KR20120085124A - Piping cummunition system - Google Patents

Abstract

PURPOSE: A piping communication device is provided to couple a signal terminal and signal line firmly by coupling the signal terminal being separated from a core assembly to a coolant pipe. CONSTITUTION: A piping communication device comprises a signal transmitting unit. The signal transmitting unit is coupled with a coolant pipe(40) connecting an outdoor unit and an indoor unit to be detached and elastically by being made of elastic members. The signal transmitting unit transmits signals transmitted through the coolant pipe to a MICOM.

Description

Piping communication device {PIPING CUMMUNITION SYSTEM}

The present invention relates to a pipe communication device, and more particularly, to a pipe communication device in which a signal transmission unit is installed inside an outdoor unit or an indoor unit.

In general, an air conditioner is classified into an indoor unit and an outdoor unit, and the indoor unit and the outdoor unit are electrically connected to transmit an electric signal. However, when a plurality of indoor units are connected in parallel to one outdoor unit or a refrigerant pipe is installed inside a wall of a building and a plurality of indoor units are connected in parallel to the refrigerant pipe, each indoor unit is electrically connected to a smaller number of outdoor units. It is often difficult to connect.

Therefore, recently, a technique for transmitting and receiving an electric signal using a refrigerant pipe connecting a plurality of indoor units and a smaller number of outdoor units has been introduced. For example, the gas and liquid pipes may be electrically connected by connecting the gas side refrigerant pipe (hereinafter referred to as gas piping) and the liquid side refrigerant pipe (hereinafter referred to as liquid piping) to the control board of the outdoor unit and the control board of the indoor unit. Each is used as a communication medium for transmitting control signals between indoor units and outdoor units. To this end, a signal transmission unit is installed in the refrigerant pipe, and a signal line of the signal transmission unit electrically connects the respective control plates and the refrigerant pipe.

The signal transmission unit is composed of a core assembly to achieve an impedance to the AC electrical signal, and a signal terminal for electrically connecting the refrigerant pipe and each control plate. The core assembly is typically coupled to a pair of cores formed in a semi-circular cross-section is accommodated in the core holder to surround the refrigerant pipe, the signal terminal is supported by the core assembly so that the inner peripheral surface thereof in contact with the refrigerant pipe, the refrigerant pipe It is coupled to or separated from the core assembly is coupled to the refrigerant pipe.

However, when the signal terminal is supported by the core assembly as described above, the signal terminal can be smoothly contacted with the refrigerant pipe only when the inner circumferential surface of the core assembly is formed to be substantially the same as the outer diameter of the refrigerant pipe. However, this has caused a problem that the size of the core assembly is determined according to the size of the refrigerant pipe, so that one core assembly cannot be used universally for pipes of various sizes.

In addition, when the signal terminal is separated from the core assembly, it may not be easy to assemble a signal line for transmitting an electrical signal to the control board to the signal terminal, or may not be firmly assembled even if assembled, and thus vibration of the refrigerant pipe may occur. There was a problem in that the signal terminal and the signal line were separated.

An object of the present invention is to separate the signal terminal from the core assembly to the refrigerant pipe so that the core assembly can be universally applied to pipes of various sizes, while the signal terminal and the signal line can be easily and firmly assembled. It is to provide a communication device.

In order to achieve the object of the present invention, the signal transmission unit coupled to the refrigerant pipe connecting between the outdoor unit and the indoor unit and transmits the signal received and received through the refrigerant pipe to the microcomputer; including, the signal transmission unit is a conductor Provided is a pipe communication device is formed in a single unit is detachably coupled to the refrigerant pipe.

In order to achieve the object of the present invention, the signal transmission unit coupled to the refrigerant pipe connecting between the outdoor unit and the indoor unit and transmits the signal received and received through the refrigerant pipe to the microcomputer; including, the signal transmission unit is a conductor Provided is a pipe communication device in which the signal terminal is fixedly coupled to the refrigerant pipe.

In the pipe communication apparatus of the present invention, the signal terminal is made of a single component such as a seed ring is elastically coupled to the refrigerant pipe, or coupled to or coupled by clamping like a clamp or can be easily assembled to the signal terminal in the refrigerant pipe. In addition, by connecting or welding the signal terminal and the signal line by a connector to prevent the signal terminal and the signal line is unintentionally separated by the piping communication effect can be improved.

1 is a system diagram showing an air conditioner having a pipe communication device according to the present invention,
FIG. 2 is a perspective view illustrating an assembly state of a refrigerant pipe and an outdoor unit case when the signal transmission unit is installed inside the outdoor unit in the air conditioner according to FIG. 1;
3 is a perspective view showing an embodiment of an assembly method of a signal terminal according to FIG. 2;
4 and 5 are perspective views showing other embodiments of the assembly method of the signal terminal according to FIG.

