CN110565989A

CN110565989A - vacuum water-saving automatic management toilet

Info

Publication number: CN110565989A
Application number: CN201910685460.5A
Authority: CN
Inventors: 王玺; 全春楼; 齐贺; 杨行国; 郭慧敏; 陈新瑶
Original assignee: China Construction Science and Technology Co Ltd
Current assignee: China Construction Science and Technology Group Co Ltd
Priority date: 2019-07-27
Filing date: 2019-07-27
Publication date: 2019-12-13

Abstract

The invention is suitable for the field of toilets, and provides a vacuum water-saving automatic management toilet which comprises a toilet main body, a control system, a toilet door, an automatic cleaning robot, charging equipment and a water filling system. The toilet main body is divided into a use room and an equipment room, the use room is internally provided with a vacuum closestool, a vacuum closestool water supply system, a urinal, a hand washing sink, an induction type faucet and a floor drain, and the equipment room is internally provided with a vacuum manufacturing device. The vacuum water-saving automatic management toilet disclosed by the invention is applied to the aspect of public fields, and the unmanned management of the toilet is realized. Adopt the self-cleaning robot to wash the use room in lavatory, realize the self-cleaning work, the vacuum closestool adopts induction type to wash, induction type tap auto-induction to go out water, and the human cost has been saved in the whole unmanned control of realization of the whole cleaning work in lavatory. Can save water by about 90 percent, and greatly reduce the water consumption.

Description

Vacuum water-saving automatic management toilet

Technical Field

The invention belongs to the field of toilets, and particularly relates to a vacuum water-saving automatic management toilet.

Background

Along with the national requirements on energy conservation and emission reduction, the energy-saving and emission-reducing agent simultaneously meets the requirements of people on the quality of life. The vacuum is adopted to realize water saving and achieve the purpose of water saving. In addition, the intelligent control is carried out on the toilet, so that the aims of saving labor cost and realizing unmanned management can be fulfilled.

The existing vacuum toilet technology is mainly applied to airplanes and high-speed rails, and is less applied to the field of buildings. If the vacuum toilet technology is also used in the public toilet of the building, the water consumption of the public toilet can be greatly saved.

Meanwhile, the public toilet in the existing building field is mainly cleaned by manpower, and a large amount of manpower is consumed. With the development of society, the labor cost is higher and higher, and from the viewpoint of saving the labor cost, the public toilet capable of replacing manpower also needs to be researched and developed.

Disclosure of Invention

The invention aims to provide a vacuum water-saving automatic management toilet, which aims to solve the problems of large water consumption, manual cleaning and high labor cost of the conventional toilet in the public field.

The invention is realized in this way, a kind of vacuum water-saving automatic management lavatory, including lavatory body and control system, divide into the use room and apparatus room in the said lavatory body, dispose vacuum nightstool, vacuum nightstool water supply system, urinal, induction type faucet and floor drain in the said use room; a vacuum manufacturing device is arranged in the equipment room and is connected with the vacuum closestool through a first vacuum pipeline, and a first vacuum isolation valve is arranged on the first vacuum pipeline; the vacuum closestool is provided with a first sensing device for detecting whether a person uses the vacuum closestool within a certain set time, the first sensing device is electrically connected with the control system, the control system is electrically connected with the first vacuum isolation valve, after the person uses the vacuum closestool, the control system controls the water supply system of the vacuum closestool to carry out water flushing work according to a signal fed back by the first sensing device, after the set time, the first vacuum pipeline isolation valve is opened, and the first vacuum pipeline sucks dirt into the vacuum dirt box through suction force generated by negative pressure by means of pressure difference between the first vacuum pipeline and atmospheric pressure; the control system can be in wired or wireless communication with the automatic cleaning robot, the control system can record the number of times the vacuum toilet is used, and when the number of times reaches a set number, the control system controls the automatic cleaning robot to perform cleaning work while moving along a set route in a use room; and a charging device for charging the automatic cleaning robot and a water filling system for filling water are also arranged in the toilet main body.

