CN202181704U - Solid wood heat conduction floor - Google Patents
Solid wood heat conduction floor Download PDFInfo
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- CN202181704U CN202181704U CN2011202217486U CN201120221748U CN202181704U CN 202181704 U CN202181704 U CN 202181704U CN 2011202217486 U CN2011202217486 U CN 2011202217486U CN 201120221748 U CN201120221748 U CN 201120221748U CN 202181704 U CN202181704 U CN 202181704U
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- heat conduction
- floor
- solid wood
- wood heat
- groove
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Abstract
The utility model discloses a solid wood heat conduction floor which comprises a male tenon end and a female tenon end along the length direction, and comprises a male tenon side and a female groove side along the width direction. The back surface of the solid wood heat conduction floor is provided with a plurality of heat conduction grooves which are arranged along the length direction of the solid wood heat conduction floor, the heat conduction grooves are vertically communicated with female grooves at a female groove end, an arc groove is arranged at the joint of the front surface of the floor, the male teneon end and the male tenon side; in addition, the solid wood heat conduction floor also comprises an opening groove, a ventilation groove and a U-shaped groove, wherein the opening groove is arranged along the length direction of the solid wood heat conduction floor, is arranged on a male tenon of the male tenon end, and is right opposite to the heat conduction grove close to the male tenon side, the ventilation groove is formed by extending the female groove to the depth direction of the female grove, the U-shaped groove is arranged on the wall of the ventilation groove, close to the front surface of the solid wood heat conduction floor, the depth direction of the U-shaped groove is consistent with the length direction of the solid wood heat conduction floor, and the position of the U-shaped groove corresponds to that of the opening groove.
Description
Technical field
The utility model relates to a kind of decorative building material, relates in particular to a kind of wooden floor that is applicable to that ground heating is mated formation.
Background technology
The Along with people's growth in the living standard adopts the house of geothermal heating system increasing at present, bring comfortable and while easily for people life, has also brought floor heat dissipation problem in the ground surface finishing thereupon.
Characteristics such as natural, pollution-free with it, the easy processing of wooden floor receive liking of people, yet temperature and humidity influences bigger in the environment because wooden floor receives; The tidal bulge drying shrinkage is used it in the house of geothermal heating system, if structure design is unreasonable; Not only radiating effect is bad; The situation of drum and dry joint also can occur, both influence result of use, also influence the attractive in appearance of integral body.
A kind of floor that is used in the geothermal heating system house is arranged in the market; This floor is respectively equipped with public tenon and female groove in two ends, the width both sides of its length direction; The front, floor is positioned at the deep-slotted chip breaker that has of male tenon end and the male tenon side intersection on the width of floor on the floor length direction; The back side, floor is interval with two vertical thermal troughs, the vertical perforation of female groove of two vertical thermal troughs and floor length direction one end; Also be provided with the vertical through hole that runs through at the middle part of every floor length and thickness, the intersection of through hole and thermal trough forms an air channel.During assembling; After the public tenon at two floor length direction two ends and female groove are assembled together; When the public tenon of female groove of width one side of the 3rd floor and this two floors width, one side is assembled together; Then must the vertical through-hole alignment that runs through that the 3rd floor length and thickness middle part are provided be assemblied in the junction of preceding two floors; So that the heat of underfloor finally conducts to floor surface through the deep-slotted chip breaker that is provided with on the positive public tenon in floor through the thermal trough at the back side, floor, the through hole that vertically runs through, air channel, give indoor heating through cross-ventilated mode again.
In theory, this structure design is feasible.Yet, in actual application, when the assembling floor; Be difficult to guarantee that one is assemblied in the through-hole alignment that vertically runs through on the 3rd floor junction of preceding two floors surely, like this, the space between this through hole and the deep-slotted chip breaker is just very limited; Its air channel is owing to receive the restriction of thermal trough width in addition; Opening size is also very limited, has not in place slightly or paints improperly as long as install, and very easily the space between through hole and the deep-slotted chip breaker is blocked; The heat of underfloor can't normally be derived at all, thereby can't reach the purpose of heat radiation.
