CN205980423U - A heat exchanger and heat pump system for heat pump system - Google Patents

Abstract

The utility model provides a heat exchanger and heat pump system for heat pump system, heat exchanger include: oil separator subassembly and cover are established the outside casing of oil separator subassembly, the casing with be formed with the cavity that is used for filling water between the oil separator subassembly, the cavity has water inlet and delivery port, wherein, the oil separator subassembly includes: the jar body, intake pipe, blast pipe and time oil pipe, it follows to return oil pipe insert at the top of the jar body, and extend the bottom of the jar body. The technical scheme of the utility model can realize the heating to water with the help of the heat of oil separator subassembly, effectively improve the utilization efficiency of the energy to need not to increase too much parts and just can realize making hydrothermal function on original heat pump system's basis, effectively reduced the manufacturing cost of product.

Description

Heat exchanger for heat pump and heat pump

Technical field

This utility model is related to technical field of heat pumps, in particular to a kind of heat exchanger for heat pump and A kind of heat pump.

Background technology

Traditional wind-cooling type heat pump system in refrigerating operaton, taken away by air, not by the heat of its outdoor heat exchanger It is utilized effectively；And air-source water heater is then to make use of the heat of high temperature of condenser side to realize water heating, but because It is not have interior machine, so not enabling the temperature adjustment of interior.In order to realize the function of two kinds of electrical equipment, improve the utilization effect of the energy Rate, Teat pump boiler arises at the historic moment, Teat pump boiler can while room is freezed water heating, effectively increase the energy Utilization ratio.Wherein, Teat pump boiler is to increase a bushing type water- to-water heat exchanger and one on the basis of former heat pump Cross valve, this bushing type water- to-water heat exchanger is in parallel with air-cooled condenser by this cross valve, and the off and on of this cross valve controls Coolant is that only when water heating demand, high temperature refrigerant just can be through water-cooled through air-cooled condenser or water-cooled condenser Condenser, other situations are all to run by common heat pump.

In addition, multi-online air-conditioning system is in order to ensure the reliability service of compressor, all can arrange in the air vent of compressor One oil eliminator by the lubricating oil separation in aerofluxuss out, and is back to compressor.Wherein, the principle of oil eliminator is： Impinge upon on the wall of side after the tank body of High Temperature High Pressure coolant entrance oil eliminator carrying lubricating oil, oil droplet little particle is in centrifugal force Being separated under effect falls in tank base along tank inner surface, is then back to compressor by oil return capillary tube.Mesh Before, oil eliminator does not almost have other effects in addition to the function of realizing Oil-gas Separation.

It can be seen that, existing Teat pump boiler needs to increase extra part on the basis of former heat pump, complex structure, And production cost is higher.And enter is the coolant of High Temperature High Pressure in oil eliminator, its temperature is higher, if therefore can be using oil The heat of separator, to realize the function of water heating, undoubtedly can be beneficial to the reduction of production cost and the effectively utilizes of the energy.

Utility model content

This utility model is intended at least solve one of technical problem present in prior art or correlation technique.

For this reason, a purpose of the present utility model is to propose a kind of heat exchanger for heat pump so that energy Enough heats by oil separator component to realize the heating to water, effectively increases the utilization ratio of the energy, and need not be Increase the function that excessive part just can realize water heating on the basis of original heat pump, effectively reduce the production of product Cost.

Another purpose of the present utility model is to propose a kind of heat pump.

For achieving the above object, the embodiment according to first aspect of the present utility model is it is proposed that a kind of be used for heat pump system The heat exchanger of system, including：Oil separator component and the housing, described housing and the institute that are set in outside described oil separator component State the cavity being formed between oil separator component for water-filling, described cavity has water inlet and outlet；Wherein, described oil Separator assembly includes：Tank body, air inlet pipe, exhaustor and oil return pipe, described oil return pipe inserts from the top of described tank body, and stretches Bottom to described tank body.

According to embodiment of the present utility model for heat pump heat exchanger, because the high temperature that compressor is discharged is high , after entering oil separator component from the air inlet pipe of oil separator component, gaseous coolant can be with the angle of inclination for the gaseous coolant of pressure Degree impinges upon on the internal face of oil separator component, and the little oil droplet in cold media gas is separated and edge under the influence of centrifugal force The internal face lubricating oil in tank base, separated that falls oil separator component returns to compressor through oil return pipe again, and Cold media gas then from exhaustor out it is seen that being always at the condition of high temperature when tank body of oil separator component is in system operation.Cause This is set in the outside of oil separator component by arranging housing, to form the cavity for water-filling, enabling by oil Heat from device assembly to realize the heating to water, effectively increases the utilization ratio of the energy.And above-mentioned heat exchanger is being answered Used in when in heat pump so that excessive part need not be increased on the basis of original heat pump just can realize water heating Function, effectively reduce the production cost of product.

