CN220978554U - Bathroom intelligent integrated toilet wall - Google Patents

Abstract

The utility model discloses an intelligent integrated toilet wall for bathroom, which comprises a frame and a plate body, wherein the outer side surface of the plate body comprises a dry area surface and a wet area surface, the frame and the plate body are connected and form a mounting cavity, an air treatment system, an air valve air duct system and a controller are arranged in the mounting cavity, the air treatment system is provided with a treatment channel, the air valve air duct system comprises a dry area pipeline system, a wet area pipeline system and a control valve, the dry area pipeline system and the wet area pipeline system are respectively provided with an air return opening, an air outlet, an air inlet pipeline and an air outlet pipeline, the air return opening is communicated with the air inlet pipeline, the air outlet is communicated with the air outlet pipeline, the treatment channel is respectively communicated with the air inlet pipeline and the air outlet pipeline through the control valve, the dry area pipeline system is arranged corresponding to the dry area surface, and the wet area pipeline system is arranged corresponding to the wet area surface; the controller is electrically connected with the air treatment system and the control valve. The utility model solves the problems of slow dehumidifying effect, low purifying efficiency and low air fluidity of the traditional toilet wall on bathroom spaces.

Description

Bathroom intelligent integrated toilet wall

Technical Field

The utility model belongs to the technical field of bathrooms, and particularly relates to an intelligent integrated toilet wall for bathrooms.

Background

With the improvement of living standard, people are more and more focused on bathroom space. As is known, the bathroom space has low utilization rate, is a place integrating multiple functions and water and electricity, and is used for toilet, bath, washing and the like in the bathroom.

At present, although the existing toilet wall can solve the problems of poor air fluidity and overhigh air humidity of a bathroom space, the existing toilet wall is carried out aiming at the whole bathroom space in actual use, and the problems of slow dehumidification effect, low purification efficiency and still low air fluidity of the bathroom space are easily caused due to the large bathroom space.

Disclosure of utility model

The utility model aims to provide an intelligent integrated toilet wall for a bathroom, which aims to solve the problems of slow dehumidifying effect, low purifying efficiency and low air flowability of the conventional toilet wall on the bathroom space.

The technical scheme adopted for solving the technical problems is as follows:

The utility model discloses an intelligent integrated toilet wall for bathroom, which comprises a frame and a plate body, wherein the outer side surface of the plate body is a mounting surface, the mounting surface comprises a dry area surface for mounting a toilet and a wet area surface for mounting a shower head, the frame is connected with the inner side surface of the plate body, a mounting cavity is formed, and the mounting cavity is internally provided with:

an air treatment system having a treatment tunnel capable of purifying, dehumidifying and heating air;

The air valve air duct system comprises a dry area pipeline system, a wet area pipeline system and a control valve, wherein the dry area pipeline system and the wet area pipeline system are respectively provided with an air return opening, an air outlet, an air inlet pipeline and an air outlet pipeline, the air return opening is communicated with the air inlet pipeline, the air outlet is communicated with the air outlet pipeline, the air treatment system comprises an air inlet and an air outlet which are both communicated with the treatment channel, the air inlet is communicated with the air inlet pipeline through the control valve, the air outlet is communicated with the air outlet pipeline through the control valve, the dry area pipeline system is arranged corresponding to the dry area surface, and the wet area pipeline system is arranged corresponding to the wet area surface;

And the controller is electrically connected with the air treatment system and the control valve respectively.

The utility model has at least the following beneficial effects: people can lay and install various bathroom articles on the wet area surface corresponding to the bathroom wet area and the dry area surface corresponding to the bathroom dry area according to actual needs.

The filtering function of the air treatment system can purify the air in the bathroom space and improve the quality of the bathroom air. The dehumidifying function can dry moist air, so that bacteria breeding and mildew caused by the moist air spreading in the bathroom space are prevented. The warm air function can raise the temperature of the bathroom space, is convenient for people to bathe or wash in the bathroom in winter, can also act on the wet bathroom space, and accelerates the drying rate of wet floors and walls.

The wet area pipeline system and the dry area pipeline system are respectively paved in the wet area and the dry area of the bathroom by the air valve air duct system, and people can control the use and circulation of the air valve air duct system and the air treatment system through the controller, so that people can carry out air treatment on different conditions and different areas according to actual demands, and the air treatment areas are accurately corresponding to the wet area, the dry area or the whole bathroom space of the bathroom, so that the environmental demands are rapidly met, the energy consumption is saved, the dehumidification, filtration or warm air effect is improved, and the purification efficiency is improved.

As a further improvement of the technical scheme, the dry area is provided with a closestool, the closestool is provided with a closestool cavity, the closestool is provided with an exhaust port communicated with the closestool cavity, a near-suction pipeline and a communication valve are further arranged in the installation cavity, one end of the near-suction pipeline is communicated with the exhaust port, the other end of the near-suction pipeline is communicated with an air inlet pipeline corresponding to the dry area pipeline system through the communication valve, and the communication valve is electrically connected with the controller.

