CN102778012A - Comprehensive utilization system of energy - Google Patents

Comprehensive utilization system of energy Download PDF

Info

Publication number
CN102778012A
CN102778012A CN2012100234293A CN201210023429A CN102778012A CN 102778012 A CN102778012 A CN 102778012A CN 2012100234293 A CN2012100234293 A CN 2012100234293A CN 201210023429 A CN201210023429 A CN 201210023429A CN 102778012 A CN102778012 A CN 102778012A
Authority
CN
China
Prior art keywords
water
cold
hot water
heat
heat exchange
Prior art date
Application number
CN2012100234293A
Other languages
Chinese (zh)
Other versions
CN102778012B (en
Inventor
苟仲武
Original Assignee
苟仲武
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 苟仲武 filed Critical 苟仲武
Priority to CN201210023429.3A priority Critical patent/CN102778012B/en
Publication of CN102778012A publication Critical patent/CN102778012A/en
Application granted granted Critical
Publication of CN102778012B publication Critical patent/CN102778012B/en

Links

Abstract

The invention discloses a comprehensive utilization system of energy. The system comprises an air conditioning demand space, a heat exchange water tank, a hot water storage device, an air conditioning device and a control unit, wherein the heat exchange water tank is provided with a cold water inlet and a hot water outlet which are communicated with a cold water source and the hot water storage device respectively; the air conditioning device comprises a first heat exchanger and a second heat exchanger; the first heat exchanger is arranged in the air conditioning demand space; the second heat exchanger is arranged in the heat exchange water tank; the air conditioning device is used for refrigeration for the air conditioning demand space through the first heat exchanger; heat is released to the heat exchange water tank through the second heat exchanger; and valves of the hot water outlet and the cold water inlet are controlled by the control unit, so that water is fed from the cold water source after water in the heat exchange water tank flows into the hot water storage device. The heat dissipated by the second heat exchanger can be effectively brought away by replacing the cold water in the heat exchange water tank, so that the power of refrigeration of the air conditioning device is reduced, and the energy is saved. The hot water which flows into the hot water storage device can be reutilized to further save the energy of heating domestic water.

