• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Autonomous system for heating. Made up of a closed circuit that transports a resin fluid from a tank where it is heated by means of resistances, and is distributed through the circuit to a series of radiators; the resin returns to the tank once it has passed through the circuit to start the cycle again. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2784956A1
    申请号:ES201930289
    申请日:2019-03-29
    公开日:2020-10-02
    发明作者:Santiago Francisco José García
    申请人:Garcia Santiago Francisco Jose;
    IPC主号:
    专利说明:

    [0004] The present invention refers to an autonomous heating system based on the recirculation of a resin through a network of radiators, which has previously been heated in a tank.
    [0006] Currently there are numerous ways to heat one or several rooms, from heat pump systems (which in summer work as air conditioning), water radiators, electric plates, butane stoves, or water circuits with mainly gas boilers.
    [0008] Some are very expensive and depend on an external source such as those based on gas or butane, while others are limited to the rooms in which they are installed.
    [0010] The system proposed by the present invention aims to use a closed circuit of hot resin from a tank, taking the heat to the different radiators that have been installed in the home, choosing which rooms to heat and only using the domestic electrical network as an energy source. , therefore its advantages are:
    [0012] - The comfort of controlling with a single system, the rooms that need heat and those that do not.
    [0013] - Non-dependence on external energy sources based on gas combustion, where prices tend to increase in times of cold weather.
    [0014] - The use of a resin fluid that has good thermal properties to maintain heat from the tank where it is heated to the radiators.
    [0016] The industrial application of this invention is within the sector of heating systems, and more specifically autonomous heating systems based on resin circuits.
    [0018] Although no invention identical to that described has been found, we present below the documents found that reflect the state of the art related thereto.
    [0020] Thus document EP2962525A1 describes a heating element with a flat heat-producing layer and two electrical contacts for supplying an electrical heating current, in which the electrical contacts attached to the heat-producing layer are arranged on mutually opposite sides of the layer, characterized in that at least one of the contacts comprises a first contact element and a second contact element, the first contact element extending in the heat-producing layer in a wavy manner in a first plane perpendicular to the surface of the layer, extending the second contact element parallel to the extension direction of the first contact element, the first contact element and the second contact element presenting, viewed in the extension direction, multiple common contact points. The described heating element is based on a flat heat-producing layer and two electrical contacts to supply an electrical heating current, being a totally different system from the autonomous system proposed by the main invention.
    [0022] ES2401618A1 describes an autonomous air conditioning unit, consisting of a portable container, inside which a high-efficiency geothermal heat pump is mounted, capable of transmitting heat from the ground or air to be used both for heating and for sanitary hot water, connected to a domestic hot water storage tank and an air conditioning buffer tank, with supply inlets / outlets for domestic hot water and air conditioning water, respectively. The device comprises a water condensation heat exchanger in connection with geothermal wells with a geothermal probe to carry out the thermal exchange with the ground, which is connected to a condensation battery connected to the heat pump. The air-cooled coil is in turn associated with respective groups of intake fans condensation air and condensation air expulsion, all with an electrical panel and a control system that allows the equipment to be used in two operating modes. In this case, the aforementioned patent describes an autonomous air conditioning equipment based on a geothermal heat pump, while the main invention is based on the recirculation of a resin that is heated and distributed through a heating network.
    [0024] Document ES2399190T3 refers to a heating-cooling device for people in the rooms of all means of land, air, sea and river transport and in all types of buildings, equally applicable to individual equipment, stored or transported goods, systems or parts of systems that need to be heated or cooled, consisting of the combination: - Of means of production of hot air, of cold air and eventually of cooled air, such means of production being primarily reversible heat or cold sensors that use the principle of radiant-type panels distributed respectively on the inside face of the walls and / or on the ceiling and / or possibly on the floor of the passenger compartment or building, or its variant composed of radiant-type glazed surfaces and secondarily by other existing means. - Air renewal means independent of heating-cooling means with two external air intakes controlled by command with temperature probes and air pollution measurement probes. - Power supply means for radiant type panels with hot, cold or cooled air. - Of means of automatic regulation; said device being characterized in that the automatic regulation means use the data provided by indoor temperature sensors and the data provided by one of the outdoor temperature sensors to direct the air circulation in the radiant type panels according to four modes, the two modes classic heating and cooling, a specific mode called "transfer" mode that allows, through radiant type panels, to transfer heat from a wall or interior wall exposed to the sun to a wall or interior wall located in the shade or transfer coolness from an interior wall or wall located in the shade to an interior wall or wall located in the sun, and another specific mode called "night" in which the fresh air outside is used during the night as a source of cooling in buildings, and eventually supplemented by individualized temperature controls. The heating-cooling device referred to in the aforementioned document describes a system based on means of production of hot, cold or cooled air, while the main invention heats a resin that is then circulated through a network to the different heat points composed of radiators.