According to above-described embodiment of the present utility model for the heat exchanger of heat pump, can also have following technology Feature：

According to an embodiment of the present utility model, described oil separator component also includes：First installation pedestal, described tank The top of body is arranged in described first installation pedestal；Described housing is arranged in the second installation pedestal, described second installation base Corresponding pilot hole is provided with seat and described first installation pedestal, described first installation pedestal and described second installation pedestal are led to Cross described pilot hole to be assembled, described housing is set in the outside of described oil separator component.

In this embodiment, by arranging the first installation pedestal at the top of tank body, and housing is arranged on the second installation On pedestal, enabling conveniently by the first installation pedestal and the second installation pedestal by the tank of housing and oil separator component Body is assembled.Wherein, the tank body of oil separator component can be welded in the first installation pedestal；Housing can also be welded on In two installation pedestals.Meanwhile, the feature of the modularization assembling between oil separator component and housing also makes there is higher spirit Activity, is easy to the maintenance in later stage, and also allows for removing incrustation scale.

According to an embodiment of the present utility model, arrange between described first installation pedestal and described second installation pedestal There is sealing ring.

In this embodiment, by arranging sealing ring between the first installation pedestal and the second installation pedestal, enabling Ensure the sealing between oil separator component and housing, it is to avoid the water in cavity flows out.

According to an embodiment of the present utility model, described water inlet is arranged in described first installation pedestal, described go out The mouth of a river is arranged on the bottom of described housing.

According to an embodiment of the present utility model, described oil separator component also includes：Oil storage tank, is arranged on described tank In vivo, the middle and upper part of described oil storage tank is provided with the opening communicating with described tank body, and described air inlet pipe and described oil return pipe stretch into In described oil storage tank, described exhaustor is arranged on outside described oil storage tank and stretches into the bottom of described tank body.

In this embodiment, because the water in the cavity between oil separator component and housing can take away oil separator component Heat, if the discharge therefore in cavity is larger, the temperature of the gas coolant in oil separator component may be cooled down To below saturation temperature, and then the coolant of liquid can be mixed with lubricating oil and return compressor by oil return pipe, so can lead Cause compressor liquid hammer.Therefore, by arranging oil storage tank in tank body, and air inlet pipe and oil return pipe stretch in oil storage tank, exhaustor Even if being arranged on that oil storage tank is outer and bottom that stretch into tank body being so that the temperature of gaseous coolant in oil separator component is cooled to Below saturation temperature, the coolant of liquid also can be separated with the lubricating oil isolated, and then it can be avoided that liquid refrigerants is with lubrication Oil is back to compressor and leads to the risk of compressor liquid hammer.

According to an embodiment of the present utility model, in described cavity, it is provided with heat exchanger fin.By setting in cavity Put heat exchanger fin, enabling enhanced heat exchange effect.

Embodiment according to this utility model second aspect it is also proposed that a kind of heat pump, including：Compressor, four-way Valve, outdoor heat exchanger, indoor set, low-pressure tank, water tank, and as any one of above-described embodiment for heat pump Heat exchanger；

Wherein, the outlet of described compressor is connected with the air inlet pipe of described oil separator component, four of described cross valve Port is respectively connecting to the exhaustor of described oil separator component, the first port of described outdoor heat exchanger, described low-pressure tank Entrance and the first stop valve, the outlet of described low-pressure tank and the oil return pipe of described oil separator component are connected to described compressor Import, the second port of described outdoor heat exchanger connected to the second stop valve, described first cut-off by first throttle part Valve is connected with the refrigerant pipe in described indoor set with described second stop valve；

The first port of described water tank is connected with described water inlet, and the second port of described water tank is with described outlet even Logical, the pipeline between the first port of described water tank and described water inlet is provided with water pump, described water inlet is also by moisturizing Valve is connected with water source.

According to the heat pump of embodiment of the present utility model, the gaseous coolant due to the High Temperature High Pressure of compressor discharge exists After the air inlet pipe of oil separator component enters oil separator component, gaseous coolant can impinge upon separating of oil at an oblique angle On the internal face of device assembly, the little oil droplet in cold media gas is separated and under the influence of centrifugal force along oil separator component The internal face lubricating oil in tank base, separated that falls return to compressor through oil return pipe again, and cold media gas are then from row Trachea is out it is seen that the tank body of oil separator component is always at the condition of high temperature in system operation.Therefore pass through to arrange water tank First port connect with the water inlet of cavity, and the outlet of the second port and cavity arranging water tank connects so that heat pump System can realize the function of water heating by the heat of oil separator component, effectively increases the utilization ratio of the energy, with When due to the function that excessive part just can realize water heating need not be increased on the basis of original heat pump, effectively reduce The production cost of product.

And pass through to arrange water pump on the pipeline between the first port of water tank and water inlet, enabling by water pump band Dynamic water follows bad, in order to the water heating in water tank between water tank and cavity.

According to an embodiment of the present utility model, described heat pump also includes：Electromagnetic valve, is connected in parallel on described first Between stop valve and described second stop valve.

