CN202675717U - Room air conditioner - Google Patents

Abstract

The utility model provides a room air conditioner, which comprises an outdoor unit, an indoor unit, a connecting pipe and a first throttling element; the indoor unit comprises an indoor heat exchanger, and the outdoor unit comprises a compressor, an outdoor heat exchanger and an air supply supercooling unit; the air supply supercooling unit comprises a second throttling element and a flash evaporator or an intermediate heat exchanger; wherein the inner diameter of the low-pressure gas pipe ranges from 5.2 to 14.5 mm; the inner diameter of the high-pressure gas pipe ranges from 4 to 10 mm; the inner diameter of the low-pressure liquid pipe ranges from 2.5 to 8 mm; the inner diameter of the high-pressure liquid pipe ranges from 2.5 to 6.5 mm; the inner diameter of the medium-pressure liquid pipe ranges from 2.5 to 6.5 mm; the inner diameter of the medium pressure gas tube ranges from 2.5 to 6.5 mm. The utility model discloses reduce the size of room air conditioner pipeline etc, reduced the refrigerant volume of filling, promote the energy-conservation and the environmental protection level of room air conditioner and can adapt to high heat exchange efficiency's environmental protection refrigerant's application demand.

Description

Room air conditioner

Technical field

The utility model relates to air-conditioner, in particular to a kind of room air conditioner.

Background technology

The configuration sized such as the heat exchanger of existing room air conditioner and pipeline are all larger, cause the filling quantity of refrigerant of air-conditioning system more.And the greenhouse effects of the cold-producing medium that room air conditioner uses at present such as R22 and the R410A value (GWP) higher (being about respectively 1810 and 2100) of diving, the direct carbon emission amount of room air conditioner is high to become the environmental issue that industry and government pay close attention to.Adopt the alternative R22 of low GWP cold-producing medium such as R290 and R32 and cold-producing medium such as GWP such as height such as R410A grade to become the main path that current industry solves this environmental issue.But the cold-producing medium such as R290 and R32 has combustibility in various degree, has limited again to a certain extent the safe handling filling quantity of cold-producing medium.In order to reduce room air conditioner filling quantity of refrigerant and combustible refrigerant safe handling risk, simultaneously also for cutting down the consumption of raw materials with improve the air-conditioner cost performance, for environmental protection refrigerant again optimal design and reduce the room air conditioner pipeline and the size tool of two device heat exchanger tubes etc. is of great significance.

The utility model content

The utility model aims to provide a kind of room air conditioner, and is large and use the high technical problem of risk safely to solve room air conditioner of the prior art filling quantity when using the low temperature chamber effect to dive value cold-producing medium.

To achieve these goals, according to an aspect of the present utility model, provide a kind of room air conditioner, comprise outdoor unit, indoor unit connects indoor unit and outdoor unit with the tube connector of formation refrigerant circulation loop, and is arranged on the first throttle element in the tube connector; Indoor unit comprises indoor heat exchanger, and outdoor unit comprises compressor, outdoor heat exchanger and tonifying Qi sub-cooling unit; The tonifying Qi sub-cooling unit comprises the second section fluid element, also comprises flash evaporation or Intermediate Heat Exchanger; Tube connector comprises: high-pressure gas pipe connects the exhaust outlet of compressor and the first end of outdoor heat exchanger; The highly pressurised liquid pipe contains the second end of junction chamber external heat exchanger in the system of flash evaporation and the first end of second section fluid element, or contains the second end of junction chamber external heat exchanger in the system of Intermediate Heat Exchanger and the first end of first throttle element; Middle press liquid pipe, second end and flash evaporation and the first end that is connected the first throttle element and flash evaporation of connection second section fluid element; The low pressure liquid pipe connects the second end of first throttle element and the first end of indoor heat exchanger; Low-pressure gas pipe connects the second end of indoor heat exchanger and the air entry of compressor; The medium pressure gas pipe, the middle gas supplementing opening of connection tonifying Qi sub-cooling unit and compressor; The inside diameter ranges of low-pressure gas pipe is 5.2 millimeters to 14.5 millimeters; The inside diameter ranges of high-pressure gas pipe is 4 millimeters to 10 millimeters; The inside diameter ranges of low pressure liquid pipe is 2.5 millimeters to 8 millimeters; The inside diameter ranges of highly pressurised liquid pipe is 2.5 millimeters to 6.5 millimeters; The inside diameter ranges of middle press liquid pipe is 2.5 millimeters to 6.5 millimeters; The inside diameter ranges of medium pressure gas pipe is 2.5 millimeters to 6.5 millimeters.

Further, when the specified refrigerating capacity of room air conditioner is less than 3.6 kilowatt hours, the inside diameter ranges of low-pressure gas pipe is 5.2 millimeters to 7.8 millimeters; When the specified refrigerating capacity of room air conditioner be 3.6 kilowatts to 5 kilowatt hours, the inside diameter ranges of low-pressure gas pipe is 7 millimeters to 9 millimeters; When the specified refrigerating capacity of room air conditioner be 5 kilowatts to 12 kilowatt hours, the inside diameter ranges of low-pressure gas pipe is 8.5 millimeters to 11.5 millimeters; When the specified refrigerating capacity of room air conditioner be 12 kilowatts to 16 kilowatt hours, the inside diameter ranges of low-pressure gas pipe is 11 millimeters to 14.5 millimeters.

Further, when the specified refrigerating capacity of room air conditioner is less than 3.6 kilowatt hours, the inside diameter ranges of low-pressure gas pipe is 6.5 millimeters to 7 millimeters; When the specified refrigerating capacity of room air conditioner be 3.6 kilowatts to 5 kilowatt hours, the inside diameter ranges of low-pressure gas pipe is 8 millimeters to 8.6 millimeters; When the specified refrigerating capacity of room air conditioner be 5 kilowatts to 12 kilowatt hours, the inside diameter ranges of low-pressure gas pipe is 10 millimeters to 10.6 millimeters; When the specified refrigerating capacity of room air conditioner be 12 kilowatts to 16 kilowatt hours, the inside diameter ranges of low-pressure gas pipe is 11.5 millimeters to 12.5 millimeters.

