CN203274090U - Closed ice storage air conditioner heat pump device - Google Patents

Abstract

The utility model discloses a closed ice storage air conditioner heat pump device. The closed ice storage air conditioner heat pump device is characterized by comprising an ice slurry cold water heat pump unit, a pressure-bearing type energy storage tank, a solution pump, customer premise equipment, a circulating pump and heat source side equipment. An energy-saving air conditioner is formed by connecting the ice slurry cold water heat pump unit, the pressure-bearing type energy storage tank, the solution pump, the customer premise equipment, the circulating pump and the heat source side equipment. Compared with a conventional air conditioner, the closed ice storage air conditioner heat pump device can reduce the average installed capacity by about 57% and be lower in average investment and operating cost. The closed ice storage air conditioner heat pump device can achieve the functions of air conditioning refrigeration, accumulation of cold, and ice melting cold release without using a primary pump system and an intermediate heat exchanger. The closed ice storage air conditioner heat pump device can use various heat sources for achieving the functions of heat pump heat supply and heat storage. Besides, the closed ice storage air conditioner heat pump device also has the function of recovering heat for supplying sanitary hot water.

Description

Enclosed ice storage air conditioner heat pump assembly

Technical field

The utility model relates to a kind ofly will ice the enclosed ice storage air conditioner heat pump assembly that the combinations such as slurry handpiece Water Chilling Units (or with the ice of cross valve slurry handpiece Water Chilling Units), pressure-bearing type energy storage tank, solution pump, ustomer premises access equipment, circulating pump, heat source side equipment and valve, pipe fitting are integrated.

Background technology

Aircondition commonly used in world today's scope is determined installed capacity according to a design day peak load, and most air-conditioning object load variations within a day is larger, and the long zero load period is arranged.By statistics, these hourly averages load only be 43% left and right of peakload (seeing accompanying drawing 8) air-conditioning object designs days 24, and so only design day just has the installed capacity of 57% left and right to leave unused, this be surprising " waste ".

Also do not have in the world at present average investment suitable with the conventional air-conditioning device, average installed capacity only has 43% left and right of conventional air-conditioning device, and can bear corresponding air conditioner load demand and operating cost can be lower than the air conditioner of conventional air-conditioning device.

Ice-storage air-conditioning system was the open type energy storage in the past, and majority need increase pumping system and Intermediate Heat Exchanger could realize that cold-storage, ice-melt release cold function.System complex, efficient are low, investment is much larger than conventional air-conditioning; This type systematic itself can not have accumulation of heat, heat pump heat supply function simultaneously.

Summary of the invention

The purpose of this utility model just be to provide a kind of average installed capacity than the conventional air-conditioning device approximately lack 57%, average investment can also can be lower than the enclosed ice storage air conditioner heat pump assembly of conventional air-conditioning device lower than conventional air-conditioning device, operating cost.The utility model can enclosed pressure-bearing energy storage, need not one time pumping system and Intermediate Heat Exchanger can realize that air conditioner refrigerating, cold-storage, ice-melt release cold function; The utlity model has and utilize various thermals source with the heat supply of heat pump form and heat accumulation function; The utility model also has recuperation of heat for the health hot water function.

Order of the present utility model ground can be realized by following measures.

The technical scheme of the special cold-storage of the utility model, cooling is as follows:

A kind of enclosed ice storage air conditioner heat pump assembly is characterized in that it comprises ice slurry handpiece Water Chilling Units, pressure-bearing type energy storage tank, solution pump, ustomer premises access equipment, circulating pump, heat source side equipment.The user side outlet of ice slurry handpiece Water Chilling Units connects the import of pressure-bearing type energy storage tank, the outlet of pressure-bearing type energy storage tank is connected with the import of solution pump, the solution delivery side of pump connects the import of ustomer premises access equipment, and the outlet of ustomer premises access equipment is connected with the user side import of ice slurry handpiece Water Chilling Units; The heat source side outlet of ice slurry handpiece Water Chilling Units connects the import of heat source side equipment, and the outlet of heat source side equipment is connected with the import of circulating pump, and the circulation delivery side of pump is connected with the heat source side import of ice slurry handpiece Water Chilling Units.This technical scheme of the utility model has air conditioner refrigerating, cold-storage, ice-melt cooling, air conditioning function.

The technical scheme of the special accumulation of heat of the utility model, heat supply is as follows:

A kind of enclosed ice storage air conditioner heat pump assembly is characterized in that it comprises ice slurry handpiece Water Chilling Units, pressure-bearing type energy storage tank, solution pump, ustomer premises access equipment, circulating pump, heat source side equipment.The user side outlet of ice slurry handpiece Water Chilling Units connects the import of pressure-bearing type energy storage tank, the outlet of pressure-bearing type energy storage tank is connected with the import of solution pump, the solution delivery side of pump connects the import of heat source side equipment, and the outlet of heat source side equipment is connected with the user side import of ice slurry handpiece Water Chilling Units; The heat source side outlet of ice slurry handpiece Water Chilling Units connects the import of ustomer premises access equipment, and the outlet of ustomer premises access equipment is connected with the import of circulating pump, and the circulation delivery side of pump is connected with the user side import of ice slurry handpiece Water Chilling Units.This technical scheme of the utility model has air-conditioning heat pump heat supply and heat accumulation function.

The above-mentioned two kinds of technical schemes of the utility model can make up by a cover valve, and its technical scheme is as follows:

A kind of enclosed ice storage air conditioner heat pump assembly is characterized in that it comprises ice slurry cold water source pump, pressure-bearing type energy storage tank, the first ratio adjusting valve, solution pump, the second ratio adjusting valve, ustomer premises access equipment, circulating pump, heat source side equipment, electric heater.The user side outlet of ice slurry handpiece Water Chilling Units connects the import of pressure-bearing type energy storage tank, connects simultaneously an import of the first ratio adjusting valve.The outlet of pressure-bearing type energy storage tank connects another import of the first ratio adjusting valve.The outlet of the first ratio adjusting valve is connected with the import of solution pump by the 4th valve, connects simultaneously the import of circulating pump by the 6th valve.The solution delivery side of pump connects the import of the second ratio adjusting valve.The second one of ratio adjusting valve outlet connects the import of ustomer premises access equipment.Another outlet of the outlet of ustomer premises access equipment and the second ratio adjusting valve is connected to the user side import of described ice slurry handpiece Water Chilling Units jointly by the 3rd valve, be connected to simultaneously the heat source side import of ice slurry handpiece Water Chilling Units by the 7th valve.The heat source side outlet of ice slurry handpiece Water Chilling Units connects the import of circulating pump by the second valve, be connected with the import of solution pump by the 8th valve simultaneously.The circulation delivery side of pump connects the import of heat source side equipment.The outlet of heat source side equipment connects the heat source side import of ice slurry handpiece Water Chilling Units by the first valve, the outlet of heat source side equipment connects the user side import of ice slurry handpiece Water Chilling Units simultaneously by the 5th valve.Described heat source side equipment import and export can be connected in parallel to the 9th valve.The tenth valve and electric heater in parallel with it can be installed on the connecting line of the outlet of described heat source side equipment and the first valve, the 5th valve, and described electric heater import and export is connected to respectively the both sides of the tenth valve by the 11 valve, the 12 valve.This technical combinations scheme of the utility model has air conditioner refrigerating, cold-storage, ice-melt cooling and air conditioning function and has air-conditioning heat pump heat supply and heat accumulation function.

