JP2506723Y2 - humidifier - Google Patents

Description

[Detailed description of the device]

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a humidifier for adding moisture to circulating air.

[0002]

2. Description of the Related Art Humidifiers that are well known in the past include:
There is a method in which the humidifying element made of a water-absorbent material is brought into direct contact with the air to take in the water vaporized from the humidifying element into the air for humidification.

However, in the case of the humidifier having the above-described structure, since the water is sucked up by the humidifying element, various components contained in the water are liable to be accumulated in the humidifying element to cause clogging. There's a problem.

Therefore, as a material that has been developed in recent years, a material that is permeable to water vapor and impermeable to water has come to be known. The development of a humidifier that utilizes

An example of such a humidifier is Japanese Patent Laid-Open No. 2-1.
As disclosed in Japanese Patent No. 11377, a large number of hollow tubes made of a porous material that is permeable to water vapor and impermeable to water are arranged in parallel in a water container. In some cases, the inside of the hollow tube is used as an air passage to allow water vapor to permeate from the water side to the air side through the hollow tube.

[0006] By the way, when a humidifier having a structure in which water vapor permeates into the air through the hollow tube made of the porous material as described above is used for humidifying indoor air, the temperature of the water in the water container is higher than that of the water in the water container. Since the temperature of the air flowing through the hollow tube is usually higher, the water temperature gradually rises during use.

Generally, the solubility of impurities (for example, calcium) dissolved in water (for example, tap water) is supposed to decrease as the water temperature rises, so that the water temperature rises during use of the humidifier. As a result, the above impurities are deposited in the water container. In addition, there is a possibility that some dust may be mixed in the tap water.

If the above-mentioned precipitated impurities, dust, etc. are present around the hollow tube used for humidification, these deposited impurities, dust, etc. will adhere to the outer peripheral surface of the hollow tube. As a result, the humidifying performance may be reduced.

[0009]

DISCLOSURE OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is possible to remove deposited impurities, dust and the like from the water container to remove the impurities. The purpose is to prevent deposition impurities and dust from adhering.

[0010]

In the present invention, as means for solving the above problems, as shown in the drawings, it is permeable to water vapor and impermeable to water. Many hollow tubes made of porous material 11,11 ...
Are arranged in parallel in a water container 12 having a water supply system 13 whose water supply is controlled by a water supply valve 14, and the hollow pipes 11, 11
The inside ... together form an air passage, the water vessel 12, to detect the water level in the water container 12, and outputs a closing operation signal to the water supply valve 14 at the upper limit level float L _1, lower limit detection level L _{In the} humidifier provided with the water level detection means 15 for outputting the opening operation signal to the water supply valve 14 in ₂ , the water container 12 has an inlet 16 communicating with the bottom of the water container 12.
an overflow pipe 16 having an outlet 16b which has a, rises upward with the communication portion by the inflow port 16a as a bottom, and opens at a position lower than the upper limit detection water level L _{1 and} higher than the lower limit detection water level L _2. It is provided.

[0011]

In the present invention, the following actions can be obtained by the above means.

That is, the temperature of the water W rises due to the difference in temperature between the temperature of the air F flowing through the hollow tubes 11, 11, ... And the temperature of the water W in the water container 12 during use, and the impurities in the water increase. When is deposited or when dust is mixed in the water,
These deposited impurities, dust, and the like settle on the inner bottom of the water container 12, but are discharged to the outside of the water container 12 through the overflow pipe 16 when water is supplied into the water container 12.
Even when the water flows from the overflow pipe 16, the water level in the water container 12 is maintained at a water level between the upper limit detection water level L ₁ and the lower limit detection water level L ₂ (that is, the moisturizable water level), and the humidification is performed. The action continues.

