CN201017872Y - CPU heat radiating device - Google Patents

CPU heat radiating device Download PDF

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Publication number
CN201017872Y
CN201017872Y CNU2007200346429U CN200720034642U CN201017872Y CN 201017872 Y CN201017872 Y CN 201017872Y CN U2007200346429 U CNU2007200346429 U CN U2007200346429U CN 200720034642 U CN200720034642 U CN 200720034642U CN 201017872 Y CN201017872 Y CN 201017872Y
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CN
China
Prior art keywords
thermal
cover plate
support
arrest seat
heat
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CNU2007200346429U
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Chinese (zh)
Inventor
沈秀美
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Fuquan Electronics & Hardware Co Ltd Suzhou
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Fuquan Electronics & Hardware Co Ltd Suzhou
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Publication date
Application filed by Fuquan Electronics & Hardware Co Ltd Suzhou filed Critical Fuquan Electronics & Hardware Co Ltd Suzhou
Priority to CNU2007200346429U priority Critical patent/CN201017872Y/en
Application granted granted Critical
Publication of CN201017872Y publication Critical patent/CN201017872Y/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Cooling Or The Like Of Electrical Apparatus (AREA)

Abstract

The utility model discloses a CPU heat radiating device. The utility model comprises a heat radiator which can be installed on the CPU heat collecting seat and connected with the heat collecting seat through a heat guiding pipe, the heat radiator comprises a supporting frame and a heat radiating fin installed on the supporting frame, the supporting frame is connected with the pivot axle of the heat collecting seat, the heat guiding pipe presents an L shape, one end of the heat guiding pipe is connected with the heat collecting seat in a rotary way, and the other end is penetrated in the heat radiating fin; the heat collecting seat and the heat radiating device of the utility model can be rotated oppositely, and the utility model can adapt to the installation demand for various types of computers through the change of the relative position of the heat collecting seat and the heat radiating device, therefore to enhance the versatility of the heat radiating device, and the production cost of the heat radiating device is reduced.

