CN214198984U - Air conditioner air supply system in air compression station - Google Patents

Abstract

The utility model relates to an air conditioning air supply system in air compression station, including air conditioning unit, forced draught blower and the main wind channel of setting between air conditioning unit and forced draught blower, air conditioning unit is linked together through main wind channel and forced draught blower, is equipped with air compressor machine branch road wind channel on the main wind channel, and the one end in air compressor machine branch road wind channel is equipped with air compressor machine branch road wind channel air outlet, and the induction port of air compressor machine is located air compressor machine branch road wind channel air outlet department. Compared with the prior art, the utility model discloses set up air conditioning unit and forced draught blower in the air compression station to be linked together air conditioning unit and forced draught blower through main wind channel, utilize air compressor machine branch road wind channel to draw forth some cold wind in the main wind channel simultaneously, with provide cold wind to the air compressor machine, reduced the temperature of breathing in of air compressor machine, and then improved the efficiency of air compressor machine, reduced the energy consumption of air compressor machine.

Description

Air conditioner air supply system in air compression station

Technical Field

The utility model belongs to the technical field of the air compression station, a air conditioner air supply system in air compression station is related to.

Background

The air compression station is also called as a compressed air station and mainly comprises an air compressor, an air storage tank (divided into a primary air storage tank and a secondary air storage tank), air treatment and purification equipment, a cold dryer and the like. Wherein, the air compressor machine can produce a large amount of heats in the course of the work, and other equipment also can produce the heat, and these heats are continuously accumulated in the air compression station room, make the temperature in the air compression station room constantly rise.

At present, for a common centralized air compression station house, the ventilation in the station house is mainly controlled through doors and windows and an exhaust fan, and hot air is exhausted out of the station house, so that the temperature in the station house is adjusted, and the overhigh temperature in the station house is avoided. However, because the centrifugal air compressor unit can generate a large amount of heat during operation, the temperature in the station room cannot be effectively reduced by the conventional heat dissipation mode, so that the ambient temperature in the station room is still high, the air inlet temperature of the air compressor is influenced, and the efficiency of the air compressor is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an air conditioning air supply system in air compression station, this system can effectively reduce the temperature of breathing in of air compressor machine to improve the efficiency of air compressor machine.

The purpose of the utility model can be realized through the following technical scheme:

the utility model provides an air conditioning air supply system in air compression station, this system sets up in the air compression station room, the air compression station room in be equipped with the air compressor machine, air conditioning air supply system include air conditioning unit, forced draught blower and set up the main wind channel between air conditioning unit and forced draught blower, air conditioning unit be linked together through main wind channel and forced draught blower, the main wind channel on be equipped with air compressor machine branch road wind channel, the one end in air compressor machine branch road wind channel be equipped with air compressor machine branch road wind channel air outlet, the induction port of air compressor machine be located air compressor machine branch road wind channel air outlet department. The air conditioning unit generates cold air, and the cold air is sent into the air compression station room through the main air duct and the air feeder, so that the ambient temperature in the air compression station room is reduced. When the air compressor machine works, a part of cold air in the main air duct enters the air compressor machine branch air duct and is discharged through the air outlet of the air compressor machine branch air duct, and the corresponding air compressor machine directly sucks the cold air through the air suction port, so that the air inlet temperature of the air compressor machine is effectively reduced.

Preferably, the air conditioning unit is a combined air conditioning unit, and the blower is a box blower.

Furthermore, a plurality of air compressors are arranged in the air compression station room, a plurality of air compressor branch air channels are arranged on the main air channel, and air suction ports of the air compressors are located at air outlet positions of the corresponding air compressor branch air channels. For the centralized air compression station, cold air can be respectively conveyed to the branch air channels of the air compressors through the main air channel, so that the corresponding air compressors can suck the cold air.

Furthermore, the opening of the air outlet of the air compressor branch air duct faces downwards, and the air suction port of the air compressor is positioned right below the air outlet of the air compressor branch air duct. Because cold wind can flow downwards, consequently with the induction port setting of air compressor machine under the air compressor machine branch road wind channel air outlet, be convenient for fully absorb cold wind.

Furthermore, a wind valve baffle is arranged in the main air duct. The air valve baffle can adjust the flow of cold air in the main air duct.

Further, an air outlet valve of the air compressor branch air duct is arranged at the air outlet of the air compressor branch air duct. According to the quantity and the distribution of the air compressors needing to be started, the corresponding air compressor branch air channel air outlet valves are opened to provide cold air for the air compressors, and the cold air supply quantity can be adjusted through the air compressor branch air channel air outlet valves.