In this embodiment, by electromagnetic valve in parallel between the first stop valve and the second stop valve so that heat pump According to the difference of operational mode, this electromagnetic valve can be controlled.Such as, heat pump, can when operation heats aqueous mode To control this electromagnetic valve to open, and the electric expansion valve in indoor set is controlled to close, such coolant directly leads to without indoor set Cross this electromagnetic valve and enter outdoor heat exchanger after above-mentioned first throttle part throttle, return after outdoor heat exchanger evaporation Compressor；And when heat pump freezes and heats water running, opened so that coolant can be successively by controlling above-mentioned electromagnetic valve Through outdoor heat exchanger, indoor heat exchanger, it is then back to compressor, on the premise of ensureing refrigeration, realize the function of water heating.

According to an embodiment of the present utility model, described heat pump also includes：Flow control valve, with described water pump It is connected on the pipeline between the first port of described water tank and described water inlet.

In this embodiment, enter water by arrange that flow control valve and water pump be connected on the first port of water tank and cavity On pipeline between mouthful, enabling by flow control valve come the flow rate in control chamber body, it is to avoid flow rate is larger Lead to be cooled to below saturation temperature and be likely to occur the problem of compressor liquid hammer the coolant in oil separator component.

According to an embodiment of the present utility model, in described water tank, it is provided with level sensor.By setting in water tank Put level sensor, enabling the water level in water tank is monitored, by the water lev el control in water tank in rational scope Interior.

Additional aspect of the present utility model and advantage will be set forth in part in the description, partly will be from explained below In become obvious, or recognized by practice of the present utility model.

Brief description

Above-mentioned and/or additional aspect of the present utility model and advantage will from reference to the description to embodiment for the accompanying drawings below Become obvious and easy to understand, wherein：

Fig. 1 shows the structural representation of the oil eliminator in correlation technique；

Fig. 2 shows the structural representation of the oil separator component according to first embodiment of the present utility model；

Fig. 3 shows the structural representation of the water- to-water heat exchanger assembly according to embodiment of the present utility model；

Fig. 4 shows the structural representation of the sealing ring according to embodiment of the present utility model；

Fig. 5 shows the structural representation of the heat exchanger fin according to embodiment of the present utility model；

Fig. 6 shows that the structure of the heat exchanger for heat pump according to first embodiment of the present utility model is shown It is intended to；

Fig. 7 shows the structural representation of the oil separator component according to second embodiment of the present utility model；

Fig. 8 shows that the structure of the heat exchanger for heat pump according to second embodiment of the present utility model is shown It is intended to；

Fig. 9 shows the structural representation of the heat pump in correlation technique；

Figure 10 shows the structural representation of the heat pump according to first embodiment of the present utility model；

Figure 11 shows the structural representation of the heat pump according to second embodiment of the present utility model.

Specific embodiment

In order to be more clearly understood that above-mentioned purpose of the present utility model, feature and advantage, below in conjunction with the accompanying drawings and tool Body embodiment is further described in detail to this utility model.It should be noted that in the case of not conflicting, this Shen Feature in embodiment please and embodiment can be mutually combined.

Elaborate a lot of details in the following description in order to fully understand this utility model, but, this practicality New can also be different from other modes described here implementing using other, therefore, protection domain of the present utility model is simultaneously Do not limited by following public specific embodiment.

Introduce the utility model proposes heat pump heat exchanger before, first introduce current oil eliminator knot Structure, specifically as shown in figure 1, current oil eliminator includes：Tank body 14, air inlet pipe 11, exhaustor 12 and be arranged on tank body 14 bottom The oil return pipe 13 in portion.

After carrying the coolant of High Temperature High Pressure of lubricating oil and discharge from compressor, enter oil eliminator along air inlet pipe 11 Impinge upon on the wall of side after tank body 14, the inner surface that oil droplet little particle is separated under the influence of centrifugal force along tank body 14 falls In the bottom of tank body 14, then compressor is back to by oil return pipe 13, and gaseous coolant enters heat pump system by exhaustor 12 It is circulated in system.

It can be seen that, the tank body 14 of oil eliminator is always at the condition of high temperature when heat pump runs, but current oil Almost there is no other effects from device in addition to the function of realizing Oil-gas Separation.

In order to realize the effectively utilizes of the energy, this utility model is improved on the architecture basics of oil eliminator, tool Body is as follows：

Be illustrated in figure 2 the utility model proposes oil separator component structure, specifically include：Tank body 24, air inlet pipe 21st, exhaustor 22 and oil return pipe 23, oil return pipe 23 inserts from the top of tank body 24, and extends the bottom of tank body 34.

After carrying the coolant of High Temperature High Pressure of lubricating oil and discharge from compressor, enter oil eliminator along air inlet pipe 21 Impinge upon on the wall of side after tank body 24, the inner surface that oil droplet little particle is separated under the influence of centrifugal force along tank body 24 falls In the bottom of tank body 24, then under the pressure effect of gaseous coolant, compressor is back to by oil return pipe 23, and gaseous coolant Entered in heat pump by exhaustor 22 and be circulated.

