CN201476225U - Potential heat inducing energy-saving device - Google Patents
Potential heat inducing energy-saving device Download PDFInfo
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- CN201476225U CN201476225U CN2009201695055U CN200920169505U CN201476225U CN 201476225 U CN201476225 U CN 201476225U CN 2009201695055 U CN2009201695055 U CN 2009201695055U CN 200920169505 U CN200920169505 U CN 200920169505U CN 201476225 U CN201476225 U CN 201476225U
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- latent heat
- potential heat
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- Devices For Blowing Cold Air, Devices For Blowing Warm Air, And Means For Preventing Water Condensation In Air Conditioning Units (AREA)
Abstract
The utility model relates to an energy-saving device which utilizes a potential heat induction pipe with efficient heat transfer to recovery the waste heat of an air conditioner for producing sanitary hot water or carrying out heat dissipation treatment, and particularly provides a potential heat inducing energy-saving device which structurally comprises a potential heat induction pipe body, wherein the two ends of the potential heat induction pipe body are respectively a condensing end and an evaporation end of the potential heat induction pipe; the outer part of the evaporation end of the potential heat induction pipe is provided with a pipe sleeve of the evaporation end of the potential heat induction pipe; and a capillary liquid absorption core is arranged on the pipe sleeve of the evaporation end of the potential heat induction pipe, and is divided into a high-temperature high-pressure working medium inlet and a high-temperature high-pressure working medium outlet. Compared with the prior art, the potential heat inducing energy-saving device has the characteristics of high efficiency, high hot water temperature, safety and reliability, high energy-saving indexes and the like.
Description
Technical field
The utility model relates to a kind of latent heat of efficient heat transfer that utilizes and induces pipe that the energy saver of health hot water or radiating treatment is produced in the air-conditioning waste heat recovery, specifically provides a kind of potential heat energy to induce energy saver.
Background technology
Air-conditioning, hot water are as two big demands of most buildings, and the mode that has the HTHP section that produces by the contrary Carnot cycle to air-conditioner host to carry out waste heat recovery at present goes to produce domestic hot-water's measure, but recovering effect is undesirable: efficient is low, and the hot water temperature is not high.And do not need the public building of hot water for some, and the HTHP that the contrary Carnot cycle of air-conditioner host produces makes compressor for a long time in " heavy burden " operation down, and the life-span is limited, and power consumption is serious; And " water clock " phenomenon appears in a lot of air-conditioning system condensed water dischargings, and Yu Leng does not have recovery measure.
Summary of the invention
The utility model is at above deficiency, provide a kind of potential heat energy to induce energy saver, the latent heat that will have the efficient heat transfer characteristic induces pipe to be used in air-conditioning system waste heat recovery production health hot water, the high efficiency and heat radiation cooling equipment, be an important breakthrough in energy-saving and emission-reduction field, its efficient height, hot water temperature's height, safe and reliable, energy-conservation index height.
The technical scheme that its technical problem that solves the utility model adopts is:
A kind of potential heat energy is induced energy saver, comprise that latent heat induces body, described latent heat induces the body two ends to be respectively latent heat to induce pipework condensation end and latent heat to induce the pipe evaporation ends, described latent heat induces the outer setting of pipe evaporation ends to have latent heat to induce pipe evaporation ends pipe box, described latent heat induces pipe evaporation ends pipe box to be provided with capillary wick, and described capillary wick is divided into import of HTHP working medium and HTHP sender property outlet.
Latent heat induces pipework condensation end outer setting that radiating fin is arranged.
Latent heat induces pipework condensation end outer setting to have latent heat to induce pipework condensation end pipe box, and described latent heat induces pipework condensation end pipe box to be provided with capillary wick, and described capillary wick is divided into water at low temperature import and high-temperature water outlet.
A kind of potential heat energy of the present utility model is induced energy saver, it utilizes latent heat to induce the Guan Erduan (evaporation ends and condensation end) and the medium heat of different temperatures to exchange, make induce the intraductal working medium state constantly the latent heat of circulating phase-change process waste heat is reclaimed the production health hot water at a high speed, in the time of energy-saving run, provide free the health hot water of higher temperature; Or by fin waste heat is distributed rapidly, improve the cooling effect of equipment.Have simple in structure, operating cost is low, organic efficiency is high, the characteristics of safe and reliable, environmental protection.
Except that These characteristics, a kind of potential heat energy of the present utility model induces energy saver also to possess following characteristics:
1) outside two thermal source temperature difference of the utility model patented technology, make the internal working medium state constantly the latent heat of circulating phase-change process heat source high-speed is induced utilization, diabatic process need not add wasted work, energy-conservation index height.
2) the utility model patented technology adopts the heat pipe between two thermals source to do the seal isolation conduction, does not leak through with each other, and avoids pollution to each other, can extensively utilize the waste heat reclaiming process of various occasions.
3) the utility model patented technology does not have mechanical moving element, installs safe and reliablely, and service life is long.
4) but between two thermals source of the utility model patented technology the solid, liquid, gas three-phase state of heat transmitting medium all homophase or out-phase heat exchange are implemented.
