CN205957539U - Air source heat pump supplies boiling water equipment and heat transfer device thereof - Google Patents

Abstract

The utility model provides an air source heat pump supplies boiling water equipment and heat transfer device thereof, this air source heat pump supply boiling water equipment to include: evaporimeter, vapour and liquid separator, compressor, heat transfer device, liquid storage pot and expansion valve, this heat transfer device include a plurality of heat transfer inner bags, have the spiral helicine heat exchange coil who supplies working media flow in every heat transfer inner bag, and the heat exchange coil in each heat transfer inner bag establishes ties through first pipeline, and the liquid storage space in each heat transfer inner bag establishes ties to the tail end inner bag from the head end inner bag through the second pipeline. Because this heat transfer device includes the heat transfer inner bag that a plurality of series connection are got up, can make high temperature working medium and low warm water obtain heat transfer abundant and that go forward one by one to can obtain the high -temperature water up to 95 degrees centigrade, to show land has improved the energy quality of the high -temperature water that obtains.

Description

Air source heat pump supplies Water boiling equipment and its heat-exchanger rig

Technical field

The utility model is related to heat supply pump technical field, and more particularly to a kind of air source heat pump equipment supplies Water boiling equipment.

Background technology

The energy, has become as the focus of global concern.In China, the use of the energy has been mentioned and has concerned country's existence The strategic height of exhibition.China implements《Renewable Energy Law》, the energy source use of various properties obtain unprecedentedly concern and Pay attention to.

Be increasingly becoming today of people's focus of attention topic in energy crisis, low grade heat energy (as air heat energy) this Plant renewable high-grade energy, just gradually paid attention to by various countries, and just coming into our life, so development high temperature heat pump equipment is just Approved by people.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of air source heat pump to supply Water boiling equipment and its heat exchange dress Put, efficiently to utilize low grade heat energy (as air heat energy).

The technical scheme that the utility model solves above-mentioned technical problem is as follows：

A kind of heat-exchanger rig, this heat-exchanger rig includes multiple heat-exchange inner containers, has and supply Working fluid flow in each heat-exchange inner container Spiral helicine heat exchange coil, the heat exchange coil in each heat-exchange inner container is together in series by the first pipeline, with heat-conducting work medium The heat-exchange inner container that entrance is connected is referred to as head end inner bag, and the heat-exchange inner container being connected with the outlet of heat-conducting work medium is referred to as tail end inner bag；Often Also there is in individual heat-exchange inner container liquid storage space, inner bag is held to tail by the second pipeline in the liquid storage space in each heat-exchange inner container from the beginning End inner bag is together in series, and the liquid storage space of this head end inner bag is connected to high temperature water out, and the liquid storage space of this tail end inner bag connects To cold water inlet.

Described heat-exchanger rig, wherein, is additionally provided with temperature probing tube on this head end inner bag.

The technical scheme that the utility model solves above-mentioned technical problem also includes：

A kind of air source heat pump supplies Water boiling equipment it is characterised in that including：Evaporimeter, gas-liquid separator, compressor, on State heat-exchanger rig, fluid reservoir and expansion valve, in this fluid reservoir, store heat-conducting work medium, its output end connects the input of this expansion valve End；The input of this evaporimeter terminates the output end of this expansion valve, and the output end of this evaporimeter accesses this gas-liquid separator；This compression The input of machine terminates this gas-liquid separator, and the output of this compressor terminates the input of this heat-exchanger rig；This heat-exchanger rig defeated Go out to terminate the input of this fluid reservoir.

Described air source heat pump supplies Water boiling equipment, and wherein, the high temperature water out of this heat-exchanger rig is connected with heat insulation tank.

Described air source heat pump supplies Water boiling equipment, wherein, is additionally provided with temperature probing tube on this head end inner bag.

Described air source heat pump supplies Water boiling equipment, and wherein, this compressor is fully-closed vortex compressor or screw rod pressure Contracting machine.

Described air source heat pump supplies Water boiling equipment, and wherein, this heat-conducting work medium is freon.

Described air source heat pump supplies Water boiling equipment, wherein, arranges low voltage protection device for electrophonic on the input channel of this compressor, High voltage protector is arranged on the output channel of this compressor.

