CN105465929B - Peak load shifting accumulation energy air conditioner - Google Patents

Abstract

The invention discloses a kind of peak load shifting accumulation energy air conditioners, it the advantage is that and carry out simple structure adjustment by adding some reversal valves and connecting line on the running route of refrigerant, running route of the refrigerant in air-conditioning is converted by commutation valve action according to electricity condition, so as to which the energy that dump power generates is stored in energy storage canister in electricity consumption peak valley, storage energy in energy storage canister is consumed in peak of power consumption, reach and utilizes time-of-use tariffs, the effect of electric cost expenditure is effectively reduced, saves the electricity charge for user.

Description

Peak load shifting accumulation energy air conditioner

Technical field

The present invention relates to a kind of accumulation energy air conditioners, more particularly, to a kind of peak load shifting accumulation energy air conditioner.

Background technique

Air-conditioning is the high electric appliance that consumes energy in household electrical appliance, and since power consumption is larger, most of user only can in actual use The electricity charge ordinary user generated when opening, but calculating when needed to monthly bear building-up is still difficult to receive, the electricity charge limit of great number The usage experience of air-conditioning is made.The electricity consumption of daily different periods is different in life.The electricity consumption of peak times of power consumption claims Peak value, electricity consumption when low ebb claim valley.Since the power generation of electric power supply system and the configuration of transmission facility are all according to peak value Electrical demand configuration.Low power consumption period of the power supply system in actual moving process, production capacity will appear a large amount of residue, mesh Preceding electric power, which also cannot achieve, timely wins storage, and large-scale generating equipment also cannot achieve in due course production capacity adjustment, results in this way The significant wastage of production capacity.In order to balance the power demand of different periods, pricing modes different at times is carried out in electric power valuation, By the effect of lever of price, power structure is adjusted, electricity consumption when some electrical power user being made to reduce peak increases use when low ebb Electricity realizes peak load shifting, reduces the gap of power supply peak-to-valley value, improves the operational efficiency of power supply system, reduces cost, reduces production capacity Waste.

Whole nation most area has all executed time-of-use tariffs at present, and air-conditioning is that electricity capacity is larger, it is more to generate the electricity charge Household electrical appliance can effectively reduce electric cost expenditure if making full use of the cheap electric power of low ebb.

Summary of the invention

Technical problem to be solved by the invention is to provide a kind of simple peak load shifting accumulation energy air conditioner of structure, can with Air conditioner refrigerating or system thermogenetic energy are stored when electric wave paddy, refrigeration that user stores before can discharging in electricity consumption wave crest or Heating capacity effectively reduces the effect of electric cost expenditure to reach using the cheap electric power of trough.

The technical scheme of the invention to solve the technical problem is: a kind of peak load shifting accumulation energy air conditioner, including room Interior machine and outdoor unit, indoor unit include indoor heat exchanger, and outdoor unit includes compressor, outdoor heat exchanger, condensation expansion valve and storage It can tank；The outdoor unit further includes energy storage expansion valve, the first three-way diverter valve, the first four-way reversing valve and the commutation of the second four-way Valve；The inlet communication of the exhaust outlet of the compressor and the first three-way diverter valve, the first outlet of the first three-way diverter valve and the The first interface of one four-way reversing valve is connected to, and the second outlet of the first three-way diverter valve is located at energy storage canister exchanger base by disk Energy storage canister coil pipe be connected to the first interface of the first four-way reversing valve, the second interface and outdoor heat exchange of the first four-way reversing valve The connection of device one end, the third interface of the first four-way reversing valve are connected to compressor return air mouth, and the 4th of the first four-way reversing valve connects Mouth is connected to one end of indoor heat exchanger；The other end of indoor heat exchanger is connected to the first interface of the second four-way reversing valve, room The other end of external heat exchanger is connected to by condensing expansion valve with the second interface of the second four-way reversing valve, the second four-way reversing valve It is connected to by energy storage expansion valve with the input end of energy storage canister heat exchanger after third interface and the 4th interface are in parallel, energy storage canister heat exchanger Outlet end be connected to compressor return air mouth.

