ES1141531U

ES1141531U - Stool heated by air convection using renewable, sustainable and non-polluting energies (Machine-translation by Google Translate, not legally binding)

Info

Publication number: ES1141531U
Application number: ES201500375U
Authority: ES
Inventors: Jorge CARNICÉ PUIG
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-05-19
Filing date: 2015-05-19
Publication date: 2015-07-17
Anticipated expiration: 2025-05-19
Also published as: ES1141531Y

Abstract

Stool heated to heat the environment comprising a base (2) and a metal structure (4) which in turn incorporates a perpetual fuel burner reservoir (7) with a flame regulator (8) operable from the outside of said structure, or failing that, a one-use burner tank, removable in both cases, characterized by: - housing a system of convection of channeled air, controlled and adjustable through a base (2), a deposit-burner (7), a flame regulator (8) and a metal structure (4). - a deposit-burner (7) fueled with fuels from sustainable, renewable and non-polluting energies, usually denatured alcohols of vegetable origin, adjustable and containing inside a filling blanket composed of aluminum silicate wool or silica with a high absorbing power and resistant to heat and fire, which minimizes the effects of a possible spill by accidental overturning of the heated stool. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPCIÓN

Taburete calefactado por convección de aire utilizando energías renovables, sostenibles y no contaminantes.
5
La presente invención se refiere a un taburete calefactado autónomo que calienta el ambiente mediante un sistema de convección de aire de forma canalizada, controlada y regulable, utilizando combustibles procedentes de energías no convencionales autorizadas, normalmente alcoholes desnaturalizados de origen vegetal, ya sean en estado líquido, en gel con distintos niveles de viscosidad, o en formato sólido. 10

Antecedentes de la invención

El Reglamento de Instalaciones Térmicas de Edificios (RITE) que en su apartado 1.2.4.6.4 referido a la climatización de espacios abiertos, que a su vez emana de la 15 normativa 1990/396/CEE de 29 de Junio, concreta que "la climatización de espacios abiertos solo podrá realizarse mediante la utilización de energías renovables o residuales, no pudiéndose utilizar energías convencionales para la generación de calor y frío, destinado a la climatización de estos espacios. Además, y en ningún caso, la utilización de estas energías podrá ser contaminante". 20

Esta normativa, adquirió notoriedad con la entrada en vigor de la Ley antitabaco, lo que provocó la aparición de elementos generadores de calor para calefactar espacios públicos abiertos o semi-cubiertos, apareciendo en el mercado de forma improvisada una serie de elementos productores de calor que incumplían y siguen incumpliendo total o 25 parcialmente la normativa anteriormente citada, de tal manera que en algunos países de la UE (Francia, Alemania y Bélgica, entre otros) ya está totalmente prohibida la utilización de algunos de estos aparatos, sobre todo los que funcionan con gas butano, conocidos popularmente como "setas" y en otros países (España e Italia entre otros) ya se ha empezado a aplicar esta normativa prácticamente ignorada desde su publicación en junio 30 de 1990.

Otra opción para calentar espacios abiertos, son los sistemas de calefacción que utilizan la electricidad ya sea en forma de pantallas proyectaras equipadas con lámparas halógenas o de infrarrojos situadas en las zonas altas de las terrazas y de los veladores, 35 o las mesas con algún elemento calefactor ya sea por infrarrojos o por resistencias eléctricas que suelen tener el generador de calor en su base o en una columna como el inscrito con el número de publicación 1 093 607 y otros.

Sin entrar en detalles de las particularidades de cada uno de estos sistemas (consumos, 40 eficiencia energética, nivel de contaminación, desequilibrios en la temperatura corporal, etc.) simplemente destacar que ninguno de ellos cumple al 100% con la normativa europea anteriormente citada.

Los aparatos que utilizan gas son altamente contaminantes y los eléctricos tampoco la 45 cumplen por el hecho de que existen centrales térmicas y nucleares con lo cual y en origen, la energía producida no es renovable, ni sostenible y además es contaminante.

