CN202074749U - Energy-saving air conditioning unit with double power source pumps - Google Patents

Abstract

The utility model discloses an energy-saving air conditioning unit with double power source pumps, which belongs to air conditioning refrigerating units and mainly solves the problem of poor refrigerating effect of a compressor refrigerating unit in a low temperature environment in the prior art. The energy-saving air conditioning unit with the double power source pumps comprises a compressor refrigerating unit and a fluorine pump refrigerating unit, wherein the compressor refrigerating unit is mainly composed of a compressor, a condenser, a liquid storage device, a drying filter, an evaporator and a gas-liquid separator which are connected sequentially through delivery pipelines, the gas-liquid separator is connected back to the compressor, and the fluorine pump refrigerating unit is parallelly connected with the delivery pipeline between the liquid storage device and the drying filter. The energy-saving air conditioning unit realizes free switching of the two refrigerating units, a refrigerating effect in the lower-temperature environment is greatly improved by the aid of the fluorine pump refrigerating unit, and cost is saved.

Description

Dual power source pump energy-saving type air conditioner unit

Technical field

The utility model relates to a kind of energy-saving air conditioning system, specifically, relates to a kind of dual power source pump energy-saving type air conditioner unit.

Background technology

Development along with society; the quickening of process of industrialization; the shortage of resource, the deterioration of environment become human institute urgent problem; countries in the world have all proposed the slogan of " protection environment, energy savings " in recent years; China also advocates energy-saving and emission-reduction energetically; air-conditioning becomes the focus of all industries naturally as the energy consumption rich and influential family, and the exploitation environment-friendly and high-energy is imitated the air conditioner composition for the diligent target of pursuing of each Air-conditioning Enterprise.

What at present, the most frequently used energy-saving type air conditioner adopted is the compressor cooling unit.The compressor cooling unit utilizes the conversion between cold-producing medium gaseous state and the liquid state to realize heat absorption and heat release, thereby room air is realized refrigeration.The subject matter that this refrigeration unit exists is, when temperature is low in the winter time, conversion energy consumption between cold-producing medium gaseous state and the liquid state is big, so cause its in when refrigeration efficiency low, cost is big, so the compressor cooling unit is when temperature is low in the winter time and be not suitable for large-scale promotion and application.

Summary of the invention

The purpose of this utility model is to provide a kind of dual power source pump energy-saving type air conditioner unit, in the system of existing compressor cooling unit, increase the fluorine pump refrigeration unit of using when the suitable winter temperature of a cover hangs down, and realize two units freely switch use, the refrigeration problem that cost is big, efficiency is low when solving in the prior art compressor cooling unit temperature is low in the winter time.

In order to address the above problem, the technical solution adopted in the utility model is as follows:

Dual power source pump energy-saving type air conditioner unit, comprise the compressor cooling unit, this compressor cooling unit mainly is made up of the compressor that connects successively by transmission pipeline, condenser, reservoir, device for drying and filtering, evaporimeter and gas-liquid separator, and described gas-liquid separator is returned and is connected in compressor, simultaneously, also be provided with the fluorine pump refrigeration unit in parallel with the transmission pipeline between the device for drying and filtering with described reservoir.

In the said equipment, condenser, reservoir, device for drying and filtering all are arranged at outdoor, and wherein, condenser is used for the cooling refrigeration agent, make its temperature reach suitable degree of carrying out heat exchange with room air; Reservoir is used for the unnecessary cold-producing medium of storage system, and the cold-producing medium that has capacity when guaranteeing system works uses; Device for drying and filtering is used for the cold-producing medium that passes through is carried out drying and filtration.And that compressor, evaporimeter, gas-liquid separator all are arranged at is indoor, and wherein, compressor is the power resources of compressor cooling pattern; Evaporimeter is to finish the capital equipment that carries out heat exchange with room air; Gas-liquid separator carries out gas-liquid separation to the cold-producing medium that comes out from evaporimeter, and gaseous refrigerant is sent into compressor and formed circulation, and liquid refrigerant then retains in the gas-liquid separator.

In order to prevent fluorine pump refrigeration unit when work, cold-producing medium is back in the fluorine pump refrigeration unit by the transmission pipeline between reservoir and the device for drying and filtering, also is provided with first check valve on the transmission pipeline between described reservoir and the device for drying and filtering.

