KR102582102B1 - Water leak prevented humidifier - Google Patents

Abstract

The present invention relates to a humidifier that prevents water leakage due to tilting of the water tank, and includes a reservoir 300 formed with a partition wall 320 having passages 310 and 311 that are opened to allow water to pass through; A mounting portion 350 connected to the partition wall 320 to enable fluid communication with the flow paths 310 and 311; Check valves 500 and 600 coupled to the partition wall 320 and opening and closing the passages 310 and 311 as the reservoir 300 or the mounting portion 350 is tilted; By providing a leak-proof humidifier including,

Description

Water leak prevented humidifier

The present invention relates to a humidifier that prevents water leakage due to tilting of the water tank.

A conventional rotary humidifier immerses a humidifying filter in a water tank, rotates it, moves it upward, and vaporizes it by blowing to provide humidity in the air.

Generally, the water supply part of a conventional humidifying device consists of a water tank and a water tank coupled to the water tank, so that water flows from the water tank into the water tank.

When water flows in and the water level rises, the internal water pressure prevents the water inside the tank from flowing in.

However, when the above-described water tank and water tank are tilted, the water surface to which the internal water pressure in the water tank is applied falls, and as a result, air flows into the water tank and the water supply valve coupled to the contact protrusion opens.

As a result, water is continuously supplied from the water tank to the water tank, causing a problem in that the water level in the water tank is not maintained at a constant level and the water in the water tank overflows to the outside.

Figure 1 relates to a conventional leak-proof humidification device.

The humidifying device 100 is installed in a device housing 110 having an inlet 111 and an outlet 113, a water tank 120 installed in the device housing 110 to contain water, and a device housing 110. It includes a water tank 130 coupled to the water tank 120.

The conventional structure as shown in Figure 1 has a fatal disadvantage in that it cannot prevent water leakage from spilling inside the water tank when the humidifying device is tilted.

In the case of a conventional rotary humidifier, since it is supplied from a water tank, the water tank is always filled with water maintaining a certain height. If the water tank part is tilted, water may overflow out of the water tank, causing damage to the product's stability and water leakage.

In other words, the conventional technology is effective in preventing water from flowing out of the water tank when the humidifier is tilted, but cannot prevent water leakage due to water spilling.

In the case of such conventional humidifying devices, in most cases, they operate by receiving electricity, so there is a risk of electric shock due to water leakage.

(Patent Document 1) KR2012-0032393 A

Accordingly, the present invention was developed to overcome the problems of the prior art as described above, and its purpose is to provide a leak-proof humidifier that prevents water from the reservoir from overflowing even when tilted.

The present invention to solve the above problems includes a reservoir 300 formed with a partition wall 320 having passages 310 and 311 opened to allow water to pass; A mounting portion 350 connected to the partition wall 320 to enable fluid communication with the flow paths 310 and 311; Check valves 500 and 600 coupled to the partition wall 320 and opening and closing the passages 310 and 311 as the reservoir 300 or the mounting portion 350 is tilted; It includes a leak-proof humidifier that includes a.

In addition, the first check valve 500 is in a first state in which the reservoir 300 is tilted higher than the mounting portion 350, and the first flow path 310 is in close contact with the partition wall 320. ) is closed, and when the mounting part 350 is in a second state inclined higher than the reservoir 300, the front part ( 501); provides a leak-proof humidifier including a.

In addition, the first check valve 500 includes a first extension part 513 extending from the front part 501; A guide portion 511 formed on a side of the first extension portion 513 and slidably operated along the guide of the inner wall of the first flow path 310; a first locking portion (515) formed at an end of the first extension portion (513) to stop the slide operation at the second position; It includes a leak-proof humidifier that includes a.

In addition, the first check valve 500 includes a water-leakage prevention humidifier with a penetrating portion 503 that penetrates the upper and lower sides.

In addition, the first check valve 500 includes a leak-proof humidifier in which a first anti-stick protrusion 504 is formed on the lower surface 502 in contact with the bottom surface of the reservoir 300.

In addition, the second check valve 600 includes a fixing member 610 coupled to the coupling groove 330 formed at the top of the second flow path 311; An opening and closing member 620 connected to the fixing member 610 to open and close the second passage 311; a bridge portion 630 that elastically connects the opening and closing member 620 to the fixing member 610; Including, when the reservoir 300 is in a first state inclined higher than the mounting part 350, the second flow path 311 is in a first position where the opening and closing member 620 is in close contact with the partition wall 320. ) is closed, and when the mounting part 350 is in a second state inclined higher than the reservoir 300, the opening and closing member 620 overcomes the elastic force of the bridge part 630 and is separated from the partition wall 320. Provided is a leak-proof humidifier that opens the second passage 311 at a second position.

