CN201434543Y

CN201434543Y - Energy-storing air-conditioning device

Info

Publication number: CN201434543Y
Application number: CN2009200610134U
Authority: CN
Inventors: 王裕程; 王玺权
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-07-22
Filing date: 2009-07-22
Publication date: 2010-03-31
Anticipated expiration: 2019-07-22

Abstract

The utility model discloses an energy-storing air-conditioning device, which comprises an ice water unit, a warm water unit, a compression unit, an auxiliary unit and an air-conditioning unit. The compression unit is used for producing ice water and outputting thermal energy, the auxiliary unit helps to output ice water and hot water, the air-conditioning unit is used for outputting cold air and hot air, the auxiliary unit is provided with a heating device, a cooling fan and a convection fan, wherein the heating device is arranged on the water outlet pipe of the warm water unit and is used forheating so as to increase the temperature of warm water, the cooling fan is arranged on a heat exchange pipe, and the convection fan is arranged on a cold exchange pipe. With the air-conditioning unit, the utility model can utilize the ice and warm water in the ice water unit and the warm water unit, thereby forming an air-conditioning device which can output cold air and hot air. In addition, with the heating device of the auxiliary unit, the temperature of the water in the water outlet pipe of the warm water unit can be properly increased, so that the warm water can be used as spare water for the bathroom or swimming pool, thereby preventing the energy waste.

Description

But a kind of aircondition of energy storage

Affiliated technical field

The utility model relates to a kind of aircondition, can produce the aircondition of the energy storage that frozen water and hot water uses with output but relate in particular to a kind of while.

Background technology

In general large-scale restaurant or the public place, when using a large amount of hot water as need, typically use the oil burning boiler water of heating, offer uses such as bathroom, swimming pool or kitchen, and when needing air-conditioning in addition, just the ice water host computer of forming with compressor provides the low temperature frozen water to use to air-conditioning equipment or freezing equipment.

But in supplying with fluvioglacial processes, ice water host computer is exported heat energy simultaneously and is scattered and disappeared in atmosphere, and ice water host computer is when turning round in the peak of power consumption period, the cost height.The heat energy that scatters and disappears is as can not use the time, and the heat energy of formation can't use and cause waste.In addition, produce great amount of carbon dioxide during the oil burning boiler burning, cause the pollution and the greenhouse effects of the earth.

Summary of the invention

The purpose of this utility model is to provide a kind of heat energy that can make full use of air-conditioning equipment output, and the aircondition of the use cost of hot water is provided with reduction.

But a kind of aircondition of energy storage, it comprises: a frozen water unit, a warm water unit, produce frozen water and export the auxiliary unit of the compression unit of heat energy, an auxiliary output frozen water and hot water, and the air-conditioning unit of an output changes in temperature gas.

This frozen water unit has an airtight frozen water tube, and carries ice water circulation to pass in and out the frozen water pipe of this frozen water tube, and a cold insulation material layer that is coated on the frozen water tube outer surface.

This warm water unit has an airtight warm water tube, and carries the water source to enter the water inlet pipe in the warm water tube, the outlet pipe of the warm water in the output warm water tube, and an adiabator layer that is coated on the warm water tube outer surface.

This compression unit has a compression refrigerant to be made the refrigerant of compressor, a circle transmission high pressure of refrigerant high-pressure trend pass in and out this warm water tube and with the heat-exchange tube, of hydrothermal exchange in the warm water tube high pressure refrigerant is released into the expansion valve of low pressure refrigerant, and a circulation carry low pressure refrigerant pass in and out this frozen water tube and with the frozen water tube in the cold exchange pipe of water liquid heat exchange.

This auxiliary unit has one and is installed on the outlet pipe of this warm water unit and firing equipment, that heating improves warm water temperature is installed in a radiator fan on this heat-exchange tube and a convection fan that is installed on this cold exchange pipe.

This air-conditioning unit has an air-conditioning metal tube, an output wind-force brushes the air-conditioning fan of air-conditioning metal tube, the frozen water pipe of this frozen water unit of connection and the outlet pipe of this warm water unit and also selectively controls first control valve that the circulation of guiding frozen water and warm water enters air-conditioning Guan Yiduan.

Effect of the present utility model is to utilize the ice, warm water of this air-conditioning unit utilization frozen water unit and warm water unit to constitute the air-conditioning equipment of exportable cold air and heating installation, and the firing equipment by this auxiliary unit in time improves the water liquid temp in the outlet pipe of warm water unit, so that warm water can be used in bathroom or the swimming pool, also utilize simultaneously convection fan and radiator fan to adjust the temperature of cold exchange pipe and heat-exchange tube in good time, promote the running efficiency of compression unit, and the situation of the energy that can avoid waste.

