KR102660764B1 - Drain icing prevention device of outdoor unit for air conditioner - Google Patents

Abstract

According to one embodiment of the present invention, in the drainage anti-icing device for the outdoor unit for an air conditioner, outdoor heat exchange is performed between the accumulator and compressor fixed to the central area on the base plate inside the outdoor unit casing and the outdoor heat exchanger disposed at the edge area. A drainage channel is formed engraved along one side of the unit, and in the drainage channel, a plurality of discharge holes are formed through which discharged water such as defrost water generated from the outdoor unit is discharged to the outside of the outdoor unit. Each discharge hole is spaced a certain distance away from the outdoor unit in the direction of the building drain. A drain pipe is installed to move the discharged water to the desired location and discharge it, but a heating plate and a heating rod are provided on the bottom of the drain and the inside of the drain pipe, respectively, so that the outside temperature where the outdoor unit is installed is lower than the standard temperature that can freeze the discharged water. In this case, the heating plate and heating rod are operated so that the discharged water generated from the outdoor unit in winter can be discharged more stably from the outside of the outdoor unit toward the building drain without freezing.

Description

Drainage freezing prevention device for outdoor unit for air conditioner {DRAIN ICING PREVENTION DEVICE OF OUTDOOR UNIT FOR AIR CONDITIONER}

The present invention relates to preventing drainage of an outdoor unit for an air conditioner from freezing, and more specifically, to the outdoor heat exchanger between the accumulator and compressor fixed to the central area on the base plate inside the outdoor unit casing and the outdoor heat exchanger disposed in the edge area. A drain is formed concavely along one side, and in the drain, a plurality of discharge holes are formed through which discharge water, such as defrost water generated from the outdoor unit, is discharged to the outside of the outdoor unit. Each discharge hole has a position spaced a certain distance away from the outdoor unit in the direction of the building drain. A drain pipe is installed to move and discharge the discharged water, but a heating plate and a heating rod are provided on the bottom of the drain and the inside of the drain pipe, respectively, so that the outside temperature where the outdoor unit is installed falls below the standard temperature that can freeze the discharged water. The present invention relates to a drain freezing prevention device for an outdoor unit for an air conditioner that operates a heating plate and a heating rod so that discharged water generated from an outdoor unit in winter can be more stably discharged from the outside of the outdoor unit toward the building drain without freezing.

In general, air conditioners are roughly divided into integrated air conditioners, which are configured to house both indoor and outdoor units in a single case, depending on the configuration of the unit, and separate air conditioners, which are configured so that the compressor and condenser are in the outdoor unit and the evaporator is separated from the indoor unit. .

Recently, in medium to large-sized air conditioners that require relatively large refrigeration capacity among separate air conditioners, air conditioners equipped with multiple compressors in the outdoor unit to effectively respond to the required refrigeration capacity have been developed and used.

Figure 1 is a perspective view showing the front panel of a conventional outdoor unit for an air conditioner in an open state.

Referring to FIG. 1 above, the outdoor unit of a conventional air conditioner has a casing 110 in the shape of a rectangular parallelepiped with an accommodating space inside and an opening formed on the side, and a common accumulator 120 that is accommodated and installed inside the casing 110. And it may be composed of a plurality of compressors 130 and an outdoor heat exchanger 140 installed along the inner edge of the casing 110 to exchange heat with the refrigerant.

The casing 110 is a rectangular plate-shaped member disposed at the bottom and is formed of a base plate 111 that supports the accumulator 120, compressor 130, and outdoor heat exchanger 140, and a rectangular plate-shaped member. It consists of an upper plate 115 disposed at a predetermined distance apart in the vertical direction with respect to (111) and a plurality of vertical frames 114 disposed along the vertical direction between the base plate 111 and the upper plate 115. It can be.

In addition, the base plate 111 has each outdoor heat exchanger 140 installed along each side and rear edge, and a pair of compressors 130 and each compressor 130 are installed inside the outdoor heat exchanger 140. The common accumulator 120 may be fastened and fixed so that gaseous refrigerant can be provided.

During the heating operation, the outdoor unit of the air conditioner performs a defrost operation for a certain period of time as moisture in the outdoor air accumulates on the surface of the outdoor heat exchanger (140) and heat exchange efficiency decreases, thereby defrosting the surface of the outdoor heat exchanger (140). do.

