CN202660807U - Double-stage enthalpy-increasing air conditioning system - Google Patents

Abstract

The utility model discloses a two-stage enthalpy-increasing air conditioning system, which comprises a compressor, an outdoor heat exchanger, an indoor heat exchanger, a throttling element A ', a throttling element B' and a four-way valve; the compressor, the outdoor heat exchanger, the throttling element A ', the throttling element B', the indoor heat exchanger and the four-way valve are connected through a connecting pipe; the air-conditioning system also comprises an intercooler, an air supplementing pipe, a heating connecting pipe, a heating by-pass pipe, a refrigerating connecting pipe, a refrigerating by-pass pipe and an intermediate cooling by-pass pipe; the intercooler includes 6 interfaces, with 3 outlets: outlet a, outlet E and outlet F, and 3 inlets: an inlet B, an inlet C and an inlet D; the outlet A is communicated with the inlet C through an inner cavity of the intercooler, the inlet B is communicated with the outlet E through a straight pipe in the intercooler, and the inlet C is directly communicated with the outlet F through a bent spiral coil in the intercooler.

Description

A kind of two-stage enthalpy-increasing air-conditioning system

[technical field]

The utility model relates to air-conditioning and increases the enthalpy technology, relates in particular to a kind of two-stage enthalpy-increasing air-conditioning system.

[background technology]

Common air-conditioner and Teat pump boiler include compressor, First Heat Exchanger, the second heat exchanger and restricting element, then be connected to form the heat-exchange working medium closed circuit by tube connector, the heat-exchange working medium that exhaust outlet of compressor is discharged high pressure enters First Heat Exchanger and condensation and release heat in First Heat Exchanger, the restricting element of flowing through again, the pressure decreased of heat-exchange working medium, the heat-exchange working medium that pressure is lower evaporates and absorbs heat after entering the second heat exchanger, the heat-exchange working medium of low pressure flows back to the air entry of compressor again, discharges from exhaust outlet after the compressed machine pressurization again.Existing air-conditioner and heat pump water-heating machine exist cooling or heating effect to be limited by environment temperature, under at heating mode, if ambient temperature is excessively low, its performance degradation is very large, can't make system bring into play its due ability, this defective so that air-conditioner can't effectively use at cold district, limited its scope of application, the Two-stage Compression system only has the centre that increases for refrigeration to cool off fully and not exclusively cooling at present, how to solve energy saving and the economy problems of the operation of cold district air-conditioner and Teat pump boiler winter heating, having the enthalpy of increasing effect when heating, is the technology barrier that limits the maximum of this technology large-scale promotion.

[utility model content]

The utility model provides a kind of middle cooling effect that both had, possesses again the enthalpy of increasing flash distillation effect, realization heats and increases enthalpy, overcome the impact of environment temperature, when environment temperature is low, still can bring into play its due ability, enlarge the scope of application, can be at the two-stage enthalpy-increasing air-conditioning system of the cold districts such as north use.

In order to realize above-mentioned utility model purpose, the technical solution adopted in the utility model is:

A kind of two-stage enthalpy-increasing air-conditioning system comprises compressor, outdoor heat exchanger, indoor heat exchanger, restricting element A ', restricting element B ' and cross valve; Compressor, outdoor heat exchanger, restricting element A ', restricting element B ', indoor heat exchanger and cross valve connect by tube connector; Also include intercooler, blowdown pipe, heat tube connector, heating bypass pipe, refrigeration tube connector, refrigeration bypass pipe and middle cooling bypass pipe; Described intercooler comprises 6 interfaces, wherein 3 outlets: outlet A, outlet E and outlet F, and 3 imports: import B, import C and import D; Wherein, outlet A is communicated with by the intercooler inner chamber with import C, and import B is communicated with by the straight pipe in the intercooler with outlet E, and import C directly is communicated with by the crooked spiral coil in the intercooler with outlet F; Between indoor heat exchanger and outdoor heat exchanger, the indoor heat exchanger refrigerant outlet links to each other with the import of restricting element A ', the outlet of restricting element A ' is communicated with import B and the outlet F of intercooler respectively with the refrigeration tube connector by the tube connector that heats of parallel connection, the outdoor heat exchanger refrigerant outlet is communicated with import C and the import D of intercooler respectively by cooling bypass pipe in the middle of in parallel and refrigeration bypass pipe, the air exit A of intercooler communicates with the gas supplementing opening of compressor by blowdown pipe, the cooling bypass pipe is provided with the first control valve in the centre, and described the first control valve and restricting element B ' are connected on the middle cooling bypass pipe and the pipeline of between is provided with the tributary interface that is communicated with intercooler outlet E by the heating bypass pipe; Described blowdown pipe is provided with injection check valve and second control valve of control tonifying Qi, heats the 3rd control valve that tube connector is provided with the control piper break-make, and the heating bypass pipe is provided with and heats check valve, and the refrigeration bypass pipe is provided with the refrigeration check valve.

