CN220959086U - Pump house internal circulation constant temperature dehumidification system - Google Patents

Abstract

The application relates to a pump house internal circulation constant temperature dehumidification system, which relates to the field of internal circulation constant temperature dehumidification, and comprises an airflow driving structure, a dehumidification structure and a cooling structure, wherein the cooling structure is connected with the dehumidification structure, the airflow driving structure is arranged on a communication passage where the dehumidification structure and the cooling structure are positioned, the dehumidification structure comprises at least two dehumidification boxes, adjacent dehumidification boxes are connected through a ventilation pipe, a dehumidification box flow dividing valve is arranged on a pipeline between the adjacent dehumidification boxes, a dehumidification box flow dividing bypass pipeline is arranged on the dehumidification box flow dividing valve, and the dehumidification box flow dividing bypass pipeline is connected with the cooling structure. The application has the function of ensuring the dehumidifying effect of the air in the pump room.

Description

Pump house internal circulation constant temperature dehumidification system

Technical Field

The application relates to the field of internal circulation constant temperature dehumidification, in particular to a pump house internal circulation constant temperature dehumidification system.

Background

The pump house is a factory building for installing equipment such as a water pump, a power machine and the like. The frequency converter is usually installed in the pump house, and the rotation speed of the motor of the equipment such as the water pump, the power machine and the like is adjusted through the frequency converter, and the working power of the frequency converter is required to be higher because the power of the equipment such as the water pump, the power machine and the like is higher.

Because the working power of the frequency converter is higher, the frequency converter can radiate heat outwards, so that the temperature in the pump room rises, the power of the frequency converter can be influenced, the service life of the frequency converter is even influenced, and because of the working of equipment such as a water pump and the like, the humidity of air in the pump room is also higher. The air in the pump room is cooled and dehumidified usually by fans, dehumidifying devices and other devices.

The existing constant-temperature dehumidifying device in the pump room generally only uses a single dehumidifying device to dehumidify the air in the pump room, and cannot guarantee the dehumidifying effect on the air in the pump room.

Disclosure of utility model

In order to ensure the dehumidification effect on the air in the pump room, the application provides a constant-temperature dehumidification system for the circulation in the pump room.

The application provides a pump house internal circulation constant temperature dehumidification system, which adopts the following technical scheme:

The utility model provides a constant temperature dehumidification system of pump house inner loop, includes air current drive structure, dehumidification structure and cooling structure, cooling structure with dehumidification structure connects, air current drive structure sets up dehumidification structure with on the communication path that cooling structure is located, dehumidification structure includes two at least dehumidification casees, adjacent the dehumidification case is connected, adjacent be provided with the dehumidification case shunt valve on the pipeline between the dehumidification case, be provided with the dehumidification case reposition of redundant personnel pipeline on the dehumidification case shunt valve, the dehumidification case reposition of redundant personnel pipeline with cooling structure connects.

By adopting the technical scheme, the cooling structure is connected with the dehumidifying structure, so that the temperature of the gas in the pump room can be kept and the gas can be dehumidified; the air flow driving structure arranged on the communication path where the dehumidification structure and the cooling structure are positioned is used for facilitating the circulation flow of the air in the pump room and the air in the constant temperature dehumidification device; the dehumidifying structure comprises at least two dehumidifying boxes and a dehumidifying box flow dividing valve arranged on a pipeline, gas reaching the expected dehumidifying effect can be introduced into the cooling structure, gas not reaching the expected dehumidifying effect is introduced into the next dehumidifying box for continuous dehumidification, and the drying of the gas is guaranteed.

In a specific embodiment, a dehumidifying box is arranged in the dehumidifying box, and a water absorbing material is arranged in the dehumidifying box.

By adopting the technical scheme, the moisture in the gas introduced into the dehumidifying box can be absorbed by arranging the dehumidifying box with the water absorbing material.

