KR20050117664A - Outdoor unit of separable type air conditioner - Google Patents

Abstract

The present invention relates to an outdoor unit of a separate air conditioner having a support for supporting a pipe connecting portion connected to a pipe for delivering a working fluid to the outside of the outdoor unit of the air conditioner.

The outdoor unit 100 of the separate type air conditioner according to the present invention includes: a high pressure pipe connection part 822 to which an outdoor high pressure pipe 740 is connected; A low pressure pipe connection part 842 to which the outdoor low pressure pipe 760 is connected; A plurality of the high pressure pipe connecting portion 822 and the low pressure pipe connecting portion 842 is installed on each bent surface is bent in the longitudinal direction, is installed at one corner of the outdoor unit 100, the high pressure pipe connecting portion 822 and the low pressure pipe It has a configuration including a support 800 for supporting the connection portion 842. According to this invention which has such a structure, there exists an advantage that the space inside the outdoor unit becomes large and installation property is improved.

Description

Outdoor unit of separable type air conditioner {Outdoor unit of separable type air conditioner}

The present invention relates to an air conditioner, and more particularly, to an outdoor unit of a separate air conditioner having a support for connecting a pipe connection connected to a pipe for delivering a working fluid to and from an outdoor unit of a separate air conditioner.

In general, an air conditioner is a device for maintaining the indoor air comfortably by forcibly inhaling the indoor air and discharging it back to the room by heating, cooling, and dehumidifying. Although it can be classified into many types of air conditioners such as ceiling buried, wall-hung, ducted, and multi-types, only the separate type air conditioners will be described.

In the separate air conditioner, an indoor heat exchanger and an indoor fan are installed inside the indoor unit, and an outdoor heat exchanger, an outdoor fan, a compressor, and an expansion device are installed inside the outdoor unit. Therefore, the separate air conditioner is a device that absorbs heat in the indoor heat exchanger of the indoor unit, and heat radiation in the outdoor heat exchanger of the outdoor unit.

1 is a plan view showing the internal structure of a separate air conditioner indoor unit according to the prior art, and as shown in the drawing, the outdoor unit 1 of the conventional separate air conditioner has a substantially rectangular box shape by a casing 10. The appearance is formed.

The interior of the outdoor unit (1) is divided into a blower 20, which is forced to flow the outdoor air is heat exchange, and the electric field portion 30 is mounted with a component for compressing and expanding the working fluid, the blower 20 and The components of the electric component part 30 are all attached to the base fan 12 which forms the bottom face of an air conditioner.

On the other hand, the blower 20 and the electric component 30 is partitioned by the barrier (14). The barrier 14 is formed in a plate shape bent by a predetermined angle in the longitudinal direction, the inner space of the outdoor unit (1) based on the barrier 14, the blower 20 and the electric part 30 Partition into parts.

The blower 20 is provided with an outdoor fan 22, a motor 24, and an outdoor heat exchanger 26 for sucking and exchanging air from the outside, and the electrical component 30 includes a compression of a working fluid and Compressor 50 for expansion, a control box (not shown), expansion mechanism 52 and the like are provided.

FIG. 2 is a perspective view showing the electric parts of the detachable air conditioner outdoor unit according to the prior art, and as shown in the drawing, the electric parts 30 are formed on the left side of the base fan 12 (refer to FIG. 2).

On the right side of the electric part 30, a compressor 50 for compressing the working fluid at high temperature and high pressure is formed. The compressor 50 is substantially cylindrical, and the bottom surface of the compressor 50 is fixed to one side of the base fan 12 by screwing to install the compressor on the left side of the base fan 12.

 Meanwhile, a single high pressure pipe 55 is connected to one side of the outdoor heat exchanger 26. The single high pressure pipe 55 is a pipe for transporting the working fluid heat exchanged in the outdoor heat exchanger 26, one end of which is connected to the outdoor heat exchanger 26, and the other end thereof is connected to the branch pipe 56.

The branch pipe 56 is connected to the end of the single high pressure pipe 55 to branch the single high pressure pipe 55 into a plurality of tubules, which are divided into a plurality of branches by the branch pipe 56. The piping becomes the outdoor high pressure piping 54. Therefore, the outdoor high pressure pipe 54 delivers the working fluid heat-exchanged with the outdoor air to the outside through the outdoor heat exchanger 26.

