CN210931210U - Self-cleaning system suitable for toilet - Google Patents
Self-cleaning system suitable for toilet Download PDFInfo
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- CN210931210U CN210931210U CN201920897995.4U CN201920897995U CN210931210U CN 210931210 U CN210931210 U CN 210931210U CN 201920897995 U CN201920897995 U CN 201920897995U CN 210931210 U CN210931210 U CN 210931210U
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Abstract
The utility model discloses a automatically cleaning system suitable for bathroom, include: the cleaning device comprises a circular floor, a driving structure and a cleaning device, wherein the plane of the circular floor is parallel to the horizontal direction; the cleaning device comprises a cleaning mechanism and a drying mechanism; the cleaning mechanism and the drying mechanism are suspended above the round floor along a first direction parallel to the round floor; the cleaning mechanism and the drying mechanism are sequentially arranged along the rotating direction of the round floor; the cleaning mechanism cleans the round floor in a rotating state; the drying mechanism dries the circular floor which is in a rotating state and is cleaned by the cleaning mechanism. The utility model makes the toilet using the utility model clean and dry; manpower cost investment is not needed, and full automation cleaning is realized; the cost is low; the toilet bowl is sanitary and healthy, has good appearance and high toilet comfort; the construction and maintenance of national public health are facilitated; the civilized image of a family, a city and even a country is improved.
Description
Technical Field
The utility model relates to a bathroom floor cleaning technical field indicates a automatically cleaning system suitable for bathroom especially.
Background
As the living standard of people is improved, the public health and health requirements are increasingly emphasized, so that whether a family public toilet shared by family people or a public toilet shared by strangers needs to invest a great deal of manpower cost or equipment cost to ensure the health and the health of the family public toilet, the existing toilet, particularly the public toilet, becomes a standard for measuring the public health and the urban civilization of a city and even a country. The sanitation and health of the toilet can be realized by arranging the toilet with a disinfection function, but the floor cleaning prior art generally realizes cleaning through manual cleaning, robot cleaning or large-amount water washing, the three cleaning modes can leave stagnant water on the floor, but the continuous flowing of people causes sludge foot prints on the ground of the public toilet due to the existence of the stagnant water, so that the public toilet is wet and muddy, the appearance is very good, and the sanitation is influenced; and the moist and muddy environment is easy to breed bacteria and mosquitoes, which is not beneficial to the public health construction and maintenance of the country and simultaneously influences the civilized image of one city and even one country; in the prior art, two toilets are alternately used to ensure the cleanness of the toilets, but the toilets have high vacancy rate, large occupied area and higher cost; therefore, how to provide a dry, comfortable and small-footprint toilet is a challenge to those skilled in the art.
Disclosure of Invention
The utility model aims at providing a self-cleaning system suitable for a toilet, which ensures that the toilet is clean and dry and is not easy to breed bacteria and mosquitoes; manpower cost investment is not needed, and full automation cleaning is realized; the cost is low; the toilet bowl is sanitary and healthy, has good appearance and high toilet comfort; the construction and maintenance of national public health are facilitated; the civilized image of a family, a city and even a country is improved; the method is suitable for families and public health, and has wide application range and strong applicability; has good market competitiveness.
The utility model provides a technical scheme as follows:
a self-cleaning system for a toilet, comprising:
the cleaning device comprises a circular floor, a driving structure and a cleaning device, wherein the plane of the circular floor is parallel to the horizontal direction;
the cleaning device comprises a cleaning mechanism and a drying mechanism;
the cleaning mechanism and the drying mechanism are both suspended above the circular floor along a first direction parallel to the circular floor;
the cleaning mechanism and the drying mechanism are sequentially arranged along the rotating direction of the round floor;
the cleaning mechanism cleans the circular floor in a rotating state;
the drying mechanism dries the round floor which is in a rotating state and is cleaned by the cleaning mechanism.
Among this technical scheme, in the rotatory in-process alright realize simultaneously the self-cleaning and the automatic drying to the floor in the floor, need not the human cost input, guaranteed floor cleanliness and the dryness factor in the bathroom simultaneously, avoided the floor of bathroom like prior art have the stagnant water to exist the humidity that appears, and because of coming and going like the lavatory life body walk and appear mud footprint, the muddy bad phenomena such as dressing of the lavatory life body of making dirty. Preferably, the utility model has short time for cleaning the round floor, and meets the requirement of the public washroom for short supply; preferably, the cleaning mechanism and the drying mechanism are suspended above the circular floor, so that resistance generated by rotation of the circular floor and scraping of the circular floor caused by rotation of the circular floor are avoided, the service life of the circular floor is prolonged, and later-stage use cost and maintenance cost of the circular floor are reduced. The toilet using the utility model is clean and dry, and bacteria and mosquitoes are not easy to breed; manpower cost investment is not needed, and full automation cleaning is realized; the cost is low; the toilet bowl is sanitary and healthy, has good appearance and high toilet comfort; the construction and maintenance of national public health are facilitated; the civilized image of a family, a city and even a country is improved; the consumed time is short, and the requirement of the region with short supply in a public washroom is met; the method is suitable for families and public health, and has wide application range and strong applicability; has good market competitiveness.
Further preferably, the washing mechanism further comprises a cleaning structure for cleaning the circular floor, and a dirt storage tank for storing the impurities and the sewage cleaned by the cleaning structure.
Among this technical scheme, wash circular floor through clean structure to accomodate debris and sewage on the circular floor through depositing dirty case, avoid debris and sewage to expose, guaranteed the cleanliness factor and the impression of bathroom.
Further preferably, the cleaning structure comprises a spray structure comprising a plurality of nozzles arranged in sequence along a first direction, and a fluid supply mechanism; the nozzle is disposed toward the circular floor and communicates with the fluid supply mechanism.
Among this technical scheme, a plurality of nozzles realize along the washing of the direction of the first direction of perpendicular to circular floor, and fluidic high-usage and quantity are few, avoid the waste of clean resource, have reduced the utility model discloses a use cost.
Further preferably, the spraying structure further comprises a plurality of rotary washing heads sequentially arranged along a first direction, and the rotary washing heads are arranged towards the circular floor; the plane of the rotation of the rotary washing head is parallel to the first direction; and/or the spraying structure further comprises a cleaning agent box used for throwing cleaning liquid to the round floor; and/or the fluid supply mechanism is a water supply pipeline communicated with a clean water pipeline, and the water supply pipeline is communicated with the spray nozzle; and/or the fluid supply mechanism comprises an electromagnetic valve, a pump and a steam generator which are arranged in sequence along the flowing direction of the liquid, and the steam generator is communicated with the nozzle.
According to the technical scheme, the plurality of rotary washing and brushing heads clean the circular floor along a plane parallel to the first direction, and the nozzles for cleaning the circular floor along a direction perpendicular to the first direction are combined, so that the cleanliness of the circular floor is greatly improved, the circular floor is cleaned twice, and the cleanliness of the circular floor is ensured. More excellent, the input of cleaning solution has further improved the utility model discloses the cleanliness factor on clean circular floor has promoted the utility model discloses a cleaning performance. Preferably, the liquid or the steam sprayed by the nozzle can clean the round floor, and the steam can further perform a high-temperature disinfection effect on the round floor, so that germs in a toilet are reduced, and the sanitation and health of the toilet are improved.
Further preferably, the cleaning structure comprises a washing and sweeping structure, the washing and sweeping structure comprises a driving mechanism and a washing and sweeping mechanism, the washing and sweeping mechanism comprises more than one washing and sweeping brushes for washing and sweeping the round floor and a shell for installing the washing and sweeping brushes; the washing and sweeping brush is axially connected with the shell; the driving mechanism drives the washing and sweeping brush to sweep the round floor and sweep sundries and sewage into the sewage storage box.
