CN214125831U - Be used for quick radiator of display - Google Patents

Abstract

The utility model discloses a be used for quick radiator of display, including thermovent, electric motor and impact pump, the left side of thermovent is fixed with the casing, and the inside right side of casing is fixed with the flabellum, the middle part of flabellum is fixed with the connecting piece, and the left side of connecting piece is fixed with the main shaft, both sides all are fixed with the fixture block about electric motor's the left side, and electric motor is located the left side of main shaft, the inside of fixture block is fixed with the bolt. This be used for quick radiator of display, compare with current radiator device, use through fixture block and bolt, inside fixture block carries out the block with the inner housing connecting block and forms, the cooperation bolt carries out fastening connection, it is whole more stable to make the fan, it is more firm, through the liquid storehouse, the hyaline tube, the use of coolant liquid and support frame, inside liquid storehouse makes the coolant liquid circulate in the hyaline tube inside and uses entering into the inside heat absorption once more of hyaline tube through the impact pump, the circulation is used, resources are saved, the heat dissipation is fast, high efficiency.

Description

Be used for quick radiator of display

Technical Field

The utility model relates to a quick radiator technical field specifically is a be used for display quick radiator.

Background

The computer components are largely integrated circuits, as is known, high temperature is a big enemy of integrated circuits, the high temperature can not only cause unstable system operation and shortened service life, but also can cause some components to be burnt out, high temperature heat does not come from the outside of the computer, but also comes inside the computer or the inside of the integrated circuits, the radiator is used for absorbing the heat and then radiating the heat to the inside or the outside of the case to ensure the normal temperature of the computer components, most radiators are contacted with the surfaces of the heating components to absorb the heat and then transmit the heat to the remote places such as air in the case by various methods, then the case transmits the hot air to the outside of the case to complete the heat radiation of the computer, the types of the radiators are very many, and a CPU, a display card, a mainboard chip set, a hard disk, the case, a power supply and even an optical drive and a memory need the radiators, the different radiators cannot be used in a mixed manner, the radiator which is most frequently contacted with the CPU can be divided into an active radiating mode and a passive radiating mode according to the mode of taking away heat from the radiator, the former is usually an air cooling radiator, the latter is usually a radiating fin, the radiating mode is further subdivided, and the radiating mode can be divided into an air cooling mode, a heat pipe mode, a liquid cooling mode, a semiconductor refrigerating mode, a compressor refrigerating mode and the like.

Present fast radiator is not stable enough when the display is connected, inside chip control ware radiating rate is not fast enough, inside little fan power is not powerful enough, heat extraction speed is not stable enough, after lasting long-time operation, itself also can give poor place to heat, lead to other spare parts to reduce life time, inside spare part is dismantled the installation and is convenient inadequately, the heat dissipation is stable inadequately slowly, it is loaded down with trivial details to change complicacy, waste most material, save the use of resources inadequately, can not be fine satisfy people's user demand, to the above-mentioned condition, carry out technical innovation on present fast radiator basis.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current quick radiator and be not stable enough when the display is connected, inside chip controller radiating rate is not fast enough, inside little fan power is not powerful enough, heat extraction speed is not stable enough, after lasting long-time operation, itself also can poor heat of generation, lead to other spare parts to reduce life time, inside spare part dismantles the installation convenient inadequately, the heat dissipation is stable inadequately slowly, it is complicated loaded down with trivial details to change, waste most material, the defect of using the technique of sparingly resource inadequately, a quick radiator for display is provided.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model relates to a quick radiator for a display, which comprises a radiating port, an electric motor and an impact pump, wherein a shell is fixed on the left side of the radiating port, and the right side in the shell is fixed with a fan blade, the middle part of the fan blade is fixed with a connecting piece, the left side of the connecting piece is fixed with a main shaft, the upper side and the lower side of the left side of the electric motor are both fixed with clamping blocks, the electric motor is positioned on the left side of the main shaft, a bolt is fixed inside the clamping block, a liquid bin is fixed on the left side of the bolt, a transparent tube is fixed on the left side of the impact pump, the impact pump is positioned in the liquid bin, the cooling liquid is fixed in the transparent tube, the support frame is fixed in the middle of the transparent tube, the bottom plate is fixed below the support frame, and the left side top of bottom plate is fixed with the spread groove, the middle part of spread groove is fixed with the groove that charges, and the front portion in groove that charges is fixed with the set screw.

Preferably, the vertical central line of the heat dissipation port is perpendicular to the vertical central line of the shell, and the fan blades form a rotating structure through connecting pieces.

Preferably, the main shafts are symmetrical with respect to the horizontal center line of the shell, and the horizontal center line of the main shafts and the horizontal center line of the electric motor are coincided.

Preferably, the inner dimension of the fixture block is matched with the outer dimension of the bolt, and the bolts are symmetrical with each other about the vertical center line of the shell.

