CN218993730U - Heat recovery module of air cooler - Google Patents

Abstract

The utility model relates to the technical field of air coolers, and discloses a heat recovery module of an air cooler, which comprises a bottom box and a top box, wherein an absorption bin and an evaporation bin are arranged in the bottom box, the top box is fixed at the top of the bottom box through bolts, a condensing box and a generation bin are arranged in the top box, an absorber is arranged in the absorption bin, one end of the absorber is connected with the condensing box in a penetrating way, the other end of the absorber is connected with a first cold water pipe in a penetrating way, the first cold water pipe extends to the outside of the bottom box, and a valve is arranged at the top of the first cold water pipe. The utility model can conveniently absorb heat in the evaporation bin when water is in the evaporator, and then is discharged through the input pipe, the heat in the absorption bin can raise the temperature of gas through the absorber, then the gas is conveyed into the air cooler by opening the valve at the top of the first cold water pipe, and the gas can be effectively heated and controlled through the arrangement of the absorption bin, so that the air cooler can be conveniently reused.

Description

Heat recovery module of air cooler

Technical Field

The utility model relates to the technical field of air coolers, in particular to a heat recovery module of an air cooler.

Background

The air cooler hot fluid flows within the tubes and air is blown over the tube bundle. Because the ventilation volume required for heat exchange is large and the wind pressure is not high, axial-flow ventilators (see fluid conveying machinery) are mostly adopted. The type and material of the tube bundles greatly affect the performance of the air cooler. Because of the small coefficient of heat transfer on the air side, fins are often added to the tube to increase the heat transfer area and turbulence of the fluid and reduce the thermal resistance. In the running process of the generator of the air cooler, the temperature of the iron core and the coil can be increased due to the existence of current and a magnetic field, the temperature for maintaining the insulation of the coil is not more than a specified value, the generator is provided with a cooling device, and the water quality cleanliness of circulating water is not high, and the hardness of the water quality can be gradually increased after long-time running, so that scaling and bacterial algae slime are deposited in a copper pipe of the cooler, the heat exchange effect is affected, and meanwhile, the heat taken away by the circulating water is wasted in the atmosphere, and environmental heat pollution is also brought.

The heat recovery module in the current air cooler is used for cooling after collecting heat, but the traditional collecting device cannot thoroughly control the temperature of the heat recovery module, and the heat recovery module returns to the air cooler, so that the recovery effect is greatly influenced.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, the present utility model provides a heat recovery module of an air cooler, so as to solve the above-mentioned problems in the prior art.

The utility model provides the following technical scheme: the utility model provides an air cooler's heat recovery module, includes base box and top case, be equipped with absorption storehouse and evaporation storehouse in the base box, the top case passes through the top of bolt fastening in the base box, be equipped with the condensing box in the top case and take place the storehouse, be equipped with the absorber in the absorption storehouse, the condensing box is link up to absorber one end, the first cold water pipe of absorber other end link up connection, first cold water pipe extends to the outside of base box, the valve is installed at first cold water pipe top, after gas gets into the absorption storehouse through the condensing box, when passing through the absorber, the heat accessible absorber in the absorption storehouse makes gaseous temperature rise, later carries gas to air cooler through opening the valve at first cold water pipe top.

Further, the bottom box bottom is equipped with first baffle through welding mode joint support frame in the bottom box, first baffle top is connected in the top of bottom box inner wall through welding mode, first baffle bottom is connected in the bottom of bottom box inner wall through welding mode, be equipped with the through-hole that is evenly distributed in the first baffle, be equipped with the evaporimeter in the evaporation storehouse, evaporimeter one end through-connection second cold water pipe, the second cold water pipe other end through-connection input tube, the valve is installed at the input tube top, in carrying the evaporimeter with water through the input tube, this water can be convenient for absorb the heat in the evaporation storehouse when in the evaporimeter.

Further, be equipped with the second baffle in the roof case, the second baffle top is connected in roof case inner wall top through the welding mode, the second baffle bottom is connected in roof case inner wall's bottom through the welding mode, be equipped with the through-hole that is evenly distributed in the second baffle, be equipped with the condenser in the condensing flask, condenser one end link up and is connected the inlet pipe, the valve is installed at the inlet pipe top, the condenser other end link up and is connected the transfer line, the transfer line bottom link up the top of connecting the absorber, be equipped with the generator in the generation storehouse, generator one end link up and is connected the waste heat admission pipe, the generator other end link up and is connected the waste heat discharge pipe, and hot water is through the waste heat admission pipe input to the generator in, can absorb the heat in the condensing flask through the through-hole in the second baffle in the time of flowing in the generator to can reduce the temperature in the condensing flask, thereby be convenient for next step operation, water in the generator is discharged through the waste heat discharge pipe.

