KR101985145B1 - Directional device for toilet seat - Google Patents

Abstract

The present invention is formed so as to fit in the lower space portion of the toilet seat facing the toilet body and the directional housing for storing the directional gas in the interior space; A coupling unit formed to fix the directional housing to the space part; An injection unit installed at one side of the directional housing and configured to inject the directional gas toward an inner space of the toilet body; And a button unit coupled to one side of the directional housing facing the toilet main body and pressed to open the spray unit when the toilet main body and the toilet seat are compressed by an external force. It relates to a dragon fragrance apparatus.

Description

Directional device for toilet seat {DIRECTIONAL DEVICE FOR TOILET SEAT}

The present invention relates to a directional device for toilet seat.

In general, the toilet is a place for relieving feces or urine.

In the case of feces, especially when the stool occurs, the odor is inevitable due to the gas causing the odor. The odor may cause discomfort not only to you but to other users of the toilet.

In recent years, in order to reduce the odor generated in such a toilet, the spray type air freshener is arrange | positioned and the direction is periodically performed in accordance with the timer set in the toilet.

However, the spraying of such a fragrance is directed to the entire restroom area, in particular, the direction according to the set time regardless of the occurrence of feces. Occurrence of feces is irregularly generated by individual users, and odors are generated at the place of occurrence of feces and transmitted to the entire area. Therefore, in order to more effectively block the generation of odor due to feces, a means and a method capable of performing a direction in response to the occurrence of feces of an individual user are required.

It is an object of the present invention to provide a scent device for toilet seats which can more efficiently reduce the odor generated when using the toilet bowl.

A toilet seat directional device according to an embodiment of the present invention for realizing the above object, the directional housing is formed so as to fit in the lower space portion of the toilet seat facing the toilet body and stores the directional gas in the interior space; A coupling unit formed to fix the directional housing to the space part; An injection unit installed at one side of the directional housing and configured to inject the directional gas toward an inner space of the toilet body; And a button unit coupled to one side of the directional housing facing the toilet main body and pressed to open the spray unit when the toilet main body and the toilet seat are compressed by an external force.

Here, the coupling unit, the housing holder coupled to the directional housing; And seat fastenings extending from both sides of the housing holder to be coupled to one side and the other side of the toilet seat, respectively.

The button unit may protrude from the toilet seat when the directional housing and the toilet seat are coupled to each other, and may be formed to open and close the injection unit by being elastically moved by the external force.

Here, the button unit, when the external force disappears, may be formed to open and close the injection unit again.

Here, the button unit may be formed to open and close the injection unit when the external force is applied.

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According to the directional device for toilet seat of the present invention configured as described above, it is possible to automatically perform the direction according to the individual use time of the user to reduce the occurrence of odor.

In addition, it is configured to be coupled to the toilet seat can be applied to various types of toilets currently in use can improve the usability.

In addition, since it is configured as a non-powered driving method, an additional power supply unit is not required, thereby improving productivity and utilization.

1 is a conceptual diagram for explaining a driving principle of the directional device 100 for the toilet seat (S) according to an embodiment of the present invention.
2 is a perspective view for explaining the structure of the directional device 100 according to an embodiment of the present invention.
3 and 4 are diagrams for explaining the installation structure of the direction device 100 of FIG.
5 is a view for explaining the structure of the opening and closing button unit 270 of the rotation method according to another embodiment of the present invention.
6 is a view for explaining the structure of the sliding button unit 370 of the sliding method according to another embodiment of the present invention.
7 is a conceptual diagram for explaining a practical operation principle of the direction device 400 of the present invention.

Hereinafter, the toilet seat direction apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the drawings. In the present specification, the same or similar reference numerals are assigned to the same or similar configurations in different embodiments, and the description thereof is replaced with the first description.

1 is a conceptual diagram for explaining a driving principle of the directional device 100 for the toilet seat (S) according to an embodiment of the present invention.

As shown, in general, the toilet may include a toilet body T in which water is received and a toilet seat S coupled to the toilet body T.

The toilet body T may include an internal space in which an upper portion of the toilet body T may be made of a hard material such as a ceramic material. In the inner space, water is received, water received by an operation member such as a water down button is discharged, and new water may be stored.