Description

The CPU heat abstractor
Technical field
The utility model relates to a kind of CPU heat abstractor.
Background technology
CPU is the central processing unit of computer, also is the core parts of computer, and in the calculating process of computer, CPU can produce a large amount of heats, and CPU can in time cool off in order to make, normal operation, heat abstractor is installed on CPU is usually dispelled the heat.Yet along with the fast development of information technology, the arithmetic speed of CPU is constantly improving, and the heat that is produced during computing also increases thereupon.
The employed heat abstractor of industry generally comprises the thermal-arrest seat that CPU is installed, the radiator of using heat pipe to be connected with the thermal-arrest seat at present, and fan is installed on the radiator.But because the difference of each computer type, the installation site of thermal-arrest seat and radiator also has nothing in common with each other, so existing heat abstractor does not have versatility to say basically, like this, bring bigger trouble not only for the production management of manufacturer, also increased the production cost simultaneously greatly.
Summary of the invention
The utility model purpose is: a kind of CPU heat abstractor is provided, the thermal-arrest seat of this device and radiator are with pivotally connected, the heat pipe and the thermal-arrest seat that connect thermal-arrest seat and radiator are rotationally connected, so can relatively rotate between thermal-arrest seat and the radiator, the installation requirements that adapt to multiple computer type by the relative position that changes thermal-arrest seat and radiator, thereby improved the versatility of heat abstractor, reduced the production cost of heat abstractor.
The technical solution of the utility model is: a kind of CPU heat abstractor, comprise thermal-arrest seat that CPU can be installed and the radiator that is connected with the thermal-arrest seat with heat pipe, described radiator comprises support and rack-mount fin, support and thermal-arrest seat are pivotally connected, heat pipe is L-shaped, and an end and the thermal-arrest seat of heat pipe is rotationally connected, the other end is located in the fin.
The further technical scheme of the utility model is: a kind of CPU heat abstractor, comprise thermal-arrest seat that CPU can be installed and the radiator that is connected with the thermal-arrest seat with heat pipe, described radiator comprises support and rack-mount fin, support and thermal-arrest seat are pivotally connected, heat pipe is L-shaped, and an end and the thermal-arrest seat of heat pipe is rotationally connected, the other end is located in the fin; Described thermal-arrest seat is fixed with cover plate having protruded out Connection Block near a side of radiator on the Connection Block, the plane of cover plate and the plane parallel of support and be connected and fixed with pivot bolt and nut; Described cover plate side-looking is flute profile, and the last plane of cover plate is provided with the upwards baffle plate of bending, and support is provided with the stop tab of bending in the outer away from fin one end, and the last plane that stop tab is stretched to baffle plate and cover plate forms in the 90 degree angles; Be provided with rotating disk between described cover plate and the support, rotating disk is located on the pivot bolt, the dual-side of rotating disk is along the dummy slider that is provided with bending, dummy slider is towards support and be embedded on the support in the corresponding embedding hole that is provided with, cover plate with the mating surface of rotating disk on be provided with two salient points, two salient points are positioned at through on the diameter of pivot bolt, and the rotating disk of corresponding two salient point positions is provided with four uniform apertures, and salient point can be embedded in the aperture; The cross section of described pivot bolt is a Long Circle, and the pivot hole on cover plate and the rotating disk is a circular hole, and the pivot hole on the support is a slotted hole.
The more detailed technical scheme of the utility model is: a kind of CPU heat abstractor, comprise thermal-arrest seat that CPU can be installed and the radiator that is connected with the thermal-arrest seat with heat pipe, described radiator comprises support and rack-mount fin, support and thermal-arrest seat are pivotally connected, heat pipe is L-shaped, and an end and the thermal-arrest seat of heat pipe is rotationally connected, the other end is located in the fin; Described thermal-arrest seat is fixed with cover plate having protruded out Connection Block near a side of radiator on the Connection Block, the plane of cover plate and the plane parallel of support and be connected and fixed with pivot bolt and nut; Described cover plate side-looking is flute profile, and the last plane of cover plate is provided with the upwards baffle plate of bending, and support is provided with the stop tab of bending in the outer away from fin one end, and the last plane that stop tab is stretched to baffle plate and cover plate forms in the 90 degree angles; Be provided with rotating disk between described cover plate and the support, rotating disk is located on the pivot bolt, the dual-side of rotating disk is along the dummy slider that is provided with bending, dummy slider is towards support and be embedded on the support in the corresponding embedding hole that is provided with, cover plate with the mating surface of rotating disk on be provided with two salient points, two salient points are positioned at through on the diameter of pivot bolt, and the rotating disk of corresponding two salient point positions is provided with four uniform apertures, and salient point can be embedded in the aperture; The cross section of described pivot bolt is a Long Circle, and the pivot hole on cover plate and the rotating disk is a circular hole, and the pivot hole on the support is a slotted hole; Be screwed substrate on the described thermal-arrest seat, the last plane of the lower plane of substrate and thermal-arrest seat correspondence respectively is provided with half slot, and an end of heat pipe just is clamped in two half slots; The last plane of described thermal-arrest seat is respectively equipped with the outside U-shaped heat pipe of opening in the both sides of half slot, four sections straightways of two U-shaped heat pipes are embedded into respectively in the elongated slot that is provided with on the plane on the thermal-arrest seat, and the bending section of two U-shaped heat pipes upwarps respectively and is folded in the short half slot of half slot both sides; The lower plane of described thermal-arrest seat is provided with radiating ribs.