Description

The total energy approach system
Technical field
The present invention relates to power-saving technology, relate in particular to a kind of system that fully utilizes the waste heat of various thermals source with energy savings.
Background technology
Along with expanding economy, the problem of energy-saving and environmental protection was also more and more outstanding in recent years.For example, summer many families, hotel in order to keep indoor comfort level, generally all can open air-conditioning, indoor temperature is lowered the temperature.Yet air conditioner though let indoor temperature obtain reduction, makes outdoor temperature become higher after unlatching, is unfavorable for outdoor environment.In the time of in the winter time, the air-conditioning heat supply need be opened in many families, hotel.Air conditioner in order to let indoor temperature be improved, absorbs heat in the open-air of just having no alternative but to comply, thereby makes outdoor temperature lower after unlatching.
No matter be summer or winter,, keep indoor, outdoor bigger temperature difference no matter air-conditioning is refrigeration or heats that the compressor of air-conditioning is had to more high-power.In other words, the method that the air-conditioning of prior art carries out indoor refrigeration, heat need expend more energy, and is unfavorable for the maintenance of outdoor environment.
Summary of the invention
The embodiment of the invention provides a kind of total energy approach system, in order to freezing through aircondition or heating the waste heat of the various thermals source of comprehensive utilization in the process, reaches the purpose of energy savings.
According to an aspect of the present invention, a kind of total energy approach system is provided, has comprised: air-conditioning demand space, heat exchange tank, hot water deposit device and aircondition, control module;
Said heat exchange tank is provided with cold water input port and hot water output port, communicates with cold water source, hot water deposit device respectively;
Said aircondition comprises: be arranged at first heat exchanger in the said air-conditioning demand space and be arranged at second heat exchanger in the said heat exchange tank; Said aircondition freezes to said air-conditioning demand space through first heat exchanger; Through the water release heat of second heat exchanger in said heat exchange tank;
Said control module is used to control the valve of said hot water output port and cold water input port, make water in the said heat exchange tank flow in the said hot water deposit device after, from said cold water source input water.
Further, said system also comprises:
Place the temperature sensor of said heat exchange tank, be used for detecting the temperature of said heat exchange tank water; And,
Said control module specifically is used for as if confirm the temperature of said temperature sensor detection greater than first setting value; Then: the valve of controlling said hot water output port and cold water input port; After making water in the said heat exchange tank flow in the said hot water deposit device, from said cold water source input water.
Preferably, said aircondition also comprises: solenoid directional control valve;
Said control module also is used to control said solenoid directional control valve, and said aircondition is switched between refrigeration mode or heating mode;
Said refrigeration mode refers to said aircondition and through first heat exchanger said air-conditioning demand space is freezed, through the mode of operation of the water release heat of second heat exchanger in said heat exchange tank;
Said control module specifically is used under said refrigeration mode; If the temperature of confirming said temperature sensor detection is greater than first setting value; Then: the valve of controlling said hot water output port and cold water input port; After making water in the said heat exchange tank flow into said hot water deposit device, be replaced by the water that flows into from said cold water source.
Preferably, said system also comprises: the hot water gatherer; And said heat exchange tank also is provided with the cold water delivery outlet, and the hot water input port that communicates with said hot water gatherer;
Said heating mode refers to said aircondition and through first heat exchanger said air-conditioning demand space is heated, and absorbs the mode of operation of the heat of the water in the said heat exchange tank through second heat exchanger;
Said control module also is used under heating mode; If the temperature that the said temperature sensor of affirmation is put detection is less than second setting value; Then: the valve of controlling said hot water input port and cold water delivery outlet; After water in the said heat exchange tank is flowed out from said cold water delivery outlet, be replaced by the water that flows into from said hot water gatherer.
Said aircondition also comprises: compressor, choke valve, cold-producing medium circulating line; Wherein, said compressor, first heat exchanger, choke valve, second heat exchanger link to each other through said cold-producing medium circulating line successively, constitute the circulation canal of the cold-producing medium of sealing;
Said aircondition is under said refrigeration mode:
Said compressor is used for said pressurizes refrigerant, gets into second heat exchanger after making cold-producing medium become the gaseous state of HTHP;
The second heat transfer equipment body is used for the said cold-producing medium of condensation liquefaction, makes said cold-producing medium become liquid, and the heat that said cold-producing medium is discharged is discharged in the water of said heat exchange tank;
Said choke valve is used for the cold-producing medium that flows out from second heat exchanger is reduced pressure, and makes said cold-producing medium become low-temp low-pressure liquid;
The said first heat transfer equipment body is used for absorbing the heat of said air-conditioning demand space, and the evaporation gasification makes said cold-producing medium become gaseous state from the cold-producing medium that said choke valve flows out, to said air-conditioning demand space refrigeration.
Said aircondition is under said heating mode:
Said compressor is used for said pressurizes refrigerant, gets into first heat exchanger after making cold-producing medium become the gaseous state of HTHP;
The first heat transfer equipment body is used for the said cold-producing medium of condensation liquefaction, makes said cold-producing medium become liquid, and the heat of said cold-producing medium release is discharged in the said air-conditioning demand space, and said air-conditioning demand space is heated;
Said choke valve is used for the cold-producing medium that flows out from first heat exchanger is reduced pressure, and makes said cold-producing medium become low-temp low-pressure liquid;
The second heat transfer equipment body is used for absorbing the heat of said heat exchange tank water, and the evaporation gasification makes said cold-producing medium become gaseous state from the cold-producing medium that said choke valve flows out.
According to another aspect of the present invention, a kind of total energy approach system is provided, has comprised: air-conditioning demand space, heat exchange tank, hot water gatherer and aircondition, control module;
Said heat exchange tank is provided with the cold water delivery outlet, and the hot water input port that communicates with said hot water gatherer;
Said aircondition comprises: be arranged at first heat exchanger in the said air-conditioning demand space and be arranged at second heat exchanger in the said heat exchange tank; Said aircondition heats said air-conditioning demand space through first heat exchanger; Absorb the heat of the water in the said heat exchange tank through second heat exchanger;