Preferably, the liquid bins are connected with the cooling liquid through transparent pipes, and the inner surface of the support frame is tightly attached to the outer surface of the transparent pipes.

Preferably, the connecting slots are symmetrical with each other about a vertical center line of the housing, and the vertical center line of the connecting slots coincides with a vertical center line of the charging slot.

The utility model discloses the beneficial effect who reaches is:

1. the utility model discloses in through the use of thermovent, casing and flabellum, the manufacturing material intensity of the export of the inside heat extraction of thermovent, surface heat resistance is high, cooperation inside flabellum uses, the heat extraction is fast, high efficiency, outside casing working strength is high, the antifriction is good, inside thermal insulation material makes the heat that produces can discharge through the flabellum fast, through the use of main shaft and electric motor, the power that electric motor produced is more powerful, cooperation main shaft uses, make the wind-force of flabellum more, the rotational speed is more stable, and the noise that produces is little, can not cause noise interference to the use, the speed of discharging the heat is faster;

2. the utility model discloses in through the use of fixture block and bolt, inside fixture block carries out the block with inside casing connecting block and forms, the cooperation bolt fastens the connection, make the fan whole more stable, it is more firm, the whole low price of manufacturing of set screw, application scope is wide, resources are saved, the later stage can carry out recycle and rebuild, through the use of liquid storehouse, the hyaline tube, coolant liquid and support frame, inside liquid storehouse makes the coolant liquid circulate and use in the hyaline tube, the use of cooperation internal impact pump, after the coolant liquid after the time absorbed heat carries out the heat extraction cooling through the fan, absorb heat once more in entering the hyaline tube through the impact pump, recycle, resources are saved, the radiating rate is fast, high efficiency;

3. the utility model discloses in through the use of spread groove and charging groove, the spread groove is connecting the use, and other inside spare parts of notice are moving the use, and the adjustment is convenient, uses more swiftly, connects stably, and transmission speed data is fast, can not produce the delay, and the cooperation charging groove uses, and is more stable, and operation transition speed is faster.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the whole cross-section structure of the present invention;

fig. 2 is a schematic perspective view of the present invention;

fig. 3 is a schematic side view of the present invention.

In the figure: 1. a heat dissipation port; 2. a housing; 3. a fan blade; 4. a connecting member; 5. a main shaft; 6. an electric motor; 7. a clamping block; 8. a bolt; 9. a liquid bin; 10. a percussion pump; 11. a transparent tube; 12. cooling liquid; 13. a support frame; 14. a base plate; 15. connecting grooves; 16. an electric tank; 17. and fixing the screw.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Referring to fig. 1-3, a fast heat sink for a display includes a heat sink 1, an electric motor 6, and an impact pump 10, wherein a housing 2 is fixed to a left side of the heat sink 1, a fan blade 3 is fixed to a right side of the housing 2, a connector 4 is fixed to a middle portion of the fan blade 3, a main shaft 5 is fixed to a left side of the connector 4, a latch 7 is fixed to upper and lower sides of a left side of the electric motor 6, the electric motor 6 is located on a left side of the main shaft 5, a vertical center line of the heat sink 1 is perpendicular to a vertical center line of the housing 2, a rotation structure is formed between the fan blades 3 by the connector 4, the main shaft 5 is symmetrical with respect to a horizontal center line of the housing 2, the horizontal center line of the main shaft 5 coincides with the horizontal center line of the electric motor 6, and the manufacturing material strength of an outlet inside the heat sink 1 is enhanced by the use of the heat sink 1, the housing 2, and the fan blade 3, the heat-resistant surface is high in heat resistance, the heat extraction speed is high when the heat-resistant surface is matched with the internal fan blades 3 for use, the efficiency is high, the use strength of the external shell 2 is high, the friction resistance is good, the heat generated by the internal heat-insulating material can be quickly discharged through the fan blades 3, the power generated by the electric motor 6 is stronger through the use of the main shaft 5 and the electric motor 6, the wind power of the fan blades 3 is stronger when the heat-resistant surface is matched with the main shaft 5 for use, the rotating speed is more stable, the generated noise is low, the noise interference to use can be avoided, and the heat discharging speed is higher;

the bolt 8 is fixed inside the fixture block 7, the liquid bin 9 is fixed on the left side of the bolt 8, the transparent tube 11 is fixed on the left side of the impact pump 10, the impact pump 10 is located inside the liquid bin 9, the cooling liquid 12 is fixed inside the transparent tube 11, the support frame 13 is fixed in the middle of the cooling liquid 12, the inner size of the fixture block 7 is matched with the outer size of the bolt 8, the bolts 8 are symmetrical relative to the vertical central line of the shell 2, the liquid bins 9 are connected with the cooling liquid 12 through the transparent tube 11, the inner surface of the support frame 13 is tightly attached to the outer surface of the transparent tube 11, the fixture block 7 and the bolt 8 are used, the inner fixture block 7 is clamped with the connecting block of the inner shell 2 and is matched with the bolt 8 for fastening connection, so that the fan is more stable and firmer, and the fixing screw 17 is cheap to manufacture, the application range is wide, resources are saved, the cooling liquid 12 can be recycled and reused at the later stage, the liquid bin 9, the transparent pipe 11, the cooling liquid 12 and the support frame 13 are used, the cooling liquid 12 is recycled in the transparent pipe 11 through the internal liquid bin 9 and is matched with the internal impact pump 10, and after heat is removed and cooled through the fan, the cooling liquid 12 absorbing heat enters the transparent pipe 11 through the impact pump 10 to absorb heat again for recycling, so that the resources are saved, the heat dissipation speed is high, and the efficiency is high;