Furthermore, a urinal water supply system is also arranged in the use room, the urinal is a vacuum urinal, the vacuum urinal is connected with a second vacuum pipeline, a second vacuum isolation valve is connected between the second vacuum pipeline and the vacuum urinal, the vacuum urinal is provided with a second sensing device for detecting whether the vacuum urinal is used within a certain set time, and the control system is electrically connected with the urinal water supply system and the second sensing device; after someone uses the vacuum urinal, control system control urinal water supply system washes by water work, after the interval set for the time, second vacuum pipe isolation valve opens, and second vacuum pipe relies on the pressure differential with atmospheric pressure between, through the suction sewage suction in the vacuum sewage case.

Furthermore, the urinal is an anhydrous urinal, and the anhydrous urinal is deodorized by adopting a mechanical mode or a replaceable filter box; the waterless urinal is connected with a drain pipe, and dirt in the drain pipe is discharged into the lifter through gravity and then discharged into the vacuum dirt box through the lifter.

Furthermore, a small space is arranged on a partition wall between the equipment room and the use room, the small space is separated from the use room through an automatic wicket, an infrared sensing probe used for sensing the approach of the automatic cleaning robot is arranged on the automatic wicket, the infrared sensing probe and the automatic wicket are electrically connected with a control system, the control system controls the automatic wicket to be opened according to a signal fed back by the infrared sensing probe, the automatic cleaning robot enters the use room to be cleaned, and the control system controls the automatic wicket to be closed; after the automatic cleaning robot finishes cleaning, the automatic cleaning robot returns to the area close to the small automatic door, the infrared sensing probe senses the return of the automatic cleaning robot, the control system controls the small automatic door to be opened, and after the automatic cleaning robot returns to the original position, the control system controls the small automatic door to be closed.

Furthermore, the automatic small door is opened up and down or left and right automatically, and the width and height of the automatic small door are suitable for the automatic cleaning robot to enter and exit; the charging equipment and the water filling system are arranged in the small space, and when the automatic cleaning robot finishes one-time cleaning work, the automatic cleaning robot returns to the small space to automatically add water and charge.

Furthermore, the vacuum water-saving automatic management toilet further comprises a toilet door, a code scanning panel and a wireless transceiver, wherein the toilet door is installed on the side surface of the toilet main body, the use room is separated from the outside through the toilet door, the toilet door is provided with a door lock, and the code scanning panel and the door lock realize wireless communication with the control system through the wireless transceiver; when the using times of the toilet reaches a set numerical value, the control system sends a signal that the toilet door lock is in a closed state and forbids the next user to use the toilet; the automatic cleaning robot enters a use room to complete one cleaning work; the control system sends a signal of finishing cleaning work to the code scanning panel, the code scanning panel displays a code scanning interface, a user can normally scan codes for use, and the door lock is opened after receiving the signal of successful code scanning of the user.

Furthermore, the vacuum water-saving automatic management toilet further comprises a hand washing pool, the hand washing pool is installed in the use room, the induction type faucet is an induction type spray faucet and is installed right above the hand washing pool, the induction type spray faucet can pressurize and atomize water, sewage in the hand washing pool is discharged into the lifter through gravity, and then is discharged into the vacuum sewage tank through the lifter.

Furthermore, one or a combination of more than two of a mirror cabinet, mother and infant facilities, a mosquito killer lamp and an air freshener is also arranged in the using room.

Furthermore, one or a combination of more than two of an air conditioner, an exhaust fan, a lighting lamp, a temperature sensor and a humidity sensor is arranged in the using room.

Furthermore, the control system comprises one or the combination of more than two of an automatic dust-collecting, water-sprinkling and floor-mopping subsystem, a scanning automatic door-opening subsystem, an illuminating lamp control subsystem, an automatic recording and using people subsystem, an automatic sensing indoor temperature and humidity subsystem, an air-conditioning control subsystem or a fresh air deodorization control subsystem; and part or all of the subsystems are integrated in a control cabinet, and the control cabinet is positioned in the equipment room.

