KR100518823B1 - Heat radiating apparatus of optical disk drive - Google Patents

Abstract

A heat dissipation device for cooling the inside of an optical disc drive is disclosed. The heat dissipating device of an optical disc drive according to the present invention is installed on the outer peripheral surfaces of each of the clamping member and the turntable among the driving parts rotated in association with the rotational drive of the motor during the rotational drive of the optical disc to rotate the clamping member and the turntable. It includes a plurality of blades for cooling the inside of the drive body by causing a predetermined air flow inside the drive body. According to this, it is possible to cool the inside of the optical disc drive without installing a heat dissipation member only by improving the shapes of the clamping member and the turntable.

Description

Heat radiating apparatus of optical disk drive}

The present invention relates to an optical disc drive, and more particularly, to a heat dissipation device provided to suppress an increase in temperature therein during operation of an optical disc drive.

Typically, an optical disc drive is for irradiating light onto an optical disc such as a CD or a DVD to reproduce information recorded on the optical disc or to record information on the optical disc.

1 illustrates an example of a conventional optical disc drive as described above, and referring to this, the conventional optical disc drive 100 includes a drive main body 110, an optical disc support / rotation unit 120, and an optical disc. Pick-up unit 130 and a control unit (not shown). On the other hand, reference numeral 117 is a tray for mounting the optical disk 10 in the drive main body 110, it is possible to change the form and the installation in other forms according to the type of the optical disk drive 100.

Among the above-described components of the optical disc drive 100, the drive body 110 is in charge of the outside of the optical disc drive 100, and as shown, the main frame 111 and the outer cover 115 are generally included. to be.

The optical pickup unit 130 plays back the information recorded on the optical disc 10 or records the information on the optical disc 10.

The control unit is for controlling the driving of each driving component installed in the optical disc drive 100, and is generally installed in the form of a circuit board (not shown) on which a plurality of circuit components are mounted.

Meanwhile, the optical disk support / rotation unit 120 is for supporting and rotating the optical disk 10 inserted into the drive body 110. To this end, the turntable 125 for supporting the lower surface of the optical disc 10 so as to rotate the optical disc 10 in conjunction with the motor 121, the rotational drive of the motor 121, and the optical disc 10 It includes a clamping member 123 for supporting the upper surface of the optical disk 10 to be in close contact with the turntable (125).

The conventional optical disk drive 100 configured as described above has a problem in that its durability is degraded by heat generated from circuit components, the driving motor 121, and the like, and the optical disk 10 is damaged.

In order to solve this problem, in the related art, as disclosed in Korean Utility Model No. 2000-0016216 (published: August 25, 2000) filed by LG Electronics Co., Ltd. When the heat dissipation member is separately installed as described above, there is a problem of increasing the manufacturing cost of the optical disc drive 100 and complicating the manufacturing process.

The present invention has been made to solve the above problems, it is possible to cool the heat generated during the drive of the optical disk drive through a simple structural change of the drive parts without using a separate heat dissipation member to provide a cheap and simple optical disk drive The purpose is to provide a heat dissipation device that can be provided.

In order to achieve the above object, the heat dissipating device of an optical disc drive according to the present invention is closely connected to each other with an optical disc inserted into a drive main body so as to rotatably support the optical disc, and rotates the optical disc in association with the driving of the motor. And a plurality of blades installed in the driving component such that a predetermined air flow is generated in the drive body when the driving component rotates.

According to a preferred embodiment of the present invention, the blades, a plurality of first blades are installed along the outer peripheral surface of the clamping member to cause air flow during rotation of the clamping member, and a plurality of along the outer peripheral surface of the turntable It is preferable to include a plurality of second blades installed to induce air flow during rotation of the turntable.

In this case, each of the first and second blades is preferably integrally formed on the outer circumferential surface of each of the clamping member and the turntable.

On the other hand, it is preferable that at least one or more ventilation holes are further formed in the outer wall of the drive body to enable air flow between the inside and the outside of the drive body.

In this case, the blade is formed in a shape such that the air in the drive main body is discharged to the outside through the ventilation hole when the optical disk is rotated, or the external air is driven through the ventilation hole when the optical disc is rotated More preferably, it is formed in a shape such that it is introduced into the main body.

