KR101073504B1 - Air Conditioner and its Measuring Method of pipe length - Google Patents

Abstract

The present invention relates to an air conditioner system and a pipe length measuring method of the air conditioner system, and more particularly, to an air conditioner system and a method for measuring the pipe length between the outdoor unit and the indoor unit using the vibration transmitted through the pipe. An object of the present invention is to enable easy and accurate measurement of the pipe length between the outdoor unit and each indoor unit. To this end, the air conditioner system of the present invention is provided in a connection pipe between an outdoor unit and one or more indoor units, a vibration source causing vibration in the connection pipe, and pipes of the indoor unit side and the outdoor unit side, respectively, for the indoor unit side and the outdoor unit side. Vibration sensor for detecting the vibration of each pipe, and a control unit for measuring the length of the pipe between the outdoor unit and the indoor unit using the vibration transmitted through the connection pipe.

Description

Air Conditioner and its Measuring Method of pipe length

1 is a block diagram of an air conditioning system according to an embodiment of the present invention.

2 is a block diagram showing the measurement of the pipe length according to the present invention.

3 is a time chart of the measurement of the pipe length according to the present invention.

4 is a flow chart showing a measurement process of the pipe length in accordance with the present invention.

Description of the Related Art [0002]

11a ~ e: Indoor unit 12a ~ b: Refrigerant classifier

13: outdoor unit 14: electric valve

15: RS-485 communication line 16, 17: vibration sensor

22: control unit of the outdoor unit 23: control unit of the indoor unit

24, 25: amplifier

The present invention relates to an air conditioner system and a pipe length measuring method of the air conditioner system, and more particularly, to an air conditioner system and a method for measuring the pipe length between the outdoor unit and the indoor unit using the vibration transmitted through the pipe.

In general, an air conditioning system includes an indoor unit and an outdoor unit to drive a heating and cooling cycle according to a user's request, and the indoor unit and the outdoor unit are connected by a pipe that is a passage for the refrigerant.

A typical heating and cooling cycle consists of a compressor, a condenser, an expansion valve and an evaporator. In a heat pump capable of both cooling and heating, a 4-way valve is used to reverse the circulation of refrigerant during cooling and heating, thereby realizing both heating and cooling in one system. In the cooling mode, the outdoor unit includes a compressor and a condenser, and the indoor unit includes an expansion valve and an evaporator. In the heating mode, the refrigerant circulates in reverse, the condenser of the outdoor unit serves as the evaporator, and the evaporator of the indoor unit serves as the condenser and heats the room.

Recently, a multi-type air conditioner system using a plurality of outdoor units and a plurality of indoor units is used more than a single air conditioner system. The outdoor unit and the indoor unit of the multi-type air conditioner system are usually connected by a communication line to control each indoor unit. Each indoor unit is given a unique address, and by using this address, the outdoor unit individually controls air conditioning and heating through the communication line. In the multi-type air conditioner system, simultaneous cooling and heating is possible. In this case, the refrigerant classifier is installed and the cooling valve or the heating valve is opened and closed from the refrigerant classifier according to the desired operation mode in each indoor unit to circulate the refrigerant to each indoor unit to operate in the desired mode. have.

In the case of a multi-type air conditioner system, a plurality of indoor units are connected so that the length of the pipe varies according to the installation environment of each indoor unit. When the length of the total pipe connected to the indoor unit becomes long, it is necessary to measure the pipe length between the outdoor unit and each indoor unit in order to replenish the refrigerant or perform compensation operation.

The present invention is to solve the above-mentioned problems, an object of the present invention is to provide an air conditioning system and a measuring method that can easily and accurately measure the pipe length between the outdoor unit and each indoor unit.

The air conditioner system of the present invention for achieving the above object is installed in the connection pipe between the outdoor unit and one or more indoor units, the vibration source causing vibration in the connection pipe, and the pipes of the indoor unit side and the outdoor unit, respectively, the indoor unit Vibration sensor for detecting the vibration of each side pipe and the outdoor unit side, and a control unit for measuring the length of the pipe between the outdoor unit and the indoor unit using the vibration transmitted through the connection pipe.

In addition, the control unit is characterized in that the vibration used to measure the length of the pipe is the driving sound of the electric valve on the connection pipe driven by the control of the control unit.

The controller may measure the length of the pipe between the outdoor unit and each indoor unit by using the difference in time detected by the vibration sensor of the outdoor unit and the vibration sensor of each indoor unit and the sound wave propagation speed of the pipe. Characterized in that.

