KR20110032337A - Piping distance measuring device of air conditioning system - Google Patents

Abstract

The present invention relates to an apparatus for measuring a distance of a pipe of an air conditioning system, the first distance detecting unit coupled to an outdoor unit pipe and transmitting a distance detection signal through the pipe, and coupled to the pipe of the indoor unit is transmitted A second distance sensing unit configured to receive a distance sensing signal to calculate a distance of the pipe, and a blocking filter coupled to the outdoor unit or the indoor unit to suppress leakage of the transmitted distance sensing signal to ground; By preventing the pipe distance detection signal from leaking through the ground of the outdoor unit or the indoor unit when measuring the piping distance of the air conditioning system, not only can the pipe distance of the air conditioning system be measured more accurately, but also more than the distance that can be measured. Long pipe lengths can be measured.

Piping distance, blocking filter, distance sensing signal, leakage

Description

A pipe measuring device for air conditioning system {APPARATUS FOR MEASURING LENGTH OF A PIPE IN AIR CONDITIONING SYSTEM}

The present invention relates to an apparatus for measuring the piping distance of an air conditioning system that can easily and accurately measure a long length of pipe distance, as well as a pipe length of an increased length beyond the measurable distance.

In general, an air conditioner includes an outdoor unit installed at an outdoor side and an indoor unit installed at an indoor side, and a connection pipe for transferring a refrigerant is provided between the outdoor unit and the indoor unit.

Such a conventional air conditioner has a long length of a connection pipe disposed between the outdoor unit and the indoor unit, and the indoor unit and the indoor unit are separated by a building structure. In addition, most of the connecting piping lies inside the building structure.

Thus, even when the connecting pipe connecting the indoor unit and the outdoor unit is long and placed inside the building, it is necessary to know the correct length of the connecting pipe in order to replenish or charge the refrigerant.

In the air conditioning system according to the related art, when the pipe distance detection signal is transmitted from the indoor unit side or the outdoor unit side to the outdoor unit side or the indoor unit side to measure the length of the pipe, the pipe distance detection signal is transmitted to the outdoor unit side or the indoor unit side as well as the indoor unit. There is a problem of detecting a very attenuated pipe distance detection signal at the side of detecting a pipe distance detection signal due to leakage of a large amount of signals through the ground of the side and the outdoor unit. In addition, when the pipe length is long, the accuracy is low, and there is a limit to the pipe distance that can be detected.

In other words, in the air conditioning system according to the prior art, the leakage of the pipe distance detection signal from the receiving side is weak due to leakage to the ground of the transmitting side and the receiving side of the pipe distance sensing signal transmitted from the indoor unit side or the outdoor unit side to the outdoor unit side or the indoor unit side. When the pipe distance to be measured is long, the pipe distance cannot be measured accurately, thereby limiting the pipe distance that can be detected.

The present invention is to solve the above problems, including a blocking filter coupled to the outdoor unit side or indoor unit side to suppress leakage of the transmitted distance detection signal to the ground, the outdoor unit side or at the time of measuring the piping distance of the air conditioning system By preventing leakage of the pipe distance detection signal through the grounding of the indoor unit, not only can the pipe distance of the air conditioning system be measured more accurately, but also the air conditioner can measure a longer pipe distance beyond the measurable distance. It is an object of the present invention to provide an apparatus for measuring the piping distance of a system.

The pipe distance measuring apparatus of the air conditioning system including the blocking filter according to the present invention is coupled to the outdoor unit side pipe and the first distance sensing unit for transmitting a distance detection signal through the pipe, and is coupled to the pipe of the indoor unit side A second distance sensing unit configured to receive the transmitted distance sensing signal and calculate a distance of the pipe, and a blocking filter coupled to the outdoor unit or the indoor unit to suppress leakage of the transmitted distance sensing signal to ground; Include.

The blocking filter may be detachably coupled between the outdoor unit and the first distance sensing unit or between the indoor unit and the second distance sensing unit.

The first distance detection unit is coupled to one end of the pipe so that the first signal processing unit for transmitting the distance detection signal through the pipe to the indoor unit, and the distance detection signal is transmitted from the first signal processing unit to the pipe. It characterized in that it comprises a first impedance coupling portion.

The first signal processor may receive a distance detection signal through the first impedance coupling unit to the pipe and measure a distance of the pipe according to the strength of the received distance detection signal.

The second distance detection unit, the second impedance coupling unit coupled to the other end of the pipe to receive the distance detection signal from the pipe, and the second sensing the strength of the received distance detection signal to calculate the distance of the pipe It characterized in that it comprises a signal processing unit.

The second signal processor may transmit the distance detection signal to the pipe through the second impedance coupling unit.

