CN103941833A - Computer case shell and cooling device thereof - Google Patents

Abstract

The invention relates to a computer case shell and a cooling device thereof. The cooling device comprises a first column, a second column, a driving component and a cooling component. The first column is arranged in a top face hole and a bottom face hole of a shell body of the computer case shell in a penetrating mode, and is provided with a long slotted hole penetrating through the first column. The second column is arranged in a first side face hole and a second side face hole of the shell body and the long slotted hole of the first column in a penetrating mode, and the second column penetrates through the first column to form a joint part. The driving component is arranged on the joint part, and the cooling component is fixedly arranged on the driving component. When the first column moves towards a first direction along the top face hole and the bottom face hole and/or the second column moves towards a second direction along the first side face hole and the second side face hole, the driving component drives the cooling component to move towards the first direction and/or the second direction, and therefore the position of the cooling component is adjusted. A user can directly adjust the position of the cooling device without demounting the computer case shell, and cooling effects of a computer mainframe are improved.

Description

Computer housing and heat abstractor thereof

[technical field]

The present invention relates to a kind of computer housing and heat abstractor thereof, particularly relate to a kind of computer housing and the heat abstractor thereof that can adjust according to radiating requirements position of fan.

[background technology]

In main frame; cause computing machine spare part itself overheated for fear of inner computing machine spare part because moving the heat energy producing; conventionally can be at thermal source generation place installing heat abstractor; for example on central processing unit, display card or power supply unit, be equiped with fan etc., thereby reduce overheated problem.

But, in the more high efficiency situation of computing machine spare part pursuit at present, its heat energy producing also increases thereupon, although the radiating effect of heat abstractor itself also promotes gradually, but after main frame operation is long-time, the total heat energy that accumulate its inside also cannot effectively be got rid of via the fan being installed on central processing unit, display card or power supply unit.Therefore, conventionally also can installation system fan in computer housing, strengthen the airflow in computer housing by system fan.But aforesaid system fan is all fixedly installed, the position of adjustment System fan at any time according to thermal source demand, therefore cannot strengthen heat radiation to particular heat source targetedly.

[summary of the invention]

In view of above problem, the invention provides a kind of computer housing and heat abstractor thereof, thereby solve the radiating effect deficiency of traditional heat abstractor to the computing machine spare part in computer housing, and cannot adjust at any time according to radiating requirements the problem of the position of heat abstractor.

Computer housing of the present invention includes a housing and a heat abstractor.Housing comprises an end face, one first side, one second side and a bottom surface; Wherein, end face has an end face hole, and the first side and the second side are to be connected to end face, and the first side and the second side have respectively one first lateral aperture and one second lateral aperture, and bottom surface is to be connected to the first side and the second side, and bottom surface has a bottom hole.Heat abstractor includes one first cylinder, is located in end face hole and the bottom hole of housing, and wherein the first cylinder has a long slot bore that connects the first cylinder; One second cylinder, is located in the long slot bore of the first lateral aperture, the second lateral aperture and first cylinder of housing, and the second cylinder wears the first cylinder and forms an intersection portion; One drives assembly, is arranged on intersection portion; And a radiating subassembly, be installed in and drive on assembly.Wherein, when the first cylinder is according to end face hole and bottom hole during towards a first direction displacement, and/or the second cylinder during towards a second direction displacement, drives assembly to drive radiating subassembly towards first direction and/or second direction displacement according to the first lateral aperture and the second lateral aperture.

Computer housing of the present invention, wherein one end of the first cylinder also can have one first hole, mutually connect with long slot bore, and one end of the second cylinder also can have one second hole, wherein, the first hole is consistent with the opening direction in the second hole, and position form an accommodation space in the second hole of confluce, and drive assembly be installed with in accommodation space.

Computer housing of the present invention, wherein drives assembly also can have one second perforation of one first perforation and vertical the first perforation, and the first perforation and second bores a hole and be communicated with, and the first cylinder is located in the first perforation, and the second cylinder wears the second perforation.

Computer housing of the present invention, wherein the first cylinder also can protrude at end face hole and bottom hole, and the second cylinder also can protrude in the first lateral aperture and the second lateral aperture.

Computer housing of the present invention, wherein also vertical second direction of first direction.

Computer housing of the present invention, wherein drives assembly also can comprise a pars contractilis, and radiating subassembly is located on pars contractilis, and in the time that pars contractilis is flexible towards a third direction, radiating subassembly is towards third direction displacement, and the vertical first direction of third direction and second direction.Preferably, pars contractilis also can have an emptying aperture, and the end face of housing also can have a side opening, and side opening vertical top face, when a drawing article is located in emptying aperture and side opening and during towards third direction displacement, pars contractilis is flexible towards third direction.

