CN213363466U - Water-wind radiator - Google Patents

Abstract

The utility model discloses a water-air radiator, which comprises a working bedplate, a circulating heat dissipation structure and a cooling structure; a working table plate: a support frame is arranged on the right side of the upper surface of the working table plate, an installation plate is arranged on the rear side of the upper surface of the working table plate, installation screw holes are formed in four corners of the installation plate, and support columns are uniformly arranged on the bottom surface of the working table plate; circulation heat radiation structure: the upper surface of the working table plate and the front side surface of the mounting plate are respectively arranged; the cooling structure is as follows: the upper water outlet of the cooling structure is communicated with the right water inlet of the circulating heat dissipation structure, the lower water inlet of the cooling structure is communicated with the left water outlet of the circulating heat dissipation structure through a long pipe, the upper water inlet of the cooling structure is provided with a water inlet pipe, and a water inlet valve is connected in series inside the water inlet pipe; the water-air radiator can quickly absorb heat in the circulating process and has a certain heat radiation effect, and the heat radiation rate of cooling liquid is increased.

Description

Water-wind radiator

Technical Field

The utility model relates to an industry cooling technical field specifically is water wind radiator.

Background

Industry (industry) refers to the work and process of collecting raw materials and processing them into products. The industry is a product of the social division development and passes through several development stages of handicraft industry, machine industry and modern industry. The industry is an important component of the second industry, which is divided into light industry and heavy industry, and the production process of the industry needs to perform heat dissipation function on specific containers, equipment and devices, so that the heat radiator is reflected in the market, the industrial heat radiator can be widely used in hot air heating, air conditioning, cooling, condensation, dehumidification, drying and the like in various industries such as light industry, construction, machinery, textile, printing and dyeing, electronics, food, starch, medicine, metallurgy, coating and the like, the water-air heat radiator refers to a device which is formed by combining cooling equipment and an axial flow fan and cooling multiple circulating water or cooling liquid, but the prior art has the defects that the heat cannot be quickly absorbed in the circulating process, the heat dissipation function is not realized in the circulating process, the burden of subsequent cooling work is large, the contact between a heat conducting fin and air is insufficient, the heat dissipation rate of the cooling liquid is low, and the subsequent continuous heat dissipation work effect is not ideal, therefore, a new water-wind radiator is needed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide the water wind radiator, adopt the circulation heat dissipation, can absorb the heat fast and have certain radiating action among the cycle process, reduced the burden of follow-up cooling work, increased the area of contact of conducting strip with the air, increased the rate of heat dissipation to the coolant liquid, guaranteed subsequent work of continuously dispelling the heat, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: the water-air radiator comprises a working table plate, a circulating heat dissipation structure and a cooling structure;

a working table plate: a support frame is arranged on the right side of the upper surface of the working table plate, an installation plate is arranged on the rear side of the upper surface of the working table plate, installation screw holes are formed in four corners of the installation plate, and support columns are uniformly arranged on the bottom surface of the working table plate;

circulation heat radiation structure: the upper surface of the working table plate and the front side surface of the mounting plate are respectively arranged;

the cooling structure is as follows: the upper water outlet of the cooling structure is communicated with the right water inlet of the circulating heat dissipation structure, the lower water inlet of the cooling structure is communicated with the left water outlet of the circulating heat dissipation structure through a long pipe, the upper water inlet of the cooling structure is provided with a water inlet pipe, and a water inlet valve is connected in series inside the water inlet pipe;

wherein: the cooling device is characterized by further comprising a control switch group, wherein the control switch group is arranged on the upper surface of the working table plate, an input end of the control switch group is electrically connected with an external power supply, and the cooling device adopts circulation heat dissipation, can quickly absorb heat and has a certain heat dissipation effect in the circulation process, so that the burden of subsequent cooling work is reduced, the contact area of the heat-conducting fins and air is increased, the heat dissipation rate of cooling liquid is increased, and the subsequent continuous heat dissipation work is ensured.

Further, circulation heat radiation structure includes water pump, coiled pipe, conducting strip, sealing strip and hoop, the upper surface left side of work platen is equipped with the water pump, the hoop fixedly connected with coiled pipe through the even hoop fixedly connected with of setting up of leading flank of mounting panel, the inside of coiled pipe evenly runs through there is the conducting strip, the rear end of conducting strip all runs through the mounting panel and extends to the rear of mounting panel, the delivery port of coiled pipe and the water inlet intercommunication of water pump, the output of input electricity connection control switch group of water pump, adopt circulation heat dissipation, can absorb the heat fast and have certain radiating action among the cyclic process, the burden of follow-up cooling work has been reduced.

