CN208475719U - A kind of carbon dioxide heat pump system - Google Patents

Abstract

The utility model discloses a kind of carbon dioxide heat pump systems, including gas side major loop, the gas side major loop includes the compressor by piping connection, high pressure oil device, gas cooler, regenerator, throttling set, evaporator, the carbon dioxide heat pump system further includes high pressure oil return circuit, the high pressure oil return circuit includes the third solenoid valve being connect by pipeline with high pressure oil device, the outlet of third solenoid valve is divided into two parallel branches, the first branch includes the 4th solenoid valve and third capillary by piping connection, second branch includes the heat exchanger being connected on second branch pipeline, two parallel branches are converged jointly to compressor inlet.The utility model is separated refrigerant with refrigeration oil using high pressure oil separator, is reduced oil content in gas cooler, heat transfer effect can be promoted, thus lifting system heating capacity and efficiency.

Description

A kind of carbon dioxide heat pump system

Technical field

The utility model relates to air-conditioning technical fields, and in particular to carbon dioxide heat-pump.

Background technique

Carbon dioxide coolant has the characteristics that environmentally friendly, nontoxic, non-ignitable, carbon dioxide heat-pump as forth generation refrigerant Have the characteristics that efficiently to heat under high-temperature water outlet, low ambient temperature, have good market prospects.

Current each enterprise and mechanism are all in the Related product that releases one after another, and main technology path is as shown in Figure 1, main use Traditional heating system, although simply, for heat exchanger because containing refrigeration oil, heat transfer effect is undesirable；Related scholar research shows that Carbon dioxide heat pump system application regenerator is depending on working condition, and playing positive interaction under some operating conditions can increase system energy efficiency, And negative interaction is played under other operating conditions can reduce system energy efficiency, apply in existing scheme or without regenerator or always Regenerator, system energy efficiency are not optimal.Carbon dioxide heat pump system shuts down static pressure height, special high environment temperature or height Under inflow temperature, system low-voltage lateral pressure can be relatively high after shutdown, increases low-pressure side component pressure-bearing grade and cost of manufacture.In addition Compressor air suction mouth can directly affect in this way the use of compressor with liquid when because system controls or defrosts and controls bad sometimes Service life.

Utility model content

The utility model aims at the problems existing in the prior art, and provides the carbon dioxide heat-pumps that one kind can improve heat transfer effect System.

In order to solve the above technical problems, the utility model adopts the following technical solution: a kind of carbon dioxide heat pump system, packet Gas side major loop is included, the gas side major loop includes by the compressor of piping connection, high pressure oil device, gas cooler, returns Hot device, throttling set, evaporator, the carbon dioxide heat pump system further include high pressure oil return circuit, the high pressure oil return circuit packet Including the third solenoid valve connecting by pipeline with high pressure oil device, the outlet of third solenoid valve is divided into two parallel branches, and first Branch includes the 4th solenoid valve and third capillary by piping connection, and second branch includes being connected on second branch pipeline Heat exchanger, two parallel branches are converged jointly to compressor inlet.

Preferably, which further includes water side loop, and the water side loop includes the first circuit and the Secondary circuit, first circuit include the 5th solenoid valve, the water pump, regulating valve by piping connection, and the second servo loop includes The 6th solenoid valve, the 7th solenoid valve being connect by pipeline with water pump, the 5th solenoid valve and the 6th solenoid valve are respectively arranged on The input end of first circuit and second servo loop is intake to control, and the regulating valve is connect with heat exchanger import, the 7th electromagnetism Valve and heat exchanger are connect with gas cooler import.

Preferably, the carbon dioxide heat pump system further include be arranged between regenerator outlet and throttling set entrance it is slow Flushing device, in system-down, refrigerant is temporarily stored in buffer unit.

Preferably, the buffer unit includes the 8th solenoid valve and surge tank, and when system-down, the 8th solenoid valve is closed, and is led to Cross surge tank storage section high pressure gas, when system boot opens the 8th solenoid valve.

Preferably, which further includes hot gas bypass circuit, and the hot gas bypass circuit includes passing through First solenoid valve and first capillary of the piping connection between high pressure oil device and evaporator.

Preferably, which further includes hot gas supplementary loop, and the hot gas supplementary loop includes passing through Second solenoid valve and second capillary of the piping connection between high pressure oil device and compressor.

Preferably, the gas side major loop further includes three-way diverter valve, gas-liquid separator, the low pressure mistake come out from evaporator Hot gas is by three-way diverter valve changing flow direction, or enters regenerator after three-way diverter valve and be back to gas-liquid separator, then extremely press Contracting machine import；Or directly by pipeline to gas-liquid separator after three-way diverter valve, then to compressor inlet.

Preferably, the throttling set is one of expansion valve, restricting orifice, capillary or expansion valve, throttling Any structure that orifice plate, capillary combine in series and parallel.

