KR200492655Y1 - Water supply and drainage system for humidifier - Google Patents

Abstract

The object of the present invention to solve the problems of the prior art as described above is to simply control the opening and sealing of the water supply part airtightness by using an air-vent type airtight stopper when the water level sensor malfunctions, and water in the cylinder is It relates to a water supply and drainage tank for a humidifier that can be supplied smoothly at all times.

Description

Water supply and drainage system for humidifier

The present invention relates to a water supply and drainage tank for a humidifier, and more specifically, the water level detection sensor in the cylinder of the humidifier controls the opening and closing of the airtightness of the water supply part even when a malfunction occurs, so that water in the cylinder can be supplied smoothly at all times. About.

In general, an electrode-type humidifier refers to a humidifier of a direct heating method that uses the electrical resistance (conductivity) of water as a humidifier that completely cuts off water by supplying electricity into a cylinder in which an electrode is embedded and generates clean steam. As there is no odor, it is widely used in hospitals, residential areas and industrial processes.

The above-described humidifier includes a case, a cylinder fixed in the case, a water level sensor installed in the cylinder to detect the level of water, a water supply valve installed on one side of the cylinder, and a drainage installed under the cylinder. It is composed of a pump, and the cylinder is composed of a plurality of electrodes that heat water by electricity and control the humidity using the generated steam.

When power is supplied to the humidifier with the above configuration, water is supplied into the cylinder by the water supply valve. Accordingly, when the electrode installed in the cylinder is submerged in water, voltage is applied to the electrode to flow current, thereby heating and evaporating the water inside. It is to supply the water vapor generated by making it indoors.

At this time, the water level sensor detects the level of water supplied into the cylinder, the water supply valve is turned on/off according to the level of water detected by the water level sensor to automatically supply water, and the drain pump is supplied into the cylinder. When the conductivity of water becomes higher or higher, or when water in the cylinder is replaced, it is turned on/off to discharge water to the outside.

That is, when a water level sensor installed in the cylinder is measuring the level of water to be supplied and a larger amount of water is supplied than a set value, when overflow sensing is performed, the water supply valve is blocked, thereby stopping water supply.

However, in the conventional humidifier, if the water level sensor installed in the cylinder malfunctions and does not detect the level of water to be supplied, water is filled in the cylinder, and there is a problem in that water supply water overflows into the room through the steam nozzle.

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Korean Patent Publication No. 10-1097773

The purpose of the present invention to solve the problems of the prior art as described above is to simply control the opening and sealing of the water supply part airtightness using an air-vent type airtight stopper when the water level sensor malfunctions, so that water in the cylinder can be supplied smoothly at all times. It is to provide a water supply and drainage tank for humidifier.

The present invention for achieving the above object is to be installed in a humidifier that generates steam, and is connected to a water supply valve to allow water to flow and water introduced through the water supply port into the cylinder of the humidifier. A water supply unit having a cylinder water supply port capable of supplying; A drain portion having a cylinder drain port capable of draining the water introduced into the cylinder and an external drain port capable of discharging the water introduced through the cylinder drain port to the outside; A central partition partitioning the water supply part and the drainage part and having a through hole formed to selectively flow water flowing through the water supply part toward the drainage part; And it is disposed above the water supply part, when the water level increases above a certain level in the water supply part, the airtightness of the water supply part is opened, and when the water level decreases below a certain level, the airtightness of the water supply part is sealed. An airtight control unit; Including, wherein the airtight control unit is disposed above the water supply unit, is formed in a hole shape that communicates the inside and the outside of the water supply unit, is formed in a shape corresponding to the outer circumferential surface of the airtight stopper, and abuts the outer peripheral surface of the airtight stopper An airtight hole including an airtight surface formed so as to be so formed; And a plug support surface formed on an outer circumferential surface above the airtight hole, and forming a region supporting a portion of the airtight stopper when the airtight stopper is disposed in the airtight hole. Including, wherein the airtight control unit is arranged to open or seal the water supply unit in an air vent method, and when the water level increases above a predetermined level in the water supply unit, the water supply unit is opened, and when the water supply unit is drained, An airtight stopper sealing the water supply part by increasing the pressure inside the water supply part when the water of the cylinder flows back to the drain part through the external discharge port and overflows to the water supply part beyond the central partition; Further comprising, wherein the airtight stopper is disposed in the airtight hole, is disposed so as to contact the stopper surface on the upper part of the airtight hole, and is formed to protrude in a wing shape around the outer circumference so as to be supported by the stopper surface. ; An airtight skirt formed to contact the inner circumferential surface of the airtight hole; And a pressure groove formed to be recessed in the lower surface of the airtight skirt. Including, but, when the water supply part, when the airtight stopper is located in the airtight hole so that the inner circumferential surface of the airtight surface and the outer surface of the airtight skirt are spaced apart from each other, the air inside the water supply part is airtight. When the water supply part is discharged through the hole, the airtightness of the water supply part is opened. In the case of flow, the pressure inside the water supply unit increases, and the increased pressure acts on the pressure groove and raises the airtight stopper to a certain height upward, so that the inner peripheral surface of the airtight surface and the outer surface of the airtight skirt are in contact with each other. When positioned, the airtight stopper provides a water supply and drainage tank for a humidifier, characterized in that the airtightness of the water supply unit is sealed by sealing the airtight hole.

