CN117251037B - Computer motherboard heat dissipation protection device - Google Patents

Abstract

The invention discloses a computer main board heat dissipation protection device, which relates to the technical field of computer main board heat dissipation and dust removal, and comprises a case component and a main board component, wherein a mounting component and a wire harness component are mounted on the case component; the heat dissipation assembly can locally dissipate heat of different local areas of the main board, so that heat dissipation power consumption is reduced, heat dissipation efficiency is improved, the fan I which is movably arranged can be quickly detached, and the device is convenient to clean.

Description

Computer motherboard heat dissipation protection device

Technical Field

The invention relates to the technical field of computer motherboard heat dissipation and dust removal, in particular to a computer motherboard heat dissipation protection device.

Background

The computer main board is one of the most basic and important components of a computer, and is generally a rectangular circuit board, and is usually arranged in a computer host shell, so that a large amount of heat can be generated in the computer main board during use, the heat can damage electronic elements on the main board, and if the heat cannot be processed in time, the heat can be burnt out, and the loss is caused.

The invention discloses a computer motherboard heat radiation protection device, belonging to the technical field of computer motherboard heat radiation and dust removal, which takes away heat and dust of a computer motherboard by driving a heat radiation fan to rotate through electric power, and can realize heat radiation of the motherboard, but can not perform shock absorption protection on the motherboard when being impacted by the outside, and the connecting wire inside the case is randomly distributed when being impacted by the outside, so that the circuit is easily disconnected, the use is influenced, and when the main board is subjected to heat dissipation, the high-temperature area cannot be accurately subjected to heat dissipation, so that the heat dissipation efficiency is low, and therefore, the case needs to be quickly and accurately cooled, and the main board is protected and the connecting wire inside the case is subjected to the protection device for converging.

Disclosure of Invention

Aiming at the problems, the invention provides the following technical scheme: the utility model provides a computer motherboard heat dissipation protection device, includes quick-witted case subassembly, mainboard subassembly, install installation component, restraint line subassembly on the quick-witted case subassembly, installation component is including installing the radiating subassembly of computer motherboard on quick-witted case subassembly, installation component is still including installing the clamping subassembly on radiating subassembly, restraint line subassembly is including installing the auxiliary assembly that is used for supplementary receipts line on quick-witted case subassembly, restraint line subassembly is still including installing the receipts line subassembly that is used for receiving the line on quick-witted case subassembly, the radiating subassembly includes slidable mounting panel I on quick-witted case subassembly, movable mounting has the cross support frame on the mounting panel I, fixed mounting has response even board, installation frame I, wiring port I on the cross support frame, fixed mounting has sealed chamber I, temperature sensing strip I on the response even board, slidable mounting has connector I on the sealed chamber I, movable mounting has fan I on the installation frame I, fixed mounting has connector II on the installation frame I, fan I is connected with connector II contact.

Preferably, a connecting buckle I is movably arranged on the cross support frame, the cross support frame is fixedly arranged on the mounting plate I through the connecting buckle I, the temperature sensing strip I is communicated with the sealing cavity I, the temperature sensing strip I and the sealing cavity I form a cavity, mercury is arranged in the cavity formed by the temperature sensing strip I and the sealing cavity I, and the cavity formed by the temperature sensing strip I and the sealing cavity I is sealed by the connector I.

Preferably, the connector II is intermittently connected with the wiring port I through the connector I.

Preferably, the clamping assembly comprises a sliding connecting rod I which is slidably mounted on an induction connecting plate, a supporting block I is fixedly mounted on the sliding connecting rod I, the sliding connecting rod I is slidably mounted with a mounting plate I, an oil storage tank I is fixedly mounted on the induction connecting plate, a pushing rod I is slidably mounted on the oil storage tank I, a miniature electric cylinder I is fixedly mounted on the pushing rod I, a miniature electric cylinder I fixed end is fixedly mounted with the mounting plate I, a miniature electric cylinder I extending end is fixedly mounted with the pushing rod I, an opening is formed in the oil storage tank I and communicated with a cavity of the induction connecting plate, and the cavity formed by the induction connecting plate and the oil storage tank I is sealed with the pushing rod I through the sliding connecting rod I.