In addition, the bottom of the reservoir 300 includes a water leak-proof humidifier provided with a stopper 340 that specifies a movement limit of the opening and closing member 620 in the second position.

In addition, the opening and closing member 620 includes a second anti-seizing protrusion 624 formed to protrude into contact with the wall surface of the partition 320; A leak-proof humidifier including a can be provided.

The present invention as described above has the following effects.

It has the advantage of preventing the risk of electric shock by preventing water leakage even when the reservoir and mounting part are tilted.

Figure 1 shows a conventional reservoir.
Figure 2 is an overall perspective view according to a preferred embodiment of the present invention.
Figure 3 is a partial perspective view of the reservoir and mounting portion according to a preferred embodiment of the present invention.
Figure 4 is an overall side view and a partial enlarged view thereof according to a preferred embodiment of the present invention.
Figure 5 is a perspective view of a first check valve according to a first preferred embodiment of the present invention.
Figure 6 shows water overflow without the first check valve 500 installed according to the first preferred embodiment of the present invention, and Figure 6(A) shows that the reservoir 300 is tilted higher than the mounting part 350. It shows that water overflows from the mounting part 350 in the first state, and Figure 6(B) shows that when the mounting part 350 is in the second state tilted higher than the reservoir 300, water flows into the reservoir 300. It shows what is overflowing from.
Figure 7 shows water overflow with the first check valve 500 installed according to the first preferred embodiment of the present invention. Figure 7(A) shows the water overflow in which the reservoir 300 is tilted higher than the mounting portion 350. It shows that water is prevented from overflowing from the mounting part 350 when in state 1, and Figure 7(B) shows that when the mounting part 350 is in a second state tilted higher than the reservoir 300, water is prevented from overflowing into the reservoir 300. ) shows that overflow is prevented.
Figure 8 is a partial perspective view of the reservoir 300 and the mounting portion 350 according to the second preferred embodiment of the present invention.
Figure 9 is a perspective view of a second check valve 600 according to a second preferred embodiment of the present invention.
Figure 10 shows water overflow being prevented when the second check valve 600 is installed according to a second preferred embodiment of the present invention. Figure 10(A) shows that the reservoir 300 is larger than the mounting portion 350. It shows that water is prevented from overflowing from the mounting part 350 when it is in a first state inclined highly, and Figure 10(B) shows that when the mounting part 350 is in a second state tilted higher than the reservoir 300, water is prevented from overflowing from the mounting part 350. This shows that overflow from the reservoir 300 is prevented.
Figure 11 is an effect data table according to the present invention.

Hereinafter, it will be described in detail with reference to the attached drawings.

In this process, the thickness of lines or sizes of components shown in the drawing may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are terms defined in consideration of functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, definitions of these terms should be described based on the content throughout this specification.

1.Components explanation

Figure 2 is an overall perspective view according to a preferred embodiment of the present invention.

The overall internal structure of the humidifier is as follows.

First, a water tank 400 is provided that provides water necessary for humidification.

The water tank 400 is placed on the mounting part 350, and the water in the water tank 400 is provided to the reservoir 300.

The humidification filter 200 is rotatably installed in the reservoir 300, and the lower part is immersed in the water provided in the reservoir 300, holds the water, rotates, and transfers it to the upper part to perform humidification by blowing.

Figure 2 is a partial perspective view according to a preferred embodiment of the present invention.

The reservoir 300 is formed with a partition wall 320 having a first flow path 310 that is opened to allow water to pass through.

The mounting portion 350 is connected in close contact with the partition wall 320 to enable fluid communication with the first flow path 310.

The first check valve 500 is coupled to the partition wall 320 and opens and closes the first flow path 310 as the reservoir 300 or the mounting portion 350 is tilted.

Figure 5 is an overall side view and a partial enlarged view thereof according to a preferred embodiment of the present invention.

As shown, a spout 410 is formed at the bottom of the water tank 400, and the lower end is finished with a cap 430.

In addition, the cap 430 is equipped with a water discharge valve 420 that opens and closes the water inside the water tank 400 to discharge to the outside.

