CN205939690U - Refrigerating plant heat utilization is to circulation system of water heater - Google Patents

Abstract

The utility model provides a refrigerating plant heat utilization is to circulation system of water heater belongs to environmental protection internet technology field, include: water storage device, refrigerating plant, water reticulation system and heat exchange device, the water reticulation system communicates through first inlet tube with water storage device be provided with collateral branch's outlet pipe of water valve intercommunication on the first inlet tube. The utility model discloses a first liquid supercharging device, with the water storage device water -logging, through the leading -in heat exchange device of third outlet pipe, the water after the heat exchange flows in water storage device from the fourth wet return, after having realized like this passing through heat exchange device with the extravagant heat energy of refrigerating plant, with its heat energy make full use of, promote the temperature of the water in the water storage device, can satisfy the needs that the one family bathe, can help the radiating while of refrigerating plant like this, also can come the hot -water heating with water storage device by the unnecessary heat energy of make full use of, reach energy saving and emission reduction's purpose.

Description

Refrigerating plant heat energy utilization to water heater the circulatory system

Technical field

The utility model is related to environmental protection and energy saving technical field, especially relates to a kind of refrigerating plant heat energy utilization to water heater The circulatory system.

Background technology

Refrigerator is to maintain a kind of refrigeration plant of constant low temperature, is also that one kind makes food or other article keep constant low temperature The product for civilian use of cold conditions.There are compressor, ice machine in order to the cabinet that freezes or case, the hutch with refrigerating plant in casing.

During refrigeration for refrigerator, condenser can give out substantial amounts of heat energy, and this heat energy is typically all wasted in sky In gas, in especially summer, ambient temperature is high, and refrigerator needs more refrigeration, and same condenser is also also required to shed more Heat energy in atmosphere, not only slatterning in vain, also increase the temperature of interior.

Electric heater refers to the water heater being heated using electricity as the energy；Electric heater needs with substantial amounts of electric energy to water Heated up, so met the needs that people's routine use hot water is had a bath.

There are refrigerator and electric heater in general family；The heat energy wasting refrigerator is needed to need heat energy to enter with electric heater Row transmission, so can efficiently solve thermal waste and the big problem of electric heater power consumption.

Utility model content

The purpose of this utility model is to provide refrigerating plant heat energy utilization to the circulatory system of water heater, existing to solve The heat energy of refrigerating plant present in technology waste can not make full use of, the electric heater excessive technology of power consumption of heating up water is asked Topic.

The utility model provide a kind of refrigerating plant heat energy utilization to water heater the circulatory system, including：Water storage device, Refrigerating plant, water reticulation system and heat-exchange device；

Described water reticulation system is connected by the first water inlet pipe with water storage device, is provided with water valve on described first water inlet pipe Collateral branch's outlet pipe of connection；The second outlet pipe connecting water storage device is provided with described water valve；

The 3rd outlet pipe connecting heat-exchange device is provided with described water storage device, another in described heat-exchange device One end is provided with the 4th return pipe, and described 4th return pipe is connected with described second outlet pipe；

The first condenser pipe connecting respectively at refrigerating plant and the second condenser pipe are provided with described heat exchanger；Described It is provided with first liquid supercharging device on 3rd outlet pipe.

Further, described heat-exchange device includes the first coil pipe, the second coil pipe and the 3rd coil pipe；Described 3rd coil pipe two End is connected to the 3rd outlet pipe and the 4th return pipe；Described second coil pipe two ends are connected to the second condenser pipe and first Condenser pipe；Described first coil pipe two ends are connected to the first branched pipe and second branched pipe；Described first branched pipe with described 3rd outlet pipe connection, described second branched pipe is connected with described 4th return pipe.

Further, described second coil pipe is enclosed within outside described first coil pipe, and described 3rd coil pipe is set in described second disk Pipe is outer.

Further, described first coil pipe is located in the cavity that described second coil pipe is formed；Described second coil pipe is located at institute State in the cavity that the 3rd coil pipe is formed.

Further, also include：Heat exchanger, described heat exchanger is provided with described second outlet pipe；Described Cooling-water temperature sensor and water flow sensing unit are provided with two outlet pipes, described cooling-water temperature sensor is arranged on heat exchanger and water storage device Between the second outlet pipe on；Described water flow sensing unit is arranged on the second outlet pipe between described heat exchanger and water valve.

