KR20210022525A - Automatic cleaning system and method - Google Patents

Abstract

The present invention relates to an automatic cleaning system and method capable of detecting the level of contamination according to the level of contamination after use of the ceramic sanitary ware 1 and performing cleaning automatically. More specifically, the present invention can detect the degree of contamination of a liquid in the connection part connecting the ceramic sanitary ware 1 and/or the ceramic sanitary ware 1, and detect foreign substances in the liquid using a wireless signal. It relates to an automatic cleaning system and method for performing automatic cleaning with a required amount of liquid according to the degree of contamination.

Description

Automatic cleaning system and method

The present invention relates to an automatic cleaning system and method capable of detecting and automatically cleaning the level of contamination according to the level of contamination after use of ceramic sanitary ware.

Ceramic sanitary ware is mainly used for personal cleaning purposes in bathrooms and toilets and for washing various items and food in the kitchen. Water used during cleaning and cleaning must be drained from the system. For this reason, ceramic sanitary ware is connected to the wastewater installation via various connecting members. Since wastewater is carried by wastewater facilities, odors can seep into the environment from the facility if necessary measures are not taken. S-pipes are used most of the time to avoid this situation. Due to the S-pipe, a certain amount of water is left in the system each time, and this water forms a barrier between the wastewater installation and the surrounding environment, preventing the spread of odors to the surroundings in the wastewater installation.

The water accumulated in the S-pipe prevents the odor of the wastewater facility from permeating to the surroundings, but the accumulated water itself can cause the odor to permeate to the surroundings if contaminated. In particular, in toilets and toilets, this water is contaminated after use, and the after-use cleaning system must be activated to remove all internal waste such as contaminated water from the S-pipe and fill the S-pipe with clean water. In existing systems, the cleaning process is mostly manually triggered by the user after use and thus the cleaning operation is activated.

Due to the evolving technology, various studies have been conducted to automate the cleaning system. In this study, the presence of users around them is detected by sensors with different structures, and cleaning occurs automatically when the user leaves the designated area. Applications are often used in which the sensor detects the user using a proximity sensor and the cleaning system is activated when the user goes out. In such a system, the user's detection is considered sufficient data to trigger the flushing system, whether or not the toilet is actually being used. This causes the cleaning system to be activated even when it is not needed, resulting in unnecessary water consumption.

In order to prevent such undesirable water consumption, research has been conducted on a system that monitors use, not users. Some studies conducted for this purpose aimed at detecting use using a variety of optical sensors, while some others aimed at re-detecting the light transmittance of water and solid substances in water with the help of optical sensors. do.

US2016083949 describes a system consisting of an optical receiver and a transmitter, the optical signal transmitted by the optical transmitter is received by the receiver, and the contamination of water is determined according to the loss. In the above document, the optical receiver and the transmitter are mutually disposed in the toilet body in such a way that they can see each other and the transmitted optical signal passes through the water in the S-pipe to reach the receiver. In this way, it is possible to automatically perform a cleaning process by detecting the degree of contamination of water in the toilet and solids in the water. Another advantage of this system is that it avoids unnecessary water consumption due to the fact that the system performs cleaning with the amount of water required for cleaning depending on the degree of contamination of the water. The biggest drawback of the system is that the process of placing the optical sensor in the toilet body in a way that allows the inside of the toilet to be seen is difficult and thus this process increases the cost and causes various problems associated with sealing. As a result, research has been made on a system capable of mounting sensors in sanitary ware without drilling holes in ceramic sanitary ware.

To solve this problem, the goal was to detect whether it was used or not through a wireless signal. In these studies, microwave radar sensors were mainly used. According to CN101550721, a microwave radar sensor is located in the urinal so that the flow to the urinal is sensed by the sensor, and cleaning is automatically performed when the flow is terminated. A similar system was disclosed in JP2008249671. According to JP2002285609, the microwave radar sensor receiver and transmitter are located at the bottom of the urinal, and the flow is sensed while the flow is occurring between the receiver and the transmitter and infers that the urinal is being used. The system cannot detect the degree of contamination of water in the urinal using a wireless signal.

