CN201391955Y - Energy-saving electrothermal humidifying system for air conditioner - Google Patents

Abstract

The utility model relates to an energy-saving electrothermal humidifying system for an air conditioner, comprising a compressor, an electric humidifier, a condenser and a heat recoverer. An exhaust hole of the compressor is connected with two branches, wherein one branch is communicated with one end of the condenser, and the other branch is communicated with the heat recoverer; and a refrigerant inlet, a refrigerant outlet, a water inlet and a water outlet are respectively arranged on the heat recoverer, wherein the refrigerant inlet is communicated with the exhaust hole of the compressor, the refrigerant outlet is communicated with one end of the condenser, the water inlet is communicated with a water supply pipe which supplies water to the electrothermal humidifier, and the water outlet is communicated with a water inlet pipe of the electrothermal humidifier. A first electromagnetic valve and a second electromagnetic valve are arranged in the two branches, and are electrically connected with a main controller of the air conditioner respectively; and the first electromagnetic valve is connected in series between the exhaust hole of the compressor and the refrigerant inlet of the heat recoverer. The utility model has the advantages of low manufacture cost, flexible operation and low energy consumption.

Description

The energy-saving electric heating humidification system that is used for air conditioner

Technical field

The utility model relates to a kind of energy-saving electric heating humidification system that is used for air conditioner.

Background technology

Technological air conditioning machines such as thermostatic and humidistatic air conditioning unit dispose the electric heating humidification device usually, this electric heating humidification device is to make the water vapor evaporation that enters in the electric moistening device device by heating, and deliver to the air conditioner ventilation air channel, and improve the air-conditioning air-out humidity, realize air-conditioning place isothermal humidification at last.Because the energy consumption of this electric heating humidification device accounts for the larger proportion of whole air conditioner total energy consumption, therefore, causes the performance of this type of air conditioner lower than very.In addition, only the water heat temperature raising is longer to the time of vaporization because the moisturizing temperature of electric heating humidification device is generally lower by heating, cause humidification speed slower.Usually after moisturizing for a long time in all can't humidification, cause the humidity control accuracy and the speed poor effect of air conditioner reality.

A kind of industrial dustless power-saving type constant temperature and humidity machine is disclosed among the Chinese patent literature CN25334.13Y, mainly include compressor, condenser, evaporimeter, electric heater, humidifier, windmill, elementary filter screen, senior filter screen, cooling water pump, cooling tower, wherein, evaporimeter the place ahead is provided with elementary filter screen, the evaporimeter rear is provided with electric heater that can replenish and the humidifier of adjusting air humidity when heat energy is not enough, its top is provided with the windmill and the accurate senior screen pack of air-out, and the compressor of refrigerant generation high pressure-temperature is provided and provides condenser one end of cooling to be connected with the evaporimeter that is provided with expansion valve respectively, condenser is outer then to coat and is provided with by cooling tower and is made the cooling water of circulation by cooling water pump, it is characterized in that: the heat regenerator that is provided with at least more than one between evaporimeter and electric heater, and the below be provided with heat regenerator one end of magnetic valve and condenser in addition end be connected, heat regenerator end in addition then is connected with other end of compressor, earlier recuperation of heat is reached condenser to form the high pressure-temperature refrigerant, or this refrigerant utilizes the magnetic valve bypass directly to reach the flow cycle of condenser through more than one heat regenerator.The energy consumption of this constant temperature and humidity machine is lower frequently and the humidification effect is not ideal enough.

The utility model content

The purpose of this utility model aim to provide a kind of simple and reasonable, cost of manufacture is low, flexible operation, energy consumption are low, when the power consumption that effectively reduces humidifier and improving the Energy Efficiency Ratio of air conditioner, can also significantly improve the energy-saving electric heating humidification system that is used for air conditioner of the temperature control precision of the humidification speed of humidifier and complete machine, to overcome weak point of the prior art.

A kind of energy-saving electric heating humidification system that is used for air conditioner by this purpose design, comprise compressor, electric moistening device, condenser and heat regenerator, the air exit and two branch roads that it is characterized in that compressor join, wherein a branch road is connected with an end of condenser, and another branch road is connected with heat regenerator; Be respectively arranged with refrigerant import, refrigerant exit, water inlet and delivery port on the heat regenerator, wherein, the refrigerant import is connected with the air exit of compressor, refrigerant exit is connected with an end of condenser, water inlet is connected with the feed pipe that supplies water to the electric heating humidification device, and delivery port is connected with the water inlet pipe of electric heating humidification device.

