KR200303719Y1 - a device for a discharge of condensed water in an air conditioner system - Google Patents

Abstract

The present invention removes the base of the predetermined height, which is installed on the case bottom of the air conditioner and the discharge pipe for discharging the condensate to the outside, thereby simplifying the installation process of the air conditioner and at the same time removing the concrete base The present invention relates to a condensate drainage device of an air conditioner, which reduces the installation load of the fuel cell and reduces the installation cost and air accordingly.

In particular, the present invention is a heat exchanger is installed in the case of the air conditioner, the bottom of the heat exchanger is provided with a condensate receiver for collecting condensate generated therefrom, the discharge pipe for discharging the condensate therein is connected to the condensate receiver In installed,

A condensate storage chamber 122 having a predetermined depth is formed on one side of the condensate receiver 120, and is lowered while maintaining a predetermined height with an inner bottom surface of the condensate storage chamber 122 on an outer wall 124 of the condensate storage chamber 122. While installing the discharge pipe 130 is bent to form a predetermined depth in the condensate to maintain a constant water level at the end of the discharge pipe 130 is always down, while preventing the siphon in place in the discharge pipe 130 in the condensate storage chamber 122 The pipe 131 is formed to be somewhat high to prevent the condensate of the condensate storage chamber 122 from being stored lower than the lower end of the discharge pipe 130 by the siphon phenomenon.

In addition, the present invention forms a reservoir 123 of a predetermined height in place of the condensate receiver 120 at the point where the condensate flows into the condensate storage chamber 122, the height of the condensate receiver 120 and the discharge pipe at the point where the condensate flows The height difference of the 130 is increased, and an emergency auxiliary drain valve having an operation valve 141 to quickly discharge the condensate therein at the bottom of the outer wall 124 of the condensate storage chamber 122 ( 140 is installed to connect, and the drip pipe 142 is formed in communication with the drain valve 140 in the condensate receiver 120 in close proximity to the reservoir 123.

The present invention is also characterized in that the condensate scattering prevention plate 170 is installed to prevent the condensate from scattering generated by backflowing the discharge pipe 130 above the condensate storage chamber 122.

Description

{A device for a discharge of condensed water in an air conditioner system}

The present invention relates to a condensate discharge device of an air conditioner, and more particularly, by removing a base having a predetermined height at which a discharge pipe for discharging condensate to the outside is installed, while simplifying the installation process of the air conditioner, The present invention relates to a condensate drainage device of an air conditioner, which reduces the installation load of the air conditioner by removing and reduces the installation cost and the air accordingly.

In general, the air conditioner is installed for the purpose of cooling or heating the room or purifying the air with a heater, an air conditioner, an air purifier, etc., and serves to create a more comfortable indoor environment for humans.

In the air conditioner, the indoor and external air is sucked by the suction force of the blower fan, and the sucked air is heated or cooled while passing through the heat exchanger and then discharged back into the room to perform a heating or cooling function.

Here, looking at the condensate receiver and its peripheral devices related to the present invention, a blower fan connected to the duct in the case 10 of the air conditioner is installed together with the blower motor, as shown in FIG. 1, between the blower fan and the filter member. It is provided with an inlet and an outlet and a heat exchanger 20, the cooling tube is repeatedly bent between both side plates is installed, the bottom of the heat exchanger 20 is provided with a condensate receiver 13 for collecting the condensate generated therefrom Under the condensate receiver 13, a discharge pipe 14 connected to the outside is connected.

At this time, the discharge pipe 14 is to install the base 30 of the predetermined height by placing concrete on the bottom of the case 10, and then the discharge pipe 14 is disposed on the base 30, wherein the discharge pipe 14 ) Is bent in a U-shape to prevent the condensed water discharged by the air pressure in the air conditioner generated by the operation of the blower fan and the reflow of the condensate along the discharge pipe 14.

As described above, since the base 30 having a predetermined height is installed in consideration of the height of the discharge pipe 14, the process of installing the air conditioner is not only very cumbersome, and the installation cost is increased accordingly, and the base which is concrete ( Due to the weight of 30), the installation load of the air conditioner is greatly increased, and there are many problems such as being restricted by the installation location of the air conditioner.

Accordingly, the present invention has been made in view of the above problems, and is easy to install the air conditioner by removing the base of the predetermined height is installed in the case bottom of the air conditioner, the discharge pipe for discharging the condensate to the outside At the same time, the purpose of the present invention is to provide a condensate drainage device of an air conditioner to reduce the installation load of the air conditioner by removing the concrete base, as well as to reduce the installation cost and air accordingly.