In the present invention, an automatic cleaning system and method are described, wherein the degree of contamination of the waste liquid is detected in the ceramic sanitary ware or in the connection part connecting the ceramic sanitary ware to the waste water facility, and the contamination level of the foreign matter in the waste liquid is determined by using a wireless signal Accordingly, cleaning is carried out automatically with an appropriate amount of liquid, and this can be achieved without drilling holes in the ceramic sanitary ware. Depending on the connecting part providing the connection between the ceramic sanitary ware and the wastewater facility, there are no problems with sealing, therefore, no processes such as drilling holes or forming slots during manufacturing are required, and the cost is compared to standard ceramic sanitary ware. Does not increase.

It is an object of the present invention to develop an automatic cleaning system and method, which allows the cleaning process to be carried out automatically after use of the ceramic sanitary ware.

Another object of the present invention is to develop a system and method for automatic cleaning of the degree of contamination of liquids in ceramic sanitary ware and/or in connecting parts that connect ceramic sanitary ware to wastewater installations. After the ceramic sanitary ware is used, a radio signal is sent to perform automatic cleaning with the required amount of liquid.

Another object of the present invention is to develop an automatic cleaning system and method, in which the degree of contamination of the liquid is determined by a sensor that does not come into contact with the liquid in the ceramic sanitary ware and/or in the connecting parts connecting the ceramic sanitary ware to the wastewater installation. Is detected.

Another object of the present invention is to develop an automatic cleaning system and method, wherein the sensor does not make holes or slots in the connecting parts connecting ceramic sanitary ware and/or ceramic sanitary ware to the wastewater facility during the manufacturing process. Ceramic sanitary ware and/or ceramic sanitary ware can be fastened to the connecting parts connecting to the waste water installation.

Another object of the present invention is to develop an automatic cleaning system and method that can be used in conventional ceramic sanitary ware without any change or modification.

Another object of the present invention is to develop an automatic cleaning system and method that detects the contamination level of a liquid and performs cleaning with a different amount of liquid each time according to the contamination level. The amount of liquid required for cleaning prevents unnecessary liquid consumption.

Figure 1: Side cross-sectional view of ceramic sanitary ware
Figure 2: Bottom view of ceramic sanitary ware
Figure 3: Front cross-sectional view of ceramic sanitary ware
Figure 4: Angled rear view of ceramic sanitary ware
Figure 5: Angled bottom view of ceramic sanitary ware
Figure 6: Angled side view of ceramic sanitary ware

The present invention relates to an automatic cleaning system and method capable of detecting the level of contamination according to the level of contamination after use of the ceramic sanitary ware 1 and performing cleaning automatically. More specifically, the present invention relates to an automatic cleaning system and method capable of detecting the degree of contamination of a liquid in a ceramic sanitary ware 1 and/or a connecting part connecting the ceramic sanitary ware 1. It detects foreign substances in the liquid using a wireless signal and performs automatic cleaning with the required amount of liquid according to the degree of contamination.

Liquids used in areas such as bathrooms, toilets and kitchens are transferred to the wastewater facility and removed from the system due to the connection of the ceramic sanitary ware 1 to the wastewater facility. In most cases, the elbow structure (2) is used to prevent odors from the waste water plant from seeping into the surroundings. A certain amount of liquid is always present in the elbow structure 2, which liquid forms a barrier between the wastewater installation and the surrounding environment to prevent the spread of odors. After using the ceramic sanitary ware (1), the contaminated water and the solids in the elbow structure (2) are transferred to the wastewater facility via some amount of liquid. In order to achieve the desired hygienic conditions, it is necessary to implement cleaning with a different amount of liquid depending on the degree of contamination of the liquid in the elbow structure (2). If a sufficient amount of water is not used, complete cleaning will not occur. That is, contaminated liquid or solid material remains in the elbow structure 2; On the other hand, undesired liquid consumption occurs when a larger amount of liquid is used than is necessary.

In the present invention, an automatic cleaning system and method have been developed to prevent such an unwanted situation, and the level of contamination of the liquid in the elbow structure 2 is detected, and cleaning is performed with a different amount of liquid according to the level of contamination. In order to detect the degree of contamination of the liquid within the elbow structure 2, at least one contamination detection element 3 is used in the system according to the invention. The contamination detection member 3 is a receiver or transmitter or transceiver. The contamination detection member 3, i.e. the radio signal transmitted by the transmitter or transceiver, passes through the liquid present in the elbow structure 2 and the same contamination detection member 3 i.e. the same transceiver or receiver or another contamination detection member 3 I.e. reaching another transceiver or receiver. The degree of contamination of the liquid in the elbow structure 2 is determined according to the change of the radio signal.