Furthermore, a cooling and drying machine is arranged in the air compression station room, a cooling and drying machine branch air channel is arranged on the main air channel, a cooling and drying machine branch air channel air outlet with a downward opening is formed in one end of the cooling and drying machine branch air channel, and the cooling and drying machine is located below the cooling and drying machine branch air channel air outlet. The air-cooled type cold drying machine can also adopt a similar mode, and the cold air in the main air duct is led out partially by the branch air duct of the cold drying machine to provide low-temperature air for the cold drying machine.

Furthermore, an air outlet valve of the branch air duct of the air dryer is arranged at the air outlet of the branch air duct of the air dryer. The valve of the air outlet of the branch air duct of the refrigeration dryer can adjust the opening and closing and the flow of the air outlet of the branch air duct of the corresponding refrigeration dryer.

Further, the air conditioning unit is a water-cooled air conditioning unit.

Furthermore, a cold water supply pipe and a cold water return pipe are arranged on the air conditioning unit. The cold water supply pipe provides cold water for the air conditioning unit, and the cold water after heat exchange and temperature rise is discharged through the cold water return pipe.

Further, the system also comprises a temperature sensor arranged in the main air duct and a controller electrically connected with the temperature sensor, wherein the controller is electrically connected with the air conditioning unit. The temperature sensor can monitor the temperature in the main air duct in real time and feed back the controller, and the controller correspondingly adjusts the refrigerating capacity of the air conditioning unit according to the working condition requirement.

The power consumption of the centrifugal air compressor is related to factors such as air displacement, ambient temperature, pressure ratio and efficiency, the ambient temperature is reduced, and the power consumption of the centrifugal air compressor can be reduced. The utility model discloses an air conditioning unit operation produces cold wind, passes through air compressor machine branch air duct with cold wind and transmits to every centrifugal air compressor's suction opening department to the long-range aperture control of accessible realizes carrying cold wind to the air compressor machine in different seasons, reduces the inlet air temperature of air compressor machine induction port, and then reduces the air compressor machine power consumption.

Compared with the prior art, the utility model has the characteristics of it is following:

1) an air conditioning unit and a blower are arranged in the air compression station, the air conditioning unit is communicated with the blower through a main air duct, and meanwhile, a part of cold air in the main air duct is led out by utilizing a branch air duct of the air compressor so as to provide cold air for the air compressor, so that the suction temperature of the air compressor is reduced, the efficiency of the air compressor is further improved, and the energy consumption of the air compressor is reduced;

2) cold air can be conveyed into the air compression station in different seasons, and no adverse effect is generated on the operation of the air compression unit;

3) the air compressor station has the advantages that the environment temperature in the air compressor station room can be reduced, the air suction temperature of each air compressor can be reduced in a targeted mode, the application effect of the centralized air compressor station is obvious, and the air compressor station is easy to popularize.

Drawings

Fig. 1 is a schematic top view of the present invention;

fig. 2 is a left side view structure diagram of the present invention;

the notation in the figure is:

the air conditioner comprises a 1-air compression station room, a 2-air compressor, a 3-air conditioning unit, a 4-blower, a 5-main air duct, a 6-air compressor branch air duct, a 7-air compressor branch air duct air outlet, an 8-air suction port, a 9-air dryer, a 10-air dryer branch air duct, an 11-air dryer branch air duct air outlet, a 12-air valve baffle, a 13-cold water supply pipe and a 14-cold water return pipe.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments. The embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

Example (b):

as shown in fig. 1 and 2, the air conditioning and air supplying system in the air compression station is arranged in an air compression station room 1, and an air compressor 2 is arranged in the air compression station room 1. The air supply system of the air conditioner comprises an air conditioning unit 3, an air feeder 4 and a main air duct 5 arranged between the air conditioning unit 3 and the air feeder 4, wherein the air conditioning unit 3 is communicated with the air feeder 4 through the main air duct 5, an air compressor branch air duct 6 is arranged on the main air duct 5, an air compressor branch air duct air outlet 7 is arranged at one end of the air compressor branch air duct 6, and an air suction port 8 of the air compressor 2 is positioned at the air compressor branch air duct air outlet 7.