The utility model is after adopting the above technical scheme, have the following beneficial effects:

1, refrigerant is separated using high pressure oil separator with refrigeration oil, reduces oil content, it can be with Heat transfer effect is promoted, thus lifting system heating capacity and efficiency.

2, water side loop has the first circuit and second servo loop, respectively into hot water or cold water, and passes through corresponding solenoid valve Control switch when into cold water, can reduce oil temperature by heat exchanger and promote water temperature, can make full use of the heat of refrigeration oil, make Heat maximally utilizes.

3, the buffer unit being arranged between regenerator outlet and throttling set entrance, in system-down, refrigerant is temporary In buffer unit, the pressure of system low-voltage side is reduced.

4, it is equipped with hot gas bypass circuit, is used for heat pump hot gas bypass defrosting.

5, it is equipped with hot gas supplementary loop, in Defrost operation, for preventing compressor return air pipeline band liquid.

6, it by three-way diverter valve changing flow direction, can be chosen whether to enable the system to effect using regenerator and reach according to operating condition To optimal.

Detailed description of the invention

The utility model is further described with reference to the accompanying drawings and detailed description:

Fig. 1 is traditional carbon dioxide heat-pump heating system structural schematic diagram.

Fig. 2 is the structural schematic diagram of the utility model.

1- compressor, 2- high pressure oil device, 3- gas cooler, 4- regenerator, 5- throttling set, 6- evaporator, 7- tri- Logical reversal valve, 8- gas-liquid separator, the first solenoid valve of 9-, the first capillary of 10-, 11- second solenoid valve, the second capillary of 12-, 13- third solenoid valve, the 4th solenoid valve of 14-, 15- third capillary, 16- heat exchanger, the 5th solenoid valve of 17-, the 6th electromagnetism of 18- Valve, 19- water pump, 20- regulating valve, the 7th solenoid valve of 21-, the 8th solenoid valve of 22-, 23- surge tank.

Specific embodiment

The technical solution of the utility model embodiment is explained below with reference to the attached drawing of the utility model embodiment and Illustrate, but following embodiments are only the preferred embodiment of the utility model, and not all.Based on the implementation example in the implementation mode, Those skilled in the art's obtained other embodiments without making creative work, belong to the utility model Protection scope.

Embodiment one, as shown in Fig. 2, a kind of carbon dioxide heat pump system, including gas side major loop, the gas side major loop Compressor 1, high pressure oil device 2, gas cooler 3, regenerator 4, throttling set 5, evaporator 6 including passing through piping connection, When the carbon dioxide heat pump system heating operation, compressor 1 compresses refrigerant and is high temperature and high pressure gas and is sent into high pressure oil device 2, high pressure oil device 2 isolates refrigeration oil, and refrigerant gas enters the (flowing of gas cooler 3 after the separation of high pressure oil device 2 Direction be e, f mouthful)) exchange heat after become low temperature high pressure gas or liquid, subsequently into regenerator 4 (flow direction i, j mouthful), out Throttling set 5 is entered back into after regenerator 4 and becomes low pressure, low temperature liquid or gas-liquid two-phase, becomes low pressure mistake subsequently into evaporator 6 Hot gas.

In order to overcome heat exchanger because containing refrigeration oil, the undesirable defect of heat transfer effect, in the present embodiment, carbon dioxide heat Pumping system further includes high pressure oil return circuit, and the high pressure oil return circuit includes the third being connect by pipeline with high pressure oil device 2 Solenoid valve 13, the outlet of third solenoid valve 13 are divided into two parallel branches, and the first branch includes the 4th electricity by piping connection Magnet valve 14 and third capillary 15, second branch include heat exchanger 16, and two parallel branches are converged jointly to 1 import of compressor.

The carbon dioxide heat pump system further includes water side loop, and the water side loop includes the first circuit and second servo loop, First circuit includes by the 5th solenoid valve 17 of piping connection, water pump 19, regulating valve 20, and the second servo loop includes logical Cross the 6th solenoid valve 18, the 7th solenoid valve 21 that pipeline is connect with water pump 19, the 5th solenoid valve 17 and the 6th solenoid valve 18 It is respectively arranged on the input end of the first circuit and second servo loop, for controlling water inlet, the regulating valve 20 connects with 16 import of heat exchanger It connects, the 7th solenoid valve 21 and heat exchanger 16 are connect with 3 import of gas cooler.

Above-mentioned system water side loop sequence is run in two kinds of situation:

(1) when inflow temperature is low, the first circuit operation, second servo loop is closed, and water inlet passes sequentially through the 5th solenoid valve 17, water 19, regulating valve 20, heat exchanger 16 (flow direction c, d mouthful), gas cooler 3 (flow direction g, h mouthful) are pumped, may be implemented When inflow temperature is low, inflow temperature is promoted by heat exchanger 16, fully absorbs the heat of refrigeration oil, lifting system efficiency.

