TWM286952U - Heat sink frame of data access unit - Google Patents

Description

M286952 VIII. New description: [New technical field] The data access unit heat dissipation frame of the present invention, especially a fixing device with high efficiency heat dissipation and a negative material access unit, is easy to fix the data access unit 5 In the computer case, avoid high temperature and cause the device to crash. [Prior Art] It is known that data access units for electronic data access, such as hard disk drives, optical disk drives (DVD and VCD), floppy disk drives and card readers, are all through a fixed device 2 The fixing device 2 has a housing made of a metal material, and is provided with a plurality of pieces disposed on opposite inner walls of the inner side of the housing, as shown in the first figure of the computer. The first figure is not shown) for the majority of the data access single Si i is placed, and the side locks the π-blocking data access unit 丄i to position the data access unit 1 1 to be fixed to the computer. A fixing device inside the casing 1, but such a structure I5: juice has only a fixing function with respect to the data access unit ii, but with a large amount of expansion and operation speed of the capacity of the bead access unit 11 Fast design, bait access 701 1 will generate higher temperatures in the access operation, if you can not get good heat dissipation efficiency, it is easy to cause the computer equipment to crash and use. Therefore, there is a good fixture design and heat transfer efficiency, and the access efficiency, service life and data of the data access unit U are stored as in the current national patent publication No. 487291. The new patent case of the improved structure of the disc holder, the focus of this patent case is that a box-shaped housing is integrally formed by extrusion of aluminum, and the outer edge of the side wall 5 M286952 of the housing is provided with horizontally protruding ribs arranged at intervals. Heat sink action. However, the aforementioned patent structure 'is to be integrally formed into a box-shaped casing with horizontally protruding rib side walls by aluminum extrusion, so as to provide a large number of hard disk machine assembly size specifications, it is not easy, and the mold cost is high, and the box-shaped shell The body is also not conducive to handling and storage. 5 In addition, in the new patent case of the "Disc-discharging device with heat-dissipating function" of the National Patent Publication No. 517873, the focus of the patent application is to insert the frame into the frame by a frame and a releasable A pumping module having a heat sink and a fan module for allowing air to flow, the picking cassette is for a magnetic disk drive electrically connected to the computer host to be detachably placed, when the disk 10 is set When placed in the extraction cassette, the heat sink is simultaneously abutted against the heat transfer wall of the disk drive and the extraction cassette, and the heat generated by the operation of the disk drive is guided away from the disk drive to disperse the disk. The heat generated by the machine. However, the above-mentioned patent structure is complicated in structure, and the multi-layer insertion of the frame and the extraction crucible has high manufacturing and assembly costs, and also makes the device occupy a large space inside the computer casing, which is not suitable for the current light, thin, short, and small Computer case configuration. [New content] The main purpose of this new type is to solve the above-mentioned traditional defects and avoid the existence of defects. The present invention uses a simple structure and a fixed device to fix the data access unit in the computer casing and the data access unit. The fixtures are modified to provide good heat dissipation efficiency and assembly to provide a user-friendly data access unit heat sink that is simpler, less expensive, and more efficient. Another main object of the present invention is to provide a data access unit heat dissipation frame, which can be adjusted according to different data access unit specifications to form different gauge mounting spaces according to different data access unit specifications. M286952 Data access unit of various specifications @装与热贴料散散. For the purpose of the right, the data access unit heat dissipation frame of the present invention has an arrangement of the first and second plates of the wall, and the second frame of the wall and the second frame are arranged at a set interval to establish an overtime work by at least one tablet.疋 相 相 资料 资料 资料 资料 资料 资料 I I I I I I I I I I I I I I I I I I I I I I I I I π π π π π π π π π π π π π π π π π In order to improve the racking and data cooling performance of the data access unit. The detailed description of a preferred embodiment of the present invention and its accompanying drawings will be further described in conjunction with the appended claims. FIG. [Embodiment] The technical content and detailed description of the present invention are as follows: The eye is shown in the second to fifth figures, which is the decomposition and combination of the 15 components of the data access unit of the present invention. schematic diagram. As shown in the figure: the heat sink of the data access unit of the present invention comprises: a first shelf 3 and a second shelf 4 are disposed at a distance of opposite to each other to establish a space that can be separated by the mounting space 5 At least the data access unit 6 is mounted to form a high-efficiency heat-dissipating and easy-to-produce one-piece fixing device for heat-sealing heat dissipation according to the data access unit 6 disposed in the computer casing 720 of various specifications. The first frame 3 and the second frame 4 mentioned above are preferably three or four types of frames of the same type in terms of production convenience and cost considerations, but it is necessary to understand that In the structure of other specific embodiments, the frame plates 3 〇 and 40 of the non-equal type design may also be arranged relative to each other at a set spacing.

