CN202380682U - Deformation-resisting solid wood geothermal floor - Google Patents
Deformation-resisting solid wood geothermal floor Download PDFInfo
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- CN202380682U CN202380682U CN2011204844364U CN201120484436U CN202380682U CN 202380682 U CN202380682 U CN 202380682U CN 2011204844364 U CN2011204844364 U CN 2011204844364U CN 201120484436 U CN201120484436 U CN 201120484436U CN 202380682 U CN202380682 U CN 202380682U
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- solid wood
- thermal trough
- plank
- vertical
- substrate layer
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Abstract
The utility model discloses a deformation-resisting solid wood geothermal floor comprising a facing layer, a bottom layer and a substrate layer, wherein the substrate layer is located between the facing layer and the bottom layer; the substrate layer is spliced by a first longitudinal solid wood lath, a second longitudinal solid wood lath and a plurality of horizontal solid wood laths; the horizontal solid wood laths are arranged and spliced in parallel; the first longitudinal solid wood lath and the second longitudinal solid wood lath are vertical to the horizontal solid wood lath and prop against the two ends of the horizontal solid wood lath respectively. Based on the above arrangement, one integral solid wood board is sawed into horizontal solid wood laths with the same specifications in order to change length of the solid wood fiber; the horizontal solid wood laths are combined tightly in order to enable length of the wood fiber to be uniform to the greatest extent; therefore, the stress of the solid wood board is eliminated. When meeting natural phenomena such as cold, heat, damp, dryness and on the like, the solid wood board with the structure can play a deformation-resisting role to the maximum extent and the stability of the geothermal floor can be better achieved.
Description
Technical field
The utility model relates to the floor design field, relates in particular to a kind of anti-deformation wood heating floor.
Background technology
In senior decoration, the heating system of ground spoke heat receives pursuing of a lot of customers at present, and increasing customer is employed in the provided underground heat pipe and comes heating; This heating system is with the low-temperature heat radiant heating, and the temperature radiation that makes progress from ground is from bottom to top successively decreased; This kind heating system can make indoor temperature keep evenly, and heating is comfortable, efficient energy-saving; And solid wood geothermal energy floor becomes the warm first-selected art work of general family ground spoke thermal recovery with its better heat radiating effect.
As everyone knows; The wood fibre cross growth of solid wood itself, when it was sawn into plank, the wood fibre length that is distributed in above the plank was different in size; So its stress is also different; So in running into natural environment hot and cold, make moist, during phenomenon such as drying, different because of the stress of different fibre lengths, plank will produce metabolies such as bending, distortion.
Therefore, development anti-deformation wood heating floor becomes a kind of development trend.
The utility model content
In view of this, the purpose of the utility model is to provide a kind of anti-deformation wood heating floor, to solve the problem that existing solid wood geothermal energy floor is prone to the arch camber distortion.
For realizing above-mentioned purpose, the utility model provides following technical scheme:
A kind of anti-deformation wood heating floor; Comprise overlay coating, bottom and substrate layer; Said substrate layer is between said overlay coating and said bottom, and said substrate layer is made up of the horizontal plank of solid wood splicing of first vertical plank of solid wood, second vertical plank of solid wood and polylith;
The splicing that is arranged in parallel of the said horizontal plank of solid wood of polylith, said first vertical plank of solid wood and the vertical said horizontal plank of solid wood of said second vertical plank of solid wood, and be connected to the two ends of said horizontal plank of solid wood respectively.
Preferably, the surface of said substrate layer is provided with thermal trough.
Preferably; One side at said substrate layer; Parallel direction along said first vertical plank of solid wood is provided with first thermal trough, the 3rd thermal trough and the 5th thermal trough, at the another side of said substrate layer; Parallel direction along said first vertical plank of solid wood is provided with second thermal trough and the 4th thermal trough.