Wherein, be equipped with a plurality of air compressors 2 in the air compression station room 1, be equipped with a plurality of air compressor branch road wind channels 6 on the main air duct 5, the induction port 8 of air compressor 2 is located the air compressor branch road wind channel air outlet 7 department that corresponds. The opening of the air compressor branch air duct air outlet 7 is downward, and the air suction port 8 of the air compressor 2 is positioned right below the air compressor branch air duct air outlet 7. A damper 12 is arranged in the main air duct 5. An air compressor branch air duct air outlet valve is arranged at the air compressor branch air duct air outlet 7.

A cooling and drying machine 9 is arranged in the air compression station room 1, a cooling and drying machine branch air duct 10 is arranged on the main air duct 5, a cooling and drying machine branch air duct air outlet 11 with a downward opening is arranged at one end of the cooling and drying machine branch air duct 10, and the cooling and drying machine 9 is positioned below the cooling and drying machine branch air duct air outlet 11. And a branch air duct air outlet valve of the cold drying machine is arranged at the branch air duct air outlet 11 of the cold drying machine.

The air conditioning unit 3 is a water-cooled air conditioning unit. The air conditioning unit 3 is provided with a cold water supply pipe 13 and a cold water return pipe 14.

The system also comprises a temperature sensor arranged in the main air duct 5 and a controller electrically connected with the temperature sensor, wherein the controller is electrically connected with the air conditioning unit 3.

During the application, be linked together air conditioning unit 3 and forced draught blower 4 through main wind channel 5, utilize air compressor machine branch road wind channel 6 to draw forth the partly cold wind in the main wind channel 5 to provide cold wind to air compressor machine 2, reduced air compressor machine 2's the temperature of breathing in, and then improved air compressor machine 2's efficiency, reduced air compressor machine 2's energy consumption.

The embodiments described above are intended to facilitate the understanding and use of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention according to the disclosure of the present invention.

Claims (10)

1. The utility model provides an air conditioning air supply system in air compression station, this system sets up in air compression station room (1), air compression station room (1) in be equipped with air compressor machine (2), its characterized in that, air conditioning air supply system include air conditioning unit (3), forced draught blower (4) and set up main wind channel (5) between air conditioning unit (3) and forced draught blower (4), air conditioning unit (3) be linked together through main wind channel (5) and forced draught blower (4), main wind channel (5) on be equipped with air compressor machine branch road wind channel (6), the one end in air compressor machine branch road wind channel (6) be equipped with air compressor machine branch road wind channel air outlet (7), induction port (8) of air compressor machine (2) be located air compressor machine branch road wind channel air outlet (7) department.

2. The air conditioning air supply system in the air compression station as claimed in claim 1, wherein a plurality of air compressors (2) are arranged in the air compression station room (1), a plurality of air compressor branch air ducts (6) are arranged on the main air duct (5), and air suction ports (8) of the air compressors (2) are positioned at corresponding air compressor branch air duct air outlets (7).

3. The air conditioning air supply system in the air compressor station as claimed in claim 1, wherein the opening of the air compressor branch air duct air outlet (7) is downward, and the air suction port (8) of the air compressor (2) is located right below the air compressor branch air duct air outlet (7).

4. An air conditioning and supply system in an air compression station as claimed in claim 1, characterized in that the main duct (5) is internally provided with a damper flap (12).

5. The air conditioning air supply system in the air compression station as claimed in claim 1, wherein an air compressor branch duct air outlet valve is arranged at the air compressor branch duct air outlet (7).

6. The air conditioning and air supplying system in the air compression station as claimed in claim 1, wherein a cooling and drying machine (9) is arranged in the air compression station room (1), a cooling and drying machine branch air duct (10) is arranged on the main air duct (5), a cooling and drying machine branch air duct air outlet (11) with a downward opening is arranged at one end of the cooling and drying machine branch air duct (10), and the cooling and drying machine (9) is located below the cooling and drying machine branch air duct air outlet (11).

7. The air conditioning and air supplying system in the air compression station as claimed in claim 6, wherein the branch duct outlet (11) of the air cooler/dryer is provided with a branch duct outlet valve.

8. An air conditioning and supply system in an air compression station according to claim 1, characterized in that said air conditioning unit (3) is a water-cooled air conditioning unit.

9. The air conditioning air supply system in the air compression station as claimed in claim 8, wherein the air conditioning unit (3) is provided with a cold water supply pipe (13) and a cold water return pipe (14).

10. An air conditioning and air supplying system in an air compression station as claimed in claim 1, characterized in that the system further comprises a temperature sensor arranged in the main air duct (5) and a controller electrically connected with the temperature sensor, wherein the controller is electrically connected with the air conditioning unit (3).

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