CN113187196A

CN113187196A - Non-pressure strip wood floor and construction method

Info

Publication number: CN113187196A
Application number: CN202110369284.1A
Authority: CN
Inventors: 颜伟阳; 王日阳
Original assignee: Shengdu Home Decoration Co ltd Ningbo Branch
Current assignee: Shengdu Home Decoration Co ltd Ningbo Branch
Priority date: 2021-04-06
Filing date: 2021-04-06
Publication date: 2021-07-30
Anticipated expiration: 2041-04-06
Also published as: CN113187196B

Abstract

The invention relates to the technical field of wood floors, in particular to a non-pressure strip wood floor and a construction method thereof. The wood floor comprises a wood floor body, a T-shaped wedge block, a wedge groove, an inclined threaded hole and a connecting bolt, wherein the wood floor body is provided with the first keel, the second keel, the T-shaped wedge block, the wedge groove, the inclined threaded hole and the connecting bolt.

Description

Non-pressure strip wood floor and construction method

Technical Field

The invention relates to a wood floor and a construction method, in particular to a non-pressure strip wood floor and a construction method, belonging to the technical field of wood floors.

Background

The wood floor refers to a floor made of wood, and the wood floors produced in China are mainly divided into six categories of solid wood floors, reinforced wood floors, solid wood composite floors, multi-layer composite floors, bamboo floors and cork floors, and novel wood-plastic floors;

firstly, the solid wood floor mainly comprises a joggled joint floor, a flush joint floor, an embedded floor, a finger joint floor, a vertical wood floor, an integrated material floor and the like, the solid wood floor production enterprises are different in scale, most of the enterprises are small in scale and backward in equipment, the level of the whole technical equipment is low, the middle-aged production of more than 5000 production enterprises accounts for only 3% -5% of the enterprises with the annual production of more than 5 ten thousand square meters, most of large and medium-sized enterprises introduce equipment from abroad, and the production and the sales volume of the large and medium-sized enterprises account for about 40% of the whole market; most small-sized enterprises have a certain resource waste phenomenon because personnel quality, technical equipment and management level are low and difficult to control for tree species, selected materials, material properties and processing technology;

the laminate flooring can be generally divided into laminate test flooring using medium and high density fiber boards as base materials and laminate flooring using shaving boards as base materials;

thirdly, the solid wood composite floor can be generally divided into three categories of three-layer solid wood composite floor, multi-layer solid wood composite floor and joinery composite floor;

fourthly, the bamboo floor can be generally divided into a full bamboo floor and a bamboo composite floor;

fifth, what we generally call a multi-layer composite floor is actually a multi-layer solid wood composite floor, which is called an impregnated paper laminate faced multi-layer solid wood composite floor in the latest national standard, and is explained as follows: the impregnated paper laminated board veneer multilayer solid wood composite floor takes the impregnated paper laminated board as a veneer layer, takes a plywood as a base material, and is pressed and processed into a tongue-and-groove floor, so that the wear resistance of a strengthened floor and the deformation resistance of the solid wood composite floor are realized, and the three severe environments are excellent after practice;

sixth, because the cork floor of China is limited by resources, the number of production enterprises is small, and the cork floor is a precious and rare product, and the diversification advantage of the cork floor is more and more concerned by people with environmental awareness.

The wood floor batten is also called a buckle batten and is generally used for gaps between floors or doors, and as the wood floor is composed of blocks, a large gap is required to be reserved under certain conditions for the sake of attractiveness, a wood batten is laid on the wood floor, multiple procedures are needed for laying the wood floor, the wood floor is more uniform after being subjected to batten pressing, and the durability of the wood floor can be improved by firm batten pressing.

In the present house ornamentation, most people all like the installation layering, it is only decorative, can also play firm effect to the floor of installation, strengthens its fastness, and this kind of fitment technology of layering is mainly used in between floor and the floor or between floor and the ceramic tile, otherwise just is the gap material of filling between bottom plate and the door, can promote the aesthetic feeling when sheltering from the gap, and the layering in timber apron gate just divide into between floor and the floor and between floor and the ceramic tile these two kinds of circumstances.