Further, the cooling structure includes aqua storage tank, spiral conducting strip, louvre and axial fan, the roof of support frame is equipped with axial fan, the upper surface of work platen is equipped with the aqua storage tank, the extrados of aqua storage tank is equipped with spiral conducting strip, the middle part of spiral conducting strip evenly is equipped with the louvre, the top delivery port of aqua storage tank and the right-hand member water inlet intercommunication of coiled pipe, the delivery port intercommunication of long tube and water pump is passed through to the extrados lower extreme water inlet of aqua storage tank, the top water inlet of aqua storage tank is equipped with the inlet tube, axial fan's input electricity connection control switch group's output, the area of contact of conducting strip with the air has been increased, the rate of heat dissipation to.

Furthermore, the outer arc surface of the coiled pipe and the outer surface joint of the heat conducting fins are provided with sealing strips, so that the sealing performance of the coiled pipe is improved, and leakage in the flowing process of the cooling liquid is prevented.

Further, the equal sliding connection in bottom surface of support column has the sleeve, and telescopic extrados all symmetry is equipped with fastening bolt, and the demand of various equipment is satisfied in the height of adjustable support column.

Compared with the prior art, the beneficial effects of the utility model are that: this water wind radiator has following benefit:

1. the workman opens inlet valve, with inside the coolant liquid passes through the inlet tube and inputs the aqua storage tank, the aqua storage tank is filled with the back, the coolant liquid flows into serpentine tube inside, regulate and control through control switch group, the water pump operation, take away serpentine tube inside coolant liquid, and arrange the inside formation circulation of aqua storage tank through the long-tube, outside heat transmits to the middle part of conducting strip through the rear end of conducting strip, the middle part of conducting strip is contacted at the in-process that the coolant liquid flows in serpentine tube, the coolant liquid takes away the heat, the coolant liquid flows the in-process and also has the front end of partly heat transfer to conducting strip, the heat transfer of conducting strip front end to the air, realize partly heat dissipation, can absorb and have certain radiating effect to the heat fast in the circulatory process, the burden of follow-up cooling work has been reduced.

2. After the coolant flows back to the water storage tank, heat on the coolant is transmitted to the outside through the spiral heat conducting fins, the control switch group is used for regulating and controlling, the axial flow fan operates, the axial flow fan accelerates the flow of air, gas flows through the spiral heat conducting fins and takes away the heat on the spiral heat conducting fins, the cooling of the interior of the water storage tank is realized, the steps are repeated after the coolant is cooled, continuous heat dissipation of an external device is realized, the contact area between the heat conducting fins and the air is increased, and the heat dissipation rate of the coolant is increased.

Drawings

FIG. 1 is a schematic front view of the present invention;

fig. 2 is a schematic view of the back structure of the present invention.

In the figure: 1 working table plate, 2 supporting frames, 3 mounting plates, 4 circulating heat dissipation structures, 41 water pumps, 42 coiled pipes, 43 heat conduction sheets, 44 sealing strips, 45 hoops, 5 cooling structures, 51 water storage tanks, 52 spiral heat conduction sheets, 53 heat dissipation holes, 54 axial flow fans, 6 mounting screw holes, 7 control switch groups, 8 sleeves, 9 fastening bolts, 10 supporting columns, 11 water inlet pipes and 12 water inlet valves.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a water-air radiator with a technical solution: the water-air radiator comprises a workbench plate 1, a circulating heat radiation structure 4 and a cooling structure 5;

the working table plate 1: the right side of the upper surface of the working table plate 1 is provided with a support frame 2, the rear side of the upper surface of the working table plate 1 is provided with a mounting plate 3, four corners of the mounting plate 3 are provided with mounting screw holes 6, the bottom surface of the working table plate 1 is uniformly provided with support columns 10, the working table plate 1 provides a working space, the support frame 2 supports an axial flow fan 54, a worker penetrates through the mounting screw holes 6 through mounting bolts to be in threaded connection with mounting positions on a device needing heat dissipation, contact between the mounting plate 3 and an external device is achieved, and the support columns 10 provide a supporting;

