CN114364849A - Air purification treatment device - Google Patents

Abstract

The invention discloses an air purification treatment device. According to an embodiment of the disclosure, an air purification treatment device comprises: a liquid storage tank in which liquid is stored; a first air purification processing unit provided inside the liquid storage tank; a first air passage part having one end connected to the contaminated space and the other end connected to the first air purification processing part; a first air suction unit which sucks in polluted air in the polluted space and causes the sucked polluted air to flow into the first air purification processing unit through the first air passage unit; a connection hose for connecting a toilet tank and the liquid storage tank; and a liquid discharge adjusting part which discharges the liquid in the liquid storage tank to the toilet tank through the connection hose.

Description

Air purification treatment device

Technical Field

Embodiments of the present invention relate to air purification processing technologies.

Background

Generally, a ventilating fan is installed in the toilet to ventilate the interior of the toilet. However, the exhaust fan is operated only to ventilate the air inside the toilet, but not to ventilate the air inside the toilet bowl hole of the toilet bowl installed in the toilet. In addition, even if a user flushes a toilet after using the toilet, the interior space of the toilet hole still has malodor and bacteria. At this time, the malodor and bacteria in the toilet bowl holes may be emitted to the entire toilet and contaminate the air of the toilet. Further, malodor and bacteria inside the toilet bowl holes may be emitted to the toilet and the entire room, thereby contaminating the air in the entire room. This makes the indoor environment unsanitary, and therefore, people such as the elderly and the infirm, or children are likely to be infected with germs.

Disclosure of Invention

[ problem ] to provide a method for producing a semiconductor device

An object of an embodiment of the present invention is to provide a device capable of purifying polluted air in a polluted space.

[ technical solution ] A

An air purification treatment device according to a disclosed embodiment includes: a liquid storage tank in which liquid is stored; a first air purification processing unit provided inside the liquid storage tank; a first air passage part having one end connected to the contaminated space and the other end connected to the first air purification processing part; a first air suction unit which sucks in polluted air in the polluted space and causes the sucked polluted air to flow into the first air purification processing unit through the first air passage unit; a connection hose for connecting a toilet tank and the liquid storage tank; and a liquid discharge adjusting part which discharges the liquid in the liquid storage tank to the toilet tank through the connection hose.

The first air purification processing portion may be configured to dissolve contaminated air flowing in through the first air passage portion into the liquid in the liquid storage tank.

The first air purification processing portion may be configured to communicate an inside of the first air purification processing portion with an inside of the liquid storage tank so that the liquid flows into the inside of the first air purification processing portion, and to discharge the contaminated air flowing in through the first air passage portion to the liquid inside the first air purification processing portion or to an inner space of the first air purification processing portion.

The liquid discharge adjustment part may be configured to discharge the liquid in the liquid storage tank to the toilet tank by being linked with a flushing water discharge operation of the toilet tank.

The liquid discharge adjustment part may be configured to discharge the liquid in the liquid storage tank to the toilet tank when a contamination degree in the liquid storage tank exceeds a preset critical contamination degree.

The toilet tank may be configured to discharge flushing water by being interlocked with a liquid discharge operation of the liquid discharge adjustment part.

The liquid discharge adjustment part may be configured to discharge the liquid in the liquid storage tank toward the toilet tank when a user is sensed in a state where the flushing water in the toilet tank has been discharged based on an operation of the user.

The air purification treatment apparatus may further include a liquid supply adjustment part for supplying liquid to the inside of the liquid storage tank when the liquid in the liquid storage tank is lower than or equal to a preset water level.

The contaminated space may be an inner space of a toilet body connected with the toilet tank.

The air purification treatment apparatus may further include: a partition wall provided along an upper end frame portion of the toilet bowl main body inside the upper end frame portion for connecting an upper surface and a lower surface of the upper end frame portion; a first flow passage provided along the upper rim portion outside the partition wall and communicating with the interior of the toilet main body; and a second flow passage provided along the upper rim portion inside the partition wall and communicating with the interior of the toilet bowl main body.