Further, be disposed with first magnetic valve and expansion valve on the transmission pipeline between described device for drying and filtering and the evaporimeter; Simultaneously, also be provided with the fluorine pump refrigerant tubing in parallel with the transmission pipeline between the evaporimeter, and this fluorine pump refrigerant tubing is provided with second magnetic valve with described device for drying and filtering.By above-mentioned design, just two transmission pipelines between device for drying and filtering and evaporimeter, have been formed, article one, the cold-producing medium when being used to transmit compressor operating, cold-producing medium when another is used to transmit the fluorine pump work, so just, avoided two kinds of power sources the crossfire phenomenon to occur, guaranteed carrying out smoothly of refrigeration work at the work schedule cryogen.In the utility model, when so-called crossfire phenomenon was meant compressor operating, cold-producing medium entered in the transmission channel of fluorine pump refrigeration unit, and perhaps when fluorine pump refrigeration unit was worked, cold-producing medium entered in the transmission channel of compressor cooling unit.

Again further, also be provided with the fluorine pump back flow of refrigerant pipeline in parallel with compressor and gas-liquid separator place branch road between described evaporimeter and the condenser, this fluorine pump back flow of refrigerant pipeline is provided with second check valve.Setting by the fluorine pump back flow of refrigerant pipeline and second check valve, both provided the passage that refluxes for the cold-producing medium that comes out from evaporimeter, avoided cold-producing medium to enter gas-liquid separator, prevented that again cold-producing medium passes back into gas-liquid separator by this fluorine pump back flow of refrigerant pipeline under the compressor operating state from evaporimeter.Simultaneously, on the branch road at compressor and gas-liquid separator place, be provided with and be used to prevent that cold-producing medium from entering the 3rd check valve and the 3rd magnetic valve of compressor and gas-liquid separator, thus the control of flow of refrigerant direction when having realized to the fluorine pump work.

Further, described fluorine pump refrigeration unit comprises liquid-sighting glass, fluorine pump, permanent flow valve, flow switch and the 4th check valve that connects successively by transmission pipeline.Wherein, liquid-sighting glass is used to observe the cold-producing medium surplus in the reservoir; The fluorine pump provides transmission power for cold-producing medium; Permanent flow valve is used to guarantee the constant of refrigerant flow; Flow switch is used to control the Push And Release of its place transmission pipeline; Cold-producing medium entered fluorine pump refrigeration unit when the 4th check valve had then prevented compressor operating, had controlled the flow direction of cold-producing medium under this pattern.

Design principle of the present utility model is, utilize different transfer of heat principle in the fluorine pump process of refrigerastion, by design cleverly, in existing compressor cooling unit, increase by a cover and be fit to the fluorine pump refrigeration unit that low temperature environment uses, thereby utilize the operate as normal of a condenser and two refrigeration unit of an evaporimeter realization, and utilize a plurality of check valves and magnetic valve to come transmission pipeline is controlled, to realize freely switching of two refrigeration unit, ensure the operate as normal of whole unit.

Compared with prior art, the beneficial effects of the utility model are as follows:

1. the utility model principle is simple, designs ingeniously, and it is convenient to realize;

2. the utility model utilizes a condenser and evaporimeter to realize the operate as normal of two refrigeration unit in a cover system, compares with two refrigeration unit of independent use, has both reduced the volume of unit, has reduced production, operation and maintenance cost again;

3. the utility model has been realized the operate as normal of two refrigeration unit and has freely been switched in a cover system, changes refrigeration system when hanging down for temperature great convenience is provided;

4. the utility model is by the state of change system medium power source and magnetic valve, easily realized freely switching of compressor cooling unit and fluorine pump refrigeration unit, thereby realize that for low temperature environment uses fluorine pump refrigeration unit down refrigeration provides the operation basis, solved problems such as cost height, the efficiency of using the compressor cooling unit to bring when temperature is low are low;

5. the utility model has carried out constant current control by permanent flow valve to the flow of cold-producing medium, has guaranteed the constant of refrigerant flow under the fluorine pump refrigeration mode, thereby has guaranteed the stable of refrigeration, has improved the practical value of fluorine pump refrigeration unit.

Description of drawings

Fig. 1 is the prior art system theory diagram.