Further, described cooling-water temperature sensor is connected with compressor, and described compressor and described heat exchanger pass through to exchange Pipe is connected, and described heat exchanger one end is connected with evaporimeter by exchanging pipe；Described evaporimeter is connected with described compressor.

Further, also include the 5th circulation pipe, described 5th circulation pipe one end is connected to cooling-water temperature sensor and heat exchange On the second outlet pipe between device, the other end is connected with described first water inlet pipe.

Further, described 5th circulation pipe is provided with magnetic valve.

Further, described 5th circulation pipe is provided with second liquid supercharging device.

Further, described water storage device be electric heater, kitchen treasured in one or more, described refrigerating plant be ice In case, air-conditioning, refrigerator-freezer one or more.

The refrigerating plant heat energy utilization that the utility model provides, to the circulatory system of water heater, is pressurized dress by first liquid Put, water in water storage device imports heat-exchange device by the 3rd outlet pipe, the water after heat exchange is from the 4th return pipe stream Enter water storage device；It has been achieved in that the heat energy wasting refrigerating plant, after heat-exchange device, its heat energy is made full use of, will The temperature lifting of the water in water storage device；60 liters in water storage device of water can be heated to more than 40 DEG C by refrigerating plant, can Meet the needs that one family has a bath；So can help while refrigerating plant radiating it is also possible to make full use of unnecessary heat energy By the water heating of water storage device, reach the purpose of energy-saving and emission-reduction.

Brief description

In order to be illustrated more clearly that the utility model specific embodiment or technical scheme of the prior art, below will be right In specific embodiment or description of the prior art the accompanying drawing of required use be briefly described it should be apparent that, below describe In accompanying drawing be some embodiments of the present utility model, for those of ordinary skill in the art, do not paying creativeness On the premise of work, other accompanying drawings can also be obtained according to these accompanying drawings.

The refrigerating plant heat energy utilization that Fig. 1 provides for the utility model embodiment shows to the structure of the circulatory system of water heater It is intended to；

Fig. 2 is that the structure of the heat-exchange device to the circulatory system of water heater for the refrigerating plant heat energy utilization shown in Fig. 1 is shown It is intended to；

Fig. 3 is the coil pipe of heat-exchange device to the circulatory system of water heater for the refrigerating plant heat energy utilization shown in Fig. 2 Mounting structure schematic diagram.

Reference：

1- water storage device；2- water valve；3- first water inlet pipe；

4- collateral branch outlet pipe；5- second outlet pipe；6- second condenser pipe；

7- refrigerating plant；8- first condenser pipe；9- the 3rd outlet pipe；

10- first liquid supercharging device；11- the 4th return pipe；12- heat-exchange device；

13- cooling-water temperature sensor；14- heat exchanger；15- water flow sensing unit；

16- second liquid supercharging device；17- magnetic valve；18- evaporimeter；

19- compressor；20- the 3rd coil pipe；21- second coil pipe；

22- first coil pipe；23- first branched pipe；24- second branched pipe；

25- the 5th circulation pipe.

Specific embodiment

Below in conjunction with accompanying drawing, the technical solution of the utility model is clearly and completely described it is clear that described Embodiment is a part of embodiment of the utility model, rather than whole embodiments.Based on the embodiment in the utility model, this The every other embodiment that field those of ordinary skill is obtained under the premise of not making creative work, broadly falls into this practicality Novel protected scope.

In description of the present utility model, " " center ", " on ", D score, "left", "right", " perpendicular it should be noted that term Directly ", the orientation of instruction such as " level ", " interior ", " outward " or position relationship are based on orientation shown in the drawings or position relationship, are only For the ease of description the utility model with simplify description, rather than instruction or the hint device of indication or element must have specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.Additionally, term " the One ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that indicating or hint relative importance.

In description of the present utility model, it should be noted that unless otherwise clearly defined and limited, term " peace Dress ", " being connected ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or integratedly Connect；Can be to be mechanically connected or electrically connect；Can be to be joined directly together it is also possible to be indirectly connected to by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning in the utility model for the language.

The refrigerating plant heat energy utilization that Fig. 1 provides for the utility model embodiment shows to the structure of the circulatory system of water heater It is intended to；Fig. 2 is the structural representation of the heat-exchange device to the circulatory system of water heater for the refrigerating plant heat energy utilization shown in Fig. 1 Figure；Fig. 3 is the installation knot of the coil pipe of heat-exchange device to the circulatory system of water heater for the refrigerating plant heat energy utilization shown in Fig. 2 Structure schematic diagram.