Computer housing of the present invention, wherein end face hole can be parallel on the long limit of end face, bottom hole also can be parallel on the long limit of bottom surface, the first lateral aperture can the parallel long limit in the first side and the second lateral aperture also can the parallel long limit in the second side.

Computer housing of the present invention, the long limit that wherein length in end face hole also can corresponding end face, the length of bottom hole also can corresponding bottom surface long limit, the length of the first lateral aperture also can the long limit of corresponding the first side and the length of the second lateral aperture also can corresponding the second side long limit.

Again, the present invention separately discloses a heat abstractor, is suitable for being located in a housing, and housing has an end face, and end face has an end face hole; One first side and one second side, the first side and the second side are to be connected to end face, and the first side and the second side have respectively one first lateral aperture and one second lateral aperture; And a bottom surface, bottom surface is to be connected to the first side and the second side, and bottom surface has a bottom hole, and wherein, heat abstractor includes: one first cylinder, be located in end face hole and the bottom hole of housing, wherein the first cylinder has a long slot bore that connects the first cylinder; One second cylinder, is located in the long slot bore of the first lateral aperture, the second lateral aperture and first cylinder of housing, and the second cylinder wears the first cylinder and forms an intersection portion; One drives assembly, is arranged on intersection portion; And a radiating subassembly, be installed in and drive on assembly.Wherein, when the first cylinder is according to end face hole and bottom hole during towards a first direction displacement, and/or the second cylinder during towards a second direction displacement, drives assembly to drive radiating subassembly towards first direction and/or second direction displacement according to the first lateral aperture and the second lateral aperture.

Computer housing of the present invention and heat abstractor, one of its effect is, utilize the cooperation of the first cylinder and the second cylinder, allow user in the situation that need not taking casing apart, just can directly adjust the position of heat abstractor, thereby increase the radiating effect in main frame.

About feature of the present invention, implementation and effect, hereby coordinate to be graphicly described in detail as follows as most preferred embodiment.

[brief description of the drawings]

The blast of the computer housing that Fig. 1 a and Fig. 1 b are first embodiment of the invention and combination figure.

Fig. 2 a is the first cylinder, second cylinder of first embodiment of the invention and the schematic diagram that drives assembly.

The schematic diagram towards first direction and/or second direction displacement of the first cylinder, the second cylinder and drive assembly that Fig. 2 b to Fig. 2 d is first embodiment of the invention.

Fig. 3 a is the first cylinder of second embodiment of the invention and the schematic diagram of the second cylinder.

Fig. 3 b is the first cylinder, second cylinder of second embodiment of the invention and the schematic diagram that drives assembly.

The schematic diagram towards first direction and/or second direction displacement of the first cylinder, the second cylinder and drive assembly that Fig. 3 c to Fig. 3 e is second embodiment of the invention.

Fig. 4 a is the sectional view of the heat abstractor of the computer housing of third embodiment of the invention.

Fig. 4 b is the schematic perspective view of the computer housing of third embodiment of the invention.

Primary clustering symbol description:

200 housing 311 first holes

210 end face 312 long slot bores

211 end face hole 320 second cylinders

220 first 321 second holes, sides

221 first lateral aperture 330 drive assembly

230 second side 331 first perforation

231 second lateral aperture 332 second perforation

240 bottom surface 340 radiating subassemblies

241 bottom hole 350 intersection portions

250 the 3rd side 351 accommodation spaces

260 the 4th side 352 emptying apertures

300 heat abstractor 400 drawing articles

310 first cylinders

[embodiment]

Please refer to blast and the combination figure of the computer housing of the first embodiment of the invention shown in Fig. 1 a and Fig. 1 b; The schematic diagram of the first cylinder, the second cylinder and the drive assembly of the first embodiment of the invention shown in Fig. 2 a; And the schematic diagram towards first direction and/or second direction displacement of the first cylinder of the first embodiment of the invention shown in Fig. 2 b to Fig. 2 d, the second cylinder and drive assembly.Computer housing of the present invention includes a housing 200 and a heat abstractor 300.

As shown in Fig. 1 a and Fig. 1 b, housing 200 includes an end face 210 of detachable assembling; Be connected to one first side 220, one second side 230 of end face 210 both sides and be connected to the first side 220 and a bottom surface 240 of the second side 230.

