CN202008253U - Energy-saving three-component-combined water heating and air conditioning comprehensive utilization device - Google Patents
Energy-saving three-component-combined water heating and air conditioning comprehensive utilization device Download PDFInfo
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- CN202008253U CN202008253U CN2010202581980U CN201020258198U CN202008253U CN 202008253 U CN202008253 U CN 202008253U CN 2010202581980 U CN2010202581980 U CN 2010202581980U CN 201020258198 U CN201020258198 U CN 201020258198U CN 202008253 U CN202008253 U CN 202008253U
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Abstract
The utility model provides a domestic hot water and conditioned air (refrigerated or heated) supply device, and particularly to a comprehensive supplied heat utilization device which is combined with a solar heat collector, an air source heat pump and an intermediate-high-temperature water source heat pump, which belongs to the technical field of heat energy utilization. The combined device is composed of the following components: an air source heat pump 1, the solar heat collector, a fan coil pipe, an underground heating device, an auxiliary electric heating device, a water pump, a water tank, a pipeline system, a valve system, a flowmeter system, a control system, a power supply, cables and a heat exchanger. The energy-saving three-component-combined water heating and air conditioning comprehensive utilization device has the following advantages: full utilization of regenerable energy, saved energy, reduced pollutant discharge, reduced use cost, simple structure, stable and reliable safety, capability of satisfying the requirement of domestic 55-60 DEG C continuous hot water supply, capability of refrigerating in summer and heating in winter.
Description
Technical field
The utility model is a kind of domestic hot-water, air-conditioning (refrigeration or heating) feeding mechanism, relate in particular to a kind of with solar thermal collector, air source heat pump and in the heat pump of high-temp water source three unite comprehensive heating utilization device, belong to the heat energy utilization technical field.
Background technology
Existing solar thermal collector, air source heat pump auxiliary electric heater unit all are independent uses.Utilize natural solar energy resources, adopt nature or forced circulation mode, the heat solar collector arrangement can be worked under solar radiation expeditiously, and winter, domestic hot-water's water tank heat energy fully can be by heat exchanger to heat exchange of air-conditioning water tank or heating.The multi-functional unit of heat pump apparatus of air source can provide refrigeration and heat-production functions to adapt to the needs of a machine winter summer refrigeration and heating, and the hot blast that provides life to use hot water, particularly summer to utilize the unit refrigeration to get rid of simultaneously can heat the domestic hot-water.Auxiliary electric heater unit provides acquisition hot water by power-supply controller of electric, but needs to consume electric energy, and is uneconomical.
Summary of the invention
The purpose of this utility model is to overcome the shortcoming of above-mentioned three kinds of prior aries, invent heat energy in a kind of energy maximum using solar energy, air and the water environment, utilize high-quality electric energy to drive water pump and fan coil, the maximum using regenerative resource, solve solar thermal collector, air source heat pump refrigeration in summer and domestic hot-water supply problem expeditiously, satisfy intelligence three hot water and the air conditioner combined device of heat supply in winter and domestic hot-water supply needs.
The technical scheme of the utility model energy-saving tri hot water and air conditioner comprehensive utilization device is: the integrated use device is by air source heat pump (1), solar thermal collector (2), fan coil (3), ground lower coil pipe floor heating (4), auxiliary electric heater unit (5), water pump (60,61,62,63), boiler (70), air conditioning hot case (71), pipeline (80,81,811,82,821,83,831,84,841,85,851,86,861,87,871,88), valve (9), flowmeter (10), controller (11), power supply (13), cable (120,121,122,123,124,125), heat exchanger (14) constitutes, and air source heat pump (1) passes through pipeline (82 behind water pump (60), 821) connect with boiler (70); Solar thermal collector (2) is connected by pipeline (81,811) and boiler (70); Behind cold water process valve (9) and the flowmeter (10), enter in the boiler (70) by pipeline (80), hot water is by pipeline (88) output in the boiler (70); Heat exchanger (14) is connected by pipeline (83,831) and boiler (70) behind water pump (61), heat exchanger (14) is connected by pipeline (86,861) and air conditioning hot case (71) behind water pump (62), and ground lower coil pipe floor heating (4) is connected by pipeline (87,871) and pipeline (84,841); Fan coil (3) is connected by air conditioning hot case (71) by pipeline (84,841) behind water pump (63); Auxiliary electric heater unit (5) is housed in the air conditioning hot case (71); Controller (11) is controlled air source heat pump (1) and water pump (60), auxiliary electric heater unit (5), water pump (63), water pump (62) and water pump (61) respectively by cable (120,121,122,123,124,125).
The auxiliary electric heater unit (5) of controller (11) control is the standby thermal water source as air source heat pump (1) or solar thermal collector (2) independent failure or whole faults.