The toilet seat S may be coupled to cover the open upper edge of the toilet body T. The toilet seat S may have a curved concave structure on the lower surface thereof so that the cross section has a semicircular shape. In addition, the toilet seat (S) is coupled to the cover (C), it is possible to open and close the internal space of the toilet body (T) opened in accordance with the rotation of the cover (C).

Such a structure may be disposed in the direction device 100 in the lower surface space of the same toilet seat (S).

The fragrance apparatus 100 has a fragrance gas G having a specific fragrance therein, and when the fragrance gas G is pressed by an external force, the fragrance gas G is filled with water in the toilet body T. It may be configured to spray toward the interior space to be filled. Therefore, when the user sits on the toilet seat (S), when the toilet seat (S) is lowered to the weight of the user, the direction device 100 disposed in the space portion of the lower surface of the toilet seat (S) and the toilet seat (S) It may be compressed by the rim of the toilet body (T). When compressed in this way, the directional gas G stored therein may be injected into the inner space of the toilet body T by the external force.

In other words, when the user is seated on the toilet seat S in order to excrete stool such as feces or urine, the directional gas G may be automatically injected into the toilet body T. Therefore, the interior space of the toilet body T is filled with the directional gas G, so that the odor is diluted by the already filled directional gas G even when the user's toilet flows into the interior space of the toilet body T. This can minimize the outflow of odors to toilet spaces.

In the above, the brief operation method of the directional device 100 was demonstrated. In FIG. 2, the structure of the directional device will be described.

2 is a perspective view for explaining the structure of the directional device 100 according to an embodiment of the present invention.

As shown, the directional device 100 may include a directional housing 110, a coupling unit 130, an injection unit 150, and a button unit 170.

The directional housing 110 may be formed to be fitted into a lower space portion of the toilet seat (not shown in FIGS. 1 and S) facing the toilet body (not shown in FIGS. 1 and T). The internal space can store directional gas.

The coupling unit 130 may be a means for coupling the directional housing 110 to the lower surface space of the toilet seat. To this end, the coupling unit 130 may include a housing holder 131 and a seat fastener 133.

The housing holder 131 may be formed in a frame structure as a means for coupling with the directional housing 110. The housing holder 131 may have a structure in which the directional housing 110 is accommodated and fixed. Through this, the directional housing 110 may be detachable to the housing holder 131.

Seat fastener 133 is a means for engaging with the toilet seat, one side is coupled to the housing holder 131, the other side may be coupled to one region of the toilet seat. The seat fastener 133 may be coupled to the toilet seat in a plurality of different regions. In this embodiment, the seat fastener 133 coupled to the toilet seat is illustrated as a tong structure, but is not limited thereto, and various coupling structures may be applied.

The injection unit 150 is a means for injecting the directional gas. To this end, it includes a spray nozzle, it may be in communication with the direction housing (110).

The button unit 170 may be a means for opening and closing the injection unit 150 when pressed by an external force. To this end, when the directional housing 110 is coupled to the toilet seat, it may be installed on one side of the directional housing 110 facing the toilet body.

The structure of the directional device 100 has been described above. 3 and 4, the installation structure of the direction device will be described.

3 and 4 are diagrams for explaining the installation structure of the direction device 100 of FIG.

As shown, the directional device 100 may be configured to be detachable to the lower surface space (A) of the toilet seat (S). The lower surface of the toilet seat S may have a space A concave upward, and a plurality of protrusions M for preventing slipping may be disposed to be spaced apart from each other. Therefore, the lower surface space portion A of the toilet seat S can be partitioned into a plurality of space portions A by the projections M. As shown in FIG. The fragrance apparatus 100 may be selectively installed in at least one of the plurality of spaces A.

At this time, the coupling of the toilet seat (S) of the directional device 100 may be made through the coupling unit 130 coupled to the directional housing 110. In this embodiment, the coupling unit 130 is shown to be coupled to the projections (M) located on both sides, but is not limited thereto, and may be coupled to the edge of the toilet seat (S).