Preferably, the clamping assembly further comprises a connecting seat I fixedly installed on the mounting plate I, a torsion spring is connected to the connecting seat I, the guide wheel I is in contact connection with the chassis assembly, and a buffer pad II for assisting buffering is further connected to the mounting plate I in a spring mode.

Preferably, the auxiliary assembly comprises an initial pull rope I which is slidably mounted on the chassis assembly, a return spring I is fixedly mounted on the initial pull rope I, a first end of the return spring I is fixedly mounted with the initial pull rope I, and a second end of the return spring I is fixedly mounted with the chassis assembly.

Preferably, the wire winding assembly comprises a central rotating shaft I rotatably mounted on the chassis assembly, a wire winding wheel I is fixedly mounted on the central rotating shaft I, a sliding ring buckle is movably mounted on the wire winding wheel I, a clamping connector is arranged on the sliding ring buckle, a clamping groove is formed in the wire winding wheel I, the clamping groove in the central rotating shaft I is matched with the clamping connector on the sliding ring buckle, the sliding ring buckle is slidably mounted with the central rotating shaft I, a torsion spring I is fixedly mounted on the sliding ring buckle, a first end of the torsion spring I is fixedly mounted with the sliding ring buckle, a second end of the torsion spring I is fixedly mounted with the chassis assembly, a connecting wire I is fixedly mounted on the sliding ring buckle, a pressing connecting block I is rotatably mounted on the sliding ring buckle, a spring I is fixedly mounted on the pressing connecting block I, a first end of the spring I is fixedly mounted with the pressing connecting block I, a second end of the spring I is fixedly mounted with the chassis assembly, and the pressing connecting block I is slidably mounted with the chassis assembly.

Preferably, the case assembly comprises a case body, wherein a guide rail I is fixedly arranged on the case body, and a buffer cushion I for buffering is connected to the guide rail I through a spring.

Compared with the prior art, the invention has the beneficial effects that: (1) The clamping assembly is used for realizing quick installation of the mainboards with different sizes, and the influence of external impact on the computer mainboards is reduced by the cooperation of the buffer cushion I and the guide wheel I, so that the computer mainboards are protected from being damaged easily; (2) The heat dissipation assembly can be used for carrying out local heat dissipation on different local areas of the main board, so that the heat dissipation power consumption is reduced, the heat dissipation efficiency is improved, and the movably arranged fan I can be quickly disassembled, so that the device is convenient to clean; (3) Can be with the orderly bundle of confusing of the connecting wire of machine incasement disorder through the subassembly of closing together to through the setting of receiving line subassembly, make when changing the part on the mainboard, can need not to dismantle the connecting wire, the maintenance of the mainboard of being convenient for.

Drawings

Fig. 1 is a front view of the overall structure of the present invention.

Fig. 2 is a side view of the overall structure of the present invention.

FIG. 3 is a schematic partial cross-sectional view of the overall structure of the present invention.

FIG. 4 is a schematic view in partial cross-section of a chassis assembly of the present invention.

Fig. 5 is a schematic diagram of the structure a in fig. 4 according to the present invention.

FIG. 6 is a schematic view of the overall structure of the mounting assembly of the present invention.

Fig. 7 is a schematic view of a partial structure of the mounting assembly of the present invention.

FIG. 8 is a schematic partial cross-sectional view of a mounting assembly of the present invention.

FIG. 9 is a schematic view of the semi-sectional structure of the oil storage tank of the present invention.

Fig. 10 is a schematic diagram of the overall structure of the beam converging assembly according to the present invention.