In addition, the pipe length measuring method of the present invention for achieving the above object is provided in each of the connection pipe between the outdoor unit and the indoor unit and the vibration source causing vibration in the connection pipe and the pipe of the indoor unit side and the outdoor unit side of each pipe An air conditioner system including a vibration sensor for detecting vibration and a control unit controlling the indoor unit and the outdoor unit, wherein the control unit transmits a pipe length measurement start signal to the outdoor unit and each indoor unit through a communication line, Causing vibration to the pipe; Measuring vibration detection time of the pipes on the outdoor side and the indoor side; Transmitting vibration detection time of the pipes on the outdoor side and the indoor side to the controller; The control unit calculates the pipe length based on the vibration detection time of the transmitted pipes on the outdoor side and each indoor side to measure the pipe length between the outdoor unit and each indoor unit.

In addition, the vibration used to measure the pipe length is characterized in that the driving sound of the electric valve on the connecting pipe driven by the control of the controller.

In addition, in the pipe length calculation step, the pipe length between the outdoor unit and each indoor unit is measured by using the difference between the vibration detection time of the outdoor unit and the vibration detection time of each indoor unit and the sound wave propagation speed of the pipe.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 is a block diagram of an air conditioning system according to an embodiment of the present invention. As shown in FIG. 1, a plurality of indoor units 11a to e are provided, and each indoor unit is connected to the outdoor unit 13 through a communication line 15. The outdoor unit is composed of a compressor (not shown), a condenser (not shown), and a 4-way valve (not shown) to send the refrigerant in the liquid state and the refrigerant in the gas state to the refrigerant classifiers 12a to b. The refrigerant classifiers 12a to b receive the refrigerant from the outdoor unit 13, and deliver the refrigerant in the liquid state to the indoor unit being cooled, and the gaseous refrigerant to the indoor unit being heated, depending on whether the indoor units are cooled or heated.

The outdoor unit 13 is provided with an electric valve 14 for opening and closing the pipe for sending the refrigerant to the indoor unit, but a constant vibration occurs during opening and closing under the control of the control unit 22 of the outdoor unit. This vibration is transmitted through the metal pipe. The outdoor unit 13 and the indoor units 11a to e are equipped with a vibration sensor in a pipe connecting the outdoor unit and the indoor unit to sense the vibration generated by the driving of the electric valve. The controller 22 of the outdoor unit measures the length of the pipe using the detected time of the vibration of the outdoor unit and each indoor unit, which will be described in detail with reference to FIG. 3.

2 is a configuration diagram showing the measurement of the pipe length according to the present invention. Vibration of the electric valve 14 and the outdoor unit driven by the electric valve driving unit 21 under the control of the control unit 22 of the outdoor unit, as shown in FIG. The sensor 17 and the vibration sensor 16 provided in each indoor unit are provided. The control unit 22 of the outdoor unit notifies the pipe length measurement start signal to the control unit 23 of each indoor unit through the RS-485 communication line 15 when measurement of the pipe length is required. At the same time, the control unit 22 of the outdoor unit instructs the electric valve driving unit 21 to drive signals of the electric valve 14. When the electric valve 14 is driven by the electric valve driving unit 21, a constant vibration is generated, and this vibration is transmitted through a metal pipe.

Vibration sensors 16 and 17 of the outdoor unit and each indoor unit detect the vibration transmitted through the pipe by the pipe length measurement start signal. The amplification includes a filter provided in the outdoor unit and each indoor unit to distinguish it from vibration caused by noise. It is amplified in the sections 24 and 25 and delivered to the respective control sections 22 and 23. Each control unit 22, 23 uses its own timer to measure the time from the arrival of the measurement start signal until the vibration transmitted through the pipe is detected. This measurement data is transmitted to the control unit 22 of the outdoor unit or the server, if there is a server through the communication line to calculate the pipe length.