When the directional device 100 is coupled to the toilet seat S, the button unit 170 may be configured to protrude toward the toilet body more than the bottom surface of the toilet seat S as shown in FIG. 4. The button unit 170 is formed of an elastic structure, and when an external force is generated in which the toilet seat S and the toilet body are compressed to each other, the button unit 170 may be elastically moved in the direction of the direction housing 110. In addition, when the above-mentioned crimping situation is released and the applied external force disappears, it may be elastically protruded toward the toilet body direction again.

In the above, the installation structure of the direction device 100 was demonstrated. In FIG. 5, the structure of the button unit will be described.

5 is a view for explaining the structure of the opening and closing button unit 270 of the rotation method according to another embodiment of the present invention.

The button unit 270 may be formed to close and then close the button unit 250 when an external force is applied. In other words, when an external force is applied to the toilet seat (not shown in FIG. 1, S or less), the button unit 250 is opened for a predetermined time to inject the directional gas, and then the button unit 250 is closed again to provide directionality. The injection of gas can be stopped.

In addition, when the pressurized external force disappears, the button unit 250 may be formed to open and close again.

To this end, the button unit 270 of the present embodiment may include a button 271, a button bar 273, an elastic body 275, an opening and closing operation table 277, and a first valve 279.

The button 271 is formed to be exposed to the outside of the toilet seat, and can be pressed by the toilet body (not shown in FIG. 1, T or less).

The button stand 273 may have one side coupled to the button 271 and the other side extending in the direction of the direction housing 210.

The elastic body 275 may be installed at one side of the inner space of the directional housing 210 and may be coupled to one side of the button stand 273. The elastic member 275 may have an elastic structure such as a spring to provide an elastic force with respect to the button stand 273.

The opening and closing operation table 277 may be configured such that one side is coupled to the button stand 273 and the other side is in contact with the first valve 279 to be described later. Therefore, the opening and closing operation table 277 is moved in accordance with the movement of the button bar 273, and when the movement, it can exert an external force against the first valve (279).

The first valve 279 is in the injection pipe 253 which communicates the injection nozzle 251 or the injection nozzle 251 of the button unit 250 and the storage tank 211 of the directional housing 210 in which the directional gas is stored. It may be installed in at least one. The 1st valve 279 provided in this way can open and close at least any one of the injection nozzle 251 or the injection pipe 253 according to an external force. To this end, the first valve 279 is composed of a rotatable rotating body, and the opening area 279-1, which is an area for opening the internal space of the injection nozzle 251 or the injection pipe 253, and closes according to the degree of rotation. And an enclosed area 279-3, which is an area.

In this case, the open area 279-1 and the closed area 279-3 may be configured in plural and alternately disposed. In the initial state where no external force is applied, the closed area 279-3 may be configured to be positioned.

The operation of such a directional device is as follows.

The first first valve 279 may be in the closed region 279-3 to close the external injection of the directional gas. In this case, when the toilet seat and the toilet body are compressed to each other, the button 271 may be pressed to move in the direction of the direction housing 210. The button operating unit 277 coupled to the button unit 273 and the button unit 273 may be elastically moved in the same manner according to the movement of the button 271.

The opening and closing operation table 277 may move and rotate by contacting the first valve 279. The first valve 279 may be sequentially moved from the closed area 279-3 to the open area 279-1 and back to the closed area 279-3 according to the contact of the opening / closing operating table 277. In other words, when the first valve 279 is pushed by the button unit 270, an operation change may be made from the open area 279-1 to the closed area 279-3 again.

Accordingly, the directional gas may be injected toward the toilet body through the button unit 250 that is first opened during the pressing operation of the button unit 270, and the injection of the directional gas may be stopped again by closing the button unit 250.

That is, when the user sits on the toilet seat, spraying and stopping of the directional gas may be sequentially generated.

On the contrary, when the external force applied to the button disappears, the reverse operation of the above-described operation may be performed by the elastic body 275. The button stage 273 and the opening / closing operation stage 277 which have been moved in the direction of the direction housing 210 may be moved in the opposite direction to the previous by the elastic body 275. Accordingly, the opening and closing operation table 277 may contact the first valve 279 to reverse operation. In the reverse operation of the first valve 279, the first valve 279 may be changed from the closed area 279-3 to the open area 279-1 and back to the closed area 279-3. Therefore, the button unit 250 may stop spraying again after partially spraying the directional gas.

