CN2816655Y - Air-conditioner energy-storage control device - Google Patents
Air-conditioner energy-storage control device Download PDFInfo
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- CN2816655Y CN2816655Y CN 200520051298 CN200520051298U CN2816655Y CN 2816655 Y CN2816655 Y CN 2816655Y CN 200520051298 CN200520051298 CN 200520051298 CN 200520051298 U CN200520051298 U CN 200520051298U CN 2816655 Y CN2816655 Y CN 2816655Y
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Abstract
The utility model relates to an air-conditioner energy-storage control device which is additionally provided with an energy storage tank, an energy storage pump, and an electric three-way valve on the basis of the existing air conditioner main machine, the end of the air conditioner, and a communicated pipeline, wherein the energy storage pump and the electric three-way valve are arranged in the communicated pipeline which is connected by the energy storage tank, the air conditioner main machine and the end of the air conditioner. The utility model can effectively store the energy and avoid energy waste; the supply and the demand contradiction of the energy is automatically regulated, and the performance of the air conditioner is improved. The utility model is a novel air-conditioner energy-saving device.
Description
Technical field:
The utility model relates to a kind of aircondition, is specifically related to a kind of air-conditioner energy-accumulation control device.
Background technology:
Existing air-conditioner host is that off-premises station and air conditioning terminal are by the direct communication loop of pipeline between the indoor set, freeze or heat energy exchange, at the air conditioning terminal workload demand hour, the air-conditioner host energy surplus, cause waste, and when the air conditioning terminal workload demand was big, the air-conditioner host energy supplement was difficult to again in time put in place rapidly, influences the sensitivity and the technical performance of air conditioner.
Summary of the invention:
Technical problem to be solved in the utility model is: at above-mentioned the deficiencies in the prior art, and provide that a kind of air conditioner energy stores automatically, the conversion efficiency height, regulate in time rapidly automatically, air-conditioner energy-accumulation control device that conserve energy avoided waste, effectively improved the air conditioner technical performance.
The technical solution adopted in the utility model is: this air-conditioner energy-accumulation control device is on the basis of existing air-conditioner host, air conditioning terminal, connecting pipeline, set up energy storage tank, storage pump, electric T-shaped valve, storage pump, electric T-shaped valve are installed in connecting in the pipeline of energy storage tank and air-conditioner host, air conditioning terminal.
In the technique scheme, the tank body of energy storage tank has heat-insulation layer, and jar internal upper part and bottom are installed the current distributor respectively, and current distributor and energy storage tank water inlet pipe and water outlet pipe connect.
In the technique scheme, the electric T-shaped valve that energy storage tank upper and lower water inlet pipe and water outlet pipe is installed respectively is cold and hot transfer valve, the water inlet pipe and water outlet pipe on energy storage tank top and air-conditioner host water inlet pipe, the cold and hot transfer valve that is connected in series between the air conditioning terminal outlet pipe is first electric T-shaped valve, the water inlet pipe and water outlet pipe of energy storage tank bottom and air-conditioner host outlet pipe, the cold and hot transfer valve that is connected in series between the air conditioning terminal water inlet pipe is second electric T-shaped valve, except that serial connection second electric T-shaped valve, also be serially connected with accumulator valve, i.e. the 3rd electric T-shaped valve, also be parallel with storage pump, above-mentioned first between two terminations of the 3rd electric T-shaped valve, second electric T-shaped valve also respectively has another termination to connect with energy storage tank bottom water inlet pipe and water outlet pipe and top water inlet pipe and water outlet pipe respectively.
The utility model at the air conditioning terminal workload demand hour, with the refrigeration of air-conditioner host or heat accumulation of energy in the energy input energy storage tank, a water for cooling or an intensification in making jar; When the air conditioning terminal workload demand is big or air-conditioner host energy when not enough, the energy in the energy storage tank is supplied with air conditioning terminal.Therefore, this energy storage control device can effectively carry out accumulation of energy, avoids energy dissipation, regulates the energy imbalance between supply and demand automatically, improves the technical performance of air conditioner, is a kind of air-conditioning energy saver.
