CN105912079B - Computer component turning device, computer case and computer host - Google Patents

Abstract

The invention provides a computer component overturning device (10) which comprises an overturning bracket (11). The turnover support (11) comprises a first installation part (112) and a second installation part (114) connected with the first installation part (112), the first installation part (112) and the second installation part (114) are respectively positioned at two opposite ends of the turnover support (11) and are respectively used for installing and fixing computer components, the first installation part (112) comprises a first vertical sheet-shaped side wall (113 a) and a second vertical sheet-shaped side wall (113 b) which are respectively arranged at two opposite sides of the turnover support (11), and a first pivot riveting column (116 a) and a second pivot riveting column (116 b) are respectively formed on the first vertical sheet-shaped side wall (113 a) and the second vertical sheet-shaped side wall (113 b). In addition, the invention also provides a computer host (50) adopting the computer component overturning device (10) and a computer case (30) suitable for being matched with the computer component overturning device (10). The invention can effectively improve the operation efficiency of the whole computer during the whole machine replacement and maintenance and reduce the time consumption.

Description

Computer component turning device, computer case and computer host

Technical Field

The present invention relates to the field of computer devices, and in particular, to a computer component turning device, a computer case, and a computer host.

Background

In a computer case, the compact whole machine is more and more popular with people due to small size, and has taken up a great market. The compact complete machine is usually with power, hard disk, CD-ROM etc. installed on fixed mounting plate, when dismantling the internal parts such as maintenance mainboard, memory stick, need demolish whole fixed bolster, the operation is very loaded down with trivial details when changing the maintenance like this, and is inefficiency, and is consuming time long, if trade not professional person operation, probably the complete machine all installs not going back.

Disclosure of Invention

Therefore, the invention provides a computer component turning device, a computer case and a computer host case, which are used for solving the problems of low operation efficiency, long time consumption and the like in the maintenance of the whole machine in the prior art.

Specifically, the embodiment of the invention provides a computer component overturning device, which comprises: overturning the bracket; the turnover support comprises a first installation part and a second installation part connected with the first installation part, wherein the first installation part and the second installation part are respectively positioned at two opposite ends of the turnover support and are respectively used for installing and fixing computer components, the first installation part comprises a first vertical sheet-shaped side wall and a second vertical sheet-shaped side wall which are respectively arranged at two opposite sides of the turnover support, and a first pivot riveting column and a second pivot riveting column are respectively formed on the first vertical sheet-shaped side wall and the second vertical sheet-shaped side wall.

In one embodiment of the invention, the first vertical sheet-shaped side portion is further formed with a limiting rivet pressing column, and the limiting rivet pressing column is further away from the top surface of the turnover bracket relative to the first rotating shaft rivet pressing column.

In one embodiment of the invention, the computer component flipping device further comprises a power supply component fixedly mounted to the first mounting portion and located between the first vertical sheet-like side wall and the second vertical sheet-like side wall.

In one embodiment of the present invention, the computer component flipping device further comprises a hard disk assembly; the power supply assembly comprises a power supply and a power supply lower bracket, the hard disk assembly comprises a hard disk and a hard disk bracket, the hard disk is fixed on the hard disk bracket, and the hard disk bracket is fixedly arranged on one side, far away from the power supply, of the power supply lower bracket.

In one embodiment of the present invention, the computer component flipping device further comprises a USB encryption component fixedly mounted on the first vertical sheet sidewall; the USB encryption assembly comprises a bracket, an encryption USB flash disk, an encryption USB interface and an encryption USB box, wherein the bracket is fixed on the first vertical sheet-shaped side wall, the encryption USB interface is fixed on the bracket, the encryption USB flash disk is inserted into the encryption USB interface, and the encryption USB box cover is arranged on the encryption USB flash disk and fixedly connected with the bracket.

In an embodiment of the invention, the computer component flipping device further includes an optical drive component fixedly installed on the second installation portion.

In addition, the embodiment of the invention provides a computer case, which comprises a case body. A pair of folded edges formed by bending towards the inner space of the box body are arranged on the first side wall of the box body, and inclined guide rail grooves are respectively formed on the pair of folded edges; a through hole and a sheet baffle plate formed by extending to the inner space of the box body are arranged on a second side wall of the box body opposite to the first side wall; the inclined guide rail groove is used for enabling rotary shaft riveting columns on two opposite sides of the computer component overturning device to slide in so that the computer component overturning device can overturn relative to the computer case, the sheet-shaped baffle is used for supporting the computer component overturning device, and the through hole is used for enabling a screw to pass through the outside of the case body and lock into the computer component overturning device so as to fix the computer component overturning device with the second side wall.

