A water flow management system (1) is disclosed including a valve (22), the valve (22) being adapted to communicate with at least one water flow detector (24) and a set of water usage products (40), wherein the water flow detector (24) is for detecting water flow to the set of water usage products (40). The valve includes a processor (205) that is arranged to determine: an operational status of the set of water usage products (40), a water flow status of the water flow detector (24), and whether, on the basis of the operational status and the water flow status, the water flow to the set of water usage products (40) requires alteration. The processor (205) is adapted to operate the valve (40) to effect the required alteration.
A water consumer system comprising a water consumer that comprises a water receptacle, the water consumer system further comprising a fluid inlet with an inlet valve, a fluid outlet, at least one HF motion sensor for detecting fluid motion provided on the water receptacle and/or at the fluid outlet and a water consumer controller coupled with the HF motion sensor and the inlet valve, wherein the water consumer controller comprises a data processing system, which is arranged to Retrieve or receive data captured by the HF motion sensor, to evaluate the data arithmetically and, based on the evaluated data, to detect one of the following malfunctions or initiate an action, in order to prevent one out of the variety of the following malfunctions, such as that the outlet is obstructed, there is a pressure fluctuation in a wastewater system, the fluid inlet is malfunctioning, etc.
A building facility water management method and system for controlling at least one operational parameter associated with a volume of water used by a water control device during a device operation of the water control device in a building facility is provided. The method and system allows for obtaining a water operation value associated with a volume of water for the water control device during the device operation; determining whether the water operation value is outside of a defined threshold associated with the device operation; upon a determination that the water operation value is outside of the defined threshold, adjusting an operational parameter associated with the water control device during the device operation to enable the water control device to be effectively operated.
A water cleansing system or method for a water usage environment, the system comprising: at least one water control device in the water usage environment, wherein the water control device is operable to operate in a water cleansing mode for cleansing the water control device and/or at least one water pipe connected to the water control device, at least one sensor for sensing whether it is safe to commence and/or continue the cleansing of the water control device and/or the pipework, and a control system arranged to control the water cleansing mode based on the sensing of the sensor.
The invention relates to a urinal system (10), a water consumer system having such a urinal system, and a method for operating a urinal system. A urinal controller (8) of the urinal system has a data processing system (9) and/or is connected to a data processing system (9) which is designed to retrieve and/or receive and computationally evaluate data captured by at least one HF motion sensor (5) provided on a urinal bowl (1) and/or a urinal outlet (4) of the urinal system, and to recognize one of the following malfunctions based on the evaluated data and/or to initiate an action in order to avoid one of the following malfunctions: that the urinal outlet is obstructed, and/or that there is a pressure fluctuation in a wastewater system connected to the urinal system, and/or that a fluid inlet (2) and/or an inlet valve (3) of the urinal system is malfunctioning, and/or that there is a failure of the HF motion sensor, and/or to recognize a predefined urinal usage situation and/or frequency of use on the basis of the evaluated data and, based on this, to adapt an opening time and/or an opening position and/or an opening frequency of the inlet valve to in a subsequent urinal flushing process.
A water consumer system comprising a water consumer that comprises a water receptacle, the water consumer system further comprising a fluid inlet with an inlet valve, a fluid outlet, at least one HF motion sensor for detecting fluid motion provided on the water receptacle and/or at the fluid outlet and a water consumer controller coupled with the HF motion sensor and the inlet valve, wherein the water consumer controller comprises a data processing system, which is arranged to Retrieve or receive data captured by the HF motion sensor, to evaluate the data arithmetically and, based on the evaluated data, to detect one of the following malfunctions or initiate an action, in order to prevent one out of the variety of the following malfunctions, such as that the outlet is obstructed, there is a pressure fluctuation in a wastewater system, the fluid inlet is malfunctioning, etc.
A water consumer system comprising a water consumer that comprises a water receptacle, the water consumer system further comprising a fluid inlet with an inlet valve, a fluid outlet, at least one HF motion sensor for detecting fluid motion provided on the water receptacle and/or at the fluid outlet and a water consumer controller coupled with the HF motion sensor and the inlet valve, wherein the water consumer controller comprises a data processing system, which is arranged to Retrieve or receive data captured by the HF motion sensor, to evaluate the data arithmetically and, based on the evaluated data, to detect one of the following malfunctions or initiate an action, in order to prevent one out of the variety of the following malfunctions, such as that the outlet is obstructed, there is a pressure fluctuation in a wastewater system, the fluid inlet is malfunctioning, etc.
