WO2017138806A1 - Temperature sensor device for showers - Google Patents

Temperature sensor device for showers Download PDF

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Publication number
WO2017138806A1
WO2017138806A1 PCT/MX2017/000010 MX2017000010W WO2017138806A1 WO 2017138806 A1 WO2017138806 A1 WO 2017138806A1 MX 2017000010 W MX2017000010 W MX 2017000010W WO 2017138806 A1 WO2017138806 A1 WO 2017138806A1
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WO
WIPO (PCT)
Prior art keywords
water
temperature sensor
sensor device
housing
sensor
Prior art date
Application number
PCT/MX2017/000010
Other languages
Spanish (es)
French (fr)
Inventor
Miguel Ángel CARMONA LAMADRID
Original Assignee
Carmona Lamadrid Miguel Ángel
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Carmona Lamadrid Miguel Ángel filed Critical Carmona Lamadrid Miguel Ángel
Priority to CN201780011237.1A priority Critical patent/CN108603365A/en
Publication of WO2017138806A1 publication Critical patent/WO2017138806A1/en

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Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47KSANITARY EQUIPMENT NOT OTHERWISE PROVIDED FOR; TOILET ACCESSORIES
    • A47K3/00Baths; Douches; Appurtenances therefor
    • A47K3/20Baths; Douches; Appurtenances therefor combined with douches
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47KSANITARY EQUIPMENT NOT OTHERWISE PROVIDED FOR; TOILET ACCESSORIES
    • A47K3/00Baths; Douches; Appurtenances therefor
    • A47K3/28Showers or bathing douches
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03CDOMESTIC PLUMBING INSTALLATIONS FOR FRESH WATER OR WASTE WATER; SINKS
    • E03C1/00Domestic plumbing installations for fresh water or waste water; Sinks
    • E03C1/02Plumbing installations for fresh water
    • E03C1/04Water-basin installations specially adapted to wash-basins or baths
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03DWATER-CLOSETS OR URINALS WITH FLUSHING DEVICES; FLUSHING VALVES THEREFOR
    • E03D9/00Sanitary or other accessories for lavatories ; Devices for cleaning or disinfecting the toilet room or the toilet bowl; Devices for eliminating smells
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B13/00Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates
    • F03B13/10Submerged units incorporating electric generators or motors
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K13/00Thermometers specially adapted for specific purposes
    • G01K13/02Thermometers specially adapted for specific purposes for measuring temperature of moving fluids or granular materials capable of flow
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/20Hydro energy

Definitions

  • the present utility model will have an ecological application and will be used to detect the temperature of the feed water in the shower, allowing the system to be redesigned and to avoid wasting water through this sensor device.
  • these adornment sensors are designed to be installed at the outlet of the tap by means of a threaded rope at one end, its installation is very simple. In some cases these adornment sensors are already integrated in the taps.
  • washbasins in this application the designs are normally integrated to the mixers, but an external sensor can also be installed as an ornament and detects temperature ranges emitting different colors of light.
  • the sensor After installation, when the water tap is opened, the sensor emits a light indicating that there is water flow and is at a certain temperature level, if the key that was opened is that of hot water; when the water reaches a certain temperature, the color of the emitted light will change, and as it increases further, the light will change color again.
  • Blue has an operating range from room temperature to 30 degrees Celsius
  • Green has an operating range of 31 to 40 degrees Celsius
  • Red has an operating range of 41 to 45 degrees Celsius maximum.
  • Technological innovation consists in a new external body receiving the existing mechanical-electronic technology that provides the energy needed to turn on the LEDs;
  • This body or housing made of rigid polymeric material or material is designed to be installed in a pinked Tee and unlike existing ones, water will pass through the rear end of the orthogonal-shaped device-sensor; on this back will be the impeller and the temperature sensor; with the passage of water the sensor will detect the temperature and the impeller will generate the energy required for the LED's to operate and light up, which will illuminate an hexagonal cap made of acrylic material, indicating the water temperature;
  • the housing will be built with outer rope in a section of the body to be able to install it on the threaded Tee.