The air purification treatment apparatus may further include: at least one flushing water discharge hole provided on the first flow passage for discharging flushing water of the toilet tank toward an inside of the toilet main body; and at least one contaminated air inflow hole provided on the second flow path for allowing contaminated air inside the toilet bowl main body to flow in, one end of the first air path part being provided to communicate with the inside of the second flow path.

The air purification treatment apparatus may further include a contaminated air suction pipe coupled to one end of the first air passage part and sucking contaminated air inside the toilet bowl main body based on an operation of the first air suction part.

The contaminated air intake duct may further include: a connection pipe connected to one end of the first air passage part; and a suction protruding pipe which communicates with the connection pipe and is disposed downward at an end of the connection pipe to face an inside of the toilet main body.

The air purification treatment apparatus may further include: a second air purification processing part arranged in the toilet water tank; a second air passage part, one end of which is communicated with the inside of the toilet main body, the toilet main body is connected with the toilet water tank, and the other end is connected with the second air purification treatment part; and a second air suction part which sucks in contaminated air inside the toilet bowl main body through the second air passage part and causes the sucked contaminated air to flow into the second air purification treatment part.

The air purification treatment apparatus may further include: a third air passage part having one end connected to the second air purification processing part and the other end connected to the first air purification processing part; and a third air suction unit for allowing the polluted air in the second air purification unit to flow into the first air purification unit through the third air passage unit.

[ PROBLEMS ] the present invention

According to the disclosed embodiments, contaminated air in a contaminated space is treated by using a reservoir tank connected to a water tank of a toilet bowl, and a liquid in which contaminated air generated after a user uses the toilet bowl is dissolved is naturally discharged into a hole of the toilet bowl as toilet flushing water, so that the contaminated air in the contaminated space can be conveniently treated.

Drawings

Fig. 1 is a front view of an air purification treatment apparatus according to an embodiment of the present invention.

Fig. 2 is a rear view of an air purification treatment apparatus according to an embodiment of the present invention.

Fig. 3 is a view illustrating the inside of a toilet tank in an air cleaning device according to an embodiment of the present invention.

Fig. 4 is a sectional view of the inside of a toilet bowl main body in the air cleaning device according to an embodiment of the present invention.

Fig. 5 is a diagram of a contaminated air suction structure in an air purification treatment apparatus according to an embodiment of the present invention.

Fig. 6 is a diagram of an air purification treatment part in the air purification treatment apparatus according to an embodiment of the present invention.

Fig. 7 is a diagram illustrating a state in which a connection auxiliary portion is provided at one end of the first air passage portion in the air purification processing apparatus according to the embodiment of the present invention.

Fig. 8 is a diagram of another embodiment of a contaminated air suction structure in the air purification treatment apparatus of the present invention.

Fig. 9 is a schematic view of an air purification treatment apparatus according to another embodiment of the present invention.

FIG. 10 is a block diagram illustrating an exemplary computing environment incorporating a computing device suitable for use in the illustrative embodiments.

Detailed Description

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. The following detailed description is provided to facilitate a thorough understanding of the methods, apparatuses, and/or systems described herein. However, these are merely examples, and the present invention is not limited thereto.

In describing the embodiments of the present invention, detailed descriptions thereof will be omitted if it is considered that specific descriptions of known technologies related to the present invention may unnecessarily obscure the gist of the present invention. In addition, the terms described later are terms defined in consideration of functions in the present invention, and may be different according to intentions or conventions of users and operators. Therefore, it is necessary to define the following on the basis of the contents throughout the present specification. The terminology used in the detailed description is for the purpose of describing the embodiments of the invention only and is not intended to be limiting of the invention in any way. Unless expressly stated otherwise, reference to a singular form includes a reference to a plural form. In this specification, terms such as "comprising" or "having," etc., are used to reference a certain feature, number, step, operation, element, or portion or combination thereof, and are not to be construed as excluding the presence or absence of one or more other features, numbers, steps, operations, elements, or portions or combinations thereof, other than those described.

On the other hand, directional terms of upper side, lower side, one side, the other side, and the like are used in association with the orientation of the disclosed figures. The components of the embodiments of the present invention can be positioned in a variety of orientations, and thus the directional terminology is used for purposes of illustration only and is not limiting.