Be provided with first magnetic valve and second magnetic valve in described two branch roads, first magnetic valve and second magnetic valve are electrically connected with the master controller of air conditioner respectively; First magnetic valve is serially connected between the refrigerant import of the air exit of compressor and heat regenerator, and second magnetic valve is serially connected between the end of the air exit of compressor and condenser, and refrigerant exit inserts between the end of second magnetic valve and condenser.

Described heat regenerator is a jar shape, heat exchange coil is coiled in the heat regenerator, the two ends of heat exchange coil are respectively refrigerant import and refrigerant exit, the refrigerant import is arranged on the top of heat regenerator, refrigerant exit is arranged on the bottom of heat regenerator, water inlet is opened on the top of heat regenerator, and delivery port is opened on the bottom of heat regenerator.

Also be provided with the temperature sensor that is used to measure water temperature in the described heat regenerator, temperature sensor is electrically connected with master controller.

The utility model is owing to recycled the part heat of the high-temperature exhaust air of compressor, to entering low temperature water supply the carrying out preheating of the electric heating humidification device in the heat regenerator, its temperature is raise, thereby after reducing this water supply and entering the electric heating humidification device, the heating of electric heating humidification device is heated to the required energy consumption of vaporization again to it, to improve the Energy Efficiency Ratio of whole air conditioner.Simultaneously, because the refrigerant of the HTHP that compressor is discharged has discharged energy at heat regenerator, the condensation temperature and the condensing pressure of refrigeration system decrease, degree of supercooling increases, refrigerating capacity rises to some extent, therefore the consumed power of refrigeration compressor is also reduced, so can further improve the Energy Efficiency Ratio of air conditioner.

Heat regenerator in the utility model can carry out The pre-heat treatment to the water inlet of electric heating humidification device, shortens the intensification vaporization process cycle of electric heating humidification device to supplying water significantly, has improved humidification speed, thereby has effectively improved the humidity control accuracy and the speed of air conditioner.

The utility model can be widely used in the technological air conditioning machine that all employing electric heating humidification devices carry out humidification, as thermostatic and humidistatic air conditioning unit, air conditioner in machine room machine and combined type air conditioner etc.

Description of drawings

Fig. 1 is the utility model one example structure schematic diagram.

Fig. 2 is the sectional structure schematic diagram of heat regenerator.

Fig. 3 is the plan structure schematic diagram of heat regenerator.

Among the figure: 1 is compressor, and 2 is electric moistening device, and 3 is condenser, 4 is heat regenerator, and 4.1 is the refrigerant import, and 4.2 is refrigerant exit, 4.3 be water inlet, 4.4 is delivery port, 4.5 is heat exchange coil, 4.6 be temperature sensor, 5 is first magnetic valve, and 6 is second magnetic valve, and 7 is master controller, solid arrow is represented refrigerant, and dotted arrow is represented water.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is further described.

Referring to Fig. 1-Fig. 3, originally the energy-saving electric heating humidification system that is used for air conditioner comprises compressor 1, electric moistening device 2, condenser 3 and heat regenerator 4, and the air exit of compressor 1 and two branch roads join, wherein a branch road is connected with an end of condenser 3, and another branch road is connected with heat regenerator 4; Be provided with first magnetic valve 5 and second magnetic valve 6 in two branch roads, first magnetic valve 5 is serially connected between the refrigerant import 4.1 of the air exit of compressor 1 and heat regenerator 4, second magnetic valve 6 is serially connected between the end of the air exit of compressor 1 and condenser 3, and first magnetic valve 5 and second magnetic valve 6 are electrically connected with the master controller 7 of air conditioner respectively.