According to this, it is possible to cool the inside of the optical disc drive without installing a heat dissipation member only by improving the shapes of the clamping member and the turntable.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, the optical disk drive 200 according to the preferred embodiment of the present invention includes a drive body 210, a turntable 225, a clamping member 223, and a heat dissipation device.

The drive main body 210 includes a main frame 211 and an outer cover 115, and is responsible for the outside of the optical disc drive 200. The drive body 210 may be modified in various forms according to the installation position and shape of the optical disk drive 200, and a detailed description thereof will be omitted.

The turntable 225 is for contacting and supporting the lower surface of the optical disc 10 inserted into the drive body 210. To this end, the turntable 225 has a guide portion 225a into which the inner diameter portion 15 of the optical disc 10 is inserted, and has a lower end connected to the rotating shaft member 221a of the motor 221 (see FIG. 3). The main body 210 is rotatably installed. According to this, the optical disc 10 inserted into the drive main body 210 and supported by the turntable 225 is rotated in association with the rotation of the motor 221.

The clamping member 223 is rotatably installed on the support plate 260 installed on the main frame 211 so as to be positioned above the turntable 225, and when the optical disk 10 is inserted, the optical disk 10 moves downward. Pressurizes and adheres to the turntable 225.

The heat dissipation device is for suppressing an increase in temperature inside the optical disc drive 200 when the optical disc drive 200 is driven. To this end, the heat dissipation device according to the present invention includes a plurality of blades which are installed in a drive component that is rotated in conjunction with the rotational drive of the motor 221 during the rotational drive of the optical disc 10 to cause air flow during the rotational drive It is characteristic to doing. The heat dissipation device according to the present embodiment includes a plurality of first blades 251 installed along the outer circumferential surface of the clamping member 223 among the above-described driving parts, and a plurality of second blades installed along the outer circumferential surface of the turntable 225. Blade 253.

Each of the first and second blades 251 and 253 as described above may be separately installed on the outer circumferential surface of each of the conventional clamping member 123 (see FIG. 1) and the turntable 125 (see FIG. 1). In the example, the first and second blades 251 and 253 are integrally formed with the clamping member 223 and the turntable 225 to form the clamping member 223 and the turntable 225 in a fan shape. Let's do it. This allows the first and second blades 251 and 253 to be formed at the outer peripheral portion of the clamping member 223 and the turntable 225, or the outer peripheral portion of each of the clamping member 223 and the turntable 225. The first and second blades 251 and 253 may be formed by cutting into a predetermined shape. At this time, the first and second blades 251 and 253 and the clamping member 223 and the turntable 225 are formed as described above, so that a predetermined pitch angle is formed. If the blades 251 and 253 are twisted, it is a matter of course that the blowing effect by the first and second blades 251 and 253 can be further improved. According to this, the heat dissipation device can be simply configured without installing a separate heat dissipation member in the optical disc drive 200. In addition, the first and second blades 251 and 253 are preferably formed to have a size less than or equal to the size of the inner diameter part 15 of the optical disc 10 in order to prevent damage to the information recording surface of the optical disc 10. Do.

The heat dissipation device of the present embodiment having the configuration as described above further includes at least one vent hole 255 formed through the outer wall of the drive body 210 to allow air flow between the inside and the outside of the drive body 210. It is desirable to. The shape and installation position of the ventilation hole 255 may be variously modified according to the shape of the drive body 210. In the present embodiment where the drive body 210 includes a main frame 211 and an outer cover 115 covering the top of the main frame 211, the vent hole 255 is radially disposed on the outer cover 115. It is preferable to penetrate as much as possible, each of which is formed in a slit shape to enable air flow between the inside and the outside of the drive body 210 and to suppress the inflow of foreign substances.

As described above, the present invention is not necessarily limited to the case of the foregoing embodiment. That is, in addition to the above-described first and second blades 251 and 253 and the ventilation hole 255 to improve the heat dissipation effect inside the optical disk drive 200, the heat dissipation members (not shown) may be provided in the drive body 210. It is also possible to install more inside.