Further, the terms "first", "second", and the like, although used herein to describe various constituent elements, should not be construed as being limited by these terms. These terms are only used to distinguish one constituent element from another constituent element. For example, a first component may be referred to as a second component, and a second component may be referred to as a first component, without departing from the scope of the invention.

Fig. 1 is a front view of an air purification treatment apparatus according to an embodiment of the present invention. Fig. 2 is a rear view of an air purification treatment apparatus according to an embodiment of the present invention. Fig. 3 is a view illustrating the inside of a toilet tank in an air cleaning device according to an embodiment of the present invention. Fig. 4 is a sectional view of the inside of a toilet bowl main body in the air cleaning device according to an embodiment of the present invention. Fig. 5 is a diagram of a contaminated air suction structure in an air purification treatment apparatus according to an embodiment of the present invention. Fig. 6 is a diagram of an air purification processing part in the air purification processing device according to an embodiment of the present invention.

Referring to fig. 1 to 6, the air cleaning apparatus 100 may be installed on a toilet bowl in a toilet. But not limited thereto, the air purification treatment device 100 may be installed in various polluted spaces and polluted facilities other than the toilet. The contaminated space and contaminated facilities may refer to areas and facilities, etc. in which the inside air is contaminated with malodor and various bacteria, etc. The following description will discuss, as an example, a case where the air purification treatment apparatus 100 is mounted on a toilet.

In an exemplary embodiment, the air purification treatment device 100 may include a first air passage part 102, a first air suction part 104, an air purification treatment part 106, a second air passage part 108, and a second air suction part 110.

The first air passage part 102 may be provided to flow contaminated air within the toilet bowl main body 50 into the air purification treatment part 106 through the first air suction part 104. One end of the first air passage portion 102 may be connected to the inside of the upper rim portion 50a of the toilet bowl main body 50. The other end of the first air passage part 102 may be connected to the inside of the air purification processing part 106. In an exemplary embodiment, the first air passage part 102 may use a pipe, a hose, and the like.

Specifically, the upper end frame portion 50a of the toilet bowl main body 50 may support a toilet seat (not shown) at a lower portion of the toilet seat (not shown). The interior of the upper terminal rim portion 50a may be provided with a first flow channel 112 and a second flow channel 114. The first flow channel 112 and the second flow channel 114 may be provided along the upper rim portion 50a inside the upper rim portion 50 a.

A partition wall 116 may be disposed between the first flow channel 112 and the second flow channel 114. The partition wall 116 may be used to connect the upper and lower faces of the upper end frame portion 50a and be vertically disposed. The partition wall 116 may be provided along the upper terminal rim portion 50 a. The first flow channel 112 may be provided along the upper terminal rim portion 50a on the outer side of the partition wall 116. The second flow channel 114 may be provided along the upper rim portion 50a on the inner side of the partition wall 116.

The first flow passage 112 may be disposed in communication with a connection passage 54, the connection passage 54 for connecting the bowl aperture 52 and the bowl tank 60. The first flow passage 112 has at least one flushing water discharge hole 112a therein, and the at least one flushing water discharge hole 112a may be provided at a lower end of the upper rim portion 50 a. The flushing water discharge hole 112a may be provided to communicate the bowl hole 52 with the first flow passage 112. Wherein the flush water in the toilet tank 60 can be discharged toward the toilet hole 52 through the connection passage 54, the first flow passage 112 and the flush water discharge hole 112 a. The flushing water discharge holes 112a may be provided in plurality at intervals along the first flow passage 112.

One end of the first air passage portion 102 may be connected with the inside of the second flow passage 114. The second flow channel 114 has at least one contaminated air inflow hole 114a therein, and the at least one contaminated air inflow hole 114a may be provided at a lower end of the upper terminal rim portion 50 a. The contaminated air inflow hole 114a may be provided to communicate the toilet bowl hole 52 with the second flow path 114. The contaminated air inflow hole 114a may be provided in plurality at intervals along the second flow path 114. Wherein the polluted air in the toilet hole 52 can flow into the air purification treatment portion 106 through the polluted air inflow hole 114a, the second flow path 114 and the first air path portion 102.

