KR20110102034A - Core assembly for air conditionner - Google Patents

Abstract

The present invention relates to a core assembly of an air conditioner. In the present invention, the core holder is formed with at least one split protrusion in the middle of the receiving space so that a plurality of cores can be arranged in the longitudinal direction of the pipe, the core holder to a plurality of cores to increase the impedance effect of the core assembly When the plurality of cores can be simply and stably supported when doing so, it is possible to reduce costs by simplifying the manufacturing process and assembly process of the core assembly. In addition, as the inner diameter of the core and the core holder is formed larger than the outer diameter of the conventionally used refrigerant pipe, the core assembly can be universally applied to refrigerant pipes of various sizes even if the size of the refrigerant pipe is changed.

Description

Core Assembly of Air Conditioner {CORE ASSEMBLY FOR AIR CONDITIONNER}

The present invention relates to an air conditioner that transmits a signal using a pipe between an indoor unit and an outdoor unit, and more particularly, to a core assembly of an air conditioner that achieves an impedance to an electrical signal.

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 between a plurality of indoor units and fewer outdoor units has been introduced. For example, an electrical insulation device is provided at each indoor unit side and outdoor unit side of the gas side refrigerant pipe (hereinafter, gas pipe) and the liquid side refrigerant pipe (hereinafter, liquid pipe). Then, the control plate of the indoor unit is connected to the gas piping and the liquid piping, and the control plate of the outdoor unit is connected to the gas piping and the liquid piping. The gas pipe and the liquid pipe are used as communication media for control signals between indoor units and outdoor units, respectively.

Here, the refrigerant pipe is provided with a core assembly to achieve an impedance to the AC electrical signal to double the communication performance. The core assembly 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, the core holder has a signal terminal for electrically connecting the refrigerant pipe and each control plate to the refrigerant It is coupled to make contact with the pipe. In addition, the core holder has a pair of detachable protrusions and detachable grooves formed on both sides of the joint surface in a hooked manner to maintain the core wrapped around the pipe.

However, in the core assembly of the conventional air conditioner, as a pair of cores having a semi-circular cross section is generally accommodated in one core holder, the length of the core may be increased or a plurality of cores may be used to increase the cross-sectional area of the core to increase the impedance effect. Core assemblies shall be provided in series in the longitudinal direction of the pipe. However, when the length of the core is increased, mold cost or press cost is increased, so it may be advantageous to arrange a plurality of small cores in terms of production cost of the core. However, when a plurality of short cores are arranged in the longitudinal direction, the number of core assemblies increases, thereby making the assembly work inconvenient and increasing the cost.

In addition, since the core assembly of the conventional air conditioner has a signal terminal for connecting the refrigerant pipe and the control circuit to be supported by the core assembly to be in contact with the refrigerant pipe, the inner circumferential surface of the core assembly is almost the same as the outer diameter of the refrigerant pipe. It is formed. Therefore, since the size of the core assembly is determined according to the size of the refrigerant pipe, there is a problem in that one core assembly cannot be universally used for various sizes of pipes.

An object of the present invention is to provide a core assembly of an air conditioner that can increase the number of the core to increase the cross-sectional area of the core without increasing the number of the core assembly.

Another object of the present invention is to provide a core assembly of an air conditioner that can be applied to one core assembly in a variety of pipes of various sizes.

In order to achieve the object of the present invention, the core is provided to surround the outer circumferential surface of the pipe connecting between the outdoor unit and the indoor unit to achieve an impedance to the electrical signal transmitted and received through the pipe; And a core holder in which an accommodation space is formed to accommodate the core and coupled to the pipe, wherein the core holder includes at least one core in the middle of the accommodation space such that a plurality of cores can be arranged in the longitudinal direction of the pipe. Provided is a core assembly of an air conditioner in which a divided protrusion is formed.

In the core assembly of the air conditioner according to the present invention, at least one split protrusion is formed in the middle of a receiving space of the core holder such that a plurality of cores may be arranged in a longitudinal direction of a pipe, thereby providing an impedance effect of the core assembly. In order to increase the number of the cores to increase the number of cores can be simply and stably supported, thereby reducing costs by simplifying the manufacturing process and assembly process of the core assembly. In addition, as the inner diameter of the core and the core holder is formed larger than the outer diameter of the conventionally used refrigerant pipe, the core assembly can be universally applied to refrigerant pipes of various sizes even if the size of the refrigerant pipe is changed.