Said control module is used to control the valve of said hot water input port and cold water delivery outlet, water in the said heat exchange tank is flowed out from said cold water delivery outlet after, be replaced by the water that flows into from said hot water gatherer.
Further, said system also comprises:
Place the temperature sensor of said heat exchange tank, be used for detecting the temperature of said heat exchange tank water; And,
Said control module specifically is used for as if confirm the temperature of said temperature sensor detection less than setting value; Then: the valve of controlling said hot water input port and cold water delivery outlet; After water in the said heat exchange tank is flowed out from said cold water delivery outlet, be replaced by the water that flows into from said hot water gatherer.
Water in the said hot water gatherer is the domestic water of the heat of recovery; Perhaps, the water in the said hot water gatherer absorbs the heat that is discharged into the oil smoke hot gas in the said hot water gatherer.
The embodiment of the invention is owing to can take away the heat that second heat exchanger distributes through the cold water of changing in the heat exchange tank more effectively; Make the compressor of aircondition to keep the bigger temperature difference between first heat exchanger and second heat exchanger with bigger power; Thereby reduce power, the burden of compressor cooling, energy savings.And the hot water of laying in the hot water deposit device can be utilized as domestic water once more, as is used to the hot water that washes the dishes, have a bath, wash one's hands, from and further saved the energy that heats these domestic waters.In addition, the scheme of the embodiment of the invention has been avoided helping environmental protection to the outdoor environment heat radiation.
In addition; Because the hot water through the hot water gatherer is collected is changed the water in the heat exchange tank; Second heat exchanger is heated up; Make the compressor of aircondition to keep the bigger temperature difference between first heat exchanger and second heat exchanger, thereby reduce power, burden that compressor heats, energy savings with bigger power.
Further; Because through control module control solenoid directional control valve; Make the total energy approach system between refrigeration mode and heating mode, to switch; And corresponding refrigeration mode or heating mode have corresponding energy conservation measure, thus energy savings when using a cover system can realize that freeze summer, also can energy savings during winter heating.
Description of drawings
Fig. 1 is the total energy approach system schematic of the embodiment of the invention one;
Fig. 2 is the total energy approach system schematic of the embodiment of the invention two;
Fig. 3 is the total energy approach system schematic of the embodiment of the invention three.
The specific embodiment
Main thought of the present invention is when aircondition during to room temperature lowering; Absorb, recycle aircondition to the outdoor heat that distributes; Both can let aircondition outdoor heat exchange actuator temperature reduce and reach the purpose that reduces the aircondition power save energy, can prevent also that heat was dispersed in the outdoor environment, influence outdoor environment; Can also make full use of the heat of recovery, further energy savings.When aircondition during, utilize the waste heat that reclaims to raise, thereby reach the purpose that reduces the aircondition power save energy by aircondition outdoor heat exchange actuator temperature to indoor intensification.Specify the technical scheme of the embodiment of the invention below in conjunction with accompanying drawing.
Embodiment one
For aircondition to room temperature lowering; Be the situation of aircondition to indoor refrigeration; Total energy approach provided by the invention system is as shown in Figure 1, comprising: air-conditioning demand space 101, heat exchange tank 102, hot water deposit device 103, and control module (among the figure mark) and aircondition.
Air-conditioning demand space among this paper refers to need utilize air-conditioning to carry out thermoregulator space.For example, utilize air-conditioning to lower the temperature at indoor needs summer, and the interior space that then need lower the temperature is the air-conditioning demand space; For another example, utilize air-conditioning to heat up at indoor needs winter, and the interior space that then need heat up is the air-conditioning demand space.
Heat exchange tank 102 has one or more cold water input port, can communicate with cold water source, for example, communicates with water supply pipe.Heat exchange tank 102 also has the hot water output port, communicates with hot water deposit device 103 through pipeline, in order to export hot water to hot water deposit device 103.The cold water input port of heat exchange tank 102, hot water output port are provided with valve, control current outflow or flow to.The control current can be to utilize potential difference from the mode that the hot water output port flows to the hot water deposit device 103, and the water of making way in the heat exchange tank 102 of eminence flows in the hot water deposit device 103; Also can be to utilize water pump that water is drawn into the hot water deposit device 103 from heat exchange tank 102.
Aircondition comprises: first heat exchanger 121, compressor 122, second heat exchanger 123, cold-producing medium circulating line 124, choke valve 125.Wherein, first heat exchanger 121 is arranged in the air-conditioning demand space 101; Second heat exchanger 123 is arranged in the heat exchange tank 102.
Compressor 122, second heat exchanger 123, choke valve 125, first heat exchanger 121 link to each other through cold-producing medium circulating line 124 successively, constitute the circulation canal of the cold-producing medium of sealing.The flow direction of cold-producing medium in circulation canal is: flow from the direction of compressor 122 to second heat exchanger 123.
When aircondition freezed to the air-conditioning demand space, cold-producing medium was compressed machine 122 pressurization, become the gaseous state of HTHP after, get into second heat exchanger 123.Second heat exchanger, 123 condensation liquefaction cold-producing mediums; Make cold-producing medium become liquid; Cold-producing medium heat release in become liquid process by gaseous state, second heat exchanger 123 is discharged into the heat that cold-producing medium discharges in the heat exchange tank 102, thereby the medium temperature in the heat exchange tank 102 is raise.Usually, the medium in the heat exchange tank 102 can be a water, but also can be other mobile medium, like air.
Liquid refrigerant flows out the back from second heat exchanger 123 and gets into choke valve 125, after choke valve 125 reduces pressure, becomes low-temp low-pressure liquid, gets into first heat exchanger 121.The heat that first heat exchanger 121 is drawn in the air-conditioning demand space 101, evaporation gasification cold-producing medium makes said cold-producing medium become gaseous state, thereby reaches the purpose that air-conditioning demand space 101 is lowered the temperature, freezed.The cold-producing medium of gaseous state is back to compressor 122 again through the cold-producing medium circulating line, and compressor 122 compresses once more, repeats above-mentioned operation.