In addition; The form of structure on above-mentioned floor also defines it and after assembly unit, does not follow closely the position of flooring nail, will not make the floor to be connected with the rough ground of being located at the below and do not follow closely flooring nail, like this; Increase along with service time; The floor steps on and is easy to send the grating between plate and the plate, thereby, directly influenced the result of use on floor.Especially also can cause the bulk strength on floor obviously to reduce in floor length with the vertical through hole that runs through that the thickness middle part is provided with.
Summary of the invention
The purpose of the utility model provides a kind of solid wood heat conduction floor, and it can make the heat of underfloor be passed to ground fast, prevents effectively because the heat radiation inhomogeneous situation that had not only influenced heating effect but also influenced the outward appearance on floor in floor occurs.Use this solid wood heat conduction floor; Also can floor and the rough ground that is laid on underfloor be interconnected through flooring nail, thereby make the assembling on floor more firm, whole stressed more even; Thereby improve the friction condition between plate and the plate, reduce the sound that send on the floor.
In order to realize the foregoing invention purpose; The utility model provides a kind of solid wood heat conduction floor; This solid wood heat conduction floor has a male tenon end and a female groove end along its length direction; Have a male tenon side and a female groove side along its width; The back side on said solid wood heat conduction floor is provided with some the thermal troughs that are provided with along the length direction on solid wood heat conduction floor, the vertical perforation of female groove of said thermal trough and said female groove end, and the intersection of front, male tenon end and the male tenon side on said solid wood heat conduction floor also is provided with a deep-slotted chip breaker; In addition, said solid wood heat conduction floor also comprises:
One open slot offered along the length direction on solid wood heat conduction floor, it is located on the public tenon of said male tenon end, and is right against the thermal trough of next-door neighbour's male tenon side;
One air trunking, it extends to form to its depth direction from said female groove;
One U type groove is located on the cell wall of said air trunking, and this cell wall is near the front on solid wood heat conduction floor, and the depth direction of said U type groove is consistent with the length direction on solid wood heat conduction floor, and the position of said U type groove is corresponding with the position of said open slot.
Preferably; Said solid wood heat conduction floor also comprises: the seam sheltering brim that is provided with along the length direction on solid wood heat conduction floor; It is located at said female groove side, and said seam sheltering brim stretches out from the front on solid wood heat conduction floor, and on the width on solid wood heat conduction floor, is outward extended with certain width.
The width of said U type groove is identical with the width of open slot.
The quantity of said thermal trough is two.
The described solid wood heat conduction of the utility model floor makes it have extraordinary thermal conductivity owing to adopted above-mentioned technical scheme, and it compared with prior art has following advantage and good effect:
1. because the described solid wood heat conduction of the utility model floor has utilized original thermal trough, deep-slotted chip breaker on every floor; Be provided with air trunking, open slot and U type groove again respectively; And the form of structure that on structure design, has adopted five grooves to be communicated with each other; Formed the network of a ventilation and heat, can make the heat of underfloor be directly conducted to floor surface, also can the moisture of underfloor have been emitted through this deep-slotted chip breaker simultaneously through the deep-slotted chip breaker on the front, floor.
2. in optimized technical scheme, the setting of seam sheltering brim can cover the seam of floor length direction fully on the described solid wood heat conduction of the utility model floor, makes that the floor appearance is more attractive in appearance, and its globality is stronger.
3. the described solid wood heat conduction of the utility model floor also can install flooring nail additional on the public tenon front of two floor length direction junctions; Through flooring nail floor and the rough ground that is laid on underfloor are connected as a single entity; So not only can make the floor assemble more firmly; Ground slab integral stressed also more even, when people walk on the floor, the grating between floor and the floor therefore also can be and be improved significantly.
