CN201387561Y - Full-automatic constant-temperature energy-saving control device - Google Patents

Abstract

A full-automatic constant-temperature energy-saving control device aims to solve the energy waste problem in the engine rooms with heating equipment, such as the engine rooms of communication base stations, computer rooms, substation of power system and the like. The rooms adopt air conditioners to reduce the temperature, no matter how low the outdoor temperature is, the air conditioners run all the time and waste a great amount of energy, and the damage is always caused to the equipment when the air conditioners break down. The utility model adopts the technical scheme that an automatic control air feeding fan (2), an exhaust fan (3) and an air conditioner are adopted; when the outdoor temperature lowers to certain degree, the air conditioner is cut off, and outdoor air is sucked in to cool the indoor air, so that the effect of saving energy is achieved. If the air conditioner breaks down, the fans can be started automatically, and damage to the equipment is avoided.

Description

The fully-automatic thermostatic energy-saving control device

Technical field

The utility model relates to a kind of industrial computer room temperature control device.

Background technology

At present, the transformer station of mobile communication base station machine room, computer room, electric system etc. has the machine room of heat-producing device all to adopt air-conditioning temperature-reducing, and no matter how low outdoor temperature is, air-conditioning is moving always, waste a large amount of energy, when air-conditioning breaks down, often caused the device damage accident.

Summary of the invention

The purpose of this utility model overcomes deficiency of the prior art exactly, and designs a kind of the Nature temperature of utilizing, and regulates the control device of computer room temperature, reaches the effect of energy savings.

The purpose of this utility model can realize by following measure, in machine room, adorn a control device (1) and an air intake machine (2), an exhaust blower (3) exactly, control device (1) is connected with outdoor temperature sensor (W10), indoor temperature transmitter (W20, W30), when outdoor temperature low to a certain degree the time, cut off air-conditioning, the inspiration outdoor air stops air intake, thereby plays energy-conservation effect when indoor temperature reaches the control temperature.When outdoor temperature is high, restart air-conditioning.When if air-conditioning breaks down, can start blower fan, avoid causing the device damage accident.For preventing in the outdoor moisture inlet chamber humidity sensor (S10) to be housed, when humidity acquires a certain degree, stop air intake.

Fully-automatic thermostatic energy-saving control device (1), it is by air-conditioning A.C. contactor (K1, K2), blower fan A.C. contactor (F), temperature controller (W1, W2, W3), transfer relay (Q), indoor temperature is crossed low relay (N), the too high relay of indoor temperature compositions such as (H), it is characterized in that outdoor temperature sensor (W10) links to each other with temperature controller (W1), and be connected with transfer relay (Q), indoor temperature transmitter (W20) links to each other with temperature controller (W2), and cross low relay (N) with indoor temperature and be connected, indoor temperature transmitter (W30) links to each other with temperature controller (W3), and with indoor temperature cross the height relay (H) be connected, blower fan A.C. contactor (F) is connected with contact (N) in the loop, be connected with Manual Transfer Switch (R) and contact (H) in the fan power loop, Manual Transfer Switch (R) also is connected with air-conditioning A.C. contactor (K2).Humidity controller (S1) is housed in the control device (1), and outside humidity sensor (S10) links to each other with humidity controller (S1), and is connected with humidity relay (S), is connected with contact (S) in blower fan A.C. contactor (F) loop.

The utility model beneficial effect compared to existing technology is:

1, significantly reduces the service time of air-conditioning, energy savings.

2, prolonged the serviceable life of air-conditioning.

3, avoid the device damage accident to take place.

Description of drawings

Accompanying drawing 1 is a control device contour structures synoptic diagram.

Accompanying drawing 2 is control device back panel wiring synoptic diagram.

The icon explanation:

1～control device; 2～air intake machine; 3～exhaust blower; 4～air-conditioning; ABC～live wire; O～zero line; Z～manual master switch; R～Manual Transfer Switch; K1, K2～air-conditioning A.C. contactor; F～blower fan A.C. contactor; W1, W2, W3～temperature controller; S1～humidity controller; Q～transfer relay; Q1, Q2～transfer relay contact; N～indoor temperature is crossed low relay, the too high relay of H～indoor temperature; S～humidity relay; W10～outdoor temperature sensor; W20, W30～indoor temperature transmitter; S10～outside humidity sensor.

