CN214098361U - Computer radiator - Google Patents

Abstract

The utility model discloses a computer radiator relates to the radiator field, including the fretwork casing, be equipped with the base in the fretwork casing, be equipped with mounting groove and chip groove in the base, be equipped with the heat pipe horizontal segment in the mounting groove, heat pipe horizontal segment both ends all are connected with the vertical section of heat pipe, the base both ends all are equipped with spacing seat, the base top is equipped with the backup pad, the backup pad top evenly is equipped with a plurality of fin, the fin below is equipped with the supporting shoe, the through-hole that supplies the vertical section of heat pipe to run through is all seted up to supporting shoe middle part and fin, be equipped with the fan in the backup pad, the spacing groove that supplies the fan to run through is seted up at the fin middle part, spacing seat is concave to be equipped with the arc wall, the vertical section lower extreme of heat pipe sets up in the arc wall, the vertical section side upper end of heat pipe can be dismantled and be equipped with the locating part inconsistent with the fin. The radiating fins keep a certain distance through the supporting blocks, and the quantity of the radiating fins can be changed as required by matching and fixing the radiating fins through the limiting parts and the limiting seats.

Description

Computer radiator

Technical Field

The utility model relates to a radiator field especially relates to a computer radiator.

Background

The CPU and the display card of the computer are main heating sources inside the mainframe box when in operation, the working performance of the CPU and the display card can be reduced along with the temperature rise of the CPU and the display card, generally, a heat dissipation device is additionally arranged on the CPU and the display card, however, if the heat dissipation device discharges the heat generated by the CPU and the display card into the case, if the case can not discharge the heat well, the temperature inside the case can be too high, and the heat dissipation performance of the case is further influenced.

A plurality of fin of traditional CPU radiator are after long-term the use, and a large amount of dusts can be piled up in narrow and small gap between the fin, seriously influence the radiating effect, and a plurality of fin are mostly together fixed mounting in advance, and the fin is difficult to dismantle the clearance alone.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a computer radiator to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a computer radiator comprises a hollow shell, wherein the upper end of the hollow shell is provided with a top surface opening, the middle part of the bottom surface of the hollow shell is provided with a bottom surface opening, a base is arranged in the hollow shell, a mounting groove is arranged in the base, the bottom surface of the base is provided with a chip groove communicated with the mounting groove, a heat conduction pipe horizontal section is arranged in the mounting groove, two ends of the heat conduction pipe horizontal section are both connected with a heat conduction pipe vertical section, two ends of the base are both provided with limiting seats, a support plate is arranged above the base, a plurality of radiating fins are uniformly arranged above the support plate, a support block is arranged below each radiating fin, through holes for the heat conduction pipe vertical section to penetrate through are arranged in the middle parts of the support blocks and the radiating fins, a fan is arranged on the support plate, a limiting groove for the fan to penetrate through is arranged in the middle part of the radiating fins, an arc-shaped groove is concavely arranged on the limiting seats, and an arc-shaped transition part is arranged at the connection part of the heat conduction pipe vertical section and the heat conduction pipe horizontal section, the circular arc transition portion is arranged in the arc-shaped groove, and the upper end of the side face of the vertical section of the heat conduction pipe is detachably provided with a limiting part which is abutted to the radiating fin. The radiating fins keep a certain distance through the supporting blocks, and the quantity of the radiating fins can be changed as required by matching and fixing the radiating fins through the limiting parts and the limiting seats.

Further, press from both sides between locating part and the fin and be equipped with the apron, the apron is run through to the vertical section of heat pipe, apron and top surface opening interference fit. The fan in the hollow shell is fixed through the cover plate, and the interior of the hollow shell is protected through the cover plate.

Furthermore, the bottom surface of the limiting part is concavely provided with a containing groove, and the upper end of the vertical section of the heat conducting pipe is embedded in the containing groove. The upper end of the vertical section of the heat conduction pipe is protected through the limiting part.

Furthermore, the lower end of the limiting part is fixedly provided with a permanent magnet, and the supporting block is provided with an iron sheet. The permanent magnet can attract the iron sheet on the supporting block, and the cover plate is fixed through the matching of the permanent magnet and the iron sheet.

Further, the upper end of the vertical section of the heat conduction pipe is provided with an external thread, and the inner wall of the accommodating groove is provided with an internal thread corresponding to the external thread. The locating part passes through threaded connection to be fixed in the vertical section upper end of heat pipe, convenient to detach locating part.

Further, the orthographic projection of the chip slot is contained in the orthographic projection of the bottom opening. The orthographic projection is used for the chip to run through, and the chip groove is used for holding the chip, avoids bottom surface opening edge position to scratch the chip.