Further, when the specified refrigerating capacity of room air conditioner is less than 3.6 kilowatt hours, the inside diameter ranges of high-pressure gas pipe is 4 millimeters to 6.5 millimeters; When the specified refrigerating capacity of room air conditioner be 3.6 kilowatts to 7.2 kilowatt hours, the inside diameter ranges of high-pressure gas pipe is 5.5 millimeters to 7.5 millimeters; When the specified refrigerating capacity of room air conditioner be 7.2 kilowatts to 16 kilowatt hours, the inside diameter ranges of high-pressure gas pipe is 7.2 millimeters to 10 millimeters.

Further, when the specified refrigerating capacity of room air conditioner is less than 3.6 kilowatt hours, the inside diameter ranges of high-pressure gas pipe is 4.5 millimeters to 5.5 millimeters; When the specified refrigerating capacity of room air conditioner be 3.6 kilowatts to 7.2 kilowatt hours, the inside diameter ranges of high-pressure gas pipe is 6.5 millimeters to 7.2 millimeters; When the specified refrigerating capacity of room air conditioner be 7.2 kilowatts to 16 kilowatt hours, the inside diameter ranges of high-pressure gas pipe is 7.5 millimeters to 8.5 millimeters.

Further, when the specified refrigerating capacity of room air conditioner is less than 7.2 kilowatt hours, the inside diameter ranges of highly pressurised liquid pipe, middle press liquid pipe and medium pressure gas pipe is 2.5 millimeters to 5 millimeters; When the specified refrigerating capacity of room air conditioner be 7.2 kilowatts to 16 kilowatt hours, the inside diameter ranges of highly pressurised liquid pipe, middle press liquid pipe and medium pressure gas pipe is 4.5 millimeters to 6.5 millimeters.

Further, when the specified refrigerating capacity of room air conditioner is less than 7.2 kilowatt hours, the inside diameter ranges of highly pressurised liquid pipe, middle press liquid pipe and medium pressure gas pipe is 3.8 millimeters to 4.5 millimeters; When the specified refrigerating capacity of room air conditioner be 7.2 kilowatts to 16 kilowatt hours, the inside diameter ranges of highly pressurised liquid pipe, middle press liquid pipe and medium pressure gas pipe is 4.8 millimeters to 5.5 millimeters.

Further, when the specified refrigerating capacity of room air conditioner is less than 5 kilowatt hours, the inside diameter ranges of low pressure liquid pipe is 2.5 millimeters to 5 millimeters; When the specified refrigerating capacity of room air conditioner be 5 kilowatts to 7.2 kilowatt hours, the inside diameter ranges of low pressure liquid pipe is 4.5 millimeters to 6 millimeters; When the specified refrigerating capacity of room air conditioner be 7.2 kilowatts to 16 kilowatt hours, the inside diameter ranges of low pressure liquid pipe is 5.5 millimeters to 8 millimeters.

Further, when the specified refrigerating capacity of room air conditioner is less than 5 kilowatt hours, the inside diameter ranges of low pressure liquid pipe is 3.8 millimeters to 4.5 millimeters; When the specified refrigerating capacity of room air conditioner be 5 kilowatts to 7.2 kilowatt hours, the inside diameter ranges of low pressure liquid pipe is 4.8 millimeters to 5.5 millimeters; When the specified refrigerating capacity of room air conditioner be 7.2 kilowatts to 16 kilowatt hours, the inside diameter ranges of low pressure liquid pipe is 6.5 millimeters to 7.2 millimeters.

Further, the tonifying Qi sub-cooling unit is comprised of flash evaporation and second section fluid element, the first throttle element is electric expansion valve or heating power expansion valve, the first throttle element has the second pipe arrangement that is connected with the low pressure liquid pipe and the first pipe arrangement that is connected with middle press liquid pipe, the second pipe arrangement is 1～1.4 with the ratio of the internal diameter of the first pipe arrangement, the second pipe arrangement is 2.5～4 with the ratio of the internal diameter of the valve port of first throttle element, the ratio of the second pipe arrangement and the internal diameter of low pressure liquid pipe is the 0.95～1.05, first pipe arrangement with the ratio of the internal diameter of middle press liquid pipe is 0.95～1.05.

Further, the tonifying Qi sub-cooling unit is comprised of flash evaporation and second section fluid element, the second section fluid element is electric expansion valve or heating power expansion valve, the second section fluid element has the second pipe arrangement that is connected with middle press liquid pipe and the first pipe arrangement that is connected with the highly pressurised liquid pipe, the second pipe arrangement is 1～1.1 with the ratio of the internal diameter of the first pipe arrangement, the ratio of the first pipe arrangement and the internal diameter of the valve port of second section fluid element is the 2.5～4, first pipe arrangement with the ratio of the internal diameter of highly pressurised liquid pipe is 0.95～1.05.

Further, the tonifying Qi sub-cooling unit is comprised of Intermediate Heat Exchanger and second section fluid element, the first throttle element is electric expansion valve or heating power expansion valve, the first throttle element has the second pipe arrangement that is connected with the low pressure liquid pipe and the first pipe arrangement that links to each other with the highly pressurised liquid pipe that passes through Intermediate Heat Exchanger, the second pipe arrangement is 1～1.4 with the ratio of the internal diameter of the first pipe arrangement, the second pipe arrangement is 3～5 with the ratio of the internal diameter of the valve port of first throttle element, the ratio of the second pipe arrangement and the internal diameter of low pressure liquid pipe is the 0.95～1.05, first pipe arrangement with the ratio of the internal diameter of highly pressurised liquid pipe is 0.95～1.05.

Further, the tonifying Qi sub-cooling unit is comprised of Intermediate Heat Exchanger and second section fluid element, the second section fluid element is electric expansion valve or heating power expansion valve, the second section fluid element has the second pipe arrangement that is connected with Intermediate Heat Exchanger and the first pipe arrangement that is connected with the highly pressurised liquid pipe, the second pipe arrangement is 1～1.1 with the ratio of the internal diameter of the first pipe arrangement, the ratio of the first pipe arrangement and the internal diameter of the valve port of second section fluid element is the 3～5, first pipe arrangement with the ratio of the internal diameter of highly pressurised liquid pipe is 0.95～1.05.

Further, the heat exchanger tube of indoor heat exchanger is 0.67～1.5 with the ratio of the expand tube external diameter of the heat exchanger tube of outdoor heat exchanger.

Further, the external diameter of the expand tube of indoor heat exchanger heat exchanger tube is that scope is 4.15 millimeters to 7.5 millimeters.