  • Model A was designed with a screen on the back in the shape of a half moon, to allow the flow of water to only touch the vanes at the bottom, guaranteeing movement in only one direction of the fluid;
  • model B the rear section features a closed housing with a pair of slot-type water inlets, designed to induce one-way flow and a single water outlet. With this modality a greater efficiency in the impeller rotation is obtained.
  • FIG. 8 A typical installation of the sensor device is shown in figure 8. BRIEF DESCRIPTION OF THE FIGURES.
  • Figure 1 illustrates a temperature sensing device with the half moon cover in accordance with an embodiment of the present invention.
  • Figure 2 illustrates a temperature sensing device with the cover closed and with a fluid inlet and outlet.
  • Figure 3 illustrates an expanded perspective of the temperature sensing device with the half moon cover.
  • Figure 4 illustrates an expanded perspective of the temperature sensing device with the cover closed and with fluid inlet and outlet.
  • Figure 5 illustrates a lower section of the temperature sensing device with the hexagonal front cover.
  • Figure 8 illustrates a perspective view of the installation in a temperature sensor pipe.
  • a simple device is required in its operation and does not require an electrical installation, due to the risk of an electric shock while taking a shower.
  • the sensor-ornament has a practical and simple design, but the application for which it was designed is ornamental, so it was redesigned in its general form to be able to give it a particular and ecological application.
  • the housing (2) of the sensor-device (13) was redesigned, so that it can be installed inside a Tee (11) which in turn will be connected to a sensor pipe (10); in this model the water does not pass through the housing (2), it only touches one of the ends orthogonally (figure 6) of the sensor device; at this end will be the impeller (3) and the sensor (inside the rear body), at the opposite end the LEDs (8) with a decorative and practical hexagonal front cover (1) will be placed for the installation of the device- sensor and that will allow to see the light emitted by the LEDs (8), the electronic mechanical system is installed inside the body (in the state of the art).
  • This design does not require power supply and its installation and operation is very simple since it is placed by inserting the device in the same way that a screw is placed, that is, turning on the rope of the Tee.
  • FIG. 8 With this new philosophy, we can redesign the water distribution system in a shower (figure 8), which normally includes: A hot water pipe (16) with its respective hot water tap (9) to control the passage of water, a cold water pipe (15) with its respective cold water tap (17) to control the passage of water, and a shower.
  • a hot water pipe (16) with its respective hot water tap (9) to control the passage of water
  • a cold water pipe (15) with its respective cold water tap (17) to control the passage of water
  • a shower For the recovery of the water, a new sensor pipe (10) will be added with its respective Sensor Ship (14) that will control the passage of water through this new pipe.
  • This new sensor pipe (10) will be connected at one end to the hot water pipe (16) a little before the hot water tap (9) and the other end will be taken to the cistern.
  • a tee (11) is installed after the sensor key, which will allow the device-temperature sensor (13) to be connected to the system, this sensor-device (13), will allow us to know when that the water has already reached the desired temperature, so the cold water will recover in the tank.

Abstract

The present invention relates to two embodiments (A and B) of a sensor device that differs significantly from existing sensors. The sensor is principally characterised in that it consists of a casing redesigned to be able to be installed, by means of a tee, in a bathroom shower system, thereby modifying how the water interacts with the system. With the new design, instead of the water passing through the body in order to make contact with the impeller and sensors, the water need only make contact with an end of the sensor device, where the impeller and the temperature sensor are located. With these modifications, the sensor device can be used in an ecological bathroom shower system to save water.

Description

DISPOSITVO -SENSOR DE TEMPERATURA PARA  DEVICE - TEMPERATURE SENSOR FOR
REGADERAS.  WATERPROOF.