The beneficial effects of the utility model are：Using the utility model, when summer needing cooling, cooling apparatus input pipe Switch conduction on road and output channel, the switch on heat-exchanger rig input channel and output channel cuts out, from fluid reservoir output High-pressure working medium through expansion valve throttling action, be changed into low temperature (higher than outdoor temperature) low-voltage heat conducting working medium enter evaporimeter, This low-temp low-pressure working medium temperature to after air release heat reduces (less than room temperature) and enters gas-liquid separator, in gas-liquid separator Gaseous working medium after the compression of compressor, air pressure raises but temperature is still below room temperature, enters cooling apparatus and simultaneously releases to interior The amount of letting cool, enters fluid reservoir afterwards, completes one cycle；When needing heating in the winter time, cooling apparatus input channel and efferent duct Switch on road cuts out, the switch conduction on heat-exchanger rig input channel and output channel, from the high-pressure working medium of fluid reservoir output Through the throttling action of expansion valve, it is changed into low temperature (less than outdoor temperature) low pressure working fluid and enters evaporimeter, this low-temp low-pressure heat conduction Working medium temperature to after air released cold quantity raises (higher than room temperature) and enters gas-liquid separator, the gaseous state heat conduction in gas-liquid separator After the compression of compressor, air pressure raises working medium and temperature is higher than room temperature, enters heat-exchanger rig and to indoor release heat, it Enter fluid reservoir afterwards, complete a heating cycle.During the summer cooling and Winter heat supply of this system, the aperture of expansion valve Exported the temperature control of heat-conducting work medium by evaporimeter, so that the heat-conducting work medium temperature of expansion valve and evaporimeter output meets Require.It can be seen that, the utility model, as the Intergration system having summer cooling and heat supply in winter function concurrently, need not arrange outdoor pipe Road can meet room temperature lowering and the demand of heating, also just substantially will not waste the energy out of doors.

The high temperature heat pump equipment that the utility model is related to, general principle is also Carnot cycle theory in classical thermodynamics, but The know-why proposing and fine technical strategies, creatively solve technical barrier.Using efficient condensing heating structure, Do not change working medium, do not reducing " Energy Efficiency Ratio ", on the premise of not damaging compressor, the leaving water temperature of single-stage heat pump is brought up to 95 More than DEG C, the utility model is compared with traditional heat pump, although the quantity producing heat energy does not increase, energy figure obtains Lifting, is that the application in the field that heats for the heat-pump apparatus opens wide prospect, is the great discovery that " low-grade heat " is applied.

Brief description

Fig. 1 be the utility model proposes a kind of air source heat pump supply Water boiling equipment an embodiment structure chart；

Fig. 2, Fig. 3 are the planar structure schematic diagram of heat-exchanger rig and its side view in the utility model.

Description of reference numerals：Evaporimeter 101, gas-liquid separator 102, compressor 103, heat-exchanger rig 104, filter 105, Fluid reservoir 106, expansion valve 108, liquid visor 109, device for drying and filtering 110, low voltage protection device for electrophonic 113, high voltage protector 114, cold water Entrance 115, high temperature water out 116, heat insulation tank 118, condensers in series 141, casing 20, heat-exchange inner container 21, heat exchange coil 22, the One pipeline 23, liquid storage space 24, the second pipeline 25, temperature probing tube 26.

Specific embodiment

Below in conjunction with accompanying drawing, principle of the present utility model and feature are described, example is served only for explaining this practicality New, it is not intended to limit scope of the present utility model.

The utility model proposes a kind of air source heat pump supplies Water boiling equipment, as shown in figure 1, main include：Evaporimeter 101st, gas-liquid separator 102, compressor 103, heat-exchanger rig 104, fluid reservoir 106 and expansion valve 108.This heat-exchanger rig 104 can The water to be used to user has heating function, is capable of hot water, boiling water supplying functional simultaneously.

As shown in figure 1, storing heat-conducting work medium in this fluid reservoir 106, its output end connects the input of this expansion valve 108 End；The input of this evaporimeter 101 terminates the output end of this expansion valve 108, and the output end of this evaporimeter 101 accesses this gas-liquid separation Device 102；The input of this compressor 103 terminates this gas-liquid separator 102, and the output of this compressor 103 terminates this heat-exchanger rig 104 Input；The output of this heat-exchanger rig 104 terminates the input of this fluid reservoir 106.

As shown in figure 1, this heat-exchanger rig 104 is provided with cold water inlet 115 and high temperature water out 116, this cold water inlet 115 can Flow into after filtering for water at low temperature (as running water), this high temperature water out 116 is available for warm water (as 55-95 degree Celsius) and flows out, should High temperature water out 116 is connected with heat insulation tank 118, and sets a switch on this high temperature water out 116, with this heat insulation tank 118 The hot water of middle storage predetermined temperature.

As shown in Figure 2 and Figure 3, be heat-exchanger rig 104 in the utility model structural representation, it include casing 20 with And it is fixed on multiple heat-exchange inner containers 21 in casing 20, have spiral helicine for heat-exchange working medium flowing in each heat-exchange inner container 21 Heat exchange coil 22, the heat exchange coil 22 in each heat-exchange inner container 21 is together in series by the first pipeline 23, referred herein to high temperature work The connected heat-exchange inner container 21 of matter (working medium import) is referred to as head end inner bag, the heat-exchange inner container 21 being connected with cryogenic fluid (sender property outlet) Referred to as tail end inner bag；In each heat-exchange inner container 21, also there is liquid storage space 24, the liquid storage space 24 in each heat-exchange inner container 21 leads to Cross the second pipeline 25 to be together in series to tail end inner bag from head end inner bag, this head end inner bag is connected to this high temperature water out 116, should Tail end inner bag is connected to this cold water inlet 115.This head end inner bag is additionally provided with temperature probing tube 26, for measuring in this head end inner bag Liquid storage space 24 in hot water temperature.