(2) when inflow temperature is high, the first circuit is closed, and second servo loop operation, water inlet passes sequentially through the 6th solenoid valve 18, water The 19, the 7th solenoid valve 21 is pumped, gas cooler 3 (flow direction g, h mouthful) is finally entered, may be implemented to follow when inflow temperature is high Ring heating.

Two circuits are switched according to inflow temperature, and distinguishing temperature height can preset, and make heat pump system can be with Directly-heated operation (the small flow of low temperature) and heat preservation operation (high temperature big flow).

According to above-mentioned analysis it is recognised that above-mentioned high pressure oil return circuit is cold for separating high pressure oil separator 2 Frozen oil is back to 1 import of compressor by the decompression cooling of above-mentioned two parallel branch, while can be reduced and be freezed by heat exchanger 16 The temperature of oil simultaneously promotes inflow temperature, can make full use of the heat of refrigeration oil.

Wherein,

(1) when inflow temperature is lower, third solenoid valve 13 is opened, the 4th solenoid valve 14 closes, and refrigeration oil passes through heat exchanger 16 (flow direction a, b mouthful) and heat exchanger water side (flow direction c, d mouthful) exchange heat to reduce oil temperature, into compressor 1 into Mouthful.

(2) when inflow temperature is higher, the 4th solenoid valve 14 is opened, and is reduced by third capillary 15 with air heat-exchange Oil temperature enters back into 1 import of compressor.

To sum up, the utility model uses high pressure oil separator 2, and refrigerant is separated with refrigeration oil, is made in gas cooler 3 Oil content reduction can promote heat transfer effect, so that lifting system heating capacity and efficiency, can reduce additionally by heat exchanger 16 Oil temperature promotes water temperature, and heat maximally utilizes, and is switched finally by the 4th solenoid valve 14 to switch, pass through refrigeration oil can respectively Water is cooling or air cooling is realized.

In order to overcome in prior art or not have to regenerator or apply regenerator always, system energy efficiency is not The defect being optimal.The gas side major loop further includes three-way diverter valve 7, gas-liquid separator 8, is come out from evaporator 6 low Hot gas is pressed through by 7 changing flow direction of three-way diverter valve, or enters backheat after three-way diverter valve 7 (flow direction m, n mouthful) Device 4 (flow direction k, l mouthful) is back to gas-liquid separator 8, then to 1 import of compressor；Or through 7 (flow direction of three-way diverter valve It is m, o mouthfuls) afterwards directly by pipeline to gas-liquid separator 8, then to 1 import of compressor.

It illustrates but not limited to this operating conditions: when inflow temperature is higher than environment temperature, when entrance gas cooler 3 The higher temperature for directly affecting the outlet gas cooler 3 (flow direction e, f mouthful) f of the water temperature of (flow direction g, h mouthful) is inclined Height directly throttles, refrigerating capacity is few, and system energy efficiency is relatively low if being not provided with regenerator 4；If being switched to situation (1), regenerator 4 After (flow direction i, j mouthful) and regenerator 4 (flow direction k, l mouthful) heat exchange, make regenerator 4 (flow direction i, j Mouthful) outlet refrigerant enthalpy increase, refrigerating capacity increases after throttling, and system energy efficiency increases.And when inflow temperature is low and environment temperature Gao Shi, this evaporating temperature are higher than 3 outlet temperature of gas cooler, will increase the outlet j of regenerator 4 if by regenerator 4 Temperature reduces refrigerant enthalpy, to reduce refrigerating capacity, system energy efficiency is relatively low, just needs the (stream of switching three-way reversal valve 7 at this time Dynamic direction is m, o mouthfuls), do not use regenerator.This scheme can switch with three-way diverter valve 7 under different operating conditions, make system can It chooses whether to keep system efficiency COP under full working scope optimal using regenerator 4, solves no regenerator or fixation uses backheat The not high problem of the problem and system whole year efficiency that device not can be switched.

In order to solve the problems, such as Defrost, which can also include hot gas bypass circuit, the heat Gas bypass circulation includes the first solenoid valve 9 and the first capillary by piping connection between high pressure oil device 2 and evaporator 6 10, hot gas bypass circuit is for heat pump hot gas bypass defrosting.