Furthermore, annular bulges are convexly arranged on the heat dissipation plates at the vertical sections of the heat conduction pipes corresponding to the vertical sections of the heat conduction pipes, and annular grooves corresponding to the annular bulges are formed in the lower surfaces of the supporting blocks and the lower surfaces of the cover plates. The supporting block and the radiating fin are oppositely positioned for the child through the matching of the annular bulge and the annular groove.

Further, the supporting block is a heat conduction block body, and the vertical section and the horizontal section of the heat conduction pipe are both copper pipes. The supporting shoe has the heat conduction effect, and the vertical section of heat pipe and heat pipe horizontal segment can be with the outside air heat transfer, through the heat conduction of the vertical section of heat pipe and heat pipe horizontal segment with the chip inslot to the fin on.

Furthermore, a reinforcing rib is convexly arranged on the base, and two ends of the reinforcing rib are fixedly connected with the outer wall of the limiting seat. The strength of the connecting part of the limiting seat and the base is improved through the reinforcing ribs.

Furthermore, the outer surface of the supporting block is provided with heat-conducting silica gel. The supporting block is fixedly connected with other parts through a heat-conducting silica gel adhesive.

The utility model has the advantages that: the radiating fins keep a certain distance through the supporting blocks, and the quantity of the radiating fins can be changed as required by matching and fixing the radiating fins through the limiting parts and the limiting seats.

Drawings

The figures further illustrate the invention, but the embodiments in the figures do not constitute any limitation of the invention.

Fig. 1 is a schematic structural diagram according to an embodiment of the present invention;

the labels in the figure are: the heat pipe heat dissipation device comprises a hollow shell 1, a base 2, a heat pipe horizontal section 3, a heat pipe vertical section 4, a limiting seat 5, a supporting plate 6, a heat dissipation sheet 7, a supporting block 8, a fan 9 and a limiting part 10.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

In the present invention, unless otherwise specified, the terms of orientation such as "up, down, left, and right" used generally refer to up, down, left, and right as shown in fig. 1. "inner and outer" refer to the inner and outer portions of a particular contour. "distal and proximal" refer to distal and proximal relative to a component.

As shown in FIG. 1, a computer radiator provided by an embodiment of the present invention comprises a hollow casing 1, wherein the upper end of the hollow casing 1 is provided with a top surface opening, the middle part of the bottom surface of the hollow casing 1 is provided with a bottom surface opening, the hollow casing 1 is internally provided with a base 2, the base 2 is internally provided with a mounting groove, the bottom surface of the base 2 is provided with a chip groove communicated with the mounting groove, the mounting groove is internally provided with a heat pipe horizontal section 3, both ends of the heat pipe horizontal section 3 are connected with heat pipe vertical sections 4, both ends of the base 2 are provided with limiting seats 5, a support plate 6 is arranged above the base 2, a plurality of radiating fins 7 are uniformly arranged above the support plate 6, a support block 8 is arranged below each radiating fin 7, the middle part of the support block 8 and the radiating fins 7 are provided with through holes for the heat pipe vertical sections 4 to penetrate, and a fan 9 is arranged on the support plate 6, the limiting groove that supplies fan 9 to run through is seted up at the fin 7 middle part, spacing seat 5 is concave to be equipped with the arc wall, the junction of heat pipe vertical section 4 and heat pipe horizontal segment 3 is equipped with circular arc transition portion, circular arc transition portion sets up in the arc wall, 4 side upper ends of heat pipe vertical section can be dismantled and be equipped with the locating part 10 that offsets with fin 7. The radiating fins 7 are kept at a certain distance through the supporting blocks 8, and the quantity of the radiating fins 7 can be changed as required by matching and fixing the radiating fins 7 through the limiting pieces 10 and the limiting seats 5.

In an embodiment, a cover plate is sandwiched between the limiting member 10 and the heat sink 7, the vertical section 4 of the heat conducting pipe penetrates through the cover plate, and the cover plate is in interference fit with the top opening. The fan 9 in the hollow shell 1 is fixed through the cover plate, and the inside of the hollow shell 1 is protected through the cover plate.

In an embodiment, the bottom surface of the limiting member 10 is concavely provided with a containing groove, and the upper end of the vertical section 4 of the heat conducting pipe is embedded in the containing groove. The upper end of the vertical section 4 of the heat conducting pipe is protected by a limiting part 10.

In one embodiment, a permanent magnet is fixedly disposed at the lower end of the limiting member 10, and an iron sheet is disposed on the supporting block 8. The permanent magnet can attract the iron sheet on the supporting block 8, and the cover plate is fixed through the matching of the permanent magnet and the iron sheet.

