CN212296777U - Energy-saving room temperature automatic control system of air compression station - Google Patents

Abstract

The utility model provides an energy-saving room temperature automatic control system of air compression station, including air compressor machine, air compression station, heat dissipation exhaust duct and controlling means, the air compressor machine is located in the air compression station, heat dissipation exhaust duct's air inlet is connected with the air compressor machine, heat dissipation exhaust duct includes outdoor gas vent and is used for controlling the first switching device of opening and closing of outdoor gas vent, heat dissipation exhaust duct still includes indoor gas vent and is used for controlling the second switching device of opening and closing of indoor gas vent, the air compression station still includes ventilation window and is used for controlling the third switching device of opening and closing of ventilation window, still be provided with temperature-detecting device in the air compression station, controlling means is used for the first switching device of temperature control according to temperature-detecting device detects, second switching device and third switching device. The system solves the technical problems that the room temperature in the existing air compression station is not well controlled and the risk of overhigh or overlow room temperature still exists.

Description

Energy-saving room temperature automatic control system of air compression station

Technical Field

The utility model relates to an air compression station technical field, in particular to energy-saving room temperature automatic control system of air compression station.

Background

If the room temperature of an air compressor in an air compression station is high in the running process of the air compressor in the air compression station, the running temperature of the air compressor is too high, the heat dissipation effect is insufficient, and the equipment is overloaded and stopped; the low room temperature causes the low temperature abnormity of the air compressor, causes the low temperature alarm and can not be started.

The air compressor machine operation in-process itself can produce a large amount of heats, for the normal operating of guaranteeing the air compressor machine, can install the heat dissipation pipeline with the cooling system department of air compressor machine usually and discharge to the air compressor station outdoors, and usually have dedicated ventilation window on the wall of air compressor station, however, all be independent operation between the cooling system of air compressor machine and the ventilation window of air compressor station, the temperature of air compressor machine operation can not be controlled well, still has the too high or too low risk of room temperature.

Based on this, the prior art is certainly subject to improvement.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that need solve is that the room temperature in the current air compression station is not well controlled, still has the too high or low risk of crossing of room temperature.

In order to solve the problem, the utility model provides an energy-saving room temperature automatic control system of air compression station, the technical scheme of its adoption as follows:

the energy-saving room temperature automatic control system of the air compression station comprises an air compressor, the air compression station, a heat dissipation exhaust pipeline and a control device, wherein the air compressor is positioned in the air compression station, an air inlet of the heat dissipation exhaust pipeline is connected with the air compressor, the heat dissipation exhaust pipeline comprises an outdoor exhaust port and a first switch device for controlling the opening and closing of the outdoor exhaust port, the outdoor exhaust port is positioned outside the air compression station, the heat dissipation exhaust pipeline further comprises an indoor exhaust port and a second switch device for controlling the opening and closing of the indoor exhaust port, the indoor exhaust port is positioned inside the air compression station, the air compression station further comprises a ventilation window and a third switch device for controlling the opening and closing of the ventilation window, a temperature detection device is further arranged in the air compression station and used for monitoring the temperature in the air compression station, the temperature detection device, the first switch device, the second switch device and the third switch device are electrically connected with the control device, and the control device is used for controlling the first switch device, the second switch device and the third switch device according to the temperature detected by the temperature detection device.

Preferably, the control means are adapted to,

and when the temperature detected by the temperature detection device is higher than or equal to 10 ℃, controlling the first switch device to open the outdoor exhaust port, controlling the second switch device to open the indoor exhaust port and controlling the third switch device to open the ventilation window.

Preferably, the control means are adapted to,

and when the temperature detected by the temperature detection device is higher than or equal to 0 ℃ and lower than 10 ℃, controlling the first switch device to open the outdoor exhaust port, controlling the second switch device to close the indoor exhaust port and controlling the third switch device to close the ventilation window.

Preferably, the control means are adapted to,

and when the temperature detected by the temperature detection device is higher than or equal to-5 ℃ and lower than 0 ℃, controlling the first switch device to open the outdoor exhaust port, the second switch device to open the indoor exhaust port and the third switch device to close the ventilation window.

Preferably, the control means are adapted to,

and when the temperature detected by the temperature detection device is lower than-5 ℃, controlling the first switch device to close the outdoor exhaust port, controlling the second switch device to open the indoor exhaust port and controlling the third switch device to close the ventilation window.

Preferably, the number of the ventilation windows is plural, and each of the ventilation windows is provided with the third switching device for controlling the opening and closing thereof.

Preferably, the number of the ventilation windows is two.

Preferably, the temperature detection means comprises a temperature sensor.