5) device volume is little, and can outdoor setting, and the spatial selectivity of installation is strong.
Description of drawings
Below in conjunction with drawings and Examples the utility model is further specified.
Fig. 1 induces the structural representation (embodiment 1) of energy saver for a kind of potential heat energy;
Fig. 2 induces the systematic schematic diagram (embodiment 1) of energy saver for a kind of potential heat energy;
Fig. 3 induces the structural representation (embodiment 2) of energy saver for a kind of potential heat energy;
Fig. 4 induces the systematic schematic diagram (embodiment 2) of energy saver for a kind of potential heat energy.
The specific embodiment
The utility model is described in further detail below in conjunction with the drawings and specific embodiments, but not as to qualification of the present utility model.
Embodiment 1: the latent heat that is used for high efficiency and heat radiation is induced energy saver-induce pipe evaporation ends, latent heat to induce pipework condensation end, latent heat to induce pipe evaporation ends pipe box, radiating fin, the import of HTHP working medium, HTHP sender property outlet to form by latent heat.The described radiating fin latent heat that is laid in is induced the condensation end of pipe; The setting that takes a different form of described radiating fin: the bottom is that level stacks formula, the top be around laying type.As shown in Figure 1 and Figure 2, latent heat induces the HTHP working medium entrance point of energy saver to be connected to the outlet of compressor of air conditioner working medium tube, and the HTHP sender property outlet terminates to the import of air conditioner condenser working medium tube.The air conditioner condensation drainpipe is connected to the radiating fin top.
Fig. 1 induces the structure chart of energy saver for the used latent heat of the present embodiment.
Among the figure: 1, latent heat is induced the pipework condensation end; 2, latent heat is induced the pipe evaporation ends; 3, latent heat is induced pipe evaporation ends pipe box; 4, radiating fin; 5, HTHP working medium import; 6, HTHP sender property outlet.
During work, latent heat is induced the medium heat exchange of Guan Erduan (evaporation ends and condensation end) and different temperatures, make induce the intraductal working medium state constantly the latent heat of circulating phase-change process waste heat is distributed at a high speed by fin.
Fig. 2 is the present embodiment systematic schematic diagram.
Among the figure: 7, compressor; 8, condenser; 9, throttling arrangement; 10, evaporimeter; 11, latent heat is induced energy saver; 12, air conditioner condensation drainpipe.
As shown in Figure 2: the HTHP working medium from compressor for air conditioner 7 is induced energy saver 11 through latent heat, the heat of high temperature makes latent heat induce the latent heat of energy saver 11 to induce Guan Yiduan (evaporation ends) to be heated, liquid carburation by evaporation in the pipe in the capillary wick, steam flows to the other end (condensation end) under the effect of pressure reduction, and emit heat and condense into liquid, liquid under the effect of capillary force again the porous material along tube wall flow back to evaporation ends.So circulation, heat induces the latent heat of energy saver 11 to induce the evaporation ends 2 of pipe to pass to condensation end 1 by latent heat, is distributed by the radiating fin on the condensation end 14 again.And the air conditioner condensation draining flashes to steam and enters in the air when dropping onto the high temperature fin 4 of at a high speed heat radiation.Process latent heat induces working medium temperature, the pressure behind the energy saver to be effectively reduced, enter condenser 8 again, the contrary Carnot cycle duty point of air conditioner constantly circulates benignly, avoided the formed motor of condensation HTHP to increase countertorque, the air conditioner Energy Efficiency Ratio improves, energy-saving run, the while has also reduced " water clock " phenomenon of condensed water, is beneficial to environmental protection.
Embodiment 2: the latent heat that is used for high efficiente callback waste heat production health hot water is induced energy saver---and induce pipe evaporation ends, latent heat to induce pipework condensation end, latent heat to induce pipe evaporation ends pipe box, latent heat to induce pipework condensation end pipe box, water at low temperature import, high-temperature water outlet, the import of HTHP working medium, HTHP sender property outlet to form by latent heat.As Fig. 3, Fig. 4, be arranged on before the air conditioner throttling and the latent heat at press discharge opening place induces energy saver to form low-grade latent heat respectively to induce energy saver and high-grade I and II latent heat to induce energy saver.Before described low-grade latent heat induced energy saver to be arranged on the air-conditioner host choke valve, high-grade I and II latent heat induced energy saver to be arranged on the discharge opening place of compressor; Described low-grade latent heat induces the HTHP working medium tube import of energy saver to be connected to condenser, and the outlet of HTHP working medium tube is connected to choke valve; Described high-grade I and II latent heat induces the HTHP working medium tube import of energy saver to be connected to compressor, and outlet is connected to condenser; Described low-grade latent heat induces the water at low temperature import of energy saver to be connected to running water pipe, and the high-temperature water outlet is connected to the water at low temperature import that high-grade one-level latent heat is induced energy saver; Described high-grade secondary latent heat induces the import of energy saver water at low temperature to be connected to the high-temperature water outlet that high-grade one-level latent heat is induced energy saver, and the high-temperature water outlet is connected to attemperater; Described running water filling pipe is provided with the proportional integral control valve; Described condensator outlet end and enter on the hot water pipeline before the attemperater and be respectively equipped with temperature controller.