The utility model advantage is:
1. thermal-arrest seat of the present utility model and radiator are with pivotally connected, the heat pipe and the thermal-arrest seat that connect thermal-arrest seat and radiator are rotationally connected, so can relatively rotate between thermal-arrest seat and the radiator, the installation requirements that adapt to multiple computer type by the relative position that changes thermal-arrest seat and radiator, thereby improved the versatility of heat abstractor, reduced the production cost of heat abstractor.
2. radiator of the present utility model can rotate around pivot bolt, and between the rotational area of the last plane of cover plate and baffle plate formation 90 degree, carries out spacing to the stop tab that stretches into wherein.
3. cover plate of the present utility model is provided with two salient points and is embedded in the aperture of rotating disk, and when radiator rotated, rotating disk was followed radiator and rotated together, and salient point and aperture can produce tap-tap.
4. on the thermal-arrest seat of the present utility model U-shaped heat pipe and radiating ribs are installed simultaneously, have not only strengthened the heat transferred between thermal-arrest seat and the radiator, also accelerated distributing of CPU heat simultaneously.
Description of drawings
Below in conjunction with drawings and Examples the utility model is further described:
Fig. 1 is a stereogram of the present utility model;
Fig. 2 is a upward view of the present utility model;
Fig. 3 is a left view of the present utility model;
Fig. 4 is a rearview of the present utility model;
Fig. 5 is the rearview of thermal-arrest seat when vertical with radiator;
Fig. 6 is the utility model assembling schematic diagram.
Wherein: 1. thermal-arrest seat; 2 heat pipes; 3 radiators; 4 supports; 5 fin; 6 Connection Blocks; 7 cover plates; 8 pivot bolts; 9 nuts; 10 baffle plates; 11 stop tab; 12 rotating disks; 13 dummy sliders; 14 embedding holes; 15 salient points; 16 apertures; 17 substrates; 18 half slots; 19U shape heat pipe; 20 straightways; 21 elongated slots; 22 bending sections; 23 short half slots; 24 radiating ribs.
Embodiment
Embodiment: a kind of CPU heat abstractor, comprise thermal-arrest seat 1 that CPU can be installed and the radiator 3 that is connected with thermal-arrest seat 1 with heat pipe 2, described radiator 3 comprises support 4 and the fin 5 that is installed on the support 4, support 4 is pivotally connected with thermal-arrest seat 1, heat pipe 2 is L-shaped, and an end and the thermal-arrest seat 1 of heat pipe 2 is rotationally connected, the other end is located in the fin 5.
Be screwed substrate 17 on the described thermal-arrest seat 1, the last plane of the lower plane of substrate 17 and thermal-arrest seat 1 correspondence respectively is provided with half slot 18, and an end of heat pipe 2 just is clamped in two half slots 18; The last plane of thermal-arrest seat 1 is respectively equipped with the outside U-shaped heat pipe 19 of opening in the both sides of half slot 18, four sections straightways 20 of two U-shaped heat pipes 19 are embedded into respectively in the elongated slot 21 that is provided with on the plane on the thermal-arrest seat 1, and the bending section 22 of two U-shaped heat pipes 19 upwarps respectively and is folded in the short half slot 23 of half slot 18 both sides; The lower plane of thermal-arrest seat 1 is provided with radiating ribs 24.
Described thermal-arrest seat 1 is fixed with cover plate 7 having protruded out Connection Block 6 near a side of radiator 3 on the Connection Block 6, the plane parallel of the plane of cover plate 7 and support 4 and be connected and fixed with pivot bolt 8 and nut 9; Cover plate 7 side-lookings are flute profile, and the last plane of cover plate 7 is provided with the upwards baffle plate 10 of bending, and support 4 is provided with the stop tab 11 of bending in the outer away from fin one end, and the last plane that stop tab 11 is stretched to baffle plate 10 and cover plate 7 forms in the 90 degree angles; Be provided with rotating disk 12 between cover plate 7 and the support 4, rotating disk 12 is located on the pivot bolt 8, the dual-side of rotating disk 12 is along the dummy slider 13 that is provided with bending, dummy slider 13 is towards support 4 and be embedded on the support 4 in the corresponding embedding hole 14 that is provided with, cover plate 7 with the mating surface of rotating disk 12 on be provided with two salient points 15, two salient points 15 are positioned at through on the diameter of pivot bolt 8, and the rotating disk 12 of corresponding two salient point 15 positions is provided with four uniform apertures 16, and salient point 15 can be embedded in the aperture 16; The cross section of pivot bolt 8 is a Long Circle, and the pivot hole on cover plate 7 and the rotating disk 12 is a circular hole, and the pivot hole on the support 4 is a slotted hole.
Thermal-arrest seat 1 of the present utility model and radiator 3 are with pivotally connected, the heat pipe 2 that connects thermal-arrest seat 1 and radiator 3 is rotationally connected with thermal-arrest seat 1, so can relatively rotate between thermal-arrest seat 1 and the radiator 3, the installation requirements that adapt to multiple computer type by the relative position that changes thermal-arrest seat 1 and radiator 3, thereby improved the versatility of heat abstractor, reduced the production cost of heat abstractor; Radiator 3 of the present utility model can rotate around pivot bolt 8, and between the rotational area of the last plane of cover plate 7 and baffle plate 10 formation 90 degree, carries out spacing to the stop tab 11 that stretches into wherein; Cover plate 7 of the present utility model is provided with in the aperture 16 that two salient points 15 are embedded into rotating disk 12, and when radiator 3 rotated, rotating disk 12 was followed radiator 3 and rotated together, and salient point 15 and aperture 16 can produce tap-tap; U-shaped heat pipe 19 and radiating ribs 24 are installed on the thermal-arrest seat 1 of the present utility model simultaneously, have not only strengthened the heat transferred between thermal-arrest seat 1 and the radiator 3, also accelerated distributing of CPU heat simultaneously.

