CN201228427Y - Dry-type hot-water heating floor - Google Patents
Dry-type hot-water heating floor Download PDFInfo
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- CN201228427Y CN201228427Y CNU2008201090077U CN200820109007U CN201228427Y CN 201228427 Y CN201228427 Y CN 201228427Y CN U2008201090077 U CNU2008201090077 U CN U2008201090077U CN 200820109007 U CN200820109007 U CN 200820109007U CN 201228427 Y CN201228427 Y CN 201228427Y
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Abstract
The utility model relates to a dry hot-water heating floor, which belongs to the technical field of floor radiant heating. The heating floor comprises a ground decorative layer, an upper layer metal heat conducting film, a heating tube, a lower metal heat conducting film, a heat insulating layer, wood keels and a floor slab (or ground surface). The heating tube is laid in a heat insulating material tube groove, the metal heat conducting films which spread out in all directions are respectively arranged at the upper part and the lower part of the heating tube, therefore the heating surface of the heating tube is expanded, the surface temperature of the floor is uniform, and the downward heat loss is reduced. No hollow space exists between wood keels, the structure is relatively compact, and the thermal mechanical property is improved. The tube diameter of the heating tube is small than that of a normal wet heating floor tube, and is larger than that of an integrated dry heating floor tube; the thickness of the structural layer and the load of the floor slab are reduced; the requirement to water quality is low; the system drag force is small; and the energy consumption of a circulation water pump is reduced. The floor structure can be prefabricated, and partially prefabricated or laid after field assembly; the construction is simple; the maintenance is convenient; and dry hot-water heating floor is suitable for the heating of a newly built building, and also suitable for the heating of an existing building.
Description
Technical field
The utility model relates to a kind of structure that is used for the dry-type hot water heating floor of building heating, especially relate to a kind of heating tube all lay up and down the double-level-metal heat conducting film increase the floor heat dissipation capacity and improve the floor temperature homogeneity, be easy to install maintenance, hot water heating floor that the floor load is little constructs, belong to the floor panel heating technical field, both be fit to new building heating, also be fit to existing building heating.
Background technology
The low-temperature water heating ground radiation heating is that not to be higher than 60 ℃ hot water with temperature be heating agent, in heating tube, circulate, the heating floor, by ground with the mode of radiation heat transfer and heat convection heating system to indoor heat radiation.Compare with the convection current heating system that tradition adopts, low-temperature water heating ground radiation heating comfort level height, energy conservation, and can utilize low grade heat energy.Help implementing the heat metering of branch family simultaneously, make things convenient for architectural decoration; Help floor sound insulation.The floor heating mode can adapt to the needs of modern comfortable energy saving building technical development preferably, is a kind of comfortable energy-conservation heating system, has wide development and application prospect.
Conventional low-temperature water heating ground radiation heating can be divided into wet type and dry type by its flooring structure difference.The wet type floor is meant on the ground insulating layer heating tube is embedded in the pea gravel concreten, does leveling layer and decorative layer on it again.Wet type deck construction layer thickness is big, and load is big, and floor heating need take the spatial altitude of 80mm at least usually, increases the about 120kg/m of ground load
2Big, the difficult maintenance of wet type floor construction amount simultaneously, thermal stresses easily causes the be full of cracks and the distortion of floor framing layer; Conventional dry-type floor is that heating tube is directly exposed in the deck, above direct decorative layer such as laying floor, easily overhaul than wet type hot water heating floor.But have a large amount of hollows in the conventional dry-type construction layer, mechanical property is relatively poor, and techonosphere thickness is big, the cost height, and heat flow rate per unit area is little; Integrated dry-type floor is that heating tube directly is embedded in the heat insulating material, and heating tube spacing and caliber are certain, and upper surface is pasted with aluminium foil and applied lid, makes integrated finished product.Press room area, heat requirement, the long-pending size in decision heating pad paving, combine and assemble is laid immediately on the smooth floor as required.But the heating caliber is little, and higher to water quality requirement, pipeline easily stops up; SR is big, and energy consumption is big; Its aluminium foil layer places on the heating tube, makes that the floor ratio of conducting heat is big downwards, and heating room unit's floor area heat dissipation capacity is little, building that inapplicable space enclosing structure insulation is relatively poor and bigger house type.Although the floor heating technology has energy-conservation advantage such as comfortable, on aspects such as technology, construction technology, still have many deficiencies, need improvement.Therefore, how optimizing plate structure and method for designing, is the key problem in technology that the floor heating technology is greatly developed and promoted in China.
