CN113377183A

CN113377183A - Computer cooling system

Info

Publication number: CN113377183A
Application number: CN202110753584.XA
Authority: CN
Inventors: 易琦; 王军民; 陈根金; 郭姗姗
Original assignee: Yichun Vocational Technical College
Current assignee: Yichun Vocational Technical College
Priority date: 2021-07-02
Filing date: 2021-07-02
Publication date: 2021-09-10
Anticipated expiration: 2041-07-02
Also published as: CN113377183B

Abstract

The invention relates to the technical field of computer cooling, in particular to a computer cooling system. The fan can be flexibly moved to accurately radiate heat at a heat radiating position, and comprises a vertical plate and a fan, wherein a hole is formed in the middle of the vertical plate, and the fan is fixed in the hole; the angle, the distance and the position of the fan relative to the heat dissipation position can be flexibly moved in the limited space in the computer case to carry out accurate centralized heat dissipation, the heat dissipation efficiency is improved, and the problem that the traditional case only has heat dissipation holes and dissipates heat slowly is solved; meanwhile, air in the case can flow to the outside, and dust in the air is prevented from being adhered to the surface of the host machine or the inner wall of the case.

Description

Computer cooling system

Technical Field

The invention relates to the technical field of computer cooling, in particular to a computer cooling system.

Background

For example, the invention with the publication number of CN210324073 discloses a computer cooling system, which comprises a notebook computer support frame and two cooling-assistant mechanisms, wherein the two cooling-assistant mechanisms are arranged and are both connected to the outer side of the notebook computer support frame in a sliding manner, each cooling-assistant mechanism comprises a sliding frame, a spring, an air-pumping box, an air-pumping cover and an air-pumping fan, the air-pumping box is connected to the sliding frame in a sliding manner, the spring is fixedly connected between the air-pumping box and the lower end of the sliding frame, the air-pumping cover is fixedly connected to the inner side of the air-pumping box, and a plurality of air-pumping fans are fixedly connected to the inner side of the air-pumping box. The notebook computer is suitable for notebook computers of different models and brands; but the invention has the defect that the fan can not be flexibly moved to accurately radiate the heat radiation position.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a computer cooling system which can flexibly move a fan to accurately dissipate heat at a heat dissipation position.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a computer cooling system comprises a vertical plate and a fan, wherein a hole is formed in the middle of the vertical plate, and the fan is fixed in the hole.

The condenser pipe is connected and communicated with the refrigerator, and the condenser pipe and the refrigerator are both fixed on the sliding plate.

The novel electric scooter further comprises idler wheels, inner rods and outer rods, wherein the two inner rods are respectively connected with the two outer rods in a rotating mode, the two ends of each inner rod are respectively provided with one idler wheel in a rotating mode, and each outer rod is arranged on the sliding plate and the vertical plate in a rotating mode.

The rolling device further comprises rolling ways and lining plates, wherein the two rolling ways are fixed on the sliding plate, and the two lining plates are fixed on the vertical plate.

The device further comprises a threaded rod, a connecting sleeve and a pull rod, wherein the threaded rod rotates on the sliding plate, the pull rod is fixed on two rollers close to the sliding plate, the connecting sleeve is in threaded connection with the threaded rod, and the connecting sleeve rotates on the pull rod.

The computer cooling system has the beneficial effects that:

the angle, the distance and the position of the fan relative to the heat dissipation position can be flexibly moved in the limited space in the computer case to carry out accurate centralized heat dissipation, the heat dissipation efficiency is improved, and the problem that the traditional case only has heat dissipation holes and dissipates heat slowly is solved; meanwhile, air in the case can flow to the outside, and dust in the air is prevented from being adhered to the surface of the host machine or the inner wall of the case.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the construction of a vertical plate and fan according to the present invention;

FIG. 2 is a schematic cross-rotating structural diagram of the inner rod and the outer rod of the present invention;

FIG. 3 is a schematic structural view of the connecting sleeve of the present invention;

FIG. 4 is a schematic view of the structure of the pull rod and the presser foot of the present invention;

FIG. 5 is a schematic view of the structure of the condenser tube according to the present invention;

FIG. 6 is a schematic view of the fan moving relative to the slide plate according to the present invention;

FIG. 7 is a schematic view of the fan moving in another direction relative to the slide plate according to the present invention;

FIG. 8 is a schematic view of the construction of the liner of the present invention;

FIG. 9 is a schematic structural view of a mounting frame and a rotating frame according to the present invention;

FIG. 10 is a schematic view of the structure of the moving block and the supporting rod of the present invention;

FIG. 11 is a schematic diagram of a computer cooling system according to the present invention.