At this time, the defrost water regenerated from the surface of the outdoor heat exchanger 140 flows down around the outdoor heat exchanger 140. When the outdoor temperature in winter falls below, for example, -5 to -7°C, the defrost water flows down. There was a problem with freezing inside the outdoor unit.

In addition, if the defrost water flows down to the outside of the outdoor unit and freezes not only to the area adjacent to the outdoor unit but also to the area around the outdoor unit and invades the sidewalk or roadway, the risk of various safety accidents increases. There was a problem.

Republic of Korea Patent No. 10-2012-0004949

Therefore, the object of the present invention is to form a concave drainage channel along one side of the outdoor heat exchanger between the accumulator and compressor fixed to the central area on the base plate inside the outdoor unit casing and the outdoor heat exchanger disposed in the edge area, and the drainage channel A plurality of discharge holes are formed through which discharged water, such as defrost water generated from the outdoor unit, is discharged to the outside of the outdoor unit. A drain pipe is installed in each discharge hole to move the discharged water to a location a certain distance away from the outdoor unit in the direction of the building drain and discharge it. , a heating plate and a heating rod are provided on the bottom of the drain and the inside of the drain pipe, respectively, so that when the outside temperature where the outdoor unit is installed falls below the standard temperature that can freeze the discharged water, the heating plate and heating rod are operated to remove the heat generated from the outdoor unit in winter. The object of the present invention is to provide a drain freezing prevention device for an outdoor unit for an air conditioner that allows discharged water to be more stably discharged from the outside of the outdoor unit toward the building drain without freezing.

The objects of the present invention are not limited to the objects mentioned above, and other objects and advantages of the present invention that are not mentioned can be understood by the following description and will be more clearly understood by the examples of the present invention. Additionally, it will be readily apparent that the objects and advantages of the present invention can be realized by the means and combinations thereof indicated in the patent claims.

The device for preventing drainage from freezing of an outdoor unit for an air conditioner according to the present invention includes an outdoor unit casing in which an accumulator and a compressor are fixed to an upper central area of the base plate and an outdoor heat exchanger is disposed in an edge area of the base plate, and the a drain concavely formed along one side of the outdoor heat exchanger between the central area and the edge area through which discharge water including defrost water generated from the outdoor heat exchanger or inflow water flowing into the casing from the outside of the casing is discharged; A plurality of drain holes formed in the drainage channel to allow the discharged water to be discharged to the outside of the casing, a temperature sensor installed on one side of the inside of the casing to measure the external temperature of the casing, and a heating plate installed on the bottom of the drainage channel; , When the external temperature of the casing falls below a preset reference temperature for freezing the discharged water, it may include a heated wire driver that drives the heated plate to heat the drainage channel to prevent the discharged water from freezing.

In addition, the drain anti-icing device includes an outdoor unit supporter that supports the casing so that the casing is spaced at a certain height or more from the ground at the bottom of the casing, and is installed at the bottom of the outdoor unit supporter and connected to each drain hole to discharge water discharged from the drain hole. It further includes a first drain pipe that discharges the water to a first target position on the outside of the outdoor unit, and a heating rod installed inside the first drain pipe that is formed horizontally with the ground among the first drain pipes, wherein the hot wire driver includes: When the external temperature of the casing falls below a preset reference temperature for freezing the discharge water, the heating rod is driven to heat the inside of the first drain pipe to prevent the discharge water from freezing inside the first drain pipe.

In addition, the drain anti-icing device is connected to the first drain pipe, and when it protrudes from the first drain pipe in a state inserted into the first drain pipe, the discharge water is longer than the first distance between the outdoor unit and the first target location. It further includes a second drain pipe that discharges to a second target location at a distance of 2, and a flexible connector that can bend the first drain pipe at a certain angle is formed at a connection portion of the first drain pipe connected to the second drain pipe. , the second drain pipe is formed to extend from the first drain pipe in a state inclined at a certain inclination angle toward the ground according to the inclination angle of the flexible connector, so that even when the external temperature of the casing falls below the reference temperature, the second drain pipe It can prevent discharged water from freezing within the drain pipe.