Along with the constantly heat release in heat exchange tank 102 of second heat exchanger 123, make that the temperature of water is increasingly high in the heat exchange tank 102.Control module is in order to the hot water output port and the valve of cold water input port of control heat exchange tank 102, make the water of heating in the heat exchange tank flow in the hot water deposit device 103 after, import new cold water from cold water source again.
Particularly, in heat exchange tank 102, can be provided with temperature sensor, be used for detecting the temperature of heat exchange tank 102 water.Temperature sensor links to each other with control module, sends detected temperature value to control module.Control module is operated after receiving temperature value as follows:
Judge whether this temperature value surpasses the first threshold of setting.For example, the first threshold of setting can be 50 degree, and the first threshold of perhaps setting can be 60 degree.If temperature value surpasses first threshold, then control module control is arranged at the hot water output port's of heat exchange tank 102 valve opening, thereby the hot water in the heat exchange tank 102 flows in the hot water deposit device 103 through the hot water output port.
Behind the hot water output port's of control module control heat exchange tank 102 the valve opening, through the time period A that sets, control hot water output port's valve closing.Time period A can set according to actual conditions, and for example setting-up time section A is half a minute.
Control module is controlled the valve opening of the cold water input port of heat exchange tank 102 behind control hot water output port's valve closing.Cold water flows to heat exchange tank 102 through the cold water input port.
After control module is controlled at the valve opening of control cold water input port, through the time period B that sets, the valve closing of control cold water input port.Time period B can set according to actual conditions, and for example setting-up time section B is half a minute.Certainly, also can control the valve closing of cold water input port: in heat exchange tank 102, be provided with level detection sensor, in order to detect the water level in the heat exchange tank 102 through other method.Level detection sensor links to each other with control module, and when the water level of control module according to the level detection sensor detection, the water level of determining detection surpasses the water level position of setting, and then controls the valve closing of cold water input port.The water level position of setting can be set according to actual conditions, and the water level position of for example setting is apart from 0.5 meter, heat exchange tank 102 bottoms.
The embodiment of the invention one is owing to can take away the heat that second heat exchanger distributes through the cold water of changing in the heat exchange tank more effectively; Make the compressor of aircondition to keep the bigger temperature difference between first heat exchanger and second heat exchanger with bigger power; Thereby reduce power, the burden of compressor cooling, energy savings.And the hot water of laying in the hot water deposit device can be utilized as domestic water once more, as is used to the hot water that washes the dishes, have a bath, wash one's hands, from and further saved the energy that heats these domestic waters.In addition, the scheme of the embodiment of the invention one has been avoided helping environmental protection to the outdoor environment heat radiation.
Embodiment two
For aircondition to indoor intensification; Be the situation of aircondition to indoor heating; Total energy approach provided by the invention system is as shown in Figure 2, comprising: air-conditioning demand space 101, heat exchange tank 102, hot water gatherer 104, and control module (among the figure mark) and aircondition.
Heat exchange tank 102 has the hot water input port, communicates with hot water gatherer 104 through pipeline, in order to receive the hot water of hot water gatherer output; Also have one or more cold water delivery outlets, in order to outside output cold water.Hot water input port and cold water delivery outlet at heat exchange tank 102 are provided with valve, control current outflow or flow to.The control current can be to utilize potential difference from the mode that hot water gatherer 104 flows to heat exchange tank 102, and the water of making way in the hot water gatherer 104 of eminence flows in the heat exchange tank 102; Also can be to utilize water pump that water is drawn into the heat exchange tank 102 from hot water gatherer 104.
Aircondition comprises: first heat exchanger 121, compressor 122, second heat exchanger 123, cold-producing medium circulating line 124, choke valve 125.Wherein, first heat exchanger 121 is arranged in the air-conditioning demand space 101; Second heat exchanger 123 is arranged in the heat exchange tank 102.
Compressor 122, second heat exchanger 123, choke valve 125, first heat exchanger 121 link to each other through cold-producing medium circulating line 124 successively, constitute the circulation canal of the cold-producing medium of sealing.The flow direction of cold-producing medium in circulation canal is: flow from the direction of compressor 122 to first heat exchanger 121.
When aircondition heated the air-conditioning demand space, cold-producing medium was compressed machine 122 pressurization, become the gaseous state of HTHP after, get into first heat exchanger 121.First heat exchanger, 121 condensation liquefaction cold-producing mediums; Make cold-producing medium become liquid; Cold-producing medium heat release in become liquid process by gaseous state; First heat exchanger 121 is discharged into the heat that cold-producing medium discharges in the air-conditioning demand space 101, thereby the temperature in the air-conditioning demand space 101 is raise, and reaches the purpose that air-conditioning demand space 101 is heated.
Liquid refrigerant flows out the back from first heat exchanger 121 and gets into choke valve 125, after choke valve 125 reduces pressure, becomes low-temp low-pressure liquid, gets into second heat exchanger 123.Second heat exchanger 123 is drawn the heat of water in the heat exchange tank 102, and evaporation gasification cold-producing medium makes said cold-producing medium become gaseous state.The cold-producing medium of gaseous state is back to compressor 122 again through the cold-producing medium circulating line, and compressor 122 compresses once more, repeats above-mentioned operation.
Along with second heat exchanger 123 constantly absorbs the heats of water in the heat exchange tanks 102, make that the temperature of the water in the heat exchange tank 102 is more and more lower.Control module makes the water that turns cold in the heat exchange tank after the outflow of cold water delivery outlet in order to the hot water input port of control heat exchange tank 102 and the valve of cold water delivery outlet, is replaced by the water that flows into from hot water gatherer 104.
Particularly, in heat exchange tank 102, can be provided with temperature sensor, be used for detecting the temperature of heat exchange tank 102 water.Along with second heat exchanger 123 is constantly drawn the heats of water in the heat exchange tanks 102, make that the temperature of water is more and more lower in the heat exchange tank 102.If valve control unit is judged second threshold value that is lower than setting from the temperature value of temperature sensor reception, then control module is controlled the valve opening of the cold water delivery outlet of heat exchange tank 102, and the cold water in the heat exchange tank 102 flows out via the cold water delivery outlet.The cold water that flows out both can directly be discharged to sewer, also can be utilized as water such as flush the toilet once more.Second threshold value can be set according to actual conditions, and for example, setting second threshold value is 10 degree, and perhaps setting second threshold value is 16 degree.