[0013]

According to the present invention, a large number of hollow tubes 11, 11, ... Made of a porous material that is permeable to water vapor and impermeable to water are Are arranged in parallel in a water container 12 provided with a water supply system 13 whose water supply is controlled by a valve 14, and the hollow pipes 11, 11 ... The water level in 12 is detected, and at the upper limit detection water level L ₁ , the water supply valve 1
4, a water level detecting means 15 for outputting a close operation signal to the water supply valve 14 and outputting an open operation signal to the water supply valve 14 at the lower limit detection water level L ₂ .
In the humidifier provided with, the water container 12 has an inflow port 16a communicating with the bottom part of the water container 12, and the communication part by the inflow port 16a rises upward as the bottom part,
Said upper limit level float overflow pipe 16 L ₁ from a low has an outlet 16b that opens in the high than the lower limit level float L ₂ provided, the hollow tube during use 11,1
When the temperature of the water W rises due to the temperature difference between the temperature of the air F flowing through the inside of the water container 12 and the temperature of the water W in the water container 12, impurities in the water are precipitated or dust is mixed in the water. In the case of the above, these precipitated impurities and dusts will not
After being settled on the inner bottom of the water container 12, it can be discharged to the outside of the water container 12 through the overflow means 16 when water is supplied into the water container 12, so that impurities, dust, etc. deposited on the hollow pipes 11, 11 ,. As a result, it is possible to ensure the humidification performance over a long period of time, which is a practical effect.

Further, even when the overflow pipe 16 overflows, the water level in the water container 12 is maintained at a water level between the upper limit detection water level L ₁ and the lower limit detection water level L ₂ (that is, a moisturizable water level). Therefore, there is an effect that the humidifying action can be continued while discharging precipitated impurities and dust.

[0015]

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings.

As shown in FIG. 3, the humidifier A of this embodiment is used for humidifying the blown air F in the ceiling-embedded air conditioner B.

The air conditioner B has a casing 1 having an air inlet 2 and an air outlet 3, and the casing 1
It comprises a turbo fan 4 arranged inside the air suction port 2 and a heat exchanger 5 arranged on the blow-out side of the turbo fan 4, the downstream side of the heat exchanger 5. A humidifier A, which is the object of the present invention, is provided in the.
The air conditioner B is installed by embedding it in the opening 6 formed in the ceiling C with the air inlet 2 and the air outlet 3 facing downward. Reference numeral 7 denotes a drain pan.

During the heating operation of the air conditioner B, the air F sucked from the air suction port 2 by the turbofan 4 is heated when passing through the heat exchanger 5,
In the process of passing through the humidifier A, it is humidified and blown out into the room from the air outlet 3.

Therefore, the humidifier A is shown in FIGS.
As shown in, it is made of a porous material that is permeable to water vapor and impermeable to water W (for example, a hydrophobic material such as polytetrafluoroethylene or polysulfone). .. are arranged in parallel and horizontally in a water container 12 having a rectangular parallelepiped shape, and the hollow tubes 11, 11, ... Are used as air passages.

In the water container 12, water W is introduced into the water container 12.
A water supply system 13 for replenishing water is connected, and the water supply system 13 is provided with a water supply valve 14 for controlling water supply to the water container 12. In the case of this embodiment, the water supply valve 1
Reference numeral 4 is an electromagnetic on-off valve.

Further, in the water container 12, the water container 1
The water level L in 2 is detected, and at the upper limit detection water level L ₁ , a closing operation signal is output to the water supply valve 14, and the lower limit detection water level L _{2 is} detected.
In the above, a water level detecting means 15 for outputting an opening operation signal to the water supply valve 14 is provided. In the case of the present embodiment, the water level detecting means 15 is a water level sensor.

Further, in the water container 12, the water container 1
2 has an inflow port 16a communicating with the bottom of the inflow port 16
A quadrangular tubular overflow pipe 16 is provided having an outlet 16b that rises upward with the communication portion defined by a as the bottom and is open at a position lower than the upper limit detection water level L _{1 and} higher than the lower limit detection water level L ₂ . .

In the drawings, reference numeral 17 is a drain pan disposed below the humidifier A, and 18 is a drain hose connected to the bottom of the drain pan 17.

The humidifier A constructed as described above operates as follows.

When the air F flows through the hollow tubes 11, 11, ..., Water vapor permeates through the walls of the hollow tubes 11, 11 ,.

