CN117128577B

CN117128577B - Heat exchanger and heat exchange device comprising same

Info

Publication number: CN117128577B
Application number: CN202310938541.8A
Authority: CN
Inventors: 陈德军; 齐元鑫; 卜宁宁
Original assignee: Shandong Houru Environmental Protection Equipment Co ltd
Current assignee: Shandong Houru Environmental Protection Equipment Co ltd
Priority date: 2023-07-28
Filing date: 2023-07-28
Publication date: 2024-04-19
Anticipated expiration: 2043-07-28
Also published as: CN117128577A

Abstract

The invention discloses a heat exchanger and a heat exchange device comprising the same, belonging to the technical field of heat exchange equipment; the heat exchanger and include heat exchange device of this heat exchanger, including the mounting box, first installation chamber and second installation chamber have been seted up in the mounting box, still include: a serpentine tube fixedly connected within the first mounting cavity; a blowing assembly disposed within the first mounting cavity; the compressor is fixedly arranged in the second installation cavity, and the input end of the coiled pipe is connected with the compressor; the invention uses the heat generated by the compressor to absorb the heat emitted by the condenser; according to the invention, the heat generated by the compressor is used for carrying out secondary heating on the air absorbing the heat emitted by the condenser, so that the heat waste generated by the compressor is avoided, and meanwhile, the heat of the air is improved, so that more heat can be injected into the room, and the temperature rise in the room is accelerated.

Description

Heat exchanger and heat exchange device comprising same

Technical Field

The invention relates to the technical field of heat exchange equipment, in particular to a heat exchanger and a heat exchange device comprising the heat exchanger.

Background

The air conditioner is provided with a condenser, when the air conditioner works in a refrigerating mode, a compressor in the air conditioner inputs high-temperature and high-pressure refrigerants into the condenser through a pipeline and a reversing valve, the high-temperature and high-pressure refrigerants exchange heat with the outside air through the pipeline of the condenser, the temperature of the refrigerants subjected to the heat exchange is greatly reduced, the cooled refrigerants flow into an expansion valve and an evaporator through the pipeline, the volume of the refrigerants is rapidly expanded after passing through the expansion valve, the expanded refrigerants absorb heat in the air through the evaporator when passing through the evaporator through the pipeline, the refrigerants after absorbing the heat flow back into the compressor through the pipeline, when the air conditioner works in the refrigerating mode, the circulating process is just opposite through the reversing of the reversing valve, at the moment, the condenser absorbs heat from the outside air, and the evaporator releases heat to the indoor air.

In the prior art, the temperature of the air is low in winter, so that the temperature of the air is low, the temperature of the air is increased after the air is absorbed by the cold energy device, but the temperature increasing speed is low, the compressor can generate heat when in operation, the compressor can stop working under the action of a protection system when the temperature of the compressor is too high, and the temperature of the compressor is not utilized in the air, so that heat waste is caused, and a heat exchanger and a heat exchange device comprising the heat exchanger are required to be designed.

Disclosure of Invention

The invention aims to solve the problem of less heat energy generated by heat dissipation of a condenser in the prior art, and provides a heat exchanger and a heat exchange device comprising the heat exchanger.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

The utility model provides a heat exchanger, includes the mounting box, first installation chamber and second installation chamber have been seted up to the mounting box, still include:

A serpentine tube fixedly connected within the first mounting cavity;

A blowing assembly disposed within the first mounting cavity;

the compressor is fixedly arranged in the second installation cavity, and the input end of the coiled pipe is connected with the compressor;

The second installation cavity is internally provided with heat dissipation oil;

The heat dissipation net disc is fixedly connected in the first mounting cavity;

The circulating assembly is arranged in the first mounting cavity and used for transporting the heat dissipation oil;

and the humidifying component is arranged in the first mounting cavity and is used for conveying water vapor.

In order to facilitate heat dissipation of the heat dissipation oil, preferably, the heat dissipation net disc comprises a diversion box fixedly connected in the first installation cavity, the output end of the diversion box is fixedly connected with a plurality of heat dissipation pipes, the output end of the heat dissipation pipes is fixedly connected with a collecting pipe, and the collecting pipe is communicated with the second installation cavity through a third pipeline.

In order to be convenient for blow away the heat of refrigerant heat dissipation and the heat dissipation of heat dissipation oil in the coiled pipe, preferably, the subassembly of blowing includes fixed connection the motor on the first installation cavity lateral wall, the output fixedly connected with drive shaft of motor, the output fixedly connected with flabellum of drive shaft.