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Descripción de la invención

El objetivo de la presente invención es el de proporcionar un taburete calefactado que cumple con la normativa 1990/396/CEE de 29 de Junio y con el Reglamento de Instalaciones Térmicas de Edificios (RITE) apartado 1.2.4.6.4 siendo por ello utilizable en 5 terrazas abiertas, jardines, etc. y por el hecho de utilizar combustibles no contaminantes, también en espacios semi-cerrados o cerrados.

El sistema de transferencia del calor es por convección de aire transportando el aire calentado en sentido ascendente por el interior de una estructura metálica. Para 10 conseguirlo, la estructura metálica, por medio de diferentes puntos de entrada y salida de aire, provoca una corriente de aire ascendente canalizada, controlada y regulada que entra en contacto con una llama de fuego producida por la combustión de un combustible no contaminante líquido, gelificado o sólido contenido en un depósito-quemador.
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El equilibrio entre el caudal de aire de entrada, la potencia calorífica del combustible utilizado, la intensidad de la llama de fuego, el volumen de aire a calentar y la intensidad de la corriente de aire provocada dentro de la estructura metálica, asi como el control de salida del aire caliente producido, son los factores que determinan la idoneidad del taburete calefactado, contribuyendo todos ellos a producir una adecuada sensación de 20 confort para el usuario.

Otro tipo de factores relevantes que se han previsto, son los referentes a la seguridad y que se resumen básicamente en dos aspectos: el control del combustible en caso de vuelco del taburete por accidente, y el control de la temperatura de las partes externas de 25 dicha columna que en ningún caso pueda ser causa de quemaduras para sus usuarios.

La autonomía del depósito-quemador ha sido otro factor tenido en cuenta, al tener que ajustarse lo máximo posible a la duración de una jornada laboral ya que estos taburetes están pensados básicamente para ser utilizadas en espacios abiertos o semi-cerrados de 30 locales públicos (Cafeterías, restaurantes, etc.). Por último, el peso y las dimensiones del taburete también han sido tenidos en cuenta con el fin de facilitar su traslado y almacenamiento de una forma razonablemente cómoda.

El equilibrio adecuado entre todos estos factores son los que permiten obtener un 35 resultado óptimo de este taburete calefactado.

Este taburete calefactado, sigue el mismo principio propuesto en el modelo de utilidad 201400725 concedido con fecha 20/01/2015 y publicado en el BOPI con fecha 26/01/2015 referido a una mesa calefactora. 40

Para completar la descripción que seguidamente se va a realizar y con objeto de ayudar a una mejor comprensión de las características del invento, se acompaña a la presente memoria descriptiva unas figuras representativas.
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Descripción de las figuras

Figura 1 -Taburete calefactado con cristales en perspectiva 1.

Figura 2 - Taburete calefactado opaco en perspectiva 2. 50

Figura 3 - Despiece del taburete calefactado.

Figura 4 - Esquema del movimiento del aire generado por el taburete calefactado.

Lista de los elementos contenidos en las figuras 5

1 Pies niveladores.

2 Base.
10
3 Apertura base.

4 Estructura metálica.

5 Cajón metálico. 15

6 Guía metálica.

7 Depósito-Quemador.
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8 Regulador de la llama.

9 Salida de la llama.

10 Distribuidor de aire. 25

11 Cerradura de seguridad.

12 Reposa pies.
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13 Tirador manual.

14 Cristales.

15 Soportes cristales. 35

16 Difusor.

17 Salida aire caliente.
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18 Base asiento.

19 Orificios de ventilación.

20 Respaldo-canalizador. 45

21 Dispositivo LED.

22 Termómetro de cristal líquido.
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23 Tronco de cono.
Descripción de una forma de realización preferida