One end of the first air passage part 102 may be directly connected with the inside of the second flow passage 114, but is not limited thereto, and as shown in fig. 7, one end of the first air passage part 102 may be further provided with a connection auxiliary part 118. The connection auxiliary portion 118 is provided to wrap around one end of the first air passage portion 102 and communicate with the interior of the second flow passage 114.

As described above, the upper end rim portion 50a of the toilet main body 50 is internally provided with the partition wall 116 to separate the first flow passage 112 from the second flow passage 114, the first flow passage 112 may discharge the toilet water toward the toilet hole 52, and the second flow passage 114 may flow the contaminated air in the toilet hole 52 into the air purification treatment portion 106.

In addition, although the above description has been made on the contaminated air sucked into the toilet hole 52 through the upper end rim portion 50a of the toilet main body 50, the present invention is not limited thereto, and the contaminated air sucked into the toilet hole 52 may be sucked through a seat (not shown) provided in the toilet main body 50. In this case, the seat cushion (not shown) also includes a bidet function seat cushion.

That is, the inside of the seat cushion (not shown) is provided with means for sucking in the polluted air in the toilet bowl hole 52 such as the second flow passage 114 and the polluted air inflow hole 114a, and one end of the first air passage portion 102 may be further provided to be connected to the inside of the seat cushion (not shown). In this case, the flush water is discharged to the bowl hole 52 through the first flow passage 112 in the upper rim portion 50a of the bowl main body 50, but is not limited thereto.

The first air suction portion 104 may perform a function of sucking contaminated air inside the toilet bowl hole 52. The first air suction part 104 sucks in the polluted air in the toilet bowl hole 52 and then makes the sucked polluted air flow into the inside of the air purification treatment part 106 through the first air passage part 102. The first air intake portion 104 may intake the contaminated air in the toilet bowl hole 52 using a suction fan or a suction pump. Here, the first air suction part 104 is illustrated as being mounted to an outer wall of the toilet tank 60, but is not limited thereto.

The air purification treatment part 106 may be provided in the toilet tank 60. The air purification unit 106 may include an upper plate 106a, a side plate 106b, and an air discharge unit 106 c.

The upper plate 106a is disposed above a maximum level of the flushing water in the toilet tank 60. The upper plate 106a may be fixed to an inner wall of the toilet tank 60. The side plate 106b may be disposed downward at the end of the upper plate 106 a. The side plate 106b may be provided to seal a side of the air purification process portion 106. The side plate 106b is disposed at a distance from a lower surface of the toilet tank 60.

The lower portion of the air purification unit 106 is open. Thereby, the flush water in the toilet tank 60 can flow into the inside of the air purification treatment part 106. The lower end of the side plate 106b may be disposed below the lowest level of the flushing water in the toilet tank 60.

The air discharge portion 106c may be provided along a height direction of the toilet tank 60 in the air purification treatment portion 106. The air discharge portion 106c may be connected to the other end of the first air passage portion 102. The inside of the air discharge portion 106c may be formed in a hollow form. Further, air discharge portion 106c may have at least one contaminated air discharge hole 106c-1 therein. Polluted air discharge hole 106c-1 may be provided along the length direction of air discharge portion 106 c.

The contaminated air moved through the first air passage part 102 may flow into the air discharge part 106c and be discharged through the contaminated air discharge hole 106 c-1. Wherein the contaminated air discharged through the contaminated air discharge hole 106c-1 is dissolved into the toilet water in the toilet tank 60 or discharged to the outside through the second air passage portion 108 according to the water level of the toilet water in the toilet tank 60.

For example, when the toilet water in the toilet tank 60 is at the highest level, the contaminated air discharged through the contaminated air discharge hole 106c-1 is dissolved into the toilet water in the toilet tank 60 and is discharged to the toilet hole 52 together with the toilet water based on the user's manipulation of the toilet. The maximum level of the flushing water may refer to a maximum level at which the flushing water is supplied to the toilet tank 60 again and filled after the flushing water in the toilet tank 60 is discharged to the toilet hole 52.

Further, when the flush water in the toilet tank 60 is at the lowest level, the contaminated air discharged through the contaminated air discharge hole 106c-1 is discharged to the inner space of the air purification treatment part 106 and is discharged to the outer space through the second air passage part 108. Wherein the lowest level of the flushing water may refer to a level at which the flushing water is the lowest level in the toilet tank 60.