End face 210 has 211, the first sides 220, an end face hole and has one first lateral aperture 221, the second sides 230 and have the second lateral aperture 231, and bottom surface 240 has respectively a bottom hole 241.Normally, housing 200 can also include the 3rd side 250 and the 4th side 260, namely housing 200 forms tetragonal body structure by end face 210, bottom surface 240 and first to fourth side 220,230,240,250, and end face hole 211, the first lateral aperture 221, the second lateral aperture 231 and bottom hole 241 preferably can be arranged on the position of contiguous the 3rd side 250, and the 4th side 260 can be provided with motherboard, display card, internal memory or other computing machine spare part.

Consult shown in Fig. 1 a, 1b, 2a and 2b, heat abstractor 300 includes one first cylinder 310, one second cylinder 320, drive assembly 330 and a radiating subassembly 340.The first cylinder 310 is located in end face hole 211 and the bottom hole 241 of housing 200, and the first cylinder 310 has the long slot bore 312 of perforation the first cylinder 310 own.The second cylinder 320 is located in the long slot bore 312 of end face hole 211, bottom hole 214 and first cylinder 310 of housing 200, and forms an intersection portion 350 in the confluce that the second cylinder 320 wears the first cylinder 310.

Consult shown in Fig. 1 a, 1b, 2a and 2b, drive assembly 330 to be arranged on intersection portion 350, and be combined in slidably the first cylinder 310 and the second cylinder 320.Radiating subassembly 340 is installed in and drives on assembly 330, and wherein radiating subassembly 340 can be a fan.When the first cylinder 310 is according to end face hole 211 and bottom hole 241 during towards a first direction D1 displacement, and/or second cylinder 320 during towards a second direction D2 displacement, drive assembly 330 to drive radiating subassembly 340 towards first direction D1 and/or second direction D2 displacement according to the first lateral aperture 221 and the second lateral aperture 231.Preferably, first direction D1 can be vertical with second direction D2, that is the radiating subassembly rectangular coordinate system that can consist of with second direction D2 first direction D1 is adjusted the position of radiating subassembly 340 in its plane.

Particularly, in the first embodiment, one end of the first cylinder 310 has one first hole 311, mutually connect with long slot bore 312, and one end of the second cylinder 320 also has one second hole 321, wherein, the first hole 311 is consistent with the opening direction in the second hole 321, and position forms an accommodation space 351 in the second hole 321 of confluce 350, and drive assembly 330 to be installed with in accommodation space 351.

In the first embodiment, drive assembly 330 to be arranged in accommodation space 351, and drive the size of assembly 330 just can be limited in accommodation space 351, and drive a part for assembly 330 slightly to protrude first hole 311 of position in intersection portion 350.

For example, drive the shape of assembly 330 can slightly be one spherical, therefore, when the first cylinder 310 is according to end face hole 211 and bottom hole 241 during towards a first direction D1 displacement, and/or second cylinder 320 according to the first lateral aperture 221 and the second lateral aperture 231 during towards a second direction D2 displacement, drive the assembly 330 will be because of the change of the position of accommodation space 351, and then towards first direction D1 and/or second direction D2 displacement.

In addition, drive assembly 330 can slightly protrude position in the first hole 311 of intersection portion 350 because of a spherical part own again, and be limited in accommodation space 351.As can be seen here, when the first cylinder 310 and/or the second cylinder 320 are during towards first direction D1 and/or second direction D2 displacement, drive assembly 330 also can be towards first direction D1 and/or second direction D2 displacement, apparently, being installed in the radiating subassembly 340 that drives on assembly 330 also can be towards first direction D1 and/or second direction D2 displacement, and then reaches the effect of adjusting radiating subassembly 340 positions.

In addition, in the time using the computing machine being assembled by computer housing of the present invention, can coordinate with the software of monitoring hardware temperature, if find that the temperature of the central processing unit of computing machine raises, can the first cylinder 310 and the second cylinder 320 will manually be adjusted, so that radiating subassembly 340 moves towards the direction of central processing unit, so that the greenhouse cooling of central processing unit.Or radiating subassembly 340 can be provided with corresponding switch on housing 200, user can open or close radiating subassembly 340 at any time when needed.

Refer to the first cylinder of the second embodiment of the invention shown in Fig. 3 a and the schematic diagram of the second cylinder; The schematic diagram towards first direction and/or second direction displacement of the first cylinder, the second cylinder and the drive schematic diagram of assembly of the second embodiment of the invention shown in Fig. 3 b and the first cylinder of Fig. 3 c to Fig. 3 e second embodiment of the invention, the second cylinder and drive assembly.