Fig. 2 is a system principle diagram of the present utility model.

In the above-mentioned accompanying drawing, the corresponding name of Reference numeral is called: 1-compressor, 2-high-voltage switch gear, 3-ball valve, 4-the 3rd check valve, 5-condenser, 6-pressure sensor, 7-the 5th check valve, the 8-reservoir, 9-first check valve, 10-device for drying and filtering, 11-first magnetic valve, the 12-expansion valve, 13-evaporimeter, 14-the 3rd magnetic valve, 15-gas-liquid separator, the 16-low tension switch, 17-fluorine pump, 18-permanent flow valve, 19-flow switch, 20-the 4th check valve, 21-second magnetic valve, 22-second check valve, 23-liquid-sighting glass.

The specific embodiment

For the ease of forming contrast,, at first background technology of the present utility model is elaborated at this with outstanding remarkable result of the present utility model with the utility model.

The system principle diagram of compressor cooling unit as shown in Figure 1 in the prior art.During work, open compressor 1, first magnetic valve 11 and the 3rd magnetic valve 14, compressor 1 will be from the gaseous refrigerant of the gaseous refrigerant boil down to HTHP of the low-temp low-pressure of gas-liquid separator 15, transfer to condenser 5 by transmission pipeline under the control of high-voltage switch gear 2, ball valve 3 and the 3rd check valve 4, cold-producing medium is condensed into the liquid of high normal pressure and temperature in condenser 5; Under the control of pressure sensor 6 and the 5th check valve 7, enter reservoir 8 then, and then under the dynamic action that compressor 1 continues to provide, the liquid refrigerant in the reservoir 8 enters device for drying and filtering 10 by first check valve 9 to carry out drying and filters; After this, the liquid refrigerant of normal temperature high voltage becomes the liquid refrigerant of low-temp low-pressure after through first magnetic valve 11 and expansion valve 12, and enters evaporimeter 13 by transmission pipeline and carry out heat exchange, thereby makes it to form the gaseous refrigerant of low-temp low-pressure; At last, this gaseous refrigerant enters gas-liquid separator 15 by the 3rd magnetic valve 14, and the liquid refrigerant that may contain in the gaseous refrigerant is separated, and the gaseous refrigerant after the separation enters compressor 1 by low tension switch 16 again.So far, the whole compressor refrigeration unit just forms a circulatory system, as long as the compressor continuous firing, whole refrigeration system just continues circulation and goes down.

In the above-mentioned course of work, because condenser 5, reservoir 8 and device for drying and filtering 10 all are installed on outdoor, first magnetic valve 11, expansion valve 12, evaporimeter 13, gas-liquid separator 15, compressor 1 etc. all are installed on indoor, therefore, this process of gaseous refrigerant of liquid refrigerant heat absorption the becoming low-temp low-pressure of low-temp low-pressure is to carry out indoor, liquid refrigerant and indoor air carry out heat exchange, become gaseous refrigerant after absorbing airborne heat, and room air is lowered the temperature owing to heat is absorbed, and has just realized the refrigeration of room air thus.

By the course of work of above-mentioned compressor refrigeration unit as can be seen, the key of existing techniques in realizing refrigeration is liquid state and the conversion of the heat absorption between the gaseous state that cold-producing medium carries out in evaporimeter, and it is fast more, many more to absorb heat, and refrigeration is just good more.Significantly, the temperature difference is big more, and heat absorption must be fast more, many more, still, when air themperature is low in the winter time, the temperature difference of the temperature of cold-producing medium and room air and little in the evaporimeter 13, thus make refrigeration be difficult to satisfy actual needs.In this case, also use the compressor cooling unit to freeze and will cause cost to increase greatly, the utility model proposes in order to address the above problem just.

Below in conjunction with accompanying drawing 2 and embodiment the utility model is elaborated, embodiment of the present utility model includes but not limited to the following example.

Embodiment

As shown in Figure 2, dual power source fluorine pump energy-saving type air conditioner unit is made of compressor cooling unit and fluorine pump refrigeration unit.Wherein, compressor cooling unit and prior art are identical, fluorine pump refrigeration unit then is based on the compressor cooling unit, finishes with the compressor cooling unit by connected mode cleverly to be connected, and realizes freely switching of compressor cooling unit and fluorine pump refrigeration unit.The annexation and the course of work to whole system is described in detail below.