In addition, an expansion mechanism 52 is formed at one side of the outdoor high pressure pipe 54 branched into a plurality. The expansion mechanism 52 is a capillary tube or electromagnetic expansion valve is used to reduce the working fluid heat exchanged in the outdoor heat exchanger (26).

The high pressure pipe connecting portion 58 is formed at the end of the outdoor high pressure pipe 54 in which the expansion mechanism 52 is formed. The high pressure pipe connecting portion 58 is formed at the end of each outdoor high pressure pipe 54, it is installed through the support 70 to be described below. The high pressure pipe connection unit 58 is connected to an indoor unit formed separately from the outdoor unit 1 and fastened to an end of a high pressure pipe (not shown) for guiding the flow of the high pressure refrigerant on the indoor unit side.

And, one side of the support 70, the low pressure pipe connecting portion 60 is installed through the support 70. The low pressure pipe connection part 60 is formed at the ends of the plurality of outdoor low pressure pipes 62 inside the outdoor unit 1, and is fastened to an end of the low pressure pipe (not shown) for guiding a working fluid flowing from each indoor unit. do.

The outdoor low pressure pipe 62 is formed of a plurality of pipes, one end is connected to the low pressure pipe connection part 60, the other end is a single low pressure pipe formed by combining the outdoor low pressure pipe 62 in one pipe. Connected with (63). The single low pressure pipe (63) communicates with the compressor (50) to transfer the low temperature low pressure working fluid introduced from the indoor unit (not shown) to the compressor (50).

Meanwhile, the support 70 on which the high pressure pipe connection part 58 and the low pressure pipe connection part 60 are supported is formed on the left side of the rear end of the base fan 12. The support 70 is formed in a lengthwise direction in a substantially rectangular plate, and one side is formed stepped to form a stepped surface 71.

In addition, the stepped surface 71 is provided with a connection hole 72 in the longitudinal direction. Accordingly, the low pressure pipe connection part 60 and the high pressure pipe connection part 58 are installed in the support 70 through the connection hole 72.

That is, the upper stepped surface 71 of the support 70 supports the high-pressure pipe connecting portion 58 to which the outdoor high pressure pipe 54 is connected in a row in the longitudinal direction, and the lower side of the support 70. On the stepped surface 71, the low pressure pipe connection part 60 to which the outdoor low pressure pipe 62 is connected is supported in a row in the longitudinal direction.

In addition, two service valve holes 74 are formed at a lower portion of the lower stepped ground of the support 70. The two service valve holes 74 are formed with a high pressure service valve 64 and a low pressure service valve 66, respectively. The high pressure service valve 64 and the low pressure service valve 66 are used to control or charge the refrigerant during installation or movement of the air conditioner. The high pressure service valve 64 is one side of the outdoor high pressure pipe 54. Is formed in, the low pressure service valve 66 is formed on one side of the outdoor low pressure pipe (62).

Hereinafter, the operation of the separate type air conditioner outdoor unit having the above configuration will be described.

When the air conditioner is started to cool the indoor space, the compressor 50 is operated to compress the working fluid. The working fluid compressed at high temperature and high pressure is introduced into the outdoor heat exchanger 26 inside the outdoor unit 1 through a pipe.

At the same time, the motor 24 is operated to rotate the outdoor fan 22. The outdoor fan 22 forcibly sucks outdoor air into the outdoor unit 1, and the sucked air exchanges heat with the working fluid while passing through the outdoor heat exchanger 26.

Air heat exchanged in the outdoor heat exchanger 26 flows through the single high pressure pipe 55 and is branched into a plurality of outdoor high pressure pipes 54. The refrigerant flowing along each branched outdoor high pressure piping 54 is decompressed by the expansion mechanism 52.

The reduced pressure of the refrigerant is transferred to the outside of the outdoor unit 1 through the high-pressure pipe connection unit 58 installed on one side of the support 70. The high pressure pipe connection unit 58 is connected to one end of the high pressure pipe (not shown) connected to an indoor unit (not shown) to supply the reduced pressure working fluid to the respective indoor units.