In addition, a concave portion is formed at one first end of the first drain pipe into which the second end of one side of the second drain pipe protruding from the first drain pipe can be fastened, and a protrusion is fastened to the concave portion at the second end of the second drain pipe. is formed, and the protrusion is implemented to have elasticity and protrude to the outside, and when inserted into the inside of the first drain pipe, it is in close contact with the inner surface of the first drain pipe and is inserted into the inside of the second drain pipe. 1 When the drain pipe is discharged from the first drain pipe and reaches the concave part, it may protrude into the concave part and be fastened to the concave part.

According to one embodiment of the present invention, in the drainage anti-icing device for the outdoor unit for an air conditioner, outdoor heat exchange is performed between the accumulator and compressor fixed to the central area on the base plate inside the outdoor unit casing and the outdoor heat exchanger disposed at the edge area. A drainage channel is formed engraved along one side of the unit, and in the drainage channel, a plurality of discharge holes are formed through which discharged water such as defrost water generated from the outdoor unit is discharged to the outside of the outdoor unit. Each discharge hole is spaced a certain distance away from the outdoor unit in the direction of the building drain. A drain pipe is installed to move the discharged water to the desired location and discharge it, but a heating plate and a heating rod are provided on the bottom of the drain and the inside of the drain pipe, respectively, so that the outside temperature where the outdoor unit is installed is lower than the standard temperature that can freeze the discharged water. In this case, the heating plate and heating rod are operated so that the discharged water generated from the outdoor unit in winter can be discharged more stably from the outside of the outdoor unit toward the building drain without freezing.

In addition to the above-described effects, specific effects of the present invention are described below while explaining specific details for carrying out the invention.

Figure 1 is a front open perspective view of a conventional outdoor unit for an air conditioner.
Figure 2 is a front open perspective view of an outdoor unit for an air conditioner according to an embodiment of the present invention.
Figure 3 is a plan cross-sectional view showing the drainage structure of an outdoor unit for an air conditioner according to an embodiment of the present invention.
Figure 4 is a partially enlarged perspective view showing a cross-section of a drainage channel of an outdoor unit for an air conditioner according to an embodiment of the present invention.
Figure 5 is a plan cross-sectional view showing the drainway structure of an outdoor unit for an air conditioner in which a heating plate is installed in the drainway according to an embodiment of the present invention.
Figure 6 is a structural diagram of the connection between the outdoor unit support and the drain pipe of the outdoor unit for an air conditioner according to an embodiment of the present invention.
Figure 7 is a partially enlarged view of a first drain pipe according to an embodiment of the present invention.
Figure 8 is a diagram showing the internal fastening structure of a first drain pipe and a second drain pipe according to an embodiment of the present invention.
Figure 9 is a conceptual diagram of preventing drainage from freezing of an outdoor unit for an air conditioner according to an embodiment of the present invention.

Hereinafter, the operating principle of the present invention will be described in detail with reference to the attached drawings. In the following description of the present invention, if a detailed description of a known function or configuration is judged to unnecessarily obscure the gist of the present invention, the detailed description will be omitted. The terms described below are defined in consideration of the functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, the definition should be made based on the contents throughout this specification.

Figure 2 is a front open perspective view of an outdoor unit for an air conditioner according to an embodiment of the present invention.

Figure 3 is a plan cross-sectional view showing the drainage structure of an outdoor unit for an air conditioner according to an embodiment of the present invention.

Figure 4 is a partially enlarged perspective view showing a cross-section of a drainage channel of an outdoor unit for an air conditioner according to an embodiment of the present invention.

Figure 5 is a plan cross-sectional view showing the drainway structure of an outdoor unit for an air conditioner in which a heating plate is installed in the drainway according to an embodiment of the present invention.

Figure 6 is a structural diagram of the connection between the outdoor unit support and the drain pipe of the outdoor unit for an air conditioner according to an embodiment of the present invention.

Figure 7 is a partially enlarged view of a first drain pipe according to an embodiment of the present invention.

Figure 8 is a diagram showing the internal fastening structure of a first drain pipe and a second drain pipe according to an embodiment of the present invention.

Figure 9 is a conceptual diagram of preventing drainage from freezing of an outdoor unit for an air conditioner according to an embodiment of the present invention.