Through the arrangement, people can control the control valve and the communication valve through the controller, so that the air treatment system, the dry area pipeline system and the near-suction pipeline are mutually communicated and the air treatment system is started, and the air treatment system can provide negative pressure for the return air inlet and the near-suction pipeline, so that peculiar smell gas in the toilet cavity can flow to the air treatment system through the near-suction pipeline and the air inlet pipeline, and the air treatment system is purified in the treatment channel. Therefore, the air treatment system can quickly absorb and treat odor generated during excretion of people or odor generated by a closestool, reduce odor diffusion and diffusion, and improve the air quality of a bathroom dry area.

As a further improvement of the technical scheme, the air treatment system is provided with one air inlet pipeline, two air inlet pipelines are communicated with an air inlet of the air treatment system through the same control valve, and two air outlet pipelines are communicated with an air outlet of the air treatment system through the other control valve.

Through above-mentioned setting, under daily circumstances, an air treatment system can satisfy people to the air treatment demand in bathroom space, saves air treatment system's laying cost, and can avoid the pipeline too much to lead to the too big area of laying of bathroom intelligent integrated closestool wall.

As a further improvement of the technical scheme, the air treatment system comprises a shell, a treatment fan, a dehumidification assembly, a warm air assembly and a filtering assembly, wherein the shell is provided with a treatment channel, the treatment fan is arranged in the treatment channel, and the filtering assembly, the dehumidification assembly and the warm air assembly are all arranged in the treatment channel and sequentially arranged from the air inlet to the air outlet.

Through the arrangement, the air sucked by the negative pressure of the treatment fan flows into the shell and then sequentially flows through the filtering component, the dehumidifying component and the warm air component in the shell, so that the inflowing air is sequentially purified, dehumidified and heated. People can also select a single or a plurality of air treatment functions through the controller, so that the air can be dehumidified, warmed air or filtered independently, and the corresponding treatment functions can be sequentially carried out.

As a further improvement of the technical scheme, an air outlet main pipe is arranged between the air outlet of the air treatment system and the control valve.

Through above-mentioned setting, the air-out house steward is used for reducing the length of laying of two air-out pipelines, and then reduces the occupation space of air-out pipeline, makes the space of installation cavity clean and tidy, orderly.

As a further improvement of the technical scheme, the air return port is positioned above the air outlet, and the air return port and the air outlet corresponding to the dry area pipeline system are respectively positioned at the same horizontal height with the air return port and the air outlet corresponding to the wet area pipeline system.

Through the arrangement, the heights of the two air return openings are consistent, so that air can be conveniently sucked at the same height of the bathroom space, the heights of the two air outlets are consistent, air can be conveniently discharged at the same height of the bathroom space, the air circulation of a bathroom dry area and a bathroom wet area is uniform, the plate body is convenient to clean and unify, and the attractive appearance is high; the lower margin air-out makes the air return and air-out down, and the hot air of follow air outlet exhaust rises, and then realizes the upper and lower temperature in bathroom space even, furthest solves the cold foot thermal head of current warm braw system, the difficult problem that the travelling comfort is poor.

As a further improvement of the technical scheme, the plate body comprises a skirting line decorative plate positioned at the lower end, and the two air outlets are arranged on the skirting line decorative plate. The air outlet is hidden through the skirting decorative plate, so that the surface of the plate body is tidy and uniform.

As a further improvement of the above technical solution, the frame is provided with a shower area niche and a toilet area niche, which are open towards the plate body, and the plate body is provided with a first through hole and a second through hole corresponding to the shower area niche and the toilet area niche, respectively.

Through above-mentioned setting, shower district alcove sets up in the bathroom wet area, and closestool district alcove sets up in the bathroom dry area for shower articles or cleaning products provide and place the space, make people need not to drill on the plate body and install and put the frame, simple structure facilitates the use.

As a further improvement of the technical scheme, the frame is connected with the flavoring component, the flavoring component comprises a fragrance machine and a fragrance bottle, the feeding hole and the discharging hole of the fragrance machine are communicated with the toilet area niche, and the fragrance bottle is connected with the feeding hole of the fragrance machine in the toilet area niche.

Through above-mentioned setting, the perfuming subassembly is favorable to improving the air quality in the bathroom, and the champignon machine makes champignon molecule diffusion to the air in bathroom space through champignon bottle feeding, carries out the aroma enhancement treatment to the air to improve the use travelling comfort when people use the bathroom space.

As a further improvement of the above technical solution, a first communication pipe is arranged between the air outlet pipe corresponding to the wet area pipe system and the shower area niche, and a second communication pipe is arranged between the air outlet pipe corresponding to the dry area pipe system and the toilet area niche.

Through the arrangement, the wet floor of the bathroom wet area is heated and dried by utilizing the wet area pipeline system, and meanwhile, the air treatment can be carried out on the niche of the shower area, so that the situation that the niche of the shower area is easy to generate humid bacteria is avoided; when the bathroom dry area moist ground is heated and dried by utilizing the dry area pipeline system, the air at the niche of the toilet area can be treated, so that the cleaning articles at the niche of the toilet area are prevented from being wet and moldy, and peculiar smell is diffused.