Wherein, the utility model proposes oil separator component also there is installation pedestal 25, this installation pedestal 25 can be with Tank body 24 is welded together in order to be assembled with the housing 31 shown in Fig. 3.Additionally, also setting in installation pedestal 25 It is equipped with a water inlet 26, after the housing 31 shown in as Fig. 3 is assembled with the oil separator component shown in Fig. 2, can be by being somebody's turn to do Water inlet 26 is to water-filling in the cavity between tank body 24 and housing 31.Pilot hole 27 is provided with installation pedestal 25, in order to Assembled with the assembly shown in Fig. 3.

As shown in figure 3, housing 31 is arranged in installation pedestal 32, such as can be by installation pedestal by way of welding 32 are welded on housing 31, the bottom of housing 31 is provided with outlet 33, and is provided with pilot hole in installation pedestal 32 34, in order to be assembled with the oil separator component shown in Fig. 2.Wherein, the structure shown in Fig. 3 can be referred to as water heat exchange Device assembly.

Fig. 4 shows for being assemblied in the sealing ring between installation pedestal 25 and installation pedestal 34, and its Main Function is real Sealing function between existing two installation pedestals.

Fig. 5 shows the structure of heat exchanger fin, and heat exchanger fin 51 may be mounted at housing 31 and oil separator component Tank body 24 between cavity in, to strengthen heat transfer effect.

Based on said structure, the utility model proposes the heat exchanger for heat pump as shown in fig. 6, including：Fig. 2 Shown in oil separator component and the water- to-water heat exchanger assembly shown in Fig. 3, the two pass through assemble bolt 61 be assembled into an entirety, Coolant realizes Oil-gas Separation inside the tank body 24 of oil separator component, and recirculated cooling water passes through outside wall surface and the housing of tank body 24 The sealing cavity of 31 internal face and two installation pedestal surface formation realizes heat exchange, to reach the purpose of water heating.

Wherein, in other embodiments of the present utility model, after assembly it is also possible to not install heat exchanger fin 51, Certainly heat transfer effect can decline.In addition it is also possible to be arranged on water inlet 26 on the side wall of housing 31, but so can increase Plus technology difficulty.

The utility model proposes oil separator component and water- to-water heat exchanger assembly are to be set based on modular thought Count and assemble, so there is higher motility, and also allow for later maintenance and cleaning incrustation scale.Of the present utility model its It is also possible to directly the structure of design integral type is ensureing to the cavity being formed between oil separator component and housing in its embodiment Interior water is heated.

Further, in the structure shown in Fig. 6, due to the water meeting in the cavity between oil separator component and housing 31 Take away the heat of oil separator component, if the discharge therefore in cavity is larger, may be by the gas in oil separator component The temperature of body coolant is cooled to below saturation temperature, and then the coolant of liquid can be mixed with lubricating oil and be returned by oil return pipe Compressor, so can lead to compressor liquid hammer.In order to avoid compressor has the risk of liquid hammer, this utility model is to oil eliminator The structure of assembly has been done and has been improved further, specifically as shown in Figure 7：

An oil storage tank 71 is set in the tank body 24 of oil separator component, the middle and upper part of wherein oil storage tank 71 is provided with out Mouthful, to communicate with tank body 24.In air inlet pipe 21 and oil return pipe 23 insertion oil storage tank 71, exhaustor 22 is in outside oil storage tank 71 and stretches Enter the bottom of tank body 24.

Based on the structure of Fig. 7, it is illustrated in figure 8 the structure of the heat exchanger after improvement, even if the structure after improvement makes The temperature of the gaseous coolant in oil separator component is cooled to below saturation temperature, the coolant of liquid also can with isolate Lubricating oil separates, and then lubricating oil can only return to compressor by extending to the oil return pipe 23 of oil storage tank 71 bottom, and coolant is only Can through extending to the exhaustor 22 of tank body 24 bottom out, effectively prevent liquid refrigerants be back to compressor with lubricating oil and Lead to the risk of compressor liquid hammer.

Common oil eliminator size is less, in actual design, can design corresponding oil according to the size of heat exchange amount The size of separator assembly is to meet the requirement of heat exchange.

Based on the utility model proposes the heat exchanger (oil water- to-water heat exchanger can also be referred to as) for heat pump, This utility model also proposed a kind of new heat pump, introduce the utility model proposes heat pump before, first introduce The heat pump adopting in correlation technique, specifically as shown in Figure 9：

When heat pump refrigerating operaton, the gaseous coolant that compressor 91 is discharged enters from the air inlet pipe 21 of oil separator component Enter, the High Temperature High Pressure cold media gas after Oil-gas Separation enter outdoor from the exhaustor 22 of oil separator component through cross valve 92 and change Hot device 93, the highly pressurised liquid coolant after outdoor heat exchanger 93 condensation cooling is laggard through electric expansion valve 95 and stop valve 97 Enter indoor set, the cold media gas after indoor heat exchanger heat absorption return to off-premises station through stop valve 98, then through cross valve 92, low Pressure tank 94 returns to the circulation that compressor 91 completes coolant, and the lubricating oil separated in oil separator component is through oil return pipe 23 times To compressor 91.

