Wood Board Connection with Heat Transfer Function

Abstract

This invention discloses a wood board connection structure with heat transfer function which comprises flooring heat transfer and wood board blocks. A main reinforcement of each flooring heat transfer exposes out from the surface of a wood board block, at least one salient is formed on the side wall of the main reinforcement, a groove which is matched with the main reinforcement and the salient is formed on the corresponding wood board block, and the block of each flooring heat transfer is provided with a hollow part. The salient is a salient with a hook part. A cushion block can be added between each two flooring heat transfer to be used for ventilation, and the flooring heat transfer can also regulate indoor temperature; the wood board block can generate thermal expansion along with temperature variation, and a gap between each two wood board block units on the surface of the wood board block can be small and big along with the temperature variation. These are covered by a cap part, and cannot be seen to cause the installed wood board block to be more beautiful.

Description

CROSS REFERENCE TO THE RELATED PATENT APPLICATION

The present application claims the priority of the Chinese patent application No. 200920121790.2 filed on Jun. 11, 2009, which application is incorporated herein by reference.

FIELD OF THE INVENTION

This invention relates to the technical field of a decorative board, in particular to a flooring heat transfer which is suitable for a floor board, a wall panel and a ceiling board to use, and has the heat transfer function.

BACKGROUND OF THE INVENTION

The Chinese patent with the application number to be 200510019219.7 and the announcement number to be CN 1908341A discloses a combination type lock catch floor keel. This invention's keel causes two wood board blocks to be locked together. A main reinforcement with a hook bending part and convex reinforcements symmetrically arranged at both sides of the main reinforcement are arranged on the surface of the keel, the main reinforcement and the convex reinforcements are respectively inserted and sleeved into a groove which is matched with a wood board to realize locking, the keel can lock a joint between two adjacent boards to cause no gap to exist between each two boards, and the board blocks cannot deform. This invention has the deficiencies in that: the keel is inserted and sleeved into the wood board block, does not expose out from the surface of the wood board block, and does not have the function of regulating indoor temperature.

SUMMARY OF THE INVENTION

This invention aims to provide a wood board connection structure which has the function of regulating the indoor temperature.

This invention has the technical solving measures as follows:

A wood board connection structure with heat transfer function comprising: a flooring heat transfer and a wood board block; a main reinforcement of the flooring heat transfer exposes out from a surface of the wood board block, at least one salient is formed on a side wall of the main reinforcement, a groove which is matched with the main reinforcement and the salient is formed on the corresponding wood board block, and a block of the flooring heat transfer is provided with the hollow part.

The salient has a hook part.

A surface of the flooring heat transfer is provided with a plurality of auxiliary reinforcements which are symmetrical and parallel to the main reinforcement, and a groove which is matched with the auxiliary reinforcement is formed on the corresponding wood board block.

Two adjacent hollow parts of the flooring heat transfer are communicated by a catheter.

An upper part of the main reinforcement is in a cap shape an arc surface.

The block of the flooring heat transfer is connected with cushion blocks in an inserting way.

The block of the flooring heat transfer is provided with a plug-in groove, the cushion block is provided with a plug-in tenon, and the plug-in tenon is inserted into the plug-in groove.

The invention has the advantages in that: (1). the cushion block can be added between each two keels to be used for ventilation; (2). the keel is made of heat conduction materials, the hollow part is arranged in the keel, hot water or hot steam can circulate in the keel through the catheter to transfer heat from the cap part which exposes out from the surface of the wood board block to the surface of the floor board and regulate the indoor temperature; refrigerant (such as cold water, air-conditioning cold air) can also flow through this invention to lower the indoor temperature, and an electrically heated wire and an electric heating pipe can also be installed in the hollow part to carry out heating to cause the indoor temperature to raise; (3). The wood board block can generate thermal expansion along with the temperature variation, and the gap between each two wood board block units on the surface of the wood board block can be small and big along with the temperature variation. These are covered by the cap part, and cannot be seen; thereby the installed wood board block becomes more beautiful.