Behind the valve opening of the cold water delivery outlet of control module control heat exchange tank 102, through the time period C that sets, the valve closing of control cold water delivery outlet.Time period C can set according to actual conditions, and for example setting-up time section C is half a minute.
Control module is controlled the valve opening of hot water input port behind the valve closing of control cold water delivery outlet.Hot water in the hot water gatherer 104 flows to heat exchange tank 102 through the hot water input port.Hot water in the hot water gatherer 104 can be the domestic water of the heat of recovery, for example, and the water after having a bath; In addition, the hot gas of smoke exhaust ventilator output also can be through discharge of pipes in the water of hot water gatherer 104, and the water in the hot water gatherer 104 absorbs the heat that is discharged into the oil smoke hot gas in the hot water gatherer, recycles meal kitchen waste heat.
Control module through the time period D that sets, is controlled the valve closing of hot water input port behind the valve opening of control hot water input port.Time period D can set according to actual conditions, and for example setting-up time section D is half a minute.Certainly, also can control the valve closing of hot water input port:, confirm that the water level that detects surpasses the water level position of setting, and then controls the valve closing of hot water input port when the water level that control module detects according to level detection sensor through other method.
The hot water that newly changes in the heat exchange tank 102 helps second heat exchanger 123 and absorbs heat, thereby reduces the burden of compressor 122, and compressor 122 can use than the art methods energy still less can realize the intensification heating to air-conditioning demand space 101.
Hot water in the hot water gatherer 104 can be the domestic water of the heat of recovery, for example, and the water after having a bath; In addition, the hot gas of smoke exhaust ventilator output also can be recycled meal kitchen waste heat through discharge of pipes in the water of hot water gatherer 104.
The embodiment of the invention two is owing to change the water in the heat exchange tank through the hot water of hot water gatherer 104 collections; Second heat exchanger is heated up; Make the compressor of aircondition to keep the bigger temperature difference between first heat exchanger and second heat exchanger with bigger power; Thereby reduce power, burden that compressor heats, energy savings.
Embodiment three
Above-mentioned total energy approach system illustrated in figures 1 and 2 can also be comprehensively in a system, with realize aircondition heat or the refrigeration situation under energy conservation.Comprise in the total energy approach system as shown in Figure 3: air-conditioning demand space 101, heat exchange tank 102, hot water gatherer 104, hot water deposit device 103, and control module (not marking among the figure) and aircondition.
Heat exchange tank 102 has one or more cold water input port, can communicate with cold water source, for example, communicates with water supply pipe.Heat exchange tank 102 also has the hot water output port, communicates with hot water deposit device 103 through pipeline, in order to export hot water to hot water deposit device 103.Heat exchange tank 102 also has the hot water input port, communicates with hot water gatherer 104 through pipeline, in order to receive the hot water of hot water gatherer output; Heat exchange tank 102 also has one or more cold water delivery outlets, in order to outside output cold water.Cold water input port, hot water output port, hot water input port and cold water delivery outlet at heat exchange tank 102 are provided with valve, control current outflow or flow to.
Aircondition comprises: first heat exchanger 121, compressor 122, second heat exchanger 123, cold-producing medium circulating line 124, choke valve 125 and solenoid directional control valve.
Wherein, first heat exchanger 121 is arranged in the air-conditioning demand space 101; Second heat exchanger 123 is arranged in the heat exchange tank 102.
Compressor 122, second heat exchanger 123, choke valve 125, first heat exchanger 121 link to each other through cold-producing medium circulating line 124 successively, constitute the circulation canal of the cold-producing medium of sealing.Cold-producing medium circulates in circulation canal.
Control module control solenoid directional control valve switches aircondition between refrigeration mode or heating mode.
Particularly; Solenoid directional control valve can be threeway four-way solenoid directional control valve; Control module is through the control solenoid directional control valve; Thereby change the connected mode of compressor 122 in circulation canal, thereby change the flow direction of cold-producing medium in circulation canal, also just having controlled aircondition is refrigeration mode or heating mode.How to pass through the control solenoid directional control valve, change the connected mode of compressor 122 in circulation canal, be well known to those skilled in the art, repeat no more here thereby change the flow direction of cold-producing medium in circulation canal.
When control module control solenoid directional control valve, make the direction that cold-producing medium flows in circulation canal be: when the direction of second heat exchanger 123 flowed, aircondition was to air-conditioning demand space refrigeration from compressor 122, and promptly the mode of operation of aircondition is a refrigeration mode.Under refrigeration mode, the mode of operation of aircondition is: freeze through 121 pairs of air-conditioning demand spaces of first heat exchanger; Through the water release heat of second heat exchanger 123 in heat exchange tank 102.The working method of the aircondition under the refrigeration mode, and the method for the hot water output port of control module control heat exchange tank and the valve of cold water input port repeats no more with the same described in the embodiment one here.
When control module control solenoid directional control valve, make the direction that cold-producing medium flows in circulation canal be: when the direction of first heat exchanger 121 flowed, aircondition heated the air-conditioning demand space from compressor 122, and promptly the mode of operation of aircondition is a heating mode.Under heating mode, the mode of operation of aircondition is: heat through 121 pairs of air-conditioning demand spaces of first heat exchanger; Absorb the heat of water in the heat exchange tank 102 through second heat exchanger 123.The working method of the aircondition under the heating mode, and the method for the hot water input port of control module control heat exchange tank and the valve of cold water delivery outlet repeats no more with the same described in the embodiment two here.
The embodiment of the invention three is because through control module control solenoid directional control valve; Make the total energy approach system between refrigeration mode and heating mode, to switch; And corresponding refrigeration mode or heating mode have corresponding energy conservation measure; Thereby energy savings when using a cover system can realize that freeze summer also can energy savings during winter heating.
The above only is a preferred implementation of the present invention; Should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; Can also make some improvement and retouching, these improvement and retouching also should be regarded as protection scope of the present invention.