Hereinafter, each component and operation of the drainage anti-icing device for an outdoor unit for an air conditioner according to an embodiment of the present invention will be described in more detail with reference to FIGS. 1 to 9.

First, the casing 110 is a rectangular plate-shaped member disposed at the bottom and is formed of a base plate 111 that supports the accumulator 120, compressor 130, and outdoor heat exchanger 140, and a rectangular plate-shaped member. It consists of an upper plate 115 disposed at a predetermined distance apart along the vertical direction with respect to the plate 111, and a plurality of vertical frames 114 disposed along the vertical direction between the base plate 111 and the upper plate 115. It can be configured.

In addition, the base plate 111 has each outdoor heat exchanger 140 installed along each side and rear edge, and a pair of compressors 130 and each compressor 130 are installed inside the outdoor heat exchanger 140. The common accumulator 120 may be fastened and fixed so that gaseous refrigerant can be provided.

The upper plate 115 is provided with blowing fans 150 that promote heat exchange in the outdoor heat exchanger 140 by discharging air drawn through each opening formed through the plate surface to the outside.

With this configuration, during the heating operation of a conventional air conditioner, the high-pressure liquid refrigerant that heats and flows out of the indoor unit (not shown) passes through the outdoor expansion valve (not shown) of the outdoor unit 100 and expands under reduced pressure. The low-pressure liquid refrigerant introduced into the outdoor heat exchanger (140) absorbs heat while exchanging heat with the low-temperature outdoor air flowing into the casing (100) by the blowing fan. It becomes a low-pressure gas. In addition, the low-pressure gaseous refrigerant is separated from gas and liquid in the common accumulator 120, flows into each compressor 130 in a gaseous state, and is then pressurized so that the high-pressure gaseous refrigerant is repeatedly circulated to the indoor unit (not shown).

At this time, according to an embodiment of the present invention, during defrost operation along one side of the outdoor heat exchanger 140, discharge water containing defrost water melted from the outdoor heat exchanger and inflow water such as snow and rain flowing into the casing 110. A drainage channel 112 that is press-molded to discharge water, and a plurality of drainage holes 113 that penetrate the bottom surface of the drainage channel 112 and discharge water discharged into the drainage channel to the outside of the casing 110 are formed. Accordingly, discharge water including defrost water flowing along the drainage channel and inflow water such as snow or rainwater flowing into the outdoor unit is discharged to the outside of the outdoor unit through the drain hole.

Meanwhile, by forming drain channels and drain holes on the bottom of the outdoor unit as described above, the discharge water, including defrost water or inflow water such as snow and rain that has flowed into the casing, does not accumulate on the bottom of the outdoor unit but is discharged outside the outdoor unit, so that it is discharged from the bottom of the outdoor unit in winter. The problem of surface freezing can be solved, but if the temperature of the outside air drops below -5 to -7°C, for example, the discharged water discharged to the outside of the outdoor unit along the drainage channel may freeze the area around the outdoor unit from the outside of the outdoor unit.

Accordingly, in the present invention, an outdoor unit support 912 that supports the outdoor unit above a certain height above the ground and a first drain pipe 914 installed at the lower part of the outdoor unit support and connected to each drain hole 113 are further formed to discharge the water discharged into the drain hole. The discharged water is discharged to a first target location (R1) spaced a certain distance away from the outdoor unit 100 through the first drain pipe.

At this time, the first drain pipe allows discharged water to move and be discharged from the outdoor unit to the first target location located at a first distance L1 from the outdoor unit in the direction of the building drain 920 located outside the outdoor unit, for example, so that the discharge discharged from the outdoor unit Ensure that water is discharged as close to the building drain as possible.

That is, the first drain pipe 914 may be formed to extend from the lower part of the outdoor unit support by a first distance (L1) from the outdoor unit in the direction of the building drain 920 that is a certain distance (L3) away from the outer wall of the building where the outdoor unit is installed. , Accordingly, the discharged water discharged to the outside of the outdoor unit through the drain channel and drain hole formed on the bottom surface of the casing of the outdoor unit in winter can be easily discharged to the building drain without freezing in the surrounding area of the outdoor unit.