The first distance sensing unit or the second distance sensing unit may further include a display unit for displaying the distance information of the pipe to the outside.

The measuring device may further include a first controller configured to control the first distance detector.

The measuring device may include a second controller to control the second distance detector.

The distance sensing signal is characterized in that the signal of a single frequency, it is preferably a sinusoidal signal.

The distance of the pipe may be calculated by using a predetermined impedance value of the pipe, an impedance value of the impedance coupling unit, the strength of the distance detection signal during transmission, and the strength of the distance detection signal detected by the receiving side. do.

The pipe distance measuring device of the air conditioning system according to the present invention prevents the pipe distance detection signal from leaking from the pipe to the ground, so that the pipe length can be measured more accurately, and the length of the pipe that can be measured can be further extended. have.

In addition, the piping distance detection device of the air conditioning system according to the present invention by measuring the length of the refrigerant pipe installed between the indoor unit and the outdoor unit of the air conditioning system easily and accurately by supplying the appropriate amount of refrigerant, malfunction of the air conditioning system or air conditioning system due to lack of refrigerant It is possible to prevent the deterioration of the air conditioning ability.

In addition, the piping distance measuring device of the air conditioning system according to the present invention is not exposed to the outside of the piping installed between the indoor unit and the outdoor unit of the air conditioning system due to the structure of the building installed the air conditioning system, the manager of the air conditioning system physically reduces the piping distance Even if the measurement is not possible, it can be easily installed, and the pipe distance can be easily measured through a simple operation, providing convenience to users or administrators, and reducing management costs.

Hereinafter, with reference to the accompanying drawings will be described in detail the piping distance apparatus and method of the air conditioning system according to the present invention.

1 is a block diagram of a pipe distance measuring device for measuring the distance of the refrigerant pipe of the air conditioning system according to an embodiment of the present invention, Figure 2 is a distance of the refrigerant pipe of the air conditioning system according to another embodiment of the present invention It is a block diagram of the piping distance measuring apparatus.

1 and 2 together, the pipe distance measuring apparatus according to the present invention is coupled to the outdoor unit side pipe and the first distance detection unit 120 for transmitting the distance detection signal through the pipe, and the pipe on the indoor unit side The second distance detection unit 220 coupled to receive the transmitted distance detection signal to calculate the distance of the pipe, and coupled to the outdoor unit or the indoor unit side leakage of the transmitted distance detection signal to the ground And a blocking filter 300 for suppressing.

The blocking filter 300 is coupled to the pipe 3 between the outdoor unit 110 and the first distance sensing unit 120 or between the indoor unit 210 and the second distance sensing unit 220, and is removable from the pipe. To be combined.

The first distance detector 120 may include a first signal processor 122 transmitting the distance detection signal through the pipe to the indoor unit, and the distance detection signal from the first signal processor to the pipe. It includes a first impedance coupling portion 121 is coupled to one end of the pipe.

The first signal processor 122 transmits the distance detection signal to the pipe through the first impedance coupler 121.

On the contrary, the first signal processor 122 may receive a distance detection signal from the pipe through the first impedance coupling unit 121 and measure the distance of the pipe according to the strength of the received distance detection signal.

The second distance detection unit 220, the second impedance coupling unit 221 coupled to the other end of the pipe to receive the distance detection signal from the pipe, and the strength of the received distance detection signal pipe by sensing It includes a second signal processing unit 222 for calculating the distance of.

The second signal processor 222 receives the distance detection signal from the pipe through the second impedance coupling unit 221 and measures the distance of the pipe according to the strength of the received distance detection signal.

On the contrary, the second signal processor 222 transmits the distance detection signal to the pipe through the second impedance coupler 221.

Here, each of the first distance sensing unit or the second distance sensing unit may further include a first display unit 123 and a second display unit 223 for displaying the distance information of the pipe to the outside. The first display unit 123 and the second display unit 223 may display the detected length of the refrigerant pipe or other operation state information to a user or an administrator.

The measuring device includes a first controller 111 that controls the first distance detector 120, and a second controller 211 that controls the second distance detector 220. The first controller Each of the 111 and the second control unit 211 is preferably provided inside the outdoor unit and the indoor unit.

In the present invention, the distance sensing signal is a sinusoidal signal of a single frequency.

The distance of the pipe is calculated by using a predetermined impedance value of the pipe, an impedance value of the impedance coupling unit, the strength of the distance sensing signal during transmission, and the strength of the distance sensing signal detected by the receiving side.

The blocking filter 300 generates an impedance on the refrigerant pipe side and prevents a high frequency AC signal from leaking to the ground side for pipe communication between the outdoor unit and the indoor period. The blocking filter 300 may be fastened to one or both sides according to the transmission and reception distance.