Claims (10)

1. a total energy approach system comprises: air-conditioning demand space, heat exchange tank, hot water deposit device and aircondition, control module;
Said heat exchange tank is provided with cold water input port and hot water output port, communicates with cold water source, hot water deposit device respectively;
Said aircondition comprises: be arranged at first heat exchanger in the said air-conditioning demand space and be arranged at second heat exchanger in the said heat exchange tank; Said aircondition freezes to said air-conditioning demand space through first heat exchanger; Through the water release heat of second heat exchanger in said heat exchange tank;
Said control module is used to control the valve of said hot water output port and cold water input port, make water in the said heat exchange tank flow in the said hot water deposit device after, from said cold water source input water.
2. the system of claim 1 is characterized in that, also comprises:
Place the temperature sensor of said heat exchange tank, be used for detecting the temperature of said heat exchange tank water; And,
Said control module specifically is used for as if confirm the temperature of said temperature sensor detection greater than first setting value; Then: the valve of controlling said hot water output port and cold water input port; After making water in the said heat exchange tank flow in the said hot water deposit device, from said cold water source input water.
3. system as claimed in claim 2 is characterized in that said aircondition also comprises: solenoid directional control valve;
Said control module also is used to control said solenoid directional control valve, and said aircondition is switched between refrigeration mode or heating mode;
Said refrigeration mode refers to said aircondition and through first heat exchanger said air-conditioning demand space is freezed, through the mode of operation of the water release heat of second heat exchanger in said heat exchange tank;
Said control module specifically is used under said refrigeration mode; If the temperature of confirming said temperature sensor detection is greater than first setting value; Then: the valve of controlling said hot water output port and cold water input port; After making water in the said heat exchange tank flow into said hot water deposit device, be replaced by the water that flows into from said cold water source.
4. system as claimed in claim 3 is characterized in that, also comprises: the hot water gatherer; And said heat exchange tank also is provided with the cold water delivery outlet, and the hot water input port that communicates with said hot water gatherer;
Said heating mode refers to said aircondition and through first heat exchanger said air-conditioning demand space is heated, and absorbs the mode of operation of the heat of the water in the said heat exchange tank through second heat exchanger;
Said control module also is used under heating mode; If the temperature that the said temperature sensor of affirmation is put detection is less than second setting value; Then: the valve of controlling said hot water input port and cold water delivery outlet; After water in the said heat exchange tank is flowed out from said cold water delivery outlet, be replaced by the water that flows into from said hot water gatherer.
5. system as claimed in claim 4 is characterized in that, the water in the said hot water gatherer is the domestic water of the heat of recovery; Perhaps, the water in the said hot water gatherer absorbs the heat that is discharged into the oil smoke hot gas in the said hot water gatherer;
The said water that flow into said hot water deposit device is as the hot water of washing one's hands, washing the dishes or having a bath.
6. system as claimed in claim 5 is characterized in that, said aircondition also comprises: compressor, choke valve, cold-producing medium circulating line; Wherein, said compressor, first heat exchanger, choke valve, second heat exchanger link to each other through said cold-producing medium circulating line successively, constitute the circulation canal of the cold-producing medium of sealing;
Under said refrigeration mode:
Said compressor is used for said pressurizes refrigerant, gets into second heat exchanger after making cold-producing medium become the gaseous state of HTHP;
The second heat transfer equipment body is used for the said cold-producing medium of condensation liquefaction, makes said cold-producing medium become liquid, and the heat that said cold-producing medium is discharged is discharged in the water of said heat exchange tank;
Said choke valve is used for the cold-producing medium that flows out from second heat exchanger is reduced pressure, and makes said cold-producing medium become low-temp low-pressure liquid;
The said first heat transfer equipment body is used for absorbing the heat of said air-conditioning demand space, and the evaporation gasification makes said cold-producing medium become gaseous state from the cold-producing medium that said choke valve flows out, to said air-conditioning demand space refrigeration.
7. system as claimed in claim 6 is characterized in that, said aircondition is under said heating mode:
Said compressor is used for said pressurizes refrigerant, gets into first heat exchanger after making cold-producing medium become the gaseous state of HTHP;
The first heat transfer equipment body is used for the said cold-producing medium of condensation liquefaction, makes said cold-producing medium become liquid, and the heat of said cold-producing medium release is discharged in the said air-conditioning demand space, and said air-conditioning demand space is heated;
Said choke valve is used for the cold-producing medium that flows out from first heat exchanger is reduced pressure, and makes said cold-producing medium become low-temp low-pressure liquid;
The second heat transfer equipment body is used for absorbing the heat of said heat exchange tank water, and the evaporation gasification makes said cold-producing medium become gaseous state from the cold-producing medium that said choke valve flows out.
8. a total energy approach system comprises: air-conditioning demand space, heat exchange tank, hot water gatherer and aircondition, control module;
Said heat exchange tank is provided with the cold water delivery outlet, and the hot water input port that communicates with said hot water gatherer;
Said aircondition comprises: be arranged at first heat exchanger in the said air-conditioning demand space and be arranged at second heat exchanger in the said heat exchange tank; Said aircondition heats said air-conditioning demand space through first heat exchanger; Absorb the heat of the water in the said heat exchange tank through second heat exchanger;
Said control module is used to control the valve of said hot water input port and cold water delivery outlet, water in the said heat exchange tank is flowed out from said cold water delivery outlet after, be replaced by the water that flows into from said hot water gatherer.
9. system as claimed in claim 8 is characterized in that, also comprises:
Place the temperature sensor of said heat exchange tank, be used for detecting the temperature of said heat exchange tank water; And,
Said control module specifically is used for as if confirm the temperature of said temperature sensor detection less than setting value; Then: the valve of controlling said hot water input port and cold water delivery outlet; After water in the said heat exchange tank is flowed out from said cold water delivery outlet, be replaced by the water that flows into from said hot water gatherer.
10. system as claimed in claim 9 is characterized in that, the water in the said hot water gatherer is the domestic water of the heat of recovery; Perhaps, the water in the said hot water gatherer absorbs the heat that is discharged into the oil smoke hot gas in the said hot water gatherer.
CN201210023429.3A 2012-02-02 2012-02-02 Comprehensive utilization system of energy CN102778012B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201210023429.3A CN102778012B (en) 2012-02-02 2012-02-02 Comprehensive utilization system of energy