Description of drawings

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

But Fig. 1 is the block schematic diagram of first preferred embodiment of the aircondition of the utility model energy storage.

But Fig. 2 is the block schematic diagram of second preferred embodiment of the aircondition of the utility model energy storage.

3. frozen water unit among the figure, 31. frozen water tubes, 32. frozen water pipes, 321. inlet segment, 322. water exit ends, 33. cold insulation material layers, 4. warm water unit, 41. warm water tubes, 42. water inlet pipes, 43. outlet pipe, 44. adiabator layers, 5. compression unit, 51. compressor, 52. heat-exchange tubes, 521. heat input sections, 522. the thermal output section, 53. expansion valves, 54. cold exchange pipes, 541. cold input section, 542. cold deferent segment, 6. auxiliary units, 61. firing equipment, 62. radiator fans, 63. convection fans, 7. air-conditioning unit, 71. air-conditioning metal tubes, 72. air-conditioning fans, 73. first control valve, 74. second control valves, 75. controllers, 8. water supply unit, 81. first feed pipe, 82. second feed pipes, 83. check (non-return) valves.

The specific embodiment

See also Fig. 1, but first preferred embodiment of the aircondition of the utility model energy storage comprises: a frozen water unit 3, a warm water unit 4, produce frozen water and export compression unit 5, the one auxiliary output frozen water of heat energy and the air-conditioning unit 7 and of auxiliary unit 6, an output cold air or the heating installation of hot water is supplied with the water supply unit 8 of water source to frozen water unit 3 and warm water unit 4.

This frozen water unit 3 has an airtight frozen water tube 31, and carries ice water circulation to pass in and out the frozen water pipe 32 of this frozen water tube 31, and a cold insulation material layer 33 that is coated on frozen water tube 31 outer surfaces.This frozen water pipe 32 has the inlet segment 321 that an output water source enters frozen water tube 31, and the water exit end 322 of the frozen water in the output frozen water tube 31.This frozen water pipe 32 can be used for circulating frozen water to air-conditioning unit 7, or directly exports frozen water, for use.

This warm water unit 4 has an airtight warm water tube 41, and carries the water source to enter the water inlet pipe 42 of warm water tube 41, the outlet pipe 43 of the warm water in the output warm water tube 41, and an adiabator layer 44 that is coated on warm water tube 41 outer surfaces.

This compression unit 5 has a compression refrigerant to be made the refrigerant of compressor 51, a circle transmission high pressure of refrigerant high-pressure trend pass in and out this warm water tube 41 and with the heat-exchange tube 52, of hydrothermal exchange in the warm water tube 41 the high pressure refrigerant is released into the expansion valve 53 of low pressure refrigerant, and a circulation carry low pressure refrigerant pass in and out this frozen water tube 31 and with frozen water tube 31 in the cold exchange pipe 54 of water liquid heat exchange.

The heat-exchange tube 52 of this compression unit 5 has a heat input section 521 of carrying refrigerant to enter warm water tube 41, and one carries the thermal output section 522 of refrigerant to this expansion valve 53.

The cold exchange pipe 54 of this compression unit 5 has a cold input section 541 of carrying low pressure refrigerant to enter frozen water tube 31, and one carries the cold deferent segment 542 of low pressure refrigerant to this compressor 51.

This compression unit 5 utilizes the heat input section 521 of this heat-exchange tube 52, the heat that exothermic process discharged with the refrigerant of high pressure compressed, be sent to the water in the warm water tube 41 of this warm water unit 4 by heat-exchange tube 52, water temperature is improved become warm water, utilize refrigerant to absorb heat simultaneously, become frozen water so that the water source in this warm water tube 31 is lowered the temperature by high pressure to inflated with low pressure process.

This auxiliary unit 6 has one and is installed on the outlet pipe 43 of this warm water unit 4 and firing equipment 61, that heating improves warm water temperatures in the outlet pipe 43 is installed in radiator fan 62 on the thermal output section 522 of this heat-exchange tube 52, and a convection fan 63 that is installed on the cold deferent segment 542 of this cold exchange pipe 54.This firing equipment 61 is electric heaters in the present embodiment.