Among this technical scheme, wash the brush through more than one and present to clean in proper order the one-level and/or multistage on circular floor (satisfied the washing demand of different clean degrees), rely on and wash the brush and realize carrying debris and sewage to depositing dirty case when realizing the cleanness on circular floor, compact structure and multiple functional.
Further preferably, a crusher for crushing sundries is arranged in the dirt storage box, and the sundries are crushed by the crusher and then flow to a municipal sewage pipe network.
Among this technical scheme, because the debris of bathroom generally are breakable paper article, realize the breakage to debris through the breaker for debris form can flow to municipal sewage pipe network's size, avoided the utility model discloses need the flow and the cost input of follow-up processing after piling up the dirty case of deposit to debris, provide basic guarantee for the bathroom realizes unmanned intelligent management.
Further preferably, the circular floor is of a funnel-shaped structure, and the upper surface of the circular floor is inclined downwards from the radial direction of the outer periphery of the circular floor to the center of a circle to form a conical surface; and a sewage discharge outlet is formed in the circular floor at the vertex of the conical surface.
Among this technical scheme, be the circular conical surface through the upper surface (being close to the surface of the closestool one side that hangs promptly) with circular floor for water on the circular floor is earlier flowing and collecting towards the drain under its self action of gravity, makes the water greatly reduced that the flexible layer that absorbs water need absorb, only need play scrape dry upper surface can, greatly reduced sewage pump's output, reduced the utility model discloses a cost.
Further preferably, the drying mechanism comprises a water suction rake, a sewage pipeline and a sewage suction pump, wherein the water suction rake is attached to the round floor in the first direction; the water absorption rake is communicated with the sewage suction pump through the sewage pipeline; the sewage suction pump sucks the water in the rotating round floor through the water sucking rakes.
In this technical scheme, the utility model discloses a sewage suction pump realizes the absorption to the water on circular floor to guaranteed the degree of dryness on circular floor, avoided circular floor to appear stagnant water phenomenon because of cleaning. And the cost of the water absorption scrabbling and the sewage suction pump is low, so that the utility model has lower cost.
Further preferably, the water absorption rake comprises a flexible water absorption layer and a supporting seat; the flexible water absorption layer is arranged between the supporting seat and the round floor; the supporting seat is provided with a sewage suction cavity communicated with the sewage pipeline; and the side wall of the sewage suction cavity is provided with a through hole communicated with the flexible water absorption layer.
Among this technical scheme, the flexible layer that absorbs water makes the rigid contact who absorbs water and take off and circular floor become the flexonics, has avoided the rotatory in-process of circular floor to absorb water and take off scratch and friction to it, has reduced the rotational resistance on circular floor, has guaranteed the life on circular floor simultaneously, has reduced the utility model discloses a later stage is used and the maintenance cost.
Further preferably, the water absorption rake comprises a flexible water absorption layer, a water-blocking brush and a supporting seat; the flexible water absorption layer is arranged between the supporting seat and the round floor; the water blocking brush is arranged on the outer wall of one side, close to the cleaning mechanism, of the supporting seat, and the lower end of the water blocking brush is in contact connection with the round floor, so that a water blocking space is formed among the water blocking brush, the supporting seat and the cleaning mechanism in an enclosing manner; the supporting seat is provided with a sewage suction cavity communicated with the sewage pipeline; and a channel communicated with the water blocking space is arranged on the side wall of the sewage suction cavity.
In the technical scheme, the collection and gathering of water are realized through the water blocking space among the water blocking brush, the supporting seat and the cleaning mechanism, and the water suction power of the sewage pump is improved; meanwhile, the dryness of the flexible water absorption layer is improved, the water quantity which needs to be absorbed by the flexible water absorption layer is reduced, and the dryness of the circular floor by the flexible water absorption layer is improved; more excellent, the flexible layer that absorbs water makes the rigid contact who absorbs water and take off and circular floor become the flexonics, has avoided circular floor rotatory in-process to absorb water take off scratch and friction to it, has reduced circular floor's rotational resistance, has guaranteed circular floor's life simultaneously, has reduced the utility model discloses a later stage is used and the maintenance cost.
Further preferably, the sewage pipeline is communicated with a municipal sewage pipe network, and the sewage suction pump sucks the water on the circular floor to the municipal sewage pipe network for discharging; or the sewage pipeline is communicated with a sewage storage tank, and the sewage suction pump sucks the water on the circular floor to the sewage storage tank for storage; or the sewage pipeline is communicated with a sewage storage tank, and the sewage suction pump sucks the water on the circular floor to the sewage storage tank for storage; the sewage storage tank is sequentially provided with a sewage storage cavity, a filtering layer and a clear water storage cavity along the height direction; the clear water storage cavity is communicated with a flushing pipeline of the closestool.
In the technical scheme, the water in the toilet is generally sewage with small particle size fraction, and the water sucked by the sewage pump can be directly discharged to a municipal sewage pipe for treatment. Of course, the sewage can be stored through the sewage storage tank and can be used for later-stage sewage recovery or reuse. Certainly, the water accessible in the sewage storage box is stood and is filtered the water that forms and to wash the closestool after the clarification, has realized the utility model discloses a recycle of water resource, green, water economy resource.
Further preferably, the drying mechanism further comprises a secondary drying structure for drying the round floor; the water absorption rake and the secondary drying structure are sequentially arranged along the rotating direction of the round floor.
In the technical scheme, the secondary drying of the rotary floor is realized through the secondary drying structure, the dryness of the round floor and a toilet is further improved, the breeding of bacteria and mosquitoes is avoided, and the comfort and health of the toilet are improved.
Further preferably, the secondary drying structure comprises a fan, an electric heating sheet, a hot air exhaust pipe and a housing; the hot air discharge pipe is provided with a plurality of hot air ports which are sequentially arranged along a first direction and face the round floor; the housing is provided with an air inlet communicated with the external environment; the housing is provided with an air outlet communicated with the hot air exhaust pipe; the fan and the electric heating sheet are both accommodated in the housing and are both arranged between the air inlet and the air outlet; or, the secondary drying structure comprises an electric heat source arranged towards the round floor and a mounting bracket for mounting the electric heat source.
In this technical scheme, secondary drying accessible is hot-blast, the electric heat (like resistance wire or ultraviolet lamp etc. have the equipment of hot drying performance) realizes, and the realization mode is diversified, specifically can set up according to actual need, satisfies different customer demands.
Further preferably, the driving structure comprises a rotating shaft, a driving wheel, a driven wheel and a rotating motor; the rotating shaft is connected with the round floor; the driving wheel is in transmission connection with the driven wheel; the driving wheel is connected with the rotating motor; the driven wheel is sleeved on the outer side of the rotating shaft.
Among this technical scheme, transmission mode is simple and easily realize, and the drive wheel can be for the meshing with the transmission connection from the driving wheel or realize all can through the transmission band, and realization mode is diversified, satisfies different customer demands.
Further preferably, the floor further comprises an annular wall plate arranged around the outer side of the circular floor, and the circular floor is connected with the annular wall plate in a sealing mode; or the annular wall plate is arranged around the outer side of the circular floor, and the circular floor comprises a rotary floor and a fixed floor which are sequentially arranged along the height direction; the rotary floor is connected with the driving structure; the rotary floor is in clearance fit with the annular wall, so that a water guide space is formed among the rotary floor, the fixed floor and the annular wall, and the water guide space is communicated with a municipal sewage pipe network.
Among this technical scheme, annular wallboard makes circular floor be in one along the inclosed space internal rotation of horizontal direction, avoids splashing to outer environment and pollute other structures or article that set up in circular floor side because of the water on the centrifugal force effect leads to on the circular floor, has improved the utility model discloses a hommization, rationalization and scientific setting.