Este taburete calefactado está compuesto por una base (2) cuadrada o con otro diseño, de metal o de cualquier otro tipo de material que cubra las exigencias requeridas para su uso a la intemperie. Esta base (2) va provista de unos pies niveladores (1), 3 o 4 pies en 5 función del diseño de la base, terminados con una goma o cualquier otro tipo de material resistente al arrastre y que no provoque contaminación acústica. El peso, el diseño, el material utilizado y las dimensiones de esta base (2) deben ser los adecuados para asegurar la estabilidad y la robustez de todo el conjunto del taburete. En el centro de esta base (2) existe una apertura (3) que facilita la entrada de aire a temperatura ambiente, 10 cuyo objetivo es el de proporcionar oxígeno al depósito-quemador (7) que contiene el combustible y el de refrigerar el cuerpo del mismo. Esta apertura podría ser sustituida o complementada por unos orificios en la parte del tronco metálico (4), comprendida entre la base (2) y el distribuidor del aire (10).
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La base (2) sustenta una estructura (4), que puede ser en metal pintado, en acero inoxidable, en acero corten, aluminio, cerámica o en cualquier otro tipo de material que posea las características de dureza, resistencia al calor, resistencia a deformaciones y resistencia al posible contacto con el fuego requeridas por este tipo de mobiliario.
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Esta estructura (4) puede ser cuadrada o de cualquier otra forma regular o irregular y de diferentes alturas según sus características de uso. Puede ir soldada o unida a la base (2) mediante cualquier otro sistema de sujeción que admita el diseño de la misma, siempre que quede garantizada la solidez de dicha unión.
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La parte posterior de la estructura metálica (4) incorpora en su interior un cajón metálico (5) extraíble mediante guías (6), provisto de una cerradura de seguridad (11) y de un tirador manual (13) para facilitar su abertura.

En este cajón (5) se ubica el depósito-quemador (7) que contiene el combustible que al 30 arder produce una llama de fuego continua que calienta el aire y lo hace circular en sentido ascendente por la estructura metálica (4) del taburete.

El depósito-quemador (7) es rellenable, fabricado en acero inoxidable, cúbico o cilíndrico y provisto de un regulador de llama pivotante (8) incorporado en su parte superior y 35 formado por una sola pieza que permite la regulación y el apagado de la llama desde el exterior de la estructura metálica (4) del taburete. El encendido de la llama se produce en cualquier caso por el contacto directo de una llama externa (mechero o cerilla) con la superficie del combustible contenido en el depósito-quemador (7).
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El depósito-quemador (7) es un elemento perpetuo, rellenable y diseñado para ser utilizado con combustible líquido o gelificado. Si no se le somete a un uso inadecuado, la vida útil de este depósito-quemador (7) y del regulador de llama (8) es ilimitada.

Este depósito-quemador (7) perpetuo puede ser sustituido por otro tipo de contenedor de 45 un solo uso, en cuyo caso el combustible a utilizar debe ser gelificado o sólido, no admitiéndose el formato líquido por motivos de seguridad, de funcionamiento y del control de la llama.

El depósito-quemador (7) perpetuo contiene en su interior una manta de relleno 50 compuesta por lana de silicato de aluminio, de sílice o de cualquier otro material con un
alto poder absorbente y resistente al calor y al fuego, que minimice los efectos de un posible derrame por vuelco accidental del taburete calefactado.

Por encima de la salida de la llama (9) del depósito-quemador (7), se sitúa un distribuidor de aire (10) fabricado en acero inoxidable fijado a la estructura metálica (4) y con una 5 serie de aperturas repartidas por su superficie que tienen por misión la de distribuir el aire captado a través de la apertura (3) de la base (2).

Una parte del aire asciende por las paredes interiores de la estructura metálica (4), causando un efecto refrigerante que reduce el riesgo de que dichas paredes alcancen 10 una temperatura exterior excesiva.

Otra parte del aire canalizado va dirigido a la salida de la llama (9) del depósito-quemador (7) para conseguir su correcta combustión.
15
El resto del aire captado sirve para templar la potencia calorífica del combustible utilizado (aproximadamente entre 5,5 y 8 Kw/hora/Kg, dependiendo de la pureza del mismo), evitando de esta manera calentar en exceso el aire contenido en la estructura metálica (4) y en consecuencia evitar que algunas partes del taburete alcancen una temperatura que al contacto con alguna parte del cuerpo pudiese suponer un riesgo de quemaduras 20 para los usuarios.