In a specific embodiment, the dehumidifying box diverter valve is configured as a dehumidifying box electromagnetic diverter valve, and the dehumidifying box electromagnetic diverter valve is provided with a humidity detector, and the humidity detector is electrically connected with the dehumidifying box electromagnetic diverter valve.

Through adopting above-mentioned technical scheme, utilize with the humidity transducer of dehumidification case electromagnetic flow divider electric connection, can control the switch of flow divider valve, control reaches the direction of flow of the gas that expects dehumidification effect and did not reach anticipated dehumidification effect, improve work efficiency.

In a specific embodiment, the cooling structure includes a water tank, a refrigerator water inlet pipe, a refrigerator water outlet pipe and a cooling fin, the refrigerator is connected with the water tank through the refrigerator water inlet pipe and the refrigerator water outlet pipe respectively, so that water can circulate between the water tank and the refrigerator, and the cooling fin is arranged on the refrigerator water inlet pipe.

Through adopting above-mentioned technical scheme, utilize the fin that sets up on the refrigerator inlet tube, can carry out the cooling in advance to the refrigeration water after carrying out the heat exchange, make the refrigeration water after the cooling in advance get into the refrigerator and carry out the complete cooling afterwards, be favorable to improving refrigeration efficiency.

In a specific implementation manner, the cooling device further comprises a cooling pipe, wherein the cooling pipe is arranged in the water tank, and two ends of the cooling pipe are connected with the communication passage where the dehumidifying structure and the cooling structure are located.

Through adopting above-mentioned technical scheme, utilize the cooling tube that sets up in the water tank, through the area of contact of increase refrigeration water and gas, improve the heat exchange efficiency of gas and refrigeration water.

In a specific implementation manner, a temperature sensor is arranged at the air outlet of the cooling structure, and the temperature sensor is electrically connected with the refrigerator.

By adopting the technical scheme, the circulating flow speed of the refrigerating water in the refrigerator and the water tank can be controlled by utilizing the temperature sensor electrically connected with the refrigerator, so that the gas can quickly reach the expected temperature.

In a specific embodiment, the cooling device further comprises an air outlet device, and the air outlet device is connected with the cooling structure.

Through adopting above-mentioned technical scheme, utilize the air-out device of being connected with cooling structure, be favorable to increasing the diffusion rate of the gaseous after the cooling in the pump house, improve heat exchange's efficiency.

In a specific embodiment, the air outlet device is arranged at an air inlet of the frequency converter in the pump room.

Through adopting above-mentioned technical scheme, utilize the air-out device of the air intake department that sets up the converter in the pump house, can make the gas after the cooling carry out abundant heat exchange with the air in the converter, can be through the temperature of reducing the interior great environment of converter to cool down the converter.

In summary, the present application includes at least one of the following beneficial technical effects:

1. Through the airflow driving structure, the dehumidifying structure, the cooling structure and the cooling structure diverter valve, the drying of the gas and the cooling of the gas can be ensured, and the circulating flow of the gas in the pump room is facilitated;

2. The circulating flow speed of the refrigerating water between the refrigerator and the water tank can be controlled through the temperature sensor, so that the cooling effect on gas is improved;

3. Through the humidity inductor, the switch of the valve of the split valve of the dehumidifying box can be controlled, and the dehumidifying effect of gas is guaranteed.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a cross-sectional view of a water tank in a refrigeration construction according to an embodiment of the present application.

Reference numerals illustrate: 1. an air flow driving structure; 2. a dehumidifying structure; 21. a dehumidifying box; 3. a cooling structure; 31. a refrigerator; 32. a water tank; 33. a water inlet pipe of the refrigerator; 34. a water outlet pipe of the refrigerator; 35. a heat radiating pipe; 36. a heat sink; 4. a dehumidifying shunt valve; 5. a humidity sensor; 6. a temperature sensor; 7. and an air outlet structure.