Compared with the prior art, the invention has the beneficial effects that:

The invention discloses a vacuum water-saving automatic management toilet, which is applied to the public field and realizes the unmanned management of the toilet. Adopt the self-cleaning robot to wash the use room in lavatory, realize self-cleaning work, the vacuum closestool adopts the induction type to wash, and induction type tap auto-induction goes out water, and the human cost has been saved in the whole realization unmanned control of the whole cleaning work in lavatory. The water flushing amount of the vacuum closestool is 0.6L-1L each time, compared with the traditional closestool with 6L each time, the vacuum closestool can save about 90% of water and greatly reduce the water consumption.

Drawings

FIG. 1 is a schematic top view illustrating an automatic vacuum water-saving toilet management system according to an embodiment of the present invention;

3 FIG. 3 2 3 is 3 a 3 schematic 3 cross 3- 3 sectional 3 view 3 of 3 the 3 toilet 3 of 3 FIG. 3 1 3 taken 3 along 3 section 3 line 3 A 3- 3 A 3; 3

FIG. 3 is a flow chart of an automatic purge control process for the toilet of FIG. 1;

Fig. 4 is a flow chart of an automatic management process of the lavatory of fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being 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 invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; 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 meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 and 2, the vacuum water-saving automatic management toilet provided by the invention is shown, and comprises a toilet main body 1, a control system 10 and a toilet door. The toilet main body 1 may have a concrete structure or a steel structure. The vacuum toilet can adopt a traditional site construction method, and also can adopt a method of prefabricating, producing and finishing in a factory and then hoisting the vacuum toilet to the site.

A use room 11 and an equipment room 12 are partitioned in the toilet main body 1, a toilet door is installed on a side surface of the toilet main body 1, the use room 11 is partitioned from the outside by the toilet door, and a small space 13 is provided in a partition wall between the equipment room 12 and the use room 11.

The use room 11 is provided with a vacuum toilet 2, a vacuum toilet water supply system, a urinal 3, a urinal water supply system, a hand washing basin 4 and a floor drain. A vacuum producing device is disposed in the equipment room 12, and the automatic cleaning robot 5, a charging device for charging the automatic cleaning robot 5, and a water charging system for charging water are disposed in the small space 13.

The vacuum manufacturing device is connected with the vacuum closestool 2 through a first vacuum pipeline, and a first vacuum isolation valve is arranged on the first vacuum pipeline; the vacuum toilet 2 is provided with a first sensing device for detecting whether a person uses the vacuum toilet 2 within a certain set time, and in this embodiment, the first sensing device is a sensing panel disposed on the upper portion of the vacuum toilet 2. The first sensing device is electrically connected with the control system 10, the control system 10 is electrically connected with the first vacuum isolation valve, when a person uses the vacuum closestool 2, the control system 10 controls the water supply system of the vacuum closestool 2 to flush water according to a signal fed back by the first sensing device, after a set time (such as 2-3 seconds) is set, the first vacuum pipeline isolation valve is opened, the first vacuum pipeline depends on the pressure difference between the first vacuum pipeline and the atmospheric pressure, and dirt is sucked into the vacuum dirt box through suction force generated by negative pressure. The water flushing quantity of the vacuum closestool 2 is 0.6L-1L each time, and compared with the traditional closestool 6L each time, the vacuum closestool can save about 90% of water.