The present invention solves another technical solution used by above-mentioned technical problem are as follows: a kind of peak load shifting accumulation energy air conditioner, packet Indoor unit and outdoor unit are included, indoor unit includes evaporator, and outdoor unit includes compressor, outdoor heat exchanger, condensation expansion valve and storage It can tank；The outdoor unit further includes energy storage expansion valve, the first three-way diverter valve and the second three-way diverter valve；The row of the compressor The inlet communication of port and the first three-way diverter valve, the first outlet of the first three-way diverter valve and one end of outdoor heat exchanger connect Logical, the second outlet of the first three-way diverter valve is located at the energy storage canister coil pipe and outdoor heat exchanger of energy storage canister exchanger base by disk One end connection；One end of evaporator is connected to the first interface of the second three-way diverter valve, and the second of the second three-way diverter valve connects Mouth is connected to by condensing expansion valve with the other end of outdoor heat exchanger, and the third interface of the second three-way diverter valve passes through energy storage and expands Valve is connected to the input end of energy storage canister heat exchanger, and the outlet end of energy storage canister heat exchanger is connected to the gas returning port of compressor；Evaporator The other end be connected to the gas returning port of compressor.

Compared with the prior art, the advantages of the present invention are as follows some reversal valves and connection are added on the running route of refrigerant Pipeline carries out simple structure adjustment, converts running route of the refrigerant in air-conditioning by commutation valve action according to electricity condition, from And can store the energy that dump power generates in energy storage canister in electricity consumption peak valley, in peak of power consumption by energy storage canister Middle storage energy consumption, reaches the effect that electric cost expenditure is effectively reduced using time-of-use tariffs, saves the electricity charge for user.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the embodiment of the present invention one.

Fig. 2 is the refrigeration conventional operation figure of the embodiment of the present invention one；

Fig. 3 is the refrigeration storage energy operation figure of the embodiment of the present invention one；

Fig. 4 is that the refrigeration of the embodiment of the present invention one releases energy operation figure；

Fig. 5 is the heating conventional operation figure of the embodiment of the present invention one；

Fig. 6 is the heating storage energy operation figure of the embodiment of the present invention one；

Fig. 7 is that energy operation figure is released in the heating of the embodiment of the present invention one；

Fig. 8 is the conventional operation figure of the embodiment of the present invention two；

Fig. 9 is the storage energy operation figure of the embodiment of the present invention two；

Figure 10 applies releasing for example two for the present invention can operation figure.

Specific embodiment

The present invention is described further below in conjunction with attached drawing and specific embodiment, but the present invention be not limited only to it is following Specific embodiment.

Specific embodiment one is air conditioner, and the structural schematic diagram of the present embodiment is a kind of peak load shifting storage as shown in Figure 1 Energy air-conditioning, it includes indoor unit 1 and outdoor unit 2；Indoor unit 1 includes indoor heat exchanger 11；Outdoor unit 2 include compressor 21, Energy storage canister 22, energy storage expansion valve 23, outdoor heat exchanger expansion valve 24, outdoor heat exchanger 25, play control energy release action the One three-way diverter valve 31, the first four-way reversing valve 32 for playing control cooling and warming mode transformation and a control large and small cycles are made Second four-way reversing valve 33, wherein energy storage canister 22 includes energy storage canister heat exchanger 221, energy-accumulating medium 222, energy storage canister coil pipe 223；Energy storage canister 22 is additionally provided with pressure reducing valve (not shown) and liquid level detection device (not shown).