CAMPO DE LA INVENCIÓN  FIELD OF THE INVENTION
El presente modelo de utilidad, tendrá una aplicación ecológica y servirá para detectar la temperatura del agua de alimentación en la regadera, permitiendo rediseñar el sistema y evitar el desperdicio de agua mediante este dispositivo- sensor. The present utility model will have an ecological application and will be used to detect the temperature of the feed water in the shower, allowing the system to be redesigned and to avoid wasting water through this sensor device.
ANTECEDENTES DE LA INVENCIÓN BACKGROUND OF THE INVENTION
Actualmente existen en el mercado sensores de aplicación doméstica, que detectan la temperatura del agua y sirven de adorno. Su uso es variado y la única diferencia entre los existentes en el mercado son los colores que estos emiten para cada intervalo de temperatura que indican. En estos adornos el agua pasa por el interior del cuerpo o carcasa, entrando por un extremo y saliendo por el extremo opuesto; con el paso del agua se genera el movimiento de un impulsor y a su vez produce la energía necesaria para que los sensores detecten la temperatura y operen los led's. Las aplicaciones de estos sensores son: Currently there are sensors in the market for domestic applications, which detect the temperature of the water and serve as an ornament. Its use is varied and the only difference between those existing in the market are the colors they emit for each temperature range they indicate. In these ornaments the water passes through the interior of the body or housing, entering through one end and leaving through the opposite end; With the passage of water, the movement of an impeller is generated and in turn produces the energy necessary for the sensors to detect the temperature and operate the LED's. The applications of these sensors are:
En los grifos de agua, estos sensores-adorno vienen diseñados para que se instalen en la salida del grifo por medio de una cuerda roscada en uno los extremos, su instalación es muy sencilla. En algunos casos estos sensores- adorno ya vienen integrados en los grifos. In water faucets, these adornment sensors are designed to be installed at the outlet of the tap by means of a threaded rope at one end, its installation is very simple. In some cases these adornment sensors are already integrated in the taps.
Regaderas de baño, el sensor, para este uso, ya viene integrado a las regaderas y la función es también de adorno, conforme se inicie la sesión de baño, los diferentes colores indicarán ios intervalos de temperatura del agua durante la ducha. Bathroom showers, the sensor, for this use, is already integrated into the showers and the function is also an ornament, as the bathing session begins, the Different colors will indicate the water temperature intervals during the shower.
Lavabos, en esta aplicación los diseños vienen normalmente integrados a las mezcladoras, pero también se puede instalar un sensor externo como adorno y detecta intervalos de temperatura emitiendo diferentes colores de luz. Washbasins, in this application the designs are normally integrated to the mixers, but an external sensor can also be installed as an ornament and detects temperature ranges emitting different colors of light.
Después de instalado, al abrir la llave del agua el sensor emite una luz indicando que hay flujo de agua y se encuencuentra en cierto nivel de temperatura, sí la llave que se abrió es la del agua caliente; cuando el agua alcance cierta temperatura, el color de ía luz emitida cambiará, y al incrementarse aún más, la luz cambiara nuevamente de color. After installation, when the water tap is opened, the sensor emits a light indicating that there is water flow and is at a certain temperature level, if the key that was opened is that of hot water; when the water reaches a certain temperature, the color of the emitted light will change, and as it increases further, the light will change color again.
Los colores más comunes para estos adornos son: The most common colors for these ornaments are:
Azul tiene un intervalo de operación desde la temperatura ambiente hasta 30 grados centígrados  Blue has an operating range from room temperature to 30 degrees Celsius
Verde tiene un intervalo de operación de 31 a 40 grados centígrados,  Green has an operating range of 31 to 40 degrees Celsius,
Rojo tiene un intervalo de operación de 41 a 45 grados centígrados máximo. Red has an operating range of 41 to 45 degrees Celsius maximum.
Existen también algunos sensores-adorno que manejan más colores o más intervalos de temperatura. There are also some adornment sensors that handle more colors or more temperature ranges.