ί ^ ^ 以 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该The wall 3 1 , 41 , on the other surface of the shelf 30 , 40 assembled with respect to the data access unit 6 , is arranged at intervals of at least _ plates 3 2 , 4 2 , and the above-mentioned mounting space 5 is formed to form a majority One of the configuration parts 5 1, which is suitable for the data access list, and is opposite to the other, but the two plates 3, 4 2 which are not joined form the bottom bracket after the data access unit 6 is placed. Designed to match the at least-locking component 8 through the shelf 3, 4, 4 fixed data access unit 6, so that the heat generated by the operation of the data access unit 6 can be transmitted to the thermal joint of the shelf 3, 40 The heat conducting walls 3 i, 4 i generate heat dissipation. The heat-conducting walls 31 and 41 are formed by a plurality of heat-dissipating fins 3 3 and 43 integrally formed on the surface of the frame plates 30 and 40, and the heat-dissipating fins 3 3 and 4 3 are arranged to be diverged. The channel 3 4, 4 4 is preferably a convective air guiding direction generated by a fan unit (not shown) provided with respect to the computer casing 7, as shown in the fifth figure, to enable rapid convection air band The heat dissipation energy between the heat dissipation fins 3 3 and 4 3 is 0. Since the first frame 3 and the second frame 4 can be produced by the same type of frame 3 Q, 40, the manufacturing cost can be effectively reduced. According to different data access unit 6 specifications, the relative arrangement spacing can be adjusted to form different specifications of the mounting space 5, so as to meet the various specifications of the data access unit 6 fixed and hot stickers 20 M286952 conduction divergence. At the same time, after the first shelf 3 and the first shelf 4 are fixed to at least one fixed data access unit 6, the heat generated by the data access unit 6 can directly pass through the hot stickers of the shelf 30 and 40. The heat transfer to the heat conducting wall 3 1 , 4 5 1 generates outward heat dissipation, so as to easily match the direction of the convective air flow generated by the fan unit (not shown) provided in the computer casing 7 , and can be quickly convected by the convection air belt The heat dissipation between the heat sink fins 3 3 and 4 3 . For the spring, please refer to the sixth to ninth drawings, which is a schematic diagram of the decomposition and combination of the constituent structures of another embodiment of the data access unit heat dissipation frame of the present invention. As shown in FIG. 1 , this embodiment is substantially the same as the above-mentioned second to fifth figures, except that the first shelf 3 and the second shelf 4 are assembled on one surface of the opposite data access unit 6 . At least one of the plates 32, 42 having the heat conducting plates 35, 45, and the heat conducting plates 35, 45 are thermally bonded to the data access unit 6 - the surface is thermally divergent. The heat-conducting plates 35 and 45 are formed by extending the surface of the frame plate 3, 4, and 4, and have a plurality of integrally formed fins 36, 46, preferably with the plate 32. 4 2 is in an adjacent side-by-side configuration of equal extension lengths, but it must be understood that in other embodiments, the heat conducting plates 3 5, 4 5 and the plates 3 2, 4 2 may also be In the adjacent side-by-side configuration of the non-equal extension length, the plurality of fins 36, 46 of the heat conducting plates 35, 45 are arranged to form a channel 37, 47, preferably a fan unit disposed relative to the computer casing 7 (in the figure) The direction of the convective air flow produced is not shown. Referring to the tenth figure, the data access unit of the present invention is cooled. M286952 [Simple description of the drawing] The first figure is a combination diagram of the conventional data access unit fixing device. The second figure is a perspective exploded view of the structure of the present invention. The third figure is a schematic view of the structural combination of an embodiment of the present invention. The fourth figure is a schematic view of a new embodiment assembled to a computer case. The fifth figure is a schematic view of the structure and the guiding airflow of an embodiment of the present invention.

