CN219368462U - Cold water type industrial air cooler - Google Patents
Cold water type industrial air cooler Download PDFInfo
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- CN219368462U CN219368462U CN202320126594.5U CN202320126594U CN219368462U CN 219368462 U CN219368462 U CN 219368462U CN 202320126594 U CN202320126594 U CN 202320126594U CN 219368462 U CN219368462 U CN 219368462U
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Abstract
The utility model relates to a cold water type industrial air cooler which comprises a rack, wherein a wind power device and a cooling water device are arranged on the rack; and a heat exchange device is arranged between the wind power device and the cooling water device and comprises a net structure capable of keeping the cross flow heat exchange of wind and water. The cooling water device conveys water with lower temperature to the heat exchange device, and the wind power device guides wind with higher temperature to the heat exchange device. The heat exchange between the wind with higher temperature and the water with lower temperature at the heat exchange device can take away a large amount of heat in the wind by absorbing the latent heat energy through the gasification of the liquid water, thereby achieving the effect of reducing the temperature of the wind, further providing a relatively low-temperature working environment for the compressor and ensuring the working efficiency of the compressor.
Description
Technical Field
The utility model relates to the technical field of industrial refrigeration equipment, in particular to a cold water type industrial air cooler.
Background
A compressor is a driven fluid machine that lifts low pressure gas to high pressure gas. The low-temperature low-pressure refrigerant gas is sucked from the air suction pipe, the motor is operated to drive the piston to compress the low-temperature low-pressure refrigerant gas, and then the high-temperature high-pressure refrigerant gas is discharged to the air discharge pipe to provide power for refrigeration cycle.
However, the compressor itself generates more heat during operation, and if the operating environment temperature of the compressor is too high, the operating efficiency of the compressor is greatly affected.
The existing compressor industrial workshops often lack effective cooling measures, and cannot provide a relatively low-temperature working environment for compressor operation.
Disclosure of Invention
The utility model mainly aims at providing a cold water type industrial air cooler by arranging a cooling water device and a wind power device, taking away heat through heat exchange of high-temperature wind and low-temperature water so as to reduce the temperature of an industrial workshop.
In order to achieve the above purpose, the utility model adopts the following specific technical scheme:
the utility model relates to a cold water type industrial air cooler which comprises a rack, wherein a wind power device and a cooling water device are arranged on the rack; and a heat exchange device is arranged between the wind power device and the cooling water device and comprises a net structure capable of keeping the cross flow heat exchange of wind and water.
Preferably, the mesh structure is configured as a paper curtain, a filler plate or a shutter.
Preferably, the top of the net structure is provided with a diversion groove, and the diversion groove is connected with an output port of the cooling water device.
Preferably, the wind power device is connected with an air duct, a bypass air duct and a pipeline fan are arranged at the air duct, the pipeline fan is connected with the bypass air duct and used for providing induced draft power for the bypass air duct, one end of the bypass air duct is communicated with the inside of the air duct, and the other end of the bypass air duct extends to the inside of the frame and is used for providing cold air for the compressor.
Preferably, the cooling water device comprises a refrigerating device, a water tank and a water pump, wherein the refrigerating device is connected with the water tank through a pipeline, and the water pump is respectively connected with the water tank and the heat exchange device.
Preferably, the refrigerating device is connected with a water inlet, a refrigerating water inlet and a refrigerating water outlet, the water inlet is connected with the refrigerating water inlet through a pipeline, and the refrigerating water outlet is connected with the water tank through a pipeline.
Preferably, the water tank is provided with a first liquid level sensor and a second liquid level sensor.
Preferably, the water tank is also provided with an automatic water supplementing electromagnetic valve and a cleaning electromagnetic valve.
Preferably, a water tank cover plate is arranged on the frame.
Preferably, the wind power device is a blade fan, and the blade fan is mounted at the top position of the frame.
Preferably, the cooling water device is arranged at a position below the wind power device on the frame.
Compared with the prior art, the utility model has the following beneficial effects:
the cooling water device conveys water with lower temperature to the heat exchange device, and the wind power device guides wind with higher temperature to the heat exchange device. The heat exchange between the wind with higher temperature and the water with lower temperature at the heat exchange device can take away a large amount of heat in the wind by absorbing the latent heat energy through the gasification of the liquid water, thereby achieving the effect of reducing the temperature of the wind, further providing a relatively low-temperature working environment for the compressor and ensuring the working efficiency of the compressor.
The utility model is further described below with reference to the accompanying drawings.
Drawings
FIG. 1 is a schematic diagram of a cold water type industrial air cooler in a preferred embodiment of the utility model.
Fig. 2 is a schematic structural view of a cold water type industrial air cooler according to another view angle in the preferred embodiment of the present utility model.
Fig. 3 is a schematic view of the wind direction and water direction distribution in the preferred embodiment of the present utility model.