Detailed Description

In the description of the present application, it should be noted that, unless explicitly stated and limited otherwise, the terms "disposed" and "connected" should be interpreted broadly, and for example, they may be fixedly connected, detachably connected, or integrally connected; either directly or indirectly via an intermediate medium, or in communication with each other or in interaction with each other. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

The embodiment of the application discloses a constant-temperature dehumidification system for pump house internal circulation. As shown in fig. 1 and 2, the pump house internal circulation constant temperature dehumidification system comprises an airflow driving structure 1, a dehumidification structure 2, a cooling structure 3, a dehumidification flow dividing valve 4, a humidity sensor 5, a temperature sensor 6 and an air outlet structure 7. The dehumidifying structure 2 comprises two dehumidifying boxes 21, a storage box filled with water absorbing materials is arranged in the dehumidifying boxes 21, the water absorbing materials can be quick lime, super absorbent resin and the like, the dehumidifying flow dividing valve 4 is arranged on a pipeline connecting the two dehumidifying boxes 21, the dehumidifying flow dividing valve 4 can be an electronic flow dividing valve, a dehumidifying box flow dividing bypass pipeline is arranged on the dehumidifying flow dividing valve 4 and is connected with the cooling structure 3, a humidity sensor 5 is arranged on the dehumidifying flow dividing valve 4, the humidity sensor 5 is electrically connected with the dehumidifying flow dividing valve 4, when humidity reaches a requirement, the dehumidifying box 21 flow dividing bypass pipeline is controlled to be opened, the pipeline between adjacent dehumidifying boxes 21 is closed, gas is directly introduced into the cooling structure 3, when the humidity does not reach the requirement, the pipeline between the adjacent dehumidifying boxes 21 is opened, the dehumidifying box 21 flow dividing bypass pipeline is closed, the gas is dehumidified again, one end of the dehumidifying structure 2 is connected with the air inlet pipeline, and the other end of the dehumidifying structure 2 is connected with the cooling structure 3.

The cooling structure 3 comprises a refrigerator 31, a water tank 32, a refrigerator water inlet pipe 33, a refrigerator water outlet pipe 34, a radiating pipe 35 and radiating fins 36, wherein the refrigerator 31 is connected with the water tank 32 through the refrigerator water inlet pipe 33 and the refrigerator water outlet pipe 34, the radiating fins 36 are arranged on the refrigerator water inlet pipe 33, a circulating water pump and a cooling component are arranged in the refrigerator 31, one end of the cooling structure 3 is connected with the water inlet pipe of the refrigerator 31, the other end of the cooling structure 3 is connected with one end of the circulating water pump, the other end of the circulating water pump is connected with the water outlet pipe of the refrigerator 31, the radiating pipe 35 is arranged in the water tank 32, the radiating pipe 35 can be spirally arranged in the water tank 32 and also can be folded into a U shape and arranged in the water tank 32, and two ends of the radiating pipe 35 are connected with a ventilation pipe.

The cooling structure 3 gas outlet is connected with the breather pipe, be provided with temperature-sensing ware 6 on the breather pipe of cooling structure 3 gas outlet department, temperature-sensing ware 6 and the circulating water pump electric connection in the refrigerator 31, can control circulating water pump's power, thereby control the circulation velocity of refrigerating water in refrigerator 31 and water tank 32, improve cooling structure 3's cooling effect, set up air current drive structure 1 on the breather pipe of cooling structure 3 gas outlet department, air current drive structure 1 can set up the air-blower, air current drive structure 1 one end is connected with air-out structure 7, air-out structure 7 can set up into fight form metallic structure, be provided with a plurality of air guide plates on the air-out structure 7, air-out structure 7 sets up the air intake department at the interior converter of pump house.