BREVE DESCRIPCIÓN DE LA INVENCIÓN BRIEF DESCRIPTION OF THE INVENTION
En el presente modelo de utilidad se presentan dos modalidades { A y B) del mismo dispositivo-sensor, este se rediseña para ser aplicado de una manera práctica y ecológica para el ahorro de agua, la aplicación de las modalidades A y B dependen de las condiciones del sistema hidráulico en el que se aplique. In this utility model two modalities {A and B) of the same sensor device are presented, this is redesigned to be applied in a practical and ecological way to save water, the application of modalities A and B depend on the conditions of the hydraulic system in which it is applied.
La instalación requerirá de una nueva tubería de sensor, una Tee y el sensor. Tanto la tubería de sensor y la Tee se encontraran ocultas detrás del azulejo dei baño y el sensor se encontraran formando parte del sistema de Haves de agua de la regadera, delante dei azulejo del baño. Este modelo de utilidad se usará en un nuevo sistema de manejo de agua que se utilizará en las regaderas de baño, ahorrando una gran cantidad de agua que actualmente se desperdicia con el sistema actual. La innovación tecnológica consiste, en un nuevo cuerpo externo receptor de te tecnología mecánica-electrónica existente que proporciona la energía necesaria para encender los led's; este cuerpo o carcasa fabricado en material polimérico rígido o material se diseño para ser instalado en un Tee rosacada y a diferencia de los existentes, el agua pasará por el extremo posterior del dispositivo-sensor de forma ortogonal; en esta parte posterior estará el impulsor y el sensor de temperatura; con el paso del agua el sensor detectará la temperatura y el impulsor generará la energía requerida para que operen y se enciendan los led's que iluminarán una tapa hexagonal de material acrílico, indicando la temperatura del agua; la carcasa vendrá construida con cuerda exterior en una sección del cuerpo para poder instalarlo en la Tee roscada. El modelo A se diseño con una mampara en ia parte posterior en forma de media luna, para permitir que el flujo de agua solo toque las paletas por la parte inferior, garantizando el movimiento en una sola dirección del fluido; en el modelo B, la sección posterior presenta una carcaza cerrada con un par de entradas de agua tipo ranura, diseñadas para inducir el flujo en un sentido y una sola salida de agua. Con esta modalidad se obtiene una mayor eficiencia en el giro del impulsor. Installation will require a new sensor pipe, a Tee and the sensor. Both the sensor pipe and the Tee will be hidden behind the bathroom tile and the sensor will be part of the water Halas system of the shower, in front of the bathroom tile. This utility model will be used in a new water management system that will be used in bathroom showers, saving a large amount of water that is currently wasted with the current system. Technological innovation consists in a new external body receiving the existing mechanical-electronic technology that provides the energy needed to turn on the LEDs; This body or housing made of rigid polymeric material or material is designed to be installed in a pinked Tee and unlike existing ones, water will pass through the rear end of the orthogonal-shaped device-sensor; on this back will be the impeller and the temperature sensor; with the passage of water the sensor will detect the temperature and the impeller will generate the energy required for the LED's to operate and light up, which will illuminate an hexagonal cap made of acrylic material, indicating the water temperature; The housing will be built with outer rope in a section of the body to be able to install it on the threaded Tee. Model A was designed with a screen on the back in the shape of a half moon, to allow the flow of water to only touch the vanes at the bottom, guaranteeing movement in only one direction of the fluid; In model B, the rear section features a closed housing with a pair of slot-type water inlets, designed to induce one-way flow and a single water outlet. With this modality a greater efficiency in the impeller rotation is obtained.
En la figura 8 se muestra una instalación típica del dispositivo-sensor. BREVE DESCRIPCIÓN DE LAS FIGURAS. A typical installation of the sensor device is shown in figure 8. BRIEF DESCRIPTION OF THE FIGURES.