By the way, during use of the humidifier, the hollow tubes 11, 1
When the temperature of the water W rises due to the difference in temperature between the temperature of the air F flowing through the inside of the water container 12 and the temperature of the water W in the water container 12, impurities in the water are precipitated or dust is mixed in the water. In the case of water, these precipitated impurities, dust, etc.
Precipitates on the inner bottom of the.

By the way, when the water level L in the water container 12 is lowered to the lower limit detection water level L ₂ or less, the water supply valve 14 is opened by a signal from the water level detection means 15, and the water supply system 13 is opened.
When the water supply to the inside of the water container 12 is started and the water level L in the water container 12 reaches the upper limit detection water level L ₁ , the water level detection means 1
The water supply valve 14 is closed by the signal from 5 to complete the water supply, but the water level L in the water container 12 is higher than the same water level as the outlet 16b of the overflow pipe 16 and lower than the upper limit detection water level L _1. In the case of 1, the precipitated impurities, dust, etc. are discharged to the drain pan 17 outside the water container 12 through the overflow pipe 16. Therefore, the hollow tubes 11, 11, ...
It is possible to prevent deposition impurities and dust from adhering to, and to secure the humidifying performance for a long period of time.

Even when overflowing from the overflow pipe 16, the water level in the water container 12 should be maintained at a water level between the upper limit detection water level L ₁ and the lower limit detection water level L ₂ (that is, a moisturizable water level). Therefore, the humidifying action can be continued while discharging the precipitated impurities and dust.

The invention of the present application is not limited to the configuration of the above-described embodiment, and it goes without saying that the design can be appropriately changed without departing from the gist of the invention.

[Brief description of drawings]

FIG. 1 is a vertical sectional view of a humidifier according to an embodiment of the present invention.

FIG. 2 is a perspective view of a humidifier according to an embodiment of the present invention.

FIG. 3 is a schematic cross-sectional view showing a usage state of the humidifier according to the embodiment of the present invention.

[Explanation of symbols]

11 is a hollow pipe, 12 is a water container, 13 is a water supply system, 14 is a water supply valve, 15 is a water level detecting means, 16 is an overflow pipe,
16a is an inlet, 16b is an outlet, L ₁ is an upper limit detection water level,
L ₂ is the lower detection water level.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Kazuo Imagawa 1 at 700 Ichitsuya, Settsu City, Osaka Prefecture Daikin Industries, Ltd. Yodogawa Works (72) Inventor Yasushi Ueda 1304 Kanaokacho, Sakai City, Osaka Daikin Industrial Co., Ltd. Company Sakai Seisakusho Kanaoka Factory (72) Inventor Hisakazu Asahina 1304 Kanaoka-machi, Sakai City, Osaka Prefecture Daikin Industrial Co., Ltd. Sakai Works Kanaoka Factory (56) Reference JP-A-2-111377 (JP, A) Shown 53-114859 (JP, U) Actually opened 54-24257 (JP, U) Actually opened 63-142622 (JP, U)

Claims (1)

(57) [Scope of utility model registration request] 1. A large number of hollow pipes (11), (11), ..., Which are made of a porous material that is permeable to water vapor and impermeable to water, 14) are arranged in parallel in a water container (12) having a water supply system (13) whose water supply is controlled by the hollow pipes (11), (11), ... In the container (12), the water level in the water container (12) is detected, and at the upper limit detection water level (L ₁ ) the water supply valve
A humidifier provided with a water level detection means (15) for outputting a closing operation signal to (14) and outputting an opening operation signal to the water supply valve (14) at the lower limit detection water level (L ₂ ). container
(12) has an inlet port communicating with the bottom of the water container (12)
(16a) , and the bottom of the communication part by the inlet (16a)
( ₁ ) an overflow pipe (1) having an outlet (16b) that rises upward as a part and opens at a position lower than the upper limit detection water level (L ₁ ) and higher than the lower limit detection water level (L ₂ ).
A humidifier characterized by comprising 6).