11: rack gear part

11a: Vertical Rack Gear 11b: Horizontal Rack Gear

11c, 11d: Slope gear 12: guide groove

100: power transmission means 110: loading motor

111,112 Terminal 120: Power transmission gear

200: power supply means 210: PCB substrate

211: first loading position determining unit 212: second loading position determining unit

213: first power supply 214: second power supply

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, the same shapes and names as in the prior art are denoted by the same reference numerals, and description thereof is omitted.

As shown in FIG. 1, the power transmission means 100 shown in FIG. 5 is provided with a tray 10 for transferring a disk D mounted through an optical recording medium insertion hole to a turntable (not shown). And is discharged by the wireless power supply means 200.

Meanwhile, as illustrated in FIGS. 5 and 6, the power transmission unit 100 has an upper end formed on the bottom surface of the tray 10 to transfer the tray 10 on which the disk D is mounted toward the turntable. The power transmission gear 120 is installed so as to be interlocked with the rack gear part 11, and is connected to the wireless power supply means 200 at the bottom thereof so that the upper surface of the power supply means 200 is linearly connected. It consists of a loading motor 110 is formed with a pair of terminals 111, 112 to reciprocate.

At this time, the vertical rack gear portion 11a is formed in the lower portion of the tray 10 in the moving direction of the disk D, and the horizontal rack gear portion 11b is substantially horizontally disposed at one end of the vertical rack gear portion 11a. Is formed, and the inclined gear portion 11d is formed at the other end of the vertical rack gear portion 11a at an angle of about 45 ° so that the tray 10 is taken out by the inclined gear portion 11d when the tray 10 is taken out. Is configured to discharge completely.

On the other hand, the wireless power supply means 200 is a PCB substrate 210 is installed in the horizontal direction near the inlet of the main base (not shown), as shown in Figure 5, the PCB substrate 210 on the The first loading position discrimination unit 211 and the second loading position discrimination unit 212, the first power supply unit 213, and the second power supply unit 214 are patterned at predetermined intervals.

In this case, the first loading position discrimination unit 211 and the second loading position discrimination unit 212 patterned on the PCB 210 are located at positions corresponding to both ends of the PCB 210 with a short copper film. Pattern processing is performed at predetermined intervals, and the first power supply unit 213 and the second power supply unit 214 are patterned with the first loading position discrimination unit 211 interposed therebetween with a long copper film.

Therefore, the disk loading apparatus using the wireless power supply means configured as described above, the power transmission gear 100, that is, the power transmission gear 120 installed on the shaft of the loading motor 110 as shown in FIG. At the same time as the gear is engaged with the rack gear 11 of the tray 10, the shaft of the loading motor 110 is inserted into the guide groove 12 of the tray 10, the terminal of the loading motor 110 ( 111 and 112 are grounded to the first power supply 213 and the second power supply 214 patterned on the PCB 210, approximately 5V, the second to the first power supply 213 When 0V power is applied to the power supply unit 214, the loading motor 110 is moved in the direction of arrow C of FIG. 5 so that the terminal 111 of the loading motor 110 is moved to the first loading position discriminating unit 211. At the same time, 5V power is supplied to the first loading position discrimination unit 211 to recognize the loading completion position as shown in FIG.

That is, while the tray 10 moves out of the end of the horizontal rack gear portion 11b of the rack gear 11 by the driving of the loading motor 110 and moves the inclined portion 11c connected thereto, the loading motor ( 110 continues to move in the a direction of FIG. 6, wherein the axis of the loading motor 110 is moved along the guide groove 12 of the tray 10.

The loading of the disk is completed as the disk D mounted on the next tray is completed seating on the turntable of the spindle motor.

In addition, when the loading is completed as described above, when the 0V power is applied to the first power supply unit 213 and 5V to the second power supply unit 214, the loading motor 110 moves toward the arrow D.

At this time, the power transmission gear 120 installed on the shaft of the loading motor 110 is interlocked along the horizontal rack gear portion 11b and the vertical rack gear portion 11a of the tray 10 so that the terminal 112 of the loading motor is connected. The second loading position discriminating unit 212 is grounded.

In this state, when the 5V power is applied to the second loading position discrimination unit 212, the unloading completion position is recognized.

At this time, the power transmission gear 120 installed on the shaft of the loading motor 110 is moved along the vertical rack gear portion 11a of the tray 10 as shown in FIG. It is installed to interlock with the inclined gear portion (11d) formed to be approximately 45 ° angle to the tip end of the) to take out the tray 10 completely.

The present invention provides the following advantages by installing a wireless loading motor for moving a disk tray on a PCB substrate.

First, it can provide power supply and position sensing without a separate switch.

Second, it is possible to reduce the required parts and improve the power transmission accuracy by not using the conventional position sensing means and a plurality of gear groups.

Third, productivity and product performance can be improved by reducing the required parts.

Claims (4)

A base, a disk conveying member for conveying the disk to the regeneration position, a drive unit provided to move the disk conveying member to the turntable side and moving from the predetermined position to another predetermined position on the base, and to continuously supply power to the driving unit from the power source. The disk seating member moving device, characterized in that it comprises a power supply stepped to be provided in a predetermined position from the predetermined position along the drive path to the other to be in direct contact with the contact portion of the drive wirelessly. 2. The drive unit of claim 1, wherein the drive unit comprises a motor for generating power, a disc seating member interlocking unit interlocked with the disc seating member, and a pickup linking unit for up / down pick-up for reading information from the disc. Disk mounting member moving device, characterized in that. 3. The conveying member of claim 1 or 2, wherein the conveying member includes a vertical rack gear portion formed in a moving direction of the disk, a horizontal rack gear portion formed almost horizontally at one end of the vertical rack gear portion, and the other end of the vertical rack gear portion. Disc mounting member moving device characterized in that the inclined gear portion is formed at an angle of about 45 °. 2. The power supply stepped portion according to claim 1, wherein the power supply stepped portion is provided with a PCB substrate installed in a transverse direction near the inlet of the base, first and second loading position discriminating portions patterned at predetermined intervals on the PCB substrate, and Disk mounting member moving device, characterized in that consisting of a second power supply.

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