The present invention comprises a sanitary facility management system as well as a corresponding sanitary facility management method with at least one sanitary installation, which is coupled to a water supply and/or is included in a water circuit and on which at least one operating value of the at least one sanitary installation can be recorded, a sanitary facility control device connected to the at least one sanitary installation comprising at least one data transmitter and at least one signal receiver and a data processing and signal output system communicating with the sanitary facility control device via the at least one data transmitter and the at least one signal receiver, wherein the data processing and signal output system is a system learning by machine and/or a system comprising an artificial neuronal net and/or an expert system.
A building facility water management method and system for controlling at least one operational parameter associated with a volume of water used by a water control device during a device operation of the water control device in a building facility is provided. The method and system allows for obtaining a water operation value associated with a volume of water for the water control device during the device operation; determining whether the water operation value is outside of a defined threshold associated with the device operation; upon a determination that the water operation value is outside of the defined threshold, adjusting an operational parameter associated with the water control device during the device operation to enable the water control device to be effectively operated.
A building facility water management method and system for controlling at least one operational parameter associated with a volume of water used by a water control device during a device operation of the water control device in a building facility is provided. The method and system allows for obtaining a water operation value associated with a volume of water for the water control device during the device operation; determining whether the water operation value is outside of a defined threshold associated with the device operation; upon a determination that the water operation value is outside of the defined threshold, adjusting an operational parameter associated with the water control device during the device operation to enable the water control device to be effectively operated.
A water flow management system (1) is disclosed including a valve (22), the valve (22) being adapted to communicate with at least one water flow detector (24) and a set of water usage products (40), wherein the water flow detector (24) is for detecting water flow to the set of water usage products (40). The valve includes a processor (205) that is arranged to determine: an operational status of the set of water usage products (40), a water flow status of the water flow detector (24), and whether, on the basis of the operational status and the water flow status, the water flow to the set of water usage products (40) requires alteration. The processor (205) is adapted to operate the valve (40) to effect the required alteration.
A water management method for controlling at least one operational parameter of at least one water control device, wherein the operational parameter is associated with water used by the water control device, the method comprising: sending, from an electronic controller of the water control device, operational data associated with the operational parameter to an embedded electronic device; receiving, at the embedded electronic device, the operational data, and developing control data based on the received operational data and sending the control data to the electronic controller; and receiving, at the electronic controller, the control data and controlling the operational parameter of the water control device based on the received control data.
The invention relates to a urinal system (10), a water consumer system having such a urinal system, and a method for operating a urinal system. A urinal controller (8) of the urinal system has a data processing system (9) and/or is connected to a data processing system (9) which is designed to retrieve and/or receive and computationally evaluate data captured by at least one HF motion sensor (5) provided on a urinal bowl (1) and/or a urinal outlet (4) of the urinal system, and to recognize one of the following malfunctions based on the evaluated data and/or to initiate an action in order to avoid one of the fol-lowing malfunctions: - that the urinal outlet is obstructed, and/or - that there is a pressure fluctuation in a wastewater system connected to the urinal system, and/or - that a fluid inlet (2) and/or an inlet valve (3) of the urinal system is malfunctioning, and/or - that there is a failure of the HF motion sensor, and/or to recognize a predefined urinal usage situation and/or frequency of use on the basis of the evaluated data and, based on this, to adapt an opening time and/or an open-ing position and/or an opening frequency of the inlet valve to in a subsequent urinal flushing process.
H04W 4/38 - Services specially adapted for particular environments, situations or purposes for collecting sensor information
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks
14.