Las figuras anexas, que se incorporan a la presente solicitud, constituyen una parte de esta especificación, ilustra una o más modalidades de ejemplo y junto con la descripción de las modalides, sirven para explicar los principios e implementaciones. The attached figures, which are incorporated into the present application, constitute a part of this specification, illustrate one or more example modalities and together with the description of the modalities, serve to explain the principles and implementations.
La figura 1 ilustra un dispositivo sensor de temperatura con la cubierta de media luna de conformidad con una modalidad de ia presente invención. La figura 2 ilustra un dispositivo sensor de temperatura con la cubierta cerrada y con una entrada y salida de fluido. Figure 1 illustrates a temperature sensing device with the half moon cover in accordance with an embodiment of the present invention. Figure 2 illustrates a temperature sensing device with the cover closed and with a fluid inlet and outlet.
La Figura 3 ilustra una perspectiva expandida del dispositivo sensor de temperatura con la cubierta de media luna.  Figure 3 illustrates an expanded perspective of the temperature sensing device with the half moon cover.
La Figura 4 ilustra una perspectiva expandida del dispositivo sensor de temperatura con la cubierta cerrada y con entrada y salida de fluido.  Figure 4 illustrates an expanded perspective of the temperature sensing device with the cover closed and with fluid inlet and outlet.
La Figura 5 ilustra una sección inferior del dispositivo sensor de temperatura con la tapa frontal hexagonal.  Figure 5 illustrates a lower section of the temperature sensing device with the hexagonal front cover.
La figura 8 ilustra una vista en perspectiva de la instalación en una tubería de sensor de temperatura.  Figure 8 illustrates a perspective view of the installation in a temperature sensor pipe.
DESCRIPCION DETALLADA DE LA INVENCIÓN DETAILED DESCRIPTION OF THE INVENTION
Para poder detectar la temperatura del agua en el sistema de regadera de baño y evitar así el desperdicio de agua, se requiere de un dispositivo sencillo en su operación y que no requiera de una instalación eléctrica, debido al riesgo de una descarga eléctrica mientras se toma una ducha. To be able to detect the temperature of the water in the bathroom shower system and thus avoid wasting water, a simple device is required in its operation and does not require an electrical installation, due to the risk of an electric shock while taking a shower.
El sensor-adorno, tiene un diseño práctico y sencillo, pero la aplicación para la que fue diseñado es ornamental, por lo que se rediseño en su forma general para poder darle una aplicación particular y ecológica.  The sensor-ornament has a practical and simple design, but the application for which it was designed is ornamental, so it was redesigned in its general form to be able to give it a particular and ecological application.
Con los modelos de utilidad propuestos (Figura 1 y 2), se rediseño ia carcasa (2), del dispositivo-sensor (13), para poder instalarlo dentro de una Tee (11) que a su vez estará conectada a una tubería de sensor (10); en este modelo el agua no atraviesa la carcaza (2), solo toca de forma ortogonal uno de los extremos (figura 6) del dispositivo-sensor; en este extremo estará el impulsor (3) y el sensor (en el interior del cuerpo parte posterior), en el extremo opuesto se colocaran los led's (8) con una tapa frontal hexagonal (1) decorativa y practica para la instalación del dispositivo-sensor y que permitirá ver la luz que emitirán los led's (8), en ei interior del cuerpo se instala ei sistema mecánico electrónico (en el estado de ia técnica). Con la nueva carcaza (2) y la posición en que operará este dispositivo-sensor (13), se requiere de un rediseño de la posición y arreglo del impulsor (3), ya que el agua estará en contacto con el dispositivo-sensor de forma ortogonal. Para una buena eficiencia de operación del Impulsor en la modalidad A, se agrega una cubierta en forma de media luna (4), que permitirá que el agua toque solo las paletas que estén del centro del impulsor hacia abajo, permitiendo que este se mueva en un solo sentido; en ia modalidad B, se tiene el mismo arreglo del impulsor , pero con la carcaza cerrada, dos entradas de agua (5) y una