Hereinafter, a process of transmitting and receiving the pipe distance detection signal will be described in more detail with reference to FIGS. 1 to 3.

3 is an equivalent circuit diagram of a refrigerant pipe distance measuring apparatus when the distance detection signal is transmitted from the outdoor unit.

The first impedance coupler 121 forms an electrical circuit to transmit and receive a distance sensing signal, which is an electrical signal, between the first signal processor 122 and the refrigerant pipe. In addition, the second impedance coupler 221 also allows the electrical signal to be formed between the second signal processor 222 and the refrigerant pipe so as to transmit and receive a distance sensing signal, which is an electrical signal. In this way, the strength of the received distance sensing signal can be measured. The strength of the distance detection signal may be calculated by measuring the amplitude of the received distance detection signal.

By the above configuration, a user or a manager can transmit the distance detection signal from the indoor unit 210 or the outdoor unit 110 side, and also receive the incident distance detection signal. Therefore, convenience of management can be provided to a user or an administrator.

The first and second impedance couplers 121 and 221 may detect the strength of the distance sensing signal received by impedance matching with the refrigerant pipe, and terminate the ends of the refrigerant pipe 3a and 3b according to a user's implementation method. It can be combined with the refrigerant pipe at a point that is 1/4 or 1/2 of the wavelength of the distance detection signal from.

In addition, the first and second impedance couplers 121 and 221 may be magnetic materials. In the case of such a magnetic material it is possible to minimize the attenuation of the signal by the impedance coupling unit itself.

 Therefore, the information about the measured pipe distance is calculated at the indoor unit side through the refrigerant pipes arranged in the indoor and outdoor periods and collected at the outdoor unit side, and displays the respective refrigerant pipe distances from the respective display units to the plurality of indoor units.

Each of the first and second distance sensing units 121 and 221 is controlled by the control units 111 and 211 of the indoor and outdoor air, but may include a separate control unit.

The blocking filter 300 generates an impedance on the refrigerant pipe side and prevents a high frequency AC signal from leaking to the ground side for pipe communication between the outdoor unit and the indoor period. The blocking filter 300 may be fastened to one or both sides according to the transmission and reception distance.

When an AC signal flows through a refrigerant pipe used for sensing a pipe distance or for indoor / outdoor communication, the AC signal is transmitted and received by the internal impedance of the indoor unit and the outdoor unit. However, since the impedance value of the indoor unit or the outdoor unit with respect to the AC signal is very small, the AC signal leaks to the ground side and the distance between the indoor unit and the outdoor period is very short. For example, transmission and reception is possible within 5m when using the 100KHz band frequency.

On the other hand, as shown in FIG. 1, when the blocking filter is coupled to the outdoor unit to block the AC signal leaking to the ground side, the transmission / reception distance increases. For example, transmission and reception of 5 m or more and 20 m or less are possible when using the 100 KHz band frequency. In particular, if the blocking PPI filter 300 is installed at both ends, for example, the pipe distance can be detected even at a long distance of 100 m or more, or the pipe communication can be performed.

Although the AC signal transmitted from the first signal processor 122 flows along the refrigerant pipe, most of the signal leaks to the transmitter ground side, and some signals are transmitted to the opposite side. On the receiver side, signal leakage occurs to the receiver ground side, so that only the weak signal is received by the second signal processor 222.

According to the present invention, when the AC signal transmitted from the first signal processing unit 122 flows through the refrigerant pipe, the blocking current is blocked by the blocking filter 300 so that most of the signal is transmitted to the opposite side. . Even if a signal leakage occurs to the receiver ground side, the receiver may receive a signal by the second signal processor 222 because the signal strength of the transmitted data is high. When transmitted from the side without the blocking filter 300, the strength of the AC signal is weakened.

Hereinafter, referring to FIG. 4, an operation of measuring a pipe distance by using an electrical equivalent circuit of the indoor and outdoor air 110 and 210, the refrigerant pipe 3, and the impedance coupling units 121 and 221 which are magnetic bodies will be described in detail.

FIG. 4 is an equivalent circuit diagram when a voltage applied to a distance sensing unit on the indoor unit side is calculated in the equivalent circuit shown in FIG. 3.

When an AC signal flows through the refrigerant pipe installed between the indoor and outdoor air, the AC signal exhibits attenuation characteristics with distance due to the transmission line impedance Z ₀ of the pipe itself.

The transmission line impedance (Zo) is proportional to the distance, and the AC signal used to detect the distance of the refrigerant pipe has a signal strength due to the transmission line impedance (Z ₀ ) and the impedance junction (Z _core , 121,221). Decreases.

