CN201014673Y - Base station air conditioner energy-saving monitoring apparatus - Google Patents

Abstract

The utility model discloses a base station A/C power-saving and monitoring device which comprises a control mainframe, an A/C controller, an outdoor temperature humidity sensor, an indoor temperature humidity sensor, and a ventilation unit. The outdoor temperature humidity sensor and the indoor temperature humidity sensors collect the temperature and humidity signals and transmit to the control mainframe respectively which then compares the outdoor and the indoor temperature and humidity signals and calculates a reasonable A/C running parameter. When the indoor temperature and humidity are higher than that of the open air, the control mainframe shuts down the A/C and starts the ventilation unit to exchange heat with the open air. The utility model can adjust the A/C running parameters in time according to the difference between the indoor and the outdoor temperature and humidity of the base station, the control main frame shuts down the A/C once the indoor temperature and humidity is higher than that of the open air and starts the ventilation unit to exchange heat between the indoor and outdoor air to reduce the indoor temperature with less energy effectively, so the purpose of saving energy is achieved and the mechanical life of the A/C can be extended at the same time.

Description

Base station air conditioner energy-saving monitoring device

Technical field

The utility model relates to the control technology of radio communication base station special air conditioner, particularly a kind of base station air conditioner energy-saving monitoring device.

Background technology

Radio communication base station generally all is unattended, and the various electronic equipments in the base station all are in duty constantly all the year, and the base station all is in sealing state usually.Therefore the heat energy that is produced in the various electronic equipment runnings must the indoor accumulation in the base station, in order to keep the equipment operate as normal, must exchange heat be gone outside the base station by means of the air-conditioning of special use.And existing base station air conditioner technology, generally be directly to adopt air-conditioning to carry out the purpose that sealed refrigeration reaches base station indoor and outdoor heat exchange, this just needs the long-play air-conditioning, but the base station unmanned, when outdoor temperature humidity was lower than indoor temperature and humidity, air-conditioning was still being opened.Open air-conditioning for a long time, not only can shorten the mechanical life of air-conditioning, and can expend very big energy in vain.

Summary of the invention

At the deficiencies in the prior art, the utility model aims to provide a kind of base station air conditioner energy-saving monitoring device, this device is by detecting and compare the humiture of base station indoor and outdoor, thereby calculate rational air conditioner operation parameters, close air-conditioning in case of necessity, start unit ventilators, make the base station carry out the heat exchange of indoor and outdoor with few energy consumption.

For achieving the above object, the utility model adopts following technical scheme: a kind of base station air conditioner energy-saving monitoring device, comprise main control system, the air-conditioner controller that is connected with main control system, it is characterized in that: also comprise outdoor temperature humidity sensor, indoor temperature and humidity sensor, unit ventilators; That outdoor temperature humidity sensor, indoor temperature and humidity sensor are gathered respectively is outdoor, indoor temperature and humidity signal and outdoor, indoor temperature and humidity signal are delivered to main control system; Main control system compares outdoor, indoor temperature and humidity signal, thereby calculate rational air conditioner operation parameters, when indoor temperature and humidity was higher than outdoor temperature humidity, main control system was closed air-conditioning by air-conditioner controller, and opened unit ventilators and carry out the heat exchange of indoor and outdoor.

Above-mentioned unit ventilators comprises the inlet box that is arranged at the below, base station, the air draft case that is arranged at the top, base station.

Above-mentioned base station air conditioner energy-saving monitoring device also comprises the power control unit that is connected with main control system, unit ventilators, it comprises reserve battery, control circuit, sinewave inverter, reserve battery is connected with control circuit behind sinewave inverter, when civil power normally inserts, control circuit exports civil power to main control system, unit ventilators, when civil power disconnects, control circuit is connected sinewave inverter and main control system, unit ventilators, and the discharge by reserve battery makes main control system, unit ventilators operate as normal.

Above-mentioned base station air conditioner energy-saving monitoring device also comprises Network Interface Module, and main control system is connected to internet by this Network Interface Module.

Above-mentioned Network Interface Module is the wired network interface module, or wireless network interface modules.

The utility model compared with prior art, can be neatly according to the difference of base station indoor temperature and humidity and outdoor temperature humidity, regulate the operational factor of air-conditioning in time, when in case indoor temperature and humidity is higher than the setting value of outdoor temperature humidity, main control system just sends the signal at stop air-conditioning to air-conditioner controller, and opens unit ventilators and carry out the heat exchange of indoor and outdoor, has reduced indoor environment temperature effectively with few energy consumption, thereby reach purpose of energy saving, also prolonged the mechanical life of air-conditioning.

Description of drawings

Fig. 1 is the utility model block diagram;

Fig. 2 is the utility model unit ventilators schematic diagram;

Fig. 3 is the power control unit block diagram.

The specific embodiment

As shown in Figure 1, the utility model comprises main control system, power control unit, outdoor temperature humidity sensor, indoor temperature and humidity sensor, unit ventilators, air-conditioner controller, the Network Interface Module that is connected with main control system.Main control system is connected with air-conditioner controller, power control unit respectively by the R485 bus, and air-conditioner controller communicates with communication (as the infrared communication mode) and air-conditioning, and power control unit also is connected with unit ventilators.Outdoor temperature humidity sensor, indoor temperature and humidity sensor are connected with main control system by serial data bus respectively, for example the iic bus shown in the present embodiment.Main control system is connected with internet by Network Interface Module, realize the remote monitoring of this device by the Surveillance center of terminal, wherein Network Interface Module can be wired network interface module such as local lan interface, R485 interface, R232 interface, also can be wireless network interface modules such as CDMA, GPRS interface.