URINAL SYSTEM, WATER CONSUMER SYSTEM HAVING A URINAL SYSTEM, AND METHOD FOR OPERATING A URINAL SYSTEM
The invention relates to a urinal system (10), a water consumer system having such a urinal system, and a method for operating a urinal system. A urinal controller (8) of the urinal system has a data processing system (9) and/or is connected to a data processing system (9) which is designed to retrieve and/or receive and computationally evaluate data captured by at least one HF motion sensor (5) provided on a urinal bowl (1) and/or a urinal outlet (4) of the urinal system, and to recognize one of the following malfunctions based on the evaluated data and/or to initiate an action in order to avoid one of the fol-lowing malfunctions: - that the urinal outlet is obstructed, and/or - that there is a pressure fluctuation in a wastewater system connected to the urinal system, and/or - that a fluid inlet (2) and/or an inlet valve (3) of the urinal system is malfunctioning, and/or - that there is a failure of the HF motion sensor, and/or to recognize a predefined urinal usage situation and/or frequency of use on the basis of the evaluated data and, based on this, to adapt an opening time and/or an open-ing position and/or an opening frequency of the inlet valve to in a subsequent urinal flushing process.
H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
H04W 4/38 - Services specially adapted for particular environments, situations or purposes for collecting sensor information
H04L 29/08 - Transmission control procedure, e.g. data link level control procedure
E03D 9/16 - Water pressure regulating means in flushing pipes
15.
SANITARY FACILITY MANAGEMENT SYSTEM AND SANITARY FACILITY MANAGEMENT METHOD
The present invention comprises a sanitary facility management system as well as a corresponding sanitary facility management method with at least one sanitary installation, which is coupled to a water supply and/or is included in a water circuit and on which at least one operating value of the at least one sanitary installation can be recorded, a sanitary facility control device connected to the at least one sanitary installation comprising at least one data transmitter and at least one signal receiver and a data processing and signal output system communicating with the sanitary facility control device via the at least one data transmitter and the at least one signal receiver, wherein the data processing and signal output system is a system learning by machine and/or a system comprising an artificial neuronal net and/or an expert system.
The present invention comprises a sanitary facility management system as well as a corresponding sanitary facility management method with at least one sanitary installation, which is coupled to a water supply and/or is included in a water circuit and on which at least one operating value of the at least one sanitary installation can be recorded, a sanitary facility control device connected to the at least one sanitary installation comprising at least one data transmitter and at least one signal receiver and a data processing and signal output system communicating with the sanitary facility control device via the at least one data transmitter and the at least one signal receiver, wherein the data processing and signal output system is a system learning by machine and/or a system comprising an artificial neuronal net and/or an expert system.
A water management method for controlling at least one operational parameter of at least one water control device, wherein the operational parameter is associated with water used by the water control device, the method comprising: sending, from an electronic controller of the water control device, operational data associated with the operational parameter to an embedded electronic device; receiving, at the embedded electronic device, the operational data, and developing control data based on the received operational data and sending the control data to the electronic controller; and receiving, at the electronic controller, the control data and controlling the operational parameter of the water control device based on the received control data.
A water flow management system (1) including a valve (22), the valve (22) being adapted to communicate with at least one water flow detector (24) and a set of water usage products (40), wherein the water flow detector (24) is for detecting water flow to the set of water usage products (40), wherein the valve includes a processor (205) that is arranged to determine: an operational status of the set of water usage products (40), a water flow status of the water flow detector (24), and whether, on the basis of the operational status and the water flow status, the water flow to the set of water usage products (40) requires alteration, wherein the processor (205) is adapted to operate the valve (40) to effect the required alteration..
G01F 1/36 - Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using mechanical effects by measuring pressure or differential pressure the pressure or differential pressure being created by the use of flow constriction
G05B 19/4093 - Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by part programming, e.g. entry of geometrical information as taken from a technical drawing, combining this with machining and material information to obtain control information, named part programme, for the NC machine
G05D 7/06 - Control of flow characterised by the use of electric means
A water flow management system (1) including a valve (22), the valve (22) being adapted to communicate with at least one water flow detector (24) and a set of water usage products (40), wherein the water flow detector (24) is for detecting water flow to the set of water usage products (40), wherein the valve includes a processor (205) that is arranged to determine: an operational status of the set of water usage products (40), a water flow status of the water flow detector (24), and whether, on the basis of the operational status and the water flow status, the water flow to the set of water usage products (40) requires alteration, wherein the processor (205) is adapted to operate the valve (40) to effect the required alteration..