Un tramo de esta estructura metálica (4), incorpora una o varias piezas de cristal (14), máximo una por cada cara, que permiten visualizar el interior de dicha estructura, lo que confiere al taburete calefactado un especial atractivo, al permitir visualizar la llama de 25 fuego del quemador desde cualquier ángulo de visión. Para lograr un nivel de seguridad adecuado, estos cristales deben ser resistentes al calor, al contacto ocasional con el fuego y a los posibles impactos accidentales que puedan sufrir.

Los cristales (14) están sujetados a la estructura metálica (4) tanto en su parte inferior 30 como en su parte superior, por unos soportes metálicos diseñados al efecto (15). Dada la casuística que influye en el rendimiento del depósito-quemador (7) (temperatura ambiente, altura sobre el nivel del mar, viento, etc...), uno de los cristales incorpora en su parte superior un termómetro de cristal líquido auto-adhesivo (22) que informa de la temperatura a la que se encuentra la estructura en aquel punto en concreto. Esta 35 información supone una ayuda para regular adecuadamente la potencia de la llama en función de los factores que influyen en el rendimiento del taburete calefactado, y también supone un factor de aviso de riesgo si dicha temperatura llegase a ser demasiado alta.

Estos cristales (14) son de fácil acceso para poder ser limpiados en caso de necesidad o 40 sustituidos en caso de ruptura accidental.

En el interior de la estructura metálica (4) y en un plano superior al de la salida de la llama (9), puede llevar incorporada una pieza en forma de tronco de cono (23) que dirija el aire caliente hacia el difusor de aire (17), creando una cámara de aire aislante entre 45 dicho tronco de cono y las paredes de la estructura metálica (4), evitándose de esta manera un calentamiento excesivo de dicha estructura, al mismo tiempo que acelera la proyección al exterior del aire caliente producido por la llama del depósito-quemador (7), aumentándose de esta manera la sensación de calor. Este tronco de cono (23) también incide en el ahorro de combustible y en el consiguiente aumento de la autonomía del 50
depósito-quemador ya que al verse aumentada la sensación de calor, se puede reducir la intensidad de la llama que calienta el aire manteniéndose la misma sensación de confort.

Hasta este punto, la estructura metálica (4) no dispone de ningún orificio de salida para el aire caliente producido por la llama del depósito-quemador (7). El primer componente que 5 dirige el aire caliente hacia el exterior de la estructura metálica (4) es el difusor (16).

El difusor (16) es un elemento metálico extraíble o fijo, en forma geométrica según determine el diseño de la columna. Su posición siempre es invertida con respeto a la dirección de la salida de la llama (9) del depósito-quemador (7). 10

El difusor (16) tiene por objetivo el canalizar y distribuir de forma adecuada la salida del aire caliente existente en la estructura metálica (4) a través de las aperturas (17) de la estructura metálica (4).
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La parte superior de la estructura metálica (4) dispone de unas aberturas (19) que facilitan la salida del aire caliente que el difusor (16) no haya podido canalizar al exterior por las salidas de aire caliente (17), evitando de esta manera un calentamiento excesivo del asiento del taburete (18) y de la parte superior de la estructura metálica (4).
20
La parte del asiento del taburete (18) queda terminada por un respaldo-canalizador (20) que mejora la comodidad del usuario. Entre el soporte del asiento (18) y el respaldo-canalizador (20) se sitúa una salida de aire caliente (17) que tempera la zona lumbar y la espalda del usuario.
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El último elemento de confort es un reposa pies (12) situado en la parte frontal de la estructura metálica (4).

Otra variante constructiva se basa en la eliminación total o parcial de los cristales (14) y sus soportes (15), convirtiéndose la estructura metálica del taburete (4) en una columna 30 opaca, quedando anulada total o parcialmente la visión de la llama del depósito-quemador (7).