FIG. 11 is a schematic partial cross-sectional view of a convergence assembly of the present invention.

In the figure: 1-a chassis assembly; 2-mounting an assembly; 3-wire harness assembly; a 4-motherboard assembly; 101-a case body; 102-a guide rail I; 103-a baffle frame I; 104-baffle I; 105-door; 106-cushion I; 201-mounting plate I; 202-supporting blocks I; 203-connection base I;204, a guide wheel I; 205-connecting bolt I; 206-cushion II; 207-sliding link I; 208-connecting buckle I; 209-cross support frame; 210-an induction connection plate; 211-mounting frame I; 212-fan I; 213-seal chamber I; 214-connector I; 215-wiring port I; 216-temperature sensing strip I; 217-connector II; 218-oil storage tank I;219—push rod I; 220-miniature electric cylinder I; 301-take-up pulley I; 302-connecting line I; 303-guide wheel II; 304-a return spring I; 305-initial pull rope I; 306-sliding ring buckle; 307-torsion spring I; 308-pressing the connecting block I; 309-spring I; 310-center spindle I; 401-a motherboard; 402-motherboard connection lines.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the invention, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Referring to fig. 1 to 11, the present invention provides a technical solution: including chassis component 1, mainboard subassembly 4, install installation component 2 on the chassis component 1, the bunch subassembly 3, installation component 2 is including installing the radiating subassembly that is used for computer mainboard heat dissipation on chassis component 1, installation component 2 is still including installing the clamping subassembly on radiating subassembly, the bunch subassembly 3 is including installing the auxiliary assembly that is used for supplementary receipts line on chassis component 1, the bunch subassembly 3 is still including installing the receipts line subassembly that is used for receiving line on chassis component 1, the radiating subassembly includes mounting panel I201 of slidable mounting on chassis component 1, movable mounting has cross support frame 209 on the mounting panel I201, fixed mounting has sensing link plate 210 on the cross support frame 209, mounting frame I211, wiring port I215, fixed mounting has sealed chamber I213 on the sensing link plate 210, temperature sensing strip I216, slidable mounting has connector I214 on sealed chamber I213, movable mounting has fan I212 on the mounting frame I211, fixed mounting has connector II217 on the mounting frame I211, fan I212 is connected with connector II217 contact.

The case assembly 1 comprises a case body 101, wherein two guide rails I102 are fixedly arranged on the case body 101, the two guide rails I102 are respectively arranged on the inner sides of two ends of the case body 101, buffer pads I106 for buffering are respectively connected to the two guide rails I102 in a spring manner, a baffle frame I103 is fixedly arranged on the case body 101, a baffle I104 is movably arranged on the baffle frame I103, and a case door 105 is movably arranged on the case body 101; during operation, the box door 105 and the baffle I104 are disassembled, the installation of the main board and the bundling of the connecting wires are performed, and the shaking of the main board is buffered through the buffer cushion I106.