Reference numerals illustrate:
the device comprises a heat radiation fan 1, an electric control board 2, a first liquid level sensor 3, a second liquid level sensor 4, a water pump 5, a water tank 6, a refrigerating device 7, a touch screen 8, a water inlet 9, an automatic water supplementing valve 10, a cleaning electromagnetic valve 11, a refrigerating water inlet 12, a refrigerating water outlet 13, a 14 diversion channel 15, a paper curtain 16, a fan and a pipeline fan 17.
Description of the embodiments
The present utility model is further illustrated and described in the following detailed description, which should be understood as being for the purpose of making the technical solution of the present utility model clearer and easier to understand, and not limiting the scope of the claims.
The utility model relates to a cold water type industrial air cooler, as shown in figure 3, which comprises a rack, wherein a wind power device and a cooling water device are arranged on the rack; and a heat exchange device is arranged between the wind power device and the cooling water device and comprises a net structure capable of keeping the cross flow heat exchange of wind and water.
In a preferred embodiment, as shown in fig. 1, the mesh structure is configured as a paper curtain 15, a filler panel or a shutter.
In a preferred embodiment, the top of the net structure is provided with a diversion groove 14, and the diversion groove 14 is connected with an output port of the cooling water device.
In a preferred embodiment, as shown in fig. 2, the wind power device is connected with an air duct, a bypass air duct 18 and a pipeline fan 17 are arranged at the air duct, the pipeline fan 17 is connected with the bypass air duct 18 and is used for providing induced air power for the bypass air duct 18, one end of the bypass air duct 18 is communicated with the air duct, and the other end of the bypass air duct 18 extends to the inside of the frame and is used for providing cold air for the compressor.
In a preferred embodiment, the cooling water device comprises a refrigerating device 7, a water tank 6 and a water pump 5, wherein the refrigerating device 7 is connected with the water tank 6 through a pipeline, and the water pump 5 is respectively connected with the water tank 6 and the heat exchange device.
In a preferred embodiment, the refrigerating device 7 is connected with a water inlet 9, a refrigerating water inlet 12 and a refrigerating water outlet 13, the water inlet 9 is connected with the refrigerating water inlet 12 through a pipeline, and the refrigerating water outlet 13 is connected with the water tank 6 through a pipeline.
In a preferred embodiment, the water tank 6 is provided with a first level sensor 3 and a second level sensor 4.
In a preferred embodiment, the water tank 6 is further provided with an automatic water replenishment valve 10 and a cleaning solenoid valve 11.
In a preferred embodiment, the housing is provided with a sink cover 19.
In a preferred embodiment, the wind power plant is a blade fan 16, the blade fan 16 being mounted at a top position of the frame.
In a preferred embodiment, the cooling water device is arranged on the frame at a position below the wind power device.
The utility model is further illustrated by the following examples.
Examples
The embodiment provides a cold water type industrial air cooler, which comprises a frame, a wind power device, a cooling water device and a heat exchange device.
The wind power device may be a blade fan 16 mounted at a top location of the frame.
The top of the wind power device is also connected with an air duct for conveying the cooled wind to other positions.
The cooling water device is arranged at a position below the wind power device on the frame and is used for providing cooling water.
The heat exchange device is arranged on the frame and is arranged between the wind power device and the cooling water device.
The implementation mode of heat exchange is as follows:
the cooling water device conveys water with lower temperature to the heat exchange device, and the wind power device guides wind with higher temperature to the heat exchange device. The wind with higher temperature and the water with lower temperature at the heat exchange device exchange heat, and a large amount of heat in the wind can be taken away by absorbing the latent heat energy through the gasification of the liquid water, so that the effect of reducing the wind temperature is achieved.
Specifically, the cooling water device comprises a refrigerating device 7, a water tank 6 and a water pump 5, wherein the refrigerating device 7 is connected with the water tank 6 through a pipeline, and the water pump 5 is respectively connected with the water tank 6 and the heat exchange device. The refrigerating device 7 reduces the water temperature at normal temperature and then conveys the reduced water to the water tank 6, and the water pump 5 conveys the cooled water to the heat exchange device.
In particular, the heat exchange means comprise a paper curtain 15.
The water pump 5 sprays the water after the cooling to the paper curtain 15, and the wind power device leads external hot air to the air channel through the paper curtain 15, and the cooling water and the hot air exchange heat at the paper curtain 15 to realize the cooling effect.
Specifically, the top of the paper curtain 15 is provided with a diversion groove 14, the diversion groove 14 is connected with the output port of the water pump 5, and cooling water can be uniformly distributed on the paper curtain 15 through the diversion groove 14.
The paper curtain 15 serves on the one hand as standing water and on the other hand as allowing hot air to pass through, providing a suitable structure for the heat exchange of cooling water and hot air. Other configurations may be employed to achieve the above-described technical objects. For example, other grid structures such as filler plates, louvers, etc. may be used that both extend the residence time of the cooling water and allow for air circulation.