The second embodiment includes as the housing in the first embodiment and heat abstractor, and wherein, the mode that drive assembly 330 is located at intersection portion 350 is slightly different from the first embodiment.Particularly, drive assembly 330 in the second embodiment also has one second perforation 332 of one first perforation 331 and vertical the first perforation 331, and the first perforation 331 and second is bored a hole and 332 is communicated with, and the first cylinder 310 is located in the first perforation 331, the second cylinders 320 and wears the second perforation 332.

In other words, driving assembly 330 is coated intersection portions 350 that are arranged on the first cylinder 310 and the second cylinder 320.As can be seen here, in the time being located in the first cylinder 310 of driving in assembly 330 and/or the second cylinder 320 towards first direction D1 and/or second direction D2 displacement, drive assembly 330 also can be towards first direction D1 and/or second direction D2 displacement, apparently, being installed in the radiating subassembly that drives on assembly 330 also can be towards first direction D1 and/or second direction D2 displacement, and then reaches the effect of adjusting radiating subassembly position.

Please refer to the sectional view of the heat abstractor of the computer housing of the third embodiment of the invention shown in Fig. 4 a; And the schematic perspective view of the computer housing of the third embodiment of the invention shown in Fig. 4 b.

The computer housing of the third embodiment of the present invention is except including housing 200 and heat abstractor, wherein the radiating subassembly 340 of heat abstractor also includes a pars contractilis 350, and radiating subassembly 340 is located on pars contractilis 350, in the time that pars contractilis 350 is flexible towards a third direction D3, radiating subassembly 340 is towards third direction displacement, and the vertical first direction D1 of third direction D3 and second direction D2.In other words, computer housing of the present invention not only can be adjusted radiating subassembly 340 outside the planar movement being made up of first direction D1 and second direction D2, can also move at the solid space being made up of first direction D1, second direction D2 and third direction D3.

In addition, in the 3rd embodiment, pars contractilis 350 preferably can have an emptying aperture 352, and the end face 210 of housing 200 also has one or more side opening 212, side opening 212 vertical top faces 211.When a drawing article 400 is located in emptying aperture 352 and side opening 212 and during towards third direction D3 displacement, pars contractilis 350 is flexible towards third direction D3.In other words, user can be in the situation that housing 200 need not be dismantled, the stroke towards third direction D3 by drawing article 400 with control pars contractilis 350.

Should be mentioned that especially, in the first to the 3rd embodiment, the first cylinder 310 can protrude in end face hole 211 and bottom hole 241, and the second cylinder 320 can protrude in the first lateral aperture 221 and the second lateral aperture 231.In the time that user's wish is adjusted the position of radiating subassembly 340, can be directly by protruding the position of controlling the plane that radiating subassembly 340 forms at first direction D1 and second direction D2 at the first cylinder 310 of housing 200 outer walls and the second cylinder 320, and without dismounting housing 200.

Preferably, in the first to the 3rd embodiment, end face hole 211 can be parallel on the long limit of end face 210, and bottom hole 241 is also parallel on the long limit of bottom surface 240, and the first lateral aperture 221 is the parallel long limit in the first side 220 and the also parallel long limit in the second side 230 of the second lateral aperture 231 also.

In addition, preferably, in the first to the 3rd embodiment, the length in end face hole 211 is long limits of corresponding end face 210, the length of bottom hole 241 is long limits of corresponding bottom surface 240, and the length of the first lateral aperture 221 is that the long limit of corresponding the first side 220 and the length of the second lateral aperture 231 are long limits of corresponding the second side 230.

Computer housing of the present invention and heat abstractor thereof, be not limited with the disclosed kenel of the present embodiment, and the person that is familiar with technique can be according to actual design demand or user demand and corresponding computer housing of the present invention and the heat abstractor thereof of changing.

The computer housing of the invention described above and heat abstractor thereof, mainly to utilize the first cylinder and the second cylinder that are located in outside housing, and then user can not needed to dismantle in the situation of housing, adjust at any time the position of radiating subassembly by the first cylinder, the second cylinder or drawing article according to the radiating requirements of enclosure interior.

Although embodiments of the invention disclose as mentioned above; so not in order to limit the present invention; anyly have the knack of related art techniques person; without departing from the spirit and scope of the present invention; such as work as and can do a little change according to shape, structure, feature and quantity described in the present patent application scope, therefore scope of patent protection of the present invention must be as the criterion depending on the appended claim person of defining of this instructions.