Further, indoor heat exchanger comprises one or more heat exchanger tubes, and the expand tube external diameter scope of heat exchanger tube is the combination of 4.15 millimeters to 4.3 millimeters, 5.15 millimeters to 5.35 millimeters, 6.2 millimeters to 6.35 millimeters, 6.55 millimeters to 6.75 millimeters, 7.25 millimeters to 7.5 millimeters or above number range.

Further, the external diameter of the expand tube of outdoor heat exchanger heat exchanger tube is that scope is 4.15 millimeters to 8.5 millimeters.

Further, outdoor heat exchanger comprises one or more heat exchanger tubes, and the expand tube external diameter scope of heat exchanger tube is the combination of 4.15 millimeters to 4.3 millimeters, 5.15 millimeters to 5.35 millimeters, 6.2 millimeters to 6.35 millimeters, 6.55 millimeters to 6.75 millimeters, 7.25 millimeters to 7.5 millimeters, 8.25 to 8.5 millimeters or above number range.

Further, indoor heat exchanger or outdoor heat exchanger are micro-channel heat exchanger, and the flat tube cross section outer rim width of micro-channel heat exchanger is 12 millimeters to 25 millimeters, highly is 1 millimeter to 2 millimeters, and hole count is 0.5 to 1.2/millimeter with the ratio of width.

Further, the flat tube cross section outer rim width of micro-channel heat exchanger is 14 millimeters to 18 millimeters or 18 to 20 millimeters, highly is 1.2 millimeters to 1.4 millimeters or 1.4 millimeters to 2 millimeters.

Further, outdoor unit can also comprise exhaust outlet and the air entry that connects respectively compressor, the four-way change-over valve of outdoor heat exchanger and indoor heat exchanger, the S pipe of the air entry of four-way change-over valve connection compressor is 1 with the ratio of the internal diameter of the E pipe that is connected indoor heat exchanger, the S pipe is 1～1.8 with the ratio of the internal diameter of the D pipe of the exhaust outlet that is connected compressor, the S pipe is 1～1.8 with the ratio of the internal diameter of the C pipe of junction chamber external heat exchanger, the main valve body of four-way change-over valve is 1.8～2.5 with the ratio of the internal diameter of S pipe, the length of main valve body is 8～11 with the ratio of S bore, the ratio of S pipe and the internal diameter of low-pressure gas pipe is 0.95～1.05, D pipe with the ratio of the internal diameter of high-pressure gas pipe is 0.95～1.05.

Further, low-pressure gas pipe is 1.5～2.1 with the ratio of the internal diameter of low pressure liquid pipe, low-pressure gas pipe is 1.1～1.6 with the ratio of the internal diameter of high-pressure gas pipe, and the ratio of the internal diameter of low-pressure gas pipe and highly pressurised liquid pipe, middle press liquid pipe and medium pressure gas pipe is between 1.6～2.5.

Further, room air conditioner uses the mix refrigerant of R32 cold-producing medium or R32 and R1234yf or R1234ze, and the mass ratio of R32 is more than 50% in the mix refrigerant.

The room air conditioner of using the technical solution of the utility model reduces the size of room air conditioner pipeline etc., has reduced filling quantity of refrigerant, promotes the energy-conservation and Environmental Protection Level of room air conditioner.Further, the pipeline of reduced size can adapt to the application demand of the environmental protection refrigerant of high heat exchange efficiency.

Description of drawings

The Figure of description that consists of the application's a part is used to provide further understanding of the present utility model, and illustrative examples of the present utility model and explanation thereof are used for explaining the utility model, do not consist of improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the system diagram of the first embodiment of room air conditioner of the present utility model;

Fig. 2 shows the system diagram of the second embodiment of room air conditioner of the present utility model;

The dimensional drawing that pipeline internal diameter when the room air conditioner that Fig. 3 shows prior art uses the R22 cold-producing medium increases with specified refrigerating capacity;

The size table that pipeline internal diameter when the room air conditioner that Fig. 4 shows prior art uses the R22 cold-producing medium increases with specified refrigerating capacity;

The dimensional drawing that pipeline internal diameter when Fig. 5 shows room air conditioner use R32 cold-producing medium of the present utility model increases with specified refrigerating capacity; And

The size table that pipeline internal diameter when Fig. 6 shows room air conditioner use R32 cold-producing medium of the present utility model increases with specified refrigerating capacity.

The specific embodiment

Need to prove, in the situation that do not conflict, embodiment and the feature among the embodiment among the application can make up mutually.Describe below with reference to the accompanying drawings and in conjunction with the embodiments the utility model in detail.

Referring to Fig. 1, the room air conditioner of the first embodiment of the present utility model is connected with indoor unit by outdoor unit 12 and is connected indoor unit 13 and forms with the first tube connector 801 and the second tube connector 901 that forms refrigerant circulation loop with outdoor unit 12.Wherein indoor unit comprises an indoor heat exchanger 3.Outdoor unit 12 comprises compressor 1 and outdoor heat exchanger 2 etc.Comprise the first throttle element 401 that is arranged in the connecting line in indoor unit 13 or the outdoor unit 12, be provided with the liquid stop valve 601 that is located in the second tube connector 901 in the outdoor unit 12, be located at the gas stop valve 602 in the first tube connector 801, the gas-liquid separator 7 of compressor 1 one sides is connected to the parts such as four-way change-over valve 5 between compressor 1, outdoor heat exchanger 2, gas separator 7 and the gas stop valve 602.In addition, this room air conditioner also comprises a tonifying Qi sub-cooling unit 15, this tonifying Qi sub-cooling unit 15 by the flash evaporation 1401 of junction chamber external heat exchanger 2, compressor 1 and first throttle element 401 and be arranged on flash evaporation 1401 and outdoor heat exchanger 2 between second section fluid element 402 form.

Preferably, second section fluid element 402 and first throttle element 401 can be electric expansion valve, heating power expansion valve, restriction sleeve and capillary, also can be the combinations of aforementioned any element.Indoor heat exchanger 3 and outdoor heat exchanger 2 can be finned tube exchanger or micro-channel heat exchanger.Compressor 1 can be rotor compressor or screw compressor or piston compressor; Compressor 1 can be constant speed compressor or speed variable compressor.The cold-producing medium that fills in the room air conditioner can be HFC32 (difluoromethane).

Referring to Fig. 2, the room air conditioner of the utility model the second embodiment is with respect to the change of the first embodiment, and tonifying Qi sub-cooling unit 15 has replaced flash evaporation 1401 by Intermediate Heat Exchanger 1402.