Otra variante constructiva consiste en la posibilidad de incorporar al taburete un dispositivo LED (21) en sustitución del depósito-quemador (5). Se trata de un elemento 35 de las mismas dimensiones y características exteriores que el depósito-quemador (7), en cuyo interior se aloja una batería recargable y un LED programable (21), accionado por un mando a distancia. Otra posibilidad consiste en sustituir la batería recargable, por una conexión directa a la red eléctrica.
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La opción LED confiere al taburete calefactado un atractivo adicional en épocas de bonanza climática.

Cualquier componente externo del taburete calefactado, base metálica (2), estructura metálica (4) asiento (18) o respaldo (20) pueden ser personalizables. 45
DESCRIPTION

Stool heated by air convection using renewable, sustainable and non-polluting energy.
5
The present invention relates to an autonomous heated stool that heats the environment by means of an air convection system in a channeled, controlled and adjustable manner, using fuels from authorized unconventional energies, normally denatured alcohols of vegetable origin, whether in a liquid state , in gel with different levels of viscosity, or in solid format. 10

Background of the invention

The Regulation of Thermal Installations of Buildings (RITE) which in its section 1.2.4.6.4 referred to the air conditioning of open spaces, which in turn emanates from the 15 regulations 1990/396 / EEC of June 29, specifies that "the The air conditioning of open spaces can only be carried out through the use of renewable or residual energies, and conventional energy cannot be used for the generation of heat and cold, intended for the air conditioning of these spaces, and in no case, the use of these energies may be polluting. " twenty

This regulation acquired notoriety with the entry into force of the Anti-Smoking Law, which caused the appearance of heat generating elements to heat open or semi-covered public spaces, appearing on the market improvised a series of heat producing elements that they did not comply and continue to totally or partially violate the aforementioned regulations, so that in some EU countries (France, Germany and Belgium, among others) the use of some of these devices is already completely prohibited, especially those that work With butane gas, popularly known as "mushrooms" and in other countries (Spain and Italy, among others), this regulation has been practically ignored since its publication on June 30, 1990.

Another option for heating open spaces, are heating systems that use electricity either in the form of projection screens equipped with halogen or infrared lamps located in the high areas of the terraces and the veiling, 35 or tables with some element heater either by infrared or by electric resistances that the heat generator usually has at its base or in a column like the one registered with publication number 1 093 607 and others.

Without going into details of the particularities of each of these systems (consumption, energy efficiency, level of contamination, imbalances in body temperature, etc.), simply note that none of them comply 100% with the aforementioned European regulations.

The devices that use gas are highly polluting and the electric ones do not comply with the fact that there are thermal and nuclear power plants, which, in origin, the energy produced is not renewable, nor sustainable, and it is also polluting.

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Description of the invention

The objective of the present invention is to provide a heated stool that complies with the regulations 1990/396 / EEC of June 29 and with the Regulation of Thermal Installations of Buildings (RITE) section 1.2.4.6.4 being therefore usable in 5 open terraces, gardens, etc. and by the fact of using non-polluting fuels, also in semi-closed or closed spaces.

The heat transfer system is by convection of air transporting the heated air upwards through the inside of a metal structure. To achieve this, the metal structure, by means of different points of entry and exit of air, causes an upstream of channeled, controlled and regulated air that comes into contact with a flame of fire produced by the combustion of a liquid non-polluting fuel , gelled or solid contained in a burner tank.
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The balance between the intake air flow, the heat output of the fuel used, the intensity of the fire flame, the volume of air to be heated and the intensity of the air flow caused within the metal structure, as well as the control The output of the hot air produced is the factors that determine the suitability of the heated stool, all of which contribute to producing an adequate feeling of comfort for the user.

Another type of relevant factors that have been foreseen, are those related to safety and which are basically summarized in two aspects: the control of the fuel in case of overturning of the stool by accident, and the control of the temperature of the external parts of said column that in no case can cause burns for its users.

The autonomy of the tank-burner has been another factor taken into account, having to adjust as much as possible to the duration of a working day since these stools are basically designed to be used in open or semi-closed spaces of 30 public places ( Cafes, restaurants, etc.). Finally, the weight and dimensions of the stool have also been taken into account in order to facilitate its transfer and storage in a reasonably comfortable way.