The number and location of the contamination detection members 3 to be used may vary according to the user's preferences and needs. The contamination detection element 3 is located at the same level as the liquid in the elbow structure 2, preferably in a way that faces the outer wall of the elbow structure 2. In an embodiment where it is preferred to use a single contamination detection element 3, the signal transmitted by the transmitter and receiver or transceiver passes through the outer wall of the elbow structure 2 and reaches the contaminated liquid in the elbow structure 2 . The electromagnetic properties of a liquid change according to the degree of contamination of the liquid, and the signal reflected and returned to the same receiver and transmitter or transceiver depends on the electromagnetic properties of the liquid. The degree of contamination of the liquid depends on this difference.

In a preferred embodiment of the invention, one or more contamination detection elements 3 are used. In other words, this contamination detection member 3 of the receiver or transmitter or transceiver is located around the outer wall of the elbow structure 2 in such a way that at least one receiver or transmitter or transceiver faces at least one other receiver or transmitter or transceiver. . According to this embodiment, the signal transmitted by the transmitter or transceiver passes through the elbow structure 2 and the liquid in the elbow structure 2 and is received by the first transmitter or another transceiver or receiver located opposite the transceiver. The degree of contamination of the liquid in the elbow structure 2 is determined according to the difference between the signal sent by the transmitter or transceiver and the signal received by the receiver or transceiver.

Depending on the needs, preferences and areas of use, the contamination detection element 3 is arranged in a direction parallel to the long side of the ceramic sanitary ware 1 and/or in a direction perpendicular to the long side of the ceramic sanitary ware 1 and/or upwards from the floor. It can be arranged in a way that signals.

The contamination detection member 3 is preferably connected to the main processing unit by means of a contamination detection member connection 4. The main processing unit causes the contamination detection member 3 to transmit a signal, and the transmitted signal is either received by another contamination detection member 3 or a reflected signal is received by the same contamination detection member 3. In a preferred embodiment of the present invention, the contamination detection member 3 operates in the band range of 1 kHz-6 GHz. In another preferred embodiment of the present invention, the contamination detection member 3 operates in a band range of 6 GHz to 18 GHz. In another preferred embodiment of the present invention, the contamination detection member 3 operates in the band range of 18GHz-40GHz. In another preferred embodiment of the present invention, the contamination detection member 3 operates in a band range of 40 GHz-100 GHz. The received signal is preferably recorded in amplitude and phase, and the recorded amplitude and phase are compared with the measured amplitude and phase when a clean liquid is present in the elbow structure 2 to determine the degree of contamination of the liquid. The cleaning system is triggered by the main processing unit to perform the cleaning process in order to perform cleaning with the required amount of liquid depending on the degree of contamination.

The ceramic sanitary ware 1 may be a sink, a urinal, a Turkish toilet and a toilet bowl, but is not limited thereto and may be in the form of any ceramic sanitary ware 1.

In particular, when the ceramic sanitary ware 1 is a toilet bowl or a Turkish toilet, the realization of the automatic flushing process while using the toilet is an undesirable situation to be prevented. For this, a user sensor is used. The sensor detects that the ceramic sanitary ware 1 is currently in use or has ended and transmits each information to the main processing unit. Based on this information, even if it is detected that the liquid inside the elbow structure 2 is contaminated, the automatic cleaning process is not performed until information indicating that the use has ended is transmitted to the main processing unit. Preferably, cleaning is not performed for a predefined period of time even after information that the use has ended is transmitted by the sensor; In other words, cleaning is performed with a certain delay to ensure that the user has moved away from the ceramic sanitary ware 1.

The sensor comprises a vibration sensor disposed in a means such as a ceramic sanitary ware (1) or a toilet cover that comes into contact during use of the ceramic sanitary ware (1); It can be a ceramic sanitary ware (1) or a proximity sensor to be placed at any point around it. Ceramic sanitary ware 1 exists to detect a user or an optical sensor and a sound sensor.

The automatic cleaning method according to the invention comprises the following process steps:

● The radio signal is transmitted by the contamination detection member 3 to the liquid in the elbow structure 2 at regular intervals, and the transmitted signal is transmitted by the same contamination detection member 3 or another contamination detection member 3 depending on the application. Is received.