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In addition, the inner circumferential surface of the airtight surface is formed to be inclined, the upper portion is formed to be inclined toward the airtight skirt, the outer circumferential surface of the airtight skirt is formed to be inclined, the lower part is formed to be inclined toward the airtight surface, It provides a water supply and drainage tank for a humidifier, characterized in that the inner circumferential surface and the outer circumferential surface of the airtight skirt are formed to correspond to each other.

The water supply and drainage tank for a humidifier according to the present invention eliminates the phenomenon that water flows back into the water supply by simply controlling the opening and sealing of the water supply part airtight in the event of a malfunction of the water level sensor, thereby eliminating the phenomenon of water flowing back into the water supply part, and accordingly, the water in the cylinder is always drained. It is to provide a water supply and drainage tank for a humidifier that can be supplied smoothly.

1 is a perspective view of a humidifier in which a water supply and drainage tank for a humidifier according to the present invention is installed.
2 is a cross-sectional view of a water supply and drainage tank for a humidifier according to the present invention.
3 is a perspective view of a humidifier for explaining that the airtightness of the water supply unit is opened during water supply according to a preferred embodiment of the present invention.
4 is a cross-sectional view of a water supply and drainage tank for explaining that the airtightness of the water supply unit is opened during water supply according to a preferred embodiment of the present invention.
5 is a perspective view of a humidifier for explaining that the airtightness of the water supply unit is sealed during drainage according to a preferred embodiment of the present invention.
6 is a cross-sectional view of a water supply and drainage tank for explaining that the water supply part is sealed during drainage according to a preferred embodiment of the present invention.

Hereinafter, a water supply and drainage tank for a humidifier according to a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a perspective view of a humidifier in which a humidifier supply and drainage tank is installed according to the present invention, and FIG. 2 is a cross-sectional view of a humidifier supply and drainage tank according to the present invention.

1 and 2, the water supply and drainage tank for a humidifier according to a preferred embodiment of the present invention is a water supply and drainage tank 100, a water supply valve 11, a drainage pump 31 and a cylinder in an electronic electrode-type humidifier 10. It includes (41).

Here, the humidifier 10 is a case (not shown), as shown in Fig. 1, similar to the conventional humidifier described above, a cylinder 41 located in the case to store water, and installed in the cylinder 41 A water level sensor (not shown) that can detect the water level, a plurality of electrodes installed in the cylinder 41 and capable of heating water by electricity (not shown), and water vapor generated through the plurality of electrodes It is composed of a steam hose (not shown) and a steam nozzle (not shown) connected to supply the interior of the cylinder 41, and a water supply valve 11 and a drain pump 31 provided to supply or drain water into the cylinder 41. . The water level sensor, case, electrode, steam hose, steam nozzle, and the like are typical configurations of the electronic electrode type humidifier 10, and thus detailed descriptions thereof will be omitted.

That is, the humidifier 10 is described for explanation of the present invention, and the configuration of the humidifier 10 may be variously changed.