In order to facilitate the circulation flow of the heat dissipation oil in the second installation cavity and the heat dissipation net disc, preferably, the circulation assembly comprises a piston cylinder fixedly connected in the first installation cavity, a piston plate is slidably connected in the piston cylinder, a crank is rotatably connected on the piston plate, a crankshaft is fixedly connected on the driving shaft, the crank is rotatably connected with the crankshaft, a first pipeline communicated with the second installation cavity is fixedly connected with the input end of the piston cylinder, and a second pipeline communicated with the shunt box is fixedly connected with the output end of the piston cylinder.

In order to carry out humidification processing indoor, further, humidification subassembly includes water tank and blast pipe, the water tank is fixed cup joints on the second pipeline, blast pipe and water tank link to each other, just blast pipe fixed connection is on the mounting box, the blast pipe is given vent to anger the end orientation the end of giving vent to anger of mounting box.

Still further, fixedly connected with overhead tank in the mounting box, fixedly connected with intake pipe on the overhead tank, the one end that the overhead tank was kept away from to the intake pipe is linked together with the water tank, overhead tank gives vent to anger and holds and be linked together with the blast pipe.

Still further, be equipped with the check pressure valve on the blast pipe.

The heat exchange device of the heat exchanger comprises a heat exchanger, and a water supply pipeline connected with a water inlet pipe of the heat exchanger; the exhaust pipe is connected to a humidifying and water supplementing line.

Compared with the prior art, the invention provides the heat exchanger and the heat exchange device comprising the heat exchanger, and the heat exchange device has the following beneficial effects:

The device has the advantages that the heat generated by the compressor is used for carrying out secondary heating on the air absorbing the heat emitted by the condenser, so that the heat waste generated by the compressor is avoided, the heat of the air is improved, more heat can be injected into a room, and the temperature rise in the room is accelerated;

The invention also heats the water in the water tank by utilizing the flowing hot oil, so that the water can be evaporated to generate water vapor, and the evaporated water vapor and hot gas are mixed and discharged into a room, thereby solving the problem of indoor drying caused by long-time hot gas input in the prior art.

Drawings

FIG. 1 is a schematic view of the internal structure of a heat exchanger according to the present invention;

fig. 2 is a schematic structural diagram of a heat-dissipating net plate of a heat exchanger according to the present invention;

FIG. 3 is a schematic view of a serpentine tube in a heat exchanger according to the present invention;

FIG. 4 is an enlarged view of section A of the heat exchanger according to the present invention;

Fig. 5 is an enlarged view of a portion B of the heat exchanger according to the present invention.

In the figure: 100. a mounting box; 101. a first mounting cavity; 102. a second mounting cavity; 201. a compressor; 202. a serpentine tube; 300. a motor; 301. a drive shaft; 302. a crankshaft; 303. a fan blade; 400. a piston cylinder; 401. a piston plate; 402. a crank; 405. a first pipe; 406. a second pipe; 407. a heat dissipation net plate; 4071. a shunt box; 4072. a heat radiating pipe; 4073. collecting pipes; 408. a third conduit; 500. a water tank; 501. a water inlet pipe; 5011. a one-way valve; 502. a slide bar; 503. a floating plate; 600. a pressure tank; 601. an exhaust pipe; 6011. a one-way pressure valve; 602. an air inlet pipe; 700. an air cylinder; 701. a whistle; 702. a sliding plug; 7021. a connecting rod; 703. and (3) a spring.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Example 1:

referring to fig. 1 to 5, the heat exchanger includes a mounting box 100, a first mounting cavity 101 and a second mounting cavity 102 are formed in the mounting box 100, and further includes: a serpentine tube 202 fixedly connected within the first mounting cavity 101; a blowing assembly disposed within the first mounting cavity 101; a compressor 201 fixedly installed in the second installation cavity 102, and an input end of the serpentine pipe 202 is connected with the compressor 201; the second installation cavity 102 is internally provided with heat dissipation oil; a heat dissipation net plate 407 fixedly connected in the first installation cavity 101; the circulation assembly is arranged in the first installation cavity 101 and is used for conveying heat dissipation oil, the heat dissipation net disc 407 comprises a distribution box 4071 fixedly connected in the first installation cavity 101, the output end of the distribution box 4071 is fixedly connected with a plurality of heat dissipation pipes 4072, the output end of each heat dissipation pipe 4072 is fixedly connected with a collecting pipe 4073, the collecting pipe 4073 is communicated with the second installation cavity 102 through a third pipeline 408, the blowing assembly comprises a motor 300 fixedly connected to the side wall of the first installation cavity 101, the output end of the motor 300 is fixedly connected with a driving shaft 301, the output end of the driving shaft 301 is fixedly connected with a fan blade 303, the circulation assembly comprises a piston cylinder 400 fixedly connected in the first installation cavity 101, a piston plate 401 is connected in a sliding manner in the piston cylinder 400, a crank 402 is connected to the piston plate 401 in a rotating manner, a crankshaft 302 is fixedly connected to the driving shaft 301, the crank 402 is connected with the crankshaft 302 in a rotating manner, the input end of the piston cylinder 400 is fixedly connected with a first pipeline 405 communicated with the second installation cavity 102, and the output end of the piston cylinder 400 is fixedly connected with a second pipeline 406 communicated with the distribution box 4071.