Refrigeration in the integrated use device is to adopt fan coil (3), and heating is to adopt ground lower coil pipe floor heating (4).
Hot water in the described boiler (70) under controller (11) control, is air conditioning hot case (71) heat exchange, heating by heat exchanger (14), water pump (62) and water pump (61).
The utility model makes full use of regenerative resource, energy savings, reduction pollutant emission, reduces use cost, simple in structure, safety and stability is reliable, can satisfy that life 55-60 ℃ of uninterrupted hot water supply, summer are freezed, heat supply in winter.
Description of drawings
Fig. 1 is the structural representation that the utility model solar thermal collector, air source heat pump and middle heat pump of high-temp water source are coupled to each other heat supply;
Among the figure: the 1-air source heat pump; The 2-solar thermal collector; The 3-fan coil; The lower coil pipe floor heating of 4-ground; The 5-auxiliary electric heater unit; 60,61,62,63-water pump; The 70-boiler; 71-air conditioning hot case; 80,81,811,82,821,83,831,84,841,85,851,86,861,87,871,88-pipeline; The 9-valve; The 10-flowmeter; The 11-controller; 120,121,122,123,124,125-cable; The 13-power supply; The 14-heat exchanger.
The specific embodiment
The utility model intelligence three hot water and air conditioner combined device interconnect as shown in Figure 1.Combined unit comprises that air source heat pump 1, solar thermal collector 2, fan coil 3, floor heating 4, auxiliary electric heater unit 5, water pump 6, water tank 70,71, pipe-line system 80,81,811,82,821,83,831,84,841,85,851,86,861,87,871,88, valve system 9, flowmeter system 10, control system 11, power supply 13, cable 120,121,122,123,124,125, heat exchanger 14 constitute.
The hot water that solar thermal collector 2 and air source heat pump 1 are produced also can directly use when satisfying service condition as domestic hot-water's thermal source, carries out work by auxiliary electric heater unit 5 when temperature can not satisfy service condition, and temperature is brought up to 40-60 ℃.
Air source heat pump 1 main frame is not worn circulating pump, and air source heat pump 1 and circulating pump 60 are worked simultaneously.
Cold water is from the moisturizing of water tank bottom water inlet, and according to water tank 70 SEA LEVEL VARIATION, moisturizing is carried out in magnetic valve and fluid level controller associated working.Boilers 70 bottom water inlets are connected in cool water circulating pipe road 81, allow solar thermal collector 2 directly use relative colder water in the boilers 70.Hot water circuit pipeline 82 is connected boiler 70 top water inlets according to the corresponding gradient, allow the relative colder water of air source heat pump 1 main frame and circulating pump 60 in can co-operation heat hot water tanks 70, boiler 70 bottom water inlets are connected in cool water circulating pipe road 82, and hot water circuit pipeline 821 is connected water tank 70 top water inlets.According to the water temperature in the boiler 70, air source heat pump 1 can start automatically.Air source heat pump 1 and circulating pump 60 are set to manual and automatic combination.
According to the boiler 70 of life usefulness, the temperature of air conditioning hot case 71 arrives 71 heating of air conditioning hot case by the heat energy heat exchange of 14 pairs of domestic hot-water's casees 70 of heat exchanger, and heating can utilize fan coil 3 and ground lower coil pipe floor heating 4.
Automatically start according to the water temperature air source heat pump 1 of air-conditioning water tank summer, when domestic hot-water's case 70 water temperatures at setting range, refrigeration is got rid of the hot water of boiler 70, cooling load starts adjusting by variable frequency pump 63.
The power of auxiliary electric heater unit 5 is per hour loaded definite according to high-temperature air conditioner boiler 71 and user, device is set to manual and automatic combination.Auxiliary electric heater unit 5 can be used as the back-up system of solar thermal collector 2 or air source heat pump 1 independent failure or whole faults, improves safe and stable arrangement.
Solar thermal collector 2 and air source heat pump 1 are produced 40-60 ℃ of hot water and are used uninterrupted supply heat energy as life.Auxiliary electric heater unit improves the equipment safety and reliability as the stand-by provision of solar thermal collector, air source heat pump equipment fault.
Air, fan coil, lower coil pipe, auxiliary electric heater unit, water pump, tank pipe system, valve system, flowmeter system, control system, power supply, cable etc. can be the refrigeration in summer.