The utility model also provides a kind of technical scheme of starching handpiece Water Chilling Units refrigerant pipe path built-in cross valve of icing as follows:

A kind of enclosed ice storage air conditioner heat pump assembly is characterized in that it comprises with the ice of cross valve slurry handpiece Water Chilling Units, pressure-bearing type energy storage tank, solution pump, ustomer premises access equipment, circulating pump, heat source side equipment, the first ratio adjusting valve, the second ratio adjusting valve.the family of starching handpiece Water Chilling Units with the ice of cross valve connects first interface of the first ratio adjusting valve simultaneously with the import that brings out mouth connection pressure-bearing type energy storage tank, the outlet of pressure-bearing type energy storage tank connects second interface of the first ratio adjusting valve, the 3rd interface of the first ratio adjusting valve is connected with the import of solution pump, the solution delivery side of pump connects first interface of the second ratio adjusting valve, second interface of the second ratio adjusting valve connects the import of ustomer premises access equipment, the 3rd interface of the outlet of ustomer premises access equipment and the second ratio adjusting valve together is connected with the user side import of starching handpiece Water Chilling Units with the ice of cross valve, starch the import of the heat source side outlet connection heat source side equipment of handpiece Water Chilling Units with the ice of cross valve, the outlet of heat source side equipment is connected with the import of circulating pump, and the outlet of circulating pump 5 is connected with the heat source side import of starching handpiece Water Chilling Units with the ice of cross valve.When the condenser with the cold unit of cross valve ice slurry is Wind-cooling type or evaporation cold mould, do not need to connect circulating pump and heat resource equipment.This technical scheme of the utility model has air conditioner refrigerating, cold-storage, ice-melt cooling and air conditioning function and has air-conditioning heat supply and heat accumulation function.

In the above-mentioned several technical schemes of the utility model, ice is starched handpiece Water Chilling Units (or starching handpiece Water Chilling Units with the ice of cross valve) but the select tape heat regenerator.The outlet of heat regenerator connects the water inlet of health hot water water storage tank, and the delivery port of health hot water water storage tank connects the import of ice slurry handpiece Water Chilling Units (and starching handpiece Water Chilling Units with the ice of cross valve) heat regenerator by heat-exchanger pump.Therefore, the utlity model has generation health hot water function.

Described in the above-mentioned several technical schemes of the utility model:

1, ice slurry handpiece Water Chilling Units (or starching handpiece Water Chilling Units with the ice of cross valve):

1.1 applicable infinitely great thermal source has: air-source and water source (comprise river, river, lake, seawater, underground water, underground pipe, heat source tower, open cooling tower, closed cooling tower, water ring system, municipal sewage etc.) and the solar energy when being used for heat pump heat supply, trough-electricity, low grade residual heat etc.;

1.2 the form of refrigeration compressor has: Piston Refrigerant Compreessor, swirl type cold compressor, screw type refrigerating compressor, centrifugal refigerating compressor and Absorption Refrigerator;

1.3 the form of condenser has: Wind-cooling type, water-cooling type and evaporation cold mould.For multi-form condenser, the mode of the utility model connection thermal source or heat resource equipment is different.The utility model does not need to connect circulating pump and heat resource equipment when condenser is Wind-cooling type or evaporation cold mould;

1.4 the difunctional generator form of ice slurry cold water: its ice slurry occurring mode can be to revolve pushing manipulation, facing or solution to cross cold process; Its low-temperature receiver side is the cold-producing medium direct-evaporation-type, but its solution circulation side is pressure-bearing, can directly be connected with air conditioning terminal as common handpiece Water Chilling Units.

2, pressure-bearing type energy storage tank:

2.1 its material of pressure-bearing type energy storage tank comprises metal, engineering plastics, fiberglass, armored concrete etc.;

2.2 the also energy storage tank of belt stirrer;

2.3 specified conditions can substitute with non-pressure-bearing energy storage tank.

3, solution pump:

3.1 single-pump system;

3.2 multiple pump;

3.3 the installation site of pump can change.

4, ustomer premises access equipment:

4.1 the equipment (the air conditioning terminal cooling-air is main) with gas converting heat:

A. air conditioning terminal solution side, air conditioning terminal wind side are the conventional criteria parameter;

B. air conditioning terminal solution side: low temp. difference partial circulating amount; Air conditioning terminal wind side: the large temperature difference low-temperature air-supply of conventional parameter or little air quantity;

C. air conditioning terminal solution side: contain the ice crystal circulation, extra small internal circulating load; Air conditioning terminal wind side: the large temperature difference low-temperature air-supply of conventional parameter or little air quantity.

4.2 the equipment (chilled water is main) with liquid heat exchange:

A. plate type heat exchanger;

B. coil exchanger.

5, circulating pump:

5.1 single-pump system;

5.2 multiple pump;

5.3 the installation site of pump can change.

6, heat source side equipment:

Heat resource equipment described in the above-mentioned four kinds of technical schemes of the utility model is mainly cooling tower, the heat source tower with the atmosphere heat exchange; Or be connected the heat exchanger of heat exchange with various thermals source; Or direct-connected various water source.

6.1 the equipment (air heat source is main) with gas converting heat:

A. open type, closed cooling tower;

B. open type, closed type heat source tower.

6.2 the equipment (thermals source such as river, river, lake, sea, underground water) with liquid heat exchange:

A. plate type heat exchanger;

B. coil exchanger.

6.3 the equipment (soil heat source is main) with the solid heat exchange:

Take coil exchanger as main.

For improving the utility model operational reliability and efficient, identical with common air-conditioning device and common energy storage air conditioner, can add all kinds of valves, filter in system pipeline, softly connect, expansion vessel and detect utensil etc.

The beneficial effects of the utility model have:

The utility model is the enclosed ice storage air conditioner heat pump assembly that the combinations such as ice slurry handpiece Water Chilling Units (or starching handpiece Water Chilling Units with the ice of cross valve), pressure-bearing type energy storage tank, solution pump, ustomer premises access equipment, circulating pump, heat source side equipment and valve, pipe fitting are integrated.

Enclosed pressure-bearing ice-reserving form is used in the utility model innovative design, need not one time pumping system and Intermediate Heat Exchanger can realize that air conditioner refrigerating, cold-storage, ice-melt release cold function, the simplification system, raise the efficiency;

The utility model can be realized directly carrying the ice slurry to air conditioning terminal in closed system, can make air conditioning terminal small-sized, efficient, and the guiding building air-conditioning is newly changed.

The utility model also possesses the heat pump functionals such as heat supply, accumulation of heat, domestic hot-water, adapts to lower heat source temperature than light water, earth source heat pump.Can also utilize neatly the trough-electricity accumulation of heat.

The utility model engineering initial cost can be lower than the conventional air-conditioning device, and operating cost also can be lower than the conventional air-conditioning device.

The utility model can refrigeration, cold-storage, release cold developing simultaneously, full-time efficient operation, and installed capacity is little;

43% of the utility model installed capacity average out to conventional air-conditioning device, system has solved this world subject of the idle waste of conventional air-conditioning installed capacity.Distribution is low, small investment, operation are economized, the perfect conventional air-conditioning device that substitutes.Can be society and save huge power plant, electric grid investment, for the user saves a large sum of distribution and machine room investment, in conjunction with the time-of-use tariffs preferential policy, greatly reduce operating cost, is the great revolutionary advancement of air-conditioning technical.