Preferably, said first thermal trough, said the 3rd thermal trough and said the 5th thermal trough are evenly distributed between said first vertical plank of solid wood and said second vertical plank of solid wood.
Preferably, said first thermal trough, said second thermal trough, said the 3rd thermal trough, said the 4th thermal trough and said the 5th thermal trough are evenly distributed between said first vertical plank of solid wood and said second vertical plank of solid wood.
Preferably, the groove depth of said first thermal trough, said second thermal trough, said the 3rd thermal trough, said the 4th thermal trough and said the 5th thermal trough is 1/2~2/3 of said horizontal plank of solid wood thickness.
Preferably, all the length with said first vertical plank of solid wood is identical for the flute length of said first thermal trough, said second thermal trough, said the 3rd thermal trough, said the 4th thermal trough and said the 5th thermal trough.
Preferably, said substrate layer is made up of the said horizontal plank of solid wood hot pressing splicing of said first vertical plank of solid wood, said second vertical plank of solid wood and polylith.
Can find out that from above-mentioned technical scheme a kind of anti-deformation wood heating floor that the utility model provides comprises overlay coating, bottom and substrate layer, said substrate layer is between said overlay coating and said bottom; Said substrate layer is made up of the horizontal plank of solid wood splicing of first vertical plank of solid wood, second vertical plank of solid wood and polylith; The splicing that is arranged in parallel of the said horizontal plank of solid wood of polylith, said first vertical plank of solid wood and the vertical said horizontal plank of solid wood of said second vertical plank of solid wood, and be connected to the two ends of said transverse slats respectively.
Based on above-mentioned setting; Substrate layer is spliced by vertical lath and transverse slats; Transverse slats is the batten of the same size that is sawn into by a monoblock solid wood plank, and vertically lath is the batten of the same size that is sawn into by a monoblock solid wood plank equally, and the batten that monoblock solid wood plank is sawn into same specification can change the length of log wood fibre; Vertical lath and transverse slats are combined closely; Can make wood fibre length as far as possible consistent, eliminate the stress of solid wood plank itself, like this run into hot and cold, make moist, during natural phenomena such as drying; This structure wooden floor can play the effect of resistance to deformation to greatest extent, better reaches the stability of solid wood.
Further, the heating floor that the utility model provides, the surface of said substrate layer is provided with thermal trough; One side at said substrate layer; Parallel direction along said first vertical plank of solid wood is provided with first thermal trough, the 3rd thermal trough and the 5th thermal trough, at the another side of said substrate layer; Parallel direction along said first vertical plank of solid wood is provided with second thermal trough and the 4th thermal trough; Said first thermal trough, said the 3rd thermal trough and said the 5th thermal trough are evenly distributed between said first vertical plank of solid wood and said second vertical plank of solid wood; Said first thermal trough, said second thermal trough, said the 3rd thermal trough, said the 4th thermal trough and said the 5th thermal trough are evenly distributed between said first vertical plank of solid wood and said second vertical plank of solid wood; The groove depth of said first thermal trough, said second thermal trough, said the 3rd thermal trough, said the 4th thermal trough and said the 5th thermal trough is 1/2~2/3 of said horizontal plank of solid wood thickness; All the length with said first vertical plank of solid wood is identical for the flute length of said first thermal trough, said second thermal trough, said the 3rd thermal trough, said the 4th thermal trough and said the 5th thermal trough.
Based on above-mentioned setting, the thermal trough of the heat that the thermal source under the solid wood geothermal energy floor gives off through a plurality of even settings be to indoor transmission, and heat conduction rapidly and evenly.
Description of drawings
In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art; To do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below; Obviously, the accompanying drawing in describing below only is some embodiment of the utility model, for those of ordinary skills; Under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.
Fig. 1 is the utility model solid wood geothermal energy floor substrate layer structural representation;
Fig. 2 is the utility model solid wood geothermal energy floor overall structure sketch map.