Referring to the accompanying drawings, the operation of the optical disk drive according to the present invention having such a configuration is as follows.

3 and 4 illustrate an operating state of the heat dissipation device when the optical disc drive 200 is driven. Referring to this, when the motor 221 is rotated to drive the optical disk 10, first and second blades 251 and 253 integrally formed on the outer circumferential surfaces of the turntable 225 and the clamping member 223. ) Rotates in conjunction with the motor 221 to generate a predetermined air flow inside the drive body 210.

3 illustrates an operation state of the optical disc drive 200 as an example in which the optical disc drive 200 is installed at a place where the external temperature is higher than the temperature inside the drive body 210. In this case, the first and second blades 251 and 253 may discharge air in the drive body 210 to the outside of the drive body 210 when the clamping member 223 and the turntable 225 are rotated. It is preferable that it is formed in a shape. According to this, it can suppress that the temperature inside the drive main body 210 rises by external hot air.

On the contrary, as shown in FIG. 4, when the optical disk drive 200 is installed in a place where the temperature inside the drive body 210 is higher than the external temperature, the first and second blades 251 and 253 are turnedtable 225. ) And the clamping member 223 may be formed in a shape that allows external air to flow into the drive body 210 through the ventilation hole 255. According to this, it is possible to prevent the external cool air from flowing into the drive body 210 and increasing the temperature inside the drive body 210.

According to the present invention as described above, the inexpensive and simple configuration of forming the turntable and the clamping member into a fan shape having a plurality of wings, the air disk generated by the rotation of the turntable and clamping only by the air flow The inside can be cooled.

In addition, since air flow in and out of the drive body is enabled by the ventilation holes formed on the outer wall of the drive body, heat inside the drive body is rotated to the outside of the drive body when the turntable formed in the fan shape and the clamping member are rotated as described above. Exhaust or cool external air can be introduced into the drive body.

Accordingly, it is easy to maintain the temperature inside the drive main body at an appropriate level, thereby generating an effect of improving durability and reliability of the optical disc drive.

While the invention has been shown and described with respect to preferred embodiments for illustrating the principles of the invention, the invention is not limited to the construction and operation as shown and described. Rather, those skilled in the art will appreciate that various changes and modifications can be made to the present invention without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes, modifications, and equivalents should be considered to be within the scope of the present invention.

1 is an exploded perspective view illustrating a conventional optical disk drive;

2 is an exploded perspective view illustrating an optical disk drive according to an embodiment of the present invention;

3 and 4 are views each showing an example of the use of the heat radiation device of the optical disk drive according to the embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

200: optical disk drive 210: drive body

211: main frame 215: outer cover

221 motor 223 clamping member

225: turntable 251: first blade

253: second blade 255: ventilator

10: optical disc

Claims (7)

A heat dissipation device for cooling an optical disk drive including a clamping member and a turntable, which are in close contact with each other with an optical disk inserted into a drive main body interposed therebetween to support the optical disk and to rotate while driving a motor. By forming a plurality of blades twisted with respect to the clamping member and the turntable integrally with the clamping member and the turntable, and forming at least one ventilation hole in the outer wall of the drive body, the rotation of the motor The heat dissipation device of the optical disc drive, characterized in that for allowing air flow between the inside and the outside of the drive body to cool the inside of the optical disc drive. The method of claim 1, wherein the blade, And a plurality of first blades installed along the outer circumferential surface of the clamping member to cause air flow during rotation of the clamping member. The method of claim 2, wherein the blade, And a plurality of second blades installed along the outer circumferential surface of the turntable to cause air flow during rotation of the turntable. The method of claim 3, wherein each of the first and second blades, The heat dissipating device of the optical disk drive, characterized in that formed integrally on the outer peripheral surface of each of the clamping member and the turntable. delete The blade according to any one of claims 1 to 4, wherein the blade, The heat dissipation device of the optical disc drive, characterized in that the air in the drive body is formed to be discharged to the outside through the ventilation hole when the optical disk is rotated. The blade according to any one of claims 1 to 4, wherein the blade, The heat dissipation device of the optical disk drive, characterized in that the external air is introduced into the drive body through the ventilation hole during the rotation drive of the optical disk.