KR20070113899A - Slim type package air-conditioner - Google Patents

Abstract

A slim-type packaged air conditioner is provided to reduce thickness of an indoor unit and increase contact area of a heat exchanger by preventing generation of a dead zone, thereby improving cooling efficiency of the heat exchanger. A slim-type packaged air conditioner comprises an intake port(120), a filter(121), a heat exchanger(140), a first fan(151), a second fan(152), a discharge port(130), and a filter kit(122). The intake port is installed on a lower side of an indoor unit body(110) for the intake of indoor air. The filter filters the indoor air entered via the intake port. The heat exchanger is installed on a back side of the intake port, and performs heat exchange with the indoor air entered via the intake port. The first fan is installed on a back side of the heat exchanger, and blows heat-exchanged indoor air from the heat exchanger. The second fan changes flow direction of the heat-changed indoor air blown by the first fan to discharge it. The discharge port is installed on an upper side of the indoor unit body, and allows the direction-changed air by the second fan to be discharged to an indoor space. The filter kit, which is removable, is installed between the first and second fans, to allow the heat-exchanged air to be filtrated and to ensure consistent flow of the air.

Description

Slim Package Air Conditioner {Slim Type Package Air-conditioner}

1 is a side cross-sectional view showing the interior of an air conditioner according to the prior art.

Figure 2a is an inner side cross-sectional view of the air conditioner having a blower according to the prior art on the heat exchanger.

Figure 2b is an inner side cross-sectional view of the air conditioner having a blower according to the prior art heat exchanger lower portion.

Figure 3 is an internal side cross-sectional view of the slim package air conditioner according to the present invention.

Explanation of symbols used in the main part of the drawing

100: indoor unit 110: main body

120: suction port 121: filter

122: filter kit 130: discharge port

131: direction control guide 140: heat exchanger

151: first fan 152: second fan

In general, an air conditioner (air conditioner) is a type of air conditioner for cooling and air circulation and purification for the purpose of air conditioning in the room.

This air conditioner can be divided into a unit type that is part of the refrigeration cycle (one unit) is provided in one unit (unit) and a separate type that is provided separately in two units, and also the wall hanging to hang the indoor unit on the wall according to the product type It can be divided into stand type for installing mold and indoor unit on the floor and ceiling type for hanging indoor unit on ceiling or inside the ceiling.

Such a package air conditioner is generally divided into an outdoor unit for compressing and liquefying a refrigerant by incorporating a compressor and a condenser, and an indoor unit for cooling indoor air by evaporating the refrigerant by incorporating an evaporator.

Hereinafter, the structure of the indoor unit of the package air conditioner will be described with reference to the accompanying drawings.

1 is a side cross-sectional view showing the inside of the indoor unit of the package air conditioner, Figure 2a is a side cross-sectional view showing the inside of the indoor unit formed with a blower in the upper portion of the heat exchanger in the package air conditioner according to the prior art, Figure 2b is a package according to the prior art It is a side sectional view which shows the inside of the indoor unit in which the blower was formed in the lower part of the heat exchanger of an air conditioner.

1 to 2B, the indoor unit 10 of the package air conditioner includes a main body 11 having an inlet 12 at the bottom front and a discharge port 13 at the top front, and the main body 11 of the main unit 11. An inclined obliquely installed on the upper side of the heat exchanger 14 for cooling the indoor air, and a blower provided at the upper or lower portion of the heat exchanger 14 to forcibly suck the indoor air to exchange heat in the heat exchanger 14 ( blower, 15).

The blower 15 is located at any one of the upper or lower portion of the heat exchanger 14 for the smooth suction of the indoor air according to the shape or use of the indoor unit 10.

In general, when the blower 15 is installed below the heat exchanger 14, a large number of sirocco fans are used, and a wall-mounted type blower or the blower 15 is installed above the heat exchanger 14. If so, a large number of cross flow fans or limited flow fans are used.

The indoor unit 10 of the package air conditioner configured as described above is operated while power is applied to the blower 15 through the forced operation by the user or when the indoor air is below the set temperature.

First, when the blower 15 is formed below the heat exchanger 14, the indoor air is sucked into the blower 15 through the inlet 12 by the operation of the blower 15, and the heat exchanger (above the blower 15) ( 14) is discharged to the side.

At this time, the indoor air is cooled by the endothermic action of the refrigerant while passing through the heat exchanger 14, and then discharged into the room through the discharge port 13 to cool the room.