The utility model content
The purpose of this utility model provides a kind of dry-type hot water heating floor, overcome the many deficiencies that exist in the conventional floor heating, can effectively reduce the deck construction layer thickness, reduce the floor load, be easy for installation and maintenance, avoid be full of cracks distortion in floor surface and the techonosphere, improve mechanical property and thermal property, reduce the initial cost and the operating cost of system.
The technical solution of the utility model is as follows:
A kind of dry-type hot water heating floor, comprise ground decoration layer 1, the metal heat-conducting film, heating tube 3, by tube pitch tube seat is set in insulation layer 5 and the rough ground 6, insulation layer, it is characterized in that: described metal heat-conducting film is made up of upper strata metal heat-conducting film 2 and lower metal heat conducting film 4, the lower metal heat conducting film is along next to the shin the laying of insulation layer and tube seat surface, and heating tube is embedded on the interior lower metal heat conducting film of insulation layer tube seat; Upper strata metal heat-conducting film water is flat to be laid on heating tube and the lower metal heat conducting film, closely contacts with pipe top, lower metal heat conducting film and rough ground.
The bottom of tube seat section described in the utility model is a rectangle for semicircle, middle and upper part, and the tube seat degree of depth equals external diameter of pipe, and the heating tube top is in same plane with lower metal heat conducting film upper surface.
Metal heat-conducting film described in the utility model adopts metallic film or thin plate corrosion-resistant and that the capacity of heat transmission is strong, and its metallic film or thin plate preferably adopt aluminium foil or tinfoil paper.The thickness of upper strata metal heat-conducting film and lower metal heat conducting film is and is 0.1mm~0.6mm.
Heating tube tubing described in the utility model uses crosslinked aluminum-plastic laminated tube (XPAP), Polybutylene Pipe (PB), polyethylene pipe (PE), crosslinked polyethylene pipe (PE-X), polypropylene random copolymer pipe (PP-R) or heat-resisting enhancing polyethylene pipe (PE-RT), the heating tube external diameter is 12mm~20mm, tube pitch 150mm~300mm.Described rough ground and insulation layer be with thick, no hollow volume; Rough ground is along being parallel to pipe range or being arranged in parallel perpendicular to the pipe range direction.
Insulation layer thickness is 25mm~45mm in the utility model, and heating tube bottom insulation layer thickness should thicken with the heating tube caliber.
Can on the metal heat-conducting film of upper strata He under the ground decoration layer waterproofing course be set to the ground (as the washroom) that needs waterproof in the utility model; Can divide into damp-proof course at insulation layer to moistureproof place (pasting the soil face).
The utility model compared with prior art, have the following advantages and the high-lighting effect: 1. the utility model applies up and down at heating tube and covers the double layer of metal heat conducting film, increased the contact area of heat conducting film and heating tube, reduced the hollow volume, improved heat conductivility greatly, increased earthward the heat output with the room, reduced heat output, improved the heat dissipation capacity of unit floor area and the uniformity that floor surface temperature distributes significantly to the bottom floor.2. insulation layer soffit and underfloor surface temperature distribution are even, and variations in temperature is little, and the floor temperature helps reducing the bed course integral thickness near room temperature.Do not comprise floor and ground decoration layer, thickness is about 25~45mm.3. in heating tube is laid in insulation layer, directly cover the ground decorative layer on the metal heat-conducting film of upper strata, do not have cavity between the keel, structure is closely knit relatively, and mechanical property is good, has improved the weight capacity on floor.4. the heating tube caliber can be selected 12~20mm in this hot water heating floor, promptly can reduce techonosphere thickness to a certain extent, and is not high to requirements in water quality simultaneously, is difficult for causing system pipeline to stop up, and reduced SR, reduced energy consumption.5. insulation layer, heating tube, metal heat-conducting film, rough ground can be prefabricated, part is prefabricated or the on-the-spot overall structure of making is directly mated formation, and are easy to transportation, are easy to construction, easy operating, for ease of maintenaince.