The installation smoothness of the wood floor is not easy to guarantee in the installation process of the existing wood floor without the pressing strip, so that the wood floor and the ceramic tiles connected with the wood floor are uneven, gaps are easy to remain, and the installation wedging degree of the wood floor and the ceramic tiles is reduced.

Therefore, there is a need for improvement of a non-pressure strip wood floor and a construction method thereof to solve the above problems.

Disclosure of Invention

The invention aims to provide a non-strip wood floor and a construction method thereof.

In order to achieve the purpose, the invention adopts the main technical scheme that:

a non-pressure strip wood floor comprises a concrete threshold stone and a wood floor body, wherein a door brick is arranged on the upper end surface of the concrete threshold stone through a cement bonding surface, one side of the outer side of the concrete threshold stone is connected with a first keel, first threaded holes which are uniformly distributed are formed in the first keel, a first fastening bolt is arranged on each first threaded hole, the concrete threshold stone and the first keel are fixedly connected through the first fastening bolt, a second keel which is arranged on the ground is fixedly arranged on the other side of the first keel, wood floor bodies which are uniformly distributed are arranged on the first keel and the second keel, a wood floor clamping strip is fixedly arranged on one side of the wood floor body, a wood floor connecting groove is formed in the other side of the wood floor body, and the wood floor clamping strip and the wood floor connecting groove are connected in a wedged manner, the wood floor body is connected with the wood floor connecting groove through wood floor clamping strips, the upper end surface of the first keel is provided with evenly distributed wedging grooves, the bottom end of the wood floor body is provided with sliding clamping grooves corresponding to the positions of the wedging grooves, T-shaped wedging blocks are connected in the sliding clamping grooves in a clamping manner, second fastening bolts are arranged at the positions of the bottom end of the wood floor body corresponding to the T-shaped wedging blocks, the wood floor body and the T-shaped wedging blocks are fixedly connected through the second fastening bolts, the lower ends of the T-shaped wedging blocks are arranged inside the wedging grooves in a wedging manner, one side, corresponding to the wedging grooves, of the upper end surface of the first keel is provided with inclined threaded holes, connecting bolts are arranged in the inclined threaded holes and are fixedly connected with the T-shaped wedging blocks, and the upper end surface of the second keel is provided with straight grooves, and the bottom end of the wood floor body is fixedly provided with a convex tenon strip corresponding to the straight groove, and the convex tenon strip is in joggle joint with the straight groove.

Preferably, the sliding clamping groove is a convex groove, a second threaded hole is formed in the bottom end of the wood floor body corresponding to the position of the T-shaped wedge block, the second threaded hole is communicated with the sliding clamping groove, and the second fastening bolt penetrates through the second threaded hole in a spiral mode and is fixedly connected with the T-shaped wedge block.

Preferably, the wedge groove is a rectangular groove, the lower end of the T-shaped wedge block is a rectangular block, and the lower end of the T-shaped wedge block is matched with the wedge groove.

Preferably, the inclined threaded hole is a round hole which is obliquely arranged towards the wedging groove, the wedging groove is communicated with the inclined threaded hole, and the connecting bolt penetrates through the inclined threaded hole in a spiral mode to be fixedly connected with the lower portion of the T-shaped wedging block.

Preferably, the first keel and the second keel are both strip-shaped keels, the first keel and the second keel are both wooden or steel keels, and the upper end faces of the first keel and the second keel are at the same horizontal height.

Preferably, the concrete doorsill stone is as high as the first keel, and the thickness of the wood floor body is equal to the sum of the thicknesses of the cement bonding surface and the door-passing brick.

Preferably, the joint of the first keel and the wood floor body is provided with wood floor glue, and the joint of the second keel and the wood floor body is provided with wood floor glue.