The utility model has the technical effects and advantages that:

1. according to the utility model, through the mutual matching of the absorption bin and the evaporation bin, when gas passes through the absorber, water can be conveyed into the evaporator through the input pipe, the water can conveniently absorb heat in the evaporation bin when in the evaporator, then the heat in the absorption bin can be discharged through the input pipe, the temperature of the gas can be increased through the absorber, then the gas is conveyed into the air cooler through opening the valve at the top of the first cold water pipe, and the gas can be effectively heated and controlled through the arrangement of the absorption bin, so that the air cooler can be conveniently reused.

2. According to the utility model, hot water is input into the generator through the waste heat inlet pipe through the mutual matching of the condensing box and the generating bin, and heat in the condensing box can be absorbed through the through holes in the second partition plate while the water flows in the generator, so that the temperature in the condensing box can be reduced, the next operation is facilitated, the water in the generator is discharged through the waste heat discharge pipe, the circulating use is realized, and the water resource is saved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic view of the structure of the absorption bin of the present utility model.

Fig. 3 is a schematic view of the evaporation bin structure of the utility model.

Fig. 4 is a schematic view of the structure of the condensing box of the present utility model.

The reference numerals are: 1. a bottom box; 2. an absorption bin; 3. an evaporation bin; 4. a top box; 5. a condensing box; 6. a generation bin; 101. a support frame; 102. a first separator; 201. an absorber; 202. a first cold water pipe; 301. an evaporator; 302. a second cold water pipe; 303. an input tube; 401. a second separator; 501. a condenser; 502. a feed pipe; 503. a transfer tube; 601. a generator; 602. waste heat enters the pipe; 603. and a waste heat discharge pipe.

Detailed Description

The embodiments of the present utility model will be described more fully hereinafter with reference to the accompanying drawings, in which the embodiments of the present utility model are shown by way of illustration only, and the heat recovery module for an air cooler according to the present utility model is not limited to the embodiments of the present utility model, but all other embodiments of the present utility model are within the scope of the present utility model, which are not intended to be inventive by those skilled in the art.

Referring to fig. 1-4, the utility model provides a heat recovery module of an air cooler, which comprises a bottom box 1 and a top box 4, wherein an absorption bin 2 and an evaporation bin 3 are arranged in the bottom box 1, the top box 4 is fixed at the top of the bottom box 1 through bolts, a condensing box 5 and a generation bin 6 are arranged in the top box 4, an absorber 201 is arranged in the absorption bin 2, one end of the absorber 201 is connected with the condensing box 5 in a penetrating way, the other end of the absorber 201 is connected with a first cold water pipe 202 in a penetrating way, the first cold water pipe 202 extends to the outside of the bottom box 1, a valve is arranged at the top of the first cold water pipe 202, when the air cooler is used, after gas enters the absorption bin 2 through the condensing box 5, the temperature of the gas can be raised through the absorber 201 when the gas passes through the absorber 201, then the gas is conveyed into the air cooler through the valve at the top of the first cold water pipe 202, and the gas can be effectively heated through the arrangement of the absorption bin 2, so that the air cooler can be used again conveniently.

Wherein, the support frame 101 is connected through the welding mode in the bottom box 1 bottom, be equipped with first baffle 102 in the bottom box 1, first baffle 102 top is connected in the top of bottom box 1 inner wall through the welding mode, first baffle 102 bottom is connected in the bottom of bottom box 1 inner wall through the welding mode, be equipped with in the first baffle 102 and be evenly distributed's through-hole, be equipped with evaporimeter 301 in the evaporation storehouse 3, evaporimeter 301 one end through connection second cold water pipe 302, the input tube 303 is link up to the second cold water pipe 302 other end, the valve is installed at input tube 303 top, when using, accessible input tube 303 carries water to in the evaporimeter 301, this water can be convenient for absorb the heat in the evaporation storehouse 3 when in the evaporimeter 301, the rethread input tube 303 discharges.