Specifically, the refrigerating device 7 is connected with a water inlet 9, a refrigerating water inlet 12 and a refrigerating water outlet 13. The water inlet 9 is connected with the refrigerating water inlet 12 through a pipeline, and the refrigerating water outlet 13 is connected with the water tank 6 through a pipeline.
Specifically, the water tank 6 is provided with a first liquid level sensor 3 and a second liquid level sensor 4. By providing two sensors to monitor the water level in the water tank 6, it is possible to help adjust the amount of water supplied.
Meanwhile, an automatic water supplementing module can be arranged for the water tank 6, and the water level of the water tank 6 is kept through automatic detection of a sensor, so that the good running state of the compressor is timely ensured.
Specifically, the water tank 6 is further provided with an automatic water supplementing valve 10 and a cleaning electromagnetic valve 11.
Specifically, a touch screen 8 is provided on the chassis.
Specifically, a trough cover 19 is provided on the frame.
Specifically, an electric control board 2 is arranged on the frame.
Specifically, a heat dissipation fan 1 is provided on the frame.
In addition, a bypass duct 18 and a duct fan 17 are provided in the duct. One end of the bypass air pipe 18 is communicated with the interior of the air duct, and the other end of the bypass air pipe is connected with the compressor. The pipeline fan 17 is connected with the bypass air pipe 18 and is used for providing induced draft power for the bypass air pipe 18.
Because the wind in the air duct is the low-temperature wind after cooling, the bypass air duct 18 throttles the wind with lower temperature, leads out and blows the wind to the compressor, cools the compressor, and ensures the good running state of the compressor.
The present utility model is illustrated by way of example and not limitation, and other variations to the disclosed embodiments, as would be readily apparent to one skilled in the art, are intended to be within the scope of the utility model as defined in the claims.
Claims (10)
1. A cold water industry air-cooler, characterized in that:
the wind power generation device comprises a frame, wherein a wind power device and a cooling water device are arranged on the frame;
and a heat exchange device is arranged between the wind power device and the cooling water device and comprises a net structure capable of keeping the cross flow heat exchange of wind and water.
2. The cold water type industrial air cooler according to claim 1, wherein:
the mesh structure is configured as a paper curtain (15), a filler plate or a shutter.
3. The cold water type industrial air cooler according to claim 1, wherein:
the top of the net structure is provided with a diversion groove (14), and the diversion groove (14) is connected with an output port of the cooling water device.
4. The cold water type industrial air cooler according to claim 1, wherein:
the wind power device is connected with an air duct, and a bypass air pipe (18) and a pipeline fan (17) are arranged at the air duct; the pipeline fan (17) is connected with the bypass air pipe (18) and is used for providing induced draft power for the bypass air pipe (18); one end of the bypass air pipe (18) is communicated with the inside of the air duct, and the other end of the bypass air pipe extends to the inside of the frame to supply cold air for the compressor.
5. The cold water type industrial air cooler according to claim 1, wherein:
the cooling water device comprises a refrigerating device (7), a water tank (6) and a water pump (5), wherein the refrigerating device (7) is connected with the water tank (6) through a pipeline, and the water pump (5) is respectively connected with the water tank (6) and the heat exchange device.
6. The chilled water type industrial air cooler according to claim 5, wherein:
the refrigerating device (7) is connected with a water inlet (9), a refrigerating water inlet (12) and a refrigerating water outlet (13), the water inlet (9) is connected with the refrigerating water inlet (12) through a pipeline, and the refrigerating water outlet (13) is connected with the water tank (6) through a pipeline.
7. The chilled water type industrial air cooler according to claim 5, wherein:
the water tank (6) is provided with a first liquid level sensor (3) and a second liquid level sensor (4).
8. The chilled water type industrial air cooler according to claim 5, wherein:
the water tank (6) is also provided with an automatic water supplementing valve (10) and a cleaning electromagnetic valve (11).
9. The cold water type industrial air cooler according to claim 1, wherein:
the machine frame is provided with a water tank cover plate (19).
10. The cold water type industrial air cooler according to claim 1, wherein:
the wind power device is a blade type fan (16), and the blade type fan (16) is arranged at the top of the frame.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320126594.5U CN219368462U (en) | 2023-01-13 | 2023-01-13 | Cold water type industrial air cooler |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320126594.5U CN219368462U (en) | 2023-01-13 | 2023-01-13 | Cold water type industrial air cooler |
Publications (1)
Publication Number | Publication Date |
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CN219368462U true CN219368462U (en) | 2023-07-18 |
Family
ID=87140896
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202320126594.5U Active CN219368462U (en) | 2023-01-13 | 2023-01-13 | Cold water type industrial air cooler |
Country Status (1)
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CN (1) | CN219368462U (en) |
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2023
- 2023-01-13 CN CN202320126594.5U patent/CN219368462U/en active Active
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