A construction method for a non-pressure strip wood floor comprises the following steps:

s1: firstly, concrete doorsill stones are arranged at the bottom end of a door frame through concrete pouring, then door bricks are arranged on the upper end surfaces of the concrete doorsill stones through cement bonding surfaces, then drilling operation is carried out on the concrete doorsill stones and a first keel through a threaded electric drill, then first threaded holes are formed in the corresponding positions of the concrete doorsill stones and the first keel, then first fastening bolts are screwed into the first threaded holes to connect the concrete doorsill stones and the first keel, and a second keel is fixedly arranged on the ground on one side of the first keel according to the length of a wood floor body;

s2: then clamping the T-shaped wedge block into a sliding clamping groove at the bottom end of the wood floor body, and screwing a second fastening bolt into a second threaded hole to connect the wood floor body with the T-shaped wedge block;

s3: aligning a T-shaped wedge block at the bottom end of the wood floor body with a wedge groove on the first keel for wedge clamping, obliquely drilling an oblique threaded hole at one side of the wedge groove by using a threaded electric drill, and screwing a connecting bolt into the oblique threaded hole to connect the first keel with the T-shaped wedge block;

s4: and then taking the next wood floor body, connecting the T-shaped wedge block with the wood floor body, clamping and connecting the two wood floor bodies through the wood floor clamping strips and the wood floor connecting grooves, and then operating according to S3 until the wood floor is installed.

Preferably, when the last wood floor body is installed, a threaded electric drill is used for drilling parallel threaded holes at the position, corresponding to the wedging grooves, of one side of the tail end of the first keel, and then a connecting bolt penetrates through the drilled parallel threaded holes to be connected with the T-shaped wedging block on the last wood floor body.

The invention has at least the following beneficial effects:

1. through the cooperation use of concrete threshold stone, first fossil fragments, second fossil fragments, timber apron body, timber apron gib block and timber apron spread groove, under the condition that does not use the timber apron layering, guarantee timber apron body and the horizontal plane parallel and level of crossing a brick, improve the timber apron body and the smoothness of being connected of crossing a brick, improve timber apron body and the carving of crossing a brick and close the aesthetic property.

2. Through the cooperation use of the T-shaped wedge block, the wedge groove, the inclined threaded hole and the connecting bolt, the wood floor body can be fixedly connected with the first keel, the connection stability of the wood floor body is improved, meanwhile, the wood floor body is guaranteed not to deviate, and the installation wedge degree of the wood floor body is improved.

3. Through the cooperation use of second fossil fragments, timber apron body, tenon strip and straight type recess, can conveniently lay the timber apron body with second fossil fragments and timber apron body fixed joint, the second fossil fragments play the firm effect of support, improve the installation roughness and the support stability of timber apron body.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a partial perspective view of the present invention;

fig. 3 is a perspective view of the wood flooring body of the present invention;

fig. 4 is a bottom view of the wood flooring body of the present invention;

FIG. 5 is an enlarged view of A in FIG. 2;

FIG. 6 is an enlarged view of B in FIG. 3;

FIG. 7 is an enlarged view of panel C of FIG. 1;

figure 8 is a perspective view of a second runner of the present invention;

FIG. 9 is a perspective view of the tenon strip of the present invention;

fig. 10 is a flow chart of a construction method of the present invention.

In the figure, 1-concrete doorsill stone, 2-cement binding surface, 3-door passing brick, 4-first keel, 5-second keel, 6-wood floor body, 7-wood floor clamping strip, 8-wood floor connecting groove, 9-first threaded hole, 10-first fastening bolt, 11-wedging groove, 12-sliding clamping groove, 13-second threaded hole, 14-second fastening bolt, 15-inclined threaded hole, 16-connecting bolt, 17-T-shaped wedging block, 18-convex tenon strip and 19-straight groove.

Detailed Description

Embodiments of the present application will be described in detail with reference to the drawings and examples, so that how to implement technical means to solve technical problems and achieve technical effects of the present application can be fully understood and implemented.