● The received signal is compared with a reference value defined in the main processing unit, and the degree of contamination of the liquid in the elbow structure 2 is determined according to the comparison result.

● Cleaning is carried out with a predetermined amount of liquid depending on the degree of contamination.

In the automatic cleaning system and method according to the present invention, automatic correction is performed before each use in order to increase the accuracy of the detected degree of contamination. A threshold value for taking into account the liquid to be contaminated is defined in the main treatment unit. When the degree of contamination detected by the contamination detection member 3 exceeds this threshold value, cleaning is automatically performed regardless of whether the ceramic sanitary ware 1 is used or not. According to a preferred embodiment of the present invention, a user accessing the ceramic sanitary ware 1 is additionally detected through a sensor, and the degree of contamination of the liquid before use is recorded and used as a reference. As a result of comparing the degree of contamination after use with the reference value recorded before use, the degree of contamination of the liquid inside the elbow structure 2 due to use is evaluated, and the cleaning process is performed accordingly. In other words, due to the change in the electromagnetic structure of the liquid due to dissolution in the liquid in the elbow structure (2) of the chemical substance used due to partial contamination of the source liquid, the flushing process continues to occur for ceramic sanitary ware (1) for cleaning purposes and other similar reasons. Avoid repetition.

In a preferred embodiment of the method according to the invention, a maximum number of cleaning attempts in the system is defined in order to avoid unnecessary water consumption due to successive cleaning attempts performed by the system when the liquid is in the elbow structure 2. Contaminated by foreign matter, the cleaning system cannot remove the contamination. The cleaning attempt is carried out the above maximum number of times to clean the liquid in the elbow structure 2 and then the system is switched to the standby mode and deactivated. In a preferred embodiment of the present invention, a deactivated system can be reactivated when the system is manually triggered.

Another preferred embodiment of the method according to the invention comprises an odor suppression function. When the ceramic sanitary ware (1) is not used for a long period of time, the liquid inside the elbow structure (2) evaporates over time, and when the liquid falls below a certain level, the odor generated from the wastewater installation penetrates into the atmosphere. To avoid this situation, when the liquid in the elbow structure 2 falls below a predefined level, the cleaning system is activated so that the elbow structure 2 is filled with liquid and the liquid can perform a barrier function. The liquid level can be detected by the contamination detection member 3. The amount of liquid in the elbow structure 2 can be determined by comparing the signal received by the receiver or transmitter with a reference value.

Another procedure to improve the accuracy of the method is calibration performed after installation. The contamination value sensed by the contamination detection member 3 may differ depending on the type of ceramic sanitary ware 1 used, the cleaning mechanism and the liquid used for cleaning purposes. As a result, the system is calibrated after installation to more accurately detect the degree of contamination. During this calibration, the cleaning system can be manually activated to clean the liquid in the elbow structure 2. When it is determined that the liquid is clean, the information that the liquid is clean is defined in the system. Then ceramic sanitary ware (1) is used and the liquid inside the elbow structure (2) is defined as contaminated after use. The system thus takes this value as a criterion for subsequent use, where the system compares the current value to this reference value to determine whether to activate the cleaning system. The chemical structure of the user's urine and feces is also different, and the electromagnetic properties of the liquid in the elbow structure (2) vary according to the different degrees. According to the method, the electromagnetic properties of the liquid in the elbow structure 2 are recorded. The reference value is automatically set by the system by taking the average of the recorded values. Therefore, it is possible to improve the detection accuracy for the degree of contamination of the liquid in the elbow structure 2 and perform cleaning with an appropriate amount of liquid.

Due to the automatic cleaning system and method according to the present invention, no physical contact with the contaminated liquid occurs, the contamination after use is detected through a wireless signal, and cleaning is automatically performed with a required amount of water. By changing the structure of the existing ceramic sanitary ware 1, liquid saving and efficient cleaning of the ceramic sanitary ware 1 in this way is achieved without complicating the manufacturing process of the ceramic sanitary ware 1 and without increasing the cost.