In addition, when the blower 15 is formed on the heat exchanger 14, the indoor air is sucked through the suction port 12 by the operation of the blower 15, and cooled after passing through the heat exchanger 14 side, the blower It discharges through the discharge port 13 by the 15.

However, the indoor unit 10 of such an air conditioner has the following problems.

First, when the blower 15 is formed above the heat exchanger, a dead zone (D.Z.) in which the sucked indoor air does not come into contact with a portion of the lower side of the heat exchanger 14.

In addition, when the blower 15 is formed below the heat exchanger 14, a dead zone D.Z. that does not come into contact with indoor air sucked by a portion of the upper side of the heat exchanger 14 is generated.

Therefore, not only the cooling efficiency of the indoor unit 10 is lowered, but also the energy efficiency is lowered.

In addition, there is a problem in slimming the thickness L of the indoor unit 10 due to the size of the blower 15, the characteristics of the flow path structure, the filter or the dust collector mounted inside the main body 11, and the arrangement structure thereof.

In addition, the blower (15) is generally provided with a shaft to suck the air, the blade is provided by the shaft, is equipped with a motor for rotating the shaft, in the case of a sirocco fan, the air is sucked in the direction of the rotation axis in the radial direction It has a flow path structure discharged.

Therefore, in order for the air to be discharged to the heat exchanger 14 located above the sirocco fan in the indoor unit 10 of the package air conditioner, the discharged air must be guided by the scroll housing, and in this process, the flow path resistance of the air is generated significantly. .

As a result, this flow resistance not only increases power consumption, but also causes considerable noise during operation.

In addition, since the indoor unit 10 of the package air conditioner is generally provided with a motor and a rotating blade of the blower 15 for fast cooling or cooling of a large space, the thickness (L) of the air conditioner may be determined according to the size of the pin and the size of the motor. none.

However, since the size of the blower 15 must be secured to a predetermined size or more in order to obtain a predetermined air volume of the indoor unit 10, it becomes impossible to finally slim down the thickness of the main body 11.

Accordingly, the present invention has been made to solve the above problems, and reduces the noise in the package air conditioner, maintains a constant amount of air sucked per unit volume and slim package air conditioner applying two fans to slim the package air conditioner The purpose is to provide.

The present invention for achieving the above object is installed in the lower portion of the indoor unit main body suction port for sucking the indoor air; A filter for filtering indoor air sucked through the suction port; A heat exchanger installed at a rear side of the suction port to heat-exchange the indoor air introduced into the suction port; A first fan installed at a rear side of the heat exchanger to blow indoor air heat-exchanged in the heat exchanger; A second fan configured to change the flow direction of the heat-exchanged indoor air blown from the first fan to be discharged; And a discharge port installed at an upper portion of the main body to discharge the indoor air switched from the second fan to the room.

The apparatus may further include a filter kit installed detachably between the first fan and the second fan to allow the heat exchanged indoor air to be filtered and to uniformly flow the indoor air.

In addition, the filter kit is characterized in that made of at least one of activated carbon, deodorizing filter or hepa.

The first fan is a limited floor fan, and the second fan is a cross floor fan.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is an inner side cross-sectional view showing the interior of the package air conditioner according to the present invention.

As shown in FIG. 3, the air conditioner 100 includes a main body 110 and a suction port 120 and a discharge port 130 in which indoor air is sucked and discharged, respectively, at the front upper and lower portions of the main body 110. A first fan 151 and a second fan 152 are installed at the rear side of the inlet 120 and the outlet 130, and an air cleaning filter kit is disposed between the first fan 151 and the second fan 152. (filter kit 122) is further included.

The suction port 120 is installed in the lower portion of the main body 110 to allow the indoor air to flow through the suction port 120, and the rear side of the suction port 120 removes dust and odors of the introduced indoor air. 121) is mounted.

The discharge port 130 is installed in the upper portion of the main body 110 to allow the indoor air introduced from the suction port 120 to be heat-exchanged and then discharged into the room.

The heat exchanger 140 is installed at the rear side of the inlet 120 in which the filter 121 is mounted. Preferably, the heat exchanger 140 is configured such that all of the air sucked in the inlet 120 is in contact with the heat exchanger 140 to exchange heat. The size of the same as the size of the suction port 120 is formed.

In addition, the first fan 151 is installed on the rear side of the heat exchanger 140 to allow indoor air to flow from the inlet 120, and the indoor air sucked by the first fan 151 heat exchanger 140. It is most desirable to have a limited-flow-fan installed to prevent dead zones (DZ) caused by passing only a portion of the.

