JP4813996B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner including a water tray that receives drain water condensed by a heat exchanger, and a first float switch that detects a water level accumulated in the water tray.

  Conventionally, in ceiling-embedded air conditioners, it is necessary to secure the slope of the drain pipe installed in the ceiling in order to drain the drain water generated during cooling and dehumidification to the outside. Due to the shortage, it is not possible to sufficiently secure the gradient of the drain pipe connected to the lower part of the air conditioner. For this reason, drain water is forcibly drained using a drain pump.

  Such an air conditioner accumulates drain water in a water tray, detects that the drain water has reached a predetermined water level with a float switch, and drives the drain pump by this detection to drain water.

However, in such an air conditioner, when drain water accumulates in the water tray, slime (bacteria clumps) is likely to be generated in the drain water, and this slime stops floating and clogs the water distribution pipe. Therefore, a plate of antibacterial and antifungal resin is provided on the water tray (see Patent Document 1).
JP 2006-57860 A

  However, if the generation of slime cannot be sufficiently suppressed by the antibacterial / antifungal resin plate, if the float switch stops floating due to the generation of slime, the drain water collected in the water tray is not drained by the drain pump. There is a problem that the water tray overflows.

  An object of the present invention is to provide an air conditioner in which a water tray does not overflow.

The invention of claim 1 includes a heat exchanger, a water tray that receives drain water condensed by the heat exchanger, a first float switch that detects a first water level of water accumulated in the water tray, In an air conditioner comprising a drain pump for draining drain water of the water tray when the 1 float switch detects the first water level,
An auxiliary saucer is connected to the water saucer,
The height position of the bottom of this auxiliary saucer is set to be substantially the same as the first water level,
A second float switch for detecting a predetermined second water level higher than the first water level is provided in the auxiliary tray;
The drain pump is driven when the second float switch detects the second water level.

The invention of claim 2 is characterized in that a weir having a predetermined height is provided between the water receiving tray and the auxiliary receiving tray, and the weir is formed of a material containing a drug that inhibits bacterial growth .

  According to this invention, even if the first float switch does not function due to generation of slime, overflow of the water pan can be prevented.

  Hereinafter, an embodiment of an air conditioner according to the present invention will be described with reference to the drawings.

[First embodiment]
FIG. 1 shows an air conditioner 10 according to the present invention. The air conditioner 10 is a ceiling-embedded air conditioner that is inserted into an opening 2 of a ceiling 1 and attached.

  The air conditioner 10 has passed through a heat exchanger 11, a blower fan 12 that sucks indoor air from an intake opening (not shown), and sends the sucked air toward the heat exchanger 11, and the heat exchanger 11. A plurality of rectifying plates 161 for guiding air to the air outlet 13, a water tray 20 that receives drain water condensed by the heat exchanger 11, a first float switch 14 that detects the water level accumulated in the water tray 20, When the first float switch 14 detects a predetermined water level (first water level) H (see FIG. 2), the first float switch 14 includes a drainage pump 15 that drains the drain water of the water tray 20.

  The float 14 </ b> H of the first float switch 14 is disposed in the water tray 20. Reference numeral 17 denotes an outlet grill provided at the outlet 13.

  The water tray 20 has a concave portion 21a formed on the left side of the bottom portion 21 as shown in FIG. An auxiliary tray 23 is connected to the right side wall 22 of the water tray 20.

  The height position of the bottom 23 </ b> A of the auxiliary tray 23 is set to be approximately the same as the predetermined water level H of the water tray 20.

  A step portion 25 that is one step higher is formed on the right side of the auxiliary tray 23, and a side wall 26 is formed on the right side of the step portion 25.

  As shown in FIG. 1, the suction port 15 </ b> A of the drainage pump 15 is disposed at a position facing the recess 21 a of the water tray 20, and the drainage pump 15 can drain all drain water accumulated in the water tray 20. It has become.

  The first float switch 14 is turned on when the water level of the drain water in the water tray 20 becomes a predetermined water level H or higher. The drain pump 15 is driven when the first float switch 14 is turned on to drain the drain water in the water tray 20. The drain water drained by the drain pump 15 is discharged to the outside through the drain pipe 16.

  When the drainage pipe 16 is straightened as a smooth tube that is not a bellows tube even in the curved portions 16a and 16b, clogging of slime in the curved portions 16a and 16b can be prevented.

  The step 25 of the auxiliary tray 23 is provided with a second float switch 27, and the float 27 </ b> H of the second float switch 27 is disposed on the bottom 23 </ b> A of the auxiliary tray 23.

  The second float switch 27 is turned on when the water level of the drain water accumulated in the auxiliary tray 23 becomes Ha or higher. The water level Ha is set at a position slightly higher than the water level H.

When the second float switch 27 is turned on, the drainage pump 15 is driven regardless of whether the first float switch 14 is turned on or off.
[Operation]
Next, operation | movement of the air conditioner 10 comprised as mentioned above is demonstrated.