,

, 밸브구동시간)을 검출한다.(403, 404) 각 실내기의 제어부는 상기 검출시간(

,

)을 실외기의 제어부(22)로 전송하고 이 검출시간과 실외기의 제어부에서 측정한 밸브구동시간에 기초하여 각 실내기의 배관 의 길이를 계산하게 된다.(405) 배관길이의 계산은 각 실내기에서 검출한 시간에서 배관길이 측정개시신호가 전달된 때부터 전동밸브가 구동하여 실외기의 진동센세에 진동이 검출된 때까지의 시간인 밸브구동시간을 뺀 시간(

,

)이 측정하고자 하는 배관의 전동밸브(14)의 구동음에 의한 진동이 전달된 시간이므로 이 시간(

,

)에 금속의 음파전달속도(동관 : 3560m/s)를 곱하게 되면 배관의 길이가 계산되게 된다. 통상 배관의 길이가 수십m에서 200m이내인 경우 측정된 시간은 수ms에서 수십ms이므로 이 시간은 제어부 자체의 타이머로 충분한 정확도로 측정이 가능하고 배관의 길이를 짧은 시간에 정확하게 측정할 수 있다. 3 and 4 are flow charts showing the time chart of the measurement of the pipe length according to the present invention and the measurement process of the pipe length according to the present invention. When there is a necessity of measuring the pipe length, the controller 22 of the outdoor unit transmits the pipe length measurement start signal to the controller 23 of each indoor unit and drives the electric valve 14 at the same time. (401, 402) The communication signal is to be transmitted to the control unit 23 of each indoor unit at the same time as an electrical signal sound. When the measurement start signal is transmitted, the vibration sensors 16 and 17 of the outdoor unit and each indoor unit detect vibrations by the driving sound of the electric valve 14 and notify each control unit 22 or 23, and each control unit 22 or 23. Is the time from the arrival of the start signal to the length measurement of the pipe using its timer.

,

(403, 404) The control unit of each indoor unit detects the detection time (

,

) Is transmitted to the controller 22 of the outdoor unit, and the length of the pipe of each indoor unit is calculated based on the detection time and the valve driving time measured by the controller of the outdoor unit. (405) The calculation of the pipe length is detected by each indoor unit. The time subtracted from the valve drive time, which is the time from when the pipe length measurement start signal is transmitted to the time when the electric valve is driven to detect the vibration of the outdoor unit.

,

) Is the time when vibration by the driving sound of the electric valve 14 of the pipe to be measured is transmitted.

,

) Is multiplied by the sound transfer speed of the metal (copper tube: 3560m / s) to calculate the length of the pipe. In general, when the length of the pipe is within several tens of meters to 200m, the measured time is several ms to several tens of milliseconds, so this time can be measured with sufficient accuracy by the timer of the controller itself, and the length of the pipe can be accurately measured in a short time.

As described in detail above, the present invention has the effect of measuring the length of the pipe of each indoor unit quickly, accurately and simply by using the vibration transmitted through the pipe to measure the length of the pipe.

Claims (6)

Connecting piping between the outdoor unit and one or more indoor units, A vibration source causing vibration in the connection pipe, A vibration sensor installed in the pipes of the indoor unit side and the outdoor unit side to detect vibrations of the respective pipes of the indoor unit side and the outdoor unit side; And a control unit measuring a length of a pipe between the outdoor unit and the indoor unit by using the vibration transmitted through the connection pipe. The method of claim 1, The control unit is an air conditioning system, characterized in that the vibration used to measure the length of the pipe is the driving sound of the electric valve on the connection pipe driven by the control of the control unit. The method of claim 2, The control unit measures the length of the pipe between the outdoor unit and each indoor unit using the difference in time detected by the vibration sensor of the outdoor unit and the vibration sensor of each indoor unit and the sound wave propagation speed of the pipe. Characteristic air conditioning system. It includes a connection pipe between the outdoor unit and the indoor unit and a vibration source that causes vibration in the connection pipe, and a vibration sensor installed at each of the indoor unit side and the outdoor unit side pipe to detect the vibration of each pipe and the control unit for controlling the indoor unit and the outdoor unit. In the air conditioning system, Sending, by the controller, a pipe length measurement start signal to the outdoor unit and the indoor unit through a communication line and causing vibration to the pipe by the vibration source; Measuring vibration detection time of the pipes on the outdoor side and the indoor side; Transmitting vibration detection time of the pipes on the outdoor side and the indoor side to the controller; And a control unit calculates a pipe length based on the vibration detection time of the pipes on the outdoor side and the indoor side, and measures the pipe length between the outdoor unit and each indoor unit. The method of claim 4, wherein And in the step of causing vibration in the pipe, the vibration is a driving sound of an electric valve on the connection pipe driven by the control of the controller. The method of claim 4, wherein In the pipe length calculation step, the pipe length between the outdoor unit and each indoor unit is measured by using the difference between the vibration detection time of the outdoor unit and the vibration detection time of each indoor unit and the sound wave propagation speed of the pipe. Length measurement method.

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