above-mentioned urinal 3 is the vacuum urinal, and the vacuum urinal is connected with second vacuum line, is connected with second vacuum isolation valve between second vacuum line and the vacuum urinal, and the vacuum urinal is provided with the second induction system who is used for detecting whether someone used the vacuum urinal in a certain settlement time, and in this embodiment, second induction system is the response panel who installs on vacuum urinal upper portion. The control system 10 is electrically connected with the urinal water supply system and the second sensing device; after someone used the vacuum urinal, control system 10 control urinal water supply system washed by water work, after the interval set for the time (like 2 ~ 3 seconds), the second vacuum pipe isolation valve was opened, and the second vacuum pipe relies on and atmospheric pressure between the pressure differential, through the suction of negative pressure production with filth suction in the vacuum filth case. The water flushing amount of the vacuum urinal is 0.2L-0.5L each time, and compared with the 1L of the traditional urinal, the vacuum urinal can save water by about 80 percent each time. In addition, the urinal 3 can also be an anhydrous urinal which adopts a mechanical mode to isolate odor or adopts a replaceable filter box to isolate odor; the waterless urinal is connected with a drain pipe, and dirt in the drain pipe is discharged into the lifter through gravity and then discharged into the vacuum dirt box through the lifter. The waterless urinal can save water by 100 percent.

The hand washing basin 4 is arranged in the use room 11, the induction type spray faucet 41 is arranged right above the hand washing basin 4, the induction type spray faucet 41 can pressurize and atomize water, the contact area of the water and air can be increased, and the cleaning effect is enhanced. The sewage in the hand washing pool 4 is discharged into the lifter through gravity and then discharged into the vacuum sewage tank through the lifter. The induction type spray water faucet 41 can save 90% of water compared with a common 6L/min water faucet.

The use room 11 is also provided with one or a combination of more than two of a mirror cabinet, an air conditioner, mother and infant facilities, a mosquito killer lamp, an air freshener, an exhaust fan, an illuminating lamp, a temperature sensor or a humidity sensor. Preferably, the floor drain is a vacuum floor drain, which is installed at the edge of the floor of the service room 11. In this embodiment, except the floor drain, all the devices disposed in the room 11 are wall-mounted or suspended, which facilitates the subsequent cleaning operation.

The toilet further comprises a code scanning panel and a wireless receiving and transmitting device, a door lock is arranged on a door of the toilet, and the code scanning panel and the door lock are communicated with the control system 10 through the wireless receiving and transmitting device. After the user successfully scans the sign indicating number, the lock is opened, and the lavatory door is opened, and the user gets into the lavatory and uses the room. When the number of uses of the toilet reaches a predetermined value (e.g., 5 times), referring to fig. 3, an automatic toilet cleaning control process is shown. The control system 10 sends a signal that the toilet door lock is in a closed state, and the code scanning panel displays 'cleaning and maintenance' and forbids the next user to use; the automatic cleaning robot 5 enters the use room 11 to complete one cleaning work; the control system 10 sends a signal of cleaning completion to the code scanning panel, the code scanning panel displays a code scanning interface, a user can normally scan codes for use, and the door lock is opened after receiving a signal of code scanning success of the user.

The control system 10 can perform wired or wireless communication with the automatic cleaning robot 5, the control system 10 can record the number of times the vacuum toilet 2 has been used, and when the set number of times (for example, 5 times) is reached, the control system 10 controls the automatic cleaning robot 5 to perform cleaning work while moving along a set route in the use room.

The small space 13 is separated from the using room 11 by an automatic small door 14, the automatic small door 14 is opened up and down or left and right automatically, and the width and height of the automatic small door 14 are suitable for the automatic cleaning robot 5 to enter and exit. The automatic wicket 14 is provided with an infrared sensing probe used for sensing the approach of the automatic cleaning robot 5, the infrared sensing probe and the automatic wicket 14 are electrically connected with the control system 10, the control system 10 controls the automatic wicket 14 to be opened according to signals fed back by the infrared sensing probe, after the automatic wicket 14 is opened, the automatic cleaning robot 5 enters the service room 11 to be cleaned, and the control system 10 controls the automatic wicket 14 to be closed so as to prevent sewage from entering the small space 13. After the automatic cleaning robot 5 finishes cleaning, the automatic cleaning robot returns to the area close to the small automatic door 14, the infrared sensing probe senses that the automatic cleaning robot 5 returns, the control system 10 controls the small automatic door 14 to be opened, and after the automatic cleaning robot 5 returns to the original position, the control system 10 controls the small automatic door 14 to be closed. When the automatic cleaning robot 5 completes one cleaning operation, it returns to the small space 13 to perform automatic water adding and charging. The automatic cleaning robot 5 has a certain dirt storage space, and after the space is full, the dirt box needs to be manually cleaned.