Drawings

The utility model is further described below with reference to the drawings and examples;

Fig. 1 is a schematic front view of a bathroom intelligent integrated toilet wall rock removal plate provided by an embodiment of the utility model;

FIG. 2 is a schematic view of a plate according to an embodiment of the present utility model;

FIG. 3 is a schematic view of the structure of the system and components provided in the embodiment of the utility model;

fig. 4 is a schematic structural view of a frame according to an embodiment of the present utility model.

The figures are marked as follows:

100. bathroom intelligent integrated toilet wall;

200. A plate body; 211. a toilet bowl; 212. a shower head; 213. a help button; 220. a rock plate; 230. a midline decorative plate; 240. a skirting line decorative plate; 250. a first through hole; 260. a second through hole;

300. A frame; 310. a mounting cavity; 320. an air outlet joint; 330. an air inlet connector; 340. a shower area niche; 350. a toilet area niche;

400. An air treatment system; 410. a treatment fan; 420. a filter assembly; 430. a heat exchanger;

500. An air valve air duct system; 510. a dry zone piping system; 520. wet zone piping; 530. an air return port; 540. an air outlet; 550. an air inlet pipeline; 560. an air outlet pipeline; 570. a control valve; 580. an air outlet main pipe;

600. a toilet bowl near-suction ventilation system; 610. a proximal suction conduit;

700. A perfuming assembly; 710. an aromatherapy machine; 720. an aromatherapy bottle;

810. A power supply placing area; 820. a highly integrated electronic box;

900. And a drainage system at the same layer.

Detailed Description

Reference will now be made in detail to the present embodiments of the present utility model, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present utility model, but not to limit the scope of the present utility model.

In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, if there is a word description such as "a plurality" or the like, the meaning of the plurality is one or more, the meaning of the plurality is two or more, and greater than, less than, exceeding, etc. are understood to exclude the present number, and above, below, within, etc. are understood to include the present number. The description of first, second, and third is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of technical features indicated.

It should be noted that, in the drawing, the X direction is from the rear side to the front side of the intelligent integrated toilet wall; the Y direction is from the left side to the right side of the intelligent integrated toilet wall of the bathroom; the Z direction is from the underside of the intelligent integrated toilet wall to the upper side.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Referring to fig. 1 to 4, a number of embodiments of the intelligent integrated toilet wall for bathroom according to the present utility model are shown below.

As shown in fig. 1 to 4, the intelligent integrated toilet wall 100 for bathroom according to the embodiment of the present utility model comprises a frame 300 and a plate 200, wherein the outer side surface of the plate 200 is a mounting surface, the mounting surface is provided with bathroom articles, the mounting surface comprises a dry area surface for mounting a toilet 211 and a wet area surface for mounting a shower head 212, the dry area surface is correspondingly arranged in a bathroom dry area, the wet area surface is correspondingly arranged in a bathroom wet area, the inner side surfaces of the frame 300 and the plate 200 are connected, a mounting cavity 310 is formed, and an air treatment system 400, an air valve air duct system 500 and a controller are arranged in the mounting cavity 310.

Wherein the air treatment system 400 has treatment channels that can purify, dehumidify and heat the air. When the purifying function is used, the air in the bathroom space can be filtered, so that the air quality of the bathroom space is improved; when the dehumidifying function is used, the moist air can be dried, so that bacteria breeding and mildew caused by the fact that the moist air is diffused in a bathroom space are prevented; when the heating function is used, the temperature of the bathroom space can be increased, so that people can conveniently take a bath or wash in a bathroom in winter.

In addition, as shown in fig. 3, the air valve air duct system 500 includes a dry area duct system 510 and a wet area duct system 520, the dry area duct system 510 and the wet area duct system 520 are respectively provided with an air return 530, an air outlet 540, an air inlet 550 and an air outlet duct 560, the air return 530 is communicated with the air inlet duct 550, the air outlet 540 is communicated with the air outlet duct 560, the air treatment system 400 is located between the air inlet duct 550 and the air outlet duct 560, the air treatment system 400 includes an air inlet and an air outlet which are both communicated with the treatment channel, the air inlet is communicated with the air inlet duct 550, the air outlet is communicated with the air outlet duct 560, the air return 530 and the air outlet 540 corresponding to the dry area duct system 510 are both arranged on the dry area surface, and the air return 530 and the air outlet 540 corresponding to the wet area duct system 520 are both arranged on the wet area surface.

It will be appreciated that both the return air inlet 530 and the air outlet 540 are provided in the panel 200, and that air is drawn into or out of the damper duct system 500 through the panel 200, as shown in fig. 1 and 2.

It will be appreciated that the air in the dry or wet bathroom area enters the air inlet duct 550 from the return air inlet 530, enters the air treatment system 400 from the air inlet duct 550, is treated and then flows from the air outlet duct 560 to the air outlet 540, and the treated air is discharged from the air outlet 540 to the dry or wet bathroom area.