Except two embodiment that illustrate, room air conditioner of the present utility model can comprise the arbitrarily combination of an indoor heat exchanger and outdoor heat exchanger, to adapt to the not demand of chummery number and ambient conditions.

Adopt the thermodynamic cycle theory analysis (calculate with analyze operating mode and the result who draws see Table respectively 1 and table 2) show, the unit mass refrigerating capacity of R32 all exceeds more than 50% than R22 and R410A, the R32 mass flow significantly reduces under the equal refrigerating capacity, heat exchanger and pipeline flow pressure drop and corresponding saturated temperature drop all will significantly reduce, and this just means that the heat exchanger of R32 room air conditioner and pipeline size have and reduces more greatly the space.The R32 volume refrigerating capacity compressor exceeds approximately 57% and 9% than R22 and R410A respectively, and the relative R22 of R32 compressor displacement will significantly reduce under the equal refrigerating capacity, and identical R410A also has obviously and reduces.

Condensation temperature	Coldly go out degree of supercooling	Evaporating temperature	Steam the degree of superheat
				44	5	10	5
The saturated temperature drop of blast pipe	The saturated temperature drop of condenser	The saturated temperature drop of evaporimeter	The saturated temperature drop of air intake duct
				0.5	1	3	2

Table 1 cold-producing medium thermodynamic cycle theory analysis operating mode (unit: ℃)

Cold-producing medium		R22	R410A	R32
					The quality refrigerating capacity	kJ/kg	165.3	167.7	252.1
Volume refrigerating capacity compressor	kJ/m3	4254	6147	6691
					The blast pipe pressure drop	kPa	20.18	31.71	32.66
The condenser pressure drop	kPa	39.83	55.53	64.43
					The evaporimeter pressure drop	kPa	63.61	102.5	102
The air intake duct pressure drop	kPa	40.09	62.33	64.33

Table 2 cold-producing medium thermodynamic cycle theoretical analysis result

From heat exchanger heat exchange angle analysis, thereby will reducing effective heat transfer temperature difference of heat exchanger, the saturated temperature drop that flow pressure drop causes in condenser or the evaporimeter reduces exchange capability of heat.As seen from Table 2, under the identical saturated temperature drop, use the condenser of R32 and the pressure drop that the evaporimeter pressure drop all is significantly higher than the like product that uses R22, that is under the equal heat exchanger pressure drop, the saturated temperature drop of R32 will be starkly lower than R22, and this lays a good foundation for R32 heat exchanger heat-exchanging tube size reduction.Similarly analyze and be equally applicable to other such as parts such as restricting element and valve classes.

Thus, the utility model has reduced the size of the parts such as pipeline, heat exchanger and restricting element of room air conditioner, and the utility model uses the room air conditioner system pipeline dimensional configurations scheme of R32 as follows:

During specified refrigerating capacity Qe=2.0～16kW, low-pressure gas pipe is 1.5～2.1 with the ratio of the internal diameter of low pressure liquid pipe, low-pressure gas pipe is 1.1～1.6 with the ratio of the internal diameter of high-pressure gas pipe, and the ratio of the internal diameter of low-pressure gas pipe and highly pressurised liquid pipe, middle press liquid pipe and medium pressure gas pipe is between 1.6～2.5.

During Qe≤3.6kW, the low-pressure gas bore is 5.2～7.8mm, is 6.5～7.0mm between dominant area; 3.6kW during＜Qe≤5.0kW, the low-pressure gas bore is 7.0～9.0mm, is 8.0～8.6mm between dominant area; 5.0kW during＜Qe≤12.0kW, the low-pressure gas bore is 8.5～11.5mm, is 10～10.6mm between dominant area; During 12kW＜Qe≤16kW, the low-pressure gas bore is 11～14.5mm, is 11.5～12.5mm between dominant area.

During Qe≤3.6kW, the gases at high pressure bore is 4.0～6.5mm, is 4.5～5.5mm between dominant area; 3.6kW during＜Qe≤7.2kW, the gases at high pressure bore is 5.5～7.5mm, is 6.5～7.2mm between dominant area; 7.2kW during＜Qe≤16.0kW, the gases at high pressure bore is 7.2～10mm, is 7.5～8.5mm between dominant area.

During Qe≤7.2kW, the highly pressurised liquid bore is 2.5～5.0mm, is 3.8～4.5mm between dominant area; 7.2kW during＜Qe≤16.0kW, the highly pressurised liquid bore is 4.5～6.5mm, is 4.8～5.5mm between dominant area.

During Qe≤7.2kW, middle press liquid bore is 2.5～5.0mm, is 3.8～4.5mm between dominant area; 7.2kW during＜Qe≤16.0kW, middle press liquid bore is 4.5～6.5mm, is 4.8～5.5mm between dominant area.

During Qe≤7.2kW, the medium pressure gas bore is 2.5～5.0mm, is 3.8～4.5mm between dominant area; 7.2kW during＜Qe≤16.0kW, the medium pressure gas bore is 4.5～6.5mm, is 4.8～5.5mm between dominant area.

During Qe≤5.0kW, the low pressure liquid bore is 2.5～5.0mm, is 3.8～4.5mm between dominant area; 5.0kW during＜Qe≤7.2kW, the low pressure liquid bore is 4.5～6.0mm, is 4.8～5.5mm between dominant area; 7.2kW during＜Qe≤16.0kW, the low pressure liquid bore is 5.5～8.0mm, is 6.5～7.2mm between dominant area.

Above-described high-pressure gas pipe refers to the tube connector 1101 that the exhaust outlet of the compressor 1 in the outdoor unit 12 is connected with outdoor heat exchanger 2,1102 general name; Low-pressure gas pipe refers to tube connector 801,802 general names that the indoor heat exchanger 3 in the indoor unit 13 is connected with compressor 1 air entry of outdoor unit 12; Second section fluid element 402 in the outdoor heat exchanger 2 that the highly pressurised liquid pipe refers to outdoor unit 12 and the system that contains flash evaporation 1401 or contain the general name of the tube connector 902 that the first throttle element 401 in the system of Intermediate Heat Exchanger 1402 is connected; The general name of the tube connector 101 that the flash evaporation 1401 that middle press liquid pipe refers to outdoor unit 12 links to each other with second section fluid element 402 with first throttle element 401 respectively; The medium pressure gas pipe refers to tube connector 102 general names that tonifying Qi sub-cooling unit 15 links to each other with the middle gas supplementing opening of compressor 1; The low pressure liquid pipe refers to the general name of the indoor tube connector 901 that first throttle element 401 is connected with the indoor heat exchanger 3 of indoor unit 13.