4. all be positioned at the end of every floor owing to air trunking, open slot and the U type groove on the described solid wood heat conduction of the utility model floor, so the floor assembles up just flexible especially.After current two floors assembled, as long as the public tenon of preceding two floor widths, one side is embedded in female groove of the 3rd floor width one side, female groove can arbitrarily be adjusted on the floor length direction with respect to the position of public tenon as the case may be.
Description of drawings
Come the described solid wood heat conduction of the utility model floor is further specified below in conjunction with accompanying drawing and specific embodiment.
Fig. 1 is the described solid wood of the utility model overall structure sketch map of backboard face with heat conduction.
Fig. 2 is that the A of Fig. 1 is to view (floor down).
Fig. 3 is the left view of Fig. 2.
Fig. 4 is the rear elevation of one section of the length direction male tenon end on the described solid wood heat conduction of Fig. 1 floor.
Fig. 5 is that the B of Fig. 4 is to view.
Fig. 6 is the assembly structure sketch map (floor is positive) on two solid wood heat conduction floors.
Fig. 7 is the assembly structure sketch map (floor is positive) on three solid wood heat conduction floors.
The specific embodiment
As shown in Figure 1, solid wood heat conduction floor has a male tenon end and a female groove end respectively on its length direction, on its width, has a male tenon side and a female groove side respectively; Wherein male tenon end is provided with the first public tenon 1; Female groove end is provided with first female groove 2, and male tenon side is provided with the second public tenon 3, and female groove side is provided with second female groove 4; The back side on this solid wood heat conduction floor is provided with two and has certain interval in the middle of 5, two thermal troughs of thermal trough 5 longitudinally.Cooperation is referring to Fig. 2 and Fig. 3, thermal trough 5 and first female groove 2 vertical perforations.
Like Fig. 4, shown in 5, the front on this solid wood heat conduction floor is provided with deep-slotted chip breaker 6 in the intersection of male tenon side and male tenon end.
Please continue to consult Fig. 1, Fig. 2 and Fig. 3, the first public tenon 1 on solid wood heat conduction floor is provided with an open slot 11, and this open slot 11 is right against the thermal trough 5 near male tenon side.First female groove 2 extends to its depth direction, forms an air trunking 21.The cell wall of air trunking 21 is provided with a U type groove 22; The depth direction of this U type groove 22 (i.e. bottom from the openend of U type to the U type) is consistent with the thickness direction on solid wood heat conduction floor; The bearing of trend of this U type groove 22 is consistent with the length direction on solid wood heat conduction floor; The position of U type groove 22 is corresponding with the position of open slot 11, and the width of the two also equates.
As shown in Figure 6; When splice in the longitudinal direction on two solid wood heat conduction floors; When the first public tenon 1 on a solid wood heat conduction floor is inserted in the first female groove 2 on another piece solid wood heat conduction floor, because the extension of first female groove 2 is air trunking 21, so in the intersection of two floors; Constituted the form of structure that thermal trough 5, air trunking 21, open slot 11, U type groove 22 and deep-slotted chip breaker 6 five grooves communicate; Thermal trough 5, air trunking 21, open slot 11 and the U type groove 22 of the heat of underfloor through being interconnected to each other finally conducts to solid wood heat conduction floor surface through deep-slotted chip breaker 6, gets into the interior space through cross-ventilated mode again.
When splice on width on solid wood heat conduction floor, for example as shown in Figure 7, when the 3rd solid wood heat conduction floor and preceding two solid wood heat conduction floors are assembled together; Because positive female groove side on solid wood heat conduction floor is provided with seam sheltering brim 7; So seam sheltering brim 7 can cover the seam on the length direction of solid wood heat conduction floor fully, therefore, after the ground slab integral paves; The globality on floor is strengthened, and its appearance also can be more attractive in appearance.
Solid wood heat conduction floor in the present embodiment; Its assembling form is also very flexible; As long as the second public tenon 3 on preceding two solid wood heat conduction floors is embedded in second female groove 4 on the 3rd solid wood heat conduction floor, second female groove 4 position with respect to the second public tenon 3 on the floor length direction can arbitrarily be adjusted as the case may be.