The utility model can reduce electric power installed capacity and power plant construction investment energetically.2011 market, annual China's Mainland medium-and-large-sized air-conditioning unit sales volumes are about 14,000,000,000 yuans, and the unit installed capacity is about 1,020 ten thousand kilowatts.As wherein 50% adopting the utility model, 1 year can reduce 2,900,000 kilowatts of electric power installed capacitys, reduces 15,000,000,000 yuans of power plant construction investments (not comprising supporting power transmission and transforming equipment investment).

The utility model can greatly reduce CO2 emissions.As the young 2900000 kilowatts of scale thermal power plants (normal approximately 6000 hours fired power generating unit annual working time) of building, can reduce 1,422 ten thousand tons of CO2 emissions the whole year, adopting the utility model is the effective behave that reduces carbon emission.(the average net coal consumption rate of China's Mainland fired power generating unit in 2010 is 0.333 kilogram of standard coal/kilowatt hour; According to China national Committee of Development and Reform recommendation, conversion factor is 2.4567tCO2/tce, and the one ton of standard coal that namely burns will produce the CO2 emissions of 2.4567 tons.

Description of drawings

Fig. 1 is the structural representation of the utility model refrigeration.

Fig. 2 is the structural representation of the utility model heat supply.

Fig. 3 adds the structural representation of control valve in the utility model pipe-line system.

Fig. 4 is the structural representation of the utility model solution pump, circulating pump conversion installation site.

Fig. 5 is that the utility model is with the structural representation of the combinations such as Fig. 1, Fig. 2, Fig. 3, Fig. 4.

Fig. 6 is that the utility model adopts the structural representation with cross valve ice slurry handpiece Water Chilling Units.

Fig. 7 is that the ice slurry handpiece Water Chilling Units of the utility model band cross valve is the structural representation of Wind-cooling type.

Fig. 8 is the schematic diagram of 24 hours loads of typical office building air-conditioning.

The specific embodiment

The utility model is further described below in conjunction with accompanying drawing.

As shown in Figure 1, the technical scheme of the special cold-storage of the utility model, cooling is as follows:

It comprises ice slurry handpiece Water Chilling Units 1, pressure-bearing type energy storage tank 2, solution pump 3, ustomer premises access equipment 4, circulating pump 5, heat source side equipment 6 the utility model.The user side outlet of ice slurry handpiece Water Chilling Units 1 connects the import of pressure-bearing type energy storage tank 2, the outlet of pressure-bearing type energy storage tank 2 is connected with the import of solution pump 3, the outlet of solution pump 3 connects the import of ustomer premises access equipment 4, and the outlet of ustomer premises access equipment 4 is connected with the user side import of ice slurry handpiece Water Chilling Units 1; The heat source side outlet of ice slurry handpiece Water Chilling Units 1 connects the import of heat source side equipment 6, and the outlet of heat source side equipment 6 is connected with the import of circulating pump 5, and the outlet of circulating pump 5 is connected with the heat source side import of ice slurry handpiece Water Chilling Units 1.This technical scheme of the utility model has air conditioner refrigerating, cold-storage, ice-melt cooling, air conditioning function.

The technical scheme of the special accumulation of heat of the utility model as shown in Figure 2,, heat supply is as follows:

It comprises ice slurry handpiece Water Chilling Units 1, pressure-bearing type energy storage tank 2, solution pump 3, ustomer premises access equipment 4, circulating pump 5, heat source side equipment 6 the utility model.The user side outlet of ice slurry handpiece Water Chilling Units 1 connects the import of pressure-bearing type energy storage tank 2, the outlet of pressure-bearing type energy storage tank 2 is connected with the import of solution pump 3, the outlet of solution pump 3 connects the import of heat source side equipment 6, and the outlet of heat source side equipment 6 is connected with the user side import of ice slurry handpiece Water Chilling Units 1; The heat source side outlet of ice slurry handpiece Water Chilling Units 1 connects the import of ustomer premises access equipment 4, and the outlet of ustomer premises access equipment 4 is connected with the import of circulating pump 5, and the outlet of circulating pump 5 is connected with the heat source side import of ice slurry handpiece Water Chilling Units 1.Heat source side equipment 6 and air heat source, hydro-thermal source, geothermal source are connected, and this technical scheme of the utility model has heat pump accumulation of heat and air-conditioning heat supply function.

As shown in Figure 3, for improving the utility model operational reliability and efficient, identical with common air-conditioning device and common energy storage aircondition, can add all kinds of valves, filter in system pipeline, softly connect, expansion vessel and detect utensil etc., its concrete technical scheme is as follows:

It comprises ice slurry handpiece Water Chilling Units 1, pressure-bearing type energy storage tank 2, solution pump 3, ustomer premises access equipment 4, circulating pump 5, heat source side equipment 6, the first ratio adjusting valve 10, the second ratio adjusting valve 11 the utility model.the import of the user side outlet connection pressure-bearing type energy storage tank 2 of ice slurry handpiece Water Chilling Units 1 connects first interface of the first ratio adjusting valve 10 simultaneously, the outlet of pressure-bearing type energy storage tank 2 connects second interface of the first ratio adjusting valve 10, the 3rd interface of the first ratio adjusting valve 10 is connected with the import of solution pump 3, the outlet of solution pump 3 connects first interface of the second ratio adjusting valve 11, second interface of the second ratio adjusting valve 11 connects the import of ustomer premises access equipment 4, the 3rd interface of the outlet of ustomer premises access equipment 4 and the second ratio adjusting valve 11 together is connected with the user side import of ice slurry handpiece Water Chilling Units 1, the heat source side outlet of ice slurry handpiece Water Chilling Units 1 connects the import of heat source side equipment 6, and the outlet of heat source side equipment 6 is connected with the import of circulating pump 5, and the outlet of circulating pump 5 is connected with the heat source side import of ice slurry handpiece Water Chilling Units 1.

As shown in Figure 4, for improving the utility model Installation Flexibility, operational reliability and efficient, identical with common air-conditioning device and common energy storage aircondition, quantity and the installation site of solution pump 3 and circulating pump 5 can change, and its concrete technical scheme is as follows:

It comprises ice slurry handpiece Water Chilling Units 1, pressure-bearing type energy storage tank 2, solution pump 3, ustomer premises access equipment 4, circulating pump 5, heat source side equipment 6, the first ratio adjusting valve 10, the 3rd ratio adjusting valve 111, the second solution pump 31 the utility model.the user side outlet of ice slurry handpiece Water Chilling Units 1 connects the import of pressure-bearing type energy storage tank 2, first interface that connects simultaneously the first ratio adjusting valve 10, the outlet of pressure-bearing type energy storage tank 2 connects second interface of the first ratio adjusting valve 10, the 3rd interface of the first ratio adjusting valve 10 is connected with the import of solution pump 3, first interface that the outlet of solution pump 3 connects the 3rd ratio adjusting valve 111 is connected to the user side import that ice is starched handpiece Water Chilling Units 1 simultaneously, second interface of the 3rd ratio adjusting valve 111 connects the import of the second solution pump 31, the outlet of the second solution pump 31 connects the import of ustomer premises access equipment 4, the 3rd interface that the outlet of ustomer premises access equipment 4 connects the 3rd ratio adjusting valve 111 is connected with the user side import of ice slurry handpiece Water Chilling Units 1 simultaneously, the heat source side outlet of ice slurry handpiece Water Chilling Units 1 connects the import of circulating pump 5, and the outlet of circulating pump 5 connects the import of heat source side equipment 6, and the outlet of heat source side equipment 6 is connected with the heat source side import of ice slurry handpiece Water Chilling Units 1.