BRIEF DESCRIPTION OF THE DRAWINGS

Further illustration to this invention is given with the attached drawings:

FIG. 1 is a cutaway view for embodiment 1;

FIG. 2 is a stereo decomposition diagrammatic drawing for the embodiment 1;

FIG. 3 is a cutaway view for embodiment 2;

FIG. 4 is a cutaway view for embodiment 3;

FIG. 5 is a cutaway view for embodiment 4;

FIG. 6 is a cutaway view for embodiment 5;

FIG. 7 is a cutaway view for embodiment 6;

FIG. 8 is a stereo diagrammatic drawing for embodiment 7;

FIG. 9 is a cutaway view for embodiment 8;

FIG. 10 is a cutaway view for embodiment 9;

FIG. 11 is a cutaway view for embodiment 10;

FIG. 12 is a cutaway view for embodiment 11;

FIG. 13 is a cutaway view for embodiment 12;

FIG. 14 is a cutaway view for embodiment 13;

FIG. 15 is a cutaway view for embodiment 14;

FIG. 16 is a cutaway view for embodiment 15;

FIG. 17 is a cutaway view for embodiment 16;

FIG. 18 is a cutaway view for embodiment 17;

FIG. 19 is a cutaway view for embodiment 18;

FIG. 20 is a cutaway view for embodiment 19;

FIG. 21 is a cutaway view for embodiment 20;

FIG. 22 is a cutaway view for embodiment 21.

DETAIL DESCRIPTION OF THE INVENTION

The embodiment 1, seen FIG. 1 and FIG. 2, a wood board connection structure with heat transfer function comprises the flooring heat transfer 1 and wood board blocks 2, the main reinforcement 11 of each flooring heat transfer 1 exposes out from the surface of the wood board block 2, and two auxiliary reinforcements which are a left convex reinforcement 12 and a right convex reinforcement 13 are respectively inserted and sleeved into the grooves 22, 23 which are matched with two wood board blocks 2; the block 10 of each flooring heat transfer 1 is provided with the hollow part 101.

The main reinforcement 11 with the cap part is provided with two edges to be respectively locked and sleeved in the groove 21 which is matched with the surfaces of the two wood board blocks 2.

The left convex reinforcement 12 and the right convex reinforcement 13 are in shapes of straight lines. The left convex reinforcement 12 and the right convex reinforcement 13 are inserted and sleeved in the grooves 22, 23 which are matched with the bottoms of the two wood board blocks 2.

The catheters 4 between every two hollow parts 101 are communicated. Each flooring heat transfer 1 is made of the heat conduction materials such as aluminum alloy materials.

The embodiment 2, seen the FIG. 3, the main reinforcement 11 is provided with an arc surface 110. The others are the same as the embodiment 1.

The embodiment 3, seen the FIG. 4, the block 10 of each flooring heat transfer 1 is provided with the plug-in groove 102, the cushion block 3 is provided with a plug-in tenon 31, and the plug-in tenon 31 is inserted and sleeved into the plug-in groove 102. The salients 111 are formed on the side walls at the upper part and the middle part of the main reinforcement 11. The others are the same as the embodiment 1.

The embodiment 4, seen the FIG. 5, the left convex reinforcement 12 and the right convex reinforcement 13 are in T shapes. The left convex reinforcement 12 and the right convex reinforcement 13 are inserted and sleeved in the grooves 22, 23 which are matched with the bottoms of the two wood board blocks 2. The others are the same as the embodiment 1.

The embodiment 5, seen the FIG. 6, the left convex reinforcement 12 and the right convex reinforcement 13 are in shapes of coattails. The left convex reinforcement 12 and the right convex reinforcement 13 are inserted and sleeved in the grooves 22, 23 which are matched with the bottoms of the two wood board blocks 2. Two salients 111 with the hook parts are formed on the side walls at the upper part and the middle part of the main reinforcement 11. The others are the same as the embodiment 1.

The embodiment 6, seen the FIG. 7, the left convex reinforcement is in the T shape, and the right convex reinforcement 13 is in the shape of the coattail. The left convex reinforcement 12 and the right convex reinforcement 13 are inserted and sleeved in the grooves 22, 23 which are matched with the bottoms of the two wood board blocks 2. The cushion block 3 is provided with the plug-in tenon 31, and the plug-in tenon 31 is inserted and sleeved into the plug-in groove 102. Two salients 111 with the hook parts are formed on the side walls at the upper part and the middle part of the main reinforcement 11. The others are the same as the embodiment 1.

The embodiment 7, seen the FIG. 8, a side cushion block 3 is connected with the side part of the keel 1 in the inserting way, and a base cushion block 5 is connected with the lower part of the flooring heat transfer 1 in the inserting way.