Preferably, the number of the temperature sensors is plural.

Preferably, the air compression station is of a square structure, the number of the temperature sensors is five, four of the temperature sensors are respectively mounted on four side faces of the air compression station, and the other temperature sensor is located at the top of the air compression station.

The utility model has the advantages that: the temperature detection device is used for detecting the room temperature of the air compression station, and the control device is used for controlling the first switch device, the second switch device and the third switch device according to the temperature detected by the temperature detection device, so that the opening and closing of the outdoor exhaust port, the indoor exhaust port and the ventilation window are controlled, the room temperature of the air compression station is controlled better, and the normal operation of the air compressor is ensured better.

Drawings

Fig. 1 is a schematic structural diagram of an energy-saving room temperature automatic control system of an air compression station according to an embodiment of the present invention.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples.

As shown in fig. 1, the utility model provides an energy-saving room temperature automatic control system of air compression station 1, this energy-saving room temperature automatic control system of air compression station 1 includes air compressor machine 2, air compression station 1, heat dissipation exhaust duct 3 and controlling means (not shown in the figure), air compressor machine 2 is located in air compression station 1, heat dissipation exhaust duct 3's air inlet with air compressor machine 2 is connected, heat dissipation exhaust duct 3 includes outdoor gas vent 4 and is used for control the first switching device 7 of opening and closing of outdoor gas vent 4, outdoor gas vent 4 is located the air compression station 1 outside, heat dissipation exhaust duct 3 still includes indoor gas vent 5 and is used for control the second switching device 8 of opening and closing of indoor gas vent 5, indoor gas vent 5 is located air compression station 1 is inboard, air compression station 1 still includes ventilation window 6 and is used for control the third device of opening and closing of ventilation window 6 9, still be provided with temperature-detecting device (not shown in the figure) in the air compressing station 1 for monitor the temperature in the air compressing station 1, temperature-detecting device, first switching device 7, second switching device 8 and third switching device 9 all with controlling means electric connection, controlling means is used for according to the temperature control that temperature-detecting device detected first switching device 7, second switching device 8 and third switching device 9. This energy-saving room temperature automatic control system of air compression station 1 detects the room temperature of air compression station 1 through temperature-detecting device, and controlling means controls first switching device 7, second switching device 8 and third switching device 9 according to the temperature that temperature-detecting device detected, and then controls opening and closing of outdoor gas vent 4, indoor gas vent 5 and ventilation window 6 to control the room temperature of air compression station 1 better, ensure the normal operating of air compressor machine 2 better.

Further, as shown in fig. 1, the number of the ventilation windows 6 is multiple, where multiple means is greater than or equal to two, for example, two ventilation windows 6 are provided, and each ventilation window 6 is provided with the third switching device 9 for controlling the opening and closing of the ventilation window, so as to better ensure the heat dissipation effect and ensure the normal operation of the air compressor 2.

Further, the temperature detection device comprises a plurality of temperature sensors, for example, the air compression station 1 is of a square structure, the number of the temperature sensors is five, four of the temperature sensors are respectively installed on four side surfaces of the air compression station 1, and the other temperature sensor is located at the top of the air compression station 1, so as to better detect the indoor temperature of the air compression station 1, thus more accurately controlling the room temperature of the air compression station 1 and better ensuring the normal operation of the air compressor 2.

In a concrete embodiment, as shown in fig. 1, the one end of heat dissipation exhaust pipe 3 at air compressor machine 2 links to each other with air compressor machine 2, and the other end is located outside air compression station 1, forms outdoor gas vent 4, and indoor part cutting out of heat dissipation exhaust pipe says indoor gas vent 5, and the installation apron is controlled to the installation cylinder and is opened and shut on indoor and outdoor gas vent, and the cylinder obtains the air supply through air compressor machine 2, and structural layout is reasonable. The same installation apron and installation cylinder control apron open and shut on the ventilation window 6 of air compression station 1, the same cylinder obtains the air supply through air compressor machine 2.