The second air passage portion 108 may function to communicate the space inside the air purification treatment portion 106 with the external space. One end of the second air passage part 108 may be connected to the air purification treatment part 106, and the other end of the second air passage part 108 may be connected to an external space. The external space may be, for example, an outdoor space, but is not limited thereto, and may be an internal space of facilities such as a sewer for discharging dirt or for treating pollutants.

In an exemplary embodiment, the second air passage part 108 may be a passage for discharging polluted air within the air purification treatment part 106 to an external space, but is not limited thereto, and the second air passage part 108 may also be a passage for allowing polluted materials of the external space to flow into the toilet tank 60.

The second air intake portion 110 may inhale the polluted air in the air purification treatment portion 106 and make the inhaled polluted air flow into the second air passage portion 108. The second air intake unit 110 can intake the contaminated air in the air purification unit 106 by an exhaust fan, a suction pump, or the like. Here, the second air suction part 110 is illustrated as being mounted on an outer wall of the toilet tank 60, but is not limited thereto.

In addition, the toilet tank 60 may be mounted with an induction sensor 120 for sensing a person on the toilet main body 50. But not limited thereto, the induction sensor 120 may be installed on the toilet body 50.

Further, although the case where the other end of the first air passage portion 102 is connected to the air purification treatment portion 106 in the toilet tank 60 is illustrated herein, it is not limited thereto, and the other end of the first air passage portion 102 may also be connected to a tank provided to the outside. In this case, the contaminated air flowing in through the first air passage part 102 may be discharged to the tank.

Fig. 8 is a diagram of another embodiment of a contaminated air suction structure in the air purification treatment apparatus of the present invention.

Referring to fig. 8, one end of the first air passage part 102 may be provided with a contaminated air suction pipe 122. The contaminated air suction pipe 122 may include a connection pipe 122a and a suction protruding pipe 122 b. The connection pipe 122a may be connected to one end of the first air passage part 102. The connection pipe 122a can be detachably coupled with the first air passage part 102. The suction protruding tube 122b may be connected with the other end of the connection tube 122 a. The suction protruding tube 122b may be provided with its interior in communication with the connection tube 122 a.

The suction protruding pipe 122b may be disposed downward at the other end of the connection pipe 122 a. The suction convex pipe 122b may be disposed downward at the other end of the connection pipe 122a to face the inside of the toilet main body 50 (i.e., the toilet bowl hole 52). The suction protruding pipe 122b is provided to protrude downward from the upper end frame 50 a. An upper end portion of the suction convex tube 122b may be vertically disposed downward at the other end of the connection tube 122 a. A lower end portion of the suction convex pipe 122b may be obliquely disposed at a predetermined angle θ toward the inside of the toilet bowl hole 52. At this time, even if water flows into the inside of the contaminated air suction pipe 122, it flows again into the toilet hole 52 along the inclined suction protruding pipe 122 b.

Fig. 9 is a schematic view of an air purification treatment apparatus according to another embodiment of the present invention.

Referring to fig. 9, the air purification apparatus 200 may further include a liquid storage tank 202, a second air purification treatment unit 204, a third air passage unit 206, a third air intake unit 208, a liquid discharge adjustment unit 210, and a liquid supply adjustment unit 212. Hereinafter, the air purification processing part 106 installed in the toilet tank 60 will be referred to as a first air purification processing part 106.

Wherein the other end of the second air passage part 108 may be connected to the reservoir 202. In an exemplary embodiment, the other end of the second air passage part 108 may be connected with the second air purification processing part 204. In this case, the polluted air, which is not discharged into the toilet water in the toilet tank 60 but discharged into the space in the toilet tank 60 (i.e., the internal space of the first air purification processing portion 106), is discharged into the second air purification processing portion 204 through the second air passage portion 108. Thus, the polluted air will be treated in the first air purification treatment part 106 of the toilet tank 60, and the polluted air that is not treated in the first air purification treatment part 106 will be treated in the second air purification treatment part 204.

The tank 202 can store liquid such as rainwater and water supply. The tank 202 may also store used water. The reservoir 202 may be connected to the toilet tank 60. The liquid discharge hole 202a of the liquid storage tank 202 may be connected to the toilet tank 60 through a connection hose 214.