That is, if the impedance value of the impedance coupling unit and the AC control signal strength of the transmitting and receiving end are known, distance information can be known inversely.

The transmission line impedance is composed of R (resistance), L (inductance), C (capacitance), and G (conductance) components.

In the result of Equation 1 in the actual refrigerant pipe jwL >> R, jwC >> G, so the R, G components can be ignored. That is, it can be seen that the loss component of the distance sensing signal is very small, and Equation 1 can be approximated as Equation 2.

As can be seen from the result of Equation (2), Zo is proportional to the distance and can be expressed as a function of the distance.

When the first and second impedance couplers 121 and 221 are formed of a magnetic material, the impedance Zcore of the first and second impedance couplers 121 and 221 may be expressed by Equation 3 since only the L component is formed.

Therefore, when the intensity of the received distance sensing signal is calculated using the equivalent circuit shown in FIG.

If Equation 4 is rearranged as a distance function, it can be expressed as Equation 5.

As a result, the distance of the refrigerant pipe calculated by the present invention is represented by the equation (6).

In the above, the present invention has been described in detail with respect to measuring the length of the refrigerant pipes installed between the indoor and outdoor air of the air conditioning system based on the embodiments of the present invention and the accompanying drawings, but various kinds of pipes having electrical conductivity It can also be applied to measure the length of pipes in systems or apparatus. In addition, the scope of the present invention is not limited by the above embodiments and drawings, the scope of the present invention will be limited only by the contents described in the claims below.

1 is a block diagram of a pipe distance measuring apparatus of an air conditioning system for measuring a distance of a refrigerant pipe of an air conditioning system according to an exemplary embodiment of the present invention.

2 is a block diagram of a piping distance measuring apparatus of an air conditioning system for measuring a distance of a refrigerant pipe of an air conditioning system according to another exemplary embodiment of the present invention.

3 is an equivalent circuit diagram of a refrigerant pipe distance measuring apparatus when the distance detection signal is transmitted from the outdoor unit.

FIG. 4 is an equivalent circuit diagram when a voltage applied to a distance sensing unit on the indoor unit side is calculated in the equivalent circuit shown in FIG. 3.

Claims (12)

In an air conditioning system having at least one outdoor unit and an indoor unit, A first distance detection unit coupled to the outdoor unit pipe and transmitting a distance detection signal through the pipe; A second distance detecting unit coupled to the pipe of the indoor unit to calculate the distance of the pipe by receiving the transmitted distance detecting signal; And And a blocking filter coupled to the outdoor unit side or the indoor unit side to suppress leakage of the transmitted distance detection signal to the ground. The method of claim 1, The blocking filter may be detachably coupled between the outdoor unit and the first distance detection unit or between the indoor unit and the second distance detection unit. The method according to claim 1 or 2, The first distance detecting unit, A first signal processor for transmitting the distance detection signal to the indoor unit through the pipe; And And a first impedance coupler coupled to one end of the pipe such that the distance detection signal is transmitted from the first signal processor to the pipe. The method of claim 3, The first signal processing unit receives a distance detection signal to the pipe through the first impedance coupling unit to measure the distance of the pipe according to the strength of the received distance detection signal, characterized in that the piping distance measuring apparatus. The method according to claim 1 or 2, The second distance detection unit, A second impedance coupling part coupled to the other end of the pipe to receive the distance detection signal from the pipe; And And a second signal processor configured to detect the strength of the received distance detection signal and calculate a distance of the pipe. The method of claim 5, And the second signal processor transmits the distance detection signal to the pipe through the second impedance coupling part. The method of claim 1, The first distance detecting unit or the second distance detecting unit further comprises a display unit for displaying the distance information of the pipe to the outside; piping distance measuring apparatus of the air conditioning system, characterized in that it further comprises. The method according to claim 1 or 2, The sensing device further comprises a first control unit for controlling the first distance sensing unit; piping distance measuring apparatus of the air conditioning system, characterized in that it further comprises. The method according to claim 1 or 2, The sensing device comprises a second control unit for controlling the second distance detecting unit; piping distance measuring apparatus of the air conditioning system comprising a. The method according to claim 1 or 2, The distance sensing signal is a pipe distance measuring apparatus of the air conditioning system, characterized in that the signal of a single frequency. The method of claim 10, And said single frequency signal is a sinusoidal wave. The method according to claim 1 or 2, The distance of the pipe may be calculated by calculating a distance of the pipe using a predetermined impedance value of the pipe, an impedance value of the impedance coupling unit, the strength of the distance detection signal during transmission, and the strength of the distance detection signal detected at the receiving side. Piping distance measuring device of the air conditioning system.

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