The working fluid supplied to each indoor unit heats the indoor air to cool the indoor space. And the working fluid heat-exchanged with the indoor air is introduced into each of the low pressure pipe connection portion 60 formed in the support 70 of the outdoor unit 1 through each low pressure pipe (not shown).

The working fluid introduced into each of the low pressure pipe connection parts 60 flows into the outdoor low pressure pipe 62 connected to each of the low pressure pipe connection parts 60 inside the outdoor unit 1. In addition, the working fluid introduced into each of the outdoor low pressure pipes 62 is introduced into the compressor 50 through the single low pressure pipe 63 to complete a cycle.

On the other hand, when installing or moving the outdoor unit 1, the high-pressure service valve 64 formed on the lower side of the support 70 to prevent the operating fluid circulating in the refrigeration cycle is prevented, After the compressor 50 is driven to allow all refrigerant to be pumped into the outdoor unit 1, the low pressure service valve 66 is interrupted to easily install the outdoor unit 1.

However, the outdoor unit of the detachable air conditioner according to the prior art as described above has the following problems.

In the outdoor unit 1 as described above, in order to form an outdoor unit 1 composed of an inverter compressor capable of controlling a plurality of indoor units and a constant speed compressor rotating at a constant frequency, the size of the outdoor unit 1 itself is increased. It will grow big.

In addition, in order to form the outdoor unit 1 using the two compressors 50, the size of the outdoor unit 1 must be designed to be larger, resulting in an increase in the production cost and the size of the outdoor unit 1. There is a problem that the installation becomes slightly worse as it grows.

An object of the present invention for solving the above problems is to provide an outdoor unit of a separate air conditioner having a structure capable of efficiently utilizing the space inside the outdoor unit by protruding the low-pressure piping connection to the side.

According to a feature of the present invention for achieving the object as described above, the present invention includes a high-pressure pipe connecting portion to which the outdoor high pressure pipe is connected; A low pressure pipe connection part to which an outdoor low pressure pipe is connected; A plurality of the high pressure pipe connecting portion and the low pressure pipe connecting portion is installed in each bent surface is bent in the longitudinal direction, is installed on one side of the outdoor unit having a configuration including a support for supporting the high pressure pipe connecting portion and the low pressure pipe connecting portion It features.

The support includes a high pressure pipe side in which the high pressure pipe connection part is arranged vertically, and a low pressure pipe side in which the low pressure pipe connection part is arranged vertically.

The high pressure piping side and the low pressure piping side are bent sides of the support.

One side of the support further includes a high pressure service valve and a low pressure service valve for simultaneously controlling the refrigerant of the outdoor high pressure pipe and the outdoor low pressure pipe.

According to the present invention having such a configuration, it is possible to efficiently configure the internal space of the outdoor unit, there is an advantage that can secure a space to apply the two compressors.

Hereinafter, a preferred embodiment of an outdoor unit of a separate type air conditioner according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

3 is an exploded perspective view showing a configuration of a separate air conditioner outdoor unit according to the present invention. As shown in the drawing, the outdoor unit 100 is formed in a substantially rectangular box shape having a long horizontal direction, and forms a front appearance. The overall appearance is formed by the front panel 200, the casing 300 to form the exterior of one side and the rear surface, the top cover 400 to form the top appearance, and the base fan 500 to form the exterior of the bottom surface. do.

The front panel 200 is formed in a substantially rectangular plate shape, and both sides are bent backwards to facilitate coupling with the casing 300. One side of the front panel 200 is formed with a suction port 220 which is a suction passage of external air, and the suction port 220 is formed with a suction grill 240 to prevent foreign substances from being introduced from the outside. The front panel 200 is coupled to the front surface of the base fan 500 to form a front exterior of the outdoor unit 100.

The base fan 500 is formed in the shape of a substantially rectangular plate that is mounted to the components constituting the interior of the outdoor unit 100, each end is coupled to the front panel 200 and the casing 300 It is bent upwards to facilitate formation.

A barrier 520 is formed at one side of the base fan 500 to divide the interior of the outdoor unit 100 into two parts, a blower 600 and an electric equipment 700. The barrier 520 is formed in a substantially rectangular plate shape and is bent to be somewhat protruded toward the blower 600 side (left side in FIG. 3) or curved to have a curvature.

