CN205536245U - How inline outer unit of air conditioner - Google Patents

Abstract

The utility model discloses an air conditioner multi-connected outdoor machine unit, which includes outdoor machines, and each outdoor machine includes: a compressor; an outdoor machine heat exchanger; an electronic expansion valve; a refrigeration one-way valve, a refrigeration one-way valve The two ends of the two ends of the electronic expansion valve are respectively communicated with the two ends of the electronic expansion valve; the four-way valve; the other end of the heat exchanger of the outdoor unit is communicated with the other end of the indoor unit through the electronic expansion valve; it is characterized in that: the compression in any one of the outdoor units A high-pressure pressure sensor is installed on the connecting pipeline between the output end of the compressor and the four-way valve, and a low-pressure pressure sensor is installed on the connecting pipeline between the input end of the compressor and the four-way valve. There is a secondary pressure sensor on the connecting pipeline with the heat exchanger of the external unit. The utility model provides an air conditioner multi-connected external machine set, the number of pressure sensors of which is reduced, thereby saving cost.

Description

An air conditioner multi-connected outdoor unit

technical field

The utility model relates to the technical field of air conditioners, in particular to a multi-connected external unit of an air conditioner and a pressure detection method.

Background technique

Multi-split air conditioner, also known as multi-split air-conditioning system (referred to as VRV), is widely used in offices, production workshops and other occasions due to its excellent part-load characteristics and significant energy-saving effects.

For multi-connected units, in order to accurately control the indoor temperature to meet the comfort of the user experience, it needs to control the high pressure and low pressure of the air conditioning system, that is to say, low pressure control is performed during cooling, and high pressure control is performed during heating. Each external unit of the existing multi-connected unit has a high-pressure pressure sensor and a low-pressure pressure sensor respectively. The high-pressure pressure sensor is set on the output pipeline between the output end of the compressor and the four-way valve to detect heating. The high pressure value in the refrigeration mode, and the low pressure pressure sensor is arranged on the return pipeline between the four-way valve and the input end of the compressor, and is used to detect the low pressure value in the refrigeration mode. However, since the multi-connected outdoor unit is composed of multiple outdoor units, and the entire multi-connected system only needs to read the detection value of the high pressure sensor of one outdoor unit in the heating mode, the high pressure of the other outdoor units The pressure sensor is idle and wasted. Similarly, in the cooling mode, it is only necessary to read the detection value of the low-pressure pressure sensor of one external unit, and the low-pressure pressure sensors of the other external units are idle and wasted.

Therefore, for multi-connectors, the number of pressure sensors (defined as y) is twice the number of external units (defined as n), that is, y=2n (n≥2, n∈Z), and the actual application process In , the effective pressure sensor y=n+1 (n≥2, n∈Z) is used. Taking the multi-connection of 4 external units as an example, the pressure sensors designed are 2*4=8, including four high-pressure pressure sensors and four low-pressure pressure sensors, but in actual use, only 5 sensors are used, and additional The 3 pressure sensors are idle and wasted.

Although the installation of several pressure sensors on a single multi-connector is relatively small in terms of cost, no matter it is a residence, an office building, a constant temperature workshop, a shopping mall, or a scientific research institution, it is inseparable from the use of the air conditioning system, so how to solve the problem? The problem of idle waste of some pressure sensors in the multi-line is actually an important technical problem to be solved in response to the national energy saving, emission reduction and cost reduction.

Contents of the invention

The technical problem to be solved by the utility model is: to provide a multi-connected outdoor unit of an air conditioner, the number of pressure sensors is reduced, thereby saving cost.

The technical solution adopted by the utility model is to provide a multi-connected outdoor unit of an air conditioner, which includes at least two outdoor units connected in parallel and connected to the indoor unit, and each outdoor unit includes: a compressor; heat exchanger; an electronic expansion valve; a refrigeration one-way valve, the two ends of the refrigeration one-way valve are respectively connected with the two ends of the electronic expansion valve, and are used to only pass the refrigerant when the indoor unit is in the cooling mode; one four-way The valve is used to connect the output end of the compressor and one end of the heat exchanger of the outdoor unit when the indoor unit is in the cooling mode, and one end of the indoor unit and the input end of the compressor, and is switched to be used when the indoor unit is in the heating mode The output end of the compressor is connected with one end of the indoor unit, and one end of the heat exchanger of the outdoor unit is connected with the input end of the compressor; the other end of the heat exchanger of the outdoor unit is communicated with the other end of the indoor unit through an electronic expansion valve; any A high-pressure pressure sensor is installed on the connecting pipeline between the output end of the compressor and the four-way valve in an outdoor unit, and a low-pressure pressure sensor is installed on the connecting pipeline between the input end of the compressor and the four-way valve. A secondary pressure sensor is provided on the connecting pipeline between the four-way valve of the outdoor unit and the heat exchanger of the outdoor unit.