The embodiment 8, seen the FIG. 9, is the cutaway view when this invention assembles three boards; the catheters 4 between every two flooring heat transfer 1 are communicated.

The embodiment 9, seen the FIG. 10, is formed by adding the base cushion block 5 in the embodiment 11, so that the lower part of each flooring heat transfer 1 has a ventilation channel with the ground.

The embodiment 10, seen the FIG. 11, the main reinforcement 11 of the flooring heat transfer 1 exposes out from the surface of the wood board blocks 2, and the left convex reinforcement 12 and the right convex reinforcement 13 are respectively inserted and sleeved in the grooves 22, 23 which are matched with the two wood board blocks 2; each block 10 of the flooring heat transfer 1 is provided with the hollow part 101.

The embodiment 11, seen the FIG. 12, the main reinforcement 11 is provided with two salients 111 with the hook parts, and the others are the same as the embodiment 1.

The embodiment 12, seen the FIG. 13, the cap part of the main reinforcement 11 is a half one and is provided with the hook part 111. The others are the same as the embodiment 1.

The embodiment 13, seen the FIG. 14, the main reinforcement 11 with the cap part is provided with the hook part 111, and the others are the same as the embodiment 1.

The embodiment 14, seen the FIG. 15, a transverse main reinforcement 11 with the hook part is arranged at the left of the middle part of the flooring heat transfer. The others are the same as the embodiment 1.

The embodiment 15, seen the FIG. 16, a transverse main reinforcement 11 with the hook part is arranged at the right in the middle of the flooring heat transfer. The others are the same as the embodiment 1.

The embodiment 16, seen the FIG. 17, a transverse main reinforcement 11 which is slanting downwards is respectively arranged at the left side and the right side of the middle part. The others are the same as the embodiment 1.

The embodiment 17, seen the FIG. 18, the surface of the main reinforcement 11 is a little lower than the surface of the wood board block 2. The others are the same as the embodiment 1.

The embodiment 18, seen the FIG. 19, the salient 111 with the hook part is arranged in the middle, and a half cap part is arranged. The others are the same as the embodiment 1.

The embodiment 19, seen the FIG. 20, is the same as the embodiment 18, and only has half cap parts. One floats on the surface of the wood board block 2, and the other is locked and sleeved in the groove.

The embodiment 20, seen the FIG. 21, is provided with a half cap part, a salient 111 with the hook part and a straight line-shaped salient. The others are the same as the embodiment 1.

The embodiment 21, seen the FIG. 22, is the same as to the embodiment 18, and the side wall of the main reinforcement 11 is provided with a salient 111 with the hook part and a straight line-shaped salient. The others are the same as the embodiment 1.

Claims

1. A wood board connection structure with heat transfer function comprising:

a flooring heat transfer (1) and a wood board block (2);

a main reinforcement (11) of the flooring heat transfer (1) exposes out from a surface of the wood board block (2), at least one salient (111) is formed on a side wall of the main reinforcement (11), a groove (21) which is matched with the main reinforcement (11) and the salient (111) is formed on the corresponding wood board block (2), and a block (10) of the flooring heat transfer (1) is provided with the hollow part (101).

2. The wood board connection structure of claim 1, wherein the salient (111) has a hook part.

3. The wood board connection structure of claim 1, wherein a surfaces of the flooring heat transfer (1) is provided with a plurality of auxiliary reinforcements (12, 13) which are symmetrical and parallel to the main reinforcement (11), and a groove (22) which is matched with the auxiliary reinforcement (12) is formed on the corresponding wood board block (2).

4. The wood board connection structure of claim 1, wherein two adjacent hollow parts (101) of the flooring heat transfer (1) are communicated by a catheter.

5. The wood board connection structure of claim 1, wherein an upper part of the main reinforcement (11) is in a cap shape an arc surface (110).

6. The wood board connection structure of claim 1, wherein the block (10) of the flooring heat transfer (1) is connected with cushion blocks (3, 5) in an inserting way.

7. The wood board connection structure of claim 6, wherein the block (10) of the flooring heat transfer (1) is provided with a plug-in groove (102), the cushion block (3) is provided with a plug-in tenon (31), and the plug-in tenon (31) is inserted into the plug-in groove (102).