As shown in fig. 1-9, the non-pressure strip wood floor provided by this embodiment includes a concrete threshold stone 1 and a wood floor body 6, a door brick 3 is disposed on an upper end surface of the concrete threshold stone 1 through a cement bonding surface 2, a first keel 4 is connected to one side of an outer side of the concrete threshold stone 1, first threaded holes 9 are uniformly distributed in the first keel 4, first fastening bolts 10 are disposed on the first threaded holes 9, the concrete threshold stone 1 and the first keel 4 are fixedly connected through the first fastening bolts 10, and the concrete threshold stone 1 and the first keel 4 can be fixedly connected through the cooperation of the concrete threshold stone 1, the first keel 4, the first threaded holes 9 and the first fastening bolts 10, so that the first keel 4 plays a role in supporting and stabilizing, and meanwhile, the wood floor is not prone to shift, and stability of the wood floor body 6 is improved;

the other side of the first keel 4 is fixedly provided with a second keel 5 which is arranged on the ground, the first keel 4 and the second keel 5 are provided with wood floor bodies 6 which are uniformly distributed, the height of the concrete threshold stone 1 is the same as that of the first keel 4, the thickness of each wood floor body 6 is equal to the sum of the thickness of the cement adhesive surface 2 and the thickness of the door-crossing brick 3, the first keel 4 and the second keel 5 are both strip-shaped keels, the first keel 4 and the second keel 5 are both wood keels, the upper end surfaces of the first keel 4 and the second keel 5 are at the same horizontal height, the joint of the first keel 4 and the wood floor body 6 is provided with wood floor glue, the joint of the second keel 5 and the wood floor body 6 is provided with wood floor glue, the wood floor glue can improve the connection stability of the wood floor body 6, the first keel 4 and the second keel 5, and ensure that the wood floor body 6 is not easy to deviate, the stability of the wood floor body 6 is improved, the wood floor clamping strip 7 is fixedly arranged on one side of the wood floor body 6, the wood floor connecting groove 8 is formed in the other side of the wood floor body 6, the wood floor clamping strip 7 and the wood floor connecting groove 8 are connected in a wedged manner, the uniformly distributed wood floor body 6 is connected with the wood floor connecting groove 8 through the wood floor clamping strip 7, and the wood floor body 6 and the wood floor connecting groove 8 are matched for use, so that the horizontal planes of the wood floor body 6 and the pass-door brick 3 are ensured to be level under the condition that the wood floor pressing strip is not used, the connection smoothness of the wood floor body 6 and the pass-door brick 3 is improved, and the wedged attractiveness of the wood floor body 6 and the pass-door brick 3 is improved; the first keel 4 and the second keel 5 are arranged, so that the wood floor body 6 can be supported, and the installation flatness and the support stability of the wood floor body 6 are improved;

the upper end surface of the first keel 4 is provided with wedge grooves 11 which are uniformly distributed, the bottom end of the wood floor body 6 is provided with a sliding clamping groove 12 corresponding to the position of the wedge groove 11, a T-shaped wedge block 17 is connected in the sliding clamping groove 12 in a clamping manner, the bottom end of the wood floor body 6 is provided with a second fastening bolt 14 corresponding to the position of the T-shaped wedge block 17, the wood floor body 6 and the T-shaped wedge block 17 are fixedly connected through the second fastening bolt 14, the sliding clamping groove 12 is a convex groove, the bottom end of the wood floor body 6 is provided with a second threaded hole 13 corresponding to the position of the T-shaped wedge block 17, the second threaded hole 13 is communicated with the sliding clamping groove 12, the second fastening bolt 14 spirally passes through the second threaded hole 13 to be fixedly connected with the T-shaped wedge block 17, the lower end of the T-shaped wedge block 17 is arranged inside the wedge groove 11 in a clamping manner, the wedge groove 11 is a rectangular groove, and the lower end of the T-shaped wedge block 17 is a rectangular block, the lower end of the T-shaped wedge block 17 is matched with the wedge groove 11, one side, corresponding to the wedge groove 11, of the upper end face of the first keel 4 is provided with an inclined threaded hole 15, a connecting bolt 16 is arranged in the inclined threaded hole 15, the connecting bolt 16 is fixedly connected with the T-shaped wedge block 17, the inclined threaded hole 15 is a round hole which is obliquely arranged towards the wedge groove 11, the wedge groove 11 is communicated with the inclined threaded hole 15, the connecting bolt 16 spirally penetrates through the inclined threaded hole 15 to be fixedly connected with the lower portion of the T-shaped wedge block 17, and through the matched use of the T-shaped wedge block 17, the wedge groove 11, the inclined threaded hole 15 and the connecting bolt 16, the wood floor body 6 can be fixedly connected with the first keel 4, so that the connection stability of the wood floor body 6 is improved, meanwhile, the wood floor body 6 is guaranteed not to deviate, and the installation and wedge degree of the wood floor body 6 is improved;