In addition, the embodiment of the invention provides a computer host, which comprises a computer case, a main board and a main board fan which are fixedly arranged in the computer case, and any one of the computer component overturning devices. The computer case comprises a case body, wherein a pair of guide rail grooves are formed in the first side wall of the case body; a second side wall of the box body opposite to the first side wall is provided with a sheet baffle plate which extends to the inner space of the box body; the first and second pivot clinches slide into the rail groove, and the second mounting portion is supported on the sheet shutter and fixed to the second side wall.

In one embodiment of the invention, a pair of folding edges formed by bending towards the inner space of the box body are arranged on the first side wall, and the guide rail groove is obliquely formed on the pair of folding edges; the second side wall is further provided with a through hole, and the second mounting portion is fixed to the second side wall via a connection member passing through the through hole from the outside of the case.

In one embodiment of the invention, the computer host is an industrial personal computer, and the height of the first mounting portion of the turnover bracket of the computer component turnover device from the top surface of the turnover bracket is greater than the height of the second mounting portion from the top surface of the turnover bracket.

Therefore, by the structural design of the turnover device and the computer case, when the computer host needs to be assembled and disassembled for main board assembly, memory bank replacement and other operations, the embodiment of the invention can conveniently assemble and disassemble the main board and/or replace the memory bank only by turning the computer host by a certain angle, thereby effectively improving the operation efficiency of the whole machine during replacement and maintenance and reducing time consumption.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it will be obvious that the drawings in the following description are some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

Fig. 1 is a schematic exploded view of a turnover device for a computer module according to an embodiment of the present invention.

Fig. 2 is a schematic perspective view of the assembled computer component turning device shown in fig. 1.

FIG. 3 is a schematic perspective view of a computer case suitable for use with the computer component flipping device of FIG. 2.

FIG. 4 is a schematic diagram illustrating an assembled state of the computer component turning device shown in FIG. 2 and the computer case shown in FIG. 3.

Fig. 5 is a schematic perspective view of a computer host employing the computer component turning device shown in fig. 2 and the computer case shown in fig. 3 according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 and fig. 2, fig. 1 is a schematic exploded view of a structure of a computer component turning device according to an embodiment of the present invention, and fig. 2 is a schematic three-dimensional structure of the computer component turning device shown in fig. 1 after being assembled. As shown in fig. 1 and 2, the computer component flipping device 10 of the present embodiment includes: the device comprises a turnover bracket 11, a power supply component 13, an optical drive component 15, a hard disk component 17 and a USB encryption component 19. The turnover bracket 11 includes a first mounting portion 112 and a second mounting portion 114 connected to the first mounting portion 114, and the first mounting portion 112 and the second mounting portion 114 are respectively located at opposite ends of the turnover bracket 11. The first mounting portion 112 has two vertical sheet- shaped side walls 113a and 113b respectively disposed on two opposite sides of the flip bracket 11, wherein a pivot rivet 116a and a limiting rivet 118 are formed on one vertical sheet-shaped side wall 113a, and the limiting rivet 118 is further away from the top surface 110 of the flip bracket 11 (as indicated in fig. 2) relative to the pivot rivet 116a, and another pivot rivet 116b (as indicated in fig. 2) is formed on the other vertical sheet-shaped side wall 113 b.

The power assembly 13 is fixedly mounted between the two vertical sheet- like side walls 113a, 113b and includes a power source 130 and a power source sub-mount 132, where the power source sub-mount 132 is secured to the two vertical sheet- like side walls 113a, 113b, for example, by a plurality of screws.

The hard disk assembly 17 is fixedly mounted on the side of the power lower bracket 132 away from the power source 130 and between the two vertical sheet- shaped side walls 113a, 113b, where the hard disk assembly 17 includes a hard disk 170 and a hard disk bracket 172, and the hard disk 170 is fixedly connected with the hard disk bracket 172, for example, by a plurality of screws, and the hard disk bracket 172 is locked to the power lower bracket 132 via a plurality of screws.

The USB encryption assembly 19 is fixedly mounted on the vertical sheet-like side wall 113a of the first mounting portion 112 and includes a cradle 190, an encryption USB disk 192, an encryption USB interface 194, and an encryption USB box 196; the bracket 190 is fixed to the vertical sheet-like side wall 113a by, for example, screws, the encryption USB interface 194 is fixed to the bracket 190, the encryption USB disk 192 is plugged into the encryption USB interface 194, and the encryption USB box 196 is provided over the encryption USB disk 192 and fixed together with the bracket 190 (for example, by screws). The USB encryption component 19 is provided to provide some security for the whole computer host.