Description of drawings
The structural representation of the dry-type hot water heating floor that Fig. 1 provides for the utility model.
The decomposing schematic representation of each deck of dry-type hot water heating floor that Fig. 2 provides for the utility model.
1. ground decoration layer; 2. upper strata metal heat-conducting film; 3. heating tube; 4. lower metal heat conducting film; 5. insulation layer; 6. rough ground; 7. floor (or paste soil face).
The specific embodiment
Below in conjunction with accompanying drawing concrete structure of the present utility model and enforcement are further described.
The structural representation of the dry-type hot water heating floor that Fig. 1 provides for the utility model, this floor comprises ground decoration layer 1, metal heat-conducting film, heating tube 3, insulation layer 5 and rough ground 6; By tube pitch tube seat is set in the insulation layer, described metal heat-conducting film is made up of upper strata metal heat-conducting film 2 and lower metal heat conducting film 4, the lower metal heat conducting film is along next to the shin the laying of insulation layer and tube seat surface, and heating tube 3 is embedded on the interior lower metal heat conducting film of insulation layer tube seat; Upper strata metal heat-conducting film water is flat to be laid on heating tube and the lower metal heat conducting film, closely contacts with pipe top, lower metal heat conducting film and rough ground.The bottom of described tube seat section is a rectangle for semicircle, middle and upper part, and the tube seat degree of depth equals external diameter of pipe, and the heating tube top is in same plane with lower metal heat conducting film upper surface.
Because plastics heating tube tube wall heat conduction coefficient is less, adopt the method that covers the metal heat-conducting film can increase heat conductivility.The position of laying of heat conducting film influences very big for the diabatic process in the floor.If a heat conducting film horizontal laying is in heating tube top, then downward heat output is bigger; If heat conducting film only is laid in the heating tube bottom, though reduced downward heat output, but the uniformity that floor surface temperature distributes is relatively poor, and the utility model lays heat conducting film up and down simultaneously at heating tube, promptly reduced downward heat output, also improve the uniformity of Temperature Distribution, improved the heat dissipation capacity of unit floor area greatly.
The heating tube 3 that in insulation layer, lays among Fig. 1, can use crosslinked aluminum-plastic laminated tube (XPAP), Polybutylene Pipe (PB), polyethylene pipe (PE), crosslinked polyethylene pipe (PE-X), polypropylene random copolymer pipe (PP-R) or heat-resisting enhancing polyethylene pipe (PE-RT), external diameter can be selected 12mm~20mm, littler than wet type floor caliber, bigger than integral type dry type floor caliber, promptly can reduce techonosphere thickness to a certain extent, not high to requirements in water quality simultaneously, be difficult for causing system pipeline to stop up, reduce SR, reduced energy consumption.
Upper strata metal heat-conducting film 2 and lower metal heat conducting film 4 can be selected metallic film or thin plate corrosion-resistant and that the capacity of heat transmission is strong for use, preferably adopt aluminium foil or tinfoil paper; Thickness of metal film can be selected 0.1~0.6mm.Thickness is big more, and the uniformity of heat transfer property and floor Temperature Distribution is good more.
The decomposing schematic representation of each deck of dry-type hot water heating floor that Fig. 2 provides for the utility model, this floor be by ground decoration layer 1, the metal heat-conducting film, and heating tube 3, insulation layer 5 and rough ground 6 are formed, and these ingredients can all be assembled scene, prefabricated back and mat formation; Or part is prefabricated, mats formation after the part assembled on site; Also can all on-the-spot group system mat formation.Heat insulating material is reserved with the tube seat that lays heating tube, and the tube seat degree of depth equals external diameter of pipe.Insulation layer thickness 25~45mm, the thickness of insulation layer is relevant with the caliber of selection.Insulation layer thickness increases with the heating tube caliber to be thickeied.Heating tube bottom insulation layer thickness thickens with the heating tube caliber.Floor (or pasting the soil face) 7 supported with the rough ground 6 that is arranged in parallel with the ground decoration interlayer, lays insulation layer above the floor between rough ground and heating tube is set, and rough ground closely contacts with insulation layer, lays the parallel heating tube of two row between two rough grounds.Can add the rough ground vertical as required with heating tube.Prior to laying lower metal heat conducting film 4 on the insulation layer, lay heating tube 3 after the compacting again, and then lay upper strata metal heat-conducting film 2 before heating tube lays, directly lay ground decoration layer 1 on the metal heat-conducting film of upper strata.The double layer of metal heat conducting film is all on rough ground.The heating tube tube pitch can be selected 150mm~300mm.