straight type recess 19 has been seted up to the up end of second fossil fragments 5, and the fixed tenon strip 18 that is provided with of position department that the bottom of timber apron body 6 corresponds straight type recess 19, tenon strip 18 and straight type recess 19 joggle, through the cooperation use of second fossil fragments 5, timber apron body 6, tenon strip 18 and straight type recess 19, can conveniently lay timber apron body 6 with

second fossil fragments

5 and 6 fixed joint of timber apron body, improve timber apron 6's stability.

The present invention as shown in fig. 1 to 10 provides a construction method for a pressureless stick wood floor, including the steps of:

s1: firstly, concrete doorsill stone 1 is arranged at the bottom end of a door frame through concrete pouring, then door bricks 3 are arranged on the upper end face of the concrete doorsill stone 1 through a cement bonding face 2, then drilling operation is carried out on the concrete doorsill stone 1 and a first keel 4 through a threaded electric drill, then a first threaded hole 9 is formed in the corresponding position of the concrete doorsill stone 1 and the first keel 4, then a first fastening bolt 10 is screwed into the first threaded hole 9 to connect the concrete doorsill stone 1 and the first keel 4, and a second keel 5 is fixedly arranged on the ground on one side of the first keel 4 according to the length of a wood floor body 6;

s2: then clamping the T-shaped wedge block 17 into the sliding clamping groove 12 at the bottom end of the wood floor body 6, and screwing the second fastening bolt 14 into the second threaded hole 13 to connect the wood floor body 6 with the T-shaped wedge block 17;

s3: then aligning a T-shaped wedge block 17 at the bottom end of the wood floor body 6 to the wedge groove 11 on the first keel 4 for wedge clamping, then obliquely drilling an oblique threaded hole 15 at one side of the wedge groove 11 by using a threaded electric drill, and then screwing a connecting bolt 16 into the oblique threaded hole 15 to connect the first keel 4 with the T-shaped wedge block 17;

s4: then taking the next wood floor body 6, connecting the T-shaped wedge block 17 with the wood floor bodies 6, clamping and connecting the two wood floor bodies 6 with the wood floor connecting grooves 8 through the wood floor clamping strips 7, and then operating according to S3 until the wood floor is installed;

s5: when the last wood floor body 6 is installed, drilling parallel threaded holes in the positions, corresponding to the wedging grooves 11, of one side of the tail end of the first keel 4 by using a threaded electric drill, and then connecting the drilled parallel threaded holes with the T-shaped wedging blocks 17 on the last wood floor body 6 by using connecting bolts 16.

The construction method provided by the invention is simple to operate, the installation of the wood floor body 6 can be completed by one person, the requirement on the flatness operation of the wood floor body 6 is low, the lengths of the wood floor body 6, the first keel 4 and the second keel 5 can be freely cut according to the selection of the house type structure, and the installation requirement of the wood floor body 6 can be conveniently met.

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, and a person skilled in the art can solve the technical problem within a certain error range to achieve the technical effect basically.

It is noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article or system in which the element is included.

