US2017227239A1PendingUtilityA1

Heating system

30
Assignee: YOON YOUNG HWANPriority: Aug 11, 2014Filed: Aug 10, 2015Published: Aug 10, 2017
Est. expiryAug 11, 2034(~8.1 yrs left)· nominal 20-yr term from priority
Inventors:Young Hwan Yoon
F24D 3/14E04F 15/20E04F 15/02429Y02B30/00E04F 15/206
30
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Claims

Abstract

A heating system comprises: a structure forming an elevated floor above a slab and supported by legs; and heating panels comprising an upper panel having downwardly formed outer walls and downwardly protruding structure-seating parts on parts inside the corners capable of taking the load so that the upper panel can be fixed above the structure, and a lower panel having an upwardly bent body to attach to the bottom of the upper panel, the heating means installed in the interior, and the penetration parts which the structure-seating parts penetrate, wherein when the upper panel and lower panel are attached, the empty space therebetween is filled with cement mortar or red clay and cured.

Claims

exact text as granted — not AI-modified
1 . A heating system comprising:
 a structure supported by legs and constituting a floating floor on a slab; and   heating panels, each of which comprises an upper panel having structure seaters protruding downward from portions inside edges of the upper panel, which support loads, such that the corresponding heating panel is fixed on the structure and having outer walls extending downward, and a lower panel having a body bent upward and coupled to a lower portion of the upper panel and having penetration parts which have a heating means installed in the penetration parts and through which the structure seating parts pass, wherein in a state in which the upper panel and the lower panel are coupled to each other, cement mortar or yellow ocher is filled in an empty space between the upper panel and the lower panel and is cured.   
     
     
         2 . The heating system of  claim 1 , wherein the heating means is any one of a heating pipe connected to a boiler, a carbon-coated heating element, a metal heating element, a sheet-type heating element and an electric heating element. 
     
     
         3 . The heating system of  claim 2 , wherein when the heating means is the heating pipe, the heating pipe is bound to wire meshes installed inside the lower panel and has one end connected to a hot water supply pipe branched from a supply pipe of the boiler through a connector and the other end is connected to a return water pipe branched from a return pipe of the boiler through a connector. 
     
     
         4 . The heating system of  claim 3 , wherein portions of the upper panel, which is located above the connectors, are partially opened and are opened/closed by covers, and the hot water supply pipe and the return water pipe are assembled between heating panels. 
     
     
         5 . The heating system of  claim 1 , wherein a bimetal temperature sensor is provided in the heating means. 
     
     
         6 . A heating system comprising:
 a structure supported by legs and constituting a floating floor on a slab; and   heating panels, each of which comprises an upper panel having structure seaters protruding downward from portions inside edges of the upper panel, which support loads, such that the corresponding heating panel is fixed on the structure and having outer walls extending downward, and a lower panel having a body bent upward and coupled to a lower portion of the upper panel, having penetration parts which have a heating means installed in the penetration parts and through which the structure seating parts pass, having a heating film attached to a lower bottom surface of the lower panel in a dry scheme, and having a ceramic plate or a fireproof insulation plate fixed to a lower side of the heating film through a steel plate, wherein in a state in which the upper panel and the lower panel are coupled to each other, cement mortar or yellow ocher is filled in an empty space between the upper panel and the lower panel and is cured.   
     
     
         7 . The heating system of  claim 1 , wherein the upper panel, which is formed by molding aluminum, comprises protrusions for enhancing binding between the upper panel and cement mortar or yellow ocher when the cement mortar or the yellow ocher is filled, protrusion fasteners for coupling between the upper panel and the lower panel, and ribs for improving solidity of the upper panel, and
 wherein the lower panel, which has a body formed by upward bending a steel plate in a quadrangular shape, comprises fastening holes formed at locations corresponding to the protrusion fasteners for bolt fastening from below to above, and filling holes formed on one side of the body, which is upward bent, to fill cement mortar in an empty space inside the heating panel.   
     
     
         8 . The heating system of  claim 7 , wherein in the upper panel, fastening bosses formed by bending the outer walls twice and having fastening grooves between the fastening bosses and the outer walls are formed, and catching steps and catching bosses are formed on sides of the fastening bosses and the outer walls, which are close to the fastening grooves, at different heights, and
 wherein in the lower panel, bent parts that are bent from the body are formed to be fitted in and fastened to the fastening grooves, fitting bosses extending outward are formed at locations corresponding to the catching bosses, and the bent parts are caught by the catching steps of the fastening bosses in a state in which the bent parts are fitted in the fastening grooves.   
     