1: ceramic sanitary ware 2: elbow structure
3: Contamination detection member 4: Contamination detection member connection

Claims (19)

Ceramic sanitary ware (1) In an automatic cleaning system capable of detecting and automatically cleaning the degree of contamination after use, which is a receiver, transmitter or transceiver arranged in a manner facing the wall of the elbow structure (2), and ceramic sanitary ware (1). ) To the wastewater facility and capable of detecting the degree of contamination of the liquid by means of a radio signal. The method of claim 1, wherein the contamination detection member (3) is capable of transmitting a radio signal and passes through the elbow structure (2) and captures the reflected signal passing through the liquid inside the elbow structure (2) to detect the degree of contamination. Automatic cleaning system, characterized in that the receiver and transmitter or transceiver capable of. The method according to claim 1, wherein at least one first transceiver or transmitter capable of transmitting a radio signal to detect contamination and transmitted by the first transceiver or transmitter, and the liquid in the elbow structure (2) and the elbow structure (2). An automatic cleaning system comprising at least one second transceiver or receiver capable of capturing a passing radio signal. The method of claim 1, wherein at least one of determining the signal to be transmitted by the transceiver or transmitter, recording the signal received by the receiver or transceiver, and determining the degree of contamination based on the difference between the transmitted signal and the received signal. An automatic cleaning system comprising a main treatment unit. 5. An automatic cleaning system according to claim 4, characterized in that the main processing unit is a main processing unit that records signals transmitted and received by a transceiver or a transmitter or a receiver, preferably in the form of amplitude and phase. 5. The automatic cleaning system according to claim 4, wherein the main treatment unit is a main treatment unit capable of performing cleaning with a required amount of liquid based on the detected contamination level. The automatic cleaning system according to claim 1, comprising at least one sensor capable of detecting that the use of the ceramic sanitary ware (1) has ended or that the user has approached the ceramic sanitary ware (1). The automatic cleaning system according to claim 7, wherein the sensor is an optical sensor, a vibration sensor, or a sound sensor. The automatic cleaning system according to claim 1, characterized in that the contamination detection member (3) operates in the band range of 1 kHz to 6 GHz. The automatic cleaning system according to claim 1, characterized in that the contamination detection member (3) operates in the band range of 6 GHz to 18 GHz. The automatic cleaning system according to claim 1, characterized in that the contamination detection member (3) operates in the band range of 18 GHz to 40 GHz. The automatic cleaning system according to claim 1, characterized in that the contamination detection member (3) operates in the band range of 40 GHz to 100 GHz. In the automatic cleaning method capable of automatically performing cleaning by detecting the degree of contamination caused by the use of ceramic sanitary ware (1),
Transmitting radio signals to the liquid in the elbow structure 2 at regular intervals by the contamination detection member 3 and receiving signals transmitted by the same contamination detection member 3 or another contamination detection member 3 depending on use. step,
Comparing the received signal with a reference value defined in the main processing unit and determining the degree of contamination as a result of the comparison,
Automatic cleaning method comprising a process step of performing a cleaning process with a predetermined amount of liquid according to the degree of contamination. The method according to claim 13, wherein when it is detected that the user approaches the ceramic sanitary ware (1), the contamination level of the liquid in the elbow structure (2) is measured and recorded, and the contamination level is determined by comparing the contamination level after use with the initial measured value. Automatic cleaning method, characterized in that the. 14. An automatic cleaning method according to claim 13, characterized in that when it is sensed that the use of the ceramic sanitary ware (1) has ended and a cleaning process is required, cleaning is performed with a certain delay from the end of use. The method according to claim 13, wherein the automatic cleaning system can be manually cleaned after the installation of the automatic cleaning system on each ceramic sanitary ware (1) is completed, and each condition is treated as clean after checking whether the ceramic sanitary ware (1) is cleaned. A correction function that can be defined in the unit, and each condition can be defined in the main treatment unit as contaminated after using the ceramic sanitary ware (1), and the cleaning process for subsequent use can be performed according to these reference values. Automatic cleaning method comprising a. The method of claim 13, wherein the pollution level before and after use is recorded, the pollution level before and after use is individually averaged, and the standard values of clean water and contaminated water are automatically set in the system based on these average values. Automatic cleaning method. 14. The method of claim 13, wherein, even though the cleaning treatment is performed, if the contamination level is higher than the desired value for any reason, the maximum number of cleaning attempts defined in the main processing unit is performed, and the automatic cleaning system is switched to a standby state. Automatic cleaning method. 14. Automatic cleaning method according to claim 13, characterized in that if the liquid in the elbow structure (2) falls below a predefined level, a cleaning process is carried out and the liquid level can reach a desired minimum value.

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