As Figure 1-3, a kind of refrigerating plant 7 heat energy utilization that the present embodiment provides, to the circulatory system of water heater, wraps Include：Water storage device 1, refrigerating plant 7, water reticulation system and heat-exchange device 12；

Water reticulation system is connected by the first water inlet pipe 3 with water storage device 1, is provided with water valve 2 and connects on the first water inlet pipe 3 Collateral branch's outlet pipe 4；The second outlet pipe 5 connecting water storage device 1 is provided with water valve 2；

The 3rd outlet pipe 9 connecting heat-exchange device 12 is provided with water storage device 1, another in heat-exchange device 12 End is provided with the 4th return pipe 11, and the 4th return pipe 11 is connected with the second outlet pipe 5；

The first condenser pipe 8 connecting respectively at refrigerating plant 7 and the second condenser pipe 6 are provided with heat exchanger 14；? It is provided with first liquid supercharging device 10 on three outlet pipes 9.

In the present embodiment, water reticulation system is tap water pipe network system, and the first water inlet pipe 3 one end is connected to tap water pipe network In system, the other end accesses water storage device 1, so endlessly can provide running water in water storage device 1.

In the first water inlet pipe 3 Shang You collateral branch outlet pipe 4, collateral branch's outlet pipe 4 connecting with water valve 2, i.e. tap, is that tap carries For cold water；Second outlet pipe 5 is connected with tap, the second outlet pipe 5 connects water storage device 1, provides hot water for tap.

On water storage device 1, the 3rd outlet pipe 9 and the 4th return pipe 11 are connected on heat exchanger 14, so pass through the One liquid pressurizing apparatus 10 or water pump, by the 3rd outlet pipe 9 by the water in water storage device 1, by heat-exchange device 12 so as to after sufficient heat exchange, the water that temperature raises, then flows into water storage device 1 through the 4th return pipe 11；So can play Effect to heat-exchange device 12 cooling, raises the temperature of the water in water storage device 1 simultaneously.

By after high-temp liquid sufficient heat exchange in heat-exchange device 12, temperature obtains the first condenser pipe 8 on refrigerating plant 7 To the liquid reducing, flow back from the second condenser pipe 6；So can effectively increase the radiating effect of refrigerating plant 7, make full use of The heat energy of refrigerating plant 7.

As shown in Fig. 2 further, heat-exchange device 12 includes the first coil pipe 22, the second coil pipe 21 and the 3rd coil pipe 20； 3rd coil pipe 20 two ends are connected to the 3rd outlet pipe 9 and the 4th return pipe 11；Second coil pipe 21 two ends are connected to Two condenser pipes 6 and the first condenser pipe 8；First coil pipe 22 two ends are connected to the first branched pipe 23 and second branched pipe 24；The One branched pipe 23 is connected with the 3rd outlet pipe 9, and second branched pipe 24 is connected with the 4th return pipe 11.

In the present embodiment, cold water is imported the 3rd coil pipe 20 and by the first branched pipe 23 by cold water by the 3rd outlet pipe 9 Import the first coil pipe 22, the high-temp liquid in refrigerating plant 7 imports in the second coil pipe 21 by the first condenser pipe 8, such warp Cross sufficient heat exchange so as to the water after heating up is from the 4th return pipe 11 flowing water water storage device 1；And high-temp liquid is through subcooled water After cooling, flow back in refrigerating plant 7 from the second condenser pipe 6.

As shown in figure 3, further, the second coil pipe 21 is enclosed within outside the first coil pipe 22, and the 3rd coil pipe 20 is set in the second disk Outside pipe 21.

In the present embodiment, the internal diameter of the second coil pipe 21 is more than the external diameter of the first coil pipe 22, and the first coil pipe 22 is arranged on the In two coil pipes 21, the internal diameter of the 3rd coil pipe 20 is more than the external diameter of the second coil pipe 21, and the second coil pipe 21 is arranged in the 3rd coil pipe 20； There is high-temp liquid to pass through in such second coil pipe 21, and have cold water to flow through in the first coil pipe 22 and the 3rd coil pipe 20, so can Sufficiently carry out heat exchange so as to the effect of heat exchange is more preferable, high-temp liquid temperature after heat exchange is lower, and cold water is through overheated After exchange, the temperature of liter is higher.