A predetermined groove for forming various pipes formed inside the outdoor unit 100 is further formed on a bottom surface of the base fan 500. The barrier 520 is fixed to one side of the base fan 500, a blower 600 is formed on the left side of the barrier 520 (hereinafter, referring to FIG. 3), and the electric field unit 700 is formed on the right side. Is formed.

On one side of the front panel 200 corresponding to the blower 600 is formed through the suction port 220 to be the suction passage of the external air. In addition, an outdoor fan 620 forcibly suctioning external air and a motor 640 for driving the outdoor fan 620 are sequentially installed at positions corresponding to the suction port of the blower unit.

The motor 640 is fixed by the motor mount 642. An upper end of the motor mount 642 is fixed to a lower surface of the top cover 400, and a lower end of the motor mount 642 is fixed to an upper surface of the base fan 500 to support the motor 640. ..

 At the rear of the motor mount 642 is formed an outdoor heat exchanger 660 that exchanges heat with outdoor air. The outdoor heat exchanger 660 is formed in a substantially '┏' shape (viewed from above) and is formed over the rear and left surfaces of the outdoor unit 100.

In addition, an electric field part 700 is formed at the right side of the barrier 520. A constant speed compressor 722 is mounted at one side of the electric component 700, and an inverter compressor 724 is mounted at a side of the constant speed compressor 722. The compressors 722 and 724 are fixed to the bottom surface of the base fan 500 by screwing.

The constant speed compressor 722 is a compressor having a constant rotation frequency, and rotates at a constant frequency to compress a working fluid flowing into the compressor. In addition, the inverter compressor 724 is a compressor whose rotation frequency varies depending on a load, and the rotation speed can be adjusted to compress the working fluid flowing into the compressor at a desired frequency.

A plurality of pipes are connected to the compressors 722 and 724, and an expansion mechanism 756 is formed at one side of the pipe to adjust and reduce the flow rate of the working fluid. In addition, a control box 730 is formed at one side of the electronic device 700 to control components inside the outdoor unit 100.

On the other hand, both sides of the base fan 500 is coupled to the casing 300 to form the appearance of both sides and the rear side of the outdoor unit 100, respectively. The casing 300 on the left side is formed in a substantially square plate shape, and a plurality of through holes are formed to allow air flow to the side of the outdoor heat exchanger 660.

In addition, the casing 300 on the right side of the outdoor unit 100 is bent in a vertical direction in a substantially square plate shape to form an exterior of the side exterior of the outdoor unit 100 and one side of the rear side. On one side of the bent surface of the casing 300 corresponding to the rear surface, a support 800 for supporting a plurality of pipes connected to the outside from the inside of the outdoor unit 100 is formed.

The rear exterior of the outdoor unit 1 is formed by a rear grill 320. The rear grill 320 is connected to rear end portions of the casing 300 formed on both sides of the outdoor unit 100, respectively. The rear grill 320 becomes an outlet of the heat exchanged air in the outdoor heat exchanger, and prevents the influence of external foreign substances, and ensures the safety of the user.

In addition, a top cover 400 is formed at upper ends of the front panel 200, the casing 300, and the rear grill 320 to form a top exterior of the outdoor unit 100 while shielding the inside of the outdoor unit 100. Is formed.

Figure 4 is a perspective view showing the electric part constituting a preferred embodiment of the separate air conditioner outdoor unit according to the present invention, Figure 5 is a rear view showing the electric part constituting a preferred embodiment of the separate air conditioner outdoor unit according to the present invention. .

4 and 5 will be described in more detail with respect to the electric parts. As shown in these drawings, the electronic device 700 is formed at the right side of the barrier 520, and the constant speed compressor 722 and the inverter compressor 724 are formed at one side of the electronic device 700. .

On the upper side of the compressors 722 and 724, an outdoor high pressure pipe 740 is formed to be a passage through which the high-pressure working fluid compressed by the compressors 722 and 724 flows.

The outdoor high pressure pipe 740 is a single high pressure pipe 750 together with a single pipe for conveying the working fluid compressed by the compressors (722,724) through the outdoor heat exchanger 660 to the outside of the outdoor unit 100. The same function as the high pressure pipe 750, but the diameter is smaller than the single high pressure pipe 750 and consists of a plurality of pipes.