Hereinafter, a piping communication apparatus according to the present invention will be described in detail with reference to the embodiment shown in the accompanying drawings.

1 is a system diagram showing an air conditioner having a pipe communication device according to the present invention, Figure 2 is a diagram showing the assembly state of the refrigerant pipe and the outdoor unit case when the signal transmission unit is installed inside the outdoor unit in the air conditioner according to FIG. Perspective view.

As shown in the drawing, an air conditioner having a pipe communication device according to the present invention includes an outdoor unit 10 and an indoor unit 20 arranged with the outer wall of a building interposed therebetween so that the gas pipe 30 and the liquid pipe 40 or gas are provided. The electrical signal is transmitted and received through the pipe 30 or the liquid pipe 40.

The outdoor heat exchanger 11 of the outdoor unit 10 and the indoor heat exchanger 21 of the indoor unit 20 are connected to both ends of the gas pipe 30 and the liquid pipe 40, respectively. The electric signal transmitted between the 11 and the indoor side heat exchanger 21 is for transmitting the outdoor side control unit 12 of the outdoor unit 10 and the indoor side control unit 22 of the indoor unit 20. The outdoor side signal transmission unit 13 and the indoor side signal transmission unit 23 are installed.

The outdoor signal transmission unit (here, since the outdoor signal transmission unit and the indoor signal transmission unit are configured identically to each other, the outdoor signal transmission unit will be described below as a representative example). A core assembly 50 coupled to the AC assembly to achieve an impedance with respect to an AC electrical signal, separated from the core assembly 50, coupled to the refrigerant pipe 40, and connected to the refrigerant pipe 40 and the outdoor control unit ( 12) is composed of a plurality of signal terminals (101, 102) for electrically connecting between.

The core assembly 50 is usually coupled to a pair of cores formed in a semi-circular cross section is accommodated in the core holder to surround the refrigerant pipe (40). The core assembly 50 is magnetic so as to form an inductance of the number of turns 1 and is coupled to surround the gas pipe 30 or the liquid pipe 40.

For example, in the case of a toroidal core having an inner radius R1, an outer radius R2, a height h, and a permeability μ, the magnetic inductance L is L = (μh / 2π) ln (R2 / R1) And has an impedance of Z = j2? FL for an AC signal of frequency f. Therefore, the AC control signal transmitted from the outdoor control unit 12 is terminated with an impedance of 2 * Z on the outdoor heat exchanger 11 side by the action of the core through the gas pipe 30 and the liquid pipe 40. (Iii) A transmission line is formed.

Therefore, when an AC signal flows through the refrigerant pipes 30 and 40 installed between the outdoor unit 10 and the indoor unit 20, the AC signal is attenuated according to the distance by the transmission line impedance Z ₀ of the pipe itself. Will show characteristics. And, the impedance (Zo) of the transmission line is proportional to the distance, the AC signal used to detect the distance of the refrigerant pipe 30, 40 is a signal by the transmission line impedance (Z ₀ ) and the core The intensity is reduced. That is, knowing the impedance value of the core and the AC control signal strength of the transmitting and receiving end, the distance information can be known inversely. The refrigerant pipe may be used as a transmission path for the distance detection signal, and the pipe distance between the outdoor unit and the indoor unit used for the refrigerant amount calculation may be automatically calculated.

Here, the signal terminals 101 and 102 are formed of a single piece of a conductor, are detachably coupled to the refrigerant pipe 40 on both sides of the core assembly 50, and the signal terminals 101 and 102 are detachable. Signal lines 201 and 202 extending from the outdoor side control unit 12 may be press-fitted or welded to one side thereof. Hereinafter, since both signal terminals are symmetrical, one signal terminal will be described as an example.

As shown in FIG. 3, the signal terminal 101 is fixed to the liquid pipe 40 and extends integrally from the fixing part 111 to be detachably attached or welded to the signal line 201. It is made of a connecting portion (112).

The fixing part 111 is formed in the shape of a seed (C), the connection portion 112 having a predetermined height to be assembled or welded to the signal line 201 on one side of the outer peripheral surface of the fixing part 111 in a protrusion shape. Can be formed. The fixing part 111 may be formed of a material having elasticity so that it may be coupled to the liquid pipe 40 while being separated.

The signal terminal as described above closes the liquid pipe 40 while the operator opens both ends of the fixing part 111 to both sides of the liquid pipe 40 and then releases the fixing part 111 to be resilient. Combined.