An oil separator is arranged between the compressor and the four-way valve, the input port of the oil separator communicates with the output end of the compressor, the gas outlet of the oil separator communicates with the four-way valve, and the oil outlet of the oil separator communicates with the output port of the compressor. The input of the compressor is connected.

A gas-liquid separator is arranged between the compressor and the four-way valve, the input port of the gas-liquid separator communicates with the four-way valve, and the output port of the gas-liquid separator communicates with the input port of the compressor.

After adopting the above structure, compared with the prior art, the multi-unit outdoor unit of the air conditioner of the present utility model has the following advantages: the number of pressure sensors is greatly reduced, thereby saving the cost of the multi-unit air conditioner.

Description of drawings

Fig. 1 is a schematic diagram of the distribution of an outdoor unit of an air conditioner with multiple units of the present invention.

FIG. 2 is a partially enlarged schematic diagram of the area "A" in FIG. 1 .

FIG. 3 is a partially enlarged schematic diagram of the area "B" in FIG. 1 .

Among them, 1. Indoor unit, 2. Compressor, 3. Outdoor unit heat exchanger, 4. Electronic expansion valve, 5. Refrigeration check valve, 6. Four-way valve, 7. High pressure sensor, 8. Low pressure Inductor, 9. Secondary pressure sensor, 10. Oil separator, 11. Gas-liquid separator, 12. Liquid pipe stop valve, 13. Air pipe stop valve, 14. Fan.

detailed description

Below in conjunction with accompanying drawing and specific embodiment, the utility model is further described.

The utility model provides an air conditioner multi-connected outdoor unit unit, which includes at least two outdoor units connected in parallel to the indoor unit 1, and each outdoor unit includes: a compressor 2; an outdoor unit heat exchanger 3 ; an electronic expansion valve 4; a refrigeration check valve 5, the two ends of the refrigeration check valve 5 are respectively connected with the two ends of the electronic expansion valve 4, and are used to only pass through the refrigerant when the indoor unit 1 is in the cooling mode; The through valve 6 is used to connect the output end of the compressor 2 and one end of the heat exchanger 3 of the outdoor unit, and one end of the indoor unit 1 and the input end of the compressor 2 when the indoor unit 1 is in cooling mode. In the heating mode, switch to connect the output end of the compressor 2 with one end of the indoor unit 1, and one end of the external heat exchanger 3 and the input end of the compressor 2; the other end of the external heat exchanger 3 It communicates with the other end of the indoor unit 1 through the electronic expansion valve 4; a high-pressure pressure sensor 7 is provided on the connecting pipeline between the output end of the compressor 2 in any outdoor unit and the four-way valve 6, and the input of the compressor 2 A low-pressure pressure sensor 8 is provided on the connecting pipeline between the four-way valve 6 and the four-way valve 6 of the outdoor unit, and a secondary pressure sensor 9 is provided on the connecting pipeline between the four-way valve 6 of the other outdoor units and the heat exchanger 3 of the outdoor unit.

An oil separator 10 is arranged between the compressor 2 and the four-way valve 6, the input port of the oil separator 10 communicates with the output end of the compressor 2, the gas outlet of the oil separator 10 communicates with the four-way valve 6, and the oil separator 10 communicates with the output port of the compressor 2. The oil outlet of the separator 10 communicates with the input end of the compressor 2 .

A gas-liquid separator 11 is arranged between the compressor 2 and the four-way valve 6, the input port of the gas-liquid separator 11 is connected with the four-way valve 6, and the output port of the gas-liquid separator 11 is connected with the input port of the compressor 2. The mouth is connected.

A liquid pipe shut-off valve 12 is provided on the connecting pipeline between the electronic expansion valve 4 and the indoor unit 1, a gas pipe shut-off valve 13 is provided on the connecting pipeline between the four-way valve and the indoor unit, and the liquid pipe shut-off valve 12 and The trachea stop valve 13 is an on-off switch when the indoor unit 1 and the outdoor unit are subpackaged.

Of course, the above-mentioned external unit heat exchanger needs to add a fan 14 to improve the heat exchange effect during the heat exchange process.

The above-mentioned four-way valve 6 includes a first port, a second port, a third port and a fourth port, and when the first port and the second port in the four-way valve 6 are connected, the third port is connected with the fourth port, or When the first interface is connected to the third interface, the second interface is connected to the fourth interface. The first port of the four-way valve 6 communicates with the output port of the compressor, the second port communicates with the end of the heat exchanger 3 of the external unit away from the electronic expansion valve 4 , and the third port communicates with the end of the indoor unit 1 away from the electronic expansion valve 4 . The other end of 4 is communicated, and the fourth interface is communicated with the input end of compressor 2 .