The second fan 152 is installed at the rear side of the discharge port 130, and the flow path of the indoor air flows into the main body 110 by the first fan 151 to be discharged to the upper discharge port 130 To blow into the room.

Therefore, the second fan 152 is a cross-floor fan for converting the flow flow of the indoor air blown to the upper portion of the indoor unit main body 110 by the first fan 151 toward the discharge port 130. -fan) is most preferably installed

In addition, the filter kit 122 is installed between, for example, the first fan 151 and the second fan 152 in the center of the main body 110, and is preferably detachably installed.

The filter kit 122 is formed of a hepa filter, an activated carbon filter, or a deodorizing filter. The hepa filter effectively catches the organisms contained in the air flowing through the ventilator and the main body 110, and the activated carbon filter, or the deodorizing filter, The main body 110 removes harmful gases and various odors.

In addition, the filter kit 122 has a uniform flow while the turbulent flow of indoor air generated by the first fan 151 passes through the filter kit 122 as well as the air cleaning function as described above. 152).

In addition, since the indoor air flowing into the second fan 152 becomes uniform, noise of the second fan 152 is prevented, and the internal upper and lower pressures of the main body 110 are constant around the filter kit 122. Keep it.

 In addition, the direction adjustment guide 131 is installed in the discharge port 130 to convert the indoor air discharged by the second fan 152 to up / down / left and right in the room to be discharged.

Looking at the operation relationship of the packaged air conditioner indoor unit 100 configured as described above in more detail, the indoor air is sucked by the first fan 151 is forcedly blown to the upper body 110, wherein the first fan 151 The filter 121 and the heat exchanger 140 installed at the front side of the filter remove dust and odor of the indoor air that is sucked, and heat the filtered indoor air in the heat exchanger 140 to blow air into the main body 110. do.

The indoor air introduced into the main body 110 and heat-exchanged is blown to the upper side of the main body 110 by the first fan 151, and passes through the filter kit 122 formed at the center side of the main body 110, thereby exchanging heat. The turbulent flow of the prepared air becomes uniform, and it removes the unpleasant odor of the air and filters out dust or various germs.

As the indoor air having a uniform flow is introduced into the upper portion, the flow of air is changed by the second fan 152 installed at the rear side of the discharge port 130, and the indoor air is changed by the direction control member 131 installed at the discharge port 130 side. It is discharged in up / down / left / right direction to change room temperature.

Thus, the heat exchanger 140 is installed on the inlet 120 side in a direction perpendicular to the bottom of the main body 110, the first fan 151 is installed at the rear end of the heat exchanger 140, and the second fan 152. It is possible to reduce the thickness (L ') of the indoor unit 100 by changing the flow direction by sucking the air heat exchanged through the).

In addition, by improving the dead zone generation of the heat exchanger 140, the contact area expansion and cooling efficiency of the heat exchanger 140 can be improved.

As described above, the present invention has the advantage of reducing the thickness of the indoor unit by changing the flow direction of air by using two fans, it is possible to slim.

In addition, the present invention has the advantage that by improving the dead zone issuance of the heat exchanger, it is possible to improve the heat exchange efficiency by expanding the heat exchange area.

In addition, the present invention has the effect of reducing the noise due to the flow path resistance of the air by changing the flow of air in the main body by using two blowing fans and the effect of reinforcing the static pressure inside the indoor unit.

Claims (4)

A suction port installed at a lower part of the indoor unit main body to suck indoor air; A filter for filtering indoor air sucked through the suction port; A heat exchanger installed at a rear side of the suction port to heat-exchange the indoor air introduced into the suction port; A first fan installed at a rear side of the heat exchanger to blow indoor air heat-exchanged in the heat exchanger; A second fan configured to change the flow direction of the heat-exchanged indoor air blown from the first fan to be discharged; And A slim package air conditioner is installed on the top of the main body and includes a discharge port for discharging the indoor air switched from the second fan to the room. The method of claim 1,  And a filter kit detachably installed between the first fan and the second fan to allow the heat exchanged indoor air to be filtered and to uniformly flow the indoor air. The method of claim 2, The filter kit is a slim package air conditioner, characterized in that made of at least one of activated carbon, deodorizing filter or hepa.  The method according to any one of claims 1 to 3, Wherein said first fan is a limited floor fan and said second fan is a cross floor fan.

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