The right balance between all these factors is what allows to obtain an optimal result of this heated stool.

This heated stool follows the same principle proposed in the 201400725 utility model granted on 01/20/2015 and published in the BOPI on 01/26/2015 referring to a heating table. 40

In order to complete the description that will then be made and in order to help a better understanding of the features of the invention, representative figures are attached to the present specification.
Four. Five
Description of the figures

Figure 1 - Heated stool with crystals in perspective 1.

Figure 2 - Opaque heated stool in perspective 2. 50

Figure 3 - Exploded view of the heated stool.

Figure 4 - Scheme of the movement of the air generated by the heated stool.

List of the elements contained in figures 5

1 leveling feet.

2 Base.
10
3 Base opening.

4 Metal structure.

5 Metal drawer. fifteen

6 Metal guide.

7 Deposit-Burner.
twenty
8 Flame regulator.

9 Exit of the flame.

10 Air distributor. 25

11 Security lock.

12 Foot rest.
30
13 Manual shooter.

14 Crystals

15 Crystal stands. 35

16 Diffuser.

17 Hot air outlet.
40
18 Seat base.

19 Ventilation holes.

20 Backrest-channeler. Four. Five

21 LED device.

22 Liquid crystal thermometer.
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23 Cone Trunk.
Description of a preferred embodiment

This heated stool is composed of a square base (2) or another design, made of metal or any other type of material that covers the requirements required for outdoor use. This base (2) is provided with leveling feet (1), 3 or 4 feet depending on the design of the base, finished with a rubber or any other type of material resistant to drag and that does not cause noise pollution. The weight, design, material used and the dimensions of this base (2) must be adequate to ensure the stability and robustness of the entire stool assembly. In the center of this base (2) there is an opening (3) that facilitates the entry of air at room temperature, 10 whose objective is to provide oxygen to the burner tank (7) that contains the fuel and to cool the body of the same. This opening could be replaced or complemented by holes in the part of the metal trunk (4), between the base (2) and the air distributor (10).
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The base (2) supports a structure (4), which can be painted metal, stainless steel, corten steel, aluminum, ceramics or any other type of material that has the characteristics of hardness, heat resistance, resistance to deformations and resistance to possible contact with fire required by this type of furniture.
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This structure (4) can be square or of any other regular or irregular shape and of different heights according to its characteristics of use. It can be welded or attached to the base (2) by any other fastening system that supports its design, provided that the solidity of said joint is guaranteed.
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The rear part of the metal structure (4) incorporates in its interior a metal drawer (5) removable by guides (6), provided with a safety lock (11) and a manual handle (13) to facilitate its opening.

In this drawer (5) is located the burner tank (7) that contains the fuel that produces a continuous flame of fire that heats the air and heats it upwards and circulates it upwards through the metal structure (4) of the stool.

The burner tank (7) is refillable, made of stainless steel, cubic or cylindrical and equipped with a pivoting flame regulator (8) incorporated in its upper part and 35 formed by a single piece that allows the regulation and shutdown of the flame from outside the metal structure (4) of the stool. The ignition of the flame is produced in any case by the direct contact of an external flame (lighter or match) with the surface of the fuel contained in the burner tank (7).
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The burner tank (7) is a perpetual element, refillable and designed to be used with liquid or gelled fuel. If it is not subjected to improper use, the life of this burner tank (7) and the flame regulator (8) is unlimited.

This perpetual burner tank (7) can be replaced by another type of single-use container, in which case the fuel to be used must be gelled or solid, the liquid format not being admitted for safety, operational and control reasons of the flame

The perpetual burner tank (7) contains inside a filling blanket 50 composed of aluminum silicate wool, silica or any other material with a
high absorbent power and resistant to heat and fire, which minimizes the effects of a possible spillage by accidentally overturning the heated stool.

Above the flame outlet (9) of the burner tank (7), there is an air distributor (10) made of stainless steel fixed to the metal structure (4) and with a series of openings distributed by its Its mission is to distribute the air collected through the opening (3) of the base (2).