The humidifying component comprises a water tank 500 and an exhaust pipe 601, the water tank 500 is fixedly sleeved on the second pipeline 406, the exhaust pipe 601 is connected with the water tank 500, the exhaust pipe 601 is fixedly connected to the mounting box 100, and the air outlet end of the exhaust pipe 601 faces the air outlet end of the mounting box 100.

The installation box 100 is fixedly connected with a pressure tank 600, the pressure tank 600 is fixedly connected with an air inlet pipe 602, one end of the air inlet pipe 602, which is far away from the pressure tank 600, is communicated with the water tank 500, and the air outlet end of the pressure tank 600 is communicated with an air outlet pipe 601.

The exhaust pipe 601 is provided with a one-way pressure valve 6011.

A one-way air inlet valve is arranged at the joint of the pressure tank 600 and the air inlet pipe 602.

Referring to fig. 4, the one-way intake valve is provided so that the water vapor introduced into the pressure tank 600 does not flow back into the water tank 500.

The output end of the coiled pipe 202 is connected with an expansion valve, the expansion valve is connected with an evaporator, the evaporator is connected with the compressor 201 to form a complete circulating unit, the compressor 201 is started and the compressor 201 works to pressurize refrigerant entering the interior of the compressor 201 by the evaporator, so that high-temperature high-pressure air is formed, the refrigerant in a high-temperature high-pressure gas form enters the coiled pipe 202 to dissipate heat, the motor 300 is started, the motor 300 rotates the fan blades 303 through the driving shaft 301, the fan blades 303 absorb external normal-temperature air, then the air is blown to the coiled pipe 202 and the radiating pipes 4072 on the radiating net disc 407, the driving shaft 301 rotates the fan blades 303 and simultaneously rotates the crankshaft 302, the crankshaft 302 enables the piston plate 401 to slide back and forth in the piston cylinder 400, negative pressure and positive pressure are generated in the piston cylinder 400 in a reciprocating mode, the negative pressure sucks high-temperature radiating oil which is formed by the heat emitted by the compressor 201 into the piston cylinder 400 through the first pipeline 405, the positive pressure is sent into the high-temperature oil distribution box 4071 in the piston cylinder 400 through the second pipeline 406, then the fan blades 303 are shunted into the radiating pipe 4072, the radiating net is connected with the air conditioner housing 4072 through the air inlet and the radiating net, and the radiating pipe 4072 is heated by the air, and the radiating pipe is heated by the air in the air conditioner housing 4072, and the radiating pipe is heated by the air.

While the second pipe 406 is conveying hot oil, the flowing hot oil heats water in the water tank 500, the water in the water tank 500 evaporates and floats upwards along with the continuous heating of the hot oil, the water vapor floating upwards enters the pressure tank 600 through the air inlet pipe 602, the pressure in the pressure tank 600 continuously increases along with the continuous increase of the water vapor entering the pressure tank 600, when the pressure reaches the threshold value set by the one-way pressure valve 6011, the one-way pressure valve 6011 is opened, the water vapor in the pressure tank 600 is sprayed out instantly, the sprayed water vapor is discharged instantly through the air outlet pipe 601, and the discharged water vapor is mixed with the hot air output in the installation box 100, so that the air in the room can be humidified, and the problem of indoor drying caused by long-time hot air input in the prior art is solved.

Example 2:

Referring to fig. 1, 4 and 5, the heat exchanger and the heat exchange device including the heat exchanger are basically the same as those of embodiment 1, further, a slide bar 502 is fixedly connected in the water tank 500, a floating plate 503 is slidingly connected on the slide bar 502, an air cylinder 700 is fixedly connected on the bottom side of the water tank 500, a sliding plug 702 is slidingly connected in the air cylinder 700, a connecting rod 7021 is fixedly connected on the floating plate 503, one end of the connecting rod 7021, which is far away from the floating plate 503, is fixedly connected with the sliding plug 702, an air whistle 701 is fixedly connected on the bottom side of the air cylinder 700, and the air whistle 701 is communicated with the air cylinder 700.

The sliding plug 702 is fixedly connected with a spring 703, and one end of the spring 703 away from the sliding plug 702 is fixedly connected to the bottom wall of the inner cavity of the inflator 700.