One end of the outdoor high pressure pipe 740 is connected to the upper side of the compressors 722 and 724, and the other end is connected to the single high pressure pipe 750. The single high pressure pipe 750 is extended to the side of the outdoor heat exchanger 660 and then branched into a plurality of pipes and connected to one side of the outdoor heat exchanger 660.

A plurality of ends of the outdoor high pressure pipe 740 for guiding the working fluid after heat exchange from the outdoor heat exchanger 660 is connected to the other side of the outdoor heat exchanger 660. The other end of the outdoor high pressure pipe 740 is combined again to be connected to the single high pressure pipe 750.

The single high pressure pipe 750 is extended by a predetermined length and then branched by the number of indoor units (not shown) to be connected to the outdoor high pressure pipe 740, and one side of the outdoor high pressure pipe 740 is an expansion mechanism ( 756).

The expansion mechanism 756 is a high-pressure working fluid to reduce the pressure to make the evaporation is easy to use an electronic expansion valve (LEV: Linear Expansion Valve) that can even control the flow rate.

On the other hand, the high pressure pipe connection portion 822 is formed at the end of the outdoor high pressure pipe 740 extending to one side of the support 800 to be described below. The high pressure pipe connection part 822 is provided between the outdoor high pressure pipe 740 and the outdoor unit 100 and the indoor unit to connect the high pressure pipe (not shown) for guiding the flow of the working fluid to be fastened and separated. It is preferably formed in the form of a socket or a valve to facilitate.

The plurality of high pressure pipe connection parts 822 are supported by the support 800. The support 800 is a place where the high pressure pipe connection part 822 and the low pressure pipe connection part 842 to be described below are installed inside the outdoor unit 100, and the outdoor unit 100 having the electric component part 700 formed therein. ) Is formed at the corners of the latter half.

On the other hand, one side of the support 800 is provided with a plurality of low pressure pipe connection 842. The low pressure pipe connecting portion 842 is to be connected to the indoor unit (not shown) to connect the low pressure pipe (not shown) to the low pressure working fluid flows and the outdoor low pressure pipe 760 to be described below, It is preferably formed in the form of a socket or a valve to facilitate fastening and detachment.

The outdoor low pressure pipe 760 is a pipe for guiding the flow of the working fluid exchanged in the indoor unit (not shown) into the compressors 722 and 724 in the outdoor unit 100. It is formed by a pipe.

One end of the outdoor low pressure pipe 760 is connected to the low pressure pipe connection part 842, and the other end is connected to the single low pressure pipe 770. The single low pressure pipe 770 is a pipe for guiding the low pressure working fluid transferred through the outdoor low pressure pipe 760 to the compressors 722 and 724. The single low pressure pipe 770 is slightly larger in diameter than the outdoor low pressure pipe 760. Is done.

On the other hand, the support will be described in more detail with reference to Figures 6 and 7, the support 800 is formed in a substantially rectangular plate shape bent in the vertical direction. The support 800 is formed at the corners of the rear half of the outdoor unit in which the electric parts 700 are formed.

The support 800 includes a low pressure pipe side 840 in which the low pressure pipe connection part 842 is formed on the basis of the bent edge, and a high pressure pipe side 820 in which the high pressure pipe connection part 822 is formed.

The low pressure piping side 840 corresponds to the left side (when referring to Figure 7) on the basis of the corner bent to protrude forward, the low pressure piping side 840, the plurality of low pressure piping connection 842 Are installed in turn from top to bottom.

The left end of the low pressure pipe side 840 is stepped downward to facilitate engagement with the casing 300, the upper end and the lower end of the low pressure pipe side 840 also the base pan 500 and the casing 300 ) Is formed stepped to facilitate coupling.

On the other hand, the high-pressure pipe side 820 corresponds to the right side (when referring to Figure 7) on the basis of the corner bent to protrude forward, the high-pressure pipe side 820 to the plurality of high-pressure pipe connection 822 ) Are installed in turn from top to bottom.