A part of the air rises through the inner walls of the metal structure (4), causing a cooling effect that reduces the risk of said walls reaching an excessive outside temperature.

Another part of the channeled air is directed to the flame outlet (9) of the burner tank (7) to achieve its correct combustion.
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The rest of the captured air serves to temper the calorific value of the fuel used (approximately 5.5 to 8 Kw / hour / Kg, depending on its purity), thus avoiding overheating the air contained in the metal structure (4) and consequently prevent some parts of the stool from reaching a temperature that, upon contact with any part of the body, could pose a risk of burns for users.

A section of this metal structure (4), incorporates one or several pieces of glass (14), maximum one for each face, which allow to visualize the interior of said structure, which gives the heated stool a special attraction, allowing to visualize the 25 burner fire flame from any viewing angle. To achieve an adequate level of safety, these crystals must be resistant to heat, occasional contact with fire and possible accidental impacts they may suffer.

The crystals (14) are attached to the metal structure (4) both in its lower part 30 and in its upper part, by metal supports designed for this purpose (15). Given the casuistry that influences the performance of the burner tank (7) (room temperature, height above sea level, wind, etc ...), one of the crystals incorporates in its upper part a thermometer of automatic liquid crystal adhesive (22) that reports the temperature at which the structure is at that particular point. This information is an aid to adequately regulate the power of the flame depending on the factors that influence the performance of the heated stool, and it also represents a risk warning factor if said temperature becomes too high.

These crystals (14) are easily accessible to be cleaned if necessary or replaced in case of accidental breakage.

Inside the metal structure (4) and in a plane superior to that of the flame outlet (9), a cone-shaped piece (23) can be incorporated that directs the hot air towards the air diffuser (17), creating an insulating air chamber between said cone trunk and the walls of the metal structure (4), thus avoiding excessive heating of said structure, while accelerating the projection to the outside of the hot air produced by the flame of the burner tank (7), thereby increasing the sensation of heat. This cone trunk (23) also affects fuel savings and the consequent increase in the autonomy of 50
tank-burner because when the sensation of heat is increased, the intensity of the flame that heats the air can be reduced while maintaining the same feeling of comfort.

Up to this point, the metal structure (4) has no outlet for hot air produced by the flame of the burner tank (7). The first component that directs hot air out of the metal structure (4) is the diffuser (16).

The diffuser (16) is a removable or fixed metallic element, in geometric shape as determined by the design of the column. Its position is always reversed with respect to the direction of the flame outlet (9) from the burner tank (7). 10

The diffuser (16) has the objective of channeling and properly distributing the hot air outlet existing in the metal structure (4) through the openings (17) of the metal structure (4).
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The upper part of the metal structure (4) has openings (19) that facilitate the release of hot air that the diffuser (16) has not been able to channel outside through the hot air outlets (17), thus avoiding excessive heating of the stool seat (18) and the upper part of the metal structure (4).
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The seat part of the stool (18) is finished by a backrest-channeler (20) that improves user comfort. Between the seat support (18) and the backrest-channeler (20) there is a hot air outlet (17) that tempers the lower back and the user's back.
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The last element of comfort is a footrest (12) located on the front of the metal structure (4).

Another constructive variant is based on the total or partial elimination of the crystals (14) and their supports (15), the metal structure of the stool (4) becoming an opaque column 30, the vision of the flame of the flame being totally or partially canceled. burner tank (7).

Another constructive variant consists in the possibility of incorporating an LED device (21) into the stool instead of the burner tank (5). It is an element 35 of the same external dimensions and characteristics as the burner tank (7), which houses a rechargeable battery and a programmable LED (21), operated by a remote control. Another possibility is to replace the rechargeable battery, with a direct connection to the mains.
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The LED option gives the heated stool an additional attraction in times of climatic bonanza.

Any external component of the heated stool, metal base (2), metal structure (4) seat (18) or backrest (20) can be customizable. Four. Five

Claims

1. Stool heated to heat the environment comprising a base (2) and a metal structure (4) which in turn incorporates a perpetual fuel burner tank (7) with a flame regulator (8) operable from outside said structure, or failing that a single-use burner tank, removable in both cases, characterized by:

• Housing a convection system for channeled, controlled and adjustable air through a base (2), a burner tank (7), a flame regulator (8) and a metal structure (4).