The installation component 2 comprises an installation plate I201 which is slidably installed on the case body 101, the depth of a sliding groove on the case body 101 is larger than the connection depth of the installation plate I201 and the case body 101, four connecting seats I203 are fixedly installed on the installation plate I201, guide wheels I204 are respectively connected to the four connecting seats I203 in a torsion spring mode, the four guide wheels I204 are distributed on the guide rails I102 in pairs, the four guide wheels I204 are respectively limited on the two guide rails I102 through two buffer pads I106, a cross support frame 209 is movably installed on the installation plate I201, the cross support frame 209 is fixedly installed on the installation plate I201 through four connecting buckles I208, sliding connecting rods I207 are respectively slidably installed on the cross ends of the cross support frame 209, supporting blocks I202 are respectively fixedly installed on the four sliding connecting rods I207, the main board 401 is installed through the four supporting blocks I202, four connecting bolts I205 are simultaneously arranged, the main board 401 is fixed on the four supporting blocks I202 through the four connecting bolts I205, the cross support frame 209 is fixedly provided with an oil storage tank I218, the oil storage tank I218 is slidingly provided with a push rod I219, the push rod I219 is fixedly provided with a miniature electric cylinder I220, the fixed end of the miniature electric cylinder I220 is fixedly provided with a mounting plate I201, the extending end is fixedly provided with the push rod I219, the oil storage tank I218 is provided with an opening, the opening is communicated with the inner cavity of the cross support frame 209, the cavity of the cross support frame 209 and the oil storage tank I218 is sealed with the push rod I219 through a sliding connecting rod I207, the cross support frame 209 is fixedly provided with four mounting frames I211, the four mounting frames I211 are respectively fixedly provided with a connector II217, the four mounting frames I211 are respectively movably provided with a fan I212, the fan I212 is respectively connected with the connector II217 in a contact manner, the cross support frame 209 is fixedly provided with a sensing connecting plate 210 and a wiring port I215, the sensing connecting plate 210 is fixedly provided with four temperature sensing strips I216 and four sealing cavities I213, the four sealing cavities I213 are respectively and slidably provided with a connector I214, a temperature sensing strip I216 is communicated with the sealing cavities I213, the temperature sensing strip I216 and the sealing cavities I213 form a cavity, mercury is arranged in the cavity formed by the temperature sensing strip I216 and the sealing cavities I213, the connector I214 seals the cavity formed by the temperature sensing strip I216 and the sealing cavities I213, and the connector II217 is intermittently connected with a wiring port I215 through the connector I214.

During operation, adjust miniature electric jar I220 according to mainboard 401's size, miniature electric jar I220 promotes the catch bar I219 and removes, and then drive the fluid in the connection buckle I208 and enter into cross support frame 209, and then slide connecting rod I207 extrudes, and then make slide connecting rod I207 drive supporting shoe I202 and remove, after removing the demand size, fix mainboard 401 to supporting shoe I202 through connecting bolt I205, accomplish the fixing to mainboard 401, at mainboard 401 during operation, the temperature rise of mainboard 401 makes the mercury expansion in temperature sensing strip I216, and then promote connector I214 and remove in sealed chamber I213, and then make connector II217 and wiring port I215 intercommunication, and then make fan I212 start, and then cool down mainboard 401, through setting up temperature sensing strip I216 in different regions, can carry out accurate cooling to the different regions of mainboard 401, improve cooling efficiency, increase the radiating effect through the louvre that sets up on mounting panel I201, when needs take out mainboard 401, pull mounting panel I201 from chamber 105 to stretch out, carry out mainboard 401 and change and adjust the temperature sensing strip I216, simultaneously, the normal shock protection of mainboard 401 through setting up buffer I and buffer I206 has carried out the normal shock protection of the mainboard.

The wire harness assembly 3 comprises a central rotating shaft I310 rotatably arranged on a baffle I104, the central rotating shaft I310 is rotatably arranged with a case body 101, a wire collecting wheel I301 is fixedly arranged on the central rotating shaft I310, a sliding ring buckle 306 is movably arranged on the wire collecting wheel I301, a clamping joint is arranged on the sliding ring buckle 306, a clamping groove is arranged on the wire collecting wheel I301, the clamping groove on the central rotating shaft I310 is matched with the clamping joint on the sliding ring buckle 306, the sliding ring buckle 306 is slidably arranged with the central rotating shaft I310, a torsion spring I307 is fixedly arranged on the sliding ring buckle 306, one end of the torsion spring I307 is fixedly arranged with the sliding ring buckle 306, the other end is fixedly arranged with the baffle I104, a connecting wire I302 is fixedly arranged on the sliding ring buckle 306, a pressing connecting block I308 is rotatably arranged on the sliding ring buckle 306, the spring I309 is fixedly installed on the pressing connecting block I308, one end of the spring I309 is fixedly installed with the pressing connecting block I308, the other end of the spring I309 is fixedly installed with the baffle I104, the pressing connecting block I308 is slidably installed with the baffle I104, a fixing buckle for fixing a connecting wire is arranged on the take-up pulley I301, a connecting wire I302 is fixedly installed on the outer ring of the sliding ring buckle 306, a guide wheel II303 is rotatably installed on the baffle I104, the connecting wire I302 bypasses the guide wheel II303 to be fixedly connected with the installation plate I201, an initial pull rope I305 is fixedly installed on the outer ring of the take-up pulley I301, the initial pull rope I305 is slidably installed with the baffle I104, a reset spring I304 is fixedly installed on the initial pull rope I305, one end of the reset spring I304 is fixedly installed with the initial pull rope I305, and the other end of the reset spring I304 is fixedly installed with the baffle I104.