Fig. 5 is that the utility model is with the technical scheme of the scheme organic assembling such as Fig. 1, Fig. 2, Fig. 3, Fig. 4.Make up switching by a cover valve, this technical scheme of the utility model has air conditioner refrigerating, cold-storage, ice-melt cooling, air conditioning function and has air-conditioning heat supply, heat accumulation function.Its concrete technical scheme is as follows:

The utility model structure comprises ice slurry cold water source pump 1, pressure-bearing type energy storage tank 2, the first ratio adjusting valve 10, solution pump 3, the second ratio adjusting valve 11, ustomer premises access equipment 4, circulating pump 5, heat source side equipment 6, electric heater 12.The user side outlet of ice slurry handpiece Water Chilling Units 1 connects the import of pressure-bearing type energy storage tank 2, connects simultaneously an import of the first ratio adjusting valve 10.The outlet of pressure-bearing type energy storage tank 2 connects another import of the first ratio adjusting valve 10.The outlet of the first ratio adjusting valve 10 is connected with the import of solution pump 3 by the 4th valve V4, connects simultaneously the import of circulating pump 5 by the 6th valve V6.The outlet of solution pump 3 connects the import of the second ratio adjusting valve 11.The second 11 1 of ratio adjusting valves outlet connects the import of ustomer premises access equipment 4.Another outlet of the outlet of ustomer premises access equipment 4 and the second ratio adjusting valve 11 is connected to the user side import of described ice slurry handpiece Water Chilling Units 1 jointly by the 3rd valve V3, be connected to simultaneously the heat source side import of ice slurry handpiece Water Chilling Units 1 by the 7th valve V7.The heat source side outlet of ice slurry handpiece Water Chilling Units 1 connects the import of circulating pump 5 by the second valve V2, be connected with the import of solution pump 3 by the 8th valve V8 simultaneously.The outlet of circulating pump 5 connects the import of heat source side equipment 6.The outlet of heat source side equipment 6 connects the heat source side import of ice slurry handpiece Water Chilling Units 1 by the first valve V1, the outlet of heat source side equipment 6 connects the user side import of ice slurry handpiece Water Chilling Units 1 simultaneously by the 5th valve V5.

The import and export of described heat source side equipment 6 can be connected in parallel to the 9th valve V9.

The tenth valve V10 and electric heater 12 in parallel with it can be installed on the connecting line of the outlet of described heat source side equipment 6 and the first valve V1, the 5th valve V5, and described electric heater 12 import and exports are connected to respectively the both sides of the tenth valve V10 by the 11 valve V11, the 12 valve V12.This technical combinations scheme of the utility model has air conditioner refrigerating, cold-storage, ice-melt cooling and air conditioning function and has air-conditioning heat pump heat supply and heat accumulation function.

As shown in Figure 6, the utility model also provides a kind of technical scheme of starching handpiece Water Chilling Units refrigerant pipe path built-in cross valve of icing as follows:

It comprises the cold unit 7 of band cross valve ice slurry, pressure-bearing type energy storage tank 2, solution pump 3, ustomer premises access equipment 4, circulating pump 5, heat source side equipment 6, the first ratio adjusting valve 10, the second ratio adjusting valve 11 the utility model.user side with cross valve ice slurry handpiece Water Chilling Units 7 exports first interface that the import that connects pressure-bearing type energy storage tank 2 connects the first ratio adjusting valve 10 simultaneously, the outlet of pressure-bearing type energy storage tank 2 connects second interface of the first ratio adjusting valve 10, the 3rd interface of the first ratio adjusting valve 10 is connected with the import of solution pump 3, the outlet of solution pump 3 connects first interface of the second ratio adjusting valve 11, second interface of the second ratio adjusting valve 11 connects the import of ustomer premises access equipment 4, the 3rd interface of the outlet of ustomer premises access equipment 4 and the second ratio adjusting valve 11 together is connected with the user side import of starching handpiece Water Chilling Units 7 with cross valve ice, connect the import of heat source side equipment 6 with the heat source side outlet of cross valve ice slurry handpiece Water Chilling Units 7, the outlet of heat source side equipment 6 is connected with the import of circulating pump 5, and the outlet of circulating pump 5 is connected with the heat source side import of icing slurry handpiece Water Chilling Units 7 with cross valve.This technical scheme of the utility model has air conditioner refrigerating, cold-storage, ice-melt cooling and air conditioning function and has air-conditioning heat supply and heat accumulation function.

As shown in Figure 7, when the utility model is Wind-cooling type or evaporation cold mould when the condenser with the cold unit 7 of cross valve ice slurry, do not need to connect circulating pump 5 and heat resource equipment 6.

As Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, shown in Figure 7, the technical scheme that the utility model produces health hot water is as follows:

The utility model structure can also be ice slurry cold water source pump 1(or band cross valve ice slurry handpiece Water Chilling Units 7) the band heat regenerator, the import and export of its heat regenerator is connected respectively delivery port and the water inlet of health hot water water storage tank 8.Ice slurry handpiece Water Chilling Units 1(and band cross valve ice slurry handpiece Water Chilling Units 7) the import of heat regenerator and the connecting pipe of health hot water water storage tank 8 delivery ports be provided with heat-exchanger pump 9.The utlity model has and produce the health hot water function.

Description about the utility model critical piece:

1, ice slurry handpiece Water Chilling Units 1(or band cross valve ice slurry handpiece Water Chilling Units 7) :

1.1 applicable infinitely great thermal source has: air-source and water source (comprise river, river, lake, seawater, underground water, underground pipe, heat source tower, open cooling tower, closed cooling tower, water ring system, municipal sewage etc.) and the solar energy when being used for heat pump heat supply, trough-electricity, low grade residual heat etc.;

1.2 the form of refrigeration compressor has: Piston Refrigerant Compreessor, swirl type cold compressor, screw type refrigerating compressor, centrifugal refigerating compressor and Absorption Refrigerator;

1.3 the form of condenser has: Wind-cooling type, water-cooling type and evaporation cold mould, for multi-form condenser, the mode of the utility model connection thermal source or heat resource equipment is different.The utility model does not need to connect circulating pump and heat resource equipment when condenser is Wind-cooling type or evaporation cold mould, as shown in Figure 7;

1.4 the difunctional generator form of ice slurry cold water: its ice slurry occurring mode can be to revolve pushing manipulation, facing or solution to cross cold process; Its low-temperature receiver side is the cold-producing medium direct-evaporation-type, but its solution circulation side is pressure-bearing, can directly be connected with air conditioning terminal as common handpiece Water Chilling Units.

2, pressure-bearing type energy storage tank 2:

2.1 pressure-bearing type energy storage tank 2 its materials comprise metal, engineering plastics, fiberglass, armored concrete etc.;

2.2 the also energy storage tank of belt stirrer;

2.3 specified conditions can substitute with non-pressure-bearing energy storage tank.

3, solution pump 3:

3.1 single-pump system;

3.2 multiple pump;

3.3 the installation site of solution pump 3 can change, as shown in Figure 4.

4, ustomer premises access equipment 4:

4.1 take air conditioning terminal as main, mainly contain the forms such as assembled air-conditioner unit, fan coil units with ustomer premises access equipment 4 in ustomer premises access equipment 4(the utility model of gas converting heat, all take water (solution) as cold and heat source, cooling or heat cycles air.）：

A. air conditioning terminal solution side, air conditioning terminal wind side are the conventional criteria parameter;

B. air conditioning terminal solution side: low temp. difference partial circulating amount.Air conditioning terminal wind side: the large temperature difference low-temperature air-supply of conventional parameter or little air quantity;

C. air conditioning terminal solution side: contain the ice crystal circulation, extra small internal circulating load.Air conditioning terminal wind side: the large temperature difference low-temperature air-supply of conventional parameter or little air quantity.