Solar energy, air source heat pump, fan coil, lower coil pipe, auxiliary electric heater unit, water pump, tank pipe system, valve system, flowmeter system, control system, power supply, cable etc. can be heat supply in winter;
Solar energy heating apparatus in the utility model integration unit is worked under solar radiation expeditiously, utilizes natural solar energy resources, nature or forced circulation thermal-arrest; Winter, domestic hot-water's water tank heat energy fully can heat to the heat exchange of air-conditioning water tank by heat exchanger.The multi-functional unit of heat pump apparatus of air source, unit can provide refrigeration and heat-production functions to adapt to the needs of a machine winter summer refrigeration and heating, life hot water is provided simultaneously, the hot blast that particularly utilizes summer the unit refrigeration to get rid of can heat the domestic hot-water, intelligence three hot water and air conditioner combined device can the maximum using regenerative resources, the cold that device provides can satisfy summer refrigeration and domestic hot-water supply, and heat energy can satisfy heat supply in winter and domestic hot-water supply needs.
Claims (3)
1. energy-saving tri hot water and air conditioner comprehensive utilization device, it is characterized in that the integrated use device is by air source heat pump (1), solar thermal collector (2), fan coil (3), ground lower coil pipe floor heating (4), auxiliary electric heater unit (5), water pump (60,61,62,63), boiler (70), air conditioning hot case (71), pipeline (80,81,811,82,821,83,831,84,841,85,851,86,861,87,871,88), valve (9), flowmeter (10), controller (11), power supply (13), cable (120,121,122,123,124,125), heat exchanger (14) constitutes, and air source heat pump (1) passes through pipeline (82 behind water pump (60), 821) connect with boiler (70); Solar thermal collector (2) is connected by pipeline (81,811) and boiler (70); Behind cold water process valve (9) and the flowmeter (10), enter in the boiler (70) by pipeline (80), hot water is by pipeline (88) output in the boiler (70); Heat exchanger (14) is connected by pipeline (83,831) and boiler (70) behind water pump (61), heat exchanger (14) is connected by pipeline (86,861) and air conditioning hot case (71) behind water pump (62), and ground lower coil pipe floor heating (4) is connected by pipeline (87,871) and pipeline (84,841); Fan coil (3) is connected by air conditioning hot case (71) by pipeline (84,841) behind water pump (63); Auxiliary electric heater unit (5) is housed in the air conditioning hot case (71); Controller (11) is controlled air source heat pump (1) and water pump (60), auxiliary electric heater unit (5), water pump (63), water pump (62) and water pump (61) respectively by cable (120,121,122,123,124,125).
2. energy-saving tri hot water according to claim 1 and air conditioner comprehensive utilization device is characterized in that controller (11) control auxiliary electric heater unit (5).
3. energy-saving tri hot water according to claim 1 and 2 and air conditioner comprehensive utilization device is characterized in that the refrigeration in the integrated use device is to adopt fan coil (3), and heating is to adopt ground lower coil pipe floor heating (4).
Priority Applications (1)
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CN2010202581980U CN202008253U (en) | 2010-07-14 | 2010-07-14 | Energy-saving three-component-combined water heating and air conditioning comprehensive utilization device |
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CN2010202581980U CN202008253U (en) | 2010-07-14 | 2010-07-14 | Energy-saving three-component-combined water heating and air conditioning comprehensive utilization device |
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CN2010202581980U Expired - Fee Related CN202008253U (en) | 2010-07-14 | 2010-07-14 | Energy-saving three-component-combined water heating and air conditioning comprehensive utilization device |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104393587A (en) * | 2014-11-19 | 2015-03-04 | 张洪亮 | Combined cooling, heating and power energy station utilizing renewable energy sources |
CN104567005A (en) * | 2014-12-30 | 2015-04-29 | 昆明铁路局科学技术研究所 | Building photovoltaic integrated system equipment |
WO2021017630A1 (en) * | 2019-07-31 | 2021-02-04 | 青岛理工大学 | Metro composite energy multifunctional tail end heat pump system and method |
-
2010
- 2010-07-14 CN CN2010202581980U patent/CN202008253U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104393587A (en) * | 2014-11-19 | 2015-03-04 | 张洪亮 | Combined cooling, heating and power energy station utilizing renewable energy sources |
CN104567005A (en) * | 2014-12-30 | 2015-04-29 | 昆明铁路局科学技术研究所 | Building photovoltaic integrated system equipment |
WO2021017630A1 (en) * | 2019-07-31 | 2021-02-04 | 青岛理工大学 | Metro composite energy multifunctional tail end heat pump system and method |
GB2591657A (en) * | 2019-07-31 | 2021-08-04 | Univ Qingdao Technology | Metro composite energy multifunctional tail end heat pump system and method |
GB2591657B (en) * | 2019-07-31 | 2023-05-17 | Univ Qingdao Technology | Subway hybrid-energy multifunctional-end-integrated heat pump system and method |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20111012 Termination date: 20140714 |
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EXPY | Termination of patent right or utility model |