See on the whole, compressor 1, condenser 5, reservoir 8, device for drying and filtering 10, evaporimeter 13 and gas-liquid separator 15 are communicated with by transmission pipeline successively, and gas-liquid separator 15 also is communicated with compressor 1 by transmission pipeline, thereby makes all capital equipments form a loop capable of circulation.In order to guarantee that compressor cooling unit and fluorine pump refrigeration unit can realize refrigeration respectively, and can not influence each other,, between the said equipment, also be respectively arranged with following equipment according to the flow direction of cold-producing medium:

On the transmission pipeline between compressor 1 and the condenser 5, high-voltage switch gear 2, ball valve 2 and the 3rd check valve 4 are installed successively; On the transmission pipeline between condenser 5 and the reservoir 8, pressure sensor 6 and the 5th check valve 7 are installed successively; Between reservoir 8 and device for drying and filtering 10, be provided with two branch roads, wherein, article one, be the operating path of compressor cooling unit, first check valve 9 mainly is installed, another is the operating path of fluorine pump refrigeration unit, and liquid visor 23, fluorine pump 17, permanent flow valve 18, flow switch 19 and the 4th check valve 20 are installed successively; On the transmission pipeline between device for drying and filtering 10 and the evaporimeter 13, also be provided with two branch roads, wherein, article one, be the operating path of compressor cooling unit, first magnetic valve 11 and expansion valve 12 mainly are installed, another branch road is the operating path of fluorine pump refrigeration unit, and second magnetic valve 21 mainly is installed.After this, evaporimeter 13 is connected with condenser 5 by a transmission pipeline that second check valve 22 is installed on the other hand, makes fluorine pump refrigeration unit form a closed circuit; Be connected with gas-liquid separator 15 by a transmission pipeline that the 3rd magnetic valve 14 is installed on the other hand, and between gas-liquid separator 15 and compressor 1, low tension switch 16 be installed, thereby make the compressor cooling unit form a closed circuit.

By above-mentioned setting, make compressor cooling unit and fluorine pump refrigeration unit form two refrigeration systems of a shared condenser and evaporimeter, and two refrigeration systems can freely switch, work alone.Control procedure to above-mentioned two units describes in detail below.

One. the compressor cooling unit

The compressor cooling unit is mainly used in the indoor environment refrigeration of outdoor temperature when being higher than 7.5 ℃.During work, at first close the fluorine pump 17 and second magnetic valve 21, open compressor 1, first magnetic valve 11 and the 3rd magnetic valve 14 then, make the compressor cooling unit enter duty, thereafter detailed process and prior art are identical, are not giving unnecessary details at this.

Two. fluorine pump refrigeration unit

Fluorine pump refrigeration unit is a main innovate point of the present utility model, itself and compressor cooling unit are combined into after the dual power source fluorine pump energy-saving type air conditioner unit described in the utility model, the realization of refrigeration when key technology is that fluorine pump refrigeration unit works alone, and and the compressor cooling unit between the problem that influences each other that may occur.The realization of above-mentioned key technology is described below by the control procedure of describing fluorine pump refrigeration unit.

Indoor temperature is generally about 24 ℃, and when outdoor temperature is lower than 7.5 ℃, maintain an equal level through cold-producing medium after the condenser condenses and outdoor temperature, this moment, cold-producing medium just formed the great temperature difference with room air, fluorine pump refrigeration unit is utilized the liquid refrigerant after the condensation and the temperature difference between the room air just, finish heat transmission, reach the purpose of refrigeration.

When outdoor temperature is lower than 7.5 ℃, at first carry out of the switching of compressor cooling unit to fluorine pump refrigeration unit, promptly close compressor 1, first magnetic valve 11 and the 3rd magnetic valve 14 are opened the fluorine pump 17 and second magnetic valve 21.Because compressor 1 quits work, and just no longer includes power resources in the unit, correspondingly cold-producing medium just stops to flow; And after first magnetic valve 11 cuts out, the transmission pipeline branch road at its place will be in off-state, thereby prevent that cold-producing medium from entering evaporimeter 13 from this branch road; In like manner, closing of the 3rd magnetic valve 14 prevented that also cold-producing medium from entering gas-liquid separator 15.And the unlatching of fluorine pump 17 just provides power for whole unit, and the cold-producing medium in each equipment and the transmission pipeline just begins to flow.Because change has taken place in the state of aforementioned equipment component, therefore, during the fluorine pump work, the glide path of cold-producing medium during also with compressor operating the glide path of cold-producing medium different.