The second air purification treatment unit 204 may be installed in the tank 202. The second air purification treatment part 204 may be connected to the other end of the second air passage part 108. In addition, the second air purification processing part 204 may be connected to another contaminated space S through the third air passage part 206. Wherein the other contaminated space S may be a place for discharging contaminated materials, such as another toilet or a smoking room, etc.

The second air purification unit 204 may dissolve contaminated air flowing in through the second air passage 108 and the third air passage 206 into the tank 202. The inside of the second air purification treatment part 204 may be provided to communicate with the inside of the tank 202. Thereby, the liquid in the tank 202 can flow into the second air purification processing unit 204. In this case, the contaminated air discharged into the second air purification unit 204 may be directly discharged into the liquid in the tank 202, or may be stored in the internal space of the second air purification unit 204 and dissolved into the liquid in the tank 202 over time. In an exemplary embodiment, the second air purification treatment part 204 may have a similar structure to the first air purification treatment part 106, but is not limited thereto.

One end of the third air passage part 206 may be connected to the contaminated space S, and the other end may be connected to the second air-purifying treatment part 204. The third air intake part 208 may function to intake contaminated air in the contaminated space S. The third air intake portion 208 may inhale the polluted air in the polluted space S and make the inhaled polluted air flow into the inside of the second air purification processing portion 204 through the third air passage portion 206.

The liquid discharge adjustment portion 210 may discharge liquid from the tank 202. The liquid discharge adjusting part 210 may discharge the liquid in the liquid storage tank 202 toward the toilet tank 60 through the connection hose 214 by adjustment.

In an exemplary embodiment, when the flush water in the toilet tank 60 is discharged to the toilet hole 52 based on the user's manipulation, the liquid discharge regulating part 210 discharges the liquid in the reservoir 202 toward the toilet tank 60 by opening the liquid discharge hole 202a of the reservoir 202, so that the toilet tank 60 can be refilled with the flush water. That is, the liquid discharge adjusting part 210 can discharge the liquid in the liquid reservoir 202 to the toilet tank 60 by interlocking with the flushing water discharge operation of the toilet tank 60. The liquid discharge hole 202a may be provided with a valve (not shown) capable of controlling opening and closing.

However, without being limited thereto, it is also possible to cause the flushing water in the toilet tank 60 to be discharged to the toilet hole 52 by an operation after the user uses the toilet, and then to not store the flushing water but maintain the empty state, and when the inductive sensor 120 senses that someone is used, the liquid discharge adjustment part 210 discharges the liquid in the liquid storage tank 202 to the toilet tank 60 and stores the flushing water.

That is, if a user discharges flush water in the toilet tank 60 by an operation after using a toilet, discharges the liquid in the reservoir 202 to the toilet tank 60 and stores the flush water again, since the liquid in the reservoir 202 is a liquid in which polluted air is dissolved, malodor may be generated in the toilet tank 60. Therefore, after discharging the flushing water in the toilet tank 60, instead of immediately discharging the liquid in the liquid storage tank 202 to store the flushing water again, the flushing water is not immediately stored until the liquid in the liquid storage tank 202 is discharged to the toilet tank 60 when sensing that someone is used, so that the malodor phenomenon caused by the liquid can be minimized. The liquid filled in the toilet tank 60 is discharged as flushing water from the toilet bowl hole 52 based on the sensed user operation.

Further, the liquid discharge adjustment part 210 may include a contamination degree sensor (not shown). A contamination level sensor (not shown) may sense a contamination level in the liquid storage tank 202 and determine whether the sensed contamination level exceeds a predetermined threshold contamination level. When the sensed contamination degree exceeds the preset critical contamination degree, the liquid discharge adjustment part 210 opens the liquid discharge hole 202a and discharges the liquid in the liquid storage tank 202 toward the toilet tank 60.

In a state where the toilet tank 60 is filled with flush water, if liquid is discharged from the reservoir 202 to the toilet tank 60, the toilet tank 60 may be provided to discharge the stored flush water to the toilet hole 52. That is, the toilet tank 60 may be provided to discharge the flushing water by interlocking with the liquid discharge operation of the liquid discharge adjustment part 210.