In heating operation, the gaseous coolant of discharge enters from the air inlet pipe 21 of oil separator component, after Oil-gas Separation High Temperature High Pressure cold media gas get in machine from the exhaustor 22 of oil separator component through cross valve 92 and stop valve 98, in room Realize room in the presence of interior heat exchanger to heat, the high-pressure liquid coolant after radiating in heat exchanger indoors returns through stop valve 97 Return off-premises station, through electric expansion valve 95 throttling after in outdoor heat exchanger 93 evaporation endothermic, the gaseous coolant after heat absorption is through four-way Valve 92, low-pressure tank 94 return to compressor 91 and complete refrigerant circulation, and the lubricating oil separated in oil separator component is through oil return Pipe 23 return to compressor 91 it is ensured that compressor 91 not oil starvation operating.

Wherein, electromagnetic valve 96 is opened in Defrost operation and is conducive to system quickly defrosting.In the embodiment shown in fig. 9, The function of oil separator component simply realizes the centrifugation of oil and coolant in compressor 91 aerofluxuss.

It should be noted that：Oil separator component shown in Fig. 9 can using the utility model proposes new oil From device assembly, so when user needs heat pump is upgraded, can directly add shown in Fig. 3 on this basis Water- to-water heat exchanger assembly.

In order to realize the effectively utilizes of the energy, the utility model proposes heat pump structure as shown in Figure 10, specifically Including：Compressor 101, cross valve 102, outdoor heat exchanger 103, indoor set (not shown), low-pressure tank 106, water tank 109, And the heat exchanger for heat pump shown in Fig. 6.

Wherein, the outlet of compressor 101 is connected with the air inlet pipe 21 of oil separator component, four ports of cross valve 102 It is respectively connecting to the exhaustor 22 of oil separator component, the first port of outdoor heat exchanger 103, the entrance of low-pressure tank 106 and One stop valve 108, the oil return pipe 23 of the outlet of low-pressure tank 106 and oil separator component is connected to the import of compressor 101, room The second port of external heat exchanger 103 is connected to the second stop valve 107 by first throttle part 104, the first stop valve 108 and Two stop valves 107 are connected with the refrigerant pipe in indoor set；The first port of water tank 109 is connected with water inlet 26, water tank 109 Second port connect with outlet 33, the pipeline between the first port of water tank 109 and water inlet 26 is provided with water pump 110, water inlet 26 connects (112 shown in Figure 10 are tap water interface) also by water compensating valve 111 with water source.

In heat pump shown in Figure 10, connected with the water inlet 26 of cavity by the first port arranging water tank 109, And the outlet 33 of the second port and cavity arranging water tank 109 connects so that heat pump can be by oil separator component The function to realize water heating for the heat, effectively increase the utilization ratio of the energy, simultaneously because need not be in original heat pump On the basis of increase the function that excessive part just can realize water heating, effectively reduce the production cost of product.

And pass through to arrange water pump 110 on the pipeline between the first port of water tank 109 and water inlet 26, enabling logical Cross water pump 110 drive water follow between water tank 109 and cavity bad, in order to in water tank 109 water heating.

Further, heat pump also includes：Electromagnetic valve 105, is connected in parallel on the first stop valve 108 and the second stop valve 107 Between.

In this embodiment, by electromagnetic valve 105 in parallel between the first stop valve 108 and the second stop valve 107 so that Heat pump can be controlled to this electromagnetic valve 105 according to the difference of operational mode.Such as, heat pump heats in operation During aqueous mode, this electromagnetic valve 105 can be controlled to open, and control the electric expansion valve in indoor set to close, such coolant without Cross indoor set directly by this electromagnetic valve 105 and through first throttle part 104 throttling after enter outdoor heat exchanger 103, in room Compressor 101 is returned after external heat exchanger 103 evaporation；And when heat pump freezes and heats water running, above-mentioned by controlling Electromagnetic valve 105 is opened so that coolant can sequentially pass through outdoor heat exchanger 103 and indoor set, is then back to compressor 101, On the premise of ensureing refrigeration, realize the function of water heating.

Further, heat pump also includes：Flow control valve 113, is connected on the first end of water tank 109 with water pump 110 On pipeline between mouth and water inlet 26.

In this embodiment, by arrange flow control valve 113 and water pump 110 be connected on the first port of water tank 109 with On pipeline between the water inlet 26 of cavity, enabling by flow control valve 113 come the flow rate in control chamber body, keep away Exempt from that flow rate is larger to be led to be cooled to below saturation temperature and be likely to occur compressor liquid the coolant in oil separator component The problem hit.