As shown in Fig. 2, 31 import of the first three-way diverter valve is connected to first outlet under refrigeration normal operating conditions, first 32 first interface of four-way reversing valve is connected to second interface, the 4th interface and third orifice, the second four-way reversing valve 33 Two interfaces are connected to first interface, third interface and the 4th orifice；Refrigerant passes through the one or three from 21 exhaust outlet of compressor Logical reversal valve 31 flows into the first four-way reversing valve 32, successively passes through outdoor heat exchanger 25, outdoor heat exchanger expansion valve the 24, the 2nd 4 Logical reversal valve 33, indoor heat exchanger 11, the first four-way reversing valve 32 return to 21 gas returning port of compressor.

As shown in figure 3, freeze under storage energy operation state when electricity consumption peak valley, 31 import of the first three-way diverter valve and first outlet Connection, 32 first interface of the first four-way reversing valve is connected to second interface, third interface and the 4th orifice, the second four-way change To 33 first interface of valve and the 4th orifice, second interface and third orifice；Refrigerant is passed through from 21 exhaust outlet of compressor It crosses the first three-way diverter valve 31 and flows into the first four-way reversing valve 32, successively pass through outdoor heat exchanger 25, outdoor heat exchanger expansion valve 24, the second four-way reversing valve 33, energy storage expansion valve 23, energy storage canister heat exchanger 221 returns to 21 gas returning port of compressor.

As shown in figure 4, refrigeration is released under energy operating status when peak of power consumption, 31 import of the first three-way diverter valve and second outlet Connection, 32 first interface of the first four-way reversing valve is connected to second interface, the 4th interface and third orifice, the second four-way change It is connected to 33 second interface of valve with first interface, third interface and the 4th orifice；Refrigerant is passed through from 21 exhaust outlet of compressor The energy storage canister coil pipe 223 that the first three-way diverter valve 31 flows into energy storage canister 22 is crossed, the first four-way reversing valve 32 is successively passed through, it is outdoor Heat exchanger 25, outdoor heat exchanger expansion valve 24, the second four-way reversing valve 33, indoor heat exchanger 11, the first four-way reversing valve 32 return To 21 gas returning port of compressor.

As shown in figure 5,31 import of the first three-way diverter valve is connected to first outlet under heating normal operating conditions, first 32 first interface of four-way reversing valve and the 4th orifice, second interface and third orifice, the second four-way reversing valve 33 One interface is connected to second interface, third interface and the 4th orifice；Refrigerant passes through the one or three from 21 exhaust outlet of compressor Logical reversal valve 31 flows into the first four-way reversing valve 32, successively passes through indoor heat exchanger 11, the second four-way reversing valve 33, outdoor heat exchange Device expansion valve 24, outdoor heat exchanger 25, the first four-way reversing valve 32 return to 21 gas returning port of compressor.

As shown in fig. 6, being heated under storage energy operation state when electricity consumption peak valley, 31 import of the first three-way diverter valve and first outlet Connection, 32 first interface of the first four-way reversing valve are connected to the 4th orifice, third interface with second interface, and the second four-way changes It is connected to 33 first interface of valve with the 4th orifice, third interface with second interface；Refrigerant is passed through from 21 exhaust outlet of compressor Cross the first three-way diverter valve 31 flow into the first four-way reversing valve 32, successively pass through indoor heat exchanger 11, the second four-way reversing valve 33, Energy storage expansion valve 23, energy storage canister heat exchanger 221 return to 21 gas returning port of compressor.

As shown in fig. 7, heating is released under energy operating status when peak of power consumption, 31 import of the first three-way diverter valve and second outlet Connection, 32 first interface of the first four-way reversing valve and the 4th orifice, second interface and third orifice, the second four-way change It is connected to 33 first interface of valve with second interface, third interface and the 4th orifice；Refrigerant is passed through from 21 exhaust outlet of compressor The energy storage canister coil pipe 223 that the first three-way diverter valve 31 flows into energy storage canister 22 is crossed, the first four-way reversing valve 32 is successively passed through, it is indoor Heat exchanger 11, the second four-way reversing valve 33, outdoor heat exchanger expansion valve 24, outdoor heat exchanger 25, the first four-way reversing valve 32 return To 21 gas returning port of compressor.