Can on the metal heat-conducting film of upper strata He under the ground decoration layer waterproofing course be set to the ground (as the washroom) that needs waterproof; Can divide into damp-proof course at insulation layer to moistureproof place (pasting the soil face).
Understand this explanation below by several specific embodiments with further.
Embodiment 1:
Deck construction is floor 110mm from the bottom to top, and insulation layer 25mm, heating tube choose polybutene (PB) pipe, heating tube external diameter 12mm, and heat conducting film uses aluminium foil up and down, and thickness is 0.1mm, wood flooring 9mm.The heating tube spacing is 150mm.When 18 ℃ of interior design temperature, when the hot water average temperature was 45 ℃ in the heating tube, the floor surface average temperature was 27.9 ℃, and the floor surface maximum temperature difference is 3.7 ℃, and unit floor area heat dissipation capacity is 63W/m
2
Embodiment 2:
Deck construction is floor 110mm from the bottom to top, and insulation layer 25mm, heating tube choose polybutene (PB) pipe, heating tube external diameter 12mm, and heat conducting film thickness is 0.2mm up and down, wood flooring 9mm.The heating tube spacing is 200mm.When 20 ℃ of interior design temperature, when the hot water average temperature was 50 ℃ in the heating tube, the floor surface average temperature was 25.6 ℃, and the floor surface maximum temperature difference is 2.6 ℃, and unit floor area heat dissipation capacity is 59W/m
2
Deck construction is floor 110mm from the bottom to top, and insulation layer 40mm, heating tube choose polybutene (PB) pipe, heating tube external diameter 20mm, and heat conducting film thickness is 0.6mm up and down, wood flooring 9mm.The heating tube spacing is 200mm.When 22 ℃ of interior design temperature, when the hot water average temperature was 35 ℃ in the heating tube, the floor surface average temperature was 26.2 ℃, and the floor surface maximum temperature difference is 0.8 ℃, and unit floor area heat dissipation capacity is 65W/m
2
Claims (9)
1 one kinds of dry-type hot water heating floors, comprise ground decoration layer (1), the metal heat-conducting film, heating tube (3), by tube pitch tube seat is set in insulation layer (5) and the rough ground (6), insulation layer, it is characterized in that: described metal heat-conducting film is made up of upper strata metal heat-conducting film (2) and lower metal heat conducting film (4), the lower metal heat conducting film is along insulation layer and the tube seat upper surface is next to the shin lays, and heating tube is embedded on the lower metal heat conducting film in the insulation layer tube seat; Upper strata metal heat-conducting film water is flat to be laid on heating tube and the lower metal heat conducting film, and closely contacts with heating tube top, lower metal heat conducting film and rough ground.
2. according to the described a kind of dry-type hot water heating floor of claim 1, it is characterized in that: the section bottom of described tube seat is a rectangle for semicircle, middle and upper part, and the tube seat degree of depth equals external diameter of pipe, and the upper surface of Guan Dingyu lower metal heat conducting film is in same plane.
3. according to claim 1 or 2 described a kind of dry-type hot water heating floors, it is characterized in that: upper strata metal heat-conducting film and lower metal heat conducting film all adopt metallic film or thin plate corrosion-resistant and that the capacity of heat transmission is strong.
4. according to the described a kind of dry-type hot water heating floor of claim 3, it is characterized in that: described metallic film or thin plate adopt aluminium foil or tinfoil paper.
5. according to the described a kind of dry-type hot water heating floor of claim 1, it is characterized in that: the thickness of upper strata metal heat-conducting film and lower metal heat conducting film is 0.1mm~0.6mm.
6. according to the described a kind of dry-type hot water heating floor of claim 1, it is characterized in that: heating tube tubing uses crosslinked aluminum-plastic laminated tube, Polybutylene Pipe, polyethylene pipe, crosslinked polyethylene pipe, polypropylene random copolymer pipe or heat-resisting enhancing polyethylene pipe, the heating tube external diameter is 12mm~20mm, tube pitch 150mm~300mm.