1 is a schematic diagram showing an air conditioner having a signal transmission device according to the present invention;
Figure 2 is a perspective view showing a core assembly of the signal transmission device according to Figure 1,
3 is a cross-sectional view taken along the line "Ι-Ι" of FIG.
4 is a cross-sectional view illustrating another example of the divided protrusion in FIG. 2;
5 is a perspective view illustrating a state in which the core assembly according to FIG. 2 is coupled to a refrigerant pipe;
6 and 7 are schematic views showing embodiments for a case where there are a plurality of core assemblies according to FIG. 2.

Hereinafter, the core assembly of the air conditioner according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

1 is a system diagram showing an air conditioner having a signal transmission device according to the present invention.

As shown in the drawing, the air conditioner according to the present invention is mainly composed of an outdoor unit 10 and an indoor unit 20, and the outdoor unit 10 and the indoor unit 20 are disposed with the outer wall of the building interposed between the gas pipes ( 30) and the liquid pipe 40 is connected to each other.

The outdoor unit 10 includes an outdoor side heat exchanger 11, an outdoor unit controller 12, and an outdoor unit signal combiner 13. The outdoor unit control unit 12 exchanges a control signal through an AC signal, and the AC control signal output from the outdoor unit control unit 12 passes through the outdoor unit side signal coupling unit 13 to the gas pipe 30. Or is coupled to the other side of the liquid pipe 40 or both pipes 30, 40 are transmitted to the indoor unit 20.

The indoor unit 20 includes an indoor side heat exchanger 21, an indoor unit controller 22, and a signal combiner 23. In addition, the indoor unit controller 22 exchanges control signals via an AC signal like the outdoor unit, and the AC control signal output from the indoor unit controller 22 is connected to the gas pipe via the signal coupling unit 23 ( 30 or liquid pipe 40 or both pipes 30 and 40 are transmitted to the outdoor unit 20 as a medium.

Both the outdoor unit side signal coupling unit 13 and the indoor unit side signal coupling unit 23 have a core made of a magnetic material so as to achieve an inductance of the number of turns 1. Thus, the gas pipe 30 or the liquid pipe ( 40) are combined to wrap each. .

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 unit control unit 12 is terminated with an impedance of 2 * Z on the outdoor unit heat exchange unit 11 side by the action of a core through the gas pipe 30 and the liquid pipe 40. 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. In addition, the impedance (Zo) of the transmission line is proportional to the distance, and the AC signal used to detect the distance of the refrigerant pipe (30, 40) is the transmission line impedance (Z ₀ ) and the signal coupling unit 13 (23) reduces the signal strength. That is, knowing the impedance value of the signal coupling unit 13, 23 and the AC control signal strength of the transmitting and receiving end, the distance information can be known inversely.

By the above configuration, the refrigerant pipe can be used as a transmission path for the distance detection signal, and through this, the pipe distance between the indoor unit and the outdoor unit used for the refrigerant amount calculation can be automatically calculated.

2 is a perspective view illustrating a core assembly of the signal transmission device according to FIG. 1, FIG. 3 is a cross-sectional view taken along the line “Ι-Ι” of FIG. 2, and FIG. 4 is a cross-sectional view illustrating another example of the divided protrusion in FIG. 2. 5 is a perspective view illustrating a state in which the core assembly according to FIG. 2 is coupled to a refrigerant pipe. Hereinafter, the outdoor unit signal coupling unit installed in the liquid refrigerant pipe will be described as a representative example.

As shown in these drawings, the outdoor unit side signal coupling part 13 according to the present invention includes a core assembly 100 forming an impedance.

The core assembly 100 is made of a material having magnetic properties, and includes a core 110 surrounding the refrigerant pipe 40 and the core 110 to accommodate the core 110 so that the refrigerant pipe 40 can be accommodated. It is made of a core holder 120 to wrap.

The core 110 is divided into a plurality of partial cores (in the drawing, two pairs are shown), which are divided along a central axis in the longitudinal direction (in the drawing, a two-divided example is shown) and assembled into a cylindrical shape having a predetermined length. (111, 112) (113, 114).

The partial cores 111, 112, 113, and 114 are continuously disposed along the longitudinal direction, and thus, a plurality of pairs of partial cores may be manufactured to reduce the manufacturing cost by making processing easier than forming the pair of long partial cores. Can be. However, in this case, the impedance effect can be somewhat reduced compared to forming a pair of partial cores.

In addition, the core 110 may have an inner diameter larger than an outer diameter of the refrigerant pipe 40 so that the core 110 may be used universally for refrigerant pipes of various sizes.

Like the core 110, the core holder 120 is divided into two parts along a central axis in the longitudinal direction and is assembled in a cylindrical shape having a length capable of accommodating the core 110. It consists of In addition, one side of each of the partial holders 121 and 122 in the width direction is formed such that the hinge grooves 1211 and the hinge protrusions 1221 are formed to correspond to each other so that both of the partial holders 121 and 122 are rotatably coupled to each other. On the side, a plurality of detachable grooves 1212 and detachable protrusions 1222 are formed so that both partial holders 121 and 122 can be detachably coupled.