The water outlet valve 420 is pushed up by the pressure protrusion 351 protruding from the bottom of the mounting portion 350 to open the water tank 400, thereby allowing water to flow out of the water tank 400.

<First embodiment>

Figure 5 is a perspective view of the first check valve 500 according to the first preferred embodiment of the present invention.

The first check valve 500 largely includes a front portion 501 and a lower surface portion 502, and a hook portion 530 protrudes from the front portion 501.

The hook portion 530 is formed with the first hook 510 and the second hook 520 spaced apart from each other by a predetermined distance, and the first hook 510 and the second hook 520 may be formed to be the same shape as each other. there is.

A front portion 501 is formed on one side of the first check valve 500.

When the reservoir 300 is in a first state inclined higher than the mounting portion 350, the front portion 501 closes the first passage 310 at a first position in close contact with the partition wall 320.

Conversely, when the mounting part 350 is in a second state inclined higher than the reservoir 300, the front part 501 opens the first flow path 310 at a second position away from the partition wall 320.

The first check valve 500 includes a first extension portion 513 extending from the front portion 501.

The guide part 511 is formed on the side of the first extension part 513 and can slide along the guide of the inner wall of the first flow path 310.

The first locking portion 515 is formed at the end of the first extension portion 513 and stops the slide operation in the second position.

More specifically, the first locking portion 515 is caught on the partition wall 320.

The first check valve 500 is formed with a penetrating portion 503 that penetrates the upper and lower sides.

Meanwhile, the first check valve 500 has at least one first anti-seizing protrusion 504 formed on the lower surface 502 in contact with the bottom surface of the reservoir 300.

This is to prevent the first check valve 500 from being bonded to the bottom of the reservoir 300.

It is also preferable that the first anti-seizing protrusion 504 has a convex ball shape.

<Second Embodiment>

Figure 8 is a partial perspective view of the reservoir 300 and the mounting portion 350 according to the second preferred embodiment of the present invention.

The partition wall 320 borders the reservoir 300 and the mounting portion 350.

The second flow path 311 is formed on the lower side of the partition wall 320 to provide a flow path through which the reservoir 300 and the mounting portion 350 can communicate fluidly with each other.

The stopper 340 protrudes upward from the bottom surface of the reservoir 300 and specifies a movement limit of the opening and closing member 620 at the second position.

The coupling groove 330 is formed open on the upper side of the second flow path 311.

Figure 9 is a perspective view of a second check valve 600 according to a second preferred embodiment of the present invention.

The second check valve 600 includes a fixing member 610, an opening/closing member 620, and a bridge portion 630.

The fixing member 610 is coupled to the coupling groove 330 formed at the top of the second flow path 311.

The opening and closing member 620 is connected to the fixing member 610 to open and close the second passage 311.

The bridge portion 630 elastically connects the opening and closing member 620 to the fixing member 610.

The opening and closing member 620 includes a second anti-seizing protrusion 624 that protrudes to contact the wall surface of the partition 320.

The second anti-seizing protrusion 624 prevents the second check valve 600 from being bonded to the partition wall 320 even when used for a long time.

In more detail, the fixing member 610 includes a second extension portion 613 extending from the top of the bridge portion 630.

The second locking portion 615 is provided in a ring shape at an end of the second extension portion 613.

Meanwhile, the step portion 611 extends upward from the second extension portion 613 and is formed higher than the second locking portion 615.

The opening and closing member 620 is connected to the lower part of the bridge portion 630.

The opening and closing member 620 has a first rear portion 621 and a second rear portion 622 formed on its rear surface.

The second rear portion 622 is formed by engraving from the edge of the first rear portion 621.

Meanwhile, a first front portion 623 is formed on the front of the opening and closing member 620, and a second anti-seizing protrusion 624 is formed to protrude in a rectangular shape in the front direction along the edge of the first front portion 623. It is becoming.

The second front portion 625 forms an isolated area by the second anti-seizing protrusion 624.

The second anti-seizing protrusion 624 may seal the second flow path 311 by covering an edge of the opening of the second flow path 311 formed in the partition wall 320.

More preferably, each of the horizontal and vertical widths of the second anti-seizure protrusion 624 may be formed to be larger than each of the horizontal and vertical widths of the second flow path 311.

The bridge portion 630 may be formed of a soft material, and preferably has elasticity.