Rotary, the vortex of tonifying Qi two-stage enthalpy increasing or screw compressor in the middle of described compressor adopts.

It is wealthy that described restricting element A ' and restricting element B ' are capillary, heating power expansion valve or electronic expansion.

Described the first control valve, the second control valve and the 3rd control valve are magnetic valve.

Also be provided with liquid-sighting glass on the described blowdown pipe or look the liquid pipe.

The beneficial effects of the utility model are:

The utility model is done intercooler unit in the air-conditioning system to improve and is adjusted, and increases the flash vessel playpipe at traditional intercooler, has the Dual-level enthalpy adding compressor of complete cooling device or mid portion cooling device in the middle of using; During cooling condition, increase normally enthalpy system air injection enthalpy-increasing and partly be in closed condition, but because compressor is Two-stage Compression, low-temp low-pressure vapour-liquid mixed working fluid by intercooler can be used as the centre cooling, be the intercooler unit of Two-stage Compression, to reach the effect that reduces the intermediate exhaust temperature, give full play to the advantage of Two-stage Compression; During heating condition, can intercooler be realized flashing off medium pressure gas directly by heating the mode that increases enthalpy, realize enthalpy-increasing function.Make and increase the cooling in the middle of the realization when refrigeration of enthalpy part, it is the flash distillation jet-action when heating, can obviously reduce the delivery temperature of compressor, improve the refrigeration of compressor, when heating, because this compressor has enthalpy-increasing function, the effect of intercooler unit performance flash vessel provides intermediate injection pressure to carry out air injection enthalpy-increasing, improves heating capacity or the refrigerating capacity of compressor, the elevator system heating capacity is to satisfy complicated working condition requirement.

[description of drawings]

Fig. 1 is systematic schematic diagram of the present utility model.

The periodic duty schematic diagram that not exclusively cools off with the one-level throttling when Fig. 2 is the utility model refrigeration;

Fig. 3 is the periodic duty schematic diagram of the utility model when heating.

Among the figure:

Periodic duty during the expression refrigeration flows to;

Periodic duty when cooling off in the middle of the expression flows to;

Periodic duty when expression heats flows to;

Periodic duty when expression increases enthalpy flows to;

The expression check valve;

Expression pipeline breaking part.

[specific embodiment]

As shown in Figure 1 to Figure 3, a kind of two-stage enthalpy-increasing air-conditioning system comprises compressor 1, outdoor heat exchanger 2, indoor heat exchanger 3, restricting element A ', restricting element B ' and cross valve 4; Compressor 1, outdoor heat exchanger 2, restricting element A ', restricting element B ', indoor heat exchanger 3 and cross valve 4 connect by tube connector, rotary, the vortex of tonifying Qi two-stage enthalpy increasing or screw compressor in the middle of compressor 1 adopts; Also include intercooler (flash vessel) 5, blowdown pipe 6, heat tube connector 7, heating bypass pipe 8, refrigeration tube connector 9, refrigeration bypass pipe 10 and middle cooling bypass pipe 11; Described intercooler (flash vessel) 5 comprises 6 interfaces, wherein 3 outlets: outlet A, outlet E and outlet F, and 3 imports: import B, import C and import D; Wherein, outlet A is communicated with by the intercooler inner chamber with import C, import B is communicated with by the straight pipe in the intercooler (flash vessel) 5 with outlet E, and import C directly is communicated with by the crooked spiral coil in the intercooler (flash vessel) 5 with outlet F.

Continue as shown in Figure 1 to Figure 3, between indoor heat exchanger 3 and outdoor heat exchanger 2, indoor heat exchanger 3 refrigerant outlets link to each other with the import of restricting element A ', the outlet of restricting element A ' is communicated with import B and the outlet F of intercooler (flash vessel) 5 respectively with refrigeration tube connector 9 by the tube connector 7 that heats of parallel connection, outdoor heat exchanger 2 refrigerant outlets are communicated with import C and the import D of intercooler (flash vessel) 5 respectively by cooling bypass pipe 11 in the middle of in parallel and refrigeration bypass pipe 10, the air exit A of intercooler (flash vessel) 5 communicates by the gas supplementing opening of blowdown pipe 6 with compressor 1, cooling bypass pipe 11 is provided with the first control valve 12 in the centre, and described the first control valve 12 and restricting element B ' are connected on the middle cooling bypass pipe 11 and the pipeline of between is provided with the tributary interface that is communicated with intercooler (flash vessel) 5 outlet E by heating bypass pipe 8; Described blowdown pipe 6 is provided with injection check valve 13 and second control valve 14 of control tonifying Qi, heat the 3rd control valve 15 that tube connector 7 is provided with the control piper break-make, heating bypass pipe 8 is provided with and heats check valve 16, and refrigeration bypass pipe 10 is provided with refrigeration check valve 17.