4.2 with the ustomer premises access equipment 4(chilled water of liquid heat exchange be main):

A. plate type heat exchanger;

B. coil exchanger.

5, circulating pump 5:

5.1 separate unit circulating pump 5 systems;

5.2 many circulating pump systems;

5.3 the installation site of circulating pump 5 can change, and sees Fig. 4.

6, heat source side equipment 6:

6.1 with the heat source side equipment 6(air heat source of gas converting heat be main):

A. open type, closed cooling tower;

B. open type, closed type heat source tower.

6.2 with thermals source such as the heat source side equipment 6(river of liquid heat exchange, river, lake, sea, underground water):

A. plate type heat exchanger;

B. coil exchanger.

6.3 with the heat source side equipment 6(soil heat source of solid heat exchange be main):

Take coil exchanger as main.

7, the first ratio adjusting valve 10, the second ratio adjusting valve 11, the 3rd ratio adjusting valve 111:

All available two two-way control valves substitute.

All parts that the utility model adopts are existing commercially available prod.

The below is further described specific works process of the present utility model and various function.

1, Fig. 1 is the structural representation of the utility model refrigeration, and shown various cold-storages, cooling function circulate as follows:

1.1 the independent cooling circulation of ice slurry handpiece Water Chilling Units:

Open the utility model device, the utility model user side low concentration salt solution (or other solution) is by following circular flow.

Ice slurry handpiece Water Chilling Units 1 → pressure-bearing type energy storage tank 2 → solution pump 3 → ustomer premises access equipment 4 → ice slurry handpiece Water Chilling Units 1.

The utility model realizes that ice slurry handpiece Water Chilling Units (or with air conditioning condition) is separately to user's air-conditioning cooling.

1.2 charge cycle:

Open the utility model device, the utility model user side is by following circular flow.

Ice slurry handpiece Water Chilling Units 1 → pressure-bearing type energy storage tank 2 → solution pump 3 → ustomer premises access equipment 4 → ice slurry handpiece Water Chilling Units 1.

At this moment, the zero load or underload of ustomer premises access equipment.Low concentration salt solution or other solution are cooled to the crystalline temperature preparing ice slurry in ice slurry handpiece Water Chilling Units 1, and will ices to starch and be stored in pressure-bearing type energy storage tank 2.

1.3 the independent cooling circulation of pressure-bearing type energy storage tank:

Open the utility model device, ice slurry handpiece Water Chilling Units 1 refrigeration of not starting shooting, only for by state, the utility model user side is pressed following circular flow.

Ice slurry handpiece Water Chilling Units 1 → pressure-bearing type energy storage tank 2 → solution pump 3 → ustomer premises access equipment 4 → ice slurry handpiece Water Chilling Units 1.

This moment, circulation solution was lowered the temperature through 2 ice-melts of pressure-bearing type energy storage tank, entered ustomer premises access equipment 4 to air-conditioning object cooling.

1.4 air conditioning circulation:

Open the utility model device, the utility model user side is by following circular flow.

Ice slurry handpiece Water Chilling Units 1 → pressure-bearing type energy storage tank 2 → solution pump 3 → ustomer premises access equipment 4 → ice slurry cold water source pump 1.

Circulation solution enters pressure-bearing type energy storage tank 2 and further lowers the temperature, to satisfy the workload demand of ustomer premises access equipment 4 after lowering the temperature in advance via ice slurry handpiece Water Chilling Units 1.

2, Fig. 2 is the structural representation of the utility model heat supply, and shown heat supply function circulation is as follows: open the utility model device, the utility model is by following circular flow

User's side circulation: ice slurry handpiece Water Chilling Units 1 heat source side → ustomer premises access equipment 4 → circulating pump 5 → ice slurry handpiece Water Chilling Units 1 heat source side.

Heat source side circulation: ice slurry handpiece Water Chilling Units 1 user side → pressure-bearing type energy storage tank 2 → solution pump 3 → heat source side equipment 6 → ice slurry handpiece Water Chilling Units 1 user side.

This moment, user's side circulation solution heated through ice slurry handpiece Water Chilling Units 1 heat source side, entered ustomer premises access equipment 4 to the heat supply of air-conditioning object.Heat source side solution can circulate below zero centigrade, and adaptive surface is wider.

3, Fig. 3 adds the structural representation of control valve in the utility model pipe-line system, and shown various cold-storages, cooling function circulate as follows:

3.1 the independent cooling circulation of ice slurry handpiece Water Chilling Units:

Open the utility model device, the utility model user side is by following circular flow.

Ice slurry handpiece Water Chilling Units 1 → the first ratio adjusting valve 10 → solution pump 3 → the first ratio adjusting valve 11 → ustomer premises access equipments 4 → ice slurry handpiece Water Chilling Units 1.

The utility model is realized with ice slurry handpiece Water Chilling Units separately to user's air-conditioning cooling.

3.2 charge cycle:

Open the utility model device, the utility model user side is by following circular flow.

Ice slurry handpiece Water Chilling Units 1 → pressure-bearing type energy storage tank 2 → the first ratio adjusting valve 10 → solution pump 3 → the second ratio adjusting valves 11 → ice slurry handpiece Water Chilling Units 1.

Low concentration salt solution or other solution are cooled to the crystalline temperature preparing ice slurry in ice slurry handpiece Water Chilling Units 1, and will ices to starch and be stored in pressure-bearing type energy storage tank 2.

3.3 the independent cooling circulation of pressure-bearing type energy storage tank:

Open the utility model device, ice slurry handpiece Water Chilling Units 1 refrigeration of not starting shooting, only for by state, the utility model user side is pressed following circular flow.

Ice slurry handpiece Water Chilling Units 1 → pressure-bearing type energy storage tank 2 → the first ratio adjusting valve 10 → solution pump 3 → the second ratio adjusting valve 11 → ustomer premises access equipments 4 → ice slurry handpiece Water Chilling Units 1.

This moment, circulation solution was through the 2 ice-melt coolings of pressure-bearing type energy storage tank, and regulate bypass flow by the first ratio adjusting valve 10, thereby control the temperature (or ice crystal content) that enters ustomer premises access equipment 4 circulation solutions, the second ratio adjusting valve 11 can be controlled the flow that enters ustomer premises access equipment 4 circulation solutions, and ustomer premises access equipment 4 is to air-conditioning object cooling.

3.4 air conditioning circulation:

Open the utility model device, the utility model user side is by following circular flow.

Ice slurry handpiece Water Chilling Units 1 → pressure-bearing type energy storage tank 2 → the first ratio adjusting valve 10 → solution pump 3 → the second ratio adjusting valve 11 → ustomer premises access equipments 4 → ice slurry handpiece Water Chilling Units 1.

Open the utility model device, via the circulation of ice slurry handpiece Water Chilling Units 1 cooling, solution enters pressure-bearing type energy storage tank 2 further lowers the temperature (or increasing ice crystal content), to satisfy the workload demand of ustomer premises access equipment 4.

3.5 variable ice crystal content cooling circulation:

Open the utility model device, have under the condition of a certain amount of ice crystal at pressure-bearing type energy storage tank 2, regulate by the first ratio adjusting valve 10 flow that enters pressure-bearing type energy storage tank 2 circulation solutions, thereby regulate the solution ice crystal content that enters ustomer premises access equipment 4.