Specifically, after fluorine pump 17 is opened, after process device for drying and filtering 10 filters under the control of permanent flow valve 18, flow switch 19 and the 4th check valve 20 through the cold-producing medium after the condensation, enter evaporimeter 13 from the transmission pipeline at second magnetic valve, 21 places and carry out heat exchange with room air, take away the heat in the room air, finish the refrigeration purpose.Cold-producing medium after the heat absorption enters condenser from the transmission pipeline at second check valve, 22 places and carries out condensation, and under the control of pressure sensor 6 and the 5th check valve 7, enter reservoir 8, part retains in the reservoir 8, part enters in the fluorine pump refrigeration unit, thereby forms the circulation of fluorine pump refrigeration unit.

In the course of work of fluorine pump refrigeration unit,, guaranteed the operate as normal of fluorine pump refrigeration unit because the unidirectional conducting control function of first check valve 9 has prevented that cold-producing medium from directly passing back into fluorine pump 17 by first check valve 9.

Through test, being lower than in outdoor temperature under 7.5 ℃ the environment uses the compressor cooling unit that indoor environment is freezed, its maximum refrigerating efficiency and uses fluorine pump refrigeration unit described in the utility model to freeze about 3.5, and maximum refrigerating efficiency can reach about 8.8.This shows, when outdoor temperature is low, use the refrigeration of fluorine pump refrigeration unit to be far superior to the compressor cooling unit, and when outdoor temperature is higher, still use the compressor cooling unit to freeze, therefore, realize that two kinds of refrigeration unit successfully make up the utility model that also freely switches and be far superior to prior art on refrigeration, have obvious improvement.

According to the foregoing description, just can realize the utility model well.

Claims (7)

1. dual power source pump energy-saving type air conditioner unit, comprise the compressor cooling unit of mainly forming by the compressor that connects successively by transmission pipeline (1), condenser (5), reservoir (8), device for drying and filtering (10), evaporimeter (13) and gas-liquid separator (15), and described gas-liquid separator (15) is returned and is connected in compressor (1), it is characterized in that, also be provided with the fluorine pump refrigeration unit in parallel with the transmission pipeline between the device for drying and filtering (10) with described reservoir (8).

2. dual power source pump energy-saving type air conditioner unit according to claim 1 is characterized in that, also is provided with first check valve (9) on the transmission pipeline between described reservoir (8) and the device for drying and filtering (10).

3. dual power source pump energy-saving type air conditioner unit according to claim 2 is characterized in that, is disposed with first magnetic valve (11) and expansion valve (12) on the transmission pipeline between described device for drying and filtering (10) and the evaporimeter (13).

4. dual power source pump energy-saving type air conditioner unit according to claim 3, it is characterized in that, also be provided with the fluorine pump refrigerant tubing in parallel with the transmission pipeline between the evaporimeter (13), and this fluorine pump refrigerant tubing is provided with second magnetic valve (21) with described device for drying and filtering (10).

5. dual power source pump energy-saving type air conditioner unit according to claim 4, it is characterized in that, also be provided with and compressor (1) and gas-liquid separator (15) place branch road fluorine pump back flow of refrigerant pipeline in parallel between described evaporimeter (13) and the condenser (5), this fluorine pump back flow of refrigerant pipeline is provided with second check valve (22).

6. dual power source pump energy-saving type air conditioner unit according to claim 5, it is characterized in that, on the branch road at compressor (1) and gas-liquid separator (15) place, be provided with and be used to prevent that cold-producing medium from entering the 3rd check valve (4) and the 3rd magnetic valve (14) of compressor (1) and gas-liquid separator (15).

7. according to any described dual power source pump energy-saving type air conditioner unit in the claim 1～6, it is characterized in that described fluorine pump refrigeration unit comprises liquid-sighting glass (23), fluorine pump (17), permanent flow valve (18), flow switch (19) and the 4th check valve (20) that connects successively by transmission pipeline.

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