1 is a cross-sectional view of the main part of the condensate discharge device according to the prior art,

Figure 2 is a sectional view of the main part of the condensate discharge device according to the present invention,

3 is an enlarged view illustrating main parts of FIG. 2;

<Explanation of symbols for main parts of drawing>

100: case 120: condensation tray

122: condensation water storage room 123: reservoir

124: outer wall 130: discharge pipe

131: siphon prevention tube 140: auxiliary drain valve

142: drip pipe 160: insulation member

170: condensation splash plate

The present invention for achieving the above object is a heat exchanger is installed in the case of the air conditioner, the bottom of the heat exchanger is provided with a condensate collecting for collecting the condensate generated therefrom, the condensate in the condensate When the discharge pipe for discharging is connected and installed, a condensate storage chamber having a predetermined depth is formed on one side of the condensate receiver, and the discharge pipe bent downward while maintaining a predetermined height with an inner bottom surface of the condensate storage chamber on the outer wall of the condensate storage chamber. While installed, the lower end of the discharge pipe is located in a predetermined depth in the condensate water always maintain a constant water level, while the siphon prevention pipe is formed slightly higher in the discharge pipe in the condensate storage chamber by the syphon phenomenon of the condensate storage chamber To prevent condensate from running below the bottom of the discharge line It features.

The present invention is also characterized in that the condensate receiver at the point where the condensate flows into the condensate storage chamber is formed in the reservoir of a predetermined height to increase the height difference between the height of the condensate receiver at the point where the condensate flows.

In addition, the present invention is connected to the emergency auxiliary drain valve having an operating valve to the bottom of the condensate storage compartment to quickly discharge the condensate therein, and the drip pipe connected to the drain valve in the condensate receiver close to the reservoir Characterized in that formed.

The present invention is also characterized in that the condensate scattering prevention plate is installed to prevent the condensate from scattering generated by flowing back the discharge pipe above the condensate storage chamber.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

Figure 2 is a sectional view of the main part of the condensate discharge device according to the present invention, Figure 3 is an enlarged view of the main part of FIG.

The heat exchanger 150 is installed on the frame 111 in the case 100 of the air conditioner, and a condensate receiver 120 for collecting condensate generated therefrom is installed at the bottom of the heat exchanger 150. The discharge pipe 130 for discharging the condensate therein is connected to the receiver 120, and a condensate storage chamber 122 having a predetermined depth is formed on one side of the condensate receiver 120, and the condensate storage chamber 122 is formed. While installing the discharge pipe 130 is bent downward while maintaining a predetermined height and the inner bottom surface of the outer wall 124 of the predetermined depth in the condensate water that the end of the discharge pipe 130 is always maintained a constant water level By the air pressure difference between the case 100 and the outside of the exhaust pipe 130 to prevent the outside air flow back.

In addition, the condensate in the condensate storage chamber 122 is formed by a siphon phenomenon by forming a siphon prevention tube 131 at a somewhat higher position so that the condensate therein does not flow into the discharge pipe 130 in the condensate storage chamber 122. Is prevented from being lower than the bottom of the discharge pipe 130. That is, when a part of the discharge pipe 130 exposed to the outside is somewhat lower than the case 100, the condensed water in the condensate storage chamber 122 is rapidly discharged by the discharge pressure of the condensate in the discharge pipe 130, the lower end of the discharge pipe 130 The siphon phenomenon is discharged until it is lower than the lower, and when the siphon phenomenon occurs, the air temperature discharged to the room through the blowing fan as the outside air flows back through the discharge pipe 130 by the air pressure difference from the outside Becomes very uneven. Therefore, by installing the siphon prevention pipe 131 in place of the discharge pipe 130 to prevent the reverse flow of the outside air while the end of the downward discharge pipe 130 is always submerged in a certain depth.

In addition, a condensate splash prevention plate 170 is installed to prevent scattering of the condensate generated by backflowing the discharge pipe 130 above the condensate storage chamber 122, and the condensate receiver 120 and the condensate storage chamber 122 are installed. Install a heat insulating member 160 on the bottom to prevent dew condensation.

Thereafter, a reservoir 123 having a predetermined height is formed at a position of the condensate receiver 120 at the point where the condensate flows into the condensate storage chamber 122, thereby raising the condensate receiver 120 at the point where the condensate flows and the discharge pipe 130. It is desirable to smooth the flow of condensate to the discharge pipe 130 by increasing the height difference of the maximum.