In an embodiment, the upper end of the vertical section 4 of the heat conducting pipe is provided with an external thread, and the inner wall of the accommodating groove is provided with an internal thread corresponding to the external thread. The locating part 10 is fixed at the upper end of the vertical section 4 of the heat conducting pipe through threaded connection, and the locating part 10 is convenient to disassemble.

In one embodiment, the orthographic projection of the chip slot is contained in the orthographic projection of the bottom opening. The orthographic projection is used for the chip to run through, and the chip groove is used for holding the chip, avoids bottom surface opening edge position to scratch the chip.

In an embodiment, the heat sink 7 of the vertical section 4 of the heat conducting pipe is convexly provided with an annular protrusion corresponding to the vertical section 4 of the heat conducting pipe, and the supporting block 8 and the lower surface of the cover plate are both provided with annular grooves corresponding to the annular protrusion. The relative child positioning of the support block 8 and the heat sink 7 is performed by the annular protrusion cooperating with the annular groove.

In one embodiment, the supporting block 8 is a heat conducting block, and the vertical section 4 and the horizontal section 3 of the heat conducting pipe are both copper pipes. The supporting block 8 has a heat conduction function, the vertical section 4 and the horizontal section 3 of the heat conduction pipe can exchange heat with the outside air, and the heat in the chip groove is conducted to the radiating fins 7 through the vertical section 4 and the horizontal section 3 of the heat conduction pipe.

In one embodiment, the base 2 is convexly provided with a reinforcing rib, and both ends of the reinforcing rib are fixedly connected with the outer wall of the limiting seat 5. The strength of the connecting part of the limiting seat 5 and the base 2 is improved through the reinforcing ribs.

In one embodiment, the outer surface of the supporting block 8 is provided with heat conductive silica gel. The supporting block 8 is fixedly connected with other parts through a heat-conducting silica gel adhesive.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A computer heat sink is characterized in that: the heat pipe heat dissipation device comprises a hollow shell, wherein the upper end of the hollow shell is provided with a top surface opening, the middle part of the bottom surface of the hollow shell is provided with a bottom surface opening, a base is arranged in the hollow shell, a mounting groove is arranged in the base, the bottom surface of the base is provided with a chip groove communicated with the mounting groove, a heat pipe horizontal section is arranged in the mounting groove, two ends of the heat pipe horizontal section are both connected with heat pipe vertical sections, two ends of the base are both provided with limiting seats, a supporting plate contacted with the limiting seats is arranged above the base, a plurality of heat dissipation fins are uniformly arranged above the supporting plate, a supporting block is arranged below each heat dissipation fin, through holes for the heat pipe vertical sections to penetrate through are arranged in the middle parts of the supporting blocks and the heat dissipation fins, a fan is arranged on the supporting plate, a limiting groove for the fan to penetrate through is arranged in the middle part of the heat dissipation fins, an arc-shaped groove is concavely arranged on the limiting seat, and an arc-shaped transition part is arranged at the connection part of the heat pipe vertical section and the heat conduction pipe horizontal section, the circular arc transition portion is arranged in the arc-shaped groove, and the upper end of the side face of the vertical section of the heat conduction pipe is detachably provided with a limiting part which is abutted to the radiating fin.

2. The computer heat sink of claim 1, wherein: an apron is equipped with to press from both sides between locating part and the fin, the apron is run through to the vertical section of heat pipe, apron and top surface opening interference fit.

3. The computer heat sink of claim 2, wherein: the bottom surface of the limiting part is concavely provided with a containing groove, and the upper end of the vertical section of the heat conducting pipe is embedded in the containing groove.

4. The computer heat sink of claim 3, wherein: the lower end of the limiting part is fixedly provided with a permanent magnet, and the supporting block is provided with an iron sheet.

5. The computer heat sink of claim 4, wherein: the heat pipe is characterized in that an external thread is arranged at the upper end of the vertical section of the heat conduction pipe, and an internal thread is arranged on the inner wall of the accommodating groove corresponding to the external thread.

6. The computer heat sink of claim 5, wherein: the orthographic projection of the chip groove is contained in the orthographic projection of the bottom surface opening.

7. The computer heat sink of claim 6, wherein: the heat radiating fins are provided with annular bulges corresponding to the vertical sections of the heat conducting pipes in a protruding mode, and annular grooves corresponding to the annular bulges are formed in the lower surfaces of the supporting blocks and the lower surfaces of the cover plates.

8. The computer heat sink of claim 7, wherein: the supporting block is a heat conduction block body, and the vertical section and the horizontal section of the heat conduction pipe are both copper pipes.

9. The computer heat sink of claim 8, wherein: the base is convexly provided with a reinforcing rib, and two ends of the reinforcing rib are fixedly connected with the outer wall of the limiting seat.

10. The computer heat sink of claim 8, wherein: and heat-conducting silica gel is arranged on the outer surface of the supporting block.

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