The right end portion of the high pressure pipe side 820 is formed with a stepped surface 821 which is formed to be stepped upwards to be easily coupled to the casing 300, and the high pressure pipe side 820 and the stepped surface 821 are formed. The upper portion of the corners are connected to each other to shield the empty space generated when the support 800 is mounted to the outdoor unit 100.

On the other hand, the high pressure valve installation hole 850 for forming the high pressure service valve 824 and the low pressure service valve 844 to be described below and below the high pressure pipe side 820 and the lower surface of the step surface 821 and The high pressure valve installation groove 860 and the low pressure valve installation groove 850 'and the low pressure valve installation hole 860' are respectively formed.

The high pressure service valve 824 and the low pressure service valve 844 are formed to control the refrigerant flowing in the single high pressure pipe 750 and the single low pressure pipe 770 when the outdoor unit 100 is installed or moved. do.

The high pressure service valve 824 is formed on one side of the single high pressure pipe 750, the low pressure service valve 844 is formed on one side of the single low pressure pipe 770. Accordingly, by closing or opening the high pressure service valve 824 and the low pressure service valve 844, it is possible to control the working fluid inside the single high pressure pipe 750 and the single low pressure pipe 770.

On the other hand, the high pressure valve installation hole 850 is formed in the lower portion of the high pressure pipe side 820, the high pressure pipe side (1) so that one side of the single high pressure pipe 750 is exposed through the high pressure valve installation hole (850). It is formed in a predetermined shape penetrating 820.

In addition, the high pressure valve installation groove 860 is formed below the step surface 821, and the step surface 821 is exposed to one side of the single high pressure pipe 750 through the high pressure valve installation groove 860. The vertical plane and the horizontal plane of are formed by notching (Notching).

The low pressure valve installation hole 850 ′ is formed below the high pressure valve installation hole 850, and the high pressure piping side is exposed so that one side of the single low pressure pipe 770 is exposed through the low pressure valve installation hole 850 ′. It is formed in a predetermined shape penetrating 820.

In addition, the low pressure valve installation groove 860 ′ is formed below the high pressure valve installation groove 860, and the step surface such that one side of the single low pressure pipe 770 is exposed through the low pressure valve installation groove 860. The vertical plane and the horizontal plane of 821 are formed by notching.

Hereinafter will be described the operation of the air conditioner and the indoor unit according to the present invention having the configuration as described above.

When the air conditioner is started to cool the indoor space, the constant speed compressor 722 and the inverter compressor 724 operate simultaneously or singly to compress the working fluid to a high pressure. The working fluid compressed at high temperature and high pressure is introduced into the outdoor heat exchanger 660 inside the outdoor unit 100 through a pipe.

At the same time, the motor 640 operates to rotate the outdoor fan 620, and the outdoor fan 620 forcibly sucks outdoor air into the outdoor unit 100. At this time, the sucked air passes through the outdoor heat exchanger 660 to exchange heat with the working fluid.

The working fluid that has undergone heat exchange in the outdoor heat exchanger 660 flows into the expansion mechanism 756 formed at one side of the outdoor high pressure pipe 740 through a single high pressure pipe 750 and a plurality of outdoor high pressure pipes 740. Pressure is reduced.

The refrigerant decompressed by the expansion mechanism 756 is transferred to the outside of the outdoor unit 100 through the high pressure pipe connection part 822 mounted on the high pressure pipe side 820 of the support 800. The working fluid flowing through the outdoor high pressure pipe 740 is supplied to the indoor fluid through a high pressure pipe (not shown) connected to the indoor unit (not shown) through the high pressure pipe connection part 822.

The working fluid supplied to each indoor unit heats the indoor air to cool the indoor space. And the working fluid heat-exchanged with the indoor air is guided to the low pressure pipe connection 842 through a low pressure pipe (not shown) for guiding the working fluid from the indoor unit to the outdoor unit (100).

The refrigerant guided to the low pressure pipe connection part 842 of the support 800 through the low pressure pipe connected to the low pressure pipe connection part 842 is the outdoor low pressure connected to the low pressure pipe connection part 842 inside the outdoor unit 100. It flows into the pipe 760.

The working fluid introduced into the outdoor low pressure pipe 760 is introduced into the compressors 722 and 724 through the single low pressure pipe 770 to complete a cycle.