7, according to the described a kind of dry-type hot water heating floor of claim 1, it is characterized in that: described rough ground and insulation layer be with thick, no hollow volume; Rough ground is along being parallel to pipe range or being arranged in parallel perpendicular to the pipe range direction.
8. according to the described a kind of dry-type hot water heating floor of claim 1, its feature also is: insulation layer thickness is 25~45mm, and heating tube bottom insulation layer thickness thickens with the heating tube caliber.
9. according to the described a kind of dry-type hot water heating floor of claim 1, its feature also is: the ground that needs waterproof is being provided with waterproofing course on the metal heat-conducting film of upper strata He under the ground decoration layer; Moistureproof place is divided into damp-proof course at insulation layer.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNU2008201090077U CN201228427Y (en) | 2008-07-03 | 2008-07-03 | Dry-type hot-water heating floor |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNU2008201090077U CN201228427Y (en) | 2008-07-03 | 2008-07-03 | Dry-type hot-water heating floor |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN201228427Y true CN201228427Y (en) | 2009-04-29 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNU2008201090077U Expired - Lifetime CN201228427Y (en) | 2008-07-03 | 2008-07-03 | Dry-type hot-water heating floor |
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| Country | Link |
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| CN (1) | CN201228427Y (en) |
Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| GB2466374A (en) * | 2008-12-16 | 2010-06-23 | Doo Nyun Kim | Method for producing a multilayer complex heating panel |
| CN102661023A (en) * | 2011-03-01 | 2012-09-12 | 海宁伊满阁太阳能科技有限公司 | Metal heat-conduction enhanced floor |
| CN103528111A (en) * | 2012-07-02 | 2014-01-22 | 江苏德威木业有限公司 | Integrated water heating floor block and heat conducting component thereof |
| CN104633808A (en) * | 2014-12-09 | 2015-05-20 | 成都恒新源暖通工程有限公司 | Heating and cooling dualpurpose floor heating module |
| CN108868050A (en) * | 2018-06-28 | 2018-11-23 | 温州市东风建筑工程公司 | A kind of dry-type hot water heating floor |
| CN109695332A (en) * | 2019-01-26 | 2019-04-30 | 温州乐成装饰设计有限公司 | A kind of dry-type hot water heating floor |
| WO2019184714A1 (en) * | 2018-03-27 | 2019-10-03 | 李海波 | Modular component for floor heating |
| GB2574639A (en) * | 2018-06-13 | 2019-12-18 | Nu Heat Uk Ltd | Decking board for use with a panel for holding a fluid circulation pipe |
-
2008
- 2008-07-03 CN CNU2008201090077U patent/CN201228427Y/en not_active Expired - Lifetime
Cited By (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| GB2466374A (en) * | 2008-12-16 | 2010-06-23 | Doo Nyun Kim | Method for producing a multilayer complex heating panel |
| GB2466374B (en) * | 2008-12-16 | 2011-08-24 | Doo Nyun Kim | Method for producing heating panel |
| CN102661023A (en) * | 2011-03-01 | 2012-09-12 | 海宁伊满阁太阳能科技有限公司 | Metal heat-conduction enhanced floor |
| CN103528111A (en) * | 2012-07-02 | 2014-01-22 | 江苏德威木业有限公司 | Integrated water heating floor block and heat conducting component thereof |
| CN103528111B (en) * | 2012-07-02 | 2016-01-20 | 江苏德威木业有限公司 | Integrated water heating floor block and heat conduction member thereof |
| CN104633808A (en) * | 2014-12-09 | 2015-05-20 | 成都恒新源暖通工程有限公司 | Heating and cooling dualpurpose floor heating module |
| WO2019184714A1 (en) * | 2018-03-27 | 2019-10-03 | 李海波 | Modular component for floor heating |
| GB2574639A (en) * | 2018-06-13 | 2019-12-18 | Nu Heat Uk Ltd | Decking board for use with a panel for holding a fluid circulation pipe |
| CN108868050A (en) * | 2018-06-28 | 2018-11-23 | 温州市东风建筑工程公司 | A kind of dry-type hot water heating floor |
| CN109695332A (en) * | 2019-01-26 | 2019-04-30 | 温州乐成装饰设计有限公司 | A kind of dry-type hot water heating floor |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20090429 Effective date of abandoning: 20080703 |