JPS6219856Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to an air conditioner with an improved drain discharge structure.

A conventional air conditioner has a blower suction chamber 3 and a blower discharge chamber 4 inside a casing 2 with a heat insulating material 1 pasted on the inside.
It forms a partition. The blower suction chamber 3 is provided with a suction port 5 . In addition, the blower discharge chamber 4
is provided with a blower 7 attached to a fan deck 6, an air heat exchanger 8, an air outlet 9, and a drain pan 10, and a drain hose 12 is connected to the drain pan outlet 11.

In this air conditioner, air enters from the suction port 5, is pressurized by the blower 7, and is sucked into the air heat exchanger 8, where thermal energy is exchanged.
Air is blown out from the air outlet 9 into the room to be air-conditioned. Here, the air is dehumidified as it passes through the air heat exchanger 8. Condensed water adhering to the surface of the air heat exchanger 8 due to dehumidification falls into the drain pan 10 due to gravity. The condensed water collected in the drain pan 10 is drained from the drain pan outlet 11 through the drain hose 12.

In this air conditioner, the drain hose 12 must be lowered from the drain pan outlet 11 in order to drain water well. For this reason, the drain hose 12 is located below the drain pan 10 at the bottom of the unit, necessitating a space for the drain hose. Therefore, a lot of space is required, making it difficult to make the unit thin, and it is difficult to install the drain hose 12 inside the unit.
Also, installation work is difficult because the drain head is low.

This invention was made in view of the above circumstances,
The purpose is to provide an air conditioner that can be made thinner and easier to install by attaching a drain receiver that utilizes the static pressure of the blower.

That is, the present invention provides a drain pan with an open top in the blower discharge chamber, a drain receiver with an open top in the blower suction chamber and whose surface area is smaller than the surface area of the drain pan, and a connecting pipe connects the bottoms of the drain pan and the drain receiver. This is an air conditioner in which the drain outlet of the drain receiver is installed above the drain water level of the drain pan.

Embodiments of the present invention will be described below based on the drawings.

FIG. 2 is a sectional view of the air conditioner, and FIG. 3 is an explanatory diagram illustrating the principle of drainage of the air conditioner. This air conditioner has a blower suction chamber 23 and a blower discharge chamber 2 inside a casing 22 with a heat insulating material 21 pasted on the inside.
4 is formed as a partition. The blower discharge chamber 24 includes a blower 26 attached to a fan deck 25;
An air heat exchanger 27 is provided, and an air outlet 28 is formed. Further, a drain pan 29 with an open top is provided below the air heat exchanger 27.

On the other hand, the blower suction chamber 23 is provided with an air inlet 30 and a drain receiver 31 with an open top. The drain receiver 31 has a smaller surface area than the drain pan 29 and communicates with the drain pan 29 through a connecting pipe 32 at its bottom. Furthermore, the drain receiver 31 has a drain outlet 33.
is formed. This drain outlet 33 is installed above the drain water level of the drain pan 29,
A drain hose 34 is attached here. Note that the drain receiver 31 has a diameter that is approximately several times the diameter of the drain hose 34.

In this air conditioner, air enters through the suction port 30, is pressurized by the blower 26, is sucked into the air heat exchanger 27, where thermal energy is transferred, and is blown out from the air outlet 28 into the room to be air-conditioned. Ru.

When passing through the air heat exchanger 27, the air is dehumidified. Condensed water adhering to the surface of the air heat exchanger 27 due to dehumidification falls into the drain pan 29 due to gravity. The condensed water collected in the drain pan 29 passes through the drain receiver 31 from the drain connection pipe 32 based on the following principle, and is then transferred to the drain hose 34.
is discharged from.

As shown in FIG. 3, if the surface area of the drain pan 29 is S _A and the surface area of the drain receiver 31 is S _B , then S _A >S _B. Assuming that the pressure applied to the drain pan 29 is P ₂ and the pressure applied to the drain receiver 31 is P ₁ , air is pressurized on the drain pan 29 side by the blower 26 (approximately 10 mmAg), and the drain receiver 31
The pressure on the side is reduced by the blower 26, so that P ₂ >P ₁ .
If the water level difference at this time is H, then the relationship P ₂ -P ₁ =H holds true, and even if the drain outlet 33 is provided at the water level H, drainage is possible. Therefore, the drain head can be made higher.

Also, when the blower 26 is stopped, P ₂ = P ₁ ,
The water in the drain receiver 31 returns to the drain pan 29, the water level in the drain pan 29 rises, and the water level in the drain receiver 31 falls. At this time, drain pan 29
Let H' be the rise in water level, then the relationship H'=S _B /(S _A +S _B )·H holds true.

In this case, by making the surface area of the drain pan 29 sufficiently larger than the surface area of the drain receiver 31, H' can be reduced and problems caused by rising water levels can be prevented.

As described above, according to the present invention, since the drain hose is connected to the drain receiver, the drain hose can be connected outside the unit, and the drain head can be raised high, making installation easy and shortening the installation work. Moreover, since the drain receiver is provided within the unit, the slack and space of the drain hose can be eliminated, which has the remarkable effect of making it possible to make the unit thinner.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of a conventional air conditioner, FIG. 2 is a sectional view of an air conditioner showing an embodiment of the present invention, and FIG. 3 is an explanatory diagram showing the drainage principle of the air conditioner. 21...Insulating material, 22...Casing, 23...
...Blower suction chamber, 24...Blower discharge chamber, 25...
... Fan deck, 26 ... Air blower, 27 ... Air heat exchanger, 28 ... Air outlet, 29 ... Drain pan, 30 ... Air outlet, 31 ... Drain receiver,
32...Connection pipe, 33...Drain outlet, 34...
drain hose.

Claims (1)

[Scope of utility model registration request] A drain pan with an open top is provided in the blower discharge chamber, a drain receiver with an open top and a surface area smaller than the surface area of the drain pan is provided in the blower suction chamber, and the drain pan and the bottom of the drain receiver are communicated with each other by a connecting pipe. An air conditioner in which the drain outlet of the receiver is installed above the drain water level of the drain pan.