4, Fig. 4 is the structural representation of the utility model solution pump, circulating pump conversion installation site, and shown various cold-storages, the circulation of cooling function are as follows:

4.1 the independent cooling circulation of ice slurry handpiece Water Chilling Units:

Open the utility model device, the utility model user side is by following circular flow.

Ice slurry handpiece Water Chilling Units 1 → the first ratio adjusting valve 10 → solution pump 3 → the first ratio adjusting valve 11 → ustomer premises access equipments 4 → ice slurry handpiece Water Chilling Units 1.

The utility model is realized with ice slurry handpiece Water Chilling Units separately to user's air-conditioning cooling.

4.2 charge cycle:

Open the utility model device, the utility model user side is by following circular flow.

Ice slurry handpiece Water Chilling Units 1 → pressure-bearing type energy storage tank 2 → the first ratio adjusting valve 10 → solution pump 3 → the second ratio adjusting valves 11 → ice slurry handpiece Water Chilling Units 1.

Low concentration salt solution or other solution are cooled to the crystalline temperature preparing ice slurry in ice slurry handpiece Water Chilling Units 1, and will ices to starch and be stored in pressure-bearing type energy storage tank 2.

4.3 the independent cooling circulation of pressure-bearing type energy storage tank:

Open the utility model device, ice slurry handpiece Water Chilling Units 1 refrigeration of not starting shooting, only for by state, the utility model user side is pressed following circular flow.

Ice slurry handpiece Water Chilling Units 1 → pressure-bearing type energy storage tank 2 → the first ratio adjusting valve 10 → solution pump 3 → the second ratio adjusting valve 11 → ustomer premises access equipments 4 → ice slurry handpiece Water Chilling Units 1.

This moment, circulation solution was through the 2 ice-melt coolings of pressure-bearing type energy storage tank, and regulate bypass flow by the first ratio adjusting valve 10, thereby control the temperature (or ice crystal content) that enters ustomer premises access equipment 4 circulation solutions, the second ratio adjusting valve 11 can be controlled the flow that enters ustomer premises access equipment 4 circulation solutions, and ustomer premises access equipment 4 is to air-conditioning object cooling.

4.4 air conditioning circulation:

Open the utility model device, the utility model user side is by following circular flow.

Ice slurry handpiece Water Chilling Units 1 → pressure-bearing type energy storage tank 2 → the first ratio adjusting valve 10 → solution pump 3 → the second ratio adjusting valve 11 → ustomer premises access equipments 4 → ice slurry handpiece Water Chilling Units 1.

Open the utility model device, via the circulation of ice slurry handpiece Water Chilling Units 1 cooling, solution enters pressure-bearing type energy storage tank 2 further lowers the temperature (or increasing ice crystal content), to satisfy the workload demand of ustomer premises access equipment 4.

4.5 variable ice crystal content cooling circulation:

Open the utility model device, have under the condition of a certain amount of ice crystal at pressure-bearing type energy storage tank 2, regulate by the first ratio adjusting valve 10 flow that enters pressure-bearing type energy storage tank 2 circulation solutions, thereby regulate the solution ice crystal content that enters ustomer premises access equipment 4.

5, Fig. 5 is that the utility model is with the structural representation of the schemes such as Fig. 1, Fig. 2, Fig. 3, Fig. 4 combination.Make up switching by a cover valve, this technical scheme of the utility model has air conditioner refrigerating, cold-storage, ice-melt cooling, air conditioning function and has air-conditioning heat supply, heat accumulation function.Shown various function circulations are as follows:

5.1 kind of refrigeration cycle:

The first valve V1, the second valve V2, the 3rd valve V3, the 4th valve V4, the tenth valve V10 open;

The 5th valve V5, the 6th valve V6, the 7th valve V7, the 8th valve V8, the 9th valve V9, the 11 valve V11, the 12 valve V12 close.

Heat source side circulation: circulating pump 5 → heat source side equipment 6 → the tenth valve V10 → first valve V1 → ice slurry handpiece Water Chilling Units 1 heat source side → second valve V2 → circulating pump 5.

A. the independent cooling circulation of ice slurry handpiece Water Chilling Units 1:

Open the utility model device, the utility model user side is pressed following circular flow:

Ice slurry handpiece Water Chilling Units 1 user side → the first ratio adjusting valve 10 → the 4th valve V4 → solution pump 3 → the second ratio adjusting valve 11 → ustomer premises access equipments 4 → ice slurry handpiece Water Chilling Units 1 user side.

D. charge cycle:

Open the utility model device, the utility model user side is pressed following circular flow:

Ice slurry handpiece Water Chilling Units 1 user side → first ratio adjusting valve 10 → pressure-bearing type energy storage tank 2 → the first ratio adjusting valves 10 → the 4th valve V4 → solution pump 3 → the second ratio adjusting valves 11 → ice slurry handpiece Water Chilling Units 1 user side.

C. the independent cooling circulation of pressure-bearing type energy storage tank (ice slurry handpiece Water Chilling Units 1 is not opened):

Open the utility model device, the utility model user side is pressed following circular flow:

Ice slurry handpiece Water Chilling Units 1 user side → first ratio adjusting valve 10 → pressure-bearing type energy storage tank 2 → the first ratio adjusting valves 10 → the 4th valve V4 → solution pump 3 → the second ratio adjusting valve 11 → ustomer premises access equipments 4 → ice slurry handpiece Water Chilling Units 1 user side.

D. air conditioning circulation:

Open the utility model device, the utility model user side is pressed following circular flow:

Ice slurry handpiece Water Chilling Units 1 user side → first ratio adjusting valve 10 → pressure-bearing type energy storage tank 2 → the first ratio adjusting valves 10 → the 4th valve V4 → solution pump 3 → the second ratio adjusting valve 11 → ustomer premises access equipments 4 → ice slurry handpiece Water Chilling Units 1 user side.

5.2 heat pump heat supply circulation:

The 5th valve V5, the 6th valve V6, the 7th valve V7, the 8th valve V8, the tenth valve V10 open;

The first valve V1, the 2nd V2, the 3rd V3, the 4th V4, the 9th V9, the 11 V11, the 12 V12 close.

. ice slurry handpiece Water Chilling Units 1 is separately for thermal cycle:

Open the utility model device, the utility model is pressed following circular flow:

User's side circulation: ice slurry handpiece Water Chilling Units 1 heat source side → the 8th valve V8 → solution pump 3 → the second ratio adjusting valve 11 → ustomer premises access equipments 4 → ice slurry handpiece Water Chilling Units 1 heat source side.

The heat source side circulation: ice slurry handpiece Water Chilling Units 1 user side → pressure-bearing type energy storage tank 2 → the first ratio adjusting valves 10 → the 6th valve V6 → → circulating pump 5 → heat source side equipment 6 → the tenth valve V10 → the 5th valve V5 → ice slurry handpiece Water Chilling Units 1 user side.

B. ice-reserving supplies thermal cycle (electric heater 12 is not worked):

The 5th valve V5, the 6th valve V6, the 7th valve V7, the 8th valve V8, the 9th valve V9, the 11 valve V11, the 12 valve V12 open;

The first valve V1, the second valve V2, the 3rd valve V3, the 4th valve V4, the tenth valve V10 close;

Open the utility model device, the utility model is pressed following circular flow:

User's side circulation: ice slurry handpiece Water Chilling Units 1 heat source side → the 8th valve V8 → solution pump 3 → the second ratio adjusting valve 11 → ustomer premises access equipments 4 → ice slurry handpiece Water Chilling Units 1 heat source side.