The embodiment of the application relates to a pump house internal circulation constant temperature dehumidification system, which comprises the following implementation principles: the air blower is turned on to promote the circulating flow of the air in the pump room and the constant temperature dehumidification device, the air enters the device from the air inlet, the air enters the dehumidification structure 2 along with the ventilation pipe, firstly, the moisture in the air is absorbed through the storage box filled with the water absorbing material in the dehumidification box 21, then the dehumidified air is detected through the humidity sensor 5, the air with the humidity reaching the requirement is directly communicated into the cooling structure 3, the air with the humidity not reaching the requirement enters the next dehumidification box 21 to dehumidify again, the dehumidified air enters the water tank 32, the air is cooled through the heat exchange between the air and the refrigerated water, the refrigerated water in the water tank 32 circulates in the refrigerator 31 and the water tank 32 under the action of the circulating water pump in the refrigerator 31, the cooled water after heat exchange flows into the water tank 32 again through the cooling fin 36 arranged on the water inlet pipe 33 of the refrigerator and the refrigerator 31, the cooled air is detected through the temperature sensor 6, if the temperature does not reach the requirement, the circulating water pump in the refrigerator 31 is controlled, the circulating flow speed in the water tank 31 and finally, the cooled air is completely cooled through the frequency converter 7.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. A constant temperature dehumidification system of pump house inner loop, its characterized in that: including air current drive structure (1), dehumidification structure (2) and cooling structure (3), cooling structure (3) with dehumidification structure (2) are connected, air current drive structure (1) set up dehumidification structure (2) with on the communication path that cooling structure (3) are located, dehumidification structure (2) include two at least dehumidification casees (21), are adjacent dehumidification casees (21) are connected, are adjacent be provided with dehumidification shunt valve (4) on the pipeline between dehumidification casees (21), be provided with dehumidification case shunt bypass pipeline on dehumidification shunt valve (4), dehumidification case shunt bypass pipeline with cooling structure (3) are connected.

2. The pump house circulation constant temperature dehumidification system as claimed in claim 1, wherein: a dehumidifying box is arranged in the dehumidifying box (21), and a water absorbing material is arranged in the dehumidifying box.

3. The pump house circulation constant temperature dehumidification system as claimed in claim 1, wherein: the dehumidification flow distribution valve (4) is arranged to be a dehumidification box electromagnetic flow distribution valve, a humidity sensor (5) is arranged on the dehumidification box electromagnetic flow distribution valve, and the humidity sensor (5) is electrically connected with the dehumidification box electromagnetic flow distribution valve.

4. The pump house circulation constant temperature dehumidification system as claimed in claim 1, wherein: the cooling structure (3) comprises a refrigerator (31), a water tank (32), a refrigerator water inlet pipe (33), a refrigerator water outlet pipe (34) and cooling fins (36), wherein the refrigerator (31) is connected with the water tank (32) through the refrigerator water inlet pipe (33) and the refrigerator water outlet pipe (34) respectively, so that water can circularly flow between the water tank (32) and the refrigerator (31), and the cooling fins (36) are arranged on the refrigerator water inlet pipe (33).

5. The pump house circulation constant temperature dehumidification system as claimed in claim 4, wherein: the cooling device comprises a water tank (32), and is characterized by further comprising a cooling pipe (35), wherein the cooling pipe (35) is arranged in the water tank (32), and both ends of the cooling pipe (35) are connected with a communication passage where the dehumidifying structure (2) and the cooling structure (3) are located.

6. The pump house circulation constant temperature dehumidification system as claimed in claim 4, wherein: the cooling structure (3) air outlet department is provided with temperature-sensing ware (6), temperature-sensing ware (6) with refrigerator (31) electric connection.

7. The pump house circulation constant temperature dehumidification system as claimed in claim 1, wherein: the cooling device further comprises an air outlet structure (7), and the air outlet structure (7) is connected with the cooling structure (3).

8. The pump house circulation constant temperature dehumidification system as claimed in claim 7, wherein: the air outlet structure (7) is arranged at the air inlet of the frequency converter in the pump room.