Further, the first coil pipe 22 is located in the cavity that the second coil pipe 21 is formed；Second coil pipe 21 is located at the 3rd coil pipe In the cavity of 20 formation.

The diameter of the whole helix tube of the first coil pipe 22 adopting in the present embodiment is less than the helix tube of the second coil pipe 21 Diameter, such first coil pipe 22 is inserted in the cavity of helix tube formation of the second coil pipe 21, equally, the second coil pipe 21 The diameter of helix tube is less than the diameter of the helix tube of the 3rd coil pipe 20, and such second coil pipe 21 is inserted into the 3rd coil pipe 20 In cavity；Such first coil pipe 22 passes through cold water in the second coil pipe 21, and the 3rd coil pipe 20 passes through cold water outside the second coil pipe 21, So in the inside and outside environment by a low temperature of the second coil pipe 21, be conducive to the high-temp liquid in the second coil pipe 21, with first Coil pipe 22 and the 3rd coil pipe 20 carry out heat exchange.

On above-described embodiment basis, further, also include：Heat exchanger 14, heat exchanger 14 is provided with Second outlet pipe 5；Cooling-water temperature sensor 13 and water flow sensing unit 15 are provided with the second outlet pipe 5, cooling-water temperature sensor 13 is arranged On the second outlet pipe 5 between heat exchanger 14 and water storage device 1；Water flow sensing unit 15 is arranged on heat exchanger 14 and water valve On the second outlet pipe 5 between 2.

In the present embodiment, the second outlet pipe 5 also has heat exchanger 14, when using hot water, pass through water temperature Whether flowing when sensor 13 monitoring water temperature and water flow sensing unit 15 monitoring current, that is, using hot water with by cooling-water temperature sensor 13 detect whether that hot water reaches enough problems；So can there is monitor in real time to the temperature of hot water, and then be adjusted expiring Sufficient user uses the demand of hot water.

On above-described embodiment basis, further, cooling-water temperature sensor 13 is connected with compressor 19, compressor 19 and Heat exchanger 14 passes through exchange pipe and is connected, and heat exchanger 14 one end is connected with evaporimeter 18 by exchanging pipe；Evaporimeter 18 and pressure Contracting machine 19 is connected.

Cooling-water temperature sensor 13 detect hot water temperature relatively low it is impossible to meet user use demand, by control compress Machine 19 is so as to the hot water in the second outlet pipe 5, again before water valve 2 outflow, first in heat exchanger 14, carries out sufficiently adding Heat is so as to the temperature of hot water raises, so that it disclosure satisfy that user uses the demand of hot water.

On above-described embodiment basis, further, also include the 5th circulation pipe 25, the 5th circulation pipe 25 one end It is connected on the second outlet pipe 5 between cooling-water temperature sensor 13 and heat exchanger 14, the other end is connected with the first water inlet pipe 3.

5th circulation pipe 25 one end connects on the second outlet pipe 5, and the other end connects the first water inlet pipe 3, when the second outlet pipe 5 When interior hot water is heated on heat exchanger 14, water storage device can be transferred heat to by the 5th circulation pipe 25 In 1.

On above-described embodiment basis, further, the 5th circulation pipe 25 is provided with magnetic valve 17.

When user uses hot water, hot water flows out from the second outlet pipe 5, because the 5th circulation pipe 25 is connected to second Outlet pipe 5 and the first water inlet pipe 3；In order to prevent the water in the first water inlet pipe 3, flow into the second outlet pipe 5 from the 5th circulation pipe 25 Afterwards, the water temperature of the hot water that impact user uses, needs to be blocked the 5th circulation pipe 25 when unwanted, follows the 5th Endless tube 25 solenoid 17 can play the effect dammed.

On above-described embodiment basis, further, the 5th circulation pipe 25 is provided with second liquid supercharging device 16.

Second liquid supercharging device 16 on the 5th circulation pipe 25 and magnetic valve 17 use cooperatively, when second liquid supercharging When device 16 starts, magnetic valve 17 also open；So second liquid supercharging device 16 can be by the second outlet pipe 5 Water, flows into the first water inlet pipe 3 by the 5th circulation pipe 25, thus being flowed in water storage device 1；In shedding of refrigerating plant 7 Water in water storage device 1 can not be increased to enough water temperatures, or frequent, the refrigerating plant using due to user by heat 7 do not have time enough to be increased to water temperature by heat-exchange device 12, the water temperature that user needs, and start second liquid supercharging Device 16, the water in such water storage device 1 flows in the second outlet pipe 5 after heat exchanger 14 heats, inflow the 5th circulation Pipe 25, then flow into water storage device 1 through the first water inlet pipe 3；So it is achieved that a new heating system, to ensure that water storage fills Put the water temperature in 1.