This air-conditioning unit 7 has the air-conditioning metal tube 71 that a repeated flex is extended, one output wind-force brushes the air-conditioning fan 72 of air-conditioning metal tube 71, one connects the outlet pipe 43 of the water exit end 322 of this frozen water unit 3 and this warm water unit 4 and selectively control guiding frozen water or warm water circulation enter first control valve 73 of air-conditioning metal tube 71 1 ends, one is connected in the other end of this air-conditioning metal tube 71 and with these first control valve, 73 interlocks and selectively guide frozen water and warm water cycles back to second control valve 74 in frozen water tube 31 and the warm water tube 41, and with sensing temperature and control first,

second control valve

73,74 controller 75.

This first,

second control valve

73,74 is triple valves in the present embodiment, can be selected the frozen water of frozen water unit 3 is delivered in this air-conditioning metal tube 71 by these controller 75 controls, or the warm water of warm water unit 4 is delivered in this air-conditioning metal tube 71.Thus so that but the aircondition of the utility model energy storage has the function of changes in temperature gas output.And can set certain temperature on this controller 75, when arriving setting value in temperature, the control frozen water stops to flow through air-conditioning metal tube 71, or control warm water stops to flow through air-conditioning metal tube 71, to reach the purpose of control temperature.

This water supply unit 8 has supplies one first feed pipe 81 and one second feed pipe 82 that the water source enters this frozen water unit 3 and this warm water unit 4 respectively, and is installed in the check (non-return) valve 83 on this first,

second feed pipe

81,82 respectively.Thereby when the water yield in frozen water tube 31 or the warm water tube 41 reduces because of use or loss, provide the water source to enter in ice, the

warm water tube

31,41 in good time.

What deserves to be mentioned is, if in winter or general use, when higher the or temperature of the warm water utilization rate in the warm water tube 41 of this warm water unit 4 is not high enough, the warm water of output is through in the output procedure of outlet pipe 43, heat through this firing equipment 61 earlier, to improve warm water temperature,, this hot water can be directly used in supply with bathroom, kitchen or swimming pool water except improving the efficient of supplying with heating installation.

In addition, if in the frozen water use amount more after a little while, also can utilize convection fan 63 on the cold deferent segment 542 of this cold exchange pipe 54 in time to improve refrigerant temperature in the cold exchange pipe 54, increase the operating efficiency of compressor 51.Use more after a little while the hot water amount again, the radiator fan 62 of this auxiliary unit 6 can reduce the refrigerant temperature in the thermal output section 522 of heat-exchange tube 52 in good time, has the effect that promotes compressor 51 efficient equally.

And, this creation utilizes the cold insulation material layer 33 of this frozen water unit 3 and the adiabator layer 44 of warm water unit 4, frozen water and the hot water that this compression unit 5 when the peak electricity consumption produces can be incubated storage in good time, export use constantly in the spike electricity consumption again, not only can save spike and from the electricity charge difference at peak expenditure, also can reduce simultaneously the carbon dioxide that oil burning boiler produces, reduce pollution the earth.

See also Fig. 2, first preferred embodiment is identical but the structure of second preferred embodiment of the aircondition of the utility model energy storage is made peace greatly, its difference is in this air-conditioning unit 7 and has two air-conditioning metal tubes 71, one output wind-force brushes the air-conditioning fan 72 of these air-conditioning metal tubes 71, one connects the water exit end 322 of this frozen water unit 3 and first control valve 73 that control guiding ice water circulation enters air-conditioning metal tube 71, one connects the outlet pipe 43 of this warm water unit 4 and can guide second control valve 74 that hot water circuit enters another air-conditioning metal tube 71, and mutual exclusion ground interlock control this first,

second control valve

73,74 controller 75.

Thus, as these controller 75 controls first control valve 73 conductings, when second control valve 74 was closed, frozen water entered a wherein air-conditioning metal tube 71, and this air-conditioning fan 72 is exactly to export cold air; As these controller 75 controls second control valve 74 conductings, when first control valve 73 was closed, warm water flowed into another air-conditioning metal tube 71, and this moment, this air-conditioning fan 72 was exactly to export heating installation, made this creation have the function of output changes in temperature gas by above-mentioned occupation mode.