     
         9 . The heating system of  claim 1 , wherein rubber foam insulation in which the penetration parts through which the structure seaters of the upper panel molded of aluminum pass are formed is further provided and is attached to a lower bottom surface of the lower panel. 
     
     
         10 . The heating system of  claim 1 , wherein the structure seaters of the upper panel molded of aluminum do not protrude from a lower bottom surface of the lower panel while being coupled to the lower panel and the heating panel is fastened through structure fasteners formed in the upper panel while being positioned on the structure. 
     
     
         11 . The heating system of  claim 1 , wherein height adjusting means are provided in legs of the structure in contact with the slab, and noise reduction pads are interposed between upper and lower steel plates as supports of the legs having sharp ends. 
     
     
         12 . The heating system of  claim 1 , wherein fitting grooves and fitting protrusions are formed on front, rear, left and right sides of the upper panel such that the fitting grooves and the fitting protrusions are fitted in each other between adjacent heating panels. 
     
     
         13 . A heating system comprising:
 a structure supported by legs and constituting a floating floor on a slab; and   heating panels, each of which comprises an upper panel having structure seaters protruding downward from portions inside edges of the upper panel, which support loads, such that the corresponding heating panel is fixed on the structure, having protrusion fasteners for coupling between the upper panel and a lower panel and having outer walls extending downward, the lower panel having a body bent upward and coupled to a lower portion of the upper panel, having penetration parts through which the structure seating parts pass, and having fastening holes formed at locations corresponding to the protrusion fasteners for bolt coupling from below to above, and a pair of intermediate panels formed by vertically stacking ceramic plates, having through-holes through which the protrusion fasteners pass, and formed in a space defined by coupling the upper panel and the lower panel with a heating film interposed between the pair of ceramic plates.   
     
     
         14 . A heating system comprising:
 a structure supported by legs and constituting a floating floor on a slab; and   heating panels, each of which comprises an upper steel plate not having structure seaters but having structure fasteners for fastening the corresponding heating panel on the structure such that the heating panel is fixed on the structure, and a lower box having a box shape, of which an upper portion is opened, having a flange extending outward, having a heating means installed in the lower box, and having fasteners allowing the lower box to be fastened to the structure, wherein in a state in which edges of the upper steel plate and the flange of the lower box are coupled to each other through welding, cement mortar or yellow ocher is filled in an empty space of the lower box and is cured.   
     
     
         15 . The heating system of  claim 6 , wherein the upper panel, which is formed by molding aluminum, comprises protrusions for enhancing binding between the upper panel and cement mortar or yellow ocher when the cement mortar or the yellow ocher is filled, protrusion fasteners for coupling between the upper panel and the lower panel, and ribs for improving solidity of the upper panel, and
 wherein the lower panel, which has a body formed by upward bending a steel plate in a quadrangular shape, comprises fastening holes formed at locations corresponding to the protrusion fasteners for bolt fastening from below to above, and filling holes formed on one side of the body, which is upward bent, to fill cement mortar in an empty space inside the heating panel.   
     
     
         16 . The heating system of  claim 15 , wherein in the upper panel, fastening bosses formed by bending the outer walls twice and having fastening grooves between the fastening bosses and the outer walls are formed, and catching steps and catching bosses are formed on sides of the fastening bosses and the outer walls, which are close to the fastening grooves, at different heights, and
 wherein in the lower panel, bent parts that are bent from the body are formed to be fitted in and fastened to the fastening grooves, fitting bosses extending outward are formed at locations corresponding to the catching bosses, and the bent parts are caught by the catching steps of the fastening bosses in a state in which the bent parts are fitted in the fastening grooves.   
     
     
         17 . The heating system of  claim 6 , wherein rubber foam insulation in which the penetration parts through which the structure seaters of the upper panel molded of aluminum pass are formed is further provided and is attached to a lower bottom surface of the lower panel. 
     
     
         18 . The heating system of  claim 6 , wherein the structure seaters of the upper panel molded of aluminum do not protrude from a lower bottom surface of the lower panel while being coupled to the lower panel and the heating panel is fastened through structure fasteners formed in the upper panel while being positioned on the structure. 
     
     
         19 . The heating system of  claim 6 , wherein height adjusting means are provided in legs of the structure in contact with the slab, and noise reduction pads are interposed between upper and lower steel plates as supports of the legs having sharp ends. 
     
     
         20 . The heating system of  claim 6 , wherein fitting grooves and fitting protrusions are formed on front, rear, left and right sides of the upper panel such that the fitting grooves and the fitting protrusions are fitted in each other between adjacent heating panels.

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