Based on above-described embodiment basis on, further, water storage device 1 be electric heater, kitchen treasured in a kind of or several Kind, refrigerating plant 7 is refrigerator, air-conditioning, in refrigerator-freezer one or more.

In the present embodiment, water storage device 1 adopts electric heater, and when when promoting, electric heater can also fill Point utilization, sewage draining exit on electric heater connects the 3rd outlet pipe 9, and water inlet connects the first water inlet pipe 3, and delivery port connects the Two delivery ports；So electric heater can perfectly replace water storage device 1, and its when hot water moreover it is possible to using refrigeration dress Put that 7, air can heat and three kinds of electric heater carries out ultrafast heating.

Water storage device 1 is to be the precious one kind of electric heater and kitchen, it would however also be possible to employ it is right that electric heater and kitchen treasured etc. need The device of cool water heating is connected；So being capable of significantly energy-saving and emission-reduction.

Refrigerating plant 7 adopts refrigerator, and refrigerator is usually 24 hours normally opened states in the family, it would however also be possible to employ air-conditioning, Because air-conditioning is not normally open it is impossible to meet the needs of heated in real-time；Can also be by refrigeration plants such as refrigerator, refrigerator-freezer, air-conditionings It is used in series.

Especially hotel, mansion etc. have the place of central air-conditioning, and Long-Time Service air-conditioning is local, by air-conditioning condenser and needs Heating water storage device 1 by coil pipe form heat-exchange device 12, by air-conditioning need radiating waste heat, for for hotel with Mansion provides hot water, so can lift the refrigeration of the local air-conditioning such as hotel it is also possible to reduce the consumption of electric energy, and can To make full use of the heat of the condenser of air-conditioning, carry out water is heated, in the case of same water consumption, confession is greatly lowered Electric energy needed for hot water, considerably reduces the consumption of the energy.

Refrigerating plant 7 heat energy utilization that the utility model provides, to the circulatory system of water heater, is pressurized by first liquid Device 10, the water in water storage device 1 imports heat-exchange device 12 by the 3rd outlet pipe 9, and the water after heat exchange is from the Four return pipe 11 flows into water storage device 1；It has been achieved in that the heat energy wasting refrigerating plant 7 passes through after heat-exchange device 12, will Its heat energy makes full use of, by the temperature lifting of the water in water storage device 1；Refrigerating plant 7 can be by interior for water storage device 1 60 liters Water, is heated to more than 40 DEG C, disclosure satisfy that the needs that one family has a bath；While refrigerating plant 7 radiating so can be helped, Unnecessary heat energy can be made full use of heat the water of water storage device 1, reach the purpose of energy-saving and emission-reduction.

The high temperature pipe of the 3rd outlet pipe 9 on electric heater and refrigerator after heat exchange, the temperature of compressor 19 shell Degree can significantly reduce it is also possible to open plus heat-preservation cotton in compressor 19 shell；The loss reducing heat is so as to add to water Thermal effect is more preferable.

To carry out water is heated using the heat energy of refrigerating plant 7, when sometimes using hot water, to have little time to wait hot water Reach and use temperature, or amount of hot water is excessive, have little time to produce, through over-heat-exchanger 14 to be heated again, that is, pass through Compressor 19 can carry out the hot water inadequate to temperature through air and be heated again, thus reaching the demand of user's use, thus Solve to be badly in need of the demand of hot water, refrigerating plant 7 can also be controlled simultaneously, allow the compressor 19 of its refrigerating plant 7 to be operated, from And reaching is faster to meet the demand that user uses hot water；Water storage device 1, if electric heater, also can directly allow electric heater Oneself heating, if kitchen treasured it is also possible to rely on the kitchen treasured heater of oneself to heat to oneself.