In addition, as another embodiment of the present invention, in order to prevent the discharge water from freezing in the drain or the first drain pipe when the temperature of the outdoor air in winter falls below, for example, -5 to -7 ° C, the discharge water may freeze. As shown, a heating plate 210 is placed on the surface of the drain, a heating rod 710 is installed inside the first drain pipe 914 as shown in FIG. 7, and power is supplied to the heating plate and the heating rod. Thus, a hot wire driver 212 that heats the hot wire plate and the hot wire rod can be provided.

This hot wire driver 212 is configured so that the external temperature of the casing measured from the temperature sensor 214 installed on one side of the casing is set to a preset reference temperature that can freeze the discharge water moving in the drain 112 or the first drain pipe 914. If it falls below this level, power can be supplied to the heating plate and heating rod to heat the surface of the drain and the inside of the first drain pipe to prevent the discharged water from freezing.

In addition, in another embodiment of the present invention, a second drain pipe 916 is connected to the first drain pipe 914 and extends in the direction of the building drain 920 to move the discharged water from the outdoor unit to the maximum adjacent position of the building drain. can be formed further.

As shown in FIGS. 6 and 9, this second drain pipe is formed to extend from the first drain pipe. For example, when it is inserted into the first drain pipe and protrudes from the first drain pipe, discharge water flows into the outdoor unit and the second drain pipe. 1 It can be discharged to a second target location (R2) with a second distance (L2) that is longer than the first distance between target locations.

Additionally, this second drain pipe may be inserted into the first drain pipe or may be formed to have a structure that protrudes from the first drain pipe and can be discharged into the first drain pipe so as to extend to the building drain pipe.

That is, the second drain pipe 916 as described above is inserted into the first drain pipe as shown in (a) of FIG. 8 during a period when the external temperature where the outdoor unit is located does not fall below freezing, such as during the summer, and then is inserted into the outside air such as during the winter. During the period when the temperature drops below the reference temperature that can freeze the discharged water, the entire drain pipe, including the first and second drain pipes, protrudes outward as shown in Figures 8(b) and 9, reaching the area adjacent to the building drain. By doing so, the discharged water from the outdoor unit does not invade the sidewalk and freezes, and can be discharged more stably as close to the building drain as possible.

At this time, a flexible connector 950 capable of bending the first drain pipe at a certain angle may be formed at the connection portion of the first drain pipe connected to the second drain pipe, and accordingly, as shown in (c) of FIG. 8 Likewise, when the second drain pipe 916 extends from the first drain pipe 914 by the flexible connector 950, it can be inclined toward the ground 922 at a certain inclination angle θ.

That is, the second drain pipe extends from the first drain pipe at a certain inclination angle toward the ground according to the inclination angle of the flexible connector, so that even when the external temperature of the casing falls below the reference temperature, the second drain pipe Prevent the discharge water from freezing.

In addition, at one first end of the first drain pipe, there is a concave portion ( 970) is formed, and a protrusion 972 fastened to the concave portion may be formed at the second end of the second drain pipe.

This protrusion 972 is implemented to have elasticity and protrude outward, and when inserted into the first drain pipe, it is in close contact with the inner surface of the first drain pipe and remains inserted into the second drain pipe, and then the first drain pipe is inserted into the second drain pipe. When the drain pipe is discharged from the first drain pipe and reaches the concave part, it protrudes into the concave part and is fastened to the concave part so that the first drain pipe and the second drain pipe can be connected.

As described above, according to one embodiment of the present invention, in the drainage anti-icing device for an outdoor unit for an air conditioner, an accumulator and a compressor fixed to the central area on the base plate inside the outdoor unit casing and an outdoor heat exchanger disposed at the edge area. In between, a drain is formed in a concave shape along one side of the outdoor heat exchanger, and in the drain, a plurality of discharge holes are formed through which discharge water such as defrost water generated from the outdoor unit is discharged to the outside of the outdoor unit, and each discharge hole has a drain in the direction from the outdoor unit to the building drain. A drain pipe is installed to move the discharged water to a location spaced a certain distance away and discharge it. A heating plate and a heating rod are provided on the bottom of the drain and the inside of the drain pipe, respectively, so that the outside temperature where the outdoor unit is installed can freeze the discharged water. When the temperature drops below the standard temperature, the heating plate and heating rod are operated so that the discharged water generated from the outdoor unit in winter is not frozen and can be more stably discharged from the outside of the outdoor unit towards the building drain.