In view of the above, the optical disc drive assembly 15 is fixedly mounted on the second mounting portion 114 and includes the optical disc drive 150 and the optical disc drive sub-frame 152, where the optical disc drive 150 and the optical disc drive sub-frame 152 are fixedly mounted on two vertical sheet-shaped side walls of the second mounting portion 114, which are respectively disposed on two opposite sides of the flip bracket 11, for example, by a plurality of screws, and the optical disc drive 150 is located between the optical disc drive sub-frame 152 and the top surface 110 (as indicated in fig. 2) of the flip bracket 11. Furthermore, a flip holder fixing screw hole 1521 is formed in the optical disc drive lower holder 152.

Furthermore, as can be seen from fig. 2, the height H1 of the first mounting portion 112 of the tilting bracket 11 of the computer component tilting device 10 from the top surface 110 is greater than the height H2 of the second mounting portion 114 from the top surface 110.

Referring to FIG. 3, a schematic perspective view of a computer chassis suitable for use with the computer component flipping device of FIG. 2 is shown. In fig. 3, the computer case 30 includes a case 31, a pair of folding edges 331 and 333 formed by folding toward the inner space of the case 31 are provided on one side wall of the case 31, an inclined guide rail groove 3310 is formed on the folding edge 331, and an inclined guide rail groove 3330 is formed on the folding edge 333; the other opposite side wall of the case 31 has a sheet-like shutter 35 and a through hole 37 formed to extend toward the inner space of the case 31.

Referring to fig. 2, 3 and 4, fig. 4 is a schematic diagram illustrating an assembled state of the computer component turning device shown in fig. 2 and the computer case shown in fig. 3, and the computer component 10 is in an opened state relative to the computer case 30. Specifically, when the computer component turning device 10 is assembled to the computer case 30, the pivot clinching posts 116a and 116b on the two opposite vertical sheet- shaped side walls 113a and 113b of the first mounting portion 112 of the turning bracket 11 slide into the guide rail grooves 3310 and 3330 of the bending edge 331 respectively, so that the computer component turning device 10 can freely turn over within a certain range under the supporting action of the guide rail grooves 3310 and 3330 by taking the pivot clinching posts 116a and 116b as the pivot; furthermore, as shown in fig. 4, the opening angle of the computer component tilting device 10 with respect to the computer case 30 is limited due to the positioning of the limiting rivet 118, that is, the computer component tilting device 10 does not rotate to the right side as shown in fig. 4 without limitation due to the limiting effect of the limiting rivet 118.

Referring to fig. 5, a schematic perspective view of a computer host employing the computer component turning device shown in fig. 2 and the computer case shown in fig. 3 according to an embodiment of the present invention is shown. In fig. 5, the computer main frame 50 includes a computer case 30, a computer component flipping device 10 installed in the computer case 30, and a main board fan 51 fixedly installed in the computer case 30. As can be seen in fig. 1 to 5, after the computer component flipping device 10 is installed and fixed in the computer chassis 30, the second mounting portion 114 of the flipping bracket 11 of the computer component flipping device 10 is supported on the sheet-like baffle 35 of the computer chassis 30, and the flipping bracket 11 is fixedly connected to the computer chassis 30 by passing through the through holes 37 on the side wall of the case 31 of the computer chassis 30 via the flipping bracket fixing screws 40 (which may be replaced with bolts in other embodiments) and locking into the flipping bracket fixing screw holes 1521 in the optical drive assembly 15. After that, when the computer host 50 needs to perform operations such as motherboard disassembly and memory bank replacement, only the turning bracket fixing screw 40 needs to be unscrewed (as shown in fig. 4), the whole computer unit turning device 10 can be turned over at a certain angle freely, so that disassembly of other internal components such as motherboard and memory bank can not be affected, and even a person with no expertise can complete the disassembly, thereby making the maintenance of the computer host 50 complete machine very simple, efficient and less time-consuming. In this embodiment, the host computer 50 is, for example, a KIS-620 industrial personal computer.