In the figure: a vertical plate 101;

a fan 102;

a threaded rod 201;

a connecting sleeve 202;

a pull rod 203;

a roller 204;

a raceway 205;

an inner rod 206;

an outer rod 207;

a liner 208;

a slide plate 301;

a condenser tube 302;

a refrigerator 303;

a pull rod 304;

a presser foot 305;

a mounting block 401;

a frame 402 is rotated;

a screw rod 403;

a movement block 404;

a strut 405.

Detailed Description

Referring to fig. 1, an exemplary operation process for dissipating heat inside a computer host case according to the present disclosure is as follows:

the middle of the vertical plate 101 is provided with a hole, the fan 102 is fixed in the hole, a user can fix the vertical plate 101 on the inner wall of the computer mainframe case through pasting or bolts, and simultaneously the fan 102 is aligned to the position needing heat dissipation, and the fan 102 is driven to work by using a power supply or an external power supply of the fan 102, so that the fan 102 supplies air to the inside of the case and the position needing heat dissipation of the mainframe, the air carries away heat on the mainframe, and simultaneously hot air in the mainframe case is blown to the outside through a heat dissipation hole of the case, thereby realizing the function of heat dissipation of the computer case and the mainframe; the problem that the traditional case only has heat dissipation holes and dissipates heat slowly is solved; meanwhile, air in the case can flow to the outside, and dust in the air is prevented from being adhered to the surface of the host machine or the inner wall of the case.

Referring to fig. 4 and 5, an exemplary operation of cooling the air inside the cabinet according to the present disclosure is:

the condensation pipe 302 is connected and communicated with the refrigerator 303, the condensation pipe 302 and the refrigerator 303 are both fixed on the sliding plate 301, a user can fix the sliding plate 301 behind the vertical plate 101, then fix the sliding plate 301 on the inner wall of the case, then enable the refrigerator 303 to be powered on, and enable the temperature of the condensation pipe 302 to be lowered under the operation of the refrigerator 303, and at the moment, the temperature of air passing around the condensation pipe 302 is affected and lowered, so that the temperature of the air inside the case is lowered integrally, cold air can be blown out by the fan 102, and the temperature of the inside of the case and a host can be lowered more quickly; meanwhile, cold air can be utilized to contact the surfaces of the case and the host machine, so that the temperatures of the case and the host machine are reduced, heat generated by the host machine is further transferred, the heat generated by the host machine is dispersed, and the cooling speed is further accelerated.

Referring to fig. 2 and 6, one exemplary operation that can be achieved to adjust the spacing between the fan 102 and the heat dissipation position is as follows:

in the invention, the middle parts of the two inner rods 206 are respectively rotatably connected with the middle parts of the two outer rods 207, rubber rings are arranged at the rotatably connected positions, two ends of each inner rod 206 are respectively provided with a roller 204 in a rotating manner, and each outer rod 207 is rotated on the sliding plate 301 and the vertical plate 101, so that a user can pull the fan 102 according to the distance between the fan 102 and the position needing heat dissipation after the sliding plate 301 is fixed on the inner wall of the case, so that the fan 102 is close to the position needing heat dissipation, thereby intensively blowing the position needing heat dissipation and accelerating the heat dissipation speed of a certain position in the case; at the moment, the two inner rods 206 respectively rotate relative to the two outer rods 207, the rollers 204 on the two inner rods 206 respectively roll on the sliding plate 301 and the vertical plate 101, and the rotating friction force between the inner rods 206 and the outer rods 207 is increased by using rubber rings, so that the inner rods cannot rotate without the action of external force of a user;

but long rolling of roller 204 on slide plate 301 and vertical plate 101 can cause wear on slide plate 301 and vertical plate 101.