Further preferably, the cleaning device is arranged below the suspended closestool; and/or, the cleaning device also comprises a cleaning sensor used for monitoring whether the circular floor meets the preset cleaning condition, and the cleaning sensor is respectively connected with the driving structure and the cleaning device; and/or, further comprising an air purifier; and/or, further comprising a processor for characterizing a toileting status, said processor being connected to said drive mechanism, said cleaning mechanism, and said drying mechanism, respectively; and/or the drying device also comprises a lifting mechanism for driving the cleaning mechanism and/or the drying mechanism to lift along the height direction.
Among this technical scheme, with the integrated below in the closestool that hangs of cleaning device, improved the space utilization of bathroom, reduce the utility model discloses shared space volume has improved the aesthetic feeling and the impression of bathroom. Whether satisfy through wasing sensor monitoring circular floor and wash preset the condition (like the monitoring of floor cleanliness factor, whether have exist like lavatory life body and exist etc.), thereby ensure the utility model discloses high-efficient and energy-conserving from the operation, realized the intellectuality and the unmanned management in bathroom. The air purifier is used for purifying and/or conditioning the toilet, so that good conditions of sanitation, health, no peculiar smell, no toxicity and the like of the toilet are ensured. Preferably, when the driving structure and/or the washing mechanism and/or the drying mechanism are/is in the working state, the processor can give an indication whether the person to be toileted can go to the toilet or not, for example, the processor can give an indication that the toilet is in a cleaning state through a red light, and the person to be toileted cannot go to the toilet; the green light is turned on to indicate that the toilet is in an idle state, and people waiting to go to the toilet can go to the toilet. If the processor can be directly connected with the door lock, when the toilet is in a clean state, the processor locks the door until a person in the toilet can not enter the door; when the toilet is in a cleaning completion state, the processor enables the door to be in an openable state, and people waiting to go to the toilet can go to the toilet. Preferably, the cleaning mechanism and/or the drying mechanism can be lifted along the height direction, so that when the round floor needs to be cleaned and/or dried, the cleaning mechanism and/or the drying mechanism is lowered to clean and/or dry the round floor; when the circular floor is cleaned and dried or the cleaning and/or drying is not needed, the cleaning mechanism and/or the drying mechanism is/are in a state of being separated from the circular floor (namely the cleaning mechanism and/or the drying mechanism are/is not in contact with the circular floor), so that the cleanliness and the dryness of the cleaning mechanism and the drying mechanism are ensured, and meanwhile, the cleaning mechanism and the drying mechanism are convenient for workers to maintain and repair the circular floor at a later stage.
The utility model provides a pair of automatically cleaning system suitable for bathroom can bring following at least one beneficial effect:
1. the utility model discloses in, in the rotatory in-process alright realize simultaneously the self-cleaning and the automatic drying on floor, need not the human cost input, guaranteed floor cleanliness and the degree of dryness in the bathroom simultaneously, avoided the floor of bathroom like prior art have stagnant water exist the humidity that appears, and because of coming like the lavatory live body walk and go about bad phenomenon such as dress that mud footprint, bathroom are made dirty like the lavatory live body. Preferably, the cleaning mechanism and the drying mechanism are suspended above the circular floor, so that resistance generated by rotation of the circular floor and scraping of the circular floor caused by rotation of the circular floor are avoided, the service life of the circular floor is prolonged, and later-stage use cost and maintenance cost of the circular floor are reduced. The toilet using the utility model is clean and dry, and bacteria and mosquitoes are not easy to breed; manpower cost investment is not needed, and full automation cleaning is realized; the cost is low; the toilet bowl is sanitary and healthy, has good appearance and high toilet comfort; the construction and maintenance of national public health are facilitated; the civilized image of a family, a city and even a country is improved; the method is suitable for families and public health, and has wide application range and strong applicability; has good market competitiveness.
2. In the utility model, the plurality of nozzles clean the circular floor along the direction perpendicular to the first direction, the utilization rate of water resources is high, water is saved, the waste of water resources is avoided, and the use cost of the utility model is reduced; more excellent, wash through more than one and sweep the brush and realize cleaning in proper order the one-level and/or multistage on circular floor (satisfied the washing demand of different clean degrees), rely on simultaneously to wash the brush and realize carrying debris and sewage to depositing dirty case when realizing the cleanness on circular floor, compact structure and multiple functional.
3. The utility model discloses in, the layer that absorbs water makes the rigid contact who absorbs water and take off and circular floor become the flexonics, has avoided circular floor rotatory in-process to absorb water and has taken off scratch and friction to it, has reduced the rotation resistance on circular floor, has guaranteed the life on circular floor simultaneously, has reduced the utility model discloses a later stage is used and the maintenance cost. More excellent, be the circular conical surface with the upper surface on circular floor for water on the circular floor flows and collects towards the drain under its self action of gravity earlier, makes the flexible water greatly reduced that absorbs water the layer and need absorb, only need play scrape dry upper surface can, greatly reduced sewage pump's output, reduced the utility model discloses a cost. Preferably, the round floor is clean, sanitary, healthy and sterile under the double washing of the rotary brush head and the washing brush and the throwing of the cleaning liquid.
Drawings
The above characteristics, technical features, advantages and realisations of the self-cleaning system suitable for toilets will be further explained in the following description of preferred embodiments in a clearly understandable way, with reference to the attached drawings.
FIG. 1 is a schematic structural view of an embodiment of the present invention applied to a toilet;
FIG. 2 is a schematic view of a first embodiment of the cleaning structure of the present invention;
FIG. 3 is a schematic view of a second embodiment of the cleaning structure of the present invention;
fig. 4 is a schematic structural view of a first embodiment of the drying mechanism of the present invention;
fig. 5 is a schematic structural view of a second embodiment of the drying mechanism of the present invention.
The reference numbers illustrate:
1. the cleaning device comprises a circular floor, 21. a rotating shaft, 311. a cleaning structure, 3111. a driving mechanism, 3112. a shell, 3113. a rolling brush cavity, 3114. a rolling brush, 3115. a brush, 3116. a disc brush, 3117. a conveyor belt, 312. a dirt storage box, 313. a dirt pipeline, 321. a water sucking rake, 3211. a flexible water sucking layer, 3212. a supporting seat, 3213. a dirt sucking cavity, 3214. a through hole, 3215. a channel, 322. a sewage pipeline, 323. a dirt sucking pump, 4. a sewage storage box, 5. an annular wall plate, 51. a door hole, 52. a storage space and 6. a closestool.
Detailed Description
In order to more clearly illustrate embodiments of the present invention or technical solutions in the prior art, specific embodiments of the present invention will be described below with reference to the accompanying drawings. It is obvious that the drawings in the following description are only examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be obtained from these drawings without inventive effort.
For the sake of simplicity, the drawings only schematically show the parts relevant to the present invention, and they do not represent the actual structure of the product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically illustrated or only labeled. In this document, "one" means not only "only one" but also a case of "more than one".
In this context, it is to be understood that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.