  When the air conditioner 10 is cooled or dehumidified, the drain water condensed by the heat exchanger 11 accumulates in the water tray 20. When the drain water accumulated in the water tray 20 reaches the water level H, the first float switch 14 is turned on, the drain pump 15 is driven, and the drain water in the water tray 20 is drained through the drain pipe 16. .

  During operation of the air conditioner 10, the drain pump 15 is driven for 90 seconds every 10 minutes when the first float switch 14 is turned on.

  That is, after the water level becomes the predetermined water level H and the drainage pump 15 is operated, even if the water level falls below the predetermined water level H, the drainage pump 15 is driven for a while. For this reason, the water level of the water receiving tray 20 can be reliably kept low.

  Moreover, if the air conditioner 10 is operated, the drainage pump 15 is periodically driven even if the water level does not reach the predetermined water level H, so that the water level of the water tray 20 can be kept low. For this reason, if there is no supply of the drain water to the water receiving tray 20, the water receiving tray 20 will dry quickly, generation | occurence | production of slime will be prevented, and it will prevent beforehand that the suction inlet of the drainage pump 15, etc. are blocked by slime. Further, the drain water is less likely to reach the float 14H of the first float switch 14, and the float 14H is prevented from being fixed with slime.

  In addition, when drain water accumulates in the water tray 20 and slime is generated and the first float switch 14 does not function, the water level of the drain water in the water tray 20 rises due to cooling or dehumidifying operation of the air conditioner 10. When the water level H is reached, the first float switch 14 is not turned on. For this reason, the drain pump 15 is not driven, and the water level of the drain water accumulated in the water tray 20 exceeds the water level H.

  Then, the drain water flows into the auxiliary tray 23, and the drain water accumulates in the auxiliary tray 23. When the drain water accumulated in the auxiliary tray 23 reaches the water level Ha, the second float switch 27 is turned on.

  Since the second float switch 27 normally does not allow drain water to flow into the auxiliary tray 23, the second float switch 27 does not stop functioning due to slime, so if drain water flows into the auxiliary tray 23. The second float switch 27 is turned on by reliably detecting the water level Ha.

  When the second float switch 27 is turned on, the drain pump 15 is driven, and the drain water in the water tray 20 and the auxiliary tray 23 is drained through the drain pipe 16. Thereby, even if the 1st float switch 14 does not function, the overflow of the water receiving tray 20 is prevented reliably.

Even when the second float switch 27 is turned on, the drainage pump 15 is driven every 90 minutes for 90 seconds as described above. For this reason, after the drain water in which slime is generated is discharged, the drain water hardly accumulates in the water receiving tray 20, and the generation of slime is suppressed.
[Second Embodiment]
FIG. 3 shows the water tray 20 and the auxiliary tray 23 of the second embodiment. In the second embodiment, a weir 24 having a predetermined height is provided between the water receiving tray 20 and the auxiliary receiving tray 23, that is, on the right side wall 22 of the water receiving tray 20.

  The height of the weir 24 is lower than the height position at which the water tray 20 overflows. The weir 24 is formed of a resin or the like containing a drug that inhibits bacterial growth.

  In the second embodiment, when the drain water level of the water tray 20 exceeds the water level H and exceeds the weir 24, the drain water is collected in the auxiliary tray 23, and the drain water collected in the auxiliary tray 23 becomes the water level Ha. The second float switch 27 is turned on. And the drainage pump 15 is driven for 90 seconds every 10 minutes like the 1st Example, and the drain water of the water tray 20 is drained.

  Since the weir 24 is formed of a resin that suppresses the growth of bacteria, slime is not generated in the drain water accumulated in the auxiliary tray 23. The drain water collected in the auxiliary tray 23 is drained by the drain pump 15.

It is sectional drawing which showed roughly the structure of the air conditioner which concerns on this invention. It is sectional drawing which showed the water receiving tray and auxiliary receiving tray of the air conditioner shown in FIG. It is explanatory drawing which showed the water receiving tray of 2nd Example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 Heat exchanger 14 1st float switch 15 Drain pump 20 Water catcher 23 Auxiliary saucer 27 2nd float switch

Claims (2)

A heat exchanger, a water tray that receives drain water condensed by the heat exchanger, a first float switch that detects a first water level of water accumulated in the water tray, and the first float switch is a first water level In an air conditioner equipped with a drainage pump that drains the drain water of the water tray when detecting
An auxiliary saucer is connected to the water saucer,
The height position of the bottom of this auxiliary saucer is set to be substantially the same as the first water level,
A second float switch for detecting a predetermined second water level higher than the first water level is provided in the auxiliary tray;
An air conditioner that drives the drainage pump when the second float switch detects a second water level. 2. The air conditioner according to claim 1 , wherein a weir having a predetermined height is provided between the water receiving tray and the auxiliary receiving tray, and the weir is formed of a material containing a drug that inhibits bacterial growth.

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