Claims (8)

1. CPU heat abstractor, comprise thermal-arrest seat (1) that CPU can be installed and the radiator (3) that is connected with thermal-arrest seat (1) with heat pipe (2), it is characterized in that: described radiator (3) comprises support (4) and is installed in fin (5) on the support (4), support (4) is pivotally connected with thermal-arrest seat (1), heat pipe (2) is L-shaped, during an end of heat pipe (2) and thermal-arrest seat (1) are rotationally connected, the other end is located in fin (5).
2. CPU heat abstractor according to claim 1, it is characterized in that: described thermal-arrest seat (1) has protruded out Connection Block (6) in the side near radiator (3), be fixed with cover plate (7) on the Connection Block (6), the plane parallel of the plane of cover plate (7) and support (4) and be connected and fixed with pivot bolt (8) and nut (9).
3. CPU heat abstractor according to claim 2, it is characterized in that: described cover plate (7) side-looking is flute profile, the last plane of cover plate (7) is provided with the upwards baffle plate (10) of bending, support (4) is provided with the stop tab (11) of bending in the outer away from fin one end, the last plane that stop tab (11) is stretched to baffle plate (10) and cover plate (7) forms in the 90 degree angles.
4. CPU heat abstractor according to claim 2, it is characterized in that: be provided with rotating disk (12) between described cover plate (7) and the support (4), rotating disk (12) is located on the pivot bolt (8), the dual-side of rotating disk (12) is along the dummy slider (13) that is provided with bending, dummy slider (13) is towards support (4) and be embedded into support (4) and go up in the corresponding embedding hole (14) that is provided with, cover plate (7) with the mating surface of rotating disk (12) on be provided with two salient points (15), two salient points (15) are positioned on the diameter of process pivot bolt (8), the rotating disk (12) of corresponding two salient points (15) position is provided with four uniform apertures (16), and salient point (15) can be embedded in the aperture (16).
5. CPU heat abstractor according to claim 4 is characterized in that: the cross section of described pivot bolt (8) is a Long Circle, and the pivot hole on cover plate (7) and the rotating disk (12) is a circular hole, and the pivot hole on the support (4) is a slotted hole.
6. CPU heat abstractor according to claim 1, it is characterized in that: be screwed substrate (17) on the described thermal-arrest seat (1), the last plane of the lower plane of substrate (17) and thermal-arrest seat (1) correspondence respectively is provided with half slot (18), and an end of heat pipe (2) just is clamped in two half slots (18).
7. CPU heat abstractor according to claim 6, it is characterized in that: the last plane of described thermal-arrest seat (1) is respectively equipped with the outside U-shaped heat pipe (19) of opening in the both sides of half slot (18), four sections straightways (20) of two U-shaped heat pipes (19) are embedded into thermal-arrest seat (1) respectively to be gone up in the elongated slot (21) that is provided with on the plane, and the bending section (22) of two U-shaped heat pipes (19) upwarps respectively and is folded in the short half slot (23) of half slot (18) both sides.
8. CPU heat abstractor according to claim 1 is characterized in that: the lower plane of described thermal-arrest seat (1) is provided with radiating ribs (24).
CNU2007200346429U 2007-02-09 2007-02-09 CPU heat radiating device Expired - Fee Related CN201017872Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNU2007200346429U CN201017872Y (en) 2007-02-09 2007-02-09 CPU heat radiating device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CNU2007200346429U CN201017872Y (en) 2007-02-09 2007-02-09 CPU heat radiating device

Publications (1)

Publication Number Publication Date
CN201017872Y true CN201017872Y (en) 2008-02-06

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Family Applications (1)

Application Number Title Priority Date Filing Date
CNU2007200346429U Expired - Fee Related CN201017872Y (en) 2007-02-09 2007-02-09 CPU heat radiating device

Country Status (1)

Country Link
CN (1) CN201017872Y (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102460688A (en) * 2009-05-14 2012-05-16 美国能量变换公司 Power semiconductor heatsinking

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102460688A (en) * 2009-05-14 2012-05-16 美国能量变换公司 Power semiconductor heatsinking

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C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20080206

Termination date: 20110209