In addition, the emergency auxiliary drain valve 140 having an operation valve 141 is connected to the bottom of the outer wall 124 of the condensate storage chamber 122 so as to quickly discharge the condensate therein. It is possible to discharge the condensate that is constantly maintained inside the condensate storage chamber (122). Then, the drip pipe 142 is formed in communication with the drain valve 140 in the condensate receiver 120 in close proximity to the reservoir 123 to discharge all the condensate stored in the condensate receiver 120 if necessary.

Referring to the effect of the condensate discharge device of the air conditioner configured as described above are as follows.

When the condensate generated from the heat exchanger 150 falls on the condensate receiver 120, the condensate flows into the condensate storage chamber 122 by the inclined surface of the condensate receiver 120, wherein the condensate is stored in the reservoir 123 of the condensate receiver 120. ) Is temporarily stored in the condensed water storage chamber 122 beyond the reservoir 123.

When a certain level or more is stored in the condensate storage chamber 122, condensed water is discharged through the discharge pipe 130 bent downward as shown in FIG. 3, so that a constant level is always maintained in the condensate storage chamber 122. Since the end of the discharge pipe 130 is bent downward and immersed in the condensed water, even if an air pressure difference between the inside and the outside of the case 100 occurs, outside air may be prevented from flowing back through the discharge pipe 130.

At this time, the siphon prevention pipe 131 is formed in place of the discharge pipe 130 in the condensate storage chamber 122 so that the condensate in the condensate storage chamber 122 is lower than the lower end of the discharge pipe 130 by a syphon phenomenon. To prevent them.

In addition, the condensate scattering prevention plate 170 is installed above the condensate storage chamber 122 to prevent the condensate from scattering in all directions by the outside air generated by backflowing the discharge pipe 130.

On the other hand, if you want to quickly discharge all the condensate inside the condensate storage chamber 122 to prevent freezing or cleaning during the winter season, by operating the operation side 141 of the bottom of the condensate storage chamber 122 emergency auxiliary drain valve ( 140 to discharge the condensate to the outside.

In addition, by forming a drip pipe 142 in communication with the drain valve 140 in the condensate receiver 120 in close proximity to the reservoir 123 to discharge all the condensate stored in the condensate receiver 120 during the winter season.

Therefore, the present invention facilitates the installation process of the air conditioner and removes the concrete base while removing the base having a predetermined height at which the discharge pipe for discharging condensate to the outside is installed at the bottom of the case of the air conditioner. There is a very useful effect to reduce the installation load of the conditioner, as well as to reduce the installation cost and air accordingly.

In addition, the present invention has a very useful effect that can prevent the condensate scattered in all directions by the outside air generated by backflowing the discharge pipe 130 by installing the condensate scattering prevention plate 170 above the condensate storage chamber 122. have.

Claims (4)

In a case of an air conditioner, a heat exchanger is installed, and a bottom of the heat exchanger is provided with a condensate receiver for collecting condensate generated therefrom, and a discharge pipe for discharging condensate therein is connected to the condensate receiver. While forming a condensate storage chamber 122 of a predetermined depth on one side of the condensate receiver 120, while maintaining the predetermined height and the inner bottom surface of the condensate storage chamber 122 on the outer side 124 of the condensate storage chamber 122 While installing the discharge pipe 130 bent downward, the end of the downward discharge pipe 130 is placed in a predetermined depth in the condensate water always maintain a constant level, while siphoning in place in the discharge pipe 130 in the condensate storage chamber 122 Preventing condensate discharge device of the air conditioner, characterized in that to prevent the condensed water in the condensate storage chamber 122 is lower than the lower end of the discharge pipe 130 by the siphon phenomenon by forming a somewhat higher prevention tube (131). The method of claim 1, The condensate receiver 120 has a predetermined height at a point where the condensate flows into the condensate storage chamber 122, and a height of the condensate receiver 120 and the discharge pipe 130 at the point where the condensate flows. Condensate discharge device of the air conditioner, characterized in that the car is enlarged. The method of claim 1, An emergency auxiliary drain valve 140 having an operation valve 141 is connected to a bottom of the outer wall 124 of the condensate storage chamber 122 so as to quickly discharge the condensate therein, and the reservoir 123 is provided. Condensate discharge device of the air conditioner, characterized in that formed in the condensate receiver 120 in close contact with the drain valve 140 is in communication with the drain valve (140). The method of claim 1, The condensate discharge device of the air conditioner, characterized in that the condensate scattering prevention plate 170 is installed to prevent the condensate from scattering generated by flowing back to the discharge pipe 130 above the condensate storage chamber (122).