CN218991976U - Heat radiation structure for air cooler - Google Patents

Abstract

The utility model discloses a heat radiation structure for an air cooler, which comprises a first cold box, wherein connecting frames are bolted to the left side and the right side of the first cold box, a second cold box is bolted to the other side of the connecting frame on the left side, a third cold box is bolted to the other side of the connecting frame on the right side, a flow divider is communicated with the bottom of the first cold box, a water inlet pipe is communicated with the bottom of the flow divider, flow dividing pipes are communicated to the left side and the right side of the flow divider, a water collecting head is communicated to the top of the first cold box, conveying pipes are communicated to the two sides of the water collecting head, a water discharging pipe is communicated to the top of the water collecting head, and stainless steel belts are arranged at the top and the bottom of the back of the second cold box; according to the utility model, the water flow is discharged after passing through the first cold box, the second cold box and the third cold box, so that the heat dissipation efficiency is improved, and the motor of the air cooler can be effectively cooled in a mode that the water flow takes away heat, so that the heat dissipation efficiency of the air cooler is greatly improved.

Description

Heat radiation structure for air cooler

Technical Field

The utility model relates to the technical field of heat dissipation structures, in particular to a heat dissipation structure for an air cooler.

Background

When the air cooler continuously works, a large amount of heat at the motor of the air cooler can be emitted, and the effect of blowing cold air by the air cooler is affected.

The existing air cooler structure does not radiate heat of the motor, and heat of the motor can be blown out along with the air cooler, so that the refrigerating effect of the air cooler is greatly affected. And the existing cooling structure of the air cooler is fixed by using screws, so that the installation is very inconvenient, and the installation difficulty and the installation time are greatly increased.

Disclosure of Invention

The utility model aims to provide a heat radiation structure for an air cooler, which has the advantages of improving heat radiation efficiency and being convenient to install, and solves the problems that the heat radiation efficiency of the existing air cooler heat radiation structure is low and the existing air cooler heat radiation structure is inconvenient to install.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a heat radiation structure for air-cooler, includes first cold box, the equal bolt in both sides about the first cold box has the link, the left side the opposite side bolt of link has the cold box of second, the right side the opposite side bolt of link has the cold box of third, the bottom intercommunication of first cold box has the shunt, the bottom intercommunication of shunt has the inlet tube, the both sides all communicate about the shunt has the shunt tubes, the top intercommunication of first cold box has the water collecting head, the both sides all communicate of water collecting head has the conveyer pipe, the top intercommunication of water collecting head has the drain pipe, the top and the bottom at the cold box back of second all are provided with the stainless steel strip, the through-hole has been seted up on the surface of stainless steel strip, both sides about the cold box back of third all are provided with the fixed block, the top threaded connection of fixed block has the bolt, the through-groove has been seted up to the inside of fixed block, the bottom of bolt is provided with the mounting.

The utility model further provides that the surfaces of the first cold box, the second cold box and the third cold box are provided with arc grooves.

The technical scheme is adopted: can agree with the shell of motor better, promote the radiating effect.

The utility model is further arranged that a groove is formed in the through groove.

The technical scheme is adopted: the bottom of the fixing piece can be inserted into the groove, and the stability of the fixed stainless steel belt is improved.

The utility model is further arranged that the bottom of the water inlet pipe is connected with the connector.

The technical scheme is adopted: can be convenient for connect the water pipe on the water pump in the air-cooler.

The utility model further provides that liquid level windows are arranged on one sides of the first cold box, the second cold box and the third cold box, which are far away from the arc groove.

The technical scheme is adopted: whether the heat dissipation work is stable can be judged to the inside water level of first cold box, second cold box and third cold box of observation of being convenient for.

The utility model is further arranged that the top of the bolt is provided with a knob.

The technical scheme is adopted: the bolt can be rotated conveniently.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the water flow is discharged after passing through the first cold box, the second cold box and the third cold box, so that the heat dissipation efficiency is improved, and the motor of the air cooler can be effectively cooled in a mode that the water flow takes away heat, so that the heat dissipation efficiency of the air cooler is greatly improved.

2. According to the utility model, the stainless steel belt passes through the through groove of the fixed block and is fixed by the fixed piece on the bolt, so that the heat dissipation structure has a function of being convenient to install, and the installation speed of the heat dissipation structure can be effectively improved in a binding mode, so that the heat dissipation structure is simpler and more convenient to install and detach.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic rear view of the structure of the present utility model;

FIG. 3 is a schematic top view of the structure of the present utility model;

FIG. 4 is a schematic view of a stainless steel strip in a three-dimensional structure according to the present utility model;

FIG. 5 is an enlarged schematic view of the structure A in FIG. 3 according to the present utility model;

in the figure: 1. a first cold box; 2. a connecting frame; 3. a second cold box; 4. a third cold box; 5. a shunt; 6. a water inlet pipe; 7. a shunt; 8. a water collecting head; 9. a delivery tube; 10. a drain pipe; 11. stainless steel strip; 12. a through hole; 13. a fixed block; 14. a bolt; 15. a through groove; 16. a fixing member; 17. an arc groove; 18. a groove; 19. a connector; 20. a liquid level window; 21. and (5) a knob.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1:

referring to fig. 1, 2 and 3, a heat dissipation structure for an air cooler comprises a first cold box 1, wherein connecting frames 2 are bolted to the left side and the right side of the first cold box 1, a second cold box 3 is bolted to the other side of the left connecting frame 2, a third cold box 4 is bolted to the other side of the right connecting frame 2, a flow divider 5 is communicated with the bottom of the first cold box 1, a water inlet pipe 6 is communicated with the bottom of the flow divider 5, flow dividing pipes 7 are communicated to the left side and the right side of the flow divider 5, a water collecting head 8 is communicated with the top of the first cold box 1, conveying pipes 9 are communicated to the two sides of the water collecting head 8, and a water draining pipe 10 is communicated with the top of the water collecting head 8; according to the utility model, the water flow is discharged after passing through the first cold box 1, the second cold box 3 and the third cold box 4, so that the heat dissipation efficiency is improved, and the motor of the air cooler can be effectively cooled in a mode that the water flow takes away heat, so that the heat dissipation efficiency of the air cooler is greatly improved.