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201210023429.3A CN102778012B (en) 2012-02-02 2012-02-02 Comprehensive utilization system of energy

Publications (2)

Publication Number Publication Date
CN102778012A true CN102778012A (en) 2012-11-14
CN102778012B CN102778012B (en) 2015-04-01

Family

ID=47123021

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201210023429.3A CN102778012B (en) 2012-02-02 2012-02-02 Comprehensive utilization system of energy

Country Status (1)

Country Link
CN (1) CN102778012B (en)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105674628A (en) * 2016-04-12 2016-06-15 李锡敏 Bathing bed waste water afterheat source and air-conditioner hot water integrated machine and using method thereof
CN109764554A (en) * 2019-01-09 2019-05-17 青岛海尔空调器有限总公司 Energy resource system, the control method and device of energy resource system, storage medium
CN109757921A (en) * 2019-01-09 2019-05-17 青岛海尔空调器有限总公司 Energy resource system, the control method and device of energy resource system, storage medium
CN109764546A (en) * 2019-01-09 2019-05-17 青岛海尔空调器有限总公司 A kind of control method of energy resource system
CN109764548A (en) * 2019-01-09 2019-05-17 青岛海尔空调器有限总公司 Energy resource system, the control method and device of energy resource system, storage medium
CN109764550A (en) * 2019-01-09 2019-05-17 青岛海尔空调器有限总公司 A kind of control method of energy resource system
CN109885110A (en) * 2019-01-09 2019-06-14 青岛海尔空调器有限总公司 A kind of control method of energy resource system
CN109907581A (en) * 2019-01-09 2019-06-21 青岛海尔空调器有限总公司 A kind of control method of energy resource system
CN110108011A (en) * 2019-04-19 2019-08-09 蔡佳姝 A kind of split-type air conditioner heat recovery system and its application method

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1984002386A1 (en) * 1982-12-07 1984-06-21 Viuff Carl Johan Kofod Finnema An air-conditioning plant
US5937663A (en) * 1997-12-23 1999-08-17 Yang Fan Development Co., Ltd. Multipurpose heat pump system
CN101696816A (en) * 2009-09-11 2010-04-21 青岛光和阳光环保节能科技有限公司 Wall mounting type air conditioner water heater
CN101968242A (en) * 2009-07-28 2011-02-09 李代繁 Energy-saving environmental-friendly heat-supply brand new wind air conditioner
CN202470329U (en) * 2012-02-02 2012-10-03 苟仲武 Energy comprehensive utilization system