Referring to fig. 2, 3 and 8, one exemplary operation that can be achieved from the protective slide 301 and vertical plate 101 shown in the figures is:

in order to protect the sliding plate 301 and the vertical plate 101 from being abraded, the sliding plate 301 is provided with two raceways 205, the vertical plate 101 is provided with two lining plates 208, two rollers 204 on two inner rods 206, which are close to the sliding plate 301, are respectively in rolling contact with the two raceways 205, and two rollers 204 on two inner rods 206, which are close to the vertical plate 101, are respectively in rolling contact with the two lining plates 208, so that under the protection of the two lining plates 208 and the two raceways 205, the sliding plate 301 and the vertical plate 101 are prevented from being abraded by the rollers 204, and meanwhile, the movement track of the rollers 204 is limited, and the rollers 204 are prevented from deviating.

Referring to fig. 2, 3 and 7, an exemplary operation process for flexibly adjusting the distance between the fan 102 and the slide plate 301 is as follows:

because the space inside the case is limited, when the fan 102 needs to be close to a position needing heat dissipation, the hand of a user cannot enter a gap between the fan 102 and the heat dissipation position for operation because of overlarge volume, after the sliding plate 301 is fixed by the user in the invention, the screw rod 201 can be rotated according to the space inside the case, at the moment, the screw rod 201 can drive the connecting sleeve 202 to move towards the middle position of the sliding plate 301, the connecting sleeve 202 can drive the pull rod 203 to move, the pull rod 203 can pull the two rollers 204 close to the sliding plate 301 to roll, so that the two inner rods 206 can respectively rotate relative to the two outer rods 207 to support the vertical plate 101, the distance between the fan 102 and the sliding plate 301 is increased, and at the moment, the fan 102 can be close to the position needing heat dissipation; the user can conveniently rotate the threaded rod 201 from the side by using fingers to enable the fan 102 to be close to a position needing heat dissipation, and operation in a narrow space is facilitated.

The device also comprises a pull rod 304, a pressure foot 305 and a rotating frame 402, wherein the pressure foot 305 is arranged at the rear end of the pull rod 304, the pull rod 304 slides on a sliding plate 301, and the sliding plate 301 can slide in the rotating frame 402.

Grooves are formed in the upper side and the lower side of the rotating frame 402, so that the sliding plate 301 can slide in the rotating frame 402.

Referring to fig. 9 and 11, one exemplary operation that may be obtained to facilitate movement of the fan 102 is as follows:

when the device is used, the sliding plate 301 is not required to be fixed on the inner wall of the case, the rotating frame 402 is fixed on the inner wall of the case and can be fixed at any position of the inner wall of the case, then the upper end and the lower end of the sliding plate 301 respectively slide into the grooves at the upper side and the lower side, the pull rod 304 is pulled out, a tension spring is arranged between the pull rod 304 and the sliding plate 301, a user can drive the sliding plate 301 to slide along the grooves by the pull rod 304, so that the sliding plate 301 slides to the corresponding position, then the pull rod 304 is loosened, the pull rod 304 can drive the presser foot 305 to tightly press the rotating frame 402 under the action of the tension spring, so that the rotating frame 402 is clamped by the combined action of the sliding plate 301 and the presser foot 305, the position of the sliding plate 301 is fixed, and the position of the fan 102 is fixed; the user can flexibly move the fan 102 to change the heat dissipation effect of the concentrated air supply at different positions in the case in the above manner.

The device also comprises a mounting frame 401, and one end of the rotating frame 402 is rotatably connected to the mounting frame 401.

Referring to fig. 9 and 11, an exemplary operation for adjusting the relative angle of the air blown by the fan 102 is shown as follows:

because some heat dissipation positions in the chassis have inclined angles relative to the inner wall of the chassis, when the mounting frame 401 is fixed on the inner wall of the chassis, the fan 102 cannot face the positions needing heat dissipation, so that the heat dissipation effect is affected, at this time, the rotating frame 402 can drive the fan 102 to adjust the angle relative to the positions needing heat dissipation by using the manner that the rotating frame 402 can rotate on the mounting frame 401, so that the fan 102 can rotate to the positions facing the positions needing heat dissipation for blowing, and the heat dissipation effect of the positions needing heat dissipation is improved.