Description of drawings:
Fig. 1 is the utility model structural representation
The specific embodiment:
Referring to Fig. 1, this air-conditioner energy-accumulation control device is on the basis of existing air-conditioner host 1, air conditioning terminal 2, connecting pipeline 3, set up energy storage tank 4, storage pump 5, electric T-shaped valve F1, F2, F3, wherein electric T-shaped valve F1, F2 are cold and hot transfer valve, and electric T-shaped valve F3 is an accumulator valve.Storage pump 5, electric T-shaped valve F1, F2, F3 are installed in the connecting line of energy storage tank 4 and air-conditioner host 1, air conditioning terminal 2, the tank body of energy storage tank 4 has heat-insulation layer, jar internal upper part and bottom are installed current distributor 6 respectively, and current distributor 6 connects with the energy storage tank water inlet pipe and water outlet pipe.Be connected in series the first electric T-shaped valve F1 between the water inlet pipe and water outlet pipe 7 on energy storage tank top and air-conditioner host water inlet pipe 8, the air conditioning terminal outlet pipe 9, be connected in series the second electric T-shaped valve F2, the 3rd electric T-shaped valve F3 between the water inlet pipe and water outlet pipe 10 of energy storage tank bottom and air-conditioner host outlet pipe 11, the air conditioning terminal water inlet pipe 12, also be parallel with storage pump 5 between two end A of the 3rd electric T-shaped valve F3, C, first, second electric T-shaped valve F1, F2 also each have a termination B and connect with energy storage tank bottom water inlet pipe and water outlet pipe 10 and top water inlet pipe and water outlet pipe 7 respectively.
Above-mentioned the 3rd electric T-shaped valve F3 of the present utility model is an accumulator valve, is used for air-conditioner host and switches to the air conditioning terminal energy supply to energy storage tank accumulation of energy and air-conditioner host or energy storage tank.The A of F3, B are logical, and air-conditioner host and energy storage tank are individually or simultaneously to the air conditioning terminal energy supply, and the A of F3, C are logical, open corresponding aperture according to payload, and air-conditioner host is all or part of to the energy storage tank accumulation of energy.
The effect of storage pump 5: when energy storage tank starts during to the air conditioning terminal energy supply, bearing the effect of air-conditioning system air-conditioning water pump, requiring lift consistent with the system air conditioner water pump.
The first electric T-shaped valve F1, the second electric T-shaped valve F2 are cold and hot transfer valve, because " on the heat down cold " physical characteristic of water, the summer in winter automaticallyes switch by F1 and F2, and A, the C of refrigeration F1 in season and F2 lead to, heat season F1 and A, the B of F2 logical, transition season can not switch.
Energy storage tank is separately to system's energy supply: in air conditioning terminal when start refrigeration,, if the water temperature of energy storage tank is lower than 10 ℃, or the water temperature that heats the start energy storage tank is higher than 50 °, then opens energy storage tank earlier, and the A of accumulator valve F3, B are logical, by energy storage tank separately to system's energy supply.If the water temperature of energy storage tank is lower than 10 ° for a long time during refrigerating operaton, be higher than 50 ° in the time of can heating for a long time, then stop air-conditioner host and open energy storage tank, by energy storage tank separately to system's energy supply.
Air-conditioner host is separately to system's energy supply: when air conditioning terminal load is bigger, and the energy storage tank energy is when low, and the A of accumulator valve F3, B are logical, and the air-conditioner host energy is all supplied with air conditioning terminal.
Air-conditioner host is to the energy storage tank accumulation of energy: when the air-conditioner host leaving water temperature reaches setting value and supply and return water temperature is then loaded less for air conditioning terminal less than 3 ℃ for a long time, meanwhile, the energy storage tank water temperature is higher than 2 ℃ or be lower than 2 ℃ when heating state than air-conditioning leaving water temperature at refrigerating state, the A of accumulator valve F3, C open corresponding aperture according to payload, and energy storage tank begins accumulation of energy.