Communication means for performing mutual communication (e.g., wireless communication or wired communication, etc.) may be provided between the liquid discharge adjustment part 210 and the toilet tank 60. When the flush water in the toilet tank 60 is discharged toward the toilet hole 52, the toilet tank 60 may generate a flush water discharge signal and transmit it to the liquid discharge regulation part 210. Further, when the liquid in the liquid storage tank 202 is discharged to the toilet tank 60, the liquid discharge adjustment part 210 generates a liquid discharge signal and transmits it to the toilet tank 60.

As described above, the liquid in the liquid storage tank 202 is discharged to the toilet tank 60 as the flush water according to the preset rule, so that the contaminated air in the toilet hole 52 and the contaminated air in the contaminated space S can be naturally treated based on the user' S toilet use.

The liquid supply adjusting unit 212 can adjust the liquid supplied into the tank 202. In an exemplary embodiment, the liquid supply regulator 212 may supply the liquid inside the tank 202 when the liquid inside the tank 202 drops below a preset level. For example, the liquid supply regulation part 212 may include a rainwater storage part for storing rainwater.

Here, although the case where the liquid storage tank 202 is connected to one toilet stool (toilet stool tank) is illustrated, it is not limited thereto, and the liquid storage tank 202 may be connected to a plurality of toilet stools (toilet stool tanks).

FIG. 10 is a block diagram illustrating an exemplary computing environment 10 incorporating a computing device suitable for use in the exemplary embodiments. In the illustrated embodiment, each component may have functions and capabilities different from those described below, and may include other components in addition to those described below.

The illustrated computing environment 10 includes a computing device 12. In one embodiment, the computing device 12 may be an air purification processing device 200.

Computing device 12 includes at least one processor 14, a computer-readable storage medium 16, and a communication bus 18. Processor 14 may cause computing device 12 to operate in accordance with the exemplary embodiments described above. For example, the processor 14 may execute at least one program stored in the computer readable storage medium 16. The at least one program may include at least one computer-executable instruction that may be configured to cause computing device 12 to perform operations according to exemplary embodiments when executed based on processor 14.

Computer-readable storage medium 16 is used to store computer-executable instructions or even program code, program data, and/or other suitable forms of information. The program 20 stored on the computer readable storage medium 16 comprises a set of instructions executable by the processor 14. In an embodiment, the computer-readable storage medium 16 may be a storage medium such as a memory (volatile memory such as random access memory, non-volatile memory, or a suitable combination thereof), at least one magnetic disk storage device, an optical disk storage device, a flash memory device, or other form of storage medium or suitable combination thereof that is accessible to the computing apparatus 12 and that may store the desired information.

A communication bus 18, including the processor 14, the computer-readable storage medium 16, interconnects the other various components of the computing device 12.

The computing device 12 may also include one or more input output interfaces 22 and one or more network communication interfaces 26 that provide an interface for one or more input output devices 24. The input/output interface 22 and the network communication interface 26 are connected to the communication bus 18. The input output device 24 may be connected to other components of the computing device 12 via the input output interface 22. Exemplary input and output devices 24 may include devices such as a pointing device (mouse or touch pad, etc.), a keyboard, a touch input device (touch pad or touch screen, etc.), a voice or sound input device, various sensor devices and/or input devices such as cameras, and/or a display device, a printer, speakers, and/or an output device such as a network card. Exemplary input/output device 24 may be included within computing device 12 as a component that forms computing device 12, and may also be connected to computing device 12 as a separate device distinct from computing device 12.

Although the representative embodiments have been described in detail, those skilled in the art to which the present invention pertains will appreciate that the embodiments described above can be modified in many ways without departing from the scope of the present invention. Therefore, the scope of the claims of the present invention should not be limited to the above-described embodiments, but should be determined with reference to the scope of the claims and the scope equivalent to the claims.

