KR100485579B1 - Drain pipe inspection method for air conditioner - Google Patents

Abstract

Disclosed is an installation failure inspection method of an air conditioner. In the poor installation method of the air conditioner according to the present invention, only one indoor unit of the plurality of indoor units off and the other indoor unit is operated for a predetermined time, the drainage of the indoor unit is turned off through the change in the water level of the condensate water off the indoor unit Determine if the position is bad.

Description

Inspection method of poor installation of air conditioner {DRAIN PIPE INSPECTION METHOD FOR AIR CONDITIONER}

The present invention relates to an air conditioner, and more particularly, to an installation failure inspection method for determining whether a drainage position of a multi-system air conditioner is connected to a plurality of indoor units in one outdoor unit.

The multi-system air conditioner is operated by connecting a plurality of indoor units to one compressor. The installation position of the indoor unit is very diverse, and a representative installation example is a ceiling buried type. In the ceiling buried type, the indoor unit is installed above the ceiling, and hot air or cold air is supplied to the room through a discharge hole formed in the ceiling.

In the indoor unit of such a multi-system air conditioner, condensed water in which air is changed into liquid is formed while air comes into contact with the surface of the low temperature evaporator. As the cooling time lasts, the amount of condensate gradually increases. If the condensate is not discharged to the outside, the condensate may overflow and contaminate the ceiling, or may flow out of the ceiling and into the room.

The condensate is discharged to the outside by connecting a drain pipe to each indoor unit so that such a problem does not occur. In order to simplify the piping, it is common to connect several indoor units to a single drain pipe. For this reason, if each indoor unit connected to one drain pipe is installed at a lower position than the other indoor units, or if the connection between the drain pipe and the indoor unit is poor, the condensate of the indoor unit may not be discharged or even condensate from another indoor unit may be introduced. have.

An object of the present invention is to enable a quick and easy inspection of a defective drainage pipe of an indoor unit having a low drainage position in a multi-system air conditioner in which a plurality of indoor units are connected through one drain pipe.

The installation failure inspection method of the air conditioner according to the present invention for this purpose, in the installation failure inspection method of the air conditioner is a plurality of indoor units are connected through a single drain pipe to discharge the condensate, a plurality of indoor units Only one indoor unit is turned off and the other indoor unit is operated for a predetermined time, and it is determined whether the drainage position of the indoor unit is turned off by changing the water level of the condensed water of the indoor unit.

The preferred embodiment of the installation failure inspection method of the air conditioner according to the present invention made as described above with reference to Figs. First, Figure 1 is a view showing a drain pipe connection structure of an air conditioner having a plurality of indoor units. As shown in FIG. 1, an indoor unit 104 is installed above the ceiling 102 of each indoor space partitioned by the wall surface 108, and each indoor unit 104 is provided with a drain pan 104a. . Condensate generated in each indoor unit 104 collects in the sump 104a, and when the level of the condensate exceeds a certain level, the condensate is discharged by an action such as a drain pump (not shown), and is discharged through the drain pipe 106 to the outside. To be discharged. In order to detect the level of condensate, a floating switch (not shown) is provided for each drain 104a. 1, if any one indoor unit is installed lower than the other indoor units, during the actual operation of the air conditioner, the condensed water generated and discharged from the indoor units having a high drainage position is concentrated to an indoor unit having a low drainage position. It overflows, which can lead to contamination of the ceiling or the room.

FIG. 2 is a flowchart illustrating a method for inspecting a poor installation of an air conditioner according to an exemplary embodiment of the present invention, and illustrates a method for inspecting whether an indoor unit is installed poorly so as to have a lower drainage position than other indoor units. As shown in FIG. 2, in order to apply all the inspection methods according to the present invention to each indoor unit in order, the variable k indicating the identification number of the indoor unit is initialized to 1 (k = 1) (202), and the kth indoor unit (I.e., the first indoor unit) is turned off and the remaining indoor units are all driven to cool (204). When the operation time of the remaining indoor units except the one indoor unit that is turned off reaches a preset time (206), the level of condensate accumulated in the sump of the k-th indoor unit which is turned off is measured (208). Since the kth indoor unit was turned off while the other indoor units were operating, if the level of condensate accumulated in the sump of the kth indoor unit is above the preset level (210), the kth indoor unit has a lower drainage position than the other indoor units. It means that condensate is introduced from other indoor units having a higher position. In this case, therefore, it is determined that the installation of the k-th indoor unit is poor and an error message is output (212). When the total number of indoor units is k _max , it is checked whether the indoor unit that has completed the current inspection is the last indoor unit by comparing whether k = k _max (214). If k = k _max is shut down the testing process, because the inspection is completed for all the indoor units, and conversely k = not the k _max inspective indoor unit is more present because that as the value of the variable k as k = k + 1 1 Increasing and checking whether the next indoor unit installation failure (216).

The installation failure inspection method of the air conditioner according to the present invention, a low drainage position compared to other indoor units by inspecting the change in the level of condensed water of the indoor unit is turned off while only one indoor unit is off and the other indoor units are operating. Allows you to check installation.

1 is a view showing a drain pipe connection structure of an air conditioner having a plurality of indoor units.

Figure 2 is a flow chart showing a bad installation inspection method of the air conditioner according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

102: ceiling

104: indoor unit

104a: drain pan

106: drain pipe

Claims (3)

In the installation failure inspection method of the air conditioner is a plurality of indoor units are connected through a single drain pipe to discharge the condensate, Only one indoor unit of the plurality of indoor units is turned off and the other indoor units are driven for a preset time; The installation failure inspection method of the air conditioner for determining whether the drainage position of the off indoor unit by the change of the water level of the condensed water of the off indoor unit. The method of claim 1, And determining that the drainage position of the turned off indoor unit is lower than the drainage position of the remaining indoor units when the level of the condensed water of the turned off indoor unit exceeds a predetermined level at the predetermined time. The method of claim 1, And each of the plurality of indoor units are sequentially turned off and the rest of the indoor units are operated while determining whether the drainage position of the indoor unit is turned off.