    [0026] ES2384848A1 proposes an electric radiator equipped with a diffuser, a fluid reservoir, a resistance, a circuit, a pump and an expansion reservoir, duly connected to each other. The fluid reservoir only contains water heated directly by the resistance. Unlike the main invention, said document uses water and does not comprise a fluid network to transport it.
    [0028] Conclusions: As can be seen from the research carried out, none of the documents found solves the problems posed as the proposed invention does.
    [0032] The autonomous system for heating object of the present invention is constituted from a closed circuit installed throughout the home, office or establishment where it is required to heat the room, which transports a resin fluid from a tank or container from which it comes out hot and returns again once it has cooled down to warm up again.
    [0034] The interior of the tank where the resin is stored contains a group of resistors fed by the domestic electrical network and they are in charge of heating the resin.
    [0036] To achieve the flow of the resin through the installed circuit, the heating tank of the same has an electric pump motor at its outlet to drive it, and each radiator has a control key to allow or not the passage of the resin through radiator or simply continue through the circuit until it returns to the tank again.
    [0037] The entire system has valves, sensors and control and safety elements necessary to guarantee its perfect operation.
    [0041] For a better understanding of the present description, some drawings are attached that represent a preferred embodiment of the present invention:
    [0043] Figure 1: Schematic view of the autonomous system for heating object of the present invention by way of non-limiting example.
    [0045] The numerical references that appear in said figures correspond to the following constitutive elements of the invention:
    [0047] 1. Closed circuit
    [0048] 2. Radiator
    [0049] 3. Resin fluid
    [0050] 4. Deposit
    [0051] 5. Group of resistors
    [0052] 6. Electric pump
    [0053] 7. Stopcocks
    [0057] A preferred embodiment of the autonomous system for heating object of the present invention, with reference to the numerical references, can be based on a closed circuit (1) of radiators (2) installed in a room or home, which transports a resin fluid (3 ) from a tank (4) from which it comes out hot thanks to a group of resistors (5) fed by the domestic electrical network and returns again once it has cooled down to heat up again.
    [0059] An electric pump motor (6) located at the outlet of the tank (4) is responsible for circulating the fluid through the heating circuit (1) and a set of stopcocks (7) next to each radiator (2) allows or do not pass it through the radiator itself (2) or simply continue through the circuit (1) until it returns to the tank (4) again.
    [0060] The entire system has valves, sensors and control and safety elements necessary to guarantee its perfect operation.
    权利要求:
    Claims (2)
    [1]
    one.
    [2]
    two. - Autonomous system for heating, according to claim 1, characterized in that it is connected to the domestic electrical network or to an auxiliary battery power source.
    类似技术:
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    同族专利:
    公开号 | 公开日
    ES2784956B2|2021-04-19|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3801074A|1971-08-30|1974-04-02|Montigny|Mixing and dispensing apparatus|
    JP2005003279A|2003-06-12|2005-01-06|Shuichi Yamamoto|Room heating system for place of refuge|
    CN1775514A|2005-11-29|2006-05-24|天津工业大学|Injection apparatus for resin transfer moulding technology|
    JP2007327219A|2006-06-07|2007-12-20|Takeji Motai|Laminated material|
    EP2184547A2|2008-11-11|2010-05-12|Boquan Wang|Electric heating material and laminate floor containing same and method for producing the laminate floor|
    EP2354725A1|2010-01-26|2011-08-10|Underleaf S.r.l.|System for radiantheat transfer elements and heat accumulation obtained by means of recyclable inert material|
    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201930289A|ES2784956B2|2019-03-29|2019-03-29|AUTONOMOUS SYSTEM FOR HEATING|ES201930289A| ES2784956B2|2019-03-29|2019-03-29|AUTONOMOUS SYSTEM FOR HEATING|
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