It further, sometimes can band when because system controls or the control that defrosts is bad in order to solve compressor air suction mouth Liquid, the problem of influencing the service life of compressor.The carbon dioxide heat pump system further includes hot gas supplementary loop, and the hot gas is mended Filling circuit includes the second solenoid valve 11 and the second capillary 12 by piping connection between high pressure oil device 2 and compressor 1. In Defrost operation, refrigerant flows through hot gas bypass circuit, and refrigerant flow direction be high pressure oil separator 2, the first solenoid valve 9, First capillary 10, finally to 6 import of evaporator；Refrigerant flows through hot gas supplementary loop simultaneously, and refrigerant flow direction is high pressure Oil eliminator 2, second solenoid valve 11, the second capillary 12, finally to 1 import of compressor.When therefore solving due to defrosting, steam Hair device outlet superheat control the bad influence with liquid to the compressor service life, supplemented by hot gas, make 1 inlet ductwork of compressor without Liquid guarantees compressor reliability service.

In order to solve system-down static pressure height, the technology for increasing low-pressure side component pressure-bearing grade and cost of manufacture is asked Topic.The carbon dioxide heat pump system can further include be arranged between the outlet of regenerator 4 and 5 entrance of throttling set it is slow Flushing device, the buffer unit includes the 8th solenoid valve 22 and surge tank 23, and when system-down, the 8th solenoid valve 22 is closed, and is passed through 23 storage section high pressure gas of surge tank opens the 8th solenoid valve 22 when system boot.Low-pressure side system when making system-down in this way Refrigerant charge is reduced, and is reduced because environment temperature raising makes the risk of pressure rise, is reduced the pressure-bearing grade and system of low-pressure side component Cause this.

It will be appreciated by persons skilled in the art that above-mentioned throttling set can be common expansion valve, restricting orifice, One of capillary, or it is also possible to any structure that expansion valve, restricting orifice, capillary combine in series and parallel.

Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to In this, being familiar with the those skilled in the art should be understood that the utility model includes but is not limited to attached drawing and specific embodiment party above Content described in formula.The modification of any function and structure principle without departing from the utility model is intended to be included in claims Range in.

Claims (8)

1. a kind of carbon dioxide heat pump system, including gas side major loop, the gas side major loop includes the pressure by piping connection Contracting machine, high pressure oil device, gas cooler, regenerator, throttling set, evaporator, which is characterized in that the carbon dioxide heat-pump system System further includes high pressure oil return circuit, and the high pressure oil return circuit includes the third electromagnetism being connect by pipeline with high pressure oil device Valve, the outlet of third solenoid valve are divided into two parallel branches, and the first branch includes the 4th solenoid valve and by piping connection Three capillary, second branch include the heat exchanger being connected on second branch pipeline, and two parallel branches are converged jointly to compressor Import.

2. a kind of carbon dioxide heat pump system according to claim 1, it is characterised in that: the carbon dioxide heat pump system is also Including water side loop, the water side loop includes the first circuit and second servo loop, and first circuit includes passing through piping connection The 5th solenoid valve, water pump, regulating valve, the second servo loop includes the 6th solenoid valve being connect by pipeline with water pump, the 7th Solenoid valve, the 5th solenoid valve and the 6th solenoid valve be respectively arranged on the input end of the first circuit and second servo loop control into Water, the regulating valve are connect with heat exchanger import, and the 7th solenoid valve and heat exchanger are connect with gas cooler import.

3. a kind of carbon dioxide heat pump system according to claim 1, it is characterised in that: the carbon dioxide heat pump system is also Including the buffer unit being arranged between regenerator outlet and throttling set entrance, in system-down, refrigerant is temporarily stored in buffering In device.

4. a kind of carbon dioxide heat pump system according to claim 3, it is characterised in that: the buffer unit includes the 8th Solenoid valve and surge tank, when system-down, the 8th solenoid valve is closed, by surge tank storage section high pressure gas, when system boot Open the 8th solenoid valve.

5. a kind of carbon dioxide heat pump system according to claim 1, it is characterised in that: the carbon dioxide heat pump system is also Including hot gas bypass circuit, the hot gas bypass circuit includes between high pressure oil device and evaporator by piping connection One solenoid valve and the first capillary.

6. a kind of carbon dioxide heat pump system according to claim 5, it is characterised in that: the carbon dioxide heat pump system is also Including hot gas supplementary loop, the hot gas supplementary loop includes between high pressure oil device and compressor by piping connection Two solenoid valves and the second capillary.

7. a kind of carbon dioxide heat pump system according to any one of claims 1 to 6, it is characterised in that: the gas side master Circuit further includes three-way diverter valve, gas-liquid separator, and the low area overheat gas come out from evaporator is by triplet commutation Vavle switching stream To or entering regenerator after three-way diverter valve and be back to gas-liquid separator, then to compressor inlet；Or through three-way diverter valve Afterwards directly by pipeline to gas-liquid separator, then to compressor inlet.

8. a kind of carbon dioxide heat pump system according to claim 7, it is characterised in that: the throttling set is expansion Any structure that one of valve, restricting orifice, capillary or expansion valve, restricting orifice, capillary combine in series and parallel.