Fig. 3 induces the structure chart of energy saver for the used latent heat of the present embodiment.
Among the figure: 13, latent heat is induced the pipework condensation end; 14, latent heat is induced the pipe evaporation ends; 15, latent heat is induced pipework condensation end pipe box; 16, latent heat is induced pipe evaporation ends pipe box; 17, water at low temperature import; 18, high-temperature water outlet; 19, HTHP working medium import; 20, HTHP sender property outlet.
During work, latent heat is induced the medium heat exchange of Guan Erduan (evaporation ends and condensation end) and different temperatures, make induce the intraductal working medium state constantly the latent heat of circulating phase-change process waste heat is gone to water at low temperature, water at low temperature absorbs and flows out after heat becomes high-temperature-hot-water.
Fig. 4 is the systematic schematic diagram of a kind of embodiment of the utility model technology.
Among the figure: 21, compressor; 22, condenser; 23, throttling arrangement; 24, evaporimeter; 25, low-grade latent heat is induced energy saver; 26, high-grade one-level latent heat is induced energy saver; 27, high-grade secondary latent heat is induced energy saver; 28, proportional integral control valve; 29~30, temperature controller; 31, attemperater; 32, running water filling pipe; 33, hot water conveying pipe.
As shown in Figure 3: two hot-zones that the contrary Carnot cycle of air conditioner forms: before the throttling and the compressor end that spues, low-grade latent heat is set respectively induces energy saver 25 and high-grade one-level latent heat to induce energy saver 26, high-grade secondary latent heat to induce energy saver 27.Water in the running water filling pipe 32 is induced the condensation end of energy saver 25 through low-grade latent heat, after absorbing the heat intensification, continue to flow through high-grade one-level latent heat and induce energy saver 26 and high-grade secondary latent heat to induce energy saver 27, enter attemperater 31 again behind the absorption heat.Moisturizing, heating, the water storage that does not stop like this, heat induces the latent heat of energy saver 25 to induce the evaporation ends 14 of pipe to pass to condensation end 13 by latent heat, goes to the water in the heat preservation hot water tank 31 at last, thereby produces a large amount of health hot waters.Proportional integral control valve 28 and temperature controller 30 are controlled rate of water make-up simultaneously, and when promptly the hot water temperature before entering attemperater departed from setting value, 28 pairs of rate of water make-ups of proportional integral control valve were done corresponding the adjusting; The start-stop of temperature controller 29 corresponding water pumps of control or blower fan, promptly when condenser discharge opening temperature was higher than setting value, corresponding cooling water pump or fan starting moved; When condenser discharge opening temperature was lower than setting value, corresponding cooling water pump or fan was out of service.After process latent heat is induced energy saver, the duty point of two hot-zone constantly circulates benignly, and has avoided the formed motor of condensation HTHP to increase countertorque, and the air conditioner Energy Efficiency Ratio improves, energy-saving run, the while has freely been produced the health hot water of a large amount of higher temperatures.
Above-described embodiment, the utility model specific embodiment a kind of more preferably just, the common variation that those skilled in the art carries out in the technical solutions of the utility model scope and replacing all should be included in the protection domain of the present utility model.
Claims (3)
1. a potential heat energy is induced energy saver, comprise that latent heat induces body, it is characterized in that, described latent heat induces the body two ends to be respectively latent heat to induce pipework condensation end and latent heat to induce the pipe evaporation ends, described latent heat induces the outer setting of pipe evaporation ends to have latent heat to induce pipe evaporation ends pipe box, described latent heat induces pipe evaporation ends pipe box to be provided with capillary wick, and described capillary wick is divided into import of HTHP working medium and HTHP sender property outlet.
2. a kind of potential heat energy according to claim 1 is induced energy saver, it is characterized in that, described latent heat induces pipework condensation end outer setting that radiating fin is arranged.
3. a kind of potential heat energy according to claim 1 is induced energy saver, it is characterized in that, described latent heat induces pipework condensation end outer setting to have latent heat to induce pipework condensation end pipe box, described latent heat induces pipework condensation end pipe box to be provided with capillary wick, and described capillary wick is divided into water at low temperature import and high-temperature water outlet.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2009201695055U CN201476225U (en) | 2009-09-01 | 2009-09-01 | Potential heat inducing energy-saving device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2009201695055U CN201476225U (en) | 2009-09-01 | 2009-09-01 | Potential heat inducing energy-saving device |
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| CN201476225U true CN201476225U (en) | 2010-05-19 |
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| CN2009201695055U Expired - Fee Related CN201476225U (en) | 2009-09-01 | 2009-09-01 | Potential heat inducing energy-saving device |
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| CN (1) | CN201476225U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105423790A (en) * | 2015-12-04 | 2016-03-23 | 王轶珂 | Heat absorption and dissipation device |
-
2009
- 2009-09-01 CN CN2009201695055U patent/CN201476225U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105423790A (en) * | 2015-12-04 | 2016-03-23 | 王轶珂 | Heat absorption and dissipation device |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| 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: 20100519 Termination date: 20120901 |