During operation, when the main board 401 is installed, the installation board I201 is pulled out from the box door 105, the main board 401 is installed on the adjusted supporting block I202, the main board connecting wire 402 (various connecting wires on the main board 401) is fixed on the fixed fastener of the take-up pulley I301, the initial pull rope I305 is pulled, the take-up pulley I301 is driven to rotate, further, the main board connecting wire 402 is completely wound on the take-up pulley I301, the initial pull rope I305 is released after winding is completed, the initial pull rope I305 is reset under the action of the reset spring I304, the initial pull rope I305 is reset, the take-up pulley I301 cannot be driven to rotate, further, the take-up of the main board connecting wire 402 is completed, when the main board 401 needs to be temporarily taken out (such as a part on the main board 401 is replaced), the spring I309 is driven, the sliding ring 306 is driven to be clamped in the take-up pulley I301, the connecting wire I201 is driven to move, the connecting wire I302 is driven to rotate, the torsion spring I301 is driven to rotate, the main board connecting wire 402 is released, and the main board connecting wire is stored under the action of the reset spring I307, and the main board connecting wire is replaced under the action of the main board connecting wire is replaced, and the main board connecting wire is wound.

The motherboard assembly 4 includes a motherboard 401, and a plurality of motherboard connecting wires 402 are connected to the motherboard 401.

The invention discloses a working principle of a computer main board heat radiation protection device, which comprises the following steps: during operation, accomplish the installation to mainboard 401 through installation component 2, accomplish the accurate heat dissipation to mainboard 401 through installation component 2 simultaneously, guarantee the work efficiency of mainboard 401, accomplish the shock attenuation protection to mainboard 401 through quick-witted case subassembly 1 cooperation installation component 2 for when receiving external force impact, can provide buffer protection to mainboard 401, accomplish the receipts to mainboard connecting wire 402 through the beam line subassembly 3, make the inside disordered mainboard connecting wire 402 of machine case box 101 can receive the beam in order, accomplish the change to the part on the mainboard 401 through beam line subassembly 3 is convenient.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. The utility model provides a computer motherboard heat dissipation protection device, includes quick-witted case subassembly (1), mainboard subassembly (4), its characterized in that: the device comprises a case assembly (1), wherein the case assembly (1) is provided with a mounting assembly (2) and a wire harness assembly (3), the mounting assembly (2) comprises a heat dissipation assembly which is arranged on the case assembly (1) and used for dissipating heat of a computer main board, the mounting assembly (2) further comprises a clamping assembly which is arranged on the heat dissipation assembly, the wire harness assembly (3) comprises an auxiliary assembly which is arranged on the case assembly (1) and used for assisting in wire collection, the wire harness assembly (3) further comprises a wire collection assembly which is arranged on the case assembly (1) and used for wire collection, the heat dissipation assembly comprises a mounting plate I (201) which is arranged on the case assembly (1) in a sliding manner, a cross support frame (209) is movably arranged on the mounting plate I (201), a sensing connecting plate (210), a mounting frame I (211) and a wiring port I (215) are fixedly arranged on the cross support frame (209), a sealing cavity I (213) and a temperature sensing strip I (216) are fixedly arranged on the sensing connecting plate (210), a connector I (214) is slidingly arranged on the sealing cavity I (213), a connector I (217) is movably arranged on the mounting frame I (212), and a connector I (212) is fixedly connected with a connector II (212).