In sum, the utility model utilizes the ice of these air-conditioning unit 7 utilization frozen water unit 3 and warm water unit 4, warm water is to constitute the air-conditioning equipment of exportable cold air and heating installation, and the firing equipment 61 by this auxiliary unit 6 in time improves the water liquid temp in the outlet pipe 43 of warm water unit 4, so that may be output in bathroom or the swimming pool, uses in warm water, also utilize simultaneously convection fan 63 and radiator fan 62 to adjust the temperature of cold exchange pipe 54 and heat-exchange tube 52 in good time, promote the running efficiency of compression unit 5, the cold insulation material layer 33 of frozen water unit 3 and the adiabator layer 44 of warm water unit 4 can be preserved fluid temperature simultaneously, to turn round from the peak electricity consumption time, reduce electricity charge expenditure, so can reach the purpose of this utility model really.

The above person only is preferred embodiment of the present utility model, can not limit the scope that the utility model is implemented with this.Promptly all simple equivalent of doing according to the utility model claim and description change and modify, and all still belong in the scope that the utility model patent contains.

Claims

1. but the aircondition of an energy storage is characterized in that: comprise

One frozen water unit has an airtight frozen water tube, and carries ice water circulation to pass in and out the frozen water pipe of this frozen water tube, and a cold insulation material layer that is coated on the frozen water tube outer surface;

One warm water unit has an airtight warm water tube, and carries the water source to enter the water inlet pipe in the warm water tube, the outlet pipe of the warm water in the output warm water tube, and an adiabator layer that is coated on the warm water tube outer surface;

One compression unit, have a compression refrigerant and make the refrigerant of compressor, a circle transmission high pressure of refrigerant high-pressure trend pass in and out this warm water tube and the high pressure refrigerant is released into the expansion valve of low pressure refrigerant with the heat-exchange tube, of hydrothermal exchange in the warm water tube, and a circulation carry low pressure refrigerant pass in and out this frozen water tube and with the frozen water tube in the cold exchange pipe of water liquid heat exchange;

One auxiliary unit has one and is installed on the outlet pipe of this warm water unit and firing equipment, that heating improves warm water temperature is installed in a radiator fan on this heat-exchange tube and a convection fan that is installed on this cold exchange pipe; And

One air-conditioning unit has that air-conditioning fan, that an air-conditioning metal tube, an output wind-force brush the air-conditioning metal tube connects the outlet pipe of the frozen water pipe of this frozen water unit and this warm water unit and selectively control guiding frozen water and warm water circulation enter first control valve of air-conditioning Guan Yiduan.

2. but the aircondition of energy storage according to claim 1, it is characterized in that: the heat-exchange tube of this compression unit has one and carries refrigerant to enter the heat input section of warm water tube, and one carry the thermal output section of refrigerant to this expansion valve, and this radiator fan is to be installed on this thermal output section.

3. but the aircondition of energy storage according to claim 1, it is characterized in that: the cold exchange pipe of this compression unit has one and carries low pressure refrigerant to enter the cold input section of frozen water tube, and one carry the cold deferent segment of low pressure refrigerant to this compressor, and this convection fan is to be installed on this cold deferent segment.

4. but the aircondition of energy storage according to claim 1 is characterized in that: this frozen water pipe has the inlet segment that an input water source enters the frozen water tube, and the water exit end of the frozen water in the output frozen water tube.

5. but the aircondition of energy storage according to claim 1 is characterized in that: this air-conditioning unit further has one and is connected in this air-conditioning metal tube other end and in this first control valve interlock and selectively guide frozen water and warm water cycles back to second control valve of frozen water tube and warm water tube.

6. but the aircondition of an energy storage is characterized in that: comprise

One warm water unit has an airtight warm water tube, and carries the water source to enter the water inlet pipe of warm water tube, the outlet pipe of the warm water in the output warm water tube, and an adiabator layer that is coated on the warm water tube outer surface;

One compression unit, have a compression refrigerant make the refrigerant of compressor, a circle transmission high pressure refrigerant of refrigerant high-pressure trend pass in and out this warm water tube and and the warm water tube in the heat-exchange tube, of hydrothermal exchange the high pressure refrigerant is released into the expansion valve of low pressure refrigerant, and a circulation carry low pressure refrigerant pass in and out this frozen water tube and and the frozen water tube in the cold exchange pipe of water liquid heat exchange;

One air-conditioning unit, have air-conditioning fan, that two air-conditioning metal tubes, an output wind-force brush the air-conditioning metal tube and connect the frozen water pipe of this frozen water unit and control guiding ice water circulation and enter wherein that first control valve, of an air-conditioning metal tube connects the outlet pipe of this warm water unit and can guide second control valve that hot water circuit enters another air-conditioning metal tube, and mutual exclusion ground interlock is controlled the controller of this first, second control valve.