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1984002386A1 (en) * 1982-12-07 1984-06-21 Viuff Carl Johan Kofod Finnema An air-conditioning plant
US5937663A (en) * 1997-12-23 1999-08-17 Yang Fan Development Co., Ltd. Multipurpose heat pump system
CN101968242A (en) * 2009-07-28 2011-02-09 李代繁 Energy-saving environmental-friendly heat-supply brand new wind air conditioner
CN101696816A (en) * 2009-09-11 2010-04-21 青岛光和阳光环保节能科技有限公司 Wall mounting type air conditioner water heater
CN202470329U (en) * 2012-02-02 2012-10-03 苟仲武 Energy comprehensive utilization system

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105674628A (en) * 2016-04-12 2016-06-15 李锡敏 Bathing bed waste water afterheat source and air-conditioner hot water integrated machine and using method thereof
CN105674628B (en) * 2016-04-12 2018-05-11 李锡敏 Bath bed waste water residual heat source air-conditioning hot water integrated machine and its application method
CN109764554A (en) * 2019-01-09 2019-05-17 青岛海尔空调器有限总公司 Energy resource system, the control method and device of energy resource system, storage medium
CN109757921A (en) * 2019-01-09 2019-05-17 青岛海尔空调器有限总公司 Energy resource system, the control method and device of energy resource system, storage medium
CN109764546A (en) * 2019-01-09 2019-05-17 青岛海尔空调器有限总公司 A kind of control method of energy resource system
CN109764548A (en) * 2019-01-09 2019-05-17 青岛海尔空调器有限总公司 Energy resource system, the control method and device of energy resource system, storage medium
CN109764550A (en) * 2019-01-09 2019-05-17 青岛海尔空调器有限总公司 A kind of control method of energy resource system
CN109885110A (en) * 2019-01-09 2019-06-14 青岛海尔空调器有限总公司 A kind of control method of energy resource system
CN109907581A (en) * 2019-01-09 2019-06-21 青岛海尔空调器有限总公司 A kind of control method of energy resource system
CN109764550B (en) * 2019-01-09 2021-01-29 青岛海尔空调器有限总公司 Control method of energy system
CN110108011A (en) * 2019-04-19 2019-08-09 蔡佳姝 A kind of split-type air conditioner heat recovery system and its application method
CN110108011B (en) * 2019-04-19 2021-03-19 西安交通大学 Heat recovery system of split air conditioner and use method thereof

Also Published As

Publication number Publication date
CN102778012B (en) 2015-04-01

Similar Documents

Publication Publication Date Title
US10197306B2 (en) Heat pump system, heat pump unit using the same, and method for controlling multiple functional modes thereof
CN102767876B (en) Heat pump heat recovery air-conditioning unit
CN103090485B (en) Air conditioning system for restaurant
CN102679482B (en) Heat recovery multiplex system based on variable-frequency air conditioner and control method thereof
CN103574758B (en) Air-conditioner system and Defrost method thereof
CN101476760B (en) Multi-heat source dwelling house comfortable integration system based on solar energy
CN202709311U (en) Air conditioner system
CN102645060B (en) Multi-split air conditioning system
CN201028884Y (en) Multi-link air-conditioning unit for meanwhile refrigerating, heating and producing hot water
CN102155820B (en) Multipurpose air-conditioner hot water system
CN203837171U (en) Heat pump system for fan coil and heat recovery fresh-air conditioning unit
CN101839585B (en) Solar energy-air source heat pump composite system suitable for microthermal climate
CN201081367Y (en) Heat-recovery geothermal heat pump
CN204923448U (en) Air conditioner hot -water heating system
CN101813401B (en) Energy-saving air-conditioning/hot water triple-supply system
CN104613668A (en) Combined air-conditioning system as well as control method thereof
CN104964371A (en) Combined air-conditioning system
CN101893293B (en) Centralized multi-connected cold (heat) source central air conditioning system
CN204438368U (en) A kind of water source heat pump air conditioning system
CN101358761B (en) Thermal recovery type geothermal heat pump air conditioning system for file storeroom
CN102494442B (en) Direct expansion type mine return air source heat pump system and operation method thereof
CN104990174B (en) Direct-expansion type geomantic omen cold air conditioning system
CN102829589B (en) Air conditioning system with defroster and central air conditioning hot water system
CN100559096C (en) But a kind of water source heat pump units of automatically backwashing sewage water
CN101871706A (en) Phase-change energy-storage heat pump water heater

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
TR01 Transfer of patent right
TR01 Transfer of patent right

Effective date of registration: 20180820

Address after: 100193 Room 302, unit 2, Yuet Xiu Road, Haidian District, Beijing 302

Patentee after: Beijing Jiayong Sheng Bo Technology Co., Ltd.

Address before: 730000 No. 222 Jiayuguan West Road, Chengguan District, Lanzhou, Gansu

Patentee before: Gou Zhongwu

Effective date of registration: 20180820

Address after: 100193 Room 302, unit 2, Yuet Xiu Road, Haidian District, Beijing 302

Patentee after: Beijing Jiayong Sheng Bo Technology Co., Ltd.

Address before: 730000 No. 222 Jiayuguan West Road, Chengguan District, Lanzhou, Gansu

Patentee before: Gou Zhongwu

CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20150401

Termination date: 20200202