salida de agua (6) en el lado opuesto, estas entradas mejoran la velocidad y la forma en que el agua empuja al impulsor; en las figuras 3 y 4 se puede ver ¡a localización del impulsor (3) y la media luna (4); en la modalidad B, (figura 2) se ve las entradas (5) y salida de agua (6). With the proposed utility models (Figure 1 and 2), the housing (2) of the sensor-device (13) was redesigned, so that it can be installed inside a Tee (11) which in turn will be connected to a sensor pipe (10); in this model the water does not pass through the housing (2), it only touches one of the ends orthogonally (figure 6) of the sensor device; at this end will be the impeller (3) and the sensor (inside the rear body), at the opposite end the LEDs (8) with a decorative and practical hexagonal front cover (1) will be placed for the installation of the device- sensor and that will allow to see the light emitted by the LEDs (8), the electronic mechanical system is installed inside the body (in the state of the art). With the new housing (2) and the position in which this sensor device will operate (13), a redesign of the position and arrangement of the impeller (3) is required, since the water will be in contact with the sensor-device of orthogonal shape For a good efficiency of operation of the impeller in the A mode, a half-moon-shaped cover (4) is added, which will allow the water to touch only the vanes that are from the center of the impeller down, allowing it to move in One way; In the B mode, the same impeller arrangement is had, but with the housing closed, two water inlets (5) and a water outlet (6) on the opposite side, these inputs improve the speed and the way in which the water pushes the impeller; Figures 3 and 4 show the location of the impeller (3) and the crescent (4); in mode B, (figure 2) you can see the inlets (5) and water outlet (6).
Este diseño no requiere de alimentación eléctrica y su instalación y operación es muy simple ya que se coloca introduciendo el dispositivo de la misma forma que se pone un tornillo, o sea girando sobre ia cuerda de la Tee. This design does not require power supply and its installation and operation is very simple since it is placed by inserting the device in the same way that a screw is placed, that is, turning on the rope of the Tee.
FUNCIONAMIENTO DEL DISPOSITIVO SENSOR MODALIDAD A Y B OPERATION OF THE SENSOR DEVICE MODE A AND B
Con el dispositivo-sensor instalado en ia tubería de agua (modalidad: A o B). With the sensor device installed in the water pipe (mode: A or B).
1° paso.- Se abre la llave de agua de Sensor. 1st step.- The water tap of the Sensor is opened.
2° paso.- Se enciende automáticamente al paso del agua el dispositivo-sensor, en color azul (Intervalo de temperatura de ambiente a 31 grados centígrados). 2nd paso.- turns on automatically when water flow-sensor device, blue (range of ambient temperature to 31 degrees Celsius).
3° paso.- Al paso del agua más caliente el dispositivo-sensor, cambia a color verde (intervalo de temperatura de 32 a 43 grados centígrados). 3rd step.- When the warmer water passes, the sensor device changes to green (temperature range from 32 to 43 degrees Celsius).
4° paso.- Al paso del agua a mayor temperatura el dispositivo-sensor, cambia a color rojo (intervalo de temperatura de 44 a 45 grados centígrados).  4th step.- At the passage of water at a higher temperature the sensor device changes to a red color (temperature range from 44 to 45 degrees Celsius).
5° paso.- Se cierra ¡a llave del sensor y se abre la llave de agua caliente para tomar una ducha de la manera tradicional. APLICACION DEL DISPOSITIVO SENSOR 5th step.- The sensor key is closed and the hot water tap is opened to take a shower in the traditional way. APPLICATION OF THE SENSOR DEVICE
Con la disponibilidad de esíe sensor, se puede rediseñar la forma en cómo se construye el sistema de manejo de agua caliente en las regaderas, lo que permite recuperar el agua fría que se encuentra en la tubería de agua caliente y que actualmente se desperdicia por estar fría, tirándola ai drenaje. With the availability of this sensor, it is possible to redesign the way in which the hot water management system is built in the showers, which allows recovering the cold water that is in the hot water pipe and which is currently wasted by being cold, throwing it to the drain.