Since the embodiment of the present invention is the water supply and drainage tank 100 installed on one side of the humidifier 10, the structure of the water supply and drainage tank will be focused on.

The water supply and drainage tank 100 according to the embodiment of the present invention is installed on one side of the humidifier 10 and is installed so as to be located above the cylinder 41 for storing water, and the whole is formed of a transparent material. It may be formed so that you can visually check the flow of water.

In the water supply and drainage tank for a humidifier according to the present invention, the water supply and drainage tank 100 includes a water supply unit 110, a drainage unit 150, and an airtight control unit 190.

The water supply and drainage tank 100 is formed to have an accommodation space therein, and as shown in Figs. 2 to 3, water supplied from the outside can be supplied into the cylinder 41 disposed inside the humidifier 10, and , At the same time as serving as a flow path through which water stored in the cylinder 41 can be discharged to the outside, the water supply unit 110, the first water supply pipe 101, the water supply port 102, the first partition wall 103, It includes a cylinder water supply port 104, a second partition wall 105, a second water supply pipe 106, and a central partition 107.

In the first water supply pipe 101, the water supply unit 110 and the drain unit 150 are internally divided by a central partition 107 to supply water into the cylinder 41 or drain the water in the cylinder 41 It plays a role in enabling you to do it.

The water supply port 102 formed on the side of the water supply unit 110 is connected to the water supply valve 11 through the first water supply pipe 101, as shown in FIG. 2, and the operation of the water supply valve 11 According to the flow of water selectively serves to supply water into the water supply and drainage tank (100).

As shown in FIG. 2, the water supply port 102 has one end exposed to the outside of the water supply unit 110 and connected to the first water supply pipe 101, and the other end is inside the water supply unit 110. It is arranged to protrude a certain portion.

The cylinder water supply port 104 is exposed to the outside and is connected to the second water supply pipe 106 so that the water introduced through the water supply port 102 can be supplied into the cylinder 41 of the humidifier 10.

That is, when water is supplied to the water supply port 102 through the first water supply pipe 101 and the supplied water is filled to the water supply unit 110 by more than a certain level, the water level detection sensor (not shown) Water to be drained is drained to the cylinder 41 through the second water supply pipe 106.

In addition, when the water stored in the cylinder 41 is replaced or when water is filled in the cylinder 41, the water in the cylinder 41 is It is formed to be drained into, and is connected to the cylinder 41 through a first drain pipe 151.

At this time, the cylinder drain port 152 has the same configuration as the water supply port 102, and one end is exposed to the outside and is connected to the first drain pipe 151, and the other end is inside the water supply and drainage tank 100. Doedoe located in, one lower side is formed in a hook shape that is bent toward the external outlet 154.

The external discharge port 154 is for discharging (draining) water supplied to the water supply and drainage tank 100 through the cylinder drain port 152 to the outside, and an end formed to be inclined downward of the cylinder drain port 152 It is formed in the portion where this is located, and is connected to the second drain pipe 153.

That is, when water is supplied to one end of the cylinder drain 152 through the first drain pipe 151, the external discharge port 154 is drained to the other end of the cylinder drain port 152 formed in the hook shape. The water drained through the external discharge port 154 is discharged to the outside by the second drain pipe 153.

The water supply unit 110 and the drain unit 150 of the water supply and drainage tank 100 having such a configuration include the water supplied from the water supply valve 11 of FIG. 3 through the water supply port 102 ), the water level of the water supply unit 110 increases, and the water overflows the first partition wall 103 disposed between the water supply port 102 and the cylinder water supply port 104 due to the increased water level. ) Is introduced into the cylinder water supply port 104, and the introduced water is discharged through the second water supply pipe 106.

Subsequently, the water introduced into the cylinder water supply port 104 is introduced into the cylinder 41 through the second water supply pipe 106 to fill the cylinder 41.

Here, in the center of the cylinder water supply port 104, the second partition wall 105 is formed in the form of a partition in the water supply unit 110 so as to face upward to a predetermined height. The second partition wall 105 discharges the water overflowing to the cylinder water supply port 104 to a certain level, for example, only about half of the water that can escape through the cylinder water supply port 104 through the cylinder water supply port 104 When the water overflowing beyond the first partition wall 103 and overflows the second partition wall 105, it is configured to escape to the entire cylinder water supply port 104.