Accordingly, when the fixing member 610 is fixed to the coupling groove 330, the opening and closing member 620 is able to move a certain amount by the elastic bridge portion 630.

2. Description of operating principle

<Operation principle according to the first embodiment>

Figure 6 shows water overflow without the first check valve 500 installed according to the first preferred embodiment of the present invention, and Figure 6(A) shows that the reservoir 300 is tilted higher than the mounting part 350. It shows that water overflows from the mounting part 350 in the first state, and Figure 6(B) shows that when the mounting part 350 is in the second state tilted higher than the reservoir 300, water flows into the reservoir 300. It shows what is overflowing from.

The reason why the water overflows in this way is that the water freely flows into the reservoir 300 and This is because fluid communication occurs between the mounting portions 350.

On the other hand, Figure 7 shows water overflow with the first check valve 500 installed according to the first preferred embodiment of the present invention, and Figure 7(A) shows that the reservoir 300 is tilted higher than the mounting part 350. It shows that water is prevented from overflowing from the mounting part 350 when it is in the first state, and Figure 7(B) shows that when the mounting part 350 is in the second state inclined higher than the reservoir 300, water is prevented from overflowing into the reservoir. It shows that overflow is prevented at (300).

In more detail, as described above, in the first state as shown in FIG. 7(A), the front portion 501 closes the first passage 310 at a first position in close contact with the partition wall 320.

Accordingly, although the water inside the reservoir 300 is in the first state, it is not transferred beyond the partition wall 320 to the mounting unit 350 and accumulates in the reservoir 300.

On the contrary, when the mounting part 350 is in the second state inclined higher than the reservoir 300 as shown in FIG. 7(B), the front part 501 moves the first flow path 310 at a second position away from the partition wall 320. ) is opened.

At this time, it may be desirable for the first check valve 500 to be able to slide slowly rather than quickly to the second position.

This is to prevent water from the mounting unit 350 from overflowing from the reservoir 300 by being rapidly supplied to the reservoir 300 through the first flow path 310.

That is, the first check valve 500 is capable of delaying the flow rate and flow rate at which water from the mounting unit 350 is transferred to the reservoir 300.

Meanwhile, the first locking portion 515 is caught on the partition wall 320, so that the first check valve 500 no longer slides to the left.

That is, the first locking portion 515 stops the slide operation at the second position.

In addition, since the first check valve 500 is formed with a penetrating portion 503 that penetrates the upper and lower sides, the first check valve 500 is prevented from floating inside the reservoir 300.

In addition, the first check valve 500 has at least one first anti-seizing protrusion 504 formed on the lower surface 502 in contact with the bottom surface of the reservoir 300, so that the first check valve 500 remains intact even when used for a long time. Bonding to the reservoir 300 is suppressed.

When the reservoir 300 and the mounting part 350 are converted from the second state to the first state, the first check valve 500 operates to slide in the direction from the reservoir 300 to the mounting part 350 again in the second position. As a result, the first passage 310 of the partition wall 320 is closed to the first position.

However, in a normal operating situation where the reservoir 300 and the mounting part 350 are maintained horizontally without tilting, the first check valve 500 is controlled by the water pressure provided from the water tank 400 installed in the mounting part 350. Because it moves slowly in the direction of position 2, the water in the water tank 400 is provided to the reservoir 300.

<Operation principle according to the second embodiment>

Figure 10 shows water overflow being prevented when the second check valve 600 is installed according to a second preferred embodiment of the present invention. Figure 10(A) shows that the reservoir 300 is larger than the mounting portion 350. It shows that water is prevented from overflowing from the mounting part 350 when it is in a first state inclined highly, and Figure 10(B) shows that when the mounting part 350 is in a second state tilted higher than the reservoir 300, water is prevented from overflowing from the mounting part 350. This shows that overflow from the reservoir 300 is prevented.

When the reservoir 300 is in a first state inclined higher than the mounting portion 350, the opening and closing member 620 closes the second flow passage 311 at a first position in close contact with the partition wall 320.

When the mounting part 350 is in a second state inclined higher than the reservoir 300, the opening and closing member 620 overcomes the elastic force of the bridge part 630 and moves the second position away from the partition wall 320. The flow path (311) will be opened.

At this time, the end of the opening and closing member 620 is caught by the stopper 340 provided at the bottom of the reservoir 300 at the second position and no longer moves.