The whistle 701 is provided with a pressure valve.

A limiting plate is fixedly connected to the sliding rod 502.

Referring to fig. 5, the slide plug 702 can be quickly reset by the provision of the spring 703.

Referring to fig. 5, the floating plate 503 is not excessively slid and separated from the slide bar 502 by the limiting plate.

Referring to fig. 5, a water inlet pipe 501 is fixedly connected to a water tank 500, the water inlet pipe 501 is connected to an external tap water pipe, and a check valve 5011 is provided on the water inlet pipe 501.

Referring to fig. 1, 4 and 5, in the process of continuously evaporating water in the water tank 500, the water in the water tank 500 is continuously reduced, at this time, the floating plate 503 in the water tank 500 is moved downwards, the moving-down of the floating plate 503 pushes the connecting rod 7021 to move downwards, the connecting rod 7021 pushes the sliding plug 702 to slide downwards, after one end of the sliding plug 702 slides downwards for a distance, the pressure valve on the whistle 701 is opened, at this time, gas in the gas cylinder 700 is sprayed out, and when the sprayed gas passes through the whistle 701, the whistle 701 is blown, so that the water injection into the water tank 500 can be reminded at this time.

Referring to fig. 4, when water is injected, an external water valve is opened, and external flowing water is input into the water tank 500 through the water inlet pipe 501;

after filling, the water in the water tank 500 will become more, at this time, the floating plate 503 will move upwards, thereby pulling the sliding plug 702 upwards, and the external air will enter the air cylinder 700, so that the air whistle 701 will be blown to alarm when the water is less next time.

A heat exchange device of a heat exchanger, comprising a heat exchanger, a water supply pipeline connected with a water inlet pipe 501 of the heat exchanger; the exhaust pipe 601 is connected to a humidifying and moisturizing line.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed within the scope of the present invention.

Claims

1. The utility model provides a heat exchanger, includes mounting box (100), its characterized in that, first installation chamber (101) and second installation chamber (102) have been seted up in mounting box (100), still include:

a serpentine tube (202) fixedly connected within the first mounting cavity (101);

A blowing assembly disposed within the first mounting cavity (101);

A compressor (201) fixedly installed in the second installation cavity (102), wherein the input end of the coiled pipe (202) is connected with the compressor (201);

the second installation cavity (102) is internally provided with heat dissipation oil;

A heat dissipation net plate (407) fixedly connected in the first mounting cavity (101);

a circulation assembly disposed within the first mounting cavity (101);

The heat dissipation net plate (407) comprises a flow distribution box (4071) fixedly connected in the first mounting cavity (101);

The output end of the shunt box (4071) is fixedly connected with a plurality of radiating pipes (4072), the output end of each radiating pipe (4072) is fixedly connected with a collecting pipe (4073), and the collecting pipe (4073) is communicated with the second installation cavity (102) through a third pipeline (408);

The air blowing assembly comprises a motor (300) fixedly connected to the side wall of the first mounting cavity (101), the output end of the motor (300) is fixedly connected with a driving shaft (301), and the output end of the driving shaft (301) is fixedly connected with a fan blade (303);

The circulating assembly comprises a piston cylinder (400) fixedly connected in the first mounting cavity (101), a piston plate (401) is connected in a sliding manner in the piston cylinder (400), a crank (402) is connected to the piston plate (401) in a rotating manner, a crank (302) is fixedly connected to the driving shaft (301), the crank (402) is connected with the crank (302) in a rotating manner, a first pipeline (405) communicated with the second mounting cavity (102) is fixedly connected to the input end of the piston cylinder (400), and a second pipeline (406) communicated with the shunt box (4071) is fixedly connected to the output end of the piston cylinder (400);

still include humidification subassembly including water tank (500) and blast pipe (601), water tank (500) are fixed cup joints on second pipeline (406), blast pipe (601) link to each other with water tank (500), just blast pipe (601) fixed connection is on install bin (100), blast pipe (601) end of giving vent to anger is towards the end of giving vent to anger of install bin (100).

2. The heat exchanger according to claim 1, wherein a pressure tank (600) is fixedly connected to the installation box (100), an air inlet pipe (602) is fixedly connected to the pressure tank (600), one end, away from the pressure tank (600), of the air inlet pipe (602) is communicated with the water tank (500), and an air outlet end of the pressure tank (600) is communicated with the air outlet pipe (601).

3. The heat exchanger according to claim 2, wherein the exhaust pipe (601) is provided with a one-way pressure valve (6011).

4. A heat exchange device, characterized in that: a heat exchanger according to any one of claims 1 to 3, further comprising a water supply line connected to the water inlet pipe (501); the exhaust pipe (601) is connected to a humidifying and moisturizing line.