circulation heat radiation structure 4: the circulating heat dissipation structure 4 comprises a water pump 41, a coiled pipe 42, a heat conducting sheet 43, a sealing strip 44 and a hoop 45, the water pump 41 is arranged on the left side of the upper surface of the workbench plate 1, the coiled pipe 42 is fixedly connected to the front side of the mounting plate 3 through the evenly arranged hoop 45, the heat conducting sheet 43 uniformly penetrates through the coiled pipe 42, the rear end of the heat conducting sheet 43 penetrates through the mounting plate 3 and extends to the rear of the mounting plate 3, the water outlet of the coiled pipe 42 is communicated with the water inlet of the water pump 41, the sealing strip 44 is arranged at the joint of the outer arc surface of the coiled pipe 42 and the outer surface of the heat conducting sheet 43, a worker opens the water inlet valve 12 to input cooling liquid into the water storage tank 51 through the water inlet pipe 11, after the water storage tank 51 is filled with the cooling liquid, the cooling liquid flows into the coiled pipe 42 and is regulated and controlled by the control switch group 7, and the, the cooling liquid in the coiled pipe 42 is pumped away and is discharged into the water storage tank 51 through the long pipe to form circulation, external heat is transferred to the middle part of the heat conducting fin 43 through the rear end of the heat conducting fin 43, the cooling liquid contacts the middle part of the heat conducting fin 43 in the flowing process of the cooling liquid in the coiled pipe 42, the cooling liquid takes away the heat, a part of heat is also transferred to the front end of the heat conducting fin 43 in the flowing process of the cooling liquid, the heat at the front end of the heat conducting fin 43 is transferred to air, a part of heat dissipation is realized, the heat can be quickly absorbed in the circulation process, a certain heat dissipation effect is realized, and the burden of subsequent cooling work is reduced;

the cooling structure 5: the upper end water outlet of the cooling structure 5 is communicated with the right side water inlet of the circulating heat dissipation structure 4, the lower end water inlet of the cooling structure 5 is communicated with the left side water outlet of the circulating heat dissipation structure 4 through a long pipe, the upper end water inlet of the cooling structure 5 is provided with a water inlet pipe 11, a water inlet valve 12 is connected in series inside the water inlet pipe 11, the cooling structure 5 comprises a water storage tank 51, a spiral heat conduction sheet 52, heat dissipation holes 53 and an axial flow fan 54, the top wall of the support frame 2 is provided with the axial flow fan 54, the upper surface of the working table plate 1 is provided with the water storage tank 51, the outer arc surface of the water storage tank 51 is provided with the spiral heat conduction sheet 52, the middle part of the spiral heat conduction sheet 52 is uniformly provided with the heat dissipation holes 53, the upper water outlet of the water storage tank 51 is communicated with the right end water inlet of, a water inlet pipe 11 is arranged at a water inlet above the water storage tank 51, after the cooling liquid flows back to the water storage tank 51, the heat on the cooling liquid is transferred to the outside through the spiral heat conducting fins 52, the control switch group 7 is used for controlling and controlling the operation of the axial flow fan 54, the axial flow fan 54 accelerates the flow of air, the air flows through the spiral heat conducting fins 52 and takes away the heat on the spiral heat conducting fins 52, the temperature of the interior of the water storage tank 51 is reduced, the steps are repeated after the cooling liquid is cooled, the continuous heat dissipation of an external device is realized, the contact area of the heat conducting fins and the air is increased, and the heat dissipation rate of the cooling;

wherein: the water pump type electric operating platform further comprises a control switch group 7, the control switch group 7 is arranged on the upper surface of the working platform plate 1, an input end of the control switch group 7 is electrically connected with an external power supply, the control switch group 7 regulates and controls normal operation of various electrical elements, and input ends of the water pump 41 and the axial flow fan 54 are electrically connected with an output end of the control switch group 7.

Wherein: the equal sliding connection in bottom surface of support column 10 has sleeve 8, and the equal symmetry in outer cambered surface of sleeve 8 is equipped with fastening bolt 9, and the workman contacts sleeve 8 and bottom surface, if length is not enough, screws out fastening bolt 9, moves sleeve 8 certain distance down, twists fastening bolt 9 again after, realizes fixed to support column 10, and the installation of realizing whole structure after sleeve 8 and the ground contact is fixed.