Heat source side circulation: ice slurry handpiece Water Chilling Units 1 user side → pressure-bearing type energy storage tank 2 → the first ratio adjusting valves 10 → the 6th valve V6 → circulating pump 5 → the 9th valve V9 → the 11 valve V11 → electric heater 12 → the 12 valve V12 → the 5th valve V5 → ice slurry handpiece Water Chilling Units 1 user side.

Can hold in pressure-bearing type energy storage tank 2 when heat supply finishes a certain amount of ice crystal is arranged.

C. trough-electricity ice-melt accumulation of heat circulation (ice slurry handpiece Water Chilling Units 1 is not worked):

The 5th valve V5, the 6th valve V6, the 7th valve V7, the 8th V8, the 9th valve V9, the 11 valve V11, the 12 valve V12 open;

The first valve V1, the second valve V2, the 3rd valve V3, the 4th V4, the tenth valve V10 close.

Open the utility model device, the utility model is pressed following circular flow:

User's side circulation: do not work.

Heat source side trough-electricity ice-melt accumulation of heat circulation: ice slurry handpiece Water Chilling Units 1 user side → pressure-bearing type energy storage tank 2 → the first ratio adjusting valves 10 → the 6th valve V6 → circulating pump 5 → the 9th valve V9 → the 11 valve V11 → electric heater 12 → the 12 valve V12 → the 5th valve V5 → ice slurry handpiece Water Chilling Units 1 user side.

Hold in pressure-bearing type energy storage tank 2 when the ice-melt accumulation of heat finishes a certain amount of sensible heat is arranged.

6, Fig. 6 is that the utility model adopts the structural representation with cross valve ice slurry handpiece Water Chilling Units, and shown refrigeration, heat pump heat supply circulate as follows:

6.1 as shown in Figure 6, open the utility model device, described band cross valve ice slurry handpiece Water Chilling Units 7 cross valves switch in the position of freezing, and the utility model device can be realized the circulations such as the independent cooling of cross valve ice slurry handpiece Water Chilling Units 7, cold-storage, pressure-bearing type energy storage tank 2 coolings, air conditioning:

A. the independent cooling user side circulation of cross valve ice slurry handpiece Water Chilling Units 7: band cross valve ice slurry handpiece Water Chilling Units 7 → pressure-bearing type energy storage tank 2 → solution pump 3 → ustomer premises access equipment 4 → band cross valve ice slurry handpiece Water Chilling Units 7.

B. cold-storage user side circulation: band cross valve ice slurry handpiece Water Chilling Units 7 → pressure-bearing type energy storage tank 2 → solution pump 3 → ustomer premises access equipment 4 → band cross valve ice slurry handpiece Water Chilling Units 7.

C. pressure-bearing type energy storage tank 2 cooling user side circulations: band cross valve ice slurry handpiece Water Chilling Units 7 → pressure-bearing type energy storage tank 2 → solution pump 3 → ustomer premises access equipment 4 → band cross valve ice slurry handpiece Water Chilling Units 7.

D. air conditioning user side circulation: band cross valve ice slurry handpiece Water Chilling Units 7 pressure-bearing type energy storage tank 2 → solution pump 3 → ustomer premises access equipments 4 → band cross valve ice slurry handpiece Water Chilling Units 7.

6.2 as shown in Figure 6, open the utility model device, described band cross valve ice slurry handpiece Water Chilling Units 7 cross valves switch in heat pump position, and device is in for thermal cycle.But night dip electricity also accumulation of heat of period.Heat, accumulation of heat, heat release move alone or in combination.

A. heat the circulation of user's side: band cross valve ice slurry handpiece Water Chilling Units 7 → pressure-bearing type energy storage tank 2 → solution pump 3 → ustomer premises access equipment 4 → band cross valve ice slurry handpiece Water Chilling Units 7.

B. accumulation of heat user side circulation: band cross valve ice slurry handpiece Water Chilling Units 7 → pressure-bearing type energy storage tank 2 → solution pump 3 → band cross valve ice slurry handpiece Water Chilling Units 7.

C. heat release user side circulation: band cross valve ice slurry handpiece Water Chilling Units 7 → pressure-bearing type energy storage tank 2 → solution pump 3 → ustomer premises access equipment 4 → band cross valve ice slurry handpiece Water Chilling Units 7.

7, health hot water circulation:

As Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, shown in Figure 7, the utility model device when operation, open heat-exchanger pump 9 health hot waters at ice slurry cold water heat engine group 1(or with the ice slurry cold water heat engine group 7 of cross valve) heat regenerator in be recycled be heated to design temperature for.

Health hot water heat cycles: heat-exchanger pump 9 → ice slurry handpiece Water Chilling Units 1 → health hot water water storage tank 8 → heat-exchanger pump 9.

Other undeclared part that the utility model relates to is same as the prior art.

Claims (10)

1. enclosed ice storage air conditioner heat pump assembly, it is characterized in that it comprises ice slurry handpiece Water Chilling Units (1), pressure-bearing type energy storage tank (2), solution pump (3), ustomer premises access equipment (4), circulating pump (5), heat source side equipment (6), the user side outlet of ice slurry handpiece Water Chilling Units (1) connects the import of pressure-bearing type energy storage tank (2), the outlet of pressure-bearing type energy storage tank (2) is connected with the import of solution pump (3), the outlet of solution pump (3) connects the import of ustomer premises access equipment (4), and the outlet of ustomer premises access equipment (4) is connected with the user side import of ice slurry handpiece Water Chilling Units (1); The heat source side outlet of ice slurry handpiece Water Chilling Units (1) connects the import of heat source side equipment (6), and the outlet of heat source side equipment (6) is connected with the import of circulating pump (5), and the outlet of circulating pump (5) is connected with the heat source side import of ice slurry handpiece Water Chilling Units (1).

2. enclosed ice storage air conditioner heat pump assembly according to claim 1, it is characterized in that the outlet of heat regenerator in described ice slurry handpiece Water Chilling Units (1) connects the water inlet of health hot water water storage tank (8), the delivery port of health hot water water storage tank (8) connects the import of heat regenerator in ice slurry handpiece Water Chilling Units (1) by heat-exchanger pump (9).

3. enclosed ice storage air conditioner heat pump assembly, it is characterized in that it comprises ice slurry handpiece Water Chilling Units (1), pressure-bearing type energy storage tank (2), solution pump (3), ustomer premises access equipment (4), circulating pump (5), heat source side equipment (6), the user side outlet of ice slurry handpiece Water Chilling Units (1) connects the import of pressure-bearing type energy storage tank (2), the outlet of pressure-bearing type energy storage tank (2) is connected with the import of solution pump (3), the outlet of solution pump (3) connects the import of heat source side equipment (6), and the outlet of heat source side equipment (6) is connected with the user side import of ice slurry handpiece Water Chilling Units (1); The heat source side outlet of ice slurry handpiece Water Chilling Units (1) connects the import of ustomer premises access equipment (4), and the outlet of ustomer premises access equipment (4) is connected with the import of circulating pump (5), and the outlet of circulating pump (5) is connected with the heat source side import of ice slurry handpiece Water Chilling Units (1).