Above-mentioned tube connector can be copper pipe, aluminum pipe, copper alloy tube, aluminium-alloy pipe, stainless steel tube, also can be the compound tube of aforementioned any materials, and syntagmatic comprises series, parallel or compound (such as copper in aluminium in the outer copper or the outer aluminium).

When outdoor unit contains four-way change-over valve 5, the S pipe of four-way change-over valve 5 is 1 with the ratio of the internal diameter of E pipe, the S pipe is 1～1.8 with the ratio of the internal diameter of D pipe, the S pipe is 1～1.8 with the ratio of the internal diameter of C pipe, four-way change-over valve 5 valve bodies are 1.8～2.5 with the ratio of the internal diameter of S pipe, and valve body length is 8～11 with the ratio of S bore.In specified refrigerating capacity Qe=2.0～16kW scope, the S pipe of four-way change-over valve is 0.95～1.05 with the ratio of the internal diameter of low-pressure gas pipe, and four-way change-over valve D pipe is 0.95～1.05 with the ratio of the internal diameter of high-pressure gas pipe.The material of above-mentioned four-way change valve, D pipe, S pipe, E pipe and C pipe can be the combination of copper alloy, aluminium alloy, stainless steel and previous materials.

Such as the room air conditioner among the first embodiment, when tonifying Qi sub-cooling unit 15 is comprised of flash evaporation 1401 and second section fluid element 402, when first throttle element 401 is electric expansion valve or heating power expansion valve, the second pipe arrangement of the expansion valve 401 of first throttle element is 1～1.4 with the ratio of the internal diameter of the first pipe arrangement, and the ratio of the internal diameter of the second pipe arrangement of expansion valve 401 and expansion valve valve port (orifice) is 2.5～4.In specified refrigerating capacity Qe=2.0～16kW scope, the second pipe arrangement of expansion valve 401 is 0.95～1.05 with the ratio of the internal diameter of low pressure liquid pipe, and expansion valve 401 first pipe arrangements are 0.95～1.05 with the ratio of the internal diameter of middle press liquid pipe.The first pipe arrangement of expansion valve 401 is the pipe arrangements that directly link to each other with middle press liquid pipe, and the second pipe arrangement is the pipe arrangement that directly links to each other with the low pressure liquid pipe.

Such as the room air conditioner among the first embodiment, when tonifying Qi sub-cooling unit 15 is comprised of flash evaporation 1401 and second section fluid element 402, when second section fluid element 402 is electric expansion valve or heating power expansion valve, the second pipe arrangement of the expansion valve 402 of second section fluid element is 1～1.1 with the ratio of the internal diameter of the first pipe arrangement, and the ratio of the internal diameter of the first pipe arrangement of expansion valve 402 and expansion valve valve port (orifice) is 2.5～4.In specified refrigerating capacity Qe=2.0～16kW scope, the first pipe arrangement of expansion valve 402 is 0.95～1.05 with the ratio of the internal diameter of highly pressurised liquid pipe.Expansion valve the first pipe arrangement is the pipe arrangement that directly links to each other with the highly pressurised liquid pipe, and the second pipe arrangement is the pipe arrangement that directly links to each other with flash evaporation (1402).

Such as the room air conditioner among the second embodiment, when tonifying Qi sub-cooling unit 15 is comprised of Intermediate Heat Exchanger 1402 and second section fluid element 402, when first throttle element 401 is electric expansion valve or heating power expansion valve, the second pipe arrangement of the expansion valve 401 of first throttle element is 1～1.4 with the ratio of the internal diameter of the first pipe arrangement, and the ratio of the internal diameter of the second pipe arrangement of expansion valve 401 and expansion valve valve port (orifice) is 3～5.In specified refrigerating capacity Qe=2.0～16kW scope, the second pipe arrangement of expansion valve 401 is 0.95～1.05 with the ratio of the internal diameter of low pressure liquid pipe, and the first pipe arrangement of expansion valve 401 is 0.95～1.05 with the ratio of the internal diameter of highly pressurised liquid pipe.Expansion valve 401 first pipe arrangements are the pipe arrangements that link to each other with the highly pressurised liquid pipe of process Intermediate Heat Exchanger 1402, and the second pipe arrangement is the pipe arrangement that links to each other with the low pressure liquid pipe.

Such as the room air conditioner among the second embodiment, when tonifying Qi sub-cooling unit 15 is comprised of Intermediate Heat Exchanger 1402 and second section fluid element 402, when second section fluid element 402 is electric expansion valve or heating power expansion valve, the second pipe arrangement of the expansion valve 402 of second section fluid element is 1～1.1 with the ratio of the internal diameter of the first pipe arrangement, and the ratio of the internal diameter of the first pipe arrangement of expansion valve 402 and expansion valve valve port (orifice) is 3～5.In specified refrigerating capacity Qe=2.0～16kW scope, expansion valve 402 first pipe arrangements are 0.95～1.05 with the ratio of the internal diameter of highly pressurised liquid pipe.Expansion valve 402 first pipe arrangements are the pipe arrangements that directly link to each other with the highly pressurised liquid pipe, and the second pipe arrangement is the pipe arrangement that links to each other with Intermediate Heat Exchanger 1402.

The first pipe arrangement of aforementioned expansion valve and the second pipe arrangement can be copper pipe, aluminum pipe, copper alloy tube, aluminium-alloy pipe, immortal steel pipe, also can be aforementioned any combination pipes.

During specified refrigerating capacity Qe=2.0～16kW, the heat exchanger tube of indoor heat exchanger 3 is 0.67～1.5 with the ratio of the expand tube external diameter of the heat exchanger tube of outdoor heat exchanger 2.Indoor heat exchanger 3 expand tube external diameters are 4.15～7.5mm, are 4.15～4.3mm, 5.15～5.35mm, 6.2～6.35mm, 6.55～6.75mm and 7.25～7.5mm between dominant area, or any combination in above-mentioned interval is interval; Outdoor heat exchanger expand tube external diameter is 4.15～8.5mm, is 4.15～4.3mm, 5.15～5.35mm, 6.2～6.35mm, 6.55～6.75mm, 7.25～7.5mm and 8.25～8.5mm between dominant area, or any combination in above-mentioned interval is interval.Above-mentioned heat exchanger tube can be copper pipe, aluminum pipe, copper alloy tube, aluminium-alloy pipe, immortal steel pipe, also can be the compound tube of aforementioned any materials, and syntagmatic comprises series, parallel or compound (such as copper in aluminium in the outer copper or the outer aluminium).Above-mentioned heat exchanger is fin-tube heat exchanger, the inner enhanced heat transfer surfaces structures such as in addition helicla flute or straight trough etc. of above-mentioned heat exchanger tube.