Wherein, restricting element A ' and restricting element B ' are heating power expansion valve, and the first control valve 12, the second control valve 14 and the 3rd control valve 15 are magnetic valve; On blowdown pipe, also be provided with liquid-sighting glass 18, be used in test watching liquid level and refrigerant state, belong to the auxiliary element in the test, can save liquid-sighting glass 18 in the practical application.

During work, under refrigerating state, as shown in Figure 2, open the first control valve 12, close the 3rd control valve 15, this system is the refrigeration system with the incomplete cooling device of one-level throttling, after compressor 1 exhaust, through outdoor heat exchanger (condenser) 2, most of gas flows to into indoor heat exchanger (evaporimeter) 3 through the spiral coil deutomerite of intercooler (flash vessel 5), enter intercooler (flash vessel) 5 after the throttling of small part gas process one-level, intercooler (flash vessel) 5 is with after the refrigerant vapor-liquid separation, gas is ejected into by opening the second control valve 14 in the middle pressure chamber of Two-stage Compression and cools off, to reduce compressor exhaust temperature; Heat under the state, as shown in Figure 3, open the 3rd control valve 15, close the first control valve 12, system becomes to increase the enthalpy air-conditioning system, compressor 1 exhaust is through indoor heat exchanger (evaporimeter) 3 throttlings, enter intercooler (flash vessel) 5, claim flash vessel this moment, and with the refrigerant vapor-liquid separation, gas is ejected into middle pressure chamber when opening through the 3rd control valve 15, carry high pressure cavity pressure and flow, improve delivery temperature, reach and increase the enthalpy effect, remaining gas then enters outdoor heat exchanger (condenser) 2 and gets back to compressor 1 suction end.

The above embodiment for preferred embodiment of the present utility model, is not to limit practical range of the present utility model with this just, and the equivalence that all shapes according to the utility model, structure and principle are done changes, and all should be covered by in the protection domain of the present utility model.

Claims (5)

1. a two-stage enthalpy-increasing air-conditioning system comprises compressor, outdoor heat exchanger, indoor heat exchanger, restricting element A ', restricting element B ' and cross valve; Compressor, outdoor heat exchanger, restricting element A ', restricting element B ', indoor heat exchanger and cross valve connect by tube connector; It is characterized in that:

Also include intercooler, blowdown pipe, heat tube connector, heating bypass pipe, refrigeration tube connector, refrigeration bypass pipe and middle cooling bypass pipe;

Described intercooler comprises 6 interfaces, wherein 3 outlets: outlet A, outlet E and outlet F, and 3 imports: import B, import C and import D; Wherein, outlet A is communicated with by the intercooler inner chamber with import C, and import B is communicated with by the straight pipe in the intercooler with outlet E, and import C directly is communicated with by the crooked spiral coil in the intercooler with outlet F;

Between indoor heat exchanger and outdoor heat exchanger, the indoor heat exchanger refrigerant outlet links to each other with the import of restricting element A ', the outlet of restricting element A ' is communicated with import B and the outlet F of flash vessel respectively with the refrigeration tube connector by the tube connector that heats of parallel connection, the outdoor heat exchanger refrigerant outlet is communicated with import C and the import D of flash vessel respectively by cooling bypass pipe in the middle of in parallel and refrigeration bypass pipe, the air exit A of flash vessel communicates with the gas supplementing opening of compressor by blowdown pipe, the cooling bypass pipe is provided with the first control valve in the centre, and described the first control valve and restricting element B ' are connected on the middle cooling bypass pipe and the pipeline of between is provided with the tributary interface that is communicated with intercooler outlet E by the heating bypass pipe;

Described blowdown pipe is provided with injection check valve and second control valve of control tonifying Qi, heats the 3rd control valve that tube connector is provided with the control piper break-make, and the heating bypass pipe is provided with and heats check valve, and the refrigeration bypass pipe is provided with the refrigeration check valve.

2. described a kind of two-stage enthalpy-increasing air-conditioning system according to claim 1 is characterized in that, rotary, the vortex of tonifying Qi two-stage enthalpy increasing or screw compressor in the middle of described compressor adopts.

3. described a kind of two-stage enthalpy-increasing air-conditioning system according to claim 1 is characterized in that, it is wealthy that described restricting element A ' and restricting element B ' are capillary, heating power expansion valve or electronic expansion.

4. described a kind of two-stage enthalpy-increasing air-conditioning system according to claim 1 is characterized in that, described the first control valve, the second control valve and the 3rd control valve are magnetic valve.

5. described a kind of two-stage enthalpy-increasing air-conditioning system according to claim 1 is characterized in that, also is provided with liquid-sighting glass on the described blowdown pipe or looks the liquid pipe.

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