In addition, when the water stored in the cylinder 41 is discharged to the outside, water is allowed to flow through the first drain pipe 151 connecting the cylinder 41 and the cylinder drain port 152 of the drain unit 150, Thereafter, the water introduced through the cylinder drain port 152 is discharged to the outside through the second drain pipe 153 connected to the external outlet port 154.

On the other hand, in the central partition 107 that divides the water supply unit 110 and the drain unit 150, when the cylinder 41 is filled with water, it falls into the second drain pipe 153 on the side of the drain unit 150. A through hole is formed so that it can overflow.

Here, when the through hole fills the cylinder 41 with water due to a malfunction of the water level sensor installed in the cylinder 41, the water is no longer supplied to the cylinder 41. Then, the water introduced through the water supply port 102 overflows into the through hole of the central partition 107 and is directed to the second drain pipe 153 through the external discharge port 154, resulting in a reverse flow phenomenon that is discharged to the outside. . Then, after the backflow phenomenon occurs, the water from the water supply unit 110 is not supplied to the cylinder 41 through the cylinder water supply port 104.

Water flowing into the water supply unit 110 described above overflows beyond the central partition 107 so that water cannot be supplied to the cylinder 41 through the cylinder water supply port 104, and through the external outlet 154 The drainage phenomenon that is discharged to the outside occurs.

The present invention will be described in more detail with respect to the airtight control unit 190 for preventing the above-described drainage phenomenon, which can simply solve the above-described problem.

The airtight control unit 190 is disposed above the water supply unit 110, and when the water level is higher than a certain level in the water supply unit 110, the airtightness of the water supply unit 110 is opened, and when draining, The airtightness of the water supply unit 110 is sealed, and the airtightness and sealing of the water supply unit 110 are controlled in an air vent method.

The airtight control unit 190 is disposed above the water supply unit 110 and has an airtight hole 191 formed therethrough so as to communicate inside and outside the water supply unit 110.

The airtight hole 191 is formed in a shape corresponding to the outer circumferential surface of the airtight stopper 192 so that when the airtightness of the water supply unit 110 is opened, when the water supply unit 110 is supplied, the airtight surface 195 When the airtight stopper 192 is located in the airtight hole 191 so that the inner circumferential surface and the outer surface of the airtight skirt 1922 are positioned at a predetermined distance apart, the air inside the water supply unit 110 is transferred to the airtight hole ( It escapes to the outside through 191 so that the airtightness of the water supply unit 110 is opened.

When the water supply part 110 is kept airtight, the airtight surface 195 formed to contact the airtight stopper 192, is formed on the outer circumference of the airtight hole 191, the airtight stopper 192 is the airtight hole 191 When disposed in, it includes a stopper support surface 194 forming an area in which the airtight stopper 192 is supported.

Further, the hermetic stopper 192 includes an airtight wing 1921, an airtight skirt 1922, and a pressure groove 1923.

The airtight wing 1921, the airtight stopper 192 is disposed in the airtight hole 191, the airtight wing 1921 is located above the airtight hole 191, on the top surface of the stopper support surface 194 It is disposed so that the lower surface of the airtight wing 1921 abuts and is formed to protrude in the shape of a wing around the outer circumference to be supported by the stopper support surface 194.

The airtight skirt 1922 is formed to abut the inner circumferential surface of the airtight hole 191, and the inner circumferential surface of the airtight surface 195 is formed to be inclined, the upper part is formed to be inclined toward the airtight skirt 1922, and the airtightness The outer circumferential surface of the skirt 1922 is also formed to be inclined, and the lower portion is formed to be inclined toward the airtight surface 195. That is, the inner circumferential surface of the airtight surface 195 and the outer circumferential surface of the airtight skirt 1922 are formed to correspond.

Further, the pressure groove 1923 is formed so as to be recessed in the lower surface of the airtight skirt 1922. When the pressure generated in the water supply unit 110 rises, the pressure acts on the pressure groove portion 1923 so that the airtight stopper 192 rises to a certain height above the airtight skirt 1922. The side surface contacts the inner circumferential surface of the airtight surface 195 to seal the airtightness of the airtight hole 191.