a bottom plate 14 is fixed below the support frame 13, a connecting groove 15 is fixed above the left side of the bottom plate 14, a charging groove 16 is fixed in the middle of the connecting groove 15, a fixing screw 17 is fixed in the front of the charging groove 16, the connecting grooves 15 are symmetrical with respect to the vertical central line of the shell 2, the vertical central line of the connecting groove 15 is coincident with the vertical central line of the charging groove 16, through the use of the connecting groove 15 and the charging groove 16, the connecting groove 15 is used in a connected mode, other internal parts are informed to be used, the adjustment is convenient, the use is quicker, the connection is stable, the transmission speed data is fast, delay is not generated, the device is matched with the charging groove 16 for use, and is more stable and the operation conversion speed is higher;

the working principle of the quick radiator for the display is as follows: firstly, when the quick radiator is used, the equipment is connected with the display screen through the connecting groove 15, and the equipment is charged through the charging groove 16, so that the equipment can be operated and used;

secondly, when the fan is used, the internal electric motor 6 drives the main shaft 5 to transmit power when being started, so that the fan blades 3 can generate large power to discharge internal heat through the heat dissipation port 1 for use; secondly, the cooling liquid 12 inside the liquid bin 9 inside the liquid bin is matched to flow inside the transparent tube 11 for use, the heat generated by the internal processing chip is absorbed, and the cooling liquid flows inside the transparent tube 11 and finally returns to the inside of the liquid bin 9; then, the fan blade 3 also discharges the absorbed heat of the cooling liquid 12 to cool the cooling liquid 12, and then the cooled cooling liquid 12 flows and is used circularly through the impact pump 10 to dissipate the heat of the inside of the fan blade more quickly;

at last, the quick radiator is simple to use, the connection groove 15 and the charging groove 16 are connected to control use, the internal cooling liquid 12 does not need to be replaced and can be continuously used for a long time, and the quick radiator is simple in whole operation and convenient to use.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A fast radiator for a display, comprising a radiating port (1), an electric motor (6) and an impact pump (10), characterized in that: the left side of the heat dissipation port (1) is fixed with a shell (2), the right side of the inside of the shell (2) is fixed with a fan blade (3), the middle part of the fan blade (3) is fixed with a connecting piece (4), the left side of the connecting piece (4) is fixed with a main shaft (5), the upper side and the lower side of the left side of the electric motor (6) are both fixed with clamping blocks (7), the electric motor (6) is positioned on the left side of the main shaft (5), the inside of the clamping blocks (7) is fixed with bolts (8), the left side of the bolts (8) is fixed with a liquid bin (9), the left side of the impact pump (10) is fixed with a transparent pipe (11), the impact pump (10) is positioned inside the liquid bin (9), the inside of the transparent pipe (11) is fixed with cooling liquid (12), the middle part of the transparent pipe (11) is fixed with a support frame (13), a bottom plate (14) is fixed below the support frame (13), and a connecting groove (15) is fixed above the left side of the bottom plate (14), a charging groove (16) is fixed in the middle of the connecting groove (15), and a fixing screw (17) is fixed at the front part of the charging groove (16).

2. A heat sink for a display device as recited in claim 1, wherein: the vertical central line of the heat dissipation port (1) is perpendicular to the vertical central line of the shell (2), and the fan blades (3) form a rotating structure through the connecting pieces (4).

3. A heat sink for a display device as recited in claim 1, wherein: the main shafts (5) are symmetrical relative to the horizontal center line of the shell (2), and the horizontal center line of the main shafts (5) is coincided with the horizontal center line of the electric motor (6).

4. A heat sink for a display device as recited in claim 1, wherein: the inner dimension of the fixture block (7) is matched with the outer dimension of the bolt (8), and the bolts (8) are symmetrical relative to the vertical center line of the shell (2).

5. A heat sink for a display device as recited in claim 1, wherein: the liquid bins (9) are connected with cooling liquid (12) through transparent tubes (11), and the inner surface of the support frame (13) is tightly attached to the outer surface of the transparent tubes (11).

6. A heat sink for a display device as recited in claim 1, wherein: the connecting grooves (15) are symmetrical relative to the vertical center line of the shell (2), and the vertical center line of the connecting grooves (15) is coincident with the vertical center line of the charging groove (16).