Claims (10)

1. a computer housing, is characterized in that, described computer housing comprises:

One housing, described housing comprises an end face, one first side, one second side and a bottom surface, wherein, described end face has an end face hole, described the first side and described the second side are to be connected to described end face, and described the first side and described the second side have respectively one first lateral aperture and one second lateral aperture, and described bottom surface is to be connected to described the first side and described the second side, and described bottom surface has a bottom hole; And

One heat abstractor, includes:

One first cylinder, is located in described end face hole and the described bottom hole of described housing, and wherein said the first cylinder has a long slot bore that connects described the first cylinder;

One second cylinder, is located in the described long slot bore of described first lateral aperture of described housing, described the second lateral aperture and described the first cylinder, and described the second cylinder wears described the first cylinder and forms an intersection portion;

One drives assembly, and position is in described intersection portion, and is combined in slidably described the first cylinder and described the second cylinder; And

One radiating subassembly, is installed on described drive assembly,

Wherein, when described the first cylinder is according to described end face hole and described bottom hole during towards a first direction displacement, and/or described the second cylinder is according to described the first lateral aperture and described the second lateral aperture during towards a second direction displacement, described drive assembly drives described radiating subassembly towards described first direction and/or described second direction displacement.

2. computer housing according to claim 1, it is characterized in that, one end of described the first cylinder has one first hole, mutually connect with described long slot bore, and one end of described the second cylinder also has one second hole, wherein, described the first hole is consistent with the opening direction in described the second hole, and position forms an accommodation space in described second hole of described confluce, and described drive assembly is installed with in described accommodation space.

3. computer housing according to claim 1, it is characterized in that, described drive assembly also has one second perforation of one first perforation and vertical described the first perforation, and described the first perforation is communicated with described the second perforation, and described the first cylinder is located in described the first perforation, described the second cylinder wears described the second perforation.

4. computer housing according to claim 1, is characterized in that, described the first cylinder also protrudes from described end face hole and described bottom hole, and described the second cylinder also protrudes in described the first lateral aperture and described the second lateral aperture.

5. computer housing according to claim 1, is characterized in that, the vertical described second direction of described first direction.

6. computer housing according to claim 1, it is characterized in that, described drive assembly also comprises a pars contractilis, and described radiating subassembly is located on described pars contractilis, in the time that described pars contractilis is flexible towards a third direction, described radiating subassembly is towards described third direction displacement, and the vertical described first direction of described third direction and described second direction.

7. computer housing according to claim 6, it is characterized in that, described pars contractilis also has an emptying aperture, and the described end face of described housing also has a side opening, the vertical described end face of described side opening hole, when a drawing article is located in described emptying aperture and described side opening and during towards described third direction displacement, described pars contractilis is flexible towards described third direction.

8. computer housing according to claim 1, it is characterized in that, described end face hole is the parallel long limit at described end face also, described bottom hole is also parallel on the long limit of described bottom surface, and described the first lateral aperture is the parallel long limit in described the first side and the also parallel long limit in described the second side of described the second lateral aperture also.

9. computer housing according to claim 1, it is characterized in that, the length in described end face hole is the long limit of corresponding described end face, the length of described bottom hole is the long limit of corresponding described bottom surface, and the length of described the first lateral aperture is that the corresponding long limit of described the first side and the length of described the second lateral aperture are the long limits of corresponding described the second side.

10. a heat abstractor, is suitable for being located in a housing, and described housing has an end face, and described end face has an end face hole; One first side and one second side, described the first side and described the second side are to be connected to described end face, and described the first side and described the second side have respectively one first lateral aperture and one second lateral aperture; And a bottom surface, described bottom surface is to be connected to described the first side and described the second side, and described bottom surface has a bottom hole, it is characterized in that, and described heat abstractor includes:

One first cylinder, is located in described end face hole and the described bottom hole of described housing, and wherein said the first cylinder has a long slot bore that connects described the first cylinder;

One second cylinder, is located in the described long slot bore of described first lateral aperture of described housing, described the second lateral aperture and described the first cylinder, and described the second cylinder wears described the first cylinder and forms an intersection portion;

One drives assembly, and position is in described intersection portion, and is combined in slidably described the first cylinder and described the second cylinder; And

One radiating subassembly, is installed on described drive assembly,

Wherein, when described the first cylinder is according to described end face hole and described bottom hole during towards a first direction displacement, and/or described the second cylinder is according to described the first lateral aperture and described the second lateral aperture during towards a second direction displacement, described drive assembly drives described radiating subassembly towards described first direction and/or described second direction displacement.