When the air treatment system 400 is started, the dry zone duct system 510 can suck the air of the dry zone of the bathroom through the corresponding return air inlet 530, and discharge the air from the air outlet 540 on the dry zone surface after treatment, so as to accelerate the air circulation speed of the dry zone of the bathroom.

When the air treatment system 400 is started, the wet area duct system 520 can suck the air of the bathroom wet area through the corresponding return air inlet 530 and discharge the air from the air outlet 540 of the bathroom wet area after treatment, so as to accelerate the air circulation speed of the bathroom wet area.

By laying the dry zone duct system 510 and the wet zone duct system 520 in the bathroom dry zone and the bathroom wet zone, respectively, when people use only the bathroom dry zone or the bathroom wet zone, the air of the bathroom dry zone or the air of the bathroom wet zone can be independently treated, thereby improving the air circulation rate and the air treatment effect.

It will be appreciated that the air valve duct system 500 further includes a control valve 570, the control valve 570 is electrically connected to the controller, and one can control the opening and closing of the control valve 570 through the controller to control the air treatment system 400 to communicate with the dry zone duct system 510 and/or the wet zone duct system 520, so as to control the air treatment effect of the dry zone or the wet zone of the bathroom, and the operation is simple and quick. The control valve 570 may be a valve body such as a three-way valve, a solenoid valve, etc., and in this embodiment, the control valve 570 is a three-way valve, as shown in fig. 3.

It will be appreciated that the air inlet duct 550 corresponding to the dry zone duct system 510 and the air inlet duct 550 corresponding to the wet zone duct system 520 are in communication with the air inlet of the air treatment system 400 via the control valve 570; the air outlet pipeline 560 corresponding to the dry area pipeline system 510 and the air outlet pipeline 560 corresponding to the wet area pipeline system 520 are communicated with each other, and the two are communicated with the air outlet of the air treatment system 400 through another control valve 570.

It will be appreciated that the controller is electrically connected to the air treatment system 400, and that one can control the switching of the air treatment system 400 and the use of the functions via the controller. The controller is electrically connected to the damper duct system 500, and one can control whether the dry zone duct system 510 and the wet zone duct system 520 are in communication with the air treatment system 400 via the controller to control whether the air treatment system 400 is acting on the dry zone of the bathroom, the wet zone of the bathroom, or the entire bathroom space. In this embodiment, people can carry out air treatment to different situations and different areas according to the actual demand to realize satisfying the environmental demand fast.

It will be appreciated that when people drain daily, the air treatment system 400 and the control valve 570 are opened by the controller to communicate the air treatment system 400 with the dry zone pipe system 510, and a filtering function is applied to enable the flavored air diffused in the bathroom dry zone to be filtered quickly, thereby effectively improving the air circulation rate and enhancing the purification effect.

It will be appreciated that when a person is bathing, the air treatment system 400 and the control valve 570 can be opened by the controller to communicate the air treatment system 400 with the wet area pipe system 520 and apply a dehumidifying function to enable the humid air diffused in the wet area of the bathroom to be dried quickly, reduce the diffusion of the humid air to the dry area of the bathroom, and prevent the bathroom products or equipment in the dry area of the bathroom from being affected by the humid air to be wetted and corroded, thereby affecting the service life.

It will be appreciated that during a bath, the air treatment system 400 and the control valve 570 may be opened by the controller to allow the air treatment system 400 to communicate with the dry zone duct system 510 and the wet zone duct system 520 and to apply the dehumidification and warm air functions to convert the humid air of the bathroom wet zone into dry hot air and to increase the overall temperature of the bathroom space to avoid a person catching a cool during a bath.

It will be appreciated that after a person has had his or her bath or washing, the controller may turn on the air treatment system 400 and allow the air treatment system 400 to communicate with the wet zone duct system 520 or the dry zone duct system 510 and apply a warm air function to blow hot air out so that the wet floor of the bathroom wet zone or the wet counter top of the bathroom dry zone can be quickly dried to reduce bacterial growth or mold growth.

It should be noted that, the control manner of the controller does not belong to the protection scope of the present utility model, and belongs to the prior art. The utility model mainly protects the connection mode of the controller.

In this embodiment, the bathroom accessory includes a toilet 211, a shower head 212 and a help button 213, the toilet 211 is located in a bathroom dry area, the shower head 212 and the help button 213 are located in a bathroom wet area, so as to reduce water erosion of the bathroom accessory in the bathroom dry area, and improve the service life of the bathroom accessory in the bathroom dry area.

It can be appreciated that if people fall carelessly while bathing, help seeking signals can be sent by pressing the help seeking button 213, so that families or properties can find and provide help in time.

It can be understood that people can also install high-end bathroom articles such as intelligent towel racks, handrails, bathroom cabinets, intelligent taps, artistic intelligent magic mirrors and the like on the outer sides of the plate bodies 200 corresponding to the bathroom dry area and the bathroom wet area according to actual demands.