In one embodiment, as shown in fig. 1-5, a self-cleaning system for a toilet includes: the cleaning device comprises a circular floor 1 with a plane parallel to the horizontal direction, a driving structure for driving the circular floor 1 to rotate, and a cleaning device for cleaning the circular floor 1; the cleaning device comprises a cleaning mechanism and a drying mechanism; the cleaning mechanism and the drying mechanism are both suspended above the circular floor 1 along a first direction parallel to the circular floor 1; the cleaning mechanism and the drying mechanism are sequentially arranged along the rotating direction of the round floor 1; the cleaning mechanism cleans the round floor 1 in a rotating state; the drying means dries the circular floor 1 in a rotated state and washed by the washing means. In practical application, when the circular floor 1 needs to be cleaned, the driving structure drives the circular floor 1 to rotate anticlockwise or clockwise for one circle or more (namely the circular floor 1 rotates 360 degrees or more than 360 degrees), and the cleaning mechanism and the drying mechanism are synchronously started while the driving structure is started; make 1 rotatory in-process on circular floor, accomplish simultaneously and wash and two dry flows, the utility model discloses clean circular floor 1 spends short time, satisfies especially the nervous area of public bathroom supply. Preferably, the cleaning mechanism and the drying mechanism are suspended above the circular floor 1, so that resistance generated by rotation of the circular floor 1 and scraping of the circular floor 1 caused by the resistance are avoided, the service life of the circular floor 1 is prolonged, and later-period use cost and maintenance cost of the circular floor 1 are reduced. It is worth mentioning that the first direction may be a horizontal direction or a radial direction of the upper surface of the circular floor 1, and in order to ensure that the upper surface of the circular floor 1 (i.e. the surface close to the side of the cleaning device (or the toilet 6)) can be completely cleaned, the size of the working range of the cleaning structure and the drying mechanism in the radial direction of the upper surface of the circular floor 1 is preferably not smaller than the size of the radius of the circular floor 1. Of course, the working range dimension of the washing arrangement and the drying arrangement in the radial direction of the upper surface of the circular floor 1 may also be smaller than the radial dimension of the circular floor 1, e.g. the washing arrangement and the drying arrangement only cover places of the circular floor 1 where soiling is likely. In practical application, in order to ensure the operation stability (avoid shaking) of the cleaning mechanism and the drying mechanism, the cleaning mechanism and the drying mechanism are preferably fixed or detachably hung on the inner wall of the toilet to be hung above the round floor 1, and the cleaning mechanism and the drying mechanism are detachably installed on the inner wall of the toilet to facilitate replacement and maintenance of the cleaning mechanism and the drying mechanism. Of course, the cleaning mechanism and the drying mechanism can be fixed or detachably hung above the round floor 1 through the hanging rod mechanism to realize the stable operation.
In the second embodiment, as shown in fig. 1-5, on the basis of the first embodiment, the washing mechanism further comprises a cleaning structure 311 for cleaning the circular floor 1, and a dirt storage tank 312 for storing the impurities and the sewage cleaned by the cleaning structure 311. Preferably, the dirt holding box 312 is a container having a dirt inlet near the cleaning structure 311, and the dirt inlet is located at a higher level than the inner sidewall of the dirt holding box 312 near the circular floor 1, so as to facilitate the storage of the sundries and the dirt. Preferably, the cleaning structure 311 includes a spray structure including a plurality of nozzles sequentially arranged in a first direction, and a fluid supply mechanism; the nozzles are arranged towards the circular floor 1 and communicate with a fluid supply. Preferably, the fluid supply mechanism can be a water supply pipeline communicated with the clean water pipeline, and the water supply pipeline is communicated with the spray nozzle; the cleaning of the circular floor 1 is achieved by spraying water in the clean water line through the nozzles onto the circular floor 1. In practical application, the water flow power in the water supply pipeline can be increased by the booster pump and can also be the pressure contained in the water supply pipeline. Of course, the fluid supply mechanism may also comprise a solenoid valve, a pump and a steam generator arranged in sequence in the direction of flow of the liquid, the steam generator being in fluid communication with the nozzle. In practical application, when the steam generator supplies a fixed amount of steam, the electromagnetic valve is not required, but the steam generator also belongs to the protection scope of the utility model; when the steam generator adjusts the steam quantity according to the cleaning requirement, the control of the steam quantity can be realized by controlling the opening of the electromagnetic valve, so that the optimal configuration of the fluid consumption is realized. It should be noted that the water circulating in the electromagnetic valve and the pump is preferably cheap water, and may be other liquid with steam having disinfection and cleaning functions, such as disinfectant. Of course, the fluid mechanism can simultaneously comprise a water supply pipeline, and an electromagnetic valve, a pump and a steam generator which are connected with the water supply pipeline in parallel and are connected with a clean water pipeline, so that the spray nozzle can spray clean water and steam in sequence; or the nozzle sprays steam and clean water in sequence; or one part of the nozzles spray clean water, and the other part of the nozzles spray steam; the nozzles for spraying clean water and the nozzles for spraying steam may be arranged in sequence in the direction of rotation of the circular floor 1, or vice versa. Preferably, a valve for controlling the water quantity is arranged between the clean water pipeline and the nozzle, and the adjustment of the water quantity required by cleaning the circular floor 1 can be realized by opening and closing the valve, so that the automatic regulation and control can be realized according to the cleanliness of the circular floor 1, the self-cleaning of the circular floor 1 is realized by the least water quantity, and the water resource is further saved. Preferably, the injection channel of the nozzle is a reducing structure, and the large-diameter end of the reducing structure is arranged close to the round floor 1. The working range of the plurality of nozzles in the first direction preferably covers the radius of the circular floor 1.
In the third embodiment, as shown in fig. 1 to 5, on the basis of the second embodiment, the spraying structure further comprises a plurality of rotary washing heads sequentially arranged along the first direction, and the rotary washing heads are arranged towards the circular floor 1; the plane of the rotation of the rotary brush head is parallel to the first direction. Preferably, the nozzle and the rotary washing head are arranged in sequence along the rotation direction of the circular floor 1. The spray structure further comprises a detergent box for delivering cleaning liquid to the circular floor 1. The cleaning solution sprays in the upper surface of circular floor 1 through the injection mode, like nozzle and sanitizer and intercommunication to realize that the nozzle can spray the cleaning solution (or solitary cleaning solution) that forms after mixing with the sanitizer in circular floor 1, when the sanitizer reaches the preset volume, then close the passageway between nozzle and the sanitizer (the accessible sets up the valve and realizes), then later stage nozzle is only used for spraying clear water usefulness, and the regulation of the power jet pressure of accessible water pump. Of course, the cleaning liquid can also be dosed separately via another line. The cleaning liquid can be sprayed prior to the clean water, so that after the circular floor 1 has been washed once with the cleaning liquid, a spray of clean water is effected by means of the spray nozzles. Of course, the outlet of the pipe for circulating the cleaning liquid may be in front of or behind the direction of rotation of the circular floor 1. Preferably, when the present invention is sterilized at high temperature using steam, the nozzle for spraying steam is preferably disposed near the drying mechanism.
In the fourth embodiment, as shown in fig. 1 to 5, on the basis of the second or third embodiment, the cleaning structure 311 includes a scrubbing-and-sweeping brush structure including a driving mechanism 3111 and a scrubbing-and-sweeping mechanism including one or more scrubbing brushes for scrubbing and sweeping the circular floor 1, and a housing 3112 for mounting the scrubbing brushes; the washing and sweeping brush is axially connected with the shell 3112; the driving mechanism 3111 drives the scrub brush to sweep the circular floor 1 and to sweep foreign materials and sewage into the soil bin 312. Preferably, the nozzle, the scrub brush, and the soil bin 312 are sequentially arranged in a rotation direction of the circular floor 1; after the nozzle sprays clean water to clean the round floor 1, the driving mechanism 3111 drives the cleaning brush to clean the round floor 1 and sweep sundries and sewage into the dirt storage tank 312.
