CN201163119Y - Energy-saving air conditioner - Google Patents

Abstract

The utility model discloses an energy-saving air conditioner, which comprises a compressor, a condenser and an evaporator, wherein, an outlet of the condenser is provided with a throttling device, and a pressure regulation device or a flow adjustment device is arranged between the evaporator and an air entry of the compressor. The energy-saving air conditioner has a simple structure, can effectively control the evaporating temperature of refrigeration working medium in the evaporator by changing the opening degree of the throttling device and the pressure regulation device or the flow adjustment device further to control the sensible heat ratio of a refrigeration system, has wide adjustment range of the sensible heat ratio and wider adjustment range of working condition, solves the contradiction that the dehumidification and the humidification coact under dry working condition in the prior air conditioning system, reduces energy consumption, and saves running cost up to about 30 percent each year.

Description

Energy-saving type air conditioner

Technical field

The utility model belongs to refrigeration technology field, relates to a kind of air-conditioning.

Background technology

The development of modernization information technology, make the electronic equipment machine room universal day by day, electronic equipment has also proposed unprecedented high request to building environment, special air conditioning for device room is exactly the refrigeration plant that the running environment of constant temperature and humidity is provided for calculator room equipment, its design concept is big air quantity, little enthalpy difference, high sensible heat ratio.Generally, the overall refrigerating effect of air-conditioning comprises two parts, and a part is the sensible heat refrigerating capacity that is used to lower the temperature, and another part is the latent heat refrigerating capacity that is used to dehumidify.Sensible heat ratio is meant that the apparent cold of air-conditioning accounts for the ratio of overall refrigerating effect.Machine room is owing to good airproof performance, and personnel's rareness does not have the moisture source, and it is less therefore to remove humidity load.For sensible heat ratio is 0.9 refrigeration system, and the apparent cold that then is used to lower the temperature is 90% of an overall refrigerating effect, and the latent cold that is used to dehumidify simultaneously is 10% of an overall refrigerating effect.Even that is to say under the situation of, the demand that do not dehumidify qualified in the humidity that controls environment, still there is 10% refrigerating capacity to be used for dehumidifying, in order to keep the humidity in room, have to open simultaneously the electrode humidification function, consume very high electric energy.Therefore, the refrigerating capacity that in fact is used effectively only accounts for 80% of overall refrigerating effect.Under such operating mode, dehumidifying and the coefficient contradiction of humidification have not only caused the waste of refrigerating capacity, have also increased the consumption of electric energy.At present, Research on energy saving and exploitation mainly are divided into both direction in the refrigeration industry: concentrate on the optimal design of refrigeration system component on the one hand; Be new kind of refrigeration cycle and refrigeration system of structure on the other hand.The measure that improves sensible heat ratio mainly contains: 1, increase the fan delivery of evaporimeter, its shortcoming is that the blower fan power consumption can significantly increase, and the machine packet size needs corresponding increase; 2, increase heat exchange area, its shortcoming is that the heat exchanger size increases, and cost increases, and can't satisfy the demand of high heat, high humidity load condition; 3, reduce compressor capacity, its shortcoming is to satisfy high heat, the high humidity load demand to cold equally.

The utility model content

The technical problems to be solved in the utility model provides a kind of sensible heat that passes through the adjusting refrigeration air-conditioner simple and practical, good energy-conserving effect and recently realizes regulating working conditions, to reach the energy-saving type air conditioner of energy-saving effect.

The utility model solves above-mentioned technical problem by the following technical solutions: a kind of energy-saving type air conditioner, comprise compressor, condenser, evaporimeter, be provided with throttling arrangement at condensator outlet, between evaporimeter and compressor air suction mouth, be provided with pressure-regulating device or flow regulator.

Described pressure-regulating device or flow regulator are arranged on the outlet of evaporimeter.

Described pressure-regulating device is a pressure-control valve.

Described flow regulator is a flow control valve.

Described throttling arrangement is a heating power expansion valve.

Described throttling arrangement is an electric expansion valve.

Described throttling arrangement is a capillary.

The utility model changes the adjusting of the evaporating temperature realization sensible heat ratio of evaporimeter by throttling arrangement, pressure-regulating device or flow regulator.The utility model is having only the do not dehumidify operating mode of demand of refrigeration demand to be called dry cooling condition; There is existing refrigeration demand the operating mode of dehumidifying demand to be called wet cooling condition again.During dry cooling condition, required evaporating temperature is higher, then increases the aperture of throttling arrangement, reduces the aperture of pressure-regulating device or flow regulator simultaneously, improves the evaporator evaporation temperature, make this evaporating temperature near or a little more than the dew-point temperature of surrounding air.The refrigerating capacity of this moment all is used for cooling; During wet cooling condition, required evaporating temperature is lower, then reduces the aperture of throttling arrangement, increases pressure-regulating device or flow regulator aperture simultaneously, reduces the evaporator evaporation temperature, makes this evaporating temperature be lower than the dew-point temperature of surrounding air.The refrigerating capacity part of this moment is used for cooling, and a part is used for dehumidifying, just traditional air-conditioning system mode of operation.The utility model is simple in structure, only need to change the aperture of throttling arrangement, pressure-regulating device or flow regulator, just can effectively control the evaporating temperature of refrigeration working medium in evaporimeter, thereby the sensible heat ratio of control refrigeration system, the sensible heat ratio adjustable range is wide, and the regulating working conditions scope is wideer, has solved the dry cooling condition dehumidifying and the coefficient contradiction of humidification down of traditional air-conditioning system, reduced energy consumption, the annual operating cost about 30% of saving.