Then, the connection part 112 is inserted into the connector 211 provided in the signal line 200 so as to be electrically connected, or directly connected to the connection part 112 of the signal terminal 101 and the signal line 201 to be electrically connected. It can also be turned on.

In this way, the signal terminal can be easily assembled to the refrigerant pipe, and the pipe communication effect can be enhanced by preventing the signal terminal and the signal line from being unintentionally separated after assembly.

Another embodiment of the signal terminal according to the present invention is as follows.

That is, in the above-described embodiment, the signal terminal 101 forms a single-piece conductor in the shape of a seed ring so that the signal terminal 101 can be detachably attached to the refrigerant pipe. However, in the present embodiment, as shown in FIG. A fastening part 121 made of a flexible material is formed to surround the liquid pipe 40, and both ends thereof are fastened to each other. A connector 211 of the liquid pipe 40 and the signal line 201 is formed at the center of the fastening part 121. ) Is provided with a connection portion 122 is embedded. In addition, an adapter 123 is provided on the inner circumferential surface of the fastening part 121 to be coupled to the connection part 122 to be in close contact with the liquid pipe 40. The adapter 123 is preferably formed of an elastic material so as to be elastically coupled to the outer circumferential surface of the liquid pipe 40.

In addition, the signal line 201 may be inserted into or coupled to the connection part 122 using the connector 211 as described above, or directly welded to the signal line 201.

The effect of the signal terminal according to the present embodiment as described above is similar to the above-described embodiment. However, in this embodiment, as the fastening part 121 of the signal terminal 101 surrounds the liquid pipe 40 and both ends thereof are coupled to each other, the signal terminal 101 is firmly coupled to the liquid pipe 40. In addition, it is possible to facilitate the assembly of the signal lines.

Another embodiment of the signal terminal according to the present invention is as follows.

That is, in the above-described embodiments, the signal terminal 101 is detachably coupled to the liquid pipe 40, but in this embodiment, the signal terminal 101 is fixedly coupled to the liquid pipe 40. will be.

For example, as shown in FIG. 5, the signal terminal 101 of the present embodiment is fixedly coupled to the liquid pipe 40 by welding to form a connection portion 131, and the signal line 201 is connected to the connection portion 131. The connector 211 may be formed to be inserted and detachably coupled thereto, or the signal line 201 may be directly welded to the connection part 131.

The operation and effect of the signal terminal according to the present embodiment as described above is similar to the above-described embodiments, so description thereof will be omitted. However, when the signal terminal is fixedly coupled to the refrigerant pipe by welding as in the present embodiment, the signal terminal may be more easily and firmly assembled.

40: liquid piping 101,102: signal terminal
111: fixing part 112: first connection part
121: fastening portion 122: first connection portion
123: adapter 131: first connection portion
201,202: signal line 211: second connection portion

Claims (9)

And a signal transfer unit coupled to a refrigerant pipe connecting the outdoor unit and the indoor unit to transfer a signal received and received through the refrigerant pipe to the microcomputer.
The signal transmission unit,
And a signal terminal made of a conductor is detachably coupled to the refrigerant pipe in a detachable manner. The method of claim 1,
The signal terminal is a pipe communication device formed of a material having an elasticity is elastically coupled to the refrigerant pipe. The method of claim 1,
The signal terminal is formed of a flexible material and one side of the pipe communication device is provided with a fixing portion for transmitting the refrigerant pipe and the electrical signal wrap the refrigerant pipe. The method of claim 3,
The fixing unit is a pipe communication device is formed of an elastic material is provided with an adapter (adaptor) in close contact with the refrigerant pipe. And a signal transfer unit coupled to a refrigerant pipe connecting the outdoor unit and the indoor unit to transfer a signal received and received through the refrigerant pipe to the microcomputer.
The signal transmission unit,
And a signal terminal made of a conductor is fixedly coupled to the refrigerant pipe. The method according to any one of claims 1 to 5,
The signal terminal is a pipe communication device detachably coupled with the signal line extending from the micom. The method of claim 6,
The refrigerant pipe is coupled to the core assembly forming an impedance to the electrical signal transmitted through the refrigerant pipe,
And the signal terminal is separated from the core assembly and independently coupled to the refrigerant pipe at at least one side of the core assembly. The method according to any one of claims 1 to 5,
And a signal line extending from the micom is integrally fixedly coupled to the signal terminal. The method of claim 8,
The refrigerant pipe is coupled to the core assembly forming an impedance to the electrical signal transmitted through the refrigerant pipe,
And the signal terminal is separated from the core assembly and independently coupled to the refrigerant pipe at at least one side of the core assembly.

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