4. enclosed ice storage air conditioner heat pump assembly, it is characterized in that it comprises ice slurry handpiece Water Chilling Units (1), pressure-bearing type energy storage tank (2), solution pump (3), ustomer premises access equipment (4), circulating pump (5), heat source side equipment (6), the first ratio adjusting valve (10), the second ratio adjusting valve (11), the import of the user side outlet connection pressure-bearing type energy storage tank (2) of ice slurry handpiece Water Chilling Units (1) connects first interface of the first ratio adjusting valve (10) simultaneously, the outlet of pressure-bearing type energy storage tank (2) connects second interface of the first ratio adjusting valve (10), the 3rd interface of the first ratio adjusting valve (10) is connected with the import of solution pump (3), the outlet of solution pump (3) connects first interface of the second ratio adjusting valve (11), second interface of the second ratio adjusting valve (11) connects the import of ustomer premises access equipment (4), the 3rd interface of the outlet of ustomer premises access equipment (4) and the second ratio adjusting valve (11) together is connected with the user side import of ice slurry handpiece Water Chilling Units (1), the heat source side outlet of ice slurry handpiece Water Chilling Units (1) connects the import of heat source side equipment (6), and the outlet of heat source side equipment (6) is connected with the import of circulating pump (5), and the outlet of circulating pump (5) is connected with the heat source side import of ice slurry handpiece Water Chilling Units (1).

5. enclosed ice storage air conditioner heat pump assembly, it is characterized in that it comprises ice slurry handpiece Water Chilling Units (1), pressure-bearing type energy storage tank (2), solution pump (3), ustomer premises access equipment (4), circulating pump (5), heat source side equipment (6), the first ratio adjusting valve (10), the 3rd ratio adjusting valve (111), the second solution pump (31), the user side outlet of ice slurry handpiece Water Chilling Units (1) connects the import of pressure-bearing type energy storage tank (2), first interface that connects simultaneously the first ratio adjusting valve (10), the outlet of pressure-bearing type energy storage tank (2) connects second interface of the first ratio adjusting valve (10), the 3rd interface of the first ratio adjusting valve (10) is connected with the import of solution pump (3), first interface that the outlet of solution pump (3) connects the 3rd ratio adjusting valve (111) is connected to the user side import that ice is starched handpiece Water Chilling Units (1) simultaneously, second interface of the 3rd ratio adjusting valve (111) connects the import of the second solution pump (31), the outlet of the second solution pump (31) connects the import of ustomer premises access equipment (4), the 3rd interface that the outlet of ustomer premises access equipment (4) connects the 3rd ratio adjusting valve (111) is connected with the user side import of ice slurry handpiece Water Chilling Units (1) simultaneously, the heat source side outlet of ice slurry handpiece Water Chilling Units (1) connects the import of circulating pump (5), and the outlet of circulating pump (5) connects the import of heat source side equipment (6), and the outlet of heat source side equipment (6) is connected with the heat source side import of ice slurry handpiece Water Chilling Units (1).

6. enclosed ice storage air conditioner heat pump assembly according to claim 5, it is characterized in that the outlet of heat regenerator in described ice slurry handpiece Water Chilling Units (1) connects the water inlet of health hot water water storage tank (8), the delivery port of health hot water water storage tank (8) connects the import of heat regenerator in ice slurry handpiece Water Chilling Units (1) by heat-exchanger pump (9).

7. enclosed ice storage air conditioner heat pump assembly, it is characterized in that it comprises ice slurry handpiece Water Chilling Units (1), pressure-bearing type energy storage tank (2), the first ratio adjusting valve (10), solution pump (3), the second ratio adjusting valve (11), ustomer premises access equipment (4), circulating pump (5), heat source side equipment (6), electric heater (12), the user side outlet of ice slurry handpiece Water Chilling Units (1) connects the import of pressure-bearing type energy storage tank (2), connect simultaneously an import of the first ratio adjusting valve (10), the outlet of pressure-bearing type energy storage tank (2) connects another import of the first ratio adjusting valve (10), the outlet of the first ratio adjusting valve (10) is connected with the import of solution pump (3) by the 4th valve (V4), connect simultaneously the import of circulating pump (5) by the 6th valve (V6), the outlet of solution pump (3) connects the import of the second ratio adjusting valve (11), the second (11) one of ratio adjusting valves outlet connects the import of ustomer premises access equipment (4), another outlet of the outlet of ustomer premises access equipment (4) and the second ratio adjusting valve (11) is connected to the user side import of described ice slurry handpiece Water Chilling Units (1) jointly by the 3rd valve (V3), be connected to simultaneously the heat source side import of ice slurry handpiece Water Chilling Units (1) by the 7th valve (V7), the heat source side outlet of ice slurry handpiece Water Chilling Units (1) connects the import of circulating pump (5) by the second valve (V2), be connected with the import of solution pump (3) by the 8th valve (V8) simultaneously, the outlet of circulating pump (5) connects the import of heat source side equipment (6), the outlet of heat source side equipment (6) connects the heat source side import of ice slurry handpiece Water Chilling Units (1) by the first valve (V1), the outlet of heat source side equipment (6) connects the user side import of ice slurry handpiece Water Chilling Units (1) simultaneously by the 5th valve (V5).

8. enclosed ice storage air conditioner heat pump assembly according to claim 7, it is characterized in that described heat source side equipment (6) import and export and be connected with the 9th valve (V9), the tenth valve (V10) and electric heater (12) in parallel with it can be installed on the connecting line of the outlet of described heat source side equipment (6) and the first valve (V1), the 5th valve (V5), and described electric heater (12) import and export is connected to respectively the both sides of the tenth valve (V10) by the 11 valve (V11), the 12 valve (V12).

9. enclosed ice storage air conditioner heat pump assembly, it is characterized in that it comprises band cross valve ice slurry cold unit (7), pressure-bearing type energy storage tank (2), solution pump (3), ustomer premises access equipment (4), circulating pump (5), heat source side equipment (6), the first ratio adjusting valve (10), the second ratio adjusting valve (11), the import of the user side outlet connection pressure-bearing type energy storage tank (2) of band cross valve ice slurry handpiece Water Chilling Units (7) connects first interface of the first ratio adjusting valve (10) simultaneously, the outlet of pressure-bearing type energy storage tank (2) connects second interface of the first ratio adjusting valve (10), the 3rd interface of the first ratio adjusting valve (10) is connected with the import of solution pump (3), the outlet of solution pump (3) connects first interface of the second ratio adjusting valve (11), second interface of the second ratio adjusting valve (11) connects the import of ustomer premises access equipment (4), the 3rd interface of the outlet of ustomer premises access equipment (4) and the second ratio adjusting valve (11) together is connected with the user side import of band cross valve ice slurry handpiece Water Chilling Units (7), the heat source side outlet of band cross valve ice slurry handpiece Water Chilling Units (7) connects the import of heat source side equipment (6), the outlet of heat source side equipment (6) is connected with the import of circulating pump (5), the outlet of circulating pump (5) is connected with the heat source side import of band cross valve ice slurry handpiece Water Chilling Units (7), when the condenser of the band cross valve ice cold unit of slurry (7) is Wind-cooling type or evaporation cold mould, do not need to connect circulating pump (5) and heat resource equipment (6).

10. enclosed ice storage air conditioner heat pump assembly according to claim 9, it is characterized in that the outlet of heat regenerator in the described band cross valve ice cold unit of slurry (7) connects the water inlet of health hot water water storage tank (8), the delivery port of health hot water water storage tank (8) connects the import of heat regenerator in ice slurry handpiece Water Chilling Units (1) by heat-exchanger pump (9).

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