When utility model works, by the lasting acting of compressor 103, by the low-heat in air-source from evaporimeter Absorb working medium at 101, then water at low temperature is delivered to by heat-exchanger rig 104 and flow out so as to be changed into high-temperature water.Due to this reality Adopt unique cascaded structure with the heat-exchanger rig 104 in new, high temperature refrigerant and water at low temperature can be made to obtain fully and pass The heat exchange entered, such that it is able to obtain up to 95 degrees Celsius of high-temperature water, considerably improves the energy product of obtained high-temperature water Matter.

In the utility model, evaporimeter 101 is a kind of heat-exchange device, using air as the energy absorbing heat or cold Source, during summer, the heat of the heat-conducting work medium in evaporimeter 101 discharges to air, and heat conduction work during winter, in evaporimeter 101 Matter is then from outside atmosphere released cold quantity.

The heat-conducting work medium inputting is made a distinction by gas-liquid separator 102 according to the difference of state (gaseous state and liquid), liquid Heat-conducting work medium is located at gas-liquid separator 102 bottom, and gaseous state heat-conducting work medium is then located at gas-liquid separator 102 top.

Compressor 103 can adopt fully-closed vortex compressor or helical-lobe compressor, and plant capacity greatly enhances.

Heat-conducting work medium in the utility model can be freon.

Expansion valve 108 is a kind of throttling arrangement, and the temperature and pressure of the high-pressure working medium of input can be made all to reduce.

In order to ensure the normal work of compressor 103, low voltage protection device for electrophonic can also be arranged on compressor 103 input channel 113, high voltage protector 114 is arranged on compressor 103 output channel.

As can be seen here, by the use of the utility model as the Intergration system of function, you can meet indoor and outdoor hot-water supply, open The demand of water, therefore, the total energy-output ratio of the utility model is greatly reduced.And, the utility model simple installation, saving are empty Between, set structure is compact, good looking appearance, pollution-free, and floor space is little, is positioned over outdoor, need not set Special machine room.

Described above be merely exemplary for the utility model, and nonrestrictive, those of ordinary skill in the art Understand, in the case of the spirit and scope being limited without departing from claim, can many modifications may be made, change or equivalent, but Fall within protection domain of the present utility model.

Claims (8)

1. a kind of heat-exchanger rig, this heat-exchanger rig includes multiple heat-exchange inner containers, has for Working fluid flow in each heat-exchange inner container Spiral helicine heat exchange coil, the heat exchange coil in each heat-exchange inner container is together in series by the first pipeline, with entering of heat-conducting work medium The heat-exchange inner container that mouth is connected is referred to as head end inner bag, and the heat-exchange inner container being connected with the outlet of heat-conducting work medium is referred to as tail end inner bag；Each Also there is in heat-exchange inner container liquid storage space, inner bag is held to tail end by the second pipeline in the liquid storage space in each heat-exchange inner container from the beginning Inner bag is together in series, and the liquid storage space of this head end inner bag is connected to high temperature water out, and the liquid storage space of this tail end inner bag is connected to Cold water inlet.

2. heat-exchanger rig according to claim 1 is it is characterised in that be additionally provided with temperature probing tube on this head end inner bag.

3. a kind of air source heat pump supplies Water boiling equipment it is characterised in that including：Evaporimeter, gas-liquid separator, compressor, such as weigh Profit requires heat-exchanger rig described in 1, fluid reservoir and expansion valve, stores heat-conducting work medium in this fluid reservoir, and its output end connects should The input of expansion valve；The input of this evaporimeter terminates the output end of this expansion valve, and the output end of this evaporimeter accesses this gas-liquid Separator；The input of this compressor terminates this gas-liquid separator, and the output of this compressor terminates the input of this heat-exchanger rig；Should The output of heat-exchanger rig terminates the input of this fluid reservoir.

4. air source heat pump according to claim 3 for Water boiling equipment it is characterised in that the high-temperature water of this heat-exchanger rig goes out Mouth is connected with heat insulation tank.

5. air source heat pump according to claim 3 for Water boiling equipment it is characterised in that being additionally provided with this head end inner bag Temperature probing tube.

6. air source heat pump according to claim 3 for Water boiling equipment it is characterised in that this compressor is fully-closed vortex Compressor or helical-lobe compressor.

7. air source heat pump according to claim 3 supplies Water boiling equipment it is characterised in that this heat-conducting work medium is freon.

8. air source heat pump according to claim 3 supplies Water boiling equipment it is characterised in that input channel in this compressor Upper setting low voltage protection device for electrophonic, arranges high voltage protector on the output channel of this compressor.