In the fifth embodiment, as shown in fig. 2 and 3, based on the fourth embodiment, the washing and sweeping brush structure includes more than two parallel rolling brushes 3114 (i.e., washing brushes), and a housing 3112 having a rolling brush cavity 3113 corresponding to each rolling brush 3114; the rolling brush 3114 is coupled to the housing 3112, and the axis direction of the rolling brush 3114 is parallel to the circular floor 1; the two adjacent rolling brush cavities 3113 are communicated, and the rolling brush cavities 3113 are communicated with the dirt storage tank 312; the nozzle and the brush 3114 are arranged in sequence in the direction of rotation of the circular floor 1; after the nozzle sprays clean water to clean the round floor 1, the driving mechanism 3111 drives the rolling brush 3114 to roll and clean the round floor 1. Because the round brush 3114 is two or more, therefore, the round brush chamber 3113 corresponds there to be two or more, wherein, the round brush chamber 3113 that is close to the nozzle is equipped with debris and the dirty water inlet that sets up towards circular floor 1, and the round brush chamber 3113 that is close to the dirty case 312 sets up is equipped with the debris and the dirty water outlet that communicate with the dirty case 312. The rotating directions of the rolling brushes 3114 are preferably the same, and the rolling brushes 3114 can be in transmission connection with the conveyor belt 3117 (that is, the rolling brushes 3114 are connected with the conveyor belt 3117 in a tensioned manner (a driving wheel can also be sleeved on the rolling brush 3114), the driving mechanism 3111 can drive one of the rolling brushes 3114 (or the driving wheel) to rotate, and of course, a tensioning wheel for adjusting the tension of the conveyor belt 3117 can be added, and a driving mechanism 3111 can also be configured for each rolling brush 3114. The round brush 3114 relies on its vertical rotation to realize that debris move towards in proper order and are close to the dirt storage tank 312 and carry, and the round brush 3114 that is closest to the dirt storage tank 312 setting can only be as throwing along direction of height debris and sewage to dirt storage tank 312, also can have clean round floor 1 concurrently and throw along direction of height debris and the effect of sewage again. The number and position of the rolling brush 3114 can be set according to the cleaning requirement, for example, when the utility model is applied to places with higher cleanliness, such as a family toilet, the number of the rolling brush 3114 can be set less, and the contact degree between the brush 3115 of the rolling brush 3114 and the round floor 1 is smaller, so that the friction force between the brush 3115 and the round floor 1 is smaller, and the cleaning capability of the brush 3115 is relatively smaller; when the utility model discloses be applied to the lower place of cleanliness, like during market, city public latrine, the quantity of round brush 3114 can be some more, and the degree of round brush 3114's brush 3115 and circular floor 1 contact is some greatly for brush 3115 and circular floor 1's frictional force is some greatly, and the cleaning ability is some greatly relatively. Preferably, the brush 3115 of the roll brush 3114 disposed near the nozzle is a bristle brush, and the brush 3115 of the roll brush 3114 disposed near the side of the soil storage tank 312 is a fur brush. The brushes 3115 are arranged on the roller along the axial direction of the rolling brush 3114, and the multiple groups of brushes 3115 are radially arranged on the outer side wall of the roller. The brush 3115 may be linear or spiral in shape in the axial direction.
Of course, the washing and sweeping brush structure may also be a single rolling brush structure, that is, the washing and sweeping rolling brush structure is provided with only one rolling brush 3114 and one rolling brush cavity 3113, and the rolling brush cavity 3113 is opened with a sundries and sewage inlet arranged toward the circular floor 1 and a sundries and sewage outlet communicated with the dirt storage tank 312. In practical use, the brush 3115 of the roll brush 3114 throws the sundries toward the dirt storage box 312 while cleaning the round floor 1. Preferably, the brush 3115 may be a single row of brushes or more than two rows of brushes. Preferably, a bearing is provided between the roll brush 3113 and the housing 3112. Preferably, the brush 3113 is detachably connected to the housing 3112. Preferably, the rotating wash brush head is disposed between the nozzle and the wash brush. The rotary brush head cleans the circular floor 1 which is preliminarily cleaned and soaked by clean water, and the rotary brush head can be a bristle rotary brush head, a soft bristle rotary brush head or a flexible cleaning layer (such as a sponge layer, a gauze layer or a cotton layer). The fixed or detachable installation of rotatory washing brush head is all can on spraying structure, and removable installation is convenient for prolong through changing rotatory washing brush head the utility model discloses a use cost and life.
In the sixth embodiment, as shown in fig. 2 and 3, on the basis of the fourth embodiment, the scrub brush structure includes one or more disk brushes 3116 (i.e., scrub brushes) arranged in sequence in the first direction, and a housing 3112 for mounting the disk brushes 3116; the disc brush 3116 is pivotally attached to the housing 3112, and the axis direction of the disc brush 3116 is perpendicular to the circular floor 1. Preferably, the nozzle, the disc brush 3116 and the soil bin 312 are arranged in sequence in a rotation direction of the circular floor 1; after the nozzle sprays clean water to clean the round floor 1, the driving mechanism 3111 drives the disc brush 3116 to horizontally rotate to clean the round floor 1 and throw the sundries and the sewage to the dirt storage tank 312 along the horizontal direction. Preferably, in order to avoid splashing of the sewage during the horizontal rotation of the disc brushes 3116, the housing 3112 is preferably wrapped around the disc brushes 3116, but a space for passing the impurities and the sewage is left between the lower end of the housing 3112 and the circular floor 1, when there are a plurality of disc brushes 3116, the rotation directions of the disc brushes 3116 are preferably the same, or the rotation directions of two adjacent disc brushes 3116 are opposite, and each disc brush 3116 may be provided with a driving mechanism 3111, or a plurality of disc brushes 3116 may be in transmission connection with a conveyor 3117, i.e. the disc brushes 3116 are connected in a tensioned manner by the conveyor 3117 (or the disc brushes 3116 may be sleeved with a driving wheel), and the driving mechanism 3111 may drive one of the disc brushes 3116 (or the driving wheel) to rotate, or of course, a tensioning wheel for adjusting the tension of the conveyor 3117 may be additionally provided. The disc brush 3116 may be a bristle disc brush and/or a soft bristle disc brush, or the like. Dish brush 3116 is fixed or detachable installs in spray structural all can, removable installation is convenient for through changing rotatory brush head extension the utility model discloses a use cost and life.
It should be noted that the cleaning structure 311 can also be other cleaning structures, such as a brush cleaning structure and a high-pressure water spraying cleaning structure; or cleaning the circular floor 1 and collecting impurities through a nozzle for spraying water and a fan for sucking impurities, etc., which will not be described herein.
In the seventh embodiment, as shown in fig. 1 to 5, in addition to the second, third, fourth, fifth or sixth embodiment, a crusher for crushing the sundries is built in the dirt storage tank 312, and the sundries are crushed by the crusher and then flow to the municipal sewage pipe network. Specifically, the crusher can discharge sundries to a municipal sewage pipe network after crushing the sundries into sundry slurry. In order to avoid blockage of the pipeline leading to the municipal sewage pipe network by sundries, the slurry outlet of the sewage storage box 312 is provided with a filter screen, so that the slurry passing through the screen flows to the municipal sewage pipe network, and the slurry not passing through the screen flows to the municipal sewage pipe network after being crushed by the crusher again. Preferably, the crusher comprises a rotating motor, a cutter shaft and a crushing cutter; the rotating motor is connected with the cutter shaft, and the crushing cutters are circumferentially arranged on the cutter shaft; the rotating motor drives the cutter shaft to rotate so as to crush the sundries. Specifically, the cutter shafts may be arranged in the first direction as well as in the height direction. Preferably, a limit sensor for monitoring whether the amount of the impurities meets the shredding height is arranged in the dirt storage tank 312, and the limit sensor is connected with the rotating motor; when the height of the sundries meets the chopping height, the rotating motor is started. Of course, the rotary motor may also be activated and deactivated in synchronization with the cleaning structure 311. Of course, the dirt storage tank 312 may also serve as a storage space for temporarily storing the sundries, and further includes a sundries storage tank for storing the sundries, and the sundries can be sucked by the dirt storage tank 312 through a sundries pump and conveyed to the sundries storage tank through the sundries pipeline 313. Then, the sundries can be stored in the sundries storage box for later treatment, and the crusher can also be arranged in the sundries storage box.