Further, it is provided with level sensor 114 in water tank 109, to be monitored to the water level in water tank 109.And And be additionally provided with water interface 116 and sewage draining exit 115.

In heat pump shown in Figure 10, employ the utility model proposes the heat exchanger for heat pump it Afterwards, by increasing the accessories such as water tank 109 (can be bearing insulated water box), common heat pump can be escalated into water heating work( The heat pump (as Teat pump boiler) of energy.

Based on the heat pump shown in Figure 10, the utility model proposes control method include：Need water heating in determination And compressor is when being currently running, the Tail Pipe Temperature of detection oil separator component；Big in the Tail Pipe Temperature of oil separator component In or be equal to predetermined temperature value when, according to the water temperature in water tank and water level, water compensating valve and water pump are controlled.

During by being more than or equal to predetermined temperature value in Tail Pipe Temperature oil separator component is detected, according in water tank Water temperature and water level water compensating valve and water pump are controlled, enabling when the temperature of oil eliminator is higher just open heat Water function, it is to avoid the temperature in oil eliminator is relatively low also to open water heating function and affect the stability of heat pump.And pass through According to the water temperature in water tank and water level, water compensating valve and water pump are controlled, enabling the water yield in water tank and water temperature are entered Row precise control.

In an embodiment of the present utility model, according to the water temperature in water tank and water level, water compensating valve and water pump are carried out Control, specifically include：

When water level in water tank is less than or equal to the first designated water level, water compensating valve is controlled to open；

When water level in water tank is more than the first designated water level, judge whether the water temperature in water tank reaches set water temperature；? When judging that the water temperature in water tank reaches set water temperature, if the water level in water tank reaches the second designated water level it is determined that water heating is complete Become, otherwise control water compensating valve to open, wherein, described second designated water level is higher than described first designated water level；In judgement water tank Water temperature be not up to set water temperature when, control water pump open；

When water level in water tank reaches the second designated water level, water compensating valve is controlled to close.

In this embodiment, when being less than or equal to the first designated water level by the water level in water tank, water compensating valve is controlled to open Open, can the water yield in water tank less when supplemented in time.And the water level in water tank is more than the second designated water level and water When temperature reaches set water temperature, description water heating has completed；When the water level in water tank is not up to the second designated water level but water level When having reached set water temperature, water compensating valve can be controlled to open to carry out moisturizing.When in water tank, water level is more than the first designated water level But when water temperature is not up to set water temperature, opened by controlling water pump, it is possible to achieve heating is circulated to the water in water tank.

Additionally, when the second designated water level is reached by the water level in water tank, controlling water compensating valve to close, water tank can be avoided Interior hypervolia and overflow.

Further, after controlling water compensating valve to open, also include：Temperature adjustment water compensating valve according to described outlet Aperture.

In this embodiment, by the aperture of the temperature adjustment water compensating valve of the outlet according to cavity, current can be avoided Speed is larger to be led to be cooled to below saturation temperature and be likely to occur asking of compressor liquid hammer the coolant in oil separator component Topic.

Further, described control method also includes：After controlling water pump to open, according to the temperature of described outlet Adjust the aperture of described flow control valve.

In this embodiment, the aperture of flow control valve is adjusted by the temperature of the outlet according to cavity, can keep away Exempt from that flow rate is larger to be led to be cooled to below saturation temperature and be likely to occur compressor liquid the coolant in oil separator component The problem hit.

Further, the control method of described heat pump, also includes：Receiving the instruction heating water running, or Receive refrigeration and heat water running instruction when, determine need water heating.

Wherein, according to an embodiment of the present utility model, it is provided with the second restriction on the refrigerant pipe of machine indoors In the case of part, described control method also includes：When receiving the instruction heating water running, control cross valve will be separating of oil The exhaustor of device assembly is connected with described first stop valve, is connected the first port of outdoor heat exchanger with the entrance of low-pressure tank, And control described electromagnetic valve to open and the closing of the second throttle part；

Receive refrigeration and heat water running instruction when, control cross valve by the exhaustor of described oil separator component Connect with the first port of outdoor heat exchanger, the entrance of low-pressure tank is connected with described first stop valve, and control described electromagnetism Valve cuts out and described second throttle part is opened.

In this embodiment, when heat pump is when heating water running, by controlling cross valve by oil separator component Exhaustor is connected with the first stop valve, is connected the first port of outdoor heat exchanger with the entrance of low-pressure tank, and controls electromagnetic valve Open and the second throttle part is closed so that coolant can be without indoor set directly by above-mentioned electromagnetic valve and through above-mentioned the Enter outdoor heat exchanger after one throttle part throttling, after outdoor heat exchanger evaporation, return compressor.And in heat pump system Cold and when heating water running, opened so that coolant can sequentially pass through outdoor heat exchanger, interior is changed by controlling above-mentioned electromagnetic valve Hot device, is then back to compressor, on the premise of ensureing refrigeration, realizes the function of water heating.