G05D 7/06 - Control of flow characterised by the use of electric means
G05B 19/4093 - Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by part programming, e.g. entry of geometrical information as taken from a technical drawing, combining this with machining and material information to obtain control information, named part programme, for the NC machine
G01F 1/36 - Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using mechanical effects by measuring pressure or differential pressure the pressure or differential pressure being created by the use of flow constriction
A water management method for controlling at least one operational parameter of at least one water control device, wherein the operational parameter is associated with water used by the water control device, the method comprising the steps of: sending, from an electronic controller of the water control device, operational data associated with the operational parameter to an embedded electronic device; receiving, at the embedded electronic device, the operational data, and developing control data based on the received operational data and sending the control data to the electronic controller; and receiving, at the electronic controller, the control data and controlling the operational parameter of the water control device based on the received control data.
A water management method for controlling at least one operational parameter of at least one water control device, wherein the operational parameter is associated with water used by the water control device, the method comprising the steps of: sending, from an electronic controller of the water control device, operational data associated with the operational parameter to an embedded electronic device; receiving, at the embedded electronic device, the operational data, and developing control data based on the received operational data and sending the control data to the electronic controller; and receiving, at the electronic controller, the control data and controlling the operational parameter of the water control device based on the received control data.
A water management method for controlling at least one operational parameter of at least one water control device, wherein the operational parameter is associated with water used by the water control device, the method comprising the steps of: sending, from an electronic controller of the water control device, operational data associated with the operational parameter to an embedded electronic device; receiving, at the embedded electronic device, the operational data, and developing control data based on the received operational data and sending the control data to the electronic controller; and receiving, at the electronic controller, the control data and controlling the operational parameter of the water control device based on the received control data.
09 - Scientific and electric apparatus and instruments
Goods & Services
Electric measuring, signalling, checking (supervision), control and testing apparatus using capacitive and infrared radar, ultrasonic and radio sensor systems and other technical sensor principles; Apparatus for detecting and counting persons; Motion detectors; Radar cabinets; Radar sensors; Radar switches; Radar sensors for industrial process monitoring and process control, and for detecting humidity and surface vibrations; Apparatus with radar sensors for quality control; Electric measuring, signalling, checking (supervision), control and testing apparatus for detecting and/or indicating moving and static objects of all kinds, as well as persons of all kinds in the fields of transport and sanitary and water control; Lighting and light controls; Door, gate and/or cabinet controls; Door openers, electric; Protection devices for personal use against accidents; Distance measuring devices; Regulating apparatus, electric; Process monitoring and quality control devices for interior and exterior use.
09 - Scientific and electric apparatus and instruments
Goods & Services
Electric measuring, signalling, checking (supervision), control and testing apparatus using capacitive and infrared radar, ultrasonic and radio sensor systems and other technical sensor principles; Apparatus for detecting and counting persons; Motion detectors; Radar cabinets; Radar sensors; Radar switches; Radar sensors for industrial process monitoring and process control, and for detecting humidity and surface vibrations; Apparatus with radar sensors for quality control; Electric measuring, signalling, checking (supervision), control and testing apparatus for detecting and/or indicating moving and static objects of all kinds, as well as persons of all kinds in the fields of transport and sanitary and water control; Lighting and light controls; Door, gate and/or cabinet controls; Door openers, electric; Protection devices for personal use against accidents; Distance measuring devices; Regulating apparatus, electric; Process monitoring and quality control devices for interior and exterior use.
25.
METHOD AND SYSTEM FOR IDENTIFYING SCENES IN A COVERAGE AREA
The invention relates to a method and a system for identifying scenes in a coverage area by means of infrared radiation, preferably for use as a proximity switch for automatically controlling the flow of water of basin mixers. According to the invention, a plurality of individual infrared transmitters (3) generates, preferably in a cyclically repeating chronological order, signals in the form of focused narrow beams of rays (9) in the coverage area (2) and the reflected infrared light is detected by at least one infrared sensor (5). An evaluation device (7) compares the signal sequence thereby generated in the infrared sensor (5) with the signal sequence of a static basic scene and/or with a signal sequence of reference scenes acquired at an earlier stage, those individual signals of the currently generated signal sequence and the reference signal sequence being compared with each other that are associated with the same infrared transmitter (3). The method is especially suitable for proximity switches that have to reliably switch under adverse conditions.