In order to support each function module, the control system 10 may further include an automatic dust-collecting, watering, floor-mopping subsystem, a scanning automatic door-opening subsystem, a lighting lamp control subsystem, an automatic recording user number subsystem, an automatic sensing indoor temperature and humidity subsystem, an air conditioning control subsystem, and a fresh air deodorization control subsystem. Some or all of the subsystems are integrated in a control cabinet, which is located in the equipment room 12, and each subsystem controls the corresponding hardware equipment. For example, the air conditioner control subsystem sets the air conditioner to automatically turn on within a certain temperature range according to the indoor temperature range.

To explain the process of toilet automatic management in more detail, please refer to fig. 4, which shows a flow chart of the toilet automatic management process. The code scanning panel at the side of the toilet displays a code scanning interface, a user scans the two-dimensional code, after the user confirms success, the control system 10 is used for unlocking a toilet door, the user opens the toilet door to enter a use room of the toilet, then an illuminating lamp and a user number counter in the toilet are opened, and the door lock is closed. The user uses the vacuum closestool 2, the urinal 3, the hand washing sink 4 and the like, and the device carries out induction flushing and the like after the use. The user opens the toilet door and leaves the toilet, the toilet door, the illuminating lamp and the user number counter are closed, and the automatic fresh air deodorization system is started. When the number of people using the toilet is larger than the set preset value (5 times), the automatic cleaning robot starts to work.

In conclusion, the vacuum water-saving automatic management toilet of the embodiment is applied to the public field, and the unmanned management of the toilet is realized. Adopt the self-cleaning robot to wash the use room in lavatory, realize the self-cleaning work, vacuum toilet 2, urinal 3, wash-basin 4 all adopt the induction type to wash, and the human cost has been saved in the whole unmanned control of realization of the whole cleaning work in lavatory.

The toilet of the embodiment can be applied to the field of public toilets or other public fields such as unmanned convenience stores, unmanned supermarkets and the like.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. A vacuum water-saving automatic management toilet is characterized by comprising a toilet main body and a control system, wherein a use room and an equipment room are separated from the interior of the toilet main body, and a vacuum toilet bowl, a vacuum toilet bowl water supply system, a urinal, an induction type faucet and a floor drain are arranged in the use room; a vacuum manufacturing device is arranged in the equipment room and is connected with the vacuum closestool through a first vacuum pipeline, and a first vacuum isolation valve is arranged on the first vacuum pipeline; the vacuum closestool is provided with a first sensing device for detecting whether a person uses the vacuum closestool within a certain set time, the first sensing device is electrically connected with the control system, the control system is electrically connected with the first vacuum isolation valve, after the person uses the vacuum closestool, the control system controls the water supply system of the vacuum closestool to carry out water flushing work according to a signal fed back by the first sensing device, after the set time, the first vacuum pipeline isolation valve is opened, and the first vacuum pipeline sucks dirt into the vacuum dirt box through suction force generated by negative pressure by means of pressure difference between the first vacuum pipeline and atmospheric pressure; the control system can be in wired or wireless communication with the automatic cleaning robot, the control system can record the number of times the vacuum toilet is used, and when the number of times reaches a set number, the control system controls the automatic cleaning robot to perform cleaning work while moving along a set route in a use room; and a charging device for charging the automatic cleaning robot and a water filling system for filling water are also arranged in the toilet main body.