In summary：

For the heat pump shown in Figure 10, when there being water heating demand, if it is in operation and oily compressor 101 is detected The outlet temperature of the exhaustor 22 of separator assembly is higher than temperature Tr setting, then water circuit system can detect the water in water tank 109 Whether position S is less than default lowest water level S1, if S≤S1, opens water compensating valve 111 and supplements water level.Wherein, opening moisturizing When valve 111 supplements water level, water pump 110 and flow control valve 113 can be closed, because after water compensating valve 111 is opened, hydraulic pressure pushes away enough Water in dynamic pipeline enters water tank 109, and now, the aperture of water compensating valve 111 is according to the leaving water temperature T of outlet 33₀To set, to keep away The aperture exempting from water compensating valve 111 larger leads to cooling medium liquefaction.

If S ＞ S1 is detected when just starting, open water pump 110 and flow control valve 113, now water compensating valve 111 closes Close, the aperture of flow control valve 113 is according to the leaving water temperature T of outlet 33₀To set.When the temperature in water tank 109 is detected When Tw reaches design temperature, then detect whether the water level S in water tank 109 is more than default peak level S2, if S >=S2, Switch off the pump 110 and flow control valve 113, and determines that water heating completes, and now can send and heat the instruction that water energy need to be zero To controller；And if S<S2, then switch off the pump 110 and flow control valve 113, and opens water compensating valve 111, water compensating valve 111 Aperture is according to the leaving water temperature T of outlet 33₀To adjust.No matter whenever, if detect water level S in water tank 109 >= S2, then water compensating valve 111 will positive closing, prevent water level overflow.

In an embodiment of the present utility model, heat pump can have refrigeration mode, heating mode, water heating mould Formula, freeze and heat aqueous mode, dehumidification mode and air supply pattern etc., only heating aqueous mode and refrigeration and heating aqueous mode When, just determine there is the demand of water heating, and when the demand of water heating is only detected, water circulation system just can be run.Work as heat Pumping system run refrigeration mode, heating mode, dehumidification mode with during air supply pattern as common heat pump, now water route Circulation is closed.

Specifically, when heat pump runs and heats aqueous mode, off-premises station receives from remote control or line control machine The water heating demand sending, electricity commutation on cross valve 102, electromagnetic valve 105 is opened, and the electric expansion valve of indoor set is (i.e. above-mentioned The second throttle part) close, compressor 101 according to can need size determine running frequency.The high temperature discharged from compressor 101 is high Pressure gaseous coolant enters oil separator component from air inlet pipe 21, realizes the separation of oil and coolant under the action of the centrifugal force, simultaneously high Warm coolant carries out heat exchange with the recirculated water from water tank 109 side in cavity, and the coolant after Oil-gas Separation and cooling is from aerofluxuss Pipe 22 out through the throttling action of cross valve 102, electromagnetic valve 105 and electric expansion valve 104 (i.e. above-mentioned first throttle part), Return to compressor 101 and complete coolant through cross valve 102, low-pressure tank 106 again after evaporation endothermic amount in outdoor heat exchanger 103 and follow Ring.And the lubricating oil in oil separator component then returns compressor 101 through oil return pipe 23, and water passage circulation system is according to above Control logic run.

When heat pump runs refrigeration and heats aqueous mode, off-premises station receives and sends from remote control or line control machine The refrigeration come and water heating demand, cross valve 102 is closed, and electromagnetic valve 105 cuts out, and electronic expansion valve of indoor unit is according to the actual requirements Be adjusted, compressor 101 according to can need size determine running frequency.The high pressure gaseous coolant discharged from compressor 101 From air inlet pipe 21 enter oil separator component, under the action of the centrifugal force realize oil and coolant separation, simultaneously high temperature refrigerant with come Recirculated water from water tank 109 side carries out heat exchange in cavity, and the high pressure middle temperature coolant after Oil-gas Separation and cooling is from exhaustor 22 out enter outdoor heat exchanger 103 condensation cooling through cross valve 102, then through electric expansion valve 104 from the second stop valve 107 get in machine, return to off-premises station from the first stop valve 108 indoors after evaporation endothermic in machine, then through cross valve 102, Low-pressure tank 106 returns to compressor 101 and completes refrigerant circulation.And the lubricating oil in oil separator component then returns through oil return pipe 23 Compressor 101, and water passage circulation system runs according to control logic above.

Wherein, for the heat pump shown in Figure 10, due to being not provided with oil storage tank inside oil separator component, therefore in water To guarantee during loop control that the outlet temperature of exhaustor 22 is not less than the saturation temperature of coolant, to avoid the occurrence of compressor liquid hammer Problem.

Based on this, as shown in figure 11, oil separator component adopts the structure shown in Fig. 7, arranges oil storage in tank body 24 Tank 71, this structure makes the control of water circuit system not limited by the saturation temperature of gaseous coolant, and water heating is faster more energy efficient. The control logic in water route is as described above, but need not be according to the leaving water temperature T of outlet 33₀Water compensating valve 111 and stream are set The aperture of control valve 113, and under this configuration, flow control valve 113 can also be set in water route.