Therefore, when the indoor unit 1 is in the cooling mode, the refrigerant starts from the input end of the compressor 2 and passes through the oil-liquid separator 10, the first port of the four-way valve 6, the second port of the four-way valve 6, the outer Machine heat exchanger 3, refrigeration check valve 5 (a small part of which passes through electronic expansion valve 4), indoor unit 1, the third port of four-way valve 6, the fourth port of four-way valve 6, gas-liquid separator 11, And finally return to compressor 2.

Similarly, when the indoor unit 1 is in the heating mode, the refrigerant starts from the input end of the compressor 2 and passes through the oil-liquid separator 10, the first port of the four-way valve 6, and the third port of the four-way valve 6 in sequence. , indoor unit 1, electronic expansion valve 4, external unit heat exchanger 3, the second port of the four-way valve, the fourth port of the four-way valve, the oil-liquid separator 10, and finally returns to the compressor 2.

The above cooling check valve 5 is connected in parallel with the electronic expansion valve 4, that is, as shown in the figure, when the indoor unit 1 is in the cooling mode, the refrigerant passes through the electronic expansion valve 4 and the cooling check valve 5 from left to right, most of the refrigerant The refrigerant flows into the indoor unit 1 through the cooling check valve 5, and a small part of the refrigerant enters the indoor unit 1 through the electronic expansion valve 4. On the contrary, when the indoor unit 1 is in the heating mode, the refrigerant passes through the electronic expansion valve 4 from right to left, and It will not flow through the refrigeration check valve 5.

A pressure detection method based on the air-conditioning multi-connected outdoor unit according to claim 1, comprising:

1), read the detection value of high-pressure pressure sensor 7, low-pressure pressure sensor 8 and secondary pressure sensor 9;

2) When the indoor unit 1 is in the cooling mode, the detection value of the low-pressure pressure sensor 8 is used as the low-pressure value of the system, and the detection values of the high-pressure pressure sensor 7 and each secondary pressure sensor 9 are used as the corresponding outdoor unit. High pressure value; when the indoor unit 1 is in the heating mode, the detection value of the high pressure pressure sensor 7 is used as the high pressure value of the system, and the detection values of the low pressure pressure sensor 8 and each secondary pressure sensor 9 are used as the corresponding outdoor unit low pressure value.

Of course, the indoor unit 1 must contain a controller. The controller controls the opening and closing of the compressor 2, the fan and the solenoid valve by reading the detection signals fed back from the high-pressure pressure sensor 7, the low-pressure pressure sensor 8 and the secondary pressure sensor 9. .

The preferred embodiments of the present invention have been described above, but should not be construed as limiting the claims. The utility model is not limited to the above embodiments, and its specific structure is allowed to change, and all the various changes made within the protection scope of the independent requirements of the utility model are all within the protection scope of the utility model.

Claims (3)

1. A multi-connected outdoor unit of an air conditioner, which comprises at least two outdoor units connected in parallel with the indoor unit (1), and each outdoor unit includes: a compressor (2); One external heat exchanger (3); An electronic expansion valve (4); A refrigeration one-way valve (5), the two ends of the refrigeration one-way valve (5) are respectively connected with the two ends of the electronic expansion valve (4), and are used to only pass the refrigerant when the indoor unit (1) is in the cooling mode; A four-way valve (6), used to connect the output end of the compressor (2) and one end of the heat exchanger (3) of the outdoor unit, and one end of the indoor unit (1) and The input end of the compressor (2), when the indoor unit (1) is in the heating mode, is switched to connect the output end of the compressor (2) with one end of the indoor unit (1), and the heat exchanger (3 ) of one end and the input end of the compressor (2); The other end of the outdoor unit heat exchanger (3) communicates with the other end of the indoor unit (1) through the electronic expansion valve (4); It is characterized by: A high-pressure pressure sensor (7) is provided on the connecting pipeline between the output end of the compressor (2) in any outdoor unit and the four-way valve (6), and the input end of the compressor (2) and the four-way valve ( 6) is equipped with a low-pressure pressure sensor (8) on the connecting pipeline, and a secondary pressure sensor (9) is installed on the connecting pipeline of the four-way valve (6) of the other outdoor units and the heat exchanger (3) of the outdoor unit . 2. An air conditioner multi-connected outdoor unit according to claim 1, characterized in that an oil separator (10) is provided between the compressor (2) and the four-way valve (6), and the oil is separated The input port of the device (10) is connected with the output port of the compressor (2), the gas outlet port of the oil separator (10) is connected with the four-way valve (6), and the oil outlet port of the oil separator (10) is connected with the compressor ( 2) The input end is connected. 3. An air conditioner multi-connected outdoor unit according to claim 1, characterized in that: a gas-liquid separator (11) is provided between the compressor (2) and the four-way valve (6), and the gas-liquid separator (11) is The input port of the liquid separator (11) is communicated with the four-way valve (6), and the output port of the gas-liquid separator (11) is communicated with the input port of the compressor (2).