As such, the fragrance apparatus 200 may continuously and inject the directional gas according to the external force.

The above has demonstrated the opening / closing button unit 270 of a rotation system. In FIG. 6, the sliding button unit will be described.

6 is a view for explaining the structure of the sliding button unit 370 of the sliding method according to another embodiment of the present invention.

The button unit 370 of this embodiment is substantially similar to the button units (FIGS. 5 and 270) of FIG. 5, but differs in that it is configured in a sliding manner.

The button unit 370 may include a button 371, a swivel 373, an elastic body 375, a support 376, an opening and closing operating table 379, and a second valve 379.

Since the button 371 is the same as the button of FIG. 5, redundant description will be omitted.

The rotating table 373 may be connected to the button 371 and extend to the elastic body 375. When the rotary table 373 is pressed by an external force acting on the button 371, the rotary table 373 may be rotated along the support 376, which will be described later, and moved in the direction of the direction housing 310. To this end, the swivel 373 may have a spiral formed on its surface.

The elastic body 375 may be coupled to the rotating table 373 in the opposite direction of the button 371 to provide an elastic force with respect to the rotating table 373.

The support 376 may be formed of a tubular body and a pipe and installed inside the directional housing 310 to accommodate the elastic body 375 and the rotating table 373 therein. In particular, a spiral corresponding to the spiral of the turntable 373 may be formed on the inner surface. Thus, the swivel 373 can rotate and move when the support 376 contacts the inner surface.

Opening and closing operation table 379, one side may be coupled to the rotary table 373, the other side may be coupled to the second valve (379). The opening and closing operation table 379 is formed in a string-like shape, and can be wound around the rotating table 373 when the rotating table 373 rotates.

The second valve 379 can open and close the injection nozzle 351 or the injection pipe 353 in a sliding manner. Although not specifically illustrated in the present embodiment, the second valve 379 may have a sliding structure configured to act in an elastic force in a direction opposite to the opening and closing operating table 379. In addition, similar to the first valve of FIG. 5, the second valve 379 includes an open area 379-1 and a closed area 379-3 that open or close the injection nozzle 351 or the injection pipe 353. It may be arranged in plurality in turn.

Therefore, when the external force is pressed on the button unit 370, the rotating table 373 is elastically moved when rotated, the opening and closing operation table 379 can be wound on the rotary table 373 according to the rotation. The second valve 379 associated with the open / close operating table 379 may be changed from the first closed area 379-3 to the open area 379-1 and back to the closed area 379-3. On the contrary, in the case where the external force applied to the button unit 370 disappears, the reverse operation is performed so that the second valve 379 is opened in the closed region 379-3 and then closed in the closed region 379-3. 3) can be changed.

Therefore, the direction device 300 of the present embodiment has a different operation structure, but as in the direction devices (FIGS. 5 and 200) of FIG. 5, when the external force is generated and extinguished, the directional gas is continuously injected and stopped. Can be.

In the above, the button unit 370 of a sliding structure was demonstrated. In FIG. 7, a method of operating a direction device will be described sequentially.

7 is a conceptual diagram for explaining a practical operation principle of the direction device 400 of the present invention.

In the present embodiment, the manner in which the direction device 400 operates as described above will be described sequentially. Since the detailed configuration is the configuration described above, additional reference numerals will be omitted.

First, as shown in (a), in a situation where the first user U does not use, the toilet seat S may be coupled to be placed on the upper surface of the toilet body T. The direction device 400 may be coupled to the lower surface space portion of the toilet seat S.

The direction device 400 may be disposed such that the button unit 470 corresponds to the upper edge of the toilet body T. Therefore, when the toilet seat S is placed on the toilet body T, a predetermined level of external force may be generated in the button unit 470 by the load of the toilet seat S, but in the design process, the button The unit 470 may be designed so as not to be pressed by the external force. Therefore, when the user U does not sit on the toilet seat S, the direction device 400 may be maintained in a state where the button unit 470 is not pressed.