It can be appreciated that the toilet 211 is installed on the dry area, the toilet 211 has a toilet cavity, the toilet 211 is provided with an exhaust port communicated with the toilet cavity, and the toilet 211 can directly and rapidly exhaust the odor in the toilet cavity through the exhaust port.

Further, the mounting cavity 310 is further provided with a toilet near-suction ventilation system 600, the toilet near-suction ventilation system 600 comprises a near-suction pipeline 610 and a communication valve, one end of the near-suction pipeline 610 is communicated with an air inlet pipeline 550 corresponding to the dry area pipeline system 510 through the communication valve, the other end of the near-suction pipeline 610 is communicated with a near-suction port, the near-suction port is communicated with an exhaust port on the rear side surface of the toilet 211, and the communication valve is electrically connected with a controller, as shown in fig. 1 and 3.

It will be appreciated that when the controller controls the air treatment system 400 to start and communicate with the dry zone duct system 510, the negative pressure of the air treatment system 400 will draw air at the return air inlet 530 and air in the toilet chamber into the air inlet duct 550 and the suction duct 610, respectively, and the air flows along the suction duct 610 to the air inlet duct 550, and is purified by the air treatment system 400 at the end of the air inlet duct 550. Because the exhaust port is communicated with the toilet bowl cavity, the near-suction pipe 610 can quickly suck the odor generated by people or the odor generated by the toilet bowl 211 into the air treatment system 400 to be quickly treated, so that the diffusion and diffusion of the odor are reduced, and the air quality of the dry area of the bathroom is improved.

In this embodiment, since the toilet 211 is installed on the dry area of the board 200, the near suction opening is hidden on the rear side of the toilet 211, and the near suction duct 610 is penetrated through the board 200, so that the board 200 can be perforated when the toilet 211 is installed, and the near suction duct 610 can penetrate out of the dry area, thereby not only rapidly discharging odor excreted by people or generated by the toilet 211, but also avoiding the near suction opening from being exposed on the board 200 suddenly, and affecting the aesthetic property of the board 200.

In some embodiments, the air treatment system 400 has two dry zone ductwork 510 and wet zone ductwork 520, each equipped with one air treatment system 400, such that the dry zone ductwork 510 and wet zone ductwork 520 are independently configured to allow the damper duct system 500 to be more easily installed in the installation cavity 310 and to provide better air treatment of the bathroom dry and wet zones.

In this embodiment, the air treatment system 400 is provided with one, i.e., the dry zone duct system 510 and the wet zone duct system 520, sharing one air treatment system 400, as shown in fig. 1 and 3. Specifically, the two air inlet pipelines 550 are communicated with the air inlet of the air treatment system 400 through the same control valve 570, the two air outlet pipelines 560 are communicated with the air outlet of the air treatment system 400 through the other control valve 570, and under the daily condition, people can use the bathroom dry area and the bathroom wet area simultaneously only under fewer conditions, so that one air treatment system 400 can meet the air treatment requirement of people on the bathroom space, the laying cost of the air treatment system 400 is saved, and the overlarge laying area of the bathroom intelligent integrated toilet wall 100 can be avoided.

In this embodiment, the air treatment system 400 includes a housing, a treatment fan 410, a dehumidification assembly, a warm air assembly, and a filter assembly 420, as shown in FIG. 3. The casing is provided with a treatment channel, an air inlet of the treatment channel is communicated with the two air inlet pipelines 550 through the control valve 570, an air outlet of the treatment channel is communicated with the two air outlet pipelines 560 through the control valve 570, the treatment fan 410 is arranged in the treatment channel, and the treatment fan 410 provides negative pressure power for air circulation. The filter assembly 420, the dehumidification assembly, and the warm air assembly are all disposed within the process tunnel and may be disposed between the process fan 410 and a control valve 570 in communication with the air intake duct 550, or between the process fan 410 and a control valve 570 in communication with the air outlet duct 560, respectively.

It will be appreciated that the filter assembly 420 is disposed near the control valve 570 of the air inlet pipe 550, so that the air flowing in can be filtered and deodorized preferentially, so as to effectively remove dust and odor in the air, improve air quality, and effectively improve air environment of the bathroom space, and the filter assembly 420 can be a filled activated carbon adsorbent or an ozone deodorizer.

It can be understood that the dehumidifying component and the warm air component are both heat exchangers 430, as shown in fig. 3, a compressor in the heat exchangers 430 is started to condense water vapor in the air into condensed water, remove water in the air, and then heat the air to the original temperature by heating, thereby realizing the dehumidifying function. The warm air component can control the heating temperature through the controller so as to heat and raise the temperature of the air and improve the environmental temperature of the bathroom space.

In this embodiment, the filter assembly 420, the dehumidifying assembly and the warm air assembly are sequentially arranged from the air inlet to the air outlet of the processing channel, so that the air is subjected to dust removal and odor removal treatment preferentially after entering the processing channel, and the temperature of the air is raised again after the humidity of the air is reduced.