The outdoor temperature humidity sensor is gathered the outdoor temperature humidity signal and the outdoor temperature humidity signal is delivered to main control system by iic bus; Indoor temperature and humidity sensor is gathered the indoor temperature and humidity signal and this signal is delivered to main control system by iic bus.Main control system will compare outdoor temperature humidity signal and indoor temperature and humidity signal, when main control system relatively draws outdoor temperature humidity and is higher than indoor temperature and humidity, further calculate rational air conditioner operation parameters (as temperature, humidity, wind speed etc.) again, and, send the operational factor that infrared signal is revised air-conditioning by air-conditioner controller to the instruction that air-conditioner controller sends the modification air conditioner operation parameters; When main control system relatively draws outdoor temperature humidity and is lower than indoor temperature and humidity, main control system will be closed air-conditioning, and by power control unit unlatching unit ventilators, allow unit ventilators carry out the heat exchange of indoor and outdoor, when treating that outdoor temperature humidity is higher than indoor temperature and humidity, main control system is closed unit ventilators, opens air-conditioning again and carries out enclosed refrigeration, so automatically circulation.

Unit ventilators comprises the inlet box that is arranged at the below, base station, the air draft case that is arranged at the top, base station.Its heat exchange principle as shown in Figure 2, inlet box is built-in with airstrainer, inlet box is drawn into the cold air of extraneous nature come by airstrainer because the indoor hot-air in base station runs into cold air, just heat is to rising; Again because the base station has been subjected to the positive pressure of air intake, so hot blast can be from the air draft case discharge of top, base station, to reach best utilization rate of electrical.As seen, just fallen base station indoor temperature get off by cold and hot gas exchange this moment, i.e. environmental protection is energy-conservation again.Inlet box, air draft case are arranged at relative both sides, base station respectively, as shown in Figure 2 inlet box are located at base station left side and the air draft case is arranged at the right side, can make the indoor cold and hot air one-way flow in base station, be discharged into indoor heat outdoor with the fastest speed.

The structured flowchart of power control unit comprises electric main incoming end, reserve battery, control circuit, sinewave inverter as shown in Figure 3.Reserve battery is connected with control circuit behind sinewave inverter, when civil power normally inserts, control circuit exports civil power to main control system, unit ventilators, when civil power disconnects, control circuit is connected sinewave inverter and main control system, unit ventilators, discharge by reserve battery makes main control system, unit ventilators operate as normal, and power control unit can automatically switch to the state of mains-supplied in the time of the city power recovery.The handoff technique of control circuit between electric main and reserve battery belongs to prior art, do not give unnecessary details at this.Like this, when accident made that electric main disconnects, this device can also be powered by reserve battery, continued operate as normal.

Power control unit is except that the function of above-mentioned enhancing system works reliability, and control circuit wherein also has the function of carrying out the main control system instruction, and both can communicate by the R485 bus.When outdoor temperature humidity was lower than indoor temperature and humidity, main control system sent the control circuit that power control unit is given in the instruction of opening unit ventilators, and control circuit is just connected and being connected of unit ventilators, and allowed the power supply to unit ventilators of civil power or reserve battery.When outdoor temperature humidity was higher than indoor temperature and humidity, main control system sent the instruction of closing unit ventilators and just disconnects and being connected of unit ventilators for control circuit, control circuit, stops the power supply to unit ventilators of civil power or reserve battery.

Claims (5)

1. a base station air conditioner energy-saving monitoring device comprises main control system, the air-conditioner controller that is connected with main control system, it is characterized in that: also comprise outdoor temperature humidity sensor, indoor temperature and humidity sensor, unit ventilators; That outdoor temperature humidity sensor, indoor temperature and humidity sensor are gathered respectively is outdoor, indoor temperature and humidity signal and outdoor, indoor temperature and humidity signal are delivered to main control system; Main control system compares outdoor, indoor temperature and humidity signal, thereby calculate rational air conditioner operation parameters, when indoor temperature and humidity was higher than outdoor temperature humidity, main control system was closed air-conditioning by air-conditioner controller, and opened unit ventilators and carry out the heat exchange of indoor and outdoor.

2. base station air conditioner energy-saving monitoring device according to claim 1 is characterized in that: described unit ventilators comprises the inlet box that is arranged at the below, base station, the air draft case that is arranged at the top, base station.

3. base station air conditioner energy-saving monitoring device according to claim 1, it is characterized in that: also comprise the power control unit that is connected with main control system, unit ventilators, it comprises reserve battery, control circuit, sinewave inverter, reserve battery is connected with control circuit behind sinewave inverter, when civil power normally inserts, control circuit exports civil power to main control system, unit ventilators, when civil power disconnects, control circuit is connected sinewave inverter and main control system, unit ventilators, and the discharge by reserve battery makes main control system, unit ventilators operate as normal.

4. base station air conditioner energy-saving monitoring device according to claim 1 is characterized in that: also comprise Network Interface Module, main control system is connected to internet by this Network Interface Module.

5. base station air conditioner energy-saving monitoring device according to claim 4 is characterized in that: described Network Interface Module is the wired network interface module, or wireless network interface modules.

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