In the eighth embodiment, as shown in fig. 4 and 5, on the basis of the first, second, third, fourth, fifth, sixth or seventh embodiments, the drying mechanism includes a suction paddle 321 attached to the circular floor 1 in the first direction, a sewage pipe 322, and a sewage suction pump 323; the water suction rake 321 is communicated with the sewage suction pump 323 through a sewage pipeline 322; the soil pick-up pump 323 sucks the water of the circular floor 1 in a rotated state by the water scooping pickups 321. Preferably, the water absorption rake 321 comprises a flexible water absorption layer 3211 and a support base 3212; the flexible water absorbing layer 3211 is arranged between the supporting seat 3212 and the round floor 1; the supporting seat 3212 is provided with a sewage suction cavity 3213 for communicating with the sewage pipeline 322; the side wall of the sewage suction cavity 3213 is provided with a through hole 3214 communicated with the flexible water absorbing layer 3211. A plurality of through holes 3214 are arranged at intervals in an array on a side of the support base 3212 adjacent to the circular floor 1. Of course, the through holes 3214 may be circular holes, elongated holes, or polygonal holes. The flexible water absorbing layer 3211 may be a sponge layer, a gauze layer, a cotton layer, or the like. Preferably, the circular floor 1 is of a funnel-shaped structure, and the upper surface of the circular floor 1 is inclined downwards from the radial direction of the outer periphery edge to the center of a circle to form a conical surface; the circular floor 1 is provided with a drain outlet at the vertex of the conical surface. Of course, the upper surface of the circular floor 1 may be a plane parallel to the horizontal direction, and in this case, the wiper 321 has both the functions of absorbing water and drying the circular floor 1. In practical application, the drain outlet can be directly communicated with a municipal sewage pipe network. Preferably, the sewage draining cover is provided with a floor drain. Preferably, the included angle between the conical surface and the horizontal direction is 0-5 degrees, including 5 degrees but not including 0 degree. Further preferably, the included angle between the conical surface and the horizontal direction is 2-5 degrees. Preferably, the diameter size of the circular floor 1 is preferably not less than 0.5 m. Preferably, the upper surface of the round floor 1 is provided with a rough surface to improve the roughness of the round floor 1 and prevent people who go to toilet from slipping or falling down. Of course, the wiper 321 may also include only the support base 3212. Preferably, the lower surface of the supporting seat 3212 near one side of the circular floor 1 is a fan-shaped structure, and the center of the fan-shaped structure is located near one side of the cleaning mechanism.
In the ninth embodiment, as shown in fig. 4 and 5, on the basis of the first, second, third, fourth, fifth, sixth or seventh embodiments, the drying mechanism includes a suction paddle 321 attached to the circular floor 1 in the first direction, a sewage pipe 322, and a sewage suction pump 323; the water suction rake 321 is communicated with the sewage suction pump 323 through a sewage pipeline 322; the soil pick-up pump 323 sucks the water of the circular floor 1 in a rotated state by the water scooping pickups 321. The water absorption rake 321 comprises a flexible water absorption layer 3211, a water blocking brush and a supporting seat 3212; the flexible water absorbing layer 3211 is arranged between the supporting seat 3212 and the round floor 1; the water blocking brush is arranged on the outer wall of the supporting seat 3212 close to one side of the cleaning mechanism, and the lower end of the water blocking brush is in contact connection with the round floor 1, so that a water blocking space is formed among the water blocking brush, the supporting seat 3212 and the cleaning mechanism in an enclosing manner; the supporting seat 3212 is provided with a sewage suction cavity 3213 for communicating with the sewage pipeline 322; the side wall of the sewage suction cavity 3213 is provided with a channel 3215 communicated with the water blocking space. A plurality of channels 3215 are arranged at intervals in an array on one side of the supporting base 3212 close to the circular floor 1. Of course, the cross-sectional shape of the channel 3215 may be circular, elongated, or polygonal. Preferably, the upper surface of the round floor 1 is provided with a rough surface to improve the roughness of the round floor 1 and prevent people who go to toilet from slipping or falling down. Of course, the wiper 321 may also include only the support base 3212. Preferably, the lower surface of the supporting seat 3212 near one side of the circular floor 1 is a fan-shaped structure, and the center of the fan-shaped structure is located near one side of the cleaning mechanism.
In the tenth embodiment, as shown in fig. 1 to 5, in addition to the eighth or ninth embodiment, the sewage pipe 322 is communicated with a municipal sewage pipe network, and the sewage suction pump 323 sucks the water of the circular floor 1 into the municipal sewage pipe network for discharge. Of course, alternatively, the sewage line 322 communicates with the sewage storage tank 4, and the sewage suction pump 323 sucks the water of the circular floor 1 to the sewage storage tank 4 for storage. The sewage storage tank 4 is used for storing the water sucked by the sewage pump, and the sewage storage tank 4 can be used for storing a certain amount of water and then carrying out treatment, such as recovery or chemical treatment. Preferably, the sewage storage tank 4 is sequentially provided with a sewage storage cavity, a filtering layer and a clear water storage cavity along the height direction; the clear water storage chamber is communicated with a flushing pipeline of the closestool 6. In order to avoid the overflow phenomenon of water in the sewage storage cavity, the upper end of the sewage storage cavity is provided with an overflow branch communicated with a municipal sewage pipe network. The water accessible in the sewage storage box 4 is stood and is clarified the postfiltration and form the water that can wash closestool 6, has realized the utility model discloses a recycle of water resource, green, water economy resource. Preferably, the filter layer is provided with a coarse filter layer, a fine filter layer and a disinfection layer in sequence along the height direction. The coarse filtering layer, the fine filtering layer and the disinfecting layer can be one or more than one layer. The disinfection layer can be an adsorbent layer, and the adsorbent can be microporous particles (such as activated carbon, coal carbon particles and the like) or a medicament layer (such as chlorine-containing disinfectant, potassium permanganate and the like). Preferably, the sewage storage tank 4 and the sundries storage tank can be a tank body, an accommodating space for accommodating water and sundries is arranged in the tank body, and the crusher can be arranged in the accommodating space; or a sundry storage cavity for storing sundries and a sewage storage cavity for storing water are respectively arranged in the box body, and the sundry storage cavity and the sewage storage cavity are independently arranged. The circular floor 1 is of a funnel-shaped structure, and the sewage outlet can be communicated with the sewage storage tank 4 through a pipeline.
In the eleventh embodiment, as shown in fig. 1 to 5, the drying mechanism further includes a secondary drying structure for drying the circular floor 1 on the basis of the eighth, ninth or tenth embodiment; the squeegees 321 and the secondary drying structure are sequentially arranged along the rotation direction of the circular floor 1. Preferably, the secondary drying structure comprises a fan, an electric heating piece, a hot air exhaust pipe and a housing; the hot air exhaust pipe is provided with a plurality of hot air ports which are sequentially arranged along a first direction and face the round floor 1; the housing is provided with an air inlet communicated with the external environment; the housing is provided with an air outlet communicated with the hot air exhaust pipe; the fan and the electric heating piece are both contained in the housing and are both arranged between the air inlet and the air outlet. Of course, the secondary drying structure may also be another type of drying structure, such as a secondary drying structure comprising an electric heat source arranged towards the circular floor 1, and a mounting bracket for mounting the electric heat source. The electric heat source can be a resistance wire or an ultraviolet lamp. It should be noted that the drying mechanism may be a hot air mechanism or a photo-thermal mechanism.