Further, a refrigeration assembly is included in the air treatment system 400. In summer, because the time required for defecation is long, the ambient temperature is not greatly reduced by ventilation and air purification, and people can easily sweat a large amount when defecating in a hot environment. The refrigeration assembly can convert the hot air into cold air, thereby reducing the ambient temperature of the dry bath room area and making the defecation of people comfortable.

It will be appreciated that the refrigeration, dehumidification and warm air components share a common set of heat exchangers 430, saving equipment costs. The heat exchanger 430 is a prior art, and the present utility model does not improve the structure of the heat exchanger 430, so those skilled in the art should understand the structure and principle of the heat exchanger 430, and will not be explained in detail herein.

Further, an outlet manifold 580 is provided between the control valve 570 and the outlet of the air handling system 400, as shown in FIG. 3. The air outlet main pipe 580 is used for reducing the laying length of the two air outlet pipelines 560, so as to reduce the occupied space of the air outlet pipelines 560, and enable the space of the installation cavity 310 to be tidy and orderly.

Further, the air return openings 530 and the air outlet 540 corresponding to the dry area pipe system 510 are respectively located at the same level with the air return openings 530 and the air outlet 540 corresponding to the wet area pipe system 520, so that the two air return openings 530 are located at the same level, the two air outlet 540 are located at the same level, and the board 200 is clean and uniform and has high aesthetic property.

Further, the return air inlet 530 is located above the air outlet 540. Specifically, the return air inlet 530 of the dry area pipe system 510 is higher than the air outlet 540 thereof, the return air inlet 530 of the wet area pipe system 520 is higher than the air outlet 540 thereof, so that the air is returned upward and exhausted downward, and the hot air exhausted from the air outlet 540 is raised, thereby realizing uniform upper and lower temperatures of the bathroom space and solving the problems of cold foot, hot head and poor comfort of the existing warm air system to the maximum extent.

In this embodiment, the board body 200 is sequentially laid with the rock plate 220, the middle line decorative board 230, the rock plate 220 and the foot line decorative board 240 from top to bottom, two air outlets 540 are all arranged on the foot line decorative board 240, and two air return inlets 530 are all arranged on the rock plate 220 above, as shown in fig. 2.

In some embodiments, the openings of the air inlet duct 550 and the air outlet duct 560 are disposed forward and opposite the air return 530 and the air outlet 540, respectively. However, when the above embodiment is configured, a plurality of elbow structures are required to connect the return air inlet 530 with the air inlet pipe, and the air outlet pipe 560 is connected with the air outlet 540, which may result in the shape of the air outlet 540 being circular only, and further result in the increase of the vertical length of the skirting board 240.

In this embodiment, the air inlet connector 330 for connecting the air return opening 530 with the air inlet pipe 550 and the air outlet connector 320 for connecting the air outlet 540 with the air outlet pipe 560 are set up on the frame 300, as shown in fig. 4, the air inlet pipe 550 and the air outlet pipe 560 are conveniently installed in the frame 300, and when the frame 300 is connected with the plate 200 in front-back direction, the air inlet connector 330 corresponds to the air return opening 530 in front-back direction, and the air outlet connector 320 corresponds to the air outlet 540 in front-back direction.

It will be appreciated that rock plate 220, midline decorative plate 230, and toe line decorative plate 240 are all removably attached to frame 300, thereby exposing mounting cavity 310 for ease of installation and servicing of systems, components, appliances, etc. within mounting cavity 310.

It can be appreciated that the outer side of the rock plate 220 is vacuum plated with stainless steel, so that the rock plate has no fingerprint effect and better aesthetic property.

Further, the frame 300 is provided with a shower area niche 340 and a toilet area niche 350 opened toward the board 200, and the board 200 is provided with a first through hole 250 and a second through hole 260 corresponding to the shower area niche 340 and the toilet area niche 350, as shown in fig. 1, 2 and 4.

It can be appreciated that the shower area niche 340 is disposed in the bathroom wet area and is close to the shower head 212, and the shower area niche 340 is used for providing a storage space for placing toiletries such as shower gel, so that people do not need to drill holes on the plate 200 to install the placement frame, and the shower area niche 340 is simple in structure and convenient to use.

It will be appreciated that the toilet area niche 350 is disposed in the bathroom dry area and is proximate to the toilet 211, and the toilet area niche 350 is configured to provide a storage space for cleaning agents, toilet brushes, etc., thereby avoiding the toilet brushes from being placed beside the wall and affecting the aesthetics of the bathroom.

In some embodiments, a first communication pipe is provided between the corresponding air outlet pipe 560 of the wet zone piping 520 and the shower zone niche 340. A second communication pipe is provided between the air outlet pipe 560 corresponding to the dry zone pipe system 510 and the toilet zone niche 350.