The specific embodiment
The core of the utility model is to provide a kind of anti-deformation wood heating floor, to solve the problem that existing solid wood geothermal energy floor is prone to the arch camber distortion.
To combine the accompanying drawing among the utility model embodiment below, the technical scheme among the utility model embodiment is carried out clear, intactly description, obviously, described embodiment only is the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that is obtained under the creative work prerequisite, all belong to the scope of the utility model protection.
See also Fig. 1 and Fig. 2, Fig. 1 is the utility model solid wood geothermal energy floor substrate layer structural representation; Fig. 2 is the utility model solid wood geothermal energy floor overall structure sketch map.
A kind of anti-deformation wood heating floor comprises overlay coating 1, substrate layer 2 and bottom 3, and substrate layer 2 is between overlay coating 1 and bottom 3, and substrate layer 2 is made up of first vertical plank of solid wood 4, second vertical plank of solid wood 5 and horizontal plank of solid wood 6 splicings of polylith; The splicing that is arranged in parallel of the horizontal plank of solid wood 6 of polylith, first vertical plank of solid wood 4 and second vertical plank of solid wood 5 vertical transverse plank of solid wood 6, and be connected to the two ends of horizontal plank of solid wood 6 respectively.
Substrate layer is spliced by vertical lath and transverse slats; Transverse slats is the batten of the same size that is sawn into by a monoblock solid wood plank, and vertically lath is the batten of the same size that is sawn into by a monoblock solid wood plank equally, and the batten that monoblock solid wood plank is sawn into same specification can change the length of log wood fibre; Vertical lath and transverse slats are combined closely; Can make wood fibre length as far as possible consistent, eliminate the stress of solid wood plank itself, like this run into hot and cold, make moist, during natural phenomena such as drying; This structure wooden floor can play the effect of resistance to deformation to greatest extent, better reaches the stability of solid wood.
In order further to reach radiating effect, the surface of the substrate layer 2 of solid wood geothermal energy floor is provided with thermal trough.
Further; One side at substrate layer 2; Along the parallel direction of first vertical plank of solid wood 4, be provided with first thermal trough 7, the 3rd thermal trough 9 and the 5th thermal trough 11, at the another side of substrate layer 2; Parallel direction along first vertical plank of solid wood 4 is provided with second thermal trough 8 and the 4th thermal trough 10.
In other embodiment of the utility model, the quantity of above-mentioned thermal trough can be 3,4; 6,7 or the like, thermal trough can be arranged on the one side of substrate layer; Also can be arranged on the two sides of substrate layer, those skilled in the art can carry out flexible design according to actual needs, do not give unnecessary details at this.
Further, first thermal trough 7, the 3rd thermal trough 9 and the 5th thermal trough 11 are evenly distributed between first vertical plank of solid wood 4 and second vertical plank of solid wood 5;
First thermal trough 7, second thermal trough 8, the 3rd thermal trough 9, the 4th thermal trough 10 and the 5th thermal trough 11 are evenly distributed between first vertical plank of solid wood 4 and second vertical plank of solid wood 5;
The groove depth of first thermal trough 7, second thermal trough 8, the 3rd thermal trough 9, the 4th thermal trough 10 and the 5th thermal trough 11 is 1/2~2/3 of horizontal plank of solid wood 6 thickness; Those skilled in the art can carry out flexible design to the groove depth of thermal trough according to actual needs, do not give unnecessary details at this.
Further, all the length with first vertical plank of solid wood 4 is identical for the flute length of first thermal trough 7, second thermal trough 8, the 3rd thermal trough 9, the 4th thermal trough 10 and the 5th thermal trough 11;
In other embodiment of the utility model, those skilled in the art can be according to actual needs carry out flexible design to the flute length of thermal trough, do not give unnecessary details at this.
Based on above-mentioned setting, the thermal trough of the heat that underfloor thermal source gives off through a plurality of even settings be to indoor transmission, and heat conduction rapidly and evenly.