Con esta nueva filosofía, podemos rediseñar el sistema de distribución de agua en una regadera (figura 8), que incluye normalmente: Una tubería de agua caliente (16) con su respectiva llave de agua caliente (9) para controlar el paso del agua, una tubería de agua fría (15) con su respectiva llave de agua fría (17) para controlar el paso del agua, y una regadera . Para ia recuperación del agua se adicionará una nueva tubería de sensor (10) con su respectiva Nave de sensor (14) que controlará el paso del agua por esta nueva tubería. Esta nueva tubería de sensor (10), estará conectada en un extremo a la tubería de agua caliente (16) un poco antes de la llave de agua caliente (9) y el otro extremo se llevara hasta la cisterna. Sobre la tubería de sensor, se instala después de ¡a llave de sensor una tee (11), que permitirá conectar el dispositivo-sensor de temperatura (13) al sistema, este dispositivo-sensor (13), nos permitirá conocer el momento en que el agua ya alcanzo la temperatura deseada, así el agua fría se recuperará en la cisterna. With this new philosophy, we can redesign the water distribution system in a shower (figure 8), which normally includes: A hot water pipe (16) with its respective hot water tap (9) to control the passage of water, a cold water pipe (15) with its respective cold water tap (17) to control the passage of water, and a shower. For the recovery of the water, a new sensor pipe (10) will be added with its respective Sensor Ship (14) that will control the passage of water through this new pipe. This new sensor pipe (10) will be connected at one end to the hot water pipe (16) a little before the hot water tap (9) and the other end will be taken to the cistern. On the sensor pipe, a tee (11) is installed after the sensor key, which will allow the device-temperature sensor (13) to be connected to the system, this sensor-device (13), will allow us to know when that the water has already reached the desired temperature, so the cold water will recover in the tank.

Claims

NOVEDAD DE LA INVENCIÓN NEW OF THE INVENTION
REIVINDICACIONES
Habiendo descrito suficiente mi invención, la considero una novedad y por lo tanto reclamo como de mi exclusiva propiedad, lo contenido en las siguientes cláusulas: 1 - Un dispositivo-sensor de temperatura, que en su modalidad A, comprende: Having sufficiently described my invention, I consider it a novelty and therefore claim as my exclusive property, the content of the following clauses: 1 - A temperature sensor-device, which in its modality A, comprises:
Una carcasa que tiene un extremo próximo con un diámetro mayor y una rosca exterior y un extremo distal con un diámetro menor y con una tapa de media luna; en donde entre la tapa de media luna y el extremo distal lleva en su interior un sistema inteligente constituido por: un generador de corriente, un sensor de temperatura, una tarjeta de control y un impulsor; en el extremo próximo lleva unida a tope un tapa frontal transparente en donde entre el extremo próximo y la tapa frontal transparente lleva en su interior el sistemas de ied's, que cambia de color azul, a color verde y a color rojo y viceversa; dicho dispositivo sensor de temperatura se coloca dentro de una tubería de agua para su funcionamiento Caracterizado porque: La carcaza esta diseñada para ser colocada en una tee permírtiendo que ei agua que genera la energía, toque solo un extremo, ortogonalmente. A housing having a proximal end with a larger diameter and an outer thread and a distal end with a smaller diameter and with a crescent cover; where between the half-moon cover and the distal end it carries inside an intelligent system consisting of: a current generator, a temperature sensor, a control card and an impeller; at the near end it has a transparent front cover butt where between the near end and the transparent front cover it carries inside the ied's systems, which changes from blue, to green and to red and vice versa; said temperature sensing device is placed inside a water pipe for its operation. Characterized because: The housing is designed to be placed on a tee allowing the water that generates the energy to touch only one end, orthogonally.