When in use: a worker penetrates through a mounting screw hole 6 through a mounting bolt to be in threaded connection with a mounting position on a device needing heat dissipation, so that the mounting plate 3 is in contact with an external device, the worker brings a sleeve 8 into contact with the bottom surface, if the length of the sleeve is not enough, the fastening bolt 9 is screwed out, the sleeve 8 is moved downwards for a certain distance, the fastening bolt 9 is screwed in again, the support column 10 is fixed, the sleeve 8 is in contact with the ground to realize mounting and fixing of the whole structure, the worker opens a water inlet valve 12, coolant is input into a water storage tank 51 through a water inlet pipe 11, the coolant flows into a coiled pipe 42 after the water storage tank 51 is filled, a water pump 41 operates through regulation and control of a control switch group 7 to pump away the coolant inside the coiled pipe 42 and discharge the coolant into the inside of the water storage tank 51 through a long pipe to form circulation, external heat is transferred to the middle of a heat conducting fin 43 through the rear end of the heat conducting fin 43, and the coolant is, the coolant liquid takes away the heat, the coolant liquid flows the in-process and also has the front end of some heat transfer to conducting strip 43, the heat transfer of conducting strip 43 front end to the air, realize the heat dissipation of some, the coolant liquid flows back behind aqua storage tank 51, the heat on the coolant liquid passes through spiral conducting strip 52 and transmits to the outside, regulate and control through control switch group 7, axial fan 54 operates, axial fan 54 accelerates the flow of air, the gas flows through spiral conducting strip 52 and takes away the heat on the spiral conducting strip 52, the realization is to the inside cooling of aqua storage tank 51, repeat above-mentioned step after cooling the coolant liquid, the realization is to the lasting heat dissipation of external device.

It should be noted that the water pump 41 disclosed in the present embodiment may be a horizontal water pump of NMDP21 model number, mansion, mao pump company ltd, the axial flow fan 54 may be an industrial exhaust fan of texas, penno air conditioning equipment ltd, and the control switch group 7 controls the operations of the water pump 41 and the axial flow fan 54 by methods commonly used in the prior art.

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

Claims (5)

1. Water wind radiator, its characterized in that: comprises a worktable plate (1), a circulating heat dissipation structure (4) and a cooling structure (5);

workbench (1): a support frame (2) is arranged on the right side of the upper surface of the workbench plate (1), a mounting plate (3) is arranged on the rear side of the upper surface of the workbench plate (1), mounting screw holes (6) are formed in four corners of the mounting plate (3), and support columns (10) are uniformly arranged on the bottom surface of the workbench plate (1);

circulating heat dissipation structure (4): are respectively arranged on the upper surface of the working table plate (1) and the front side surface of the mounting plate (3);

cooling structure (5): the cooling structure is arranged on the upper surface of the working table plate (1) and the top wall of the support frame (2) respectively, an upper end water outlet of the cooling structure (5) is communicated with a right side water inlet of the circulating heat dissipation structure (4), a lower end water inlet of the cooling structure (5) is communicated with a left side water outlet of the circulating heat dissipation structure (4) through a long pipe, an upper end water inlet of the cooling structure (5) is provided with a water inlet pipe (11), and a water inlet valve (12) is connected in series inside the water inlet pipe (11);

wherein: the automatic control device is characterized by further comprising a control switch group (7), wherein the control switch group (7) is arranged on the upper surface of the workbench plate (1), and the input end of the control switch group (7) is electrically connected with an external power supply.

2. The water-wind heat sink of claim 1, wherein: circulation heat radiation structure (4) are including water pump (41), coiled pipe (42), conducting strip (43), sealing strip (44) and hoop (45), the upper surface left side of table board (1) is equipped with water pump (41), hoop (45) fixedly connected with coiled pipe (42) through even setting of the leading flank of mounting panel (3), the inside of coiled pipe (42) evenly runs through conducting strip (43), the rear end of conducting strip (43) all runs through mounting panel (3) and extends to the rear of mounting panel (3), the delivery port of coiled pipe (42) and the water inlet intercommunication of water pump (41), the output of input electricity connection control switch group (7) of water pump (41).

3. The water-wind heat sink of claim 2, wherein: cooling structure (5) include aqua storage tank (51), spiral conducting strip (52), louvre (53) and axial fan (54), the roof of support frame (2) is equipped with axial fan (54), the upper surface of work platen (1) is equipped with aqua storage tank (51), the extrados of aqua storage tank (51) is equipped with spiral conducting strip (52), the middle part of spiral conducting strip (52) evenly is equipped with louvre (53), the top delivery port of aqua storage tank (51) and the right-hand member water inlet intercommunication of coiled pipe (42), the delivery port intercommunication of long tube and water pump (41) is passed through to the extrados lower extreme water inlet of aqua storage tank (51), the top water inlet of aqua storage tank (51) is equipped with inlet tube (11), the output of input electricity connection control switch group (7) of axial fan (54).

4. The water-wind heat sink of claim 2, wherein: sealing strips (44) are arranged at the joint of the outer arc surface of the coiled pipe (42) and the outer surface of the heat conducting fin (43).

5. The water-wind heat sink of claim 1, wherein: the bottom surface of support column (10) all has sliding connection sleeve (8), and the extrados of sleeve (8) all symmetry is equipped with fastening bolt (9).

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