Meanwhile, the step portion 611 extends upward from the second extension portion 613 and is formed higher than the second locking portion 615, so that the second check valve 600 is in the second position. The valve 600 can be firmly supported on the wall of the partition 320.

The second check valve 600 is capable of delaying the flow rate and flow rate at which the water in the mounting part 350 is transferred to the reservoir 300, thereby preventing the water in the mounting part 350 from rapidly moving to the reservoir 300. As a result, water overflow from the reservoir 300 can be prevented.

3. Description of effects

This effect is shown in Figure 11.

It can be seen that when the first check valve 500 or the second check valve 600 is installed, the tilt angle at which water begins to overflow significantly increases compared to when the first check valve 500 or the second check valve 600 is not installed.

In other words, when the first check valve 500 or the second check valve 600 is installed, water overflow due to tilt is significantly reduced compared to when the first check valve 500 or the second check valve 600 is not installed.

Although the present invention has been described above with reference to preferred embodiments, those skilled in the art can make various modifications and modifications to the present invention without departing from the spirit and scope of the present invention as set forth in the following patent claims. You will understand that you can change it.

110: Humidification unit
200: Humidification filter
300: reservoir
310: 1st euro
311: 2nd euro
320: bulkhead
330: Combining groove
340: stopper
350: Mounting part
351: Pressure protrusion
400: water tank
410: spout
420: outlet valve
430: cap
500: 1st check valve
501: front part
502: lower part
503: Penetrating part
504: First anti-seizing protrusion
510: first hook
511: Guide part
513: first extension part
515: first engaging portion
520: 2nd hook
530: Hook part
600: 2nd check valve
610: fixing member
611: Stepped part
613: second extension part
615: second engaging portion
620: Opening and closing member
621: first rear portion
622: second rear portion
623: 1st front part
624: Second anti-seizing protrusion
625: second front part
630: Bridge part

Claims (8)

A reservoir 300 formed with a partition wall 320 having a first flow path 310 opened to allow water to pass through;
A mounting portion 350 connected to the partition wall 320 to enable fluid communication with the first flow path 310; and
A first check valve 500 coupled to the partition wall 320 and opening and closing the first flow path 310 as the reservoir 300 or the mounting portion 350 is tilted; Including,
The first check valve 500,
When the reservoir 300 is in a first state inclined higher than the mounting part 350, the first flow path 310 is closed at a first position in close contact with the partition wall 320, and the mounting part 350 is a front portion 501 that opens the first flow path 310 at a second position spaced apart from the partition wall 320 when in a second state inclined higher than the reservoir 300;
It is formed to penetrate the upper and lower sides of the main body with the front portion 501, preventing it from floating inside the reservoir 300 when the first check valve 500 closes the first passage 310. Comprising a penetrating portion 503 that does,
Leak-proof humidifier.
delete According to paragraph 1,
The first check valve 500,
a first extension part 513 extending from the front part 501;
a guide portion 511 formed on a side of the first extension portion 513 to slide along the guide of the inner wall of the first flow path 310; and
a first locking portion (515) formed at an end of the first extension portion (513) to stop the slide operation at the second position; Containing more,
Leak-proof humidifier.
delete According to paragraph 1,
The first check valve 500,
A first anti-seizing protrusion 504 is formed on the lower surface 502 in contact with the bottom surface of the reservoir 300,
Leak-proof humidifier.
According to paragraph 1,
It further includes a second check valve 600 that opens and closes the second flow path 311 formed in the partition wall 320,
The second check valve 600,
A fixing member 610 coupled to the coupling groove 330 formed at the top of the second flow path 311;
An opening and closing member 620 connected to the fixing member 610 to open and close the second passage 311;
a bridge portion 630 that elastically connects the opening and closing member 620 to the fixing member 610; Including,
In the first state, the opening and closing member 620 closes the second passage 311, and in the second state, the opening and closing member 620 overcomes the elastic force of the bridge portion 630 to Spaced apart from the partition wall 320 to open the second flow path 311,
Leak-proof humidifier.
According to clause 6,
A stopper 340 is provided at the bottom of the reservoir 300 to specify a movement limit of the opening and closing member 620.
Leak-proof humidifier.
According to clause 6,
The opening and closing member 620 is,
a second anti-seizing protrusion 624 formed to protrude into contact with the wall surface of the partition 320; Including,
Leak-proof humidifier.

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