As in (b), the user U can sit on the toilet seat S for the toilet. In this case, a load corresponding to the corresponding weight may be generated in the toilet seat S by the weight of the user U. FIG. In addition, since the button unit 470 of the directional device 400 is located between the toilet seat S and the rim of the toilet main body T, the toilet main body T which is positioned below when the toilet seat S is subjected to a load. It can be compressed in between. The compressed button unit 470 may be pressed to sequentially open and close the injection unit.

In other words, the button unit 470 may perform an operation of first closing the injection unit after the external pressure is pressed and then closing the injection unit again. According to such an operation, the injection unit may inject the directional gas G stored in the directional housing into the inner space of the toilet body T at the moment of opening, and stop the injection at the closing moment.

According to such an operation, a predetermined amount of directional gas G may be present inside the toilet body T before the toilet H of the user U through the general operation of the user U sitting on the toilet seat S. . In addition, although not specifically illustrated in the present embodiment, in order to keep the directional gas G injected into the toilet body T internal space for a long time, the edge of the toilet seat S covers the upper edge of the toilet body T. It can be extended so that.

As shown in (c), in the state where the directional gas G is filled in the inner space of the toilet body T, the user U may perform the toilet H. Odor generated during the toilet (H) can be prevented from being diluted with the directional gas (G) to be transmitted to the outside of the toilet body (T).

As in (d), the user U may exit the toilet seat S when the toilet H is finished. In this case, the opening surfaces of the toilet body T and the toilet seat S are closed by the buttocks of the user U and then opened. In other words, the odor present in the toilet body T may be easily transmitted to the outside.

Therefore, when the load external force of the user U applied to the toilet seat S disappears, the button unit 470 may elastically return in the opposite direction to which it was pressed. The opening and closing of the injection unit can be carried out continuously while elastically returning. Accordingly, the injection unit may inject the directional gas G again by a predetermined amount when the user U leaves the toilet seat S, and then stop the injection.

Characteristic operation of the toilet seat (S) having such a direction device 400 is as follows.

At the moment when the user U is seated on the toilet seat S to perform the toilet H, the inside of the toilet body T can be automatically filled with the directional gas G by the load of the user U ( First odor prevention). Subsequently, when the user U leaves the toilet seat S in a state in which the toilet H is completed, the directional gas G may be injected again into the toilet main body T (second odor prevention). In other words, the fragrance device 400 uses the toilet bowl for the user U by selectively spraying a predetermined amount of the directional gas G before and after the toilet H automatically through only the load of the user U in a no-power configuration. According to this, more efficient odor reduction effect can be created.

Such a directional device for the toilet seat is not limited to the configuration and manner of operation of the embodiments described above. The above embodiments may be configured such that various modifications may be made by selectively combining all or part of the embodiments.

100: direction device S: toilet seat
110: direction housing T: toilet body
130: coupling unit G: directional gas
150: injection unit U: user
170: button unit

Claims (6)

A directional housing formed to fit into a lower space of the toilet seat facing the toilet body and storing directional gas in an inner space;
A coupling unit formed to fix the directional housing to the space part;
An injection unit installed at one side of the directional housing and configured to inject the directional gas toward an inner space of the toilet body; And
And a button unit coupled to one side of the directional housing facing the toilet main body, and pressed to open the spray unit when the toilet main body and the toilet seat are compressed by an external force. Directional device.
The method of claim 1,
The coupling unit,
A housing holder coupled to the directional housing; And
And seat fastenings extending from both sides of the housing holder to be coupled to one side and the other side of the toilet seat, respectively.
The method of claim 1,
The button unit,
When the directional housing and the toilet seat is coupled, the toilet seat protrudes than the toilet seat, is elastically moved by the external force is formed to open and close the injection unit, the toilet seat direction device.
The method of claim 1,
The button unit,
And when the external force disappears, the ejection unit is formed to open and close again.
The method of claim 1,
The button unit,
When the external force is applied is formed to open and close the injection unit, the device for toilet seat.
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