And when the water supply unit 110 is supplied with water, the air inside the water supply unit 110 is discharged to the outside through the airtight hole 191 and the airtightness of the water supply unit 110 is opened, and the airtight surface 195 ) The inner circumferential surface of the airtight skirt 1922 is located at a certain interval, so that the air inside the water supply unit 110 escapes to the outside through the airtight hole 191, and the airtightness of the water supply unit 110 Is to make it open.

This airtight stopper 192 serves as an air vent, and is most preferably formed of a rubber material.

3 is a perspective view of a humidifier for explaining that the airtightness of the water supply unit is opened during water supply according to a preferred embodiment of the present invention, and Fig. 4 is a perspective view of the airtightness of the water supply unit when water supply according to a preferred embodiment of the present invention is opened. It is a cross-sectional view of the water supply and drainage tank for

The process of opening the airtightness of the water supply unit 110 during water supply will be described in detail with reference to FIGS. 3 and 4.

When supplying water to the water supply unit 110, the water supplied through the water supply valve 11 flows into the water supply unit 110 through the water supply port 102 through the first water supply pipe 101, and the number of incoming water increases. It overflows in the direction of the cylinder water supply port 104 beyond the first partition wall 103.

At this time, the overflowing water flows into the cylinder water supply port 104, and water is supplied to the cylinder 41 through the second water supply pipe 106, and the water supply of the cylinder 41 is completed.

At this time, during the water supply of the cylinder 41, the air inside the water supply unit 110 escapes to the outside through the airtight hole 191 to open the airtightness of the water supply unit 110, the inner peripheral surface of the airtight surface 195 The airtight stopper 192 is located in the airtight hole 191 while the outer surface of the airtight skirt 1922 is spaced at a predetermined interval, so that the air inside the water supply unit 110 is transferred to the outside through the airtight hole 191. It exits so that the airtightness of the water supply unit 110 is opened (air vent method).

That is, when the water level sensor malfunctions during the water supply unit 110, when the water supply unit 110 is supplied, the air inside the water supply unit 110 escapes to the outside through the airtight hole 191 By allowing the airtightness of the water supply unit 110 to be opened, the water of the water supply unit 110 does not overflow beyond the central partition 107, and is smoothly supplied to the cylinder 41 through the cylinder water supply port 104. will be.

5 is a perspective view of a humidifier for explaining that the airtightness of the water supply unit is sealed during drainage according to a preferred embodiment of the present invention, and FIG. 6 is a water supply unit for explaining that the water supply unit is sealed during drainage according to a preferred embodiment of the present invention. It is a cross-sectional view of the water tank.

5 and 6, the process of sealing the airtightness of the water supply unit 110 during drainage will be described in detail.

When the drain unit 150 is drained, the water of the cylinder 152 flows back to the drain unit 110 through the external discharge port 154 at a predetermined level or higher, and crosses the central partition 107 to the water supply unit. It may overflow to (110).

At this time. The pressure inside the water supply unit 110 increases, and the increased pressure acts on the pressure groove portion 1923 to raise the airtight stopper 192 to a certain height upwards.

Then, while the inner circumferential surface of the airtight surface 195 and the outer surface of the airtight skirt 1922 are located in abutting state, the airtight stopper 192 seals the airtight hole 191 to keep the water supply unit 110 airtight. This is to be sealed.

That is, the airtight stopper 192 serves as an air vent, and when the head is caught in the drain 150 during drainage, the water flowing back from the cylinder 41 causes the water supply unit 110 to Water may be filled, and a drainage phenomenon in which the water passes through the central partition 107 and is discharged to the outside through the external outlet 154 may occur.

At this time, when the water level sensing sensor fails during drainage, the airtight stopper 192 seals the airtightness of the water supply unit 110, so that the external discharge port 154 of the drainage unit 150 is discharged during water supply. To prevent.