During specified refrigerating capacity Qe=2.0～16kW, indoor heat exchanger or outdoor heat exchanger can also be micro-channel heat exchangers, micro-channel flat cross section outer rim width * highly be (12～25mm) * (1～2mm), be (14～18mm) * (1.2～1.4mm) and (18～20mm) * (1.4～2mm) between dominant area.Above-mentioned micro-channel heat exchanger comprises micro-channel flat, Wavelike finned and collector at least.The dividing wall structure that above-mentioned micro-channel flat has one or more endoporus and separates endoporus, inner hole section is rectangle, circle or triangle etc.The interior hole number of above-mentioned micro-channel flat is 0.5～1.2/mm with the ratio of above-mentioned micro-channel flat cross section outer rim width.Above-mentioned micro-channel flat is aluminium-alloy pipe.

A kind of embodiment of the tube connector specifications parameter of the utility model room air conditioner sees Table 3, and corresponding pipeline internal diameter collection of illustrative plates is seen Fig. 5 and Fig. 6.As a comparison, Fig. 3 and Fig. 4 have provided a kind of R22 room air conditioner pipeline internal diameter collection of illustrative plates of the prior art, and the pipeline internal diameter of R32 room air conditioner of the present utility model significantly reduces under the visible same nominal refrigerating capacity.

Specifications parameter under a kind of embodiment of the four-way change-over valve 5 of the utility model room air conditioner sees Table 4.

The specifications parameter of the first electric expansion valve 401 under the utility model room air conditioner the first embodiment sees Table 5.

The specifications parameter of the second electric expansion valve 402 under the utility model room air conditioner the first embodiment sees Table 6.

The specifications parameter of the first electric expansion valve 401 under the utility model room air conditioner the second embodiment sees Table 7.

The specifications parameter of the second electric expansion valve 402 under the utility model room air conditioner the second embodiment sees Table 8.

Indoor heat exchanger 3 under a kind of embodiment of the utility model room air conditioner and outdoor heat exchanger 2 are fin-tube heat exchanger, and heat exchanger tube expand tube external diameter sees Table 9.

Indoor heat exchanger 3 under the another kind of embodiment of the utility model room air conditioner is fin-tube heat exchanger, and outdoor heat exchanger 2 is micro-channel heat exchanger, and the heat exchanger tube specification sees Table 10.

The lower example that form is regulated is in succession executed real device accent room, the space 32R type of planting newly with real this 3 table

Four-way change-over valve pipe specification table under a kind of embodiment of table 4 the utility model R32 room air conditioner

The first electric expansion valve specification ginseng under a kind of embodiment of table 5 the utility model R32 room air conditioner (shown in the accompanying drawing 1)

Number

The second electric expansion valve specification ginseng under a kind of embodiment of table 6 the utility model R32 room air conditioner (shown in the accompanying drawing 1)

Number

The first electric expansion valve specification ginseng under a kind of embodiment of table 7 the utility model R32 room air conditioner (shown in the accompanying drawing 2)

Number

The second electric expansion valve specification ginseng under a kind of embodiment of table 8 the utility model R32 room air conditioner (shown in the accompanying drawing 2)

Number

Heat exchanger specification under a kind of embodiment of table 9 the utility model R32 room air conditioner

Heat exchanger specification under the another kind of embodiment of table 10 the utility model R32 room air conditioner

From above description, can find out, the utility model the above embodiments have realized following technique effect: room air conditioner of the present utility model has reduced the size of pipeline, can under existing manufacturing technology level, farthest reduce R32 filling quantity and pipeline raw material use amount, realize the more excellent collocation of R32 room air conditioner parts pipeline size, have the effect of significantly subduing R32 room air conditioner carbon emission total amount and raw materials consumption.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (23)

1. room air conditioner comprises outdoor unit (12), indoor unit (13), connects described indoor unit (13) and outdoor unit (12) with the tube connector that forms refrigerant circulation loop and is arranged on first throttle element (401) in the described tube connector; Described indoor unit comprises indoor heat exchanger (3), and described outdoor unit (12) comprises compressor (1), outdoor heat exchanger (2) and tonifying Qi sub-cooling unit (15); Described tonifying Qi sub-cooling unit (15) comprises second section fluid element (402), also comprises flash evaporation (1401) or Intermediate Heat Exchanger (1402);

Described tube connector comprises: high-pressure gas pipe connects the exhaust outlet of described compressor (1) and the first end of described outdoor heat exchanger (2); The highly pressurised liquid pipe, in the system that contains flash evaporation (1401), connect the second end of described outdoor heat exchanger (2) and the first end of described second section fluid element (402), or in the system that contains Intermediate Heat Exchanger (1402), connect the second end of described outdoor heat exchanger (2) and the first end of described first throttle element (401); Middle press liquid pipe, the second end that connects described second section fluid element (402) and described flash evaporation (1401) or be connected first end and the described flash evaporation (1401) of described first throttle element (401); The low pressure liquid pipe connects the second end of described first throttle element (401) and the first end of described indoor heat exchanger (3); Low-pressure gas pipe connects the second end of described indoor heat exchanger and the air entry of described compressor (1); The medium pressure gas pipe connects the middle gas supplementing opening of described tonifying Qi sub-cooling unit (15) and described compressor (1);

It is characterized in that, the inside diameter ranges of described low-pressure gas pipe is 5.2 millimeters to 14.5 millimeters;

The inside diameter ranges of described high-pressure gas pipe is 4 millimeters to 10 millimeters;

The inside diameter ranges of described low pressure liquid pipe is 2.5 millimeters to 8 millimeters;

The inside diameter ranges of described highly pressurised liquid pipe is 2.5 millimeters to 6.5 millimeters;

The inside diameter ranges of described middle press liquid pipe is 2.5 millimeters to 6.5 millimeters;

The inside diameter ranges of described medium pressure gas pipe is 2.5 millimeters to 6.5 millimeters.