In the twelfth embodiment, as shown in fig. 1 to 5, on the basis of any of the above-described embodiments, the driving structure includes a rotating shaft 21, a driving wheel, a driven wheel, and a rotating motor; the rotating shaft 21 is connected with the round floor 1; the driving wheel is in transmission connection with the driven wheel; the driving wheel is connected with a rotating motor; the driven wheel is sleeved outside the rotating shaft 21. In practical application, the transmission connection between the driving wheel and the driven wheel can be either meshing or realized by a transmission belt. Of course, the driving structure may be a rotary motor directly connected to the rotary shaft 21. Preferably, the circular floor board further comprises an annular wall board 5 which is arranged around the outer side of the circular floor board 1, and the circular floor board 1 is connected with the annular wall board 5 in a sealing mode. Of course, the circular floor 1 includes a rotary floor and a fixed floor which are arranged in order in the height direction; the rotary floor is connected with the driving structure; the rotary floor is in clearance fit with the annular wall, so that a water guide space is formed among the rotary floor, the fixed floor and the annular wall, and the water guide space is communicated with a municipal sewage pipe network. In this case, the upper surface of the circular floor 1 may be a plane or a conical surface parallel to the horizontal direction, and when the upper surface of the circular floor 1 is a conical surface, the vertex of the conical surface is disposed near the toilet bowl 6. Preferably, the included angle between the conical surface and the horizontal direction is 85-90 degrees, including 85 degrees but not including 90 degrees. Further preferably, the included angle between the conical surface and the horizontal direction is 87-90 degrees. When the ring-shaped wall 5 serves as a wall surface of a toilet, the ring-shaped wall 5 is provided with a door opening 51 for mounting a door structure. In practical applications, the door structure can expose or close the door opening 51 along the up-down direction, and the door structure can also expose or close the door opening 51 along the circumferential direction of the annular wall plate 5. Preferably, the inner side wall of the annular wall plate 5 is provided with a storage space 52 for storing articles. Of course, the annular wall 5 may be present only as a water deflector.
In a thirteenth embodiment, as shown in fig. 1-5, in addition to any of the above embodiments, the cleaning device is provided under the toilet bowl 6 which is suspended. Preferably, a washing sensor for monitoring whether the circular floor 1 satisfies a preset washing condition is further included, and the washing sensor is connected with the driving structure and the cleaning device, respectively. In practical application, whether satisfy through washing sensor monitoring circular floor 1 and wash predetermined condition (if the monitoring of floor cleanliness factor, whether have like lavatory life body existence etc.), thereby ensure the utility model discloses high-efficient and energy-conserving from the operation. Preferably, an air purifier is also included. The air purifier is used for purifying and/or removing peculiar smell of the air in the toilet, so that good conditions of sanitation, health, no peculiar smell, no toxicity and the like of the toilet are ensured. Preferably, the toilet bowl further comprises a processor for characterizing the toilet state, and the processor is respectively connected with the driving mechanism, the cleaning mechanism and the drying mechanism. In practical application, when the driving structure and/or the cleaning mechanism and/or the drying mechanism are/is in a working state, the processor can give an indication whether a person to be toileted can go to the toilet or not, for example, a red light is used for indicating that the toilet is in a cleaning state and the person to be toileted cannot go to the toilet; the green light is turned on to indicate that the toilet is in an idle state, and people waiting to go to the toilet can go to the toilet. If the processor can be directly connected with the door lock, when the toilet is in a clean state, the processor locks the door until a person in the toilet can not enter the door; when the toilet is in a cleaning completion state, the processor enables the door to be in an openable state, and people waiting to go to the toilet can go to the toilet. Preferably, in order to improve the safety and the service life of the utility model, the parts of the utility model are all accommodated in the protective housing (the protective housing can be the shell of the part itself or the housing of the external device), so as to avoid the human body from being mistakenly collided and injured.
In a fourteenth embodiment, as shown in fig. 1 to 5, on the basis of any one of the above embodiments, a lifting mechanism for driving the cleaning mechanism and/or the drying mechanism to lift in the height direction is further included. And the lifting modes of the cleaning mechanism and the drying mechanism can be the same or different, and can be selected according to the requirements. Specifically, the lifting mechanism for lifting the cleaning mechanism and/or the drying mechanism can be one of an air cylinder, a linear motor, a screw pair and a screw pair; the lifting mechanism can also be a turbine worm pair, the turbine worm pair comprises a motor, a turbine and a worm, the motor is connected with the turbine, the turbine is meshed with the worm, the end part of the worm, close to one side of the circular floor 1, is connected with the cleaning mechanism or the drying mechanism, and the cleaning mechanism or the drying mechanism is lifted through the forward and reverse rotation of the turbine; elevating system still can be for the conveyer belt subassembly, and the conveyer belt subassembly includes motor, action wheel, follows driving wheel and conveyer belt, and the action wheel is arranged along direction of height with following the driving wheel in proper order, and the conveyer belt is connected with the action wheel respectively and follows the driving wheel tensioning, and the motor is connected with the action wheel, and the conveyer belt is connected with wiper mechanism or drying mechanism, and positive and negative rotation through the motor realizes wiper mechanism or drying mechanism's lift. Preferably, in order to ensure the lifting linearity of the cleaning mechanism and/or the drying mechanism, the drying mechanism further comprises a guide rail mechanism, the guide rail mechanism is preferably a guide block matched in a concave-convex mode and a guide rail spread along the height direction, and the guide block is connected with the cleaning mechanism and/or the drying mechanism. Preferably, the cleaning mechanism and/or the drying mechanism is/are accommodated in the protective shell when the circular floor 1 is not cleaned and/or dried, so that the invisible accommodation is realized, and the injury caused by mistaken collision of children in particular is avoided. Preferably, the cleaning mechanism can be lifted integrally, or only the nozzle can be lifted, so that the nozzle can be communicated with the hose or the telescopic pipe to realize the circulation of fluid; similarly, the washing mechanism can be lifted and lowered integrally, or only the part with the drying function can be lifted and lowered, and the part can be connected through the telescopic assembly.
For example, as shown in fig. 1-5, the present invention is applied to a public toilet, in which a plurality of (e.g. 5-40) toilets are provided, each toilet being provided with a toilet 6 in a hanging arrangement and the present self-cleaning system of any one of the above embodiments; when the person goes to the toilet successfully and leaves the toilet, the person can start the self-cleaning system (for example, through a start button arranged on the outer side of the toilet), the driving structure of the self-cleaning system starts to rotate the circular floor 1, meanwhile, the cleaning mechanism cleans the circular floor 1 in the rotating state, the drying mechanism dries the circular floor 1 in the rotating state and cleaned by the cleaning mechanism, so that the whole cleaning process is completed when the circular floor 1 rotates for more than one circle, and the toilet can be put into use again. Of course, when a toilet is in a clean state, if a person to be used in the toilet wants to use the toilet, the processor can prevent the person from entering the toilet by lighting, flashing, voice, locking the door and the like. Of course, an emergency button can also be provided, when a person waiting for a toilet wants to use the toilet in an emergency, the emergency button can be pressed to stop the self-cleaning system, and the toilet can be used again. Of course, starting the cleaning system can also realize automatic starting by monitoring whether the circular floor 1 meets the preset cleaning condition through the cleaning sensor.
It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.
Claims (16)
1. A self-cleaning system adapted for use in a toilet, comprising:
the cleaning device comprises a circular floor, a driving structure and a cleaning device, wherein the plane of the circular floor is parallel to the horizontal direction;
the cleaning device comprises a cleaning mechanism and a drying mechanism;
the cleaning mechanism and the drying mechanism are both suspended above the circular floor along a first direction parallel to the circular floor;
the cleaning mechanism and the drying mechanism are sequentially arranged along the rotating direction of the round floor;
the cleaning mechanism cleans the circular floor in a rotating state;
the drying mechanism dries the round floor which is in a rotating state and is cleaned by the cleaning mechanism.
2. Self-cleaning system for toilets according to claim 1, characterised in that:
the cleaning mechanism further comprises a cleaning structure for cleaning the round floor and a dirt storage box for storing the sundries and the sewage cleaned by the cleaning structure.
3. Self-cleaning system for toilets according to claim 2, characterised in that:
the cleaning structure comprises a spraying structure, the spraying structure comprises a plurality of nozzles sequentially arranged along a first direction, and a fluid supply mechanism; the nozzle is disposed toward the circular floor and communicates with the fluid supply mechanism.