• A burner tank (7) fueled with fuels from sustainable, renewable and non-polluting energies, normally denatured alcohols of vegetable origin, adjustable and containing inside a filling blanket composed of silicate wool of aluminum or silica With a high absorbing power and resistant to heat and fire, which minimizes the effects of a possible spillage by accidental overturning of the heated stool.

2. Heated stool according to claim 1, characterized in that its metal base (2) incorporates an opening (3) that facilitates the entry of air to cool the burner tank (7) and provides the oxygen necessary for the process of combustion at the exit of the flame (9). It also incorporates in its lower part leveling elements (1), finished with a rubber or with any other type of material resistant to dragging and that does not cause noise pollution. 25

3. Heated stool according to claim 1, characterized in that its metal structure (4) and between the metal base (2) and the air distributor (10) incorporates one or more openings that facilitate the entry of air to cool the tank -burner (7) and provide the oxygen necessary for the combustion process. 30

4. Heated stool according to claim 1, characterized in that in its metal structure (4), a metal drawer (5) is housed, mounted on a metal guide (6) on which a removable perpetual burner tank (7) is fixed. ). This metal drawer (5) allows the burner tank (7) to be removed to refuel and ignite it, 35 also incorporates a safety lock (11) that prevents access to the burner tank (7) and its handling to non-persons authorized.

5. Heated stool according to claim 1, characterized in that the burner tank (7) incorporates in its upper part a pivoting flame regulator (8) which allows to control the heat output and the extinguishing of the fire flame. This flame regulator (8) is operable from the outside of the metal structure (4) of the heated stool.

This burner tank (7) contains in its interior a filling composed of wool of silicate of aluminum, silica or any other material with a high absorbent power, resistant to heat and fire, which minimizes the effects of a possible spillage of fuel by accident.

6. Heated stool according to claim 1, characterized in that the burner tank (7) housed in the metal drawer (5) can be replaced by an element
LED beam emitter ascending (21), powered by a rechargeable battery or directly connected to the mains.

7. Heated stool according to claim 1, characterized in that in its metal structure (4) and in a plane superior to that of the flame outlet (9) of the burner tank 5 (7), they can be incorporated as walls, one or more pieces of glass (14) or any other type of transparent material that allows the vision of the interior of said metal structure (4). One of these pieces incorporates a liquid crystal thermometer (22) that provides information on the surface temperature of the metal structure (4). 10

8. Heated stool according to claim 1, characterized in that in its metal structure (4) they exist in a plane equal to or less than the fire flame outlet (9) of the burner tank (7), one or more openings that facilitate the entry of air to cool the burner tank (7) and provide the oxygen necessary for the combustion process to the flame outlet (9).

9. Heated stool according to claim 1, characterized in that in its metal structure (4) and located between the fire flame outlet plane (9) of the burner tank (7) and the seat (18), there is a or more openings (17-19) that allow the hot air contained in said metal structure (4) to escape and produced by the combustion of any type of fuel in a gaseous, solid, liquid or gelled state, contained in the burner tank (7), for authorized, non-polluting use and whose origin is sustainable and renewable.
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10. Heated stool according to claim 1, characterized in that its metal structure (4) disposes at any point between the burner flame outlet (9) and the seat (18), of an air diffuser element (16) heat pyramidal, conical or any other geometric shape, placed in an inverted position with respect to the direction of the flame, removable or fixed, which directs the hot air outlet 30 contained inside the metal structure (4) produced by the fire flame of the burner tank (7).

11. Heated stool according to claim 1, characterized in that in its upper part and between the seat (18) and the backrest (20), it has an opening (17) that leads the hot air outlet towards the lumbar area and the user back.

12. Heated stool, according to claim 1, characterized in that inside its metal structure (4) and in a plane superior to that of the flame outlet (9), it incorporates a cone-shaped piece (23) that directs the hot air to the air diffuser (17).