Additionally, for the heat pump shown in Figure 10 and Figure 11 it is also possible to the going out of exhaustor 22 in oil separator component Arrange pressure transducer at mouthful to detect refrigerant pressure.

To sum up, this utility model provides a kind of new oil separator component, can be assembled with water- to-water heat exchanger assembly Constitute new heat exchanger, this novel heat exchanger can be real under the premise of realization is normally oily and cold media gas are detached The now heat exchange with water, increased the function of petroleum crude separator, and the feature of modularization assembling has higher motility, simultaneously Also allow for safeguarding and remove incrustation scale.Based on the novel heat exchanger proposing, this utility model also proposed a kind of new Heat Pump Hydrophone, realizes the function of water heating, decreases heat pump system on the premise of being increased without cross valve and bushing type water- to-water heat exchanger The parts of system and cost, make heat pump compacter.

The technical solution of the utility model is described in detail above in association with accompanying drawing, the utility model proposes a kind of be used for heat The heat exchanger of pumping system and there is the heat pump of this heat exchanger and corresponding control program, enabling by separating of oil The heat of device assembly, to realize the heating to water, effectively increases the utilization ratio of the energy, and need not be in original heat pump On the basis of increase the function that excessive part just can realize water heating, effectively reduce the production cost of product.

The foregoing is only preferred embodiment of the present utility model, be not limited to this utility model, for this For the technical staff in field, this utility model can have various modifications and variations.All of the present utility model spirit and principle Within, any modification, equivalent substitution and improvement made etc., should be included within protection domain of the present utility model.

Claims (10)

1. a kind of heat exchanger for heat pump is it is characterised in that include：Oil separator component and be set in described oil Housing outside from device assembly, is formed with the cavity for water-filling, described sky between described housing and described oil separator component Chamber has water inlet and outlet；

Wherein, described oil separator component includes：Tank body, air inlet pipe, exhaustor and oil return pipe, described oil return pipe is from described tank body Top insertion, and extend the bottom of described tank body.

2. the heat exchanger for heat pump according to claim 1 it is characterised in that described oil separator component also Including：First installation pedestal, the top of described tank body is arranged in described first installation pedestal；

Described housing is arranged in the second installation pedestal, and it is right that described second installation pedestal and described first installation pedestal are provided with The pilot hole answered, described first installation pedestal and described second installation pedestal are assembled by described pilot hole, will be described Housing is set in the outside of described oil separator component.

3. the heat exchanger for heat pump according to claim 2 it is characterised in that described first installation pedestal and It is provided with sealing ring between described second installation pedestal.

4. the heat exchanger for heat pump according to claim 2 is it is characterised in that described water inlet is arranged on institute State in the first installation pedestal, described outlet is arranged on the bottom of described housing.

5. the heat exchanger for heat pump according to any one of claim 1 to 4 is it is characterised in that described oil Separator assembly also includes：

Oil storage tank, is arranged in described tank body, and the middle and upper part of described oil storage tank is provided with the opening communicating with described tank body, described Air inlet pipe and described oil return pipe stretch in described oil storage tank, and described exhaustor is arranged on outside described oil storage tank and stretches into described tank body Bottom.

6. the heat exchanger for heat pump according to any one of claim 1 to 4 is it is characterised in that described sky Intracavity is provided with heat exchanger fin.

7. a kind of heat pump is it is characterised in that include：Compressor, cross valve, outdoor heat exchanger, indoor set, low-pressure tank, water Case, and the heat exchanger for heat pump as any one of claim 1 to 6；

Wherein, the outlet of described compressor is connected with the air inlet pipe of described oil separator component, four ports of described cross valve It is respectively connecting to the exhaustor of described oil separator component, the first port of described outdoor heat exchanger, the entrance of described low-pressure tank With the first stop valve, the outlet of described low-pressure tank and the oil return pipe of described oil separator component are connected to entering of described compressor Mouthful, the second port of described outdoor heat exchanger is passed through first throttle part and is connected to the second stop valve, described first stop valve with Described second stop valve is connected with the refrigerant pipe in described indoor set；

The first port of described water tank is connected with described water inlet, and the second port of described water tank is connected with described outlet, institute State and be provided with water pump on the pipeline between the first port of water tank and described water inlet, described water inlet is also by water compensating valve and water Source connects.

8. heat pump according to claim 7 is it is characterised in that also include：Electromagnetic valve, is connected in parallel on described first cut-off Between valve and described second stop valve.

9. heat pump according to claim 7 is it is characterised in that also include：

Flow control valve, and described water pump is connected on the pipeline between the first port of described water tank and described water inlet.

10. the heat pump according to any one of claim 7 to 9 is it is characterised in that be provided with water level in described water tank Sensor.