2. room air conditioner according to claim 1 is characterized in that,

When the specified refrigerating capacity of described room air conditioner is less than 3.6 kilowatt hours, the inside diameter ranges of described low-pressure gas pipe is 5.2 millimeters to 7.8 millimeters;

When the specified refrigerating capacity of described room air conditioner be 3.6 kilowatts to 5 kilowatt hours, the inside diameter ranges of described low-pressure gas pipe is 7 millimeters to 9 millimeters;

When the specified refrigerating capacity of described room air conditioner be 5 kilowatts to 12 kilowatt hours, the inside diameter ranges of described low-pressure gas pipe is 8.5 millimeters to 11.5 millimeters;

When the specified refrigerating capacity of described room air conditioner be 12 kilowatts to 16 kilowatt hours, the inside diameter ranges of described low-pressure gas pipe is 11 millimeters to 14.5 millimeters.

3. room air conditioner according to claim 2 is characterized in that,

When the specified refrigerating capacity of described room air conditioner is less than 3.6 kilowatt hours, the inside diameter ranges of described low-pressure gas pipe is 6.5 millimeters to 7 millimeters;

When the specified refrigerating capacity of described room air conditioner be 3.6 kilowatts to 5 kilowatt hours, the inside diameter ranges of described low-pressure gas pipe is 8 millimeters to 8.6 millimeters;

When the specified refrigerating capacity of described room air conditioner be 5 kilowatts to 12 kilowatt hours, the inside diameter ranges of described low-pressure gas pipe is 10 millimeters to 10.6 millimeters;

When the specified refrigerating capacity of described room air conditioner be 12 kilowatts to 16 kilowatt hours, the inside diameter ranges of described low-pressure gas pipe is 11.5 millimeters to 12.5 millimeters.

4. room air conditioner according to claim 1 is characterized in that, when the specified refrigerating capacity of described room air conditioner is less than 3.6 kilowatt hours, the inside diameter ranges of described high-pressure gas pipe is 4 millimeters to 6.5 millimeters;

When the specified refrigerating capacity of described room air conditioner be 3.6 kilowatts to 7.2 kilowatt hours, the inside diameter ranges of described high-pressure gas pipe is 5.5 millimeters to 7.5 millimeters;

When the specified refrigerating capacity of described room air conditioner be 7.2 kilowatts to 16 kilowatt hours, the inside diameter ranges of described high-pressure gas pipe is 7.2 millimeters to 10 millimeters.

5. room air conditioner according to claim 4 is characterized in that,

When the specified refrigerating capacity of described room air conditioner is less than 3.6 kilowatt hours, the inside diameter ranges of described high-pressure gas pipe is 4.5 millimeters to 5.5 millimeters;

When the specified refrigerating capacity of described room air conditioner be 3.6 kilowatts to 7.2 kilowatt hours, the inside diameter ranges of described high-pressure gas pipe is 6.5 millimeters to 7.2 millimeters;

When the specified refrigerating capacity of described room air conditioner be 7.2 kilowatts to 16 kilowatt hours, the inside diameter ranges of described high-pressure gas pipe is 7.5 millimeters to 8.5 millimeters.

6. room air conditioner according to claim 1 is characterized in that,

When the specified refrigerating capacity of described room air conditioner is less than 7.2 kilowatt hours, the inside diameter ranges of described highly pressurised liquid pipe, described middle press liquid pipe and described medium pressure gas pipe is 2.5 millimeters to 5 millimeters;

When the specified refrigerating capacity of described room air conditioner be 7.2 kilowatts to 16 kilowatt hours, the inside diameter ranges of described highly pressurised liquid pipe, described middle press liquid pipe and described medium pressure gas pipe is 4.5 millimeters to 6.5 millimeters.

7. room air conditioner according to claim 6 is characterized in that, when the specified refrigerating capacity of described room air conditioner is less than 7.2 kilowatt hours, and described highly pressurised liquid pipe, described middle press liquid

The inside diameter ranges of pipe and described medium pressure gas pipe is 3.8 millimeters to 4.5 millimeters;

When the specified refrigerating capacity of described room air conditioner be 7.2 kilowatts to 16 kilowatt hours, the inside diameter ranges of described highly pressurised liquid pipe, described middle press liquid pipe and described medium pressure gas pipe is 4.8 millimeters to 5.5 millimeters.

8. room air conditioner according to claim 1 is characterized in that,

When the specified refrigerating capacity of described room air conditioner is less than 5 kilowatt hours, the inside diameter ranges of described low pressure liquid pipe is 2.5 millimeters to 5 millimeters;

When the specified refrigerating capacity of described room air conditioner be 5 kilowatts to 7.2 kilowatt hours, the inside diameter ranges of described low pressure liquid pipe is 4.5 millimeters to 6 millimeters;

When the specified refrigerating capacity of described room air conditioner be 7.2 kilowatts to 16 kilowatt hours, the inside diameter ranges of described low pressure liquid pipe is 5.5 millimeters to 8 millimeters.

9. room air conditioner according to claim 8 is characterized in that,

When the specified refrigerating capacity of described room air conditioner is less than 5 kilowatt hours, the inside diameter ranges of described low pressure liquid pipe is 3.8 millimeters to 4.5 millimeters;

When the specified refrigerating capacity of described room air conditioner be 5 kilowatts to 7.2 kilowatt hours, the inside diameter ranges of described low pressure liquid pipe is 4.8 millimeters to 5.5 millimeters;

When the specified refrigerating capacity of described room air conditioner be 7.2 kilowatts to 16 kilowatt hours, the inside diameter ranges of described low pressure liquid pipe is 6.5 millimeters to 7.2 millimeters.

10. room air conditioner according to claim 1, it is characterized in that, described tonifying Qi sub-cooling unit (15) is comprised of described flash evaporation (1401) and described second section fluid element (402), described first throttle element (401) is electric expansion valve or heating power expansion valve, described first throttle element (401) has the second pipe arrangement that is connected with described low pressure liquid pipe and the first pipe arrangement that is connected with described middle press liquid pipe, described the second pipe arrangement is 1～1.4 with the ratio of the internal diameter of described the first pipe arrangement, the ratio of the internal diameter of the valve port of described the second pipe arrangement and described first throttle element (401) is 2.5～4, described the second pipe arrangement is 0.95～1.05 with the ratio of the internal diameter of described low pressure liquid pipe, and described the first pipe arrangement is 0.95～1.05 with the ratio of the internal diameter of described middle press liquid pipe.