Heat regenerator 4 is a jar shape, heat exchange coil 4.5 is coiled in the heat regenerator, heat regenerator 4 is provided with refrigerant import 4.1, refrigerant exit 4.2, water inlet 4.3 and delivery port 4.4, refrigerant import 4.1 and refrigerant exit 4.2 are separately positioned on the two ends of heat exchange coil 4.5, refrigerant import 4.1 is arranged on the top of heat regenerator 4, refrigerant exit 4.2 is arranged on the bottom of heat regenerator 4, and water inlet 4.3 is opened on the top of heat regenerator 4, and delivery port 4.4 is opened on the bottom of heat regenerator 4.Wherein, refrigerant import 4.1 is connected with the air exit of compressor 1, and refrigerant exit 4.2 is connected with an end of condenser 3, and water inlet 4.3 is connected with the feed pipe that supplies water to electric heating humidification device 2, and delivery port 4.4 is connected with the water inlet pipe of electric heating humidification device 2.Refrigerant exit 4.2 inserts between the end of second magnetic valve 5 and condenser 3.Also be provided with temperature sensor 4.6 in the heat regenerator 4, temperature sensor is electrically connected with master controller 7.

The utility model is by installing heat regenerator 4 on the air exit of compressor 1, the fluid that carries out heat exchange in heat regenerator 4 is respectively the refrigerant of the HTHP that compressor 1 discharges and to the water inlet that provides of electric heating humidification device 2, when electric heating humidification device 2 starts, temperature signal by the temperature sensor 4.6 of setting in the heat regenerator 4, moved by the magnetic valve in main electric controller 7 controls two branch roads: 1) temperature of the water in heat regenerator 4 is lower than T1, during as 50 ℃, close second magnetic valve 6, open first magnetic valve 5, make the refrigerant of whole HTHPs enter heat regenerator 4, this moment, the recuperation of heat amount of heat regenerator 4 was maximum to the amounts of preheat of the water inlet of electric moistening device 2 promptly, can promote the supply water temperature of electric moistening device 2 rapidly; 2) temperature of the water in heat regenerator 4 reaches T2, during as 80 ℃, can open first magnetic valve 5 and second magnetic valve 6 simultaneously, make the refrigerant of part HTHP enter heat regenerator 4, this moment heat regenerator 4 the recuperation of heat amount promptly the amounts of preheat to the water inlet of electric moistening device 2 is moderate, can maintain the supply water temperature of electric moistening device 2 between 80～90 ℃ for a long time; 3) temperature of the water in heat regenerator 4 is greater than or equal to T3, during as 80 ℃, closes first magnetic valve 5, open second magnetic valve 6, do not have high temperature refrigerant to enter heat regenerator 4 this moment, and vaporization in advance influences the operate as normal of electric moistening device 2 so that the water supply water temperature that prevents electric moistening device 4 is too high.

Claims (4)

1. energy-saving electric heating humidification system that is used for air conditioner, comprise compressor (1), electric moistening device (2), condenser (3) and heat regenerator (4), the air exit and two branch roads that it is characterized in that compressor join, wherein a branch road is connected with an end of condenser, and another branch road is connected with heat regenerator; Be respectively arranged with refrigerant import (4.1), refrigerant exit (4.2), water inlet (4.3) and delivery port (4.4) on the heat regenerator, wherein, the refrigerant import is connected with the air exit of compressor, refrigerant exit is connected with an end of condenser, water inlet is connected with the feed pipe that supplies water to the electric heating humidification device, and delivery port is connected with the water inlet pipe of electric heating humidification device.

2. the energy-saving electric heating humidification system that is used for air conditioner according to claim 1, it is characterized in that being provided with in described two branch roads first magnetic valve (5) and second magnetic valve (6), first magnetic valve and second magnetic valve are electrically connected with the master controller (7) of air conditioner respectively; First magnetic valve is serially connected between the refrigerant import (4.1) of the air exit of compressor (1) and heat regenerator (4), second magnetic valve is serially connected between the end of the air exit of compressor and condenser (3), and refrigerant exit (4.2) inserts between the end of second magnetic valve and condenser.

3. the energy-saving electric heating humidification system that is used for air conditioner according to claim 1 and 2, it is characterized in that described heat regenerator (4) is a jar shape, heat exchange coil (4.5) is coiled in the heat regenerator, the two ends of heat exchange coil are respectively refrigerant import (4.1) and refrigerant exit (4.2), the refrigerant import is arranged on the top of heat regenerator, refrigerant exit is arranged on the bottom of heat regenerator, and water inlet (4.3) is opened on the top of heat regenerator, and delivery port (4.4) is opened on the bottom of heat regenerator.

4. the energy-saving electric heating humidification system that is used for air conditioner according to claim 3 is characterized in that also being provided with in the described heat regenerator (4) temperature sensor (4.6) that is used to measure water temperature, and temperature sensor is electrically connected with master controller (7).

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