Air-conditioner host and energy storage tank are simultaneously to system's energy supply:
1. when air conditioning terminal load is big, when the not enough and energy storage tank energy of air-conditioner host energy was high, the A of accumulator valve F3, B were logical, and air-conditioner host and energy storage tank while are to the air conditioning terminal energy supply.
2. during refrigerating operaton, when being installed in temp probe T4, the T5 of energy storage tank bottom, the mean temperature of T6<air-conditioner host supply water temperature, start energy storage tank, by energy storage tank and air-conditioner host energy supply simultaneously, when the mean temperature of T4-T6>air-conditioner host supply water temperature, stop storage pump, change by the independent energy supply of air-conditioner host.
3. during heating operation, when the mean temperature of the temp probe T1, the T2 that are installed in energy storage tank top, T3>air-conditioner host supply water temperature, start energy storage tank, by energy storage tank and air-conditioner host energy supply simultaneously, when the mean temperature of T1-T3≤air-conditioner host supply water temperature, stop storage pump, change by the independent energy supply of air-conditioner host.
Claims (3)
1. air-conditioner energy-accumulation control device, have air-conditioner host, air conditioning terminal, connecting pipeline, it is characterized in that setting up energy storage tank, storage pump, electric T-shaped valve, storage pump, electric T-shaped valve are installed in connecting in the pipeline of energy storage tank and air-conditioner host, air conditioning terminal.
2. air-conditioner energy-accumulation control device according to claim 1 is characterized in that the tank body of energy storage tank has heat-insulation layer, and jar internal upper part and bottom are installed the current distributor respectively, and current distributor and energy storage tank water inlet pipe and water outlet pipe connect.
3. air-conditioner energy-accumulation control device according to claim 1, it is characterized in that the electric T-shaped valve that energy storage tank upper and lower water inlet pipe and water outlet pipe is installed respectively is cold and hot transfer valve, the water inlet pipe and water outlet pipe on energy storage tank top and air-conditioner host water inlet pipe, the cold and hot transfer valve that is connected in series between the air conditioning terminal outlet pipe is first electric T-shaped valve, the water inlet pipe and water outlet pipe of energy storage tank bottom and air-conditioner host outlet pipe, the cold and hot transfer valve that is connected in series between the air conditioning terminal water inlet pipe is second electric T-shaped valve, except that serial connection second electric T-shaped valve, also be serially connected with accumulator valve, i.e. the 3rd electric T-shaped valve, also be parallel with storage pump, above-mentioned first between two terminations of the 3rd electric T-shaped valve, second electric T-shaped valve also each has another termination and connects with energy storage tank bottom water inlet pipe and water outlet pipe and top water inlet pipe and water outlet pipe respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200520051298 CN2816655Y (en) | 2005-07-06 | 2005-07-06 | Air-conditioner energy-storage control device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200520051298 CN2816655Y (en) | 2005-07-06 | 2005-07-06 | Air-conditioner energy-storage control device |
Publications (1)
Publication Number | Publication Date |
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CN2816655Y true CN2816655Y (en) | 2006-09-13 |
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Family Applications (1)
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CN 200520051298 Expired - Fee Related CN2816655Y (en) | 2005-07-06 | 2005-07-06 | Air-conditioner energy-storage control device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2008086711A1 (en) * | 2006-12-31 | 2008-07-24 | Beijing Poweru Technology Co., Ltd. | Water energy-storing system with many water-storing sinks and its using method |
CN1892126B (en) * | 2005-07-06 | 2010-10-13 | 张跃 | Air-conditioner energy-accumulation control method |
-
2005
- 2005-07-06 CN CN 200520051298 patent/CN2816655Y/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1892126B (en) * | 2005-07-06 | 2010-10-13 | 张跃 | Air-conditioner energy-accumulation control method |
WO2008086711A1 (en) * | 2006-12-31 | 2008-07-24 | Beijing Poweru Technology Co., Ltd. | Water energy-storing system with many water-storing sinks and its using method |
US9194594B2 (en) | 2006-12-31 | 2015-11-24 | Beijing Poweru Technology Co., Ltd. | Multiple tanks water thermal storage system and its using method |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20060913 |