15 is a perspective exploded view of another embodiment of the present invention. The seventh figure is a schematic view of the structural combination of another embodiment of the present invention. The eighth figure is a schematic view of another embodiment of the present invention assembled to a computer case. Figure 9 is a schematic view showing the structure and the guiding airflow of another embodiment of the present invention. Figure 11 is a schematic view showing the structure combination of still another embodiment of the present invention. Fig. 11 is a schematic view showing a state in which the other embodiment is in a state of being relatively joined. [Main 7L symbol description] 3 Second shelf 4 5 Data access unit 6 7 Locking component 8 0, 4 0 Thermal wall 3 1 , 4 1 2, 4 2 Heat sink fin 3 3 > 4 3 4, 4 4 Heat-conducting plate 3 5, 4 5 6 , 4 6 Channel 3 7 , 4 7 'This main component symbolizes the first shelf mounting space computer chassis frame plate plate divergent channel fin configuration part (2), 0 1 'Knowledge main component symbol description 20 M286952 Enclosure data access unit 1 Fixing device 2

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Claims (1)

M286952 Nine, the scope of application for patents·· 1. A data access unit heat sink, including a · 5 shelf, the shelf plate at least includes a surface provided with at least one heat conducting wall ' and spaced on the other surface Providing at least one plate; a second plate having at least one heat conducting wall at least one surface thereof and at least one plate spaced apart from each other on the other surface; α, the first plate and the second plate The shelf is disposed at a set spacing relative to each other, and a mounting space separated by the upper slab is formed, and at least one data access unit is fixed by thermal bonding. 10 2 If the data access unit described in item 1 of the scope of claim is divergent: wherein the first shelf and the second shelf are of the same type of frame 孜 0 15 20 , ^ ^ ^ patent Item 1 access device heat sink according to item 1. - the first shelf and the second shelf are non-equal shaped frame, and the data access unit of the second item is heat-dissipating and has a shelf and a second shelf The material is integrated into a jade having at least one heat conducting wall and a sheet.竿, 2, as disclosed in the data access unit of claim 1 of the patent application, the thermal conductive wall is formed by a plurality of heat-dissipating fins which are arranged on the surface of the shelf plate. The material described in item 5 is the second one. The heat conduction "distribution-distribution" is formed by the convection air conduction of the fan unit provided in the computer case. 13 8 M286952 to 0 牟, I #% patent In the data access unit of the range 1st, the heat dissipation of the first board and the second board can be adjusted by the relative arrangement spacing, and the yoke is not ok. #^XAccording to various regulations The poor material access unit is fixed and the heat transfer is divergent. 8. A data access unit heat sink comprising: a first shelf, at least one of the surface of the shelf is provided with at least one heat conducting wall, and the shelf is spaced apart from the surface by at least one plate and the heat conducting plate, and a second frame is at least at the shelf The method further comprises at least one heat conducting wall on one surface, and at least one plate and the heat conducting plate are arranged on the other surface of the shelf plate. The first shelf and the second shelf are disposed at a set spacing relative to each other. The mounting space is further separated from each other to form a thermal joint to fix at least one data access unit. 9. The data access unit of claim 8 of the patent application scope has 15 heat sinks, wherein the heat conductive plate is heat-bonded to the surface of the fixed data access unit for heat transfer and divergence. The data access unit heat dissipation frame of claim 8, wherein the heat conducting plate is formed by extending a surface of the frame plate and having a plurality of integrally formed fins. 20 1 1. The data access unit heat dissipation rack of claim 1, wherein the plurality of fins of the heat conducting plate are arranged to form a convection air guide formed by a fan unit disposed on the computer casing. Flow direction. 1 . The data access unit heat dissipation frame according to claim 8 , wherein the heat conducting plate and the plate are integrally formed, and the extended length of the 14 M286952 is adjacent to the surface of the shelf. The data access unit heat dissipation frame of claim 8, wherein the heat conducting plate and the plate are integrally formed, and the non-equal extension lengths are adjacent to one surface of the shelf. 5 1 4. If the data access unit heat dissipation frame described in item 8 of the patent application scope is raised, the heat conduction plate and the plate piece which are formed by extending the first frame plate and the second frame plate are opposite to each other, but not Bonded state configuration. 1 5. If the data access unit described in item 8 of the patent application scope is ..., the 10 sheets in which the first frame and the second frame are extended and formed are the same as the puller, 4 The relative engagement is integrated into the configuration.