Even if be in water storage device 1 coolant-temperature gage relatively low when it is impossible to meet the needs that user uses hot water, in water through logical Cross the second outlet pipe 5 when water valve 2 flows out, due to first passing through heat exchanger 14, only carry out heat friendship in heat exchanger 14 After changing, the temperature of the water flowing out from water valve 2, user can be reached using the temperature needing；Water heats in heat exchanger 14 Just used immediately afterwards, be so prevented from the hot water after heating during depositing, dissipated heat；Efficiently heat is handed over simultaneously Parallel operation 14 is realized heating at any time and is used at any time, so disclosure satisfy that user has the demand that hot water uses for 24 hours at any time, simultaneously Also power consumption can be reduced.

Finally it should be noted that：Various embodiments above is only in order to illustrating the technical solution of the utility model, rather than it is limited System；Although being described in detail to the utility model with reference to foregoing embodiments, those of ordinary skill in the art should Understand：It still can be modified to the technical scheme described in foregoing embodiments, or to wherein some or all of Technical characteristic carries out equivalent；And these modifications or replacement, do not make the essence of appropriate technical solution depart from this practicality new The scope of type each embodiment technical scheme.

Claims (10)

1. a kind of refrigerating plant heat energy utilization is to the circulatory system of water heater it is characterised in that including：Water storage device, refrigeration dress Put, water reticulation system and heat-exchange device；

Described water reticulation system is connected by the first water inlet pipe with water storage device, is provided with water valve connection on described first water inlet pipe Collateral branch's outlet pipe；The second outlet pipe connecting water storage device is provided with described water valve；

The 3rd outlet pipe connecting heat-exchange device is provided with described water storage device, in the other end of described heat-exchange device It is provided with the 4th return pipe, described 4th return pipe is connected with described second outlet pipe；

The first condenser pipe connecting respectively at refrigerating plant and the second condenser pipe are provided with described heat exchanger；The described 3rd First liquid supercharging device is provided with outlet pipe.

2. refrigerating plant heat energy utilization according to claim 1 is to the circulatory system of water heater it is characterised in that described heat Switch includes the first coil pipe, the second coil pipe and the 3rd coil pipe；Described 3rd coil pipe two ends are connected to the 3rd outlet pipe With the 4th return pipe；Described second coil pipe two ends are connected to the second condenser pipe and the first condenser pipe；Described first coil pipe two End is connected to the first branched pipe and second branched pipe；Described first branched pipe is connected with described 3rd outlet pipe, and described Two branched pipes are connected with described 4th return pipe.

3. refrigerating plant heat energy utilization according to claim 2 is to the circulatory system of water heater it is characterised in that described Two coil pipes are enclosed within outside described first coil pipe, and described 3rd coil pipe is set in outside described second coil pipe.

4. refrigerating plant heat energy utilization according to claim 2 is to the circulatory system of water heater it is characterised in that described One coil pipe is located in the cavity that described second coil pipe is formed；Described second coil pipe is located in the cavity that described 3rd coil pipe is formed.

5. refrigerating plant heat energy utilization according to claim 3 is to the circulatory system of water heater it is characterised in that also wrapping Include：Heat exchanger, described heat exchanger is provided with described second outlet pipe；Water temperature is provided with described second outlet pipe pass Sensor and water flow sensing unit, described cooling-water temperature sensor is arranged on the second outlet pipe between heat exchanger and water storage device；Institute State water flow sensing unit to be arranged on the second outlet pipe between described heat exchanger and water valve.

6. refrigerating plant heat energy utilization according to claim 5 is to the circulatory system of water heater it is characterised in that described water Temperature sensor is connected with compressor, and described compressor passes through exchange pipe with described heat exchanger and is connected, described heat exchanger one end It is connected with evaporimeter by exchanging pipe；Described evaporimeter is connected with described compressor.

7. refrigerating plant heat energy utilization according to claim 6 is to the circulatory system of water heater it is characterised in that also including 5th circulation pipe, described 5th circulation pipe one end is connected on the second outlet pipe between cooling-water temperature sensor and heat exchanger, separately One end is connected with described first water inlet pipe.

8. refrigerating plant heat energy utilization according to claim 7 is to the circulatory system of water heater it is characterised in that described It is provided with magnetic valve on 5th circulation pipe.

9. refrigerating plant heat energy utilization according to claim 8 is to the circulatory system of water heater it is characterised in that described Second liquid supercharging device is provided with five circulation pipes.

10. the refrigerating plant heat energy utilization according to any one of claim 1-9 to water heater the circulatory system, its feature Be, described water storage device is electric heater, in the treasured of kitchen one or more, described refrigerating plant is refrigerator, air-conditioning, in refrigerator-freezer One or more.