2. The automatic management toilet of claim 1, wherein a urinal water supply system is further disposed in the use room, the urinal is a vacuum urinal, the vacuum urinal is connected to a second vacuum pipe, a second vacuum isolation valve is connected between the second vacuum pipe and the vacuum urinal, the vacuum urinal is provided with a second sensing device for detecting whether the vacuum urinal is used within a certain set time, and the control system is electrically connected to the urinal water supply system and the second sensing device; after someone uses the vacuum urinal, control system control urinal water supply system washes by water work, after the interval set for the time, second vacuum pipe isolation valve opens, and second vacuum pipe relies on the pressure differential with atmospheric pressure between, through the suction sewage suction in the vacuum sewage case.

3. The vacuum water-saving automatic management toilet according to claim 1, wherein the urinal is a waterless urinal which is deodorized mechanically or deodorized by a replaceable filter cartridge; the waterless urinal is connected with a drain pipe, and dirt in the drain pipe is discharged into the lifter through gravity and then discharged into the vacuum dirt box through the lifter.

4. The vacuum water-saving automatic management toilet according to claim 1, wherein a small space is provided on a partition wall between the facility room and the use room, the small space is separated from the use room by an automatic wicket, an infrared sensing probe for sensing the approach of the automatic cleaning robot is provided on the automatic wicket, the infrared sensing probe and the automatic wicket are electrically connected with a control system, the control system controls the automatic wicket to open according to a signal fed back by the infrared sensing probe, the automatic cleaning robot enters the use room to clean, and the control system controls the automatic wicket to close; after the automatic cleaning robot finishes cleaning, the automatic cleaning robot returns to the area close to the small automatic door, the infrared sensing probe senses the return of the automatic cleaning robot, the control system controls the small automatic door to be opened, and after the automatic cleaning robot returns to the original position, the control system controls the small automatic door to be closed.

5. The toilet with vacuum water-saving automatic management according to claim 4, wherein the automatic wicket is opened up and down or left and right automatically, and the width and height of the automatic wicket are suitable for the automatic cleaning robot to get in and out; the charging equipment and the water filling system are arranged in the small space, and when the automatic cleaning robot finishes one-time cleaning work, the automatic cleaning robot returns to the small space to automatically add water and charge.

6. The automatic vacuum water-saving management toilet according to claim 1, further comprising a toilet door installed on a side of the toilet body, the use room being separated from the outside by the toilet door, a door lock installed on the toilet door, the code-scanning panel and the door lock being in wireless communication with the control system through the wireless transceiver; when the using times of the toilet reaches a set numerical value, the control system sends a signal that the toilet door lock is in a closed state and forbids the next user to use the toilet; the automatic cleaning robot enters a use room to complete one cleaning work; the control system sends a signal of finishing cleaning work to the code scanning panel, the code scanning panel displays a code scanning interface, a user can normally scan codes for use, and the door lock is opened after receiving the signal of successful code scanning of the user.

7. The vacuum water-saving automatic management toilet according to claim 1, further comprising a wash basin installed in the use room, wherein the induction type faucet is an induction type spray faucet installed right above the wash basin, the induction type spray faucet can pressurize and atomize water, and sewage in the wash basin is discharged into the lifter by gravity and then discharged into the vacuum sewage tank by the lifter.

8. The vacuum water-saving automatic management toilet according to claim 1, wherein one or a combination of more than two of a mirror cabinet, mother and infant facilities, a mosquito killer lamp and an air freshener is further arranged in the use room.

9. The toilet for vacuum water conservation automatic management as claimed in claim 1, wherein one or more of an air conditioner, a suction fan, a lighting lamp, a temperature sensor or a humidity sensor are further arranged in the using room.

10. The toilet of any one of claims 1 to 9, wherein the control system comprises one or a combination of more than two of an automatic dust-collecting, water-sprinkling, floor-mopping subsystem, a scanning automatic door-opening subsystem, a lighting lamp control subsystem, an automatic recording user subsystem, an automatic indoor temperature and humidity sensing subsystem, an air-conditioning control subsystem or a fresh air deodorization control subsystem; and part or all of the subsystems are integrated in a control cabinet, and the control cabinet is positioned in the equipment room.