It should be noted that the computer component flipping device 10 in the foregoing embodiment is not limited to all of the computer components including the power supply component 13, the optical drive component 15, the hard disk component 17, the encrypted USB component 19, and may be configured by only one or several components or even other computer components; therefore, the person skilled in the art can perform elastic adjustment under the condition of fully considering the internal space of the whole machine, so that the whole machine can meet various requirements.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. A computer component flipping device (10), comprising: a turnover bracket (11); the turnover support (11) comprises a first installation part (112) and a second installation part (114) connected with the first installation part (112), the first installation part (112) and the second installation part (114) are respectively positioned at two opposite ends of the turnover support (11) and are respectively used for installing and fixing computer components, the first installation part (112) comprises a first vertical sheet-shaped side wall (113 a) and a second vertical sheet-shaped side wall (113 b) which are respectively arranged at two opposite sides of the turnover support (11), and a first pivot riveting column (116 a) and a second pivot riveting column (116 b) are respectively formed on the first vertical sheet-shaped side wall (113 a) and the second vertical sheet-shaped side wall (113 b);

wherein the flip bracket (11) includes a top surface (110), and a height (H1) of the first mounting portion (112) of the flip bracket (11) from the top surface (110) of the flip bracket (11) is greater than a height (H2) of the second mounting portion (114) from the top surface (110) of the flip bracket (11).

2. The computer assembly turning device (10) of claim 1, wherein the first vertical sheet-like side wall (113 a) further has a spacing standoff (118) formed thereon, the spacing standoff (118) being further away from the top surface (110) of the turning bracket (11) than the first pivot standoff (116 a).

3. The computer assembly tipping device (10) of claim 1, further comprising a power assembly (13) fixedly mounted to the first mounting portion (112) and located between the first vertical sheet-like side wall (113 a) and the second vertical sheet-like side wall (113 b).

4. A computer assembly tilting device (10) according to claim 3, further comprising a hard disk assembly (17); the power supply assembly (13) comprises a power supply (130) and a power supply lower bracket (132), the hard disk assembly (17) comprises a hard disk (170) and a hard disk bracket (172), the hard disk (170) is fixed on the hard disk bracket (172), and the hard disk bracket (172) is fixedly installed on one side, far away from the power supply (130), of the power supply lower bracket (132).

5. The computer assembly tipping device (10) of claim 1, further comprising a USB encryption assembly (19) fixedly mounted on the first vertical sheet sidewall (113 a); the USB encryption component (19) comprises a bracket (190), an encryption USB flash disk (192), an encryption USB interface (194) and an encryption USB box (196), wherein the bracket (190) is fixed on the first vertical sheet-shaped side wall (113 a), the encryption USB interface (194) is fixed on the bracket (190), the encryption USB flash disk (192) is inserted into the encryption USB interface (194), and the encryption USB box (196) is covered on the encryption USB flash disk (192) and fixedly connected with the bracket (190).

6. The computer component flipping mechanism (10) of claim 1, further comprising an optical drive assembly (15) fixedly mounted to said second mounting portion (114).

7. A computer chassis (30) comprising a chassis body (31); the novel box is characterized in that a first side wall of the box body (31) is provided with a pair of folding bent edges (331, 333) formed by bending towards the inner space of the box body (31), and inclined guide rail grooves (3310, 3330) are respectively formed on the pair of folding bent edges (331, 333); a through hole (37) and a sheet-shaped baffle (35) which is formed by extending to the inner space of the box body (31) are arranged on a second side wall of the box body (31) opposite to the first side wall; the inclined guide rail grooves (3310, 3330) are used for sliding in rotary shaft press-riveting columns (116 a, 116 b) on opposite sides of the computer component turning device (10) according to any one of claims 1 to 6 so that the computer component turning device (10) is turnable relative to the computer case (30), the sheet-shaped baffle plate (35) is used for supporting the computer component turning device (10), and the through holes (37) are used for allowing screws (40) to pass through from the outside of the case (31) and lock into the computer component turning device (10) to fix the computer component turning device (10) with the second side wall.

8. A computer mainframe (50) comprising a computer case (30), a motherboard and a motherboard fan (51) fixedly mounted inside the computer case (30), and a computer component flipping device (10) according to any one of claims 1 to 6; the computer case (30) comprises a case body (31), wherein a pair of guide rail grooves (3310, 3330) are formed in the first side wall of the case body (31); a second side wall of the box body (31) opposite to the first side wall is provided with a sheet-shaped baffle plate (35) which extends to the inner space of the box body (31); the first and second pivot stakes (116 a, 116 b) slide into the rail slots (3310, 3330), and the second mounting portion (114) is supported on the flap (35) and secured to the second side wall.

9. The computer main unit (50) according to claim 8, wherein the first side wall is provided with a pair of folded edges (331, 333) formed by folding toward the inner space of the case (31), and the guide rail grooves (3310, 3330) are formed obliquely on the pair of folded edges (331, 333); the second side wall is further provided with a through hole (37), and the second mounting portion (114) is fixed to the second side wall via a connection member (40) passing through the through hole (37) from the outside of the case (31).

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