All the cover plate operations are centrally controlled by temperature sensors and control devices in the air compression station 1:

when the room temperature is higher than or equal to 10 ℃, a cover plate of a ventilation window 6 of the air compression station 1 is opened, a cover plate of an outdoor exhaust port 4 of a heat dissipation exhaust pipeline 3 of the air compressor 2 is opened, a cover plate of an indoor exhaust port 5 of the heat dissipation exhaust pipeline 3 of the air compressor 2 is closed, and the whole heat of the air compressor 2 is kept discharged;

when the room temperature is higher than or equal to 0 ℃ and lower than 10 ℃, closing a cover plate of a ventilation window 6 of the air compression station 1, opening a cover plate of an outdoor exhaust port 4 of the air compressor 2, and closing a cover plate of an indoor exhaust port 5, keeping all heat of the air compressor 2 discharged outside, and keeping the air compression station 1 closed;

when the room temperature is higher than or equal to minus 5 ℃ and lower than 0 ℃, closing a cover plate of a ventilation window 6 of the air compression station 1, opening a cover plate of an outdoor exhaust port 4 and opening a cover plate of an indoor exhaust port 5, and keeping partial heat of the air compressor 2 discharged outside and partial heat discharged inside;

when the room temperature is lower than minus 5 ℃, the cover plate of the ventilation window 6 of the air compression station 1 is closed, the cover plate of the outdoor exhaust port 4 is closed, the cover plate of the indoor exhaust port 5 is opened, all heat of the air compressor 2 is kept to be exhausted internally, and the room temperature of the air compression station 1 is guaranteed.

This energy-saving room temperature automatic control system of air compression station 1 passes through foretell setting to control the room temperature of air compression station 1 better, ensure air compressor machine 2's normal operating better, have advantages such as safe, convenient, energy-conservation.

The above embodiments are only used for illustrating the present invention, and not for limiting the present invention, and those skilled in the relevant technical field can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.

Claims (10)

1. An energy-saving room temperature automatic control system of an air compression station is characterized by comprising an air compressor, the air compression station, a heat dissipation exhaust pipeline and a control device, wherein the air compressor is positioned in the air compression station, an air inlet of the heat dissipation exhaust pipeline is connected with the air compressor, the heat dissipation exhaust pipeline comprises an outdoor exhaust port and a first switch device used for controlling the opening and closing of the outdoor exhaust port, the outdoor exhaust port is positioned outside the air compression station, the heat dissipation exhaust pipeline further comprises an indoor exhaust port and a second switch device used for controlling the opening and closing of the indoor exhaust port, the indoor exhaust port is positioned inside the air compression station, the air compression station further comprises a ventilation window and a third switch device used for controlling the opening and closing of the ventilation window, a temperature detection device is further arranged in the air compression station and used for monitoring the temperature in the air compression station, the temperature detection device, the first switch device, the second switch device and the third switch device are electrically connected with the control device, and the control device is used for controlling the first switch device, the second switch device and the third switch device according to the temperature detected by the temperature detection device.

2. The energy-saving automatic room temperature control system for air compression station according to claim 1, wherein the control device is used for,

and when the temperature detected by the temperature detection device is higher than or equal to 10 ℃, controlling the first switch device to open the outdoor exhaust port, controlling the second switch device to open the indoor exhaust port and controlling the third switch device to open the ventilation window.

3. The energy-saving automatic room temperature control system for air compression station according to claim 1, wherein the control device is used for,

and when the temperature detected by the temperature detection device is higher than or equal to 0 ℃ and lower than 10 ℃, controlling the first switch device to open the outdoor exhaust port, controlling the second switch device to close the indoor exhaust port and controlling the third switch device to close the ventilation window.

4. The energy-saving automatic room temperature control system for air compression station according to claim 1, wherein the control device is used for,

and when the temperature detected by the temperature detection device is higher than or equal to-5 ℃ and lower than 0 ℃, controlling the first switch device to open the outdoor exhaust port, the second switch device to open the indoor exhaust port and the third switch device to close the ventilation window.

5. The energy-saving automatic room temperature control system for air compression station according to claim 1, wherein the control device is used for,

and when the temperature detected by the temperature detection device is lower than-5 ℃, controlling the first switch device to close the outdoor exhaust port, controlling the second switch device to open the indoor exhaust port and controlling the third switch device to close the ventilation window.

6. The energy-saving automatic room temperature control system for air compression stations according to any one of claims 1 to 5, wherein the number of the ventilation windows is plural, and each of the ventilation windows is provided with the third switching device for controlling the opening and closing thereof.

7. The energy-saving automatic room temperature control system for air compression stations as claimed in claim 6, wherein the number of the ventilation windows is two.

8. The energy-saving automatic room temperature control system for the air compression station as claimed in any one of claims 1 to 5, wherein the temperature detecting means comprises a temperature sensor.

9. The energy-saving automatic room temperature control system for air compression stations as claimed in claim 8, wherein the number of the temperature sensors is plural.

10. The energy-saving automatic room temperature control system for the air compression station as claimed in claim 9, wherein the air compression station has a square structure, the number of the temperature sensors is five, four of the temperature sensors are respectively installed on four sides of the air compression station, and the other temperature sensor is located at the top of the air compression station.

Images