11. room air conditioner according to claim 1, it is characterized in that, described tonifying Qi sub-cooling unit (15) is comprised of described flash evaporation (1401) and described second section fluid element (402), described second section fluid element (402) is electric expansion valve or heating power expansion valve, described second section fluid element (402) has the second pipe arrangement that is connected with described middle press liquid pipe and the first pipe arrangement that is connected with described highly pressurised liquid pipe, described the second pipe arrangement is 1～1.1 with the ratio of the internal diameter of described the first pipe arrangement, the ratio of the internal diameter of the valve port of described the first pipe arrangement and described second section fluid element (402) is 2.5～4, and described the first pipe arrangement is 0.95～1.05 with the ratio of the internal diameter of described highly pressurised liquid pipe.

12. room air conditioner according to claim 1, it is characterized in that, described tonifying Qi sub-cooling unit (15) is comprised of described Intermediate Heat Exchanger (1402) and described second section fluid element (402), described first throttle element (401) is electric expansion valve or heating power expansion valve, described first throttle element (401) has the first pipe arrangement that the second pipe arrangement of being connected with described low pressure liquid pipe links to each other with highly pressurised liquid pipe with the described Intermediate Heat Exchanger of described process (1402), described the second pipe arrangement is 1～1.4 with the ratio of the internal diameter of described the first pipe arrangement, the ratio of the internal diameter of the valve port of described the second pipe arrangement and described first throttle element (401) is 3～5, described the second pipe arrangement is 0.95～1.05 with the ratio of the internal diameter of described low pressure liquid pipe, and described the first pipe arrangement is 0.95～1.05 with the ratio of the internal diameter of described highly pressurised liquid pipe.

13. room air conditioner according to claim 1, it is characterized in that, described tonifying Qi sub-cooling unit (15) is comprised of described Intermediate Heat Exchanger (1402) and described second section fluid element (402), described second section fluid element (402) is electric expansion valve or heating power expansion valve, described second section fluid element (402) has the second pipe arrangement that is connected with described Intermediate Heat Exchanger (1402) and the first pipe arrangement that is connected with described highly pressurised liquid pipe, described the second pipe arrangement is 1～1.1 with the ratio of the internal diameter of described the first pipe arrangement, the ratio of the internal diameter of the valve port of described the first pipe arrangement and described second section fluid element (402) is 3～5, and described the first pipe arrangement is 0.95～1.05 with the ratio of the internal diameter of described highly pressurised liquid pipe.

14. room air conditioner according to claim 1 is characterized in that, the ratio of the expand tube external diameter of the heat exchanger tube of the heat exchanger tube of described indoor heat exchanger (3) and described outdoor heat exchanger (2) is 0.67～1.5.

15. room air conditioner according to claim 14 is characterized in that, the expand tube external diameter of described indoor heat exchanger (3) heat exchanger tube is that scope is 4.15 millimeters to 7.5 millimeters.

16. room air conditioner according to claim 15, it is characterized in that, described indoor heat exchanger (3) comprises one or more heat exchanger tubes, and the expand tube external diameter scope of described heat exchanger tube is the combination of 4.15 millimeters to 4.3 millimeters, 5.15 millimeters to 5.35 millimeters, 6.2 millimeters to 6.35 millimeters, 6.55 millimeters to 6.75 millimeters, 7.25 millimeters to 7.5 millimeters or above number range.

17. room air conditioner according to claim 14 is characterized in that, the expand tube external diameter of described outdoor heat exchanger (2) heat exchanger tube is that scope is 4.15 millimeters to 8.5 millimeters.

18. room air conditioner according to claim 17, it is characterized in that, described outdoor heat exchanger (2) comprises one or more heat exchanger tubes, and the expand tube external diameter scope of described one or more heat exchanger tubes is the combination of 4.15 millimeters to 4.3 millimeters, 5.15 millimeters to 5.35 millimeters, 6.2 millimeters to 6.35 millimeters, 6.55 millimeters to 6.75 millimeters, 7.25 millimeters to 7.5 millimeters, 8.25 to 8.5 millimeters or above number range.

19. room air conditioner according to claim 1, it is characterized in that, described indoor heat exchanger (3) or described outdoor heat exchanger (2) are micro-channel heat exchanger, the flat tube cross section outer rim width of described micro-channel heat exchanger is 12 millimeters to 25 millimeters, highly be 1 millimeter to 2 millimeters, hole count is 0.5 to 1.2/millimeter with the ratio of width.

20. room air conditioner according to claim 19 is characterized in that, the number range of the flat tube cross section outer rim of described micro-channel heat exchanger is that width is 14 millimeters to 18 millimeters, highly is 1.2 millimeters to 1.4 millimeters; Or width is 18 to 20 millimeters, highly is 1.4 millimeters to 2 millimeters.

21. room air conditioner according to claim 1, it is characterized in that, described outdoor unit (12) can also comprise exhaust outlet and the air entry that connects respectively described compressor (1), the four-way change-over valve of described outdoor heat exchanger (2) and described indoor heat exchanger (3), the ratio of S pipe and the internal diameter of the E pipe that is connected described indoor heat exchanger (3) that described four-way change-over valve connects the air entry of described compressor (1) is 1, described S pipe is 1～1.8 with the ratio of the internal diameter of the D pipe of the exhaust outlet that is connected described compressor (1), described S pipe is 1～1.8 with the ratio of the internal diameter of the C pipe that is connected described outdoor heat exchanger (2), the main valve body of described four-way change-over valve is 1.8～2.5 with the ratio of the internal diameter of described S pipe, the length of described main valve body is 8～11 with the ratio of described S bore, described S pipe is 0.95～1.05 with the ratio of the internal diameter of described low-pressure gas pipe, and described D pipe is 0.95～1.05 with the ratio of the internal diameter of described high-pressure gas pipe.

22.. room air conditioner according to claim 1, it is characterized in that, described low-pressure gas pipe is 1.5～2.1 with the ratio of the internal diameter of described low pressure liquid pipe, described low-pressure gas pipe is 1.1～1.6 with the ratio of the internal diameter of described high-pressure gas pipe, and the ratio of the internal diameter of described low-pressure gas pipe and described highly pressurised liquid pipe, described middle press liquid pipe or described medium pressure gas pipe is between 1.6～2.5.

23. the described room air conditioner of any one in 22 according to claim 1, it is characterized in that, described room air conditioner uses the mix refrigerant of R32 cold-producing medium or R32 and R1234yf or R1234ze, and the mass ratio of R32 is more than 50% in the described mix refrigerant.

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