Specifically, the air outlet pipeline 560 corresponding to the wet area pipeline system 520 is communicated with the shower area niche 340 through the dehumidification pipeline, so that people can start the heat exchanger 430 after bathing, hot air can be blown to the shower area niche 340 through the dehumidification pipeline in a split flow mode when the hot air heats and dries the wet ground of the bathroom wet area, and therefore the wet shower area niche 340 is heated and dehumidified, and wet bacteria of the shower area niche 340 are avoided. At this time, the dehumidification pipe corresponding to the wet area pipe system 520 is a first communication pipe.

Specifically, the air outlet pipeline 560 corresponding to the dry area pipeline system 510 is communicated with the toilet area niche 350 through the dehumidifying pipeline, so that people can start the heat exchanger 430 after cleaning the bathroom dry area, hot air can be blown to the toilet area niche 350 through the dehumidifying pipeline in a split flow manner while heating and drying the moist ground of the bathroom dry area, and cleaning products such as toilet brushes, towels and the like in the toilet area niche 350 are heated and dehumidified, so that the cleaning products are prevented from being wet and mildewed and the odor is prevented from being emitted. At this time, the dehumidification pipe corresponding to the dry zone pipe system 510 is the second communication pipe.

Further, the frame 300 is fixedly connected with a flavoring assembly 700, the flavoring assembly 700 comprises a fragrance machine 710 and a fragrance bottle 720, a feeding hole of the fragrance machine 710 is communicated with the toilet bowl area niche 350, a discharging hole of the fragrance machine 710 is communicated with the bathroom space, and the fragrance bottle 720 is connected with the feeding hole of the fragrance machine 710 in the toilet bowl area niche 350, as shown in fig. 1 and 3.

It can be appreciated that the arrangement of the perfuming assembly 700 is beneficial to improving the air quality in the bathroom, and the aromatherapy machine 710 is fed by the aromatherapy bottle 720, so that the aromatherapy molecules are diffused into the air in the bathroom, and the air is subjected to the flavoring treatment, thereby improving the use comfort of people when using the bathroom.

It will be appreciated that the perfuming assembly 700 is disposed above the toilet bowl area niche 350, and the feeding inlet of the aromatherapy machine 710 is downwardly connected to the upper end of the toilet bowl area niche 350, so that when in installation, people can upwardly connect the aromatherapy bottle 720 to the feeding inlet of the aromatherapy machine 710 in a clamping or threaded connection manner, so that the aromatherapy bottle 720 does not need to detach the board body 200 when in replacement, and the installation is simple and convenient, as shown in fig. 1.

In some embodiments, the outlet of the aromatherapy machine 710 is turned downwards to the upper end of the toilet bowl area niche 350, and the toilet bowl area niche 350 is close to the toilet bowl 211, so that the area near the toilet bowl 211 can be flavored, and the use feeling of people can be improved.

In this embodiment, the outlet of the aromatherapy machine 710 is in communication with the outlet or outlet manifold 580 of the air treatment system 400. Because the air outlet of the air treatment system 400 and the air outlet main 580 are all the purified good air, at this time, the discharge port of the aromatherapy machine 710 performs the aroma enhancement treatment on the treated air, and the air with aromatherapy molecules flows to the bathroom dry area and the bathroom wet area through the air outlet 540, so that the diffusion effect of the aromatherapy molecules is improved, the whole bathroom space is diffused with aromatherapy smell, and the use feeling of people is improved.

It can be appreciated that the outlet of the aromatherapy machine 710 may be connected to the air outlet of the air treatment system 400 or the air outlet manifold 580 according to the laying length and the laying space of the pipeline, so as to reduce the laying length of the pipeline between the outlet manifold and the outlet manifold, and reduce the occupied space for pipeline connection.

Further, the atmosphere lamps are arranged in the shower area niche 340 and the toilet area niche 350, so that illumination is provided for the space inside the niche, the articles placed by people can be taken conveniently, warm and comfortable atmosphere can be created conveniently, and the use feeling of the intelligent integrated toilet wall 100 for the bathroom is improved.

It can be appreciated that the toilet and bathroom intelligent integrated toilet wall 100 adopts the same-layer drainage system 900, as shown in fig. 1 and 3, so that water systems such as the shower 212, the toilet 211 and the like can be flexibly arranged, pipe fittings such as elbows and water storage pipes are reduced, material cost is saved, and uniform layout is facilitated.

It will be appreciated that the toilet 211 is a wall-mounted toilet, and in particular, the toilet 211 includes a tank and a toilet seat, both of which are fixed to the frame 300 to provide support for the toilet 211.

Further, the intelligent toilet wall 100 further comprises a sensor assembly, wherein the sensor assembly comprises a temperature sensor, a humidity sensor and an infrared sensor, and the temperature sensor, the humidity sensor and the infrared sensor are electrically connected with the controller.

It is understood that one may set a first temperature and a second temperature on the controller, and when the temperature sensor detects that the ambient temperature of the toilet space is greater than the first temperature, the controller may activate the process fan 410 and the refrigeration assembly of the air treatment system 400 to cool the toilet space. When the temperature sensor detects that the ambient temperature of the bathroom space is below the second temperature, the controller controls the process fan 410 and the refrigeration assembly of the air handling system 400 to be turned off.