On the other hand, when installing or moving the outdoor unit 100, to control the high-pressure service valve 824 formed on the lower side of the support 800 to prevent the working fluid circulating in the refrigeration cycle is lost, The compressors 722 and 724 are driven to allow the refrigerant to be all pressurized into the outdoor unit 100, and then the low pressure service valve 844 may be interrupted to easily install the outdoor unit 100.

The scope of the present invention is not limited to the above-exemplified embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the above technical scope.

In the outdoor unit of the separate type air conditioner according to the present invention as described above, the support is bent to form at the rear edge of the outdoor unit to form a high pressure pipe connection part and a low pressure pipe connection part on each bent surface.

Therefore, it is possible to secure a space for forming an additional compressor in the electrical equipment inside the outdoor unit, so that the shape of the support and the pipe connected to the support can be secured without increasing the size of the outdoor unit to form an additional compressor. Only by changing the structure, the internal space of the outdoor unit can be fully utilized, thereby improving space utilization and installation.

In addition, it is possible to apply more indoor units in the outdoor unit of the same size by the additional installation of the compressor, and when adding an inverter-type compressor, efficient control of the indoor unit is possible, and the effect of increasing the performance efficiency of the outdoor unit is also expected. It becomes possible.

1 is a plan view showing the internal structure of a separate air conditioner indoor unit according to the prior art.

Figure 2 is a perspective view showing the full length of the detachable air conditioner outdoor unit according to the prior art.

Figure 3 is an exploded perspective view showing the configuration of a separate air conditioner outdoor unit according to the present invention.

Figure 4 is a perspective view showing the full length constituting a preferred embodiment of the detachable air conditioner outdoor unit according to the present invention.

Figure 5 is a rear view showing the electric part constituting a preferred embodiment of a separate air conditioner outdoor unit according to the present invention.

Figure 6 is a perspective view showing the support that is the main configuration of a preferred embodiment of a separate air conditioner outdoor unit according to the present invention.

Figure 7 is a rear view showing a support that is the main configuration of a preferred embodiment of a separate air conditioner outdoor unit according to the present invention.

Explanation of symbols on the main parts of the drawings

100. Outdoor unit 200. Front panel

220.Suction port 240.Suction grill

300. Casing 320. Rear Grill

400. Top cover 500. Base fan

520. Barrier 600. Blower

620. Indoor Fan 640. Motor

642.Mount Mount 660. Outdoor Heat Exchanger

700. Electric parts 722. Constant speed compressor

724. Inverter Compressor 730. Control Box

740. Outdoor high pressure piping 750. Single high pressure piping

756. Expansion mechanism 760. Outdoor low pressure piping

770. Single low pressure piping 800. Support

820. High pressure piping side 822. High pressure piping connection

824. High pressure service valve 840. Low pressure piping side

842. Low pressure piping connections 844. Low pressure service valves

850. High pressure valve coupling hole 850 '. Low Pressure Valve Coupling Hole

860. High pressure valve coupling groove 860 '. Low Pressure Valve Coupling Hole

Claims (4)

A high pressure pipe connection unit to which an outdoor high pressure pipe is connected; A low pressure pipe connection part to which an outdoor low pressure pipe is connected; A plurality of the high pressure pipe connection portion and the low pressure pipe connection portion is installed on each bent surface is bent in the longitudinal direction, is installed on one side of the outdoor unit, characterized in that it comprises a support for supporting the high pressure pipe connection portion and the low pressure pipe connection portion Outdoor unit of a separate air conditioner. The method of claim 1, wherein the support is The high pressure pipe side and the high pressure pipe connection is arranged vertically, The outdoor unit of the separate air conditioner, characterized in that the low pressure pipe connecting portion is arranged in the vertically arranged low pressure pipe side. The outdoor unit of a separate air conditioner according to claim 2, wherein the high pressure pipe side and the low pressure pipe side are bent surfaces of the support. According to claim 1, On one side of the support, An outdoor unit of a separate air conditioner, characterized by further comprising a high pressure service valve and a low pressure service valve for simultaneously controlling the refrigerant of the outdoor high pressure pipe and the outdoor low pressure pipe.