Like Fig. 6 and shown in Figure 7, for the described solid wood heat conduction of the utility model floor, can D shown in the figure place; Be to install flooring nail additional on the front of male tenon side on solid wood heat conduction floor, it be connected, like this with the rough ground of underfloor; Whole floor not only can be more firm; Ground slab integral stressed also more even, when people walked on the floor, the unpleasant to hear sound that sends owing to the phase mutual friction between the floor also can be significantly improved.
Those of ordinary skill in the art will be appreciated that; Above embodiment is used for explaining the utility model; And be not the qualification that is used as the utility model; As long as in the connotation scope of the utility model, all will drop in claims scope of the utility model variation, the modification of the above embodiment.
Claims (4)
1. solid wood heat conduction floor; Have a male tenon end and a female groove end along its length direction; Have a male tenon side and a female groove side along its width; The back side on said solid wood heat conduction floor is provided with some the thermal troughs that are provided with along the length direction on solid wood heat conduction floor, the vertical perforation of female groove of said thermal trough and said female groove end, and the intersection of front, male tenon end and the male tenon side on said solid wood heat conduction floor also is provided with a deep-slotted chip breaker; It is characterized in that said solid wood heat conduction floor also comprises:
One open slot offered along the length direction on solid wood heat conduction floor, it is located on the public tenon of said male tenon end, and is right against the thermal trough of next-door neighbour's male tenon side;
One air trunking, it extends to form to its depth direction from said female groove;
One U type groove is located on the cell wall of said air trunking, and this cell wall is near the front on solid wood heat conduction floor, and the depth direction of said U type groove is consistent with the length direction on solid wood heat conduction floor, and the position of said U type groove is corresponding with the position of said open slot.
2. solid wood heat conduction as claimed in claim 1 floor; It is characterized in that; Also comprise: the seam sheltering brim that is provided with along the length direction on solid wood heat conduction floor; It is located at said female groove side, and said seam sheltering brim stretches out from the front on solid wood heat conduction floor, and on the width on solid wood heat conduction floor, is outward extended with certain width.
3. according to claim 1 or claim 2 solid wood heat conduction floor is characterized in that the width of said U type groove is identical with the width of open slot.
4. solid wood heat conduction as claimed in claim 1 floor is characterized in that the quantity of said thermal trough is two.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011202217486U CN202181704U (en) | 2011-06-27 | 2011-06-27 | Solid wood heat conduction floor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011202217486U CN202181704U (en) | 2011-06-27 | 2011-06-27 | Solid wood heat conduction floor |
Publications (1)
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CN202181704U true CN202181704U (en) | 2012-04-04 |
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CN2011202217486U Expired - Lifetime CN202181704U (en) | 2011-06-27 | 2011-06-27 | Solid wood heat conduction floor |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2015180215A1 (en) * | 2014-05-28 | 2015-12-03 | 王仁忠 | Core board of frame-type solid wood floor provided with telescopic vent holes and frame-type solid wood floor |
-
2011
- 2011-06-27 CN CN2011202217486U patent/CN202181704U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2015180215A1 (en) * | 2014-05-28 | 2015-12-03 | 王仁忠 | Core board of frame-type solid wood floor provided with telescopic vent holes and frame-type solid wood floor |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right | ||
TR01 | Transfer of patent right |
Effective date of registration: 20190513 Address after: 215345 No. 9 Dongyuan Road, Dianshan Lake Town, Kunshan City, Suzhou City, Jiangsu Province Patentee after: Kunhao Home (Kunshan) Co., Ltd. Address before: 201705 No. 4899 Jiasong Middle Road, Qingpu District, Shanghai Patentee before: Shanghai Kunhao Wood Industry Co., Ltd. |
|
CX01 | Expiry of patent term | ||
CX01 | Expiry of patent term |
Granted publication date: 20120404 |