The surfaces of the first cold box 1, the second cold box 3 and the third cold box 4 are provided with arc grooves 17; can agree with the shell of motor better, promote the radiating effect.

The bottom of the water inlet pipe 6 is connected with a connector 19; can be convenient for connect the water pipe on the water pump in the air-cooler.

The sides of the first cold box 1, the second cold box 3 and the third cold box 4 far away from the arc groove are provided with liquid level windows 20; it can be convenient to observe the water level inside the first cold box 1, the second cold box 3 and the third cold box 4 to judge whether the heat radiation work is stable.

The use process is briefly described: when the water cooling device is used, the connector 19 is arranged on a water pipe of a water pump in the air cooler, water flows into the water inlet pipe 6, flows into the flow divider 5 from the water inlet pipe 6, flows into the first cold box 1, the second cold box 3 and the third cold box 4 through the flow divider 5 through the flow dividing pipe 7, flows into the water collecting head 8 through the conveying pipe 9 when the water level inside the first cold box 1, the second cold box 3 and the third cold box 4 reaches the top, and is discharged into the water box inside the air cooler through the water outlet pipe 10 by the water collecting head 8, so that heat of a motor on the air cooler is taken away through the water flow in a circulating and reciprocating mode, and the effect of improving heat dissipation efficiency is achieved.

Example 2:

referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, a heat radiation structure for an air cooler comprises a first cold box 1, stainless steel strips 11 are arranged at the top and the bottom of the back of a second cold box 3, through holes 12 are formed in the surface of the stainless steel strips 11, fixing blocks 13 are arranged on the upper side and the lower side of the back of a third cold box 4, bolts 14 are connected with the top threads of the fixing blocks 13, through grooves 15 are formed in the fixing blocks 13, and fixing pieces 16 are arranged at the bottom of the bolts 14; according to the utility model, the stainless steel belt 11 passes through the through groove 15 of the fixed block 13 and is fixed by the fixing piece 16 on the bolt 14, so that the heat dissipation structure has a function of convenient installation, and the installation speed of the heat dissipation structure can be effectively improved in a binding manner, so that the installation and the disassembly are simpler and more convenient.

A groove 18 is formed in the through groove 15; the bottom of the fixing member 16 can be inserted into the groove 18, and the stability of the fixed stainless steel belt 11 can be improved.

The top of the bolt 14 is provided with a knob 21; it is possible to facilitate rotation of the bolt 14.

The use process is briefly described: when the cooling device is used, the first cooling box 1, the second cooling box 3 and the third cooling box 4 are attached to the surface of the cooling fan motor, then the stainless steel belt 11 passes through the through groove 15 of the fixed block 13, the steel belt 11 is not left to tighten and bind the motor, then the knob 21 is screwed, the knob 21 drives the fixing piece 16 on the bolt 14 to descend, the bottom of the fixing piece 16 passes through the through hole 12 on the stainless steel belt 11 and enters the groove 18, and therefore the cooling structure can be installed, and the effect of being convenient to install is achieved.

Although embodiments of the present utility model 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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a heat radiation structure for air-cooler, includes first cold box (1), its characterized in that: the utility model discloses a cold box of refrigerator, including cold box (1), connecting frame (2), left side all bolted connection has connecting frame (2), the opposite side bolted connection of connecting frame (2) has cold box (3) of second, the right side the opposite side bolted connection of connecting frame (2) has cold box (4) of third, the bottom intercommunication of cold box (1) has shunt (5), the bottom intercommunication of shunt (5) has inlet tube (6), the both sides all communicate about shunt (5) has shunt tubes (7), the top intercommunication of cold box (1) has water collecting head (8), the both sides all communicate that water collecting head (8) have conveyer pipe (9), the top intercommunication of water collecting head (8) has drain pipe (10), the top and the bottom at the back of cold box (3) all are provided with stainless steel strip (11), through-hole (12) have been seted up on the surface of stainless steel strip (11), the both sides about cold box (4) all are provided with fixed block (13), fixed block (13) are equipped with screw bolt (14) in the inside (14), fixed block (14) are equipped with screw bolt (14).

2. The heat radiation structure for an air cooler according to claim 1, wherein: arc grooves (17) are formed in the surfaces of the first cold box (1), the second cold box (3) and the third cold box (4).

3. The heat radiation structure for an air cooler according to claim 1, wherein: a groove (18) is formed in the through groove (15).

4. The heat radiation structure for an air cooler according to claim 1, wherein: the bottom of the water inlet pipe (6) is connected with a connector (19).

5. The heat radiation structure for an air cooler according to claim 1, wherein: and liquid level windows (20) are arranged on one sides, far away from the arc grooves, of the first cold box (1), the second cold box (3) and the third cold box (4).

6. The heat radiation structure for an air cooler according to claim 1, wherein: the top of the bolt (14) is provided with a knob (21).

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