The partial holders 121 and 122 have semicircular accommodating spaces 1213 and 1214 and 1223 and 1224 respectively formed therein, and the accommodating spaces 1213 and 1214 and 1223 and 1224 as a single space. It may be formed, but may be divided into a plurality of receiving spaces according to the shape of the partial core 121, 122 may be formed in the longitudinal direction. For example, as shown in FIG. 2, the receiving spaces 1213, 1214, 1223 and 1224 of the partial holders 121 and 122 have at least one split protrusion 1215 and 1225 in the middle of the longitudinal direction thereof. As described above, a plurality of receiving spaces 1213 and 1214 and 1223 and 1224 may be formed as described above.

As shown in FIGS. 2 and 3, the divided protrusions 1215 and 1225 may divide the partial cores 111, 113, 112, and 114 between the partial cores 111 and 114. It may be formed in the same shape and size as the height that can be interposed between the 113, 112, 114, that is, both edges of the partial holder (121, 122). However, as shown in FIG. 4, the split protrusion 1225 may have a height at which portions of the corresponding surfaces of the partial cores 112 and 114 may contact each other, that is, a height smaller than the thickness of the partial cores 112 and 114. It may be formed to have. In this case, the dividing grooves 1121 and 1141 are circumferentially inserted so that the dividing protrusions 1225 are inserted into the opposite surfaces of the partial cores 112 and 114, that is, the outer diameter edges of the surfaces corresponding to the lengthwise direction of the pipe. Corresponding surfaces other than the divided grooves 1121 and 1141 may be in contact with each other. Although not shown in the drawings, the same applies to the other partial holder and the partial core.

In addition, at one end of the circumferential direction of the partial holders 121 and 122, it may be preferable that the engaging protrusions 1216 and 1226 are formed to prevent the partial cores 111, 112, 113, and 114 from slipping out during the assembling process. The locking protrusions 1216 and 1226 may be evenly formed along the circumferential direction of each of the partial holders 121 and 122, but opposite to each other, that is, both sides of the partial cores 111, 112, 113, and 114. When assembling the partial holders 121 and 122, it is preferable to be formed at the side positioned relatively below to prevent the separation of the partial cores 111, 112, 113, and 114. For example, the partial cores 111 and 112 and 113 and 114 insert the partial cores in the detachable groove 1212 and the detachable protrusion 1222, which are later assembled when assembling both of the partial holders 121 and 122. 1212 and 1226 are preferably formed at the hinge side to which both partial holders 121 and 122 are rotatably coupled. In addition, at the corners of the partial cores 111, 112, 113, and 114, the locking jaws 1111, 1121, 1131, and 1141 may be stepped so that the locking protrusions 1216 and 1226 may be caught and supported.

In the drawing, reference numerals 131 and 132 denote signal terminals, respectively.

The core assembly of the air conditioner according to the present invention as described above and the air conditioner having the same have the following effects.

That is, the cores 110 are formed in a cylindrical shape by inserting the cores 111, 112, 113, and 114 corresponding to each other in the receiving spaces 1213, 1214, 1223, and 1224 of the partial holders 121 and 122. do. At this time, the opening side of the partial holder 121, 122, that is, the hinge protrusion or the hinge groove is formed at one side of the circumferential direction of the receiving space (1213, 1214) (1223, 1224) in which the detachable protrusion or detachable groove is formed. The cores 111, 112, 113, 114 are pushed into the other circumferential sides of the receiving spaces 1213, 1214, 1223, and 1224 so that the partial cores 111, 112, 113, and 114 are accommodated in the receiving spaces 1213, 1214, 1223, and 1224. Slide in the circumferential direction.

The partial cores 111, 112, 113, 114 are then guided and slipped on both sides of the receiving spaces 1213, 1214, 1223, 1224, and then at the inner ends of the receiving spaces 1213, 1214, 1223, 1224. The locking projections 1111, 1121, 1131 and 1141 of the cores 111, 112, 113, and 114 are hooked to the provided locking protrusions 1216 and 1226 to complete insertion.

Then, as shown in FIG. 5, both core holders 121 and 122 of the core assembly 100 are opened to both sides, and then the core assembly 100 is inserted into the refrigerant pipe 40, and the core holder 120 of the core holder 120 is opened. The core holder 120 is fixed to the refrigerant pipe 40 by inserting the detachable protrusion 1222 into the detachable groove 1212 while pinching both of the partial holders 121 and 122 in the circumferential direction.