4. Self-cleaning system for toilets according to claim 3, characterised in that:
the spraying structure further comprises a plurality of rotary washing heads which are sequentially arranged along a first direction, and the rotary washing heads are arranged towards the round floor; the plane of the rotation of the rotary washing head is parallel to the first direction; and/or the presence of a gas in the gas,
the spraying structure also comprises a cleaning agent box used for throwing cleaning liquid to the round floor; and/or the presence of a gas in the gas,
the fluid supply mechanism is a water supply pipeline communicated with a clean water pipeline, and the water supply pipeline is communicated with the spray nozzle; and/or the presence of a gas in the gas,
the fluid supply mechanism comprises an electromagnetic valve, a pump and a steam generator which are sequentially arranged along the flowing direction of the liquid, and the steam generator is communicated with the nozzle.
5. Self-cleaning system for toilets according to claim 2, characterised in that:
the cleaning structure comprises a washing and sweeping structure, the washing and sweeping structure comprises a driving mechanism and a washing and sweeping mechanism, and the washing and sweeping mechanism comprises more than one washing and sweeping brush used for washing and sweeping the round floor and a shell used for installing the washing and sweeping brush; the washing and sweeping brush is axially connected with the shell;
the driving mechanism drives the washing and sweeping brush to sweep the round floor and sweep sundries and sewage into the sewage storage box.
6. Self-cleaning system for toilets according to any of claims 2-5, characterised in that:
the inside of the dirt storage box is provided with a crusher for crushing the sundries, and the sundries are crushed by the crusher and then flow to a municipal sewage pipe network.
7. Self-cleaning system for toilets according to claim 1, characterised in that:
the circular floor is of a funnel-shaped structure, and the upper surface of the circular floor is inclined downwards from the radial direction of the outer periphery of the upper surface of the circular floor to the center of a circle to form a conical surface;
and a sewage discharge outlet is formed in the circular floor at the vertex of the conical surface.
8. Self-cleaning system for toilets according to any of claims 1-5 or 7, characterised in that:
the drying mechanism comprises a water absorption rake, a sewage pipeline and a sewage absorption pump, wherein the water absorption rake is attached to the round floor in a first direction;
the water absorption rake is communicated with the sewage suction pump through the sewage pipeline;
the sewage suction pump sucks the water in the rotating round floor through the water sucking rakes.
9. Self-cleaning system for toilets according to claim 8, characterised in that:
the water absorption rake comprises a flexible water absorption layer and a supporting seat;
the flexible water absorption layer is arranged between the supporting seat and the round floor;
the supporting seat is provided with a sewage suction cavity communicated with the sewage pipeline;
and the side wall of the sewage suction cavity is provided with a through hole communicated with the flexible water absorption layer.
10. Self-cleaning system for toilets according to claim 8, characterised in that:
the water absorption rake comprises a flexible water absorption layer, a water resistance brush and a supporting seat;
the flexible water absorption layer is arranged between the supporting seat and the round floor;
the water blocking brush is arranged on the outer wall of one side, close to the cleaning mechanism, of the supporting seat, and the lower end of the water blocking brush is in contact connection with the round floor, so that a water blocking space is formed among the water blocking brush, the supporting seat and the cleaning mechanism in an enclosing manner;
the supporting seat is provided with a sewage suction cavity communicated with the sewage pipeline;
and a channel communicated with the water blocking space is arranged on the side wall of the sewage suction cavity.
11. Self-cleaning system for toilets according to claim 8, characterised in that:
the sewage pipeline is communicated with a municipal sewage pipe network, and the sewage suction pump sucks the water of the circular floor to the municipal sewage pipe network for discharging; or the like, or, alternatively,
the sewage pipeline is communicated with the sewage storage tank, and the sewage suction pump sucks the water on the circular floor to the sewage storage tank for storage; or the like, or, alternatively,
the sewage pipeline is communicated with the sewage storage tank, and the sewage suction pump sucks the water on the circular floor to the sewage storage tank for storage; the sewage storage tank is sequentially provided with a sewage storage cavity, a filtering layer and a clear water storage cavity along the height direction; the clear water storage cavity is communicated with a flushing pipeline of the closestool.
12. Self-cleaning system for toilets according to claim 8, characterised in that:
the drying mechanism further comprises a secondary drying structure for drying the round floor;
the water absorption rake and the secondary drying structure are sequentially arranged along the rotating direction of the round floor.
13. Self-cleaning system for toilets according to claim 12, characterised in that:
the secondary drying structure comprises a fan, an electric heating piece, a hot air exhaust pipe and a housing; the hot air discharge pipe is provided with a plurality of hot air ports which are sequentially arranged along a first direction and face the round floor; the housing is provided with an air inlet communicated with the external environment; the housing is provided with an air outlet communicated with the hot air exhaust pipe; the fan and the electric heating sheet are both accommodated in the housing and are both arranged between the air inlet and the air outlet; or the like, or, alternatively,
the secondary drying structure includes an electric heat source disposed toward the circular floor, and a mounting bracket for mounting the electric heat source.
14. Self-cleaning system for toilets according to any of claims 1-5 or 7 or 9-13, wherein:
the driving structure comprises a rotating shaft, a driving wheel, a driven wheel and a rotating motor;
the rotating shaft is connected with the round floor;
the driving wheel is in transmission connection with the driven wheel;
the driving wheel is connected with the rotating motor;
the driven wheel is sleeved on the outer side of the rotating shaft.
15. Self-cleaning system for toilets according to any of claims 1-5 or 7 or 9-13, further comprising:
the annular wall plate is arranged around the outer side of the circular floor, and the circular floor is connected with the annular wall plate in a sealing manner; or the like, or, alternatively,
the circular floor comprises a rotary floor and a fixed floor which are sequentially arranged along the height direction; the rotary floor is connected with the driving structure; the rotary floor is in clearance fit with the annular wall plate, so that a water guide space is formed among the rotary floor, the fixed floor and the annular wall plate, and the water guide space is communicated with a municipal sewage pipe network.
16. Self-cleaning system for toilets according to any of claims 1-5 or 7 or 9-13, wherein:
the cleaning device is arranged below the suspended closestool; and/or the presence of a gas in the gas,
the cleaning device also comprises a cleaning sensor used for monitoring whether the round floor meets the preset cleaning condition, and the cleaning sensor is respectively connected with the driving structure and the cleaning device; and/or the presence of a gas in the gas,
the air purifier is also included; and/or the presence of a gas in the gas,
the processor is respectively connected with the driving structure, the cleaning mechanism and the drying mechanism; and/or the presence of a gas in the gas,
the drying device also comprises a lifting mechanism used for driving the cleaning mechanism and/or the drying mechanism to lift along the height direction.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110123217A (en) * | 2019-06-14 | 2019-08-16 | 上海特力洁环境科技股份有限公司 | A kind of self-cleaning system suitable for toilet |
CN111973093A (en) * | 2020-08-12 | 2020-11-24 | 深圳市微空间建筑科技有限公司 | Toilet with self-cleaning function and toilet self-cleaning method |
CN114488858A (en) * | 2021-12-16 | 2022-05-13 | 深圳市安杰信息科技有限公司 | Intelligent toilet, control method and system |
-
2019
- 2019-06-14 CN CN201920897995.4U patent/CN210931210U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110123217A (en) * | 2019-06-14 | 2019-08-16 | 上海特力洁环境科技股份有限公司 | A kind of self-cleaning system suitable for toilet |
CN111973093A (en) * | 2020-08-12 | 2020-11-24 | 深圳市微空间建筑科技有限公司 | Toilet with self-cleaning function and toilet self-cleaning method |
CN111973093B (en) * | 2020-08-12 | 2022-01-28 | 深圳市微空间建筑科技有限公司 | Toilet with self-cleaning function and toilet self-cleaning method |
CN114488858A (en) * | 2021-12-16 | 2022-05-13 | 深圳市安杰信息科技有限公司 | Intelligent toilet, control method and system |
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