Description of drawings

Fig. 1 is the flow chart of embodiment 1 energy-saving type air conditioner refrigeration system;

Fig. 2 is the kind of refrigeration cycle lgp-h figure of energy-saving type air conditioner;

Fig. 3 is the flow chart of embodiment 1 energy-saving type air conditioner refrigeration system.

The specific embodiment

Embodiment 1, as shown in Figure 1, flow chart for the energy-saving type air conditioner refrigeration system of embodiment 1, energy-saving type air conditioner of the present utility model comprises compressor A, condenser B, evaporimeter D, be provided with throttling arrangement C in condenser B outlet, between evaporimeter D and compressor A air entry, be provided with pressure-regulating device E, pressure-regulating device E is used for regulating the pressure of inspiration(Pi) of compressor A, wherein the port of export of compressor A is connected with condenser B, condenser B outlet connects throttling arrangement C, throttling arrangement C outlet connects evaporimeter D, the outlet of evaporimeter D connects pressure-regulating device E, connects the air entry of compressor A behind the pressure-regulating device E, constitutes cooling cycle system, throttling arrangement C is an expansion valve, expansion valve C is heating power expansion valve or electric expansion valve, and pressure-regulating device E is a pressure-control valve, between evaporimeter D and compressor A air entry flow regulator E can also be set, be used to regulate the flow of refrigeration working medium, flow regulator E is a flow control valve.

As shown in Figure 2, be the refrigeration system course of work of energy-saving type air conditioner.

Dry cooling condition: among the figure, state 1 is an adiabatic compression process in the compressor to state 2, and the compressed machine A of refrigeration working medium adiabatic compression is to certain pressure; State 2 is the isobaric heat release among the condenser B, the condensation process of lowering the temperature to state 3; State 3 is the isenthalpic throttling process to state 4, and expansion valve C aperture is bigger, and the highly pressurised liquid refrigeration working medium enters expansion valve C and carries out throttling; State 4 is an isobaric heat transfer process among the evaporimeter D to state 5, and the low-temp low-pressure refrigeration working medium that throttling obtains enters isobaric heat exchange among the evaporimeter D, released cold quantity, the evaporating temperature of this moment near or a little more than the dew-point temperature of surrounding air; State 5 is to state 1, gas working medium from evaporator outlet enters throttling once more among the pressure-regulating device E, further reduces pressure, and the cold-producing medium after step-down is once more got back to the air entry of compressor A, begin next cyclic process, the circulation that so goes round and begins again is carried out.

Wet cooling condition: state 1 ' is an adiabatic compression process in the compressor to state 2 ' among the figure, and the compressed machine A of refrigeration working medium adiabatic compression is to certain pressure; State 2 ' is an equipressure cooling condensation process among the condenser B to state 3, and the refrigeration working medium of HTHP is in the medium heat that presses of condenser B, condensation; State 3 is the isenthalpic throttling process to state 4 ', and expansion valve C aperture is less, and the highly pressurised liquid refrigeration working medium enters expansion valve C and carries out throttling; State 4 ' be an isobaric heat transfer process in the evaporimeter to state 1 ', and the low-temp low-pressure refrigeration working medium that throttling obtains enters isobaric heat exchange among the evaporimeter D, released cold quantity, and evaporating temperature at this moment is lower than the dew-point temperature of surrounding air; From the gas working medium of evaporator outlet flow through pressure-regulating device E no longer the generation state change, get back to the compressor air suction mouth, begin next cyclic process, so going round and beginning again circulation is carried out.

Embodiment 2: as shown in Figure 3, the refrigeration system of the energy-saving type air conditioner of embodiment 2 comprises compressor A, condenser B, evaporimeter D, be provided with throttling arrangement C in condenser B outlet, between evaporimeter D and compressor A air entry, be provided with pressure-regulating device E, wherein throttling arrangement C is a capillary, pressure-regulating device E is a pressure-control valve, the port of export of compressor A is connected with condenser B, condenser B outlet connects capillary C, capillary C outlet connects evaporimeter D, the outlet of evaporimeter connects pressure-control valve E, connects the air entry of compressor A behind the pressure-control valve E, so constitutes cooling cycle system.

The throttling arrangement C of present embodiment has become capillary, and its course of work is identical with embodiment 1, does not repeat them here.

Claims (7)

1, a kind of energy-saving type air conditioner comprises compressor, condenser, evaporimeter, it is characterized in that, is provided with throttling arrangement at condensator outlet, is provided with pressure-regulating device or flow regulator between evaporimeter and compressor air suction mouth.

2, energy-saving type air conditioner as claimed in claim 1 is characterized in that, described pressure-regulating device or flow regulator are arranged on the outlet of evaporimeter.

3, energy-saving type air conditioner as claimed in claim 1 or 2 is characterized in that, described pressure-regulating device is a pressure-control valve.

4, energy-saving type air conditioner as claimed in claim 1 or 2 is characterized in that, described flow regulator is a flow control valve.

5, energy-saving type air conditioner as claimed in claim 1 or 2 is characterized in that, described throttling arrangement is a heating power expansion valve.

6, energy-saving type air conditioner as claimed in claim 1 or 2 is characterized in that, described throttling arrangement is an electric expansion valve.

7, energy-saving type air conditioner as claimed in claim 1 or 2 is characterized in that, described throttling arrangement is a capillary.

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