Wherein be equipped with second baffle 401 in the roof box 4, the second baffle 401 top is connected in roof box 4 inner wall top through the welding mode, the second baffle 401 bottom is connected in the bottom of roof box 4 inner wall through the welding mode, be equipped with the through-hole that is evenly distributed in the second baffle 401, be equipped with condenser 501 in the condensation box 5, condenser 501 one end link up and connect inlet pipe 502, the valve is installed at inlet pipe 502 top, condenser 501 other end link up and connect conveyer pipe 503, the top of absorber 201 is link up to conveyer pipe 503 bottom, be equipped with generator 601 in the generating storehouse 6, generator 601 one end link up and connect waste heat admission pipe 602, generator 601 other end link up and connect waste heat discharge pipe 603, when using, can be with hot water through waste heat admission pipe 602 input to generator 601, can absorb the heat in the condensation box 5 through the through-hole in the second baffle 401 in the generator 601, thereby can reduce the temperature in the condensation box 5, thereby the operation of next step is convenient for, water in the generator 601 is discharged through the waste heat discharge pipe, can be used for resident's life use, water in the condenser is input to absorber 201 through conveyer pipe 603.

The working principle of the utility model is as follows:

this air cooler's heat recovery module, when using, can pass through waste heat admission pipe 602 with hot water and import into generator 601, in the generator 601 circulation can absorb the heat in the condensation chamber 5 through the through-hole in the second baffle 401 simultaneously, thereby can reduce the temperature in the condensation chamber 5, thereby be convenient for next step operation, water in the generator 601 passes through waste heat discharge pipe 603 and discharges, can be used to resident's life use, water in the condenser 501 passes through transfer pipe 503 and imports into the absorber 201, when gas passes through the absorber 201, accessible input pipe 303 carries water into the evaporimeter 301, this water can be convenient for absorb the heat in the evaporation storehouse 3 when the evaporimeter 301, the rethread input pipe 303 discharges, the heat in the absorption storehouse 2 accessible absorber 201 makes the temperature of gas rise, afterwards carry gas to the air cooler through opening the valve at first cold water pipe 202 top, can effectually heat the gas through the setting of absorption storehouse 2, thereby the reuse of air cooler of being convenient for.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed;

secondly: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

finally: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (7)

1. The utility model provides an air cooler's heat recovery module, includes bottom box (1) and top box (4), its characterized in that: be equipped with absorption storehouse (2) and evaporation storehouse (3) in base tank (1), top case (4) are fixed in the top of base tank (1) through the bolt, be equipped with condensing vessel (5) and take place storehouse (6) in top case (4), be equipped with absorber (201) in absorption storehouse (2), absorber (201) one end through connection condensing vessel (5), absorber (201) other end through connection first cold water pipe (202), first cold water pipe (202) extend to the outside of base tank (1), the valve is installed at first cold water pipe (202) top.

2. The heat recovery module of an air cooler of claim 1, wherein: the bottom of the bottom box (1) is connected with the supporting frame (101) in a welding mode, a first partition plate (102) is arranged in the bottom box (1), the top of the first partition plate (102) is connected to the top of the inner wall of the bottom box (1) in a welding mode, the bottom of the first partition plate (102) is connected to the bottom of the inner wall of the bottom box (1) in a welding mode, and through holes which are uniformly distributed are formed in the first partition plate (102).

3. The heat recovery module of an air cooler of claim 1, wherein: an evaporator (301) is arranged in the evaporation bin (3), one end of the evaporator (301) is connected with a second cold water pipe (302) in a penetrating mode, the other end of the second cold water pipe (302) is connected with an input pipe (303) in a penetrating mode, and a valve is arranged at the top of the input pipe (303).

4. The heat recovery module of an air cooler of claim 1, wherein: the novel anti-theft device is characterized in that a second separator (401) is arranged in the top box (4), the top of the second separator (401) is connected to the top of the inner wall of the top box (4) in a welding mode, the bottom of the second separator (401) is connected to the bottom of the inner wall of the top box (4) in a welding mode, and through holes which are uniformly distributed are formed in the second separator (401).

5. The heat recovery module of an air cooler of claim 1, wherein: the condenser is characterized in that a condenser (501) is arranged in the condenser box (5), one end of the condenser (501) is connected with a feed pipe (502) in a penetrating mode, and a valve is arranged at the top of the feed pipe (502).

6. The air cooler heat recovery module of claim 5, wherein: the other end of the condenser (501) is connected with a conveying pipe (503) in a penetrating way, and the bottom of the conveying pipe (503) is connected with the top of the absorber (201) in a penetrating way.

7. The heat recovery module of an air cooler of claim 1, wherein: the waste heat treatment device is characterized in that a generator (601) is arranged in the generation bin (6), one end of the generator (601) is connected with a waste heat inlet pipe (602) in a penetrating mode, and the other end of the generator (601) is connected with a waste heat discharge pipe (603) in a penetrating mode.

Images