In other words, during the above-described drainage, when the airtightness of the water supply unit 110 is not maintained, the water in the water supply unit 110 overflows beyond the central partition 107 and is forcibly discharged through the external outlet 154 Therefore, the present invention eliminates the phenomenon that water flows back to the water supply unit 110 when the water level detection sensor malfunctions, and allows water to be smoothly supplied to the cylinder 41.

Although the present invention has been described in detail in the above embodiments, it is natural that the present invention is not limited thereto, and it is obvious to those skilled in the art that various modifications and modifications are possible within the scope of the technical idea of the present invention, and such modifications and modifications are attached. If it falls within the scope of the claims, the technical idea should also be viewed as belonging to the present invention.

100: water supply and drainage tank 101: first water supply pipe
102: water supply port 103: first bulkhead
104: cylinder water supply port 105: second bulkhead
106: second water supply pipe 107: central partition
110: water supply unit 150: drainage unit
151: first drain pipe 152: cylinder drain
153: second drain pipe 154: external outlet
190: airtight control unit 191: airtight hole
192: airtight stopper 195: airtight side

Claims (5)

It is installed in a humidifier that generates steam,
A water supply unit connected to a water supply valve and having a water supply port through which water can flow and a cylinder water supply port through which the water introduced through the water supply port is supplied into the cylinder of the humidifier;
A drain portion having a cylinder drain port capable of draining the water introduced into the cylinder and an external drain port capable of discharging the water introduced through the cylinder drain port to the outside;
A central partition partitioning the water supply part and the drainage part and having a through hole formed to selectively flow water flowing through the water supply part toward the drainage part; And
It is disposed above the water supply part, and when the water level rises above a certain level in the water supply part, the airtightness of the water supply part is opened, and when the water level is lowered below a certain water level, the airtightness of the water supply part is sealed. Control unit; Including,
The confidential control unit,
An airtight hole disposed above the water supply part and formed in a shape of a hole communicating the inside and outside of the water supply part, formed in a shape corresponding to the outer circumferential surface of the airtight stopper, and including an airtight surface formed to contact the outer circumferential surface of the airtight stopper ; And
A plug support surface formed on an outer circumferential surface above the airtight hole, and forming a region supporting a portion of the airtight stopper when the airtight stopper is disposed in the airtight hole; Including,
The confidential control unit,
Doedoe arranged to open or seal the water supply in an air vent method,
When the water level rises above a certain level in the water supply part, the water supply part is opened,
When the water in the water supply part is drained, when the water in the cylinder flows back above a certain level to the water supply part through the external discharge port and overflows to the water supply part beyond the central partition, the pressure inside the water supply part increases to seal the water supply part. Privacy plug made; Including more,
The airtight stopper,
An airtight wing disposed in the airtight hole, arranged to abut the stopper surface on the upper part of the airtight hole, and protruded in the shape of a wing around the outer circumference so as to be supported by the stopper surface;
An airtight skirt formed to contact the inner circumferential surface of the airtight hole; And
A pressure groove formed to be recessed in the lower surface of the airtight skirt; Include,
When the airtight stopper is positioned in the airtight hole so that the inner circumferential surface of the airtight surface and the outer surface of the airtight skirt are spaced apart from each other during water supply of the water supply part, air inside the water supply part passes through the airtight hole. The airtightness of the water supply unit is opened by exiting the outside,
When the water in the water supply part is drained, when the water in the cylinder flows back above a certain level to the water supply part through the external discharge port and overflows to the water supply part beyond the central partition, the pressure inside the water supply part increases and the increased pressure When the airtight stopper is raised to a certain height by acting on the pressure groove and the inner circumferential surface of the airtight surface and the outer surface of the airtight skirt are in contact with each other, the airtight stopper seals the airtight hole to provide the water supply. Water supply and drainage tank for humidifier, characterized in that the airtightness of the negative is sealed.
delete delete delete The method of claim 1,
The inner circumferential surface of the airtight surface is formed to be inclined, the upper part is formed to be inclined toward the airtight skirt, the outer circumferential surface of the airtight skirt is formed to be inclined, the lower part is formed to be inclined toward the airtight surface, and the inner circumferential surface of the airtight surface and A water supply and drainage tank for a humidifier, characterized in that the outer circumferential surface of the airtight skirt is formed to correspond.

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