Claims (15)

1. An air purification treatment device comprising:

a liquid storage tank in which liquid is stored;

a first air purification processing unit provided inside the liquid storage tank;

a first air passage part having one end connected to the contaminated space and the other end connected to the first air purification processing part;

a first air suction unit which sucks in polluted air in the polluted space and causes the sucked polluted air to flow into the first air purification processing unit through the first air passage unit;

a connection hose for connecting a toilet tank and the liquid storage tank; and

a liquid discharge adjusting part discharging the liquid in the liquid storage tank to the toilet tank through the connection hose.

2. The air purification treatment apparatus according to claim 1, wherein the first air purification treatment unit is configured to dissolve contaminated air flowing in through the first air passage unit into the liquid in the reservoir.

3. The air purification treatment apparatus according to claim 2, wherein the first air purification treatment unit is configured to cause the liquid to flow into the interior of the first air purification treatment unit by communicating the interior of the first air purification treatment unit with the interior of the reservoir, and to discharge the contaminated air flowing in through the first air passage unit to the liquid inside the first air purification treatment unit or to the internal space of the first air purification treatment unit.

4. The air cleaning apparatus according to claim 1, wherein the liquid discharge adjustment portion is provided to discharge the liquid in the reservoir toward the toilet tank by interlocking with a flushing water discharge operation of the toilet tank.

5. The air purification treatment apparatus of claim 1, wherein the liquid discharge adjustment part is configured to discharge the liquid in the reservoir tank toward the toilet tank when a contamination degree in the reservoir tank exceeds a preset critical contamination degree.

6. The air cleaning apparatus of claim 5, wherein the toilet tank is provided to discharge the flushing water by interlocking with the liquid discharge operation of the liquid discharge adjustment part.

7. The air cleaning apparatus of claim 1, wherein the liquid discharge adjustment part is provided to discharge the liquid in the liquid storage tank toward the toilet tank when a user is sensed in a state where the toilet water in the toilet tank has been discharged based on an operation of the user.

8. The air purification treatment apparatus as claimed in claim 1, further comprising a liquid supply adjustment part for supplying liquid to the inside of the reservoir when the liquid in the reservoir is lower than or equal to a preset water level.

9. The air purification treatment apparatus of claim 1, wherein the contaminated space is an inner space of a toilet body connected to the toilet tank.

10. The air purification treatment device as claimed in claim 9, wherein the air purification treatment device further comprises:

a partition wall provided along an upper end frame portion of the toilet bowl main body inside the upper end frame portion for connecting an upper surface and a lower surface of the upper end frame portion;

a first flow passage provided along the upper rim portion outside the partition wall and communicating with the interior of the toilet main body; and

a second flow passage provided along the upper rim portion inside the partition wall and communicating with the interior of the toilet bowl main body.

11. The air purification treatment device as claimed in claim 10, wherein the air purification treatment device further comprises:

at least one flushing water discharge hole provided on the first flow passage for discharging flushing water of the toilet tank toward an inside of the toilet main body; and

at least one contaminated air inflow hole provided on the second flow path for allowing contaminated air inside the toilet bowl main body to flow in,

one end of the first air passage portion is provided to communicate with the interior of the second flow passage.

12. The air purification treatment apparatus of claim 9, further comprising a contaminated air suction pipe coupled to one end of the first air passage part and sucking contaminated air inside the toilet bowl main body based on an operation of the first air suction part.

13. The air purification treatment apparatus of claim 12, wherein the contaminated air intake duct further comprises:

a connection pipe connected to one end of the first air passage part; and

a suction protruding pipe which communicates with the connection pipe and is disposed downward at an end of the connection pipe to face an inside of the toilet bowl main body.

14. The air purification treatment apparatus as claimed in claim 1, wherein the air purification treatment apparatus further comprises:

a second air purification processing part arranged in the toilet water tank;

a second air passage part, one end of which is communicated with the inside of the toilet main body, the toilet main body is connected with the toilet water tank, and the other end is connected with the second air purification treatment part; and

a second air suction part which sucks in the polluted air inside the toilet body through the second air passage part and makes the sucked polluted air flow into the second air purification treatment part.

15. The air purification treatment device as claimed in claim 14, wherein the air purification treatment device further comprises:

a third air passage part having one end connected to the second air purification processing part and the other end connected to the first air purification processing part; and

and a third air suction unit for allowing the polluted air in the second air purification unit to flow into the first air purification unit through the third air passage unit.

Images