Then, a signal line is connected to the signal terminals 131 and 132 provided in the core holder 120 or provided in the refrigerant pipe 40 so that an electric signal transmitted through the refrigerant pipe 40 is transmitted to the outdoor unit controller ( 12) to ensure smooth delivery.

In this way, in order to increase the impedance effect of the core assembly, when providing a plurality of cores, a core holder capable of supporting the plurality of cores in a simple and stable manner is simplified, thereby simplifying the manufacturing process and the assembly process of the core assembly. You can save money.

In addition, the core assembly according to the present invention has a larger inner diameter of the core and the core holder than the outer diameter of the refrigerant pipe generally used, so that the core assembly is used in various sizes of refrigerant pipes even if the size of the refrigerant pipe is changed. Can be applied as

On the other hand, the core holder is a plurality of core holders are connected to each other to be installed in each of the gas pipe 30 and the liquid pipe 40 can facilitate the installation work.

For example, as shown in Figure 6, the core holder 220, the first core holder 221 and the second core holder 222 is coupled to the gas pipe 30 and the liquid pipe 40, respectively, The first core holder 221 and the second core holder 222 may be coupled to each other by a connection part 223 at a predetermined interval.

As described above, the first core holder 221 and the second core holder 222 are coupled to each of the plurality of partial holders 2211, 2212, 2221 and 2222 so as to rotate in a circumferential direction. Partial cores 2111 and 2112 (2121 and 2122) having semi-circular cross-sectional shapes are accommodated in the holders 2211 and 2212 and 2221 and 2222, respectively.

As another example, as shown in Figure 7, the core holder 320, the first core holder 321 and the second core holder 322, as in the above-described embodiment, respectively, the gas pipe 30 and the liquid pipe ( 40, the first core holder 321 and the second core holder 322 may be coupled to each other at a predetermined interval by the connection part 323.

As described above, the first core holder 321 and the second core holder 322 are coupled to each of the plurality of partial holders 3211, 3212, 3221 and 3222 so as to rotate in a circumferential direction. Part cores 3111 and 3112 and 3121 and 3122 each having a semicircular cross-sectional shape are accommodated in the holders 3211 and 3212 and 3221 and 3222.

Here, the basic configuration of the core assembly according to FIG. 6 or the core assembly according to FIG. 7 is similar to the above-described embodiment, and thus a detailed description thereof will be omitted. However, since the core assembly according to FIG. 6 or the core assembly according to FIG. 7 is provided with a plurality of core holders connected to each other by a connecting part, when installing each core holder in the gas pipe and the liquid pipe, the distance between both core holders is reduced. It can be kept constant, which simplifies the assembly process.

110: core 111 ~ 114: partial core
120: core holder 121,122: partial holder
131,132: Signal terminals 1213,1214,1223,1224: Accommodating space
1215,1225: Split protrusion 1216,1226: Jamming protrusion

Claims (8)

A core provided to surround an outer circumferential surface of a pipe connecting the outdoor unit and the indoor unit, and configured to achieve an impedance with respect to an electrical signal transmitted and received through the pipe; And
And a core holder in which an accommodation space is formed to accommodate the core and is coupled to the pipe.
The core holder is a core assembly of the air conditioner is formed with at least one divided protrusion in the middle of the receiving space so that a plurality of cores can be arranged in the longitudinal direction of the pipe. The method of claim 1,
Wherein the divided protrusion is a core assembly of the air conditioner is formed to be equal to the cross-sectional area of the core so that the plurality of cores arranged in the longitudinal direction of the pipe is spaced apart from each other. The method of claim 1,
The split protrusion is formed of a core assembly smaller than the cross-sectional area of the core so that a plurality of cores arranged in the longitudinal direction of the pipe is in contact with each other. The method of claim 3,
The core is a core assembly of the air conditioner is divided groove is formed in the circumferential direction so that the division protrusion is inserted into the outer diameter corner of the surface corresponding to the longitudinal direction of the pipe. The method of claim 1,
The core holder is a core assembly of the air conditioner is formed with a locking projection to limit the sliding of the core in the circumferential direction. The method of claim 5,
The core assembly of the air conditioner is formed with a locking step so that the locking projection is inserted into the corner of the core. The method of claim 5,
The core holder is formed of a plurality of partial holders are divided along the central axis in the longitudinal direction and rotatably connected to each other, the locking projection is a core of the air conditioner, respectively formed on the side rotatably connected to the plurality of partial holders Assembly. The method of claim 1,
The core holder is composed of a plurality of core holders to be respectively coupled to a plurality of pipes, the core assembly of the air conditioner is provided with a connection portion between the plurality of core holders are connected to each other.

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