2. - Un dispositivo-sensor de temperatura, de conformidad con la reivindicación 1 caracterizado porque, la carcaza del dispositivo-sensor de temperatura esta echo de un material polimérico rígido o metálico. 2. - A temperature sensor device according to claim 1, characterized in that the housing of the temperature sensor device is made of a rigid or metallic polymeric material.
3. - Un dispositivo-sensor de temperatura, que de conformidad con la reivindicación 1 , la modalidad A esta caracterizado, porque presenta en la parte posterior una medía luna que permite que el agua golpee en una sola dirección el impulsor. 3. - A temperature sensor device, which according to claim 1, the A mode is characterized in that it has a half moon on the back that allows water to hit the impeller in only one direction.
4 .- Un dispositivo-sensor de temperatura que comprende: 4 .- A temperature sensor device that includes:
Una carcasa que tiene en la modalidad B, un extremo próximo con un diámetro mayor y una rosca exterior y un extremo dista l con un diámetro menor con dos ranuras equidistantes de entrada de agua y con una tapa cerrada con una ranura superior de salida de agua; en donde entre ía tapa cerrada con una ranura superior y el extremo dístal con dos ranuras equidistantes lleva en su interior un sistema inteligente constituido por: un generador de corriente, un sensor de temperatura, una tarjeta de control y un impuisor; en el extremo próximo lleva unida a tope, un tapa frontal transparente de material polimérico rígido en donde entre el extremo próximo y la tapa frontal transparente lleva en su interior un sistemas de led's, que cambia de color azul, a color verde y a color rojo y viceversa; dicho dispositivo sensor de temperatura se coloca dentro de una tubería de agua para su funcionamiento A housing that has in the B mode, a proximal end with a larger diameter and an outer thread and an end is l with a smaller diameter with two equidistant water inlet slots and with a closed lid with an upper water outlet slot; where between the closed lid with an upper groove and the end of the two equidistant slots inside it has an intelligent system consisting of: a current generator, a temperature sensor, a control card and an imputer; at the extreme end it has a butt, a transparent front cover made of rigid polymeric material, where between the near end and the transparent front cover there is a led system inside, which changes from blue, green and red and vice versa; said temperature sensor device is placed inside a water pipe for operation
Caracterizado porque: La carcaza esta diseñada para ser colocada en una tee permirtiendo que el agua que genera la energía, toque solo un extremo, ortogonalmente. Characterized because: The shell is designed to be placed on a tee allowing the water that generates the energy to touch only one end, orthogonally.
5. - Un dispositivo-sensor de temperatura, de conformidad con la reivindicación 4 caracterizado porque, La carcaza del dispositivo-sensor de temperatura esta echo de un material polimérico rígido o metálico, 5. - A temperature sensor device according to claim 4 characterized in that, The housing of the temperature sensor device is made of a rigid or metallic polymeric material,
6, - Un dispositivo-sensor de temperatura, que de conformidad con la reivindicación 4, la modalidad B esta caracterizado, porque presenta en la parte posterior ranuras sobre el cuerpo, permitiendo la entrada del agua para hacer girar el impuso en una sola dirección y una salida en forma rectangular que permite la salida del agua, 6, - A temperature sensor device, which according to claim 4, mode B is characterized in that it has grooves on the body on the back, allowing the entry of water to rotate the imposed in a single direction and a rectangular shaped outlet that allows water to escape,
PCT/MX2017/000010 2016-02-11 2017-02-03 Temperature sensor device for showers WO2017138806A1 (en)

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US7252431B1 (en) * 2003-10-28 2007-08-07 Caramanna A Gregory Water temperature monitoring apparatus
US20050205680A1 (en) * 2004-03-19 2005-09-22 Miss. Gregory Valente Water Saver
US20090154524A1 (en) * 2006-04-28 2009-06-18 Agostino Girelli Integrated System for Hydro-Thermo-Sanitary Apparatuses
US20080022920A1 (en) * 2006-07-10 2008-01-31 Patent-Treuhand-Gesellschaft Fur Elektrische Gluhlampen Mbh Energy transducer module and light apparatus
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