Embodiment

Accompanying drawing 1 is the contour structures synoptic diagram of control device embodiment, and accompanying drawing 2 is back panel wiring synoptic diagram of control device embodiment.The present embodiment temperature is set according to field requirement in actual use for exemplifying temperature.A, B, C, O are electrical source of power, and wherein: A, B, C are live wires, and O is a zero line; Z is manual master switch; Outdoor temperature sensor (W10) links to each other with temperature controller (W1), and is connected with transfer relay (Q), and when outdoor temperature was higher than 25 ℃, contact (Q1) adhesive of transfer relay (Q) drove air-conditioning A.C. contactor (K1) adhesive, starting of air conditioner; When outdoor temperature is lower than 25 ℃, transfer relay contact (Q1) discharges, cause air-conditioning A.C. contactor (K1) to disconnect, air-conditioning is out of service, while transfer relay contact (Q2) closure, blower fan A.C. contactor (F) adhesive, contact (F) closure, air intake machine (2), exhaust blower (3) start simultaneously, because blower fan power consumption is well below air-conditioning, thereby have played energy-conservation effect.Indoor temperature transmitter (W20) links to each other with temperature controller (W2), and cross low relay (N) with indoor temperature and be connected, when indoor temperature was lower than 22 ℃, indoor temperature was crossed the contact (N) that low relay (N) is connected in blower fan A.C. contactor (F) loop and is disconnected, and blower fan is out of service.Otherwise outdoor temperature is below 25 ℃, and indoor temperature is more than 22 ℃, fan operation, and when outdoor temperature was higher than 25 ℃, blower fan was out of service, starting of air conditioner.Indoor temperature transmitter (W30) links to each other with temperature controller (W3), and be connected with the too high relay of indoor temperature (H), when being higher than 40 ℃, indoor temperature (crosses when low) as air-conditioning fault or air-conditioning power, the too high relay of indoor temperature (H) is connected contact (H) closure in the fan power loop, fan starting has so just guaranteed the equipment safety operation in the machine room.In the fan power loop, be connected with Manual Transfer Switch (R), if blower fan has fault, Manual Transfer Switch (R) is switched to air-conditioning A.C. contactor (K2) position, so just be in the independent temperature control state of air-conditioning, cut off fan power simultaneously, blower fan is out of service.In air intake machine (2), the koniology filtrator is housed, in air intake machine (2) inlet and exhaust blower (3) outlet gauze that prevents that insect from entering is housed also.If air-conditioning is a two-phase power supply, the A live wire that joins, the C zero line that joins, B sky mutually gets up.

In the machine room of humidity requirement is arranged, the optional control device that has humidity sensor, this control device outside humidity sensor (S10) links to each other with humidity controller (S1), and be connected with humidity relay (S), when outside humidity is higher than the humidity of requirement, the contact (S) that humidity relay (S) is connected in blower fan A.C. contactor (F) loop disconnects, and blower fan is out of service.

Claims (2)

1, a kind of fully-automatic thermostatic energy-saving control device, it is by air-conditioning A.C. contactor (K1, K2), blower fan A.C. contactor (F), temperature controller (W1, W2, W3), transfer relay (Q), indoor temperature is crossed low relay (N), the too high relay of indoor temperature compositions such as (H), it is characterized in that outdoor temperature sensor (W10) links to each other with temperature controller (W1), and be connected with transfer relay (Q), indoor temperature transmitter (W20) links to each other with temperature controller (W2), and cross low relay (N) with indoor temperature and be connected, indoor temperature transmitter (W30) links to each other with temperature controller (W3), and with indoor temperature cross the height relay (H) be connected, blower fan A.C. contactor (F) is connected with contact (N) in the loop, be connected with Manual Transfer Switch (R) and contact (H) in the fan power loop, Manual Transfer Switch (R) also is connected with air-conditioning A.C. contactor (K2).

2, by the described fully-automatic thermostatic energy-saving control device of claim 1, it is characterized in that having in the control device humidity controller (S1), outside humidity sensor (S10) links to each other with humidity controller (S1), and be connected with humidity relay (S), in blower fan A.C. contactor (F) loop, be connected with contact (S).

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