Specific embodiment two is single cold air-conditioning, and the structural schematic diagram of the present embodiment is that one kind is avoided the peak hour use as shown in Figures 8 to 10 Electric accumulation energy air conditioner, it includes indoor unit 1 and outdoor unit 2；Indoor unit 1 includes evaporator 11 '；Outdoor unit 2 includes compressor 21, Energy storage canister 22, energy storage expansion valve 23, outdoor heat exchanger expansion valve 24, outdoor heat exchanger 25 ' play the of control energy release action One three-way diverter valve 31 plays the second three-way diverter valve 34 of control large and small cycles, wherein energy storage canister 22 is changed comprising energy storage canister Hot device 221, energy-accumulating medium 222, energy storage canister coil pipe 223；Energy storage canister 22 is additionally provided with pressure reducing valve (not shown) and level sensing Device (not shown).

As shown in figure 8,31 import of the first three-way diverter valve is connected to first outlet, the second threeway under normal operating conditions 34 first interface of reversal valve is connected to second interface；Refrigerant is flowed into from 21 exhaust outlet of compressor by the first three-way diverter valve 31 Outdoor heat exchanger 25 ', then successively pass through outdoor heat exchanger expansion valve 24, the second three-way diverter valve 34, evaporator 11 ' returns to pressure 21 gas returning port of contracting machine.

As shown in figure 9,31 import of the first three-way diverter valve and first outlet connect when electricity consumption peak valley under storage energy operation state It is logical, 34 second interface of the second three-way diverter valve and third orifice；Refrigerant passes through the first threeway from 21 exhaust outlet of compressor Reversal valve 31 flows into outdoor heat exchanger 25 ', then successively passes through outdoor heat exchanger expansion valve 24, the second three-way diverter valve 34, energy storage Expansion valve 23, energy storage canister heat exchanger 221 return to 21 gas returning port of compressor.

As shown in Figure 10, it is released when peak of power consumption under energy operating status, 31 import of the first three-way diverter valve and second outlet connect Logical, 34 second interface of the second three-way diverter valve is connected to first interface；Refrigerant passes through the first threeway from 21 exhaust outlet of compressor Reversal valve 31 flows into the energy storage canister coil pipe 223 in energy storage canister 22, then successively passes through outdoor heat exchanger 25 ', outdoor heat exchanger expansion Valve 24, the second three-way diverter valve 34, evaporator 11 ' return to 21 gas returning port of compressor.

Claims (1)

1. a kind of peak load shifting accumulation energy air conditioner, including indoor unit and outdoor unit, indoor unit include indoor heat exchanger, outdoor unit includes Compressor, outdoor heat exchanger, condensation expansion valve and energy storage canister；It is characterized by: the outdoor unit further includes energy storage expansion valve, One three-way diverter valve, the first four-way reversing valve and the second four-way reversing valve；The exhaust outlet of the compressor and the first triplet commutation The inlet communication of valve, the first outlet of the first three-way diverter valve are connected to the first interface of the first four-way reversing valve, the first threeway The second outlet of reversal valve by disk be located at energy storage canister exchanger base energy storage canister coil pipe and the first four-way reversing valve first The second interface of orifice, the first four-way reversing valve is connected to outdoor heat exchanger one end, and the third of the first four-way reversing valve connects Mouth is connected to compressor return air mouth, and the 4th interface of the first four-way reversing valve is connected to one end of indoor heat exchanger；Indoor heat exchange The other end of device is connected to the first interface of the second four-way reversing valve, and the other end of outdoor heat exchanger passes through condensation expansion valve and the The second interface of two four-way reversing valves is connected to, swollen by energy storage after the third interface of the second four-way reversing valve and the parallel connection of the 4th interface Swollen valve is connected to the input end of energy storage canister heat exchanger, and the outlet end of energy storage canister heat exchanger is connected to compressor return air mouth.