In other embodiment of the utility model, second thermal trough 8, the 4th thermal trough 10 are evenly distributed between first vertical plank of solid wood 4 and second vertical plank of solid wood 5.
In order further to reach above-mentioned technique effect, substrate layer 2 is made up of first vertical plank of solid wood 4, second vertical plank of solid wood 5 and 6 hot pressing splicings of the horizontal solid wood plate of polylith.
To the above-mentioned explanation of the disclosed embodiments, make this area professional and technical personnel can realize or use the utility model.Multiple modification to these embodiment will be conspicuous concerning those skilled in the art, and defined General Principle can realize under the situation of spirit that does not break away from the utility model or scope in other embodiments among this paper.Therefore, the utility model will can not be restricted to these embodiment shown in this paper, but will meet and principle disclosed herein and features of novelty the wideest corresponding to scope.
Claims (8)
1. an anti-deformation wood heating floor comprises overlay coating, bottom and substrate layer, and said substrate layer is characterized in that between said overlay coating and said bottom,
Said substrate layer is made up of the horizontal plank of solid wood splicing of first vertical plank of solid wood, second vertical plank of solid wood and polylith;
The splicing that is arranged in parallel of the said horizontal plank of solid wood of polylith, said first vertical plank of solid wood and the vertical said horizontal plank of solid wood of said second vertical plank of solid wood, and be connected to the two ends of said horizontal plank of solid wood respectively.
2. heating floor as claimed in claim 1 is characterized in that the surface of said substrate layer is provided with thermal trough.
3. heating floor as claimed in claim 2 is characterized in that,
One side at said substrate layer; Parallel direction along said first vertical plank of solid wood is provided with first thermal trough, the 3rd thermal trough and the 5th thermal trough, at the another side of said substrate layer; Parallel direction along said first vertical plank of solid wood is provided with second thermal trough and the 4th thermal trough.
4. heating floor as claimed in claim 3 is characterized in that, said first thermal trough, said the 3rd thermal trough and said the 5th thermal trough are evenly distributed between said first vertical plank of solid wood and said second vertical plank of solid wood.
5. heating floor as claimed in claim 4; It is characterized in that said first thermal trough, said second thermal trough, said the 3rd thermal trough, said the 4th thermal trough and said the 5th thermal trough are evenly distributed between said first vertical plank of solid wood and said second vertical plank of solid wood.
6. like each described heating floor of claim 2-4; It is characterized in that the groove depth of said first thermal trough, said second thermal trough, said the 3rd thermal trough, said the 4th thermal trough and said the 5th thermal trough is 1/2~2/3 of said horizontal plank of solid wood thickness.
7. heating floor as claimed in claim 6 is characterized in that, all the length with said first vertical plank of solid wood is identical for the flute length of said first thermal trough, said second thermal trough, said the 3rd thermal trough, said the 4th thermal trough and said the 5th thermal trough.
8. heating floor as claimed in claim 7 is characterized in that,
Said substrate layer is made up of the said horizontal plank of solid wood hot pressing splicing of said first vertical plank of solid wood, said second vertical plank of solid wood and polylith.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011204844364U CN202380682U (en) | 2011-11-28 | 2011-11-28 | Deformation-resisting solid wood geothermal floor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011204844364U CN202380682U (en) | 2011-11-28 | 2011-11-28 | Deformation-resisting solid wood geothermal floor |
Publications (1)
Publication Number | Publication Date |
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CN202380682U true CN202380682U (en) | 2012-08-15 |
Family
ID=46629194
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2011204844364U Expired - Fee Related CN202380682U (en) | 2011-11-28 | 2011-11-28 | Deformation-resisting solid wood geothermal floor |
Country Status (1)
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CN (1) | CN202380682U (en) |
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2011
- 2011-11-28 CN CN2011204844364U patent/CN202380682U/en not_active Expired - Fee Related
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120815 Termination date: 20131128 |