As described above, the present invention has been described with reference to the illustrative drawings, but the present invention is not limited to the embodiments and drawings disclosed herein, and various modifications may be made by those skilled in the art within the scope of the technical idea of the present invention. It is obvious that transformation can occur. In addition, although the operational effects according to the configuration of the present invention were not explicitly described and explained while explaining the embodiments of the present invention above, it is natural that the predictable effects due to the configuration should also be recognized.

100: Outdoor unit 110: Casing
111: base plate 112: drainage channel
113: drain hole 140: outdoor heat exchanger
210: heating plate 212: heating wire driving unit
214: temperature sensor 710: heating rod
912: Outdoor unit support 914: First drain pipe
916: second drain pipe 950: flexible connector

Claims (4)

As a device to prevent drainage from freezing of an outdoor unit for an air conditioner,
An outdoor unit casing in which an accumulator and a compressor are fixed to the upper center area of the base plate, and an outdoor heat exchanger is disposed in an edge area of the base plate;
It is formed to be engraved along one side of the outdoor heat exchanger between the central area and the edge area on the base plate to discharge discharge water including defrost water generated from the outdoor heat exchanger or inflow water flowing into the inside of the casing from the outside of the casing. With a drainage ditch,
a plurality of drainage holes formed on the drainage channel to allow the discharged water to be discharged to the outside of the casing;
A temperature sensor installed on one side of the inside of the casing to measure the external temperature of the casing,
A heating plate installed on the bottom of the drain,
a heating wire driver that prevents the discharged water from freezing by driving the heating plate to heat the drainage channel when the external temperature of the casing falls below a preset reference temperature for freezing the discharged water;
An outdoor unit supporter at the bottom of the casing that supports the casing so that the casing is spaced above a certain height from the ground;
a first drain pipe installed at the lower part of the outdoor unit support and connected to each drain hole to discharge discharged water discharged from the drain hole to a first target position on the outside of the outdoor unit;
A heating rod installed inside the first drain pipe formed horizontally with the ground among the first drain pipes,
It is connected to the first drain pipe, and when inserted into the first drain pipe and protrudes from the first drain pipe, the discharged water is discharged to a second target location at a second distance longer than the first distance between the outdoor unit and the first target location. It includes a second drain pipe that allows
The hot wire driving unit,
When the external temperature of the casing falls below a preset reference temperature for freezing the discharge water, the heating rod is driven to heat the inside of the first drain pipe to prevent the discharge water from freezing inside the first drain pipe,
A flexible connector that can bend the first drain pipe at a certain angle is formed at the connection portion of the first drain pipe connected to the second drain pipe,
The second drain pipe is formed to extend from the first drain pipe at a certain inclination angle toward the ground according to the inclination angle of the flexible connector, so that even when the external temperature of the casing falls below the reference temperature, the second drain pipe Prevent discharge water from freezing inside the
A concave portion is formed at one first end of the first drain pipe into which the second end of one side of the second drain pipe protruding from the first drain pipe can be fastened, and a protrusion is formed at the second end of the second drain pipe to be fastened to the concave portion. And
The protrusion is implemented to have elasticity and protrude outward, and when inserted into the inside of the first drain pipe, it is in close contact with the inner surface of the first drain pipe and is inserted into the second drain pipe, and then the first drain pipe is inserted into the second drain pipe. 1 When it is discharged from the drain pipe and reaches the concave part, it protrudes into the concave part and is fastened to the concave part.
The first drain pipe and the second drain pipe,
It is formed in the direction of the building drain located outside the outdoor unit.
The reference temperature is,
It ranges from -5 to -7℃,
The outdoor unit casing is,
an upper plate formed of a rectangular plate-shaped member and disposed at a predetermined distance along the vertical direction with respect to the base plate;
It consists of a plurality of vertical frames disposed along an upward direction between the base plate and the upper plate,
A drainage freezing prevention device for an outdoor unit for an air conditioner, wherein a blowing fan is installed on the upper plate to discharge air to the outside to promote heat exchange in the outdoor heat exchanger. delete delete delete

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