Similarly, the controller may also control the start and shut-down of the warm air component and the dehumidification component of the air treatment system 400 according to the set temperature and humidity, thereby enabling the use of the air treatment system 400 to be more intelligent and automated.

It will be appreciated that the infrared sensor is used to detect the presence of a person in the bathroom space and to avoid directly triggering the air handling system 400 when the ambient temperature is too high or too low.

It will be appreciated that the outer side of the board 200 is provided with a display screen, which is electrically connected to the controller, so that people can start corresponding functions or set corresponding parameters.

It will be appreciated that the mounting cavity 310 is further provided with a power placement area 810 and a highly integrated electrical box 820, as shown in fig. 1, 3 and 4, to power the smart appliances in the bathroom, and to ground the equipotential, which is safe and reliable.

While the preferred embodiment of the present utility model has been described in detail, the utility model is not limited to the embodiments, and various equivalent modifications and substitutions can be made by those skilled in the art without departing from the spirit of the utility model, and these modifications and substitutions are intended to be included in the scope of the present utility model as defined in the appended claims.

Claims (10)

1. The utility model provides an integrated closestool wall of bathroom intelligence, its characterized in that, includes frame and plate body, the lateral surface of plate body is the installation face, the installation face is including the dry district face that is used for installing the closestool and the wet district face that is used for installing the gondola water faucet, the frame with the medial surface of plate body is connected to be formed with the installation chamber, be equipped with in the installation chamber:

an air treatment system having a treatment tunnel capable of purifying, dehumidifying and heating air;

The air valve air duct system comprises a dry area pipeline system, a wet area pipeline system and a control valve, wherein the dry area pipeline system and the wet area pipeline system are respectively provided with an air return opening, an air outlet, an air inlet pipeline and an air outlet pipeline, the air return opening is communicated with the air inlet pipeline, the air outlet is communicated with the air outlet pipeline, the air treatment system comprises an air inlet and an air outlet which are both communicated with the treatment channel, the air inlet is communicated with the air inlet pipeline through the control valve, the air outlet is communicated with the air outlet pipeline through the control valve, the dry area pipeline system is arranged corresponding to the dry area surface, and the wet area pipeline system is arranged corresponding to the wet area surface;

And the controller is electrically connected with the air treatment system and the control valve respectively.

2. The intelligent integrated toilet wall of claim 1, wherein the dry area is provided with a toilet, the toilet is provided with a toilet cavity, the toilet is provided with an exhaust port communicated with the toilet cavity, a near-suction pipeline and a communication valve are further arranged in the installation cavity, one end of the near-suction pipeline is communicated with the exhaust port, the other end of the near-suction pipeline is communicated with an air inlet pipeline corresponding to the dry area pipeline system through the communication valve, and the communication valve is electrically connected with the controller.

3. The intelligent integrated toilet wall according to claim 1, wherein one air treatment system is provided with two air inlet pipelines which are communicated with an air inlet of the air treatment system through the same control valve, and two air outlet pipelines which are communicated with an air outlet of the air treatment system through the other control valve.

4. The intelligent integrated toilet wall according to claim 3, wherein the air treatment system comprises a housing, a treatment fan, a dehumidifying component, a warm air component and a filtering component, wherein the housing is provided with the treatment channel, the treatment fan is arranged in the treatment channel, and the filtering component, the dehumidifying component and the warm air component are all arranged in the treatment channel and are sequentially arranged from the air inlet to the air outlet.

5. The intelligent integrated toilet wall according to claim 4, wherein an air outlet manifold is further provided between the air outlet of the air treatment system and the control valve.

6. The intelligent integrated toilet wall according to claim 1, wherein the return air inlet is located above the air outlet, and the return air inlet and the air outlet corresponding to the dry area pipe system are located at the same level as the return air inlet and the air outlet corresponding to the wet area pipe system, respectively.

7. The intelligent integrated toilet wall according to claim 6, wherein the plate body comprises a skirting line decorative plate at the lower end, and the two air outlets are both arranged on the skirting line decorative plate.

8. The intelligent integrated toilet wall of claim 1, wherein the frame is provided with a shower area niche and a toilet area niche opening towards the plate body, and the plate body is provided with a first through hole and a second through hole corresponding to the shower area niche and the toilet area niche respectively.

9. The intelligent integrated toilet wall according to claim 8, wherein the frame is connected with a flavoring assembly, the flavoring assembly comprises a fragrance machine and a fragrance bottle, the feeding port and the discharging port of the fragrance machine are both communicated with the toilet area niche, and the fragrance bottle is connected with the feeding port of the fragrance machine in the toilet area niche.

10. The intelligent integrated toilet wall according to claim 8 or 9, wherein a first communication pipe is arranged between the air outlet pipe corresponding to the wet area pipe system and the shower area niche, and a second communication pipe is arranged between the air outlet pipe corresponding to the dry area pipe system and the toilet area niche.