The cross support frame (209) is movably provided with a connecting buckle I (208), the cross support frame (209) is fixedly arranged on the mounting plate I (201) through the connecting buckle I (208), the temperature sensing strip I (216) is communicated with the sealing cavity I (213), the temperature sensing strip I (216) and the sealing cavity I (213) form a cavity, mercury is arranged in the cavity formed by the temperature sensing strip I (216) and the sealing cavity I (213), and the cavity formed by the temperature sensing strip I (216) and the sealing cavity I (213) is sealed by the connector I (214);

the connector II (217) is intermittently connected with the wiring port I (215) through the connector I (214);

the clamping assembly comprises a sliding connecting rod I (207) which is slidably mounted on an induction connecting plate (210), a supporting block I (202) is fixedly mounted on the sliding connecting rod I (207), an oil storage tank I (218) is fixedly mounted on the induction connecting plate (210), a pushing rod I (219) is slidably mounted on the oil storage tank I (218), a miniature electric cylinder I (220) is fixedly mounted on the pushing rod I (219), the fixed end of the miniature electric cylinder I (220) is fixedly mounted with the mounting plate I (201), the extending end of the miniature electric cylinder I (220) is fixedly mounted with the pushing rod I (219), an opening is formed in the oil storage tank I (218), the opening is communicated with a cavity of the induction connecting plate (210), and the cavity formed by the induction connecting plate (210) and the oil storage tank I (218) is sealed with the pushing rod I (219) through the sliding connecting rod I (207);

the clamping assembly further comprises a connecting seat I (203) fixedly arranged on the mounting plate I (201), a torsion spring on the connecting seat I (203) is connected with a guide wheel I (204), the guide wheel I (204) is in contact connection with the chassis assembly (1), and a buffer pad II (206) for auxiliary buffering is also in spring connection on the mounting plate I (201);

the auxiliary assembly comprises an initial pull rope I (305) which is slidably arranged on the chassis assembly (1), a return spring I (304) is fixedly arranged on the initial pull rope I (305), a first end of the return spring I (304) is fixedly arranged with the initial pull rope I (305), and a second end of the return spring I (304) is fixedly arranged with the chassis assembly (1);

the wire winding assembly comprises a central rotating shaft I (310) rotatably mounted on the chassis assembly (1), a wire winding wheel I (301) is fixedly mounted on the central rotating shaft I (310), a sliding ring buckle (306) is movably mounted on the wire winding wheel I (301), a clamping joint is arranged on the sliding ring buckle (306), a clamping groove is arranged on the wire winding wheel I (301), the clamping groove on the central rotating shaft I (310) is matched with the clamping joint on the sliding ring buckle (306), the sliding ring buckle (306) is slidably mounted with the central rotating shaft I (310), a torsion spring I (307) is fixedly mounted on the sliding ring buckle (306), a first end of the torsion spring I (307) is fixedly mounted with the sliding ring buckle (306), a second end of the torsion spring I (307) is fixedly mounted with the chassis assembly (1), a connecting wire I (302) is fixedly mounted on the sliding ring buckle (306), a pressing block I (308) is rotatably mounted on the sliding ring buckle (306), a pressing block I (308) is slidably mounted with the clamping joint on the central rotating shaft I (310), and a second end of the torsion spring I (307) is fixedly mounted with the chassis assembly (1);

the chassis assembly (1) comprises a chassis box body (101), a guide rail I (102) is fixedly installed on the chassis box body (101), and a buffer cushion I (106) used for buffering is connected to the guide rail I (102) through a spring.