The upper side and the lower side of the mounting frame 401 are provided with a plurality of through holes.

Referring to fig. 10 and 11, an exemplary operation of the quick release mount 401 is shown in the figures:

in the invention, the upper side and the lower side of the mounting frame 401 are both provided with a plurality of through holes, so that the mounting frame 401 can be quickly mounted on the inner wall of the case through bolts, the mounting frame 401 can be quickly mounted and dismounted in this way, nuts or screw holes can be conveniently arranged on the inner wall of the case according to needs, the mounting frame 401 is fixed on a corresponding position through the bolts, and the position needing heat dissipation can be conveniently and pertinently mounted, so that the fan 102 can face the heat dissipation position.

The device further comprises a lead screw 403, a moving block 404 and a support rod 405, wherein the support rod 405 rotates on the rotating frame 402 and the moving block 404, the moving block 404 is in threaded connection with the lead screw 403, and the lead screw 403 rotates on the mounting frame 401.

Referring to fig. 10 and 11, an exemplary operation of adjusting the angle of the fan 102 in a narrow space according to the drawings is as follows:

after the mounting frame 401 is mounted on the inner wall of the case, and when the space between the mounting frame 401 and the heat dissipation position is limited and the rotating frame 402 cannot be directly rotated by hands, a user can drive the moving block 404 to move by using the lead screw 403 positioned on the side surface, so that the moving block 404 drives the supporting rod 405 to support the rotating frame 402, the rotating frame 402 rotates relative to the mounting frame 401, the fan 102 is adjusted relative to the heat dissipation position, and the operation in the limited narrow space is facilitated.

Claims

1. A computer cooling system comprises a vertical plate (101) and a fan (102), wherein a hole is formed in the middle of the vertical plate (101), and the fan (102) is fixed in the hole.

2. The computer cooling system of claim 1, wherein: the refrigerator is characterized by further comprising a sliding plate (301), a condensation pipe (302) and a refrigerator (303), wherein the condensation pipe (302) is connected and communicated with the refrigerator (303), and the condensation pipe (302) and the refrigerator (303) are fixed on the sliding plate (301).

3. The computer cooling system of claim 2, wherein: still include gyro wheel (204), interior pole (206) and outer pole (207), two interior poles (206) rotate with two outer poles (207) respectively and are connected, and the both ends of every interior pole (206) all rotate and have a gyro wheel (204), and every outer pole (207) all rotate on slide (301) and vertical board (101).

4. The computer cooling system of claim 3, wherein: the novel vertical plate is characterized by further comprising a roller path (205) and a lining plate (208), wherein the two roller paths (205) are fixed on the sliding plate (301), and the two lining plates (208) are fixed on the vertical plate (101).

5. The computer cooling system of claim 4, wherein: still include threaded rod (201), adapter sleeve (202) and pull rod (203), threaded rod (201) rotate on slide (301), and pull rod (203) are fixed on two gyro wheels (204) that are close to slide (301), and adapter sleeve (202) threaded connection is at threaded rod (201), and adapter sleeve (202) rotate at pull rod (203).

6. The computer cooling system of claim 5, wherein: the novel electric scooter is characterized by further comprising a pull rod (304), a pressure foot (305) and a rotating frame (402), wherein the pressure foot (305) is arranged at the rear end of the pull rod (304), the pull rod (304) slides on the sliding plate (301), and the sliding plate (301) can slide in the rotating frame (402).

7. Computer cooling system according to claim 6, characterised in that the upper and lower sides of the rotating frame (402) are provided with grooves to fit the sliding plate (301) to slide in the rotating frame (402).

8. The computer cooling system of claim 7, wherein: the device is characterized by further comprising a mounting frame (401), wherein one end of the rotating frame (402) is rotatably connected to the mounting frame (401).

9. The computer cooling system of claim 8, wherein: the upper side and the lower side of the mounting rack (401) are provided with a plurality of through holes.

10. The computer cooling system of claim 9, wherein: the novel electric bicycle further comprises a lead screw (403), a moving block (404) and a support rod (405), wherein the support rod (405) rotates on the rotating frame (402) and the moving block (404), the moving block (404) is in threaded connection with the lead screw (403), and the lead screw (403) rotates on the mounting frame (401).