The foregoing description shows and describes several preferred embodiments of the invention, but as aforementioned, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A non-pressure strip wood floor comprises concrete doorsill stones (1) and a wood floor body (6), and is characterized in that the upper end surfaces of the concrete doorsill stones (1) are provided with door passing bricks (3) through cement bonding surfaces (2), one sides of the outer sides of the concrete doorsill stones (1) are connected with first keels (4), first threaded holes (9) which are uniformly distributed are formed in the first keels (4), first fastening bolts (10) are arranged on the first threaded holes (9), and the concrete doorsill stones (1) and the first keels (4) are fixedly connected through the first fastening bolts (10);

the wood floor is characterized in that a second keel (5) arranged on the ground is fixedly arranged on the other side of the first keel (4), wood floor bodies (6) which are uniformly distributed are arranged on the first keel (4) and the second keel (5), a wood floor clamping strip (7) is fixedly arranged on one side of each wood floor body (6), a wood floor connecting groove (8) is formed in the other side of each wood floor body (6), the wood floor clamping strips (7) are connected with the wood floor connecting grooves (8) in a wedged manner, and the wood floor bodies (6) which are uniformly distributed are connected with the wood floor connecting grooves (8) through the wood floor clamping strips (7);

the upper end surface of the first keel (4) is provided with wedge grooves (11) which are uniformly distributed, the bottom end of the wood floor body (6) is provided with a sliding clamping groove (12) at a position corresponding to the wedge grooves (11), a T-shaped wedge block (17) is connected in the sliding clamping groove (12) in a clamping manner, a second fastening bolt (14) is arranged at a position corresponding to the T-shaped wedge block (17) at the bottom end of the wood floor body (6), and the wood floor body (6) and the T-shaped wedge block (17) are fixedly connected through the second fastening bolt (14);

the lower end of the T-shaped wedge block (17) is arranged inside the wedge groove (11) in a wedge manner, one side, corresponding to the wedge groove (11), of the upper end face of the first keel (4) is provided with an inclined threaded hole (15), a connecting bolt (16) is arranged in the inclined threaded hole (15), and the connecting bolt (16) is fixedly connected with the T-shaped wedge block (17);

straight type recess (19) have been seted up to the up end of second fossil fragments (5), the bottom of timber apron body (6) corresponds the fixed tenon strip (18) that is provided with in position department of straight type recess (19), tenon strip (18) with straight type recess (19) joggle.

2. A pressureless wood floor according to claim 1, wherein: the sliding clamping groove (12) is a convex groove, a second threaded hole (13) is formed in the position, corresponding to the T-shaped wedge block (17), of the bottom end of the wood floor body (6), the second threaded hole (13) is communicated with the sliding clamping groove (12), and a second fastening bolt (14) penetrates through the second threaded hole (13) in a threaded mode and is fixedly connected with the T-shaped wedge block (17).

3. A pressureless wood floor according to claim 1, wherein: the wedge groove (11) is a rectangular groove, the lower end of the T-shaped wedge block (17) is a rectangular block, and the lower end of the T-shaped wedge block (17) is matched with the wedge groove (11).

4. A pressureless wood floor according to claim 1, wherein: the inclined threaded hole (15) is a round hole which is obliquely arranged towards the wedged groove (11), the wedged groove (11) is communicated with the inclined threaded hole (15), and the connecting bolt (16) penetrates through the inclined threaded hole (15) in a spiral mode to be fixedly connected with the lower portion of the T-shaped wedged block (17).

5. A pressureless wood floor according to claim 1, wherein: first fossil fragments (4) with second fossil fragments (5) are rectangular shape fossil fragments, first fossil fragments (4) with second fossil fragments (5) are wood system or steel fossil fragments, first fossil fragments (4) with the up end of second fossil fragments (5) is in same level.

6. A pressureless wood floor according to claim 1, wherein: concrete threshold stone (1) with the height of first fossil fragments (4) is the same, the thickness of timber apron body (6) equals the cement bonded surface (2) with cross the sum of the thickness of door brick (3).

7. A pressureless wood floor according to claim 1, wherein: the joint of the first keel (4) and the wood floor body (6) is provided with wood floor glue, and the joint of the second keel (5) and the wood floor body (6) is provided with wood floor glue.

8. A construction method for the pressureless stick wood flooring according to claim 1 to claim 7, characterized in that: the method comprises the following steps:

s1: firstly, drilling a concrete doorsill stone (1) and a first keel (4) by using a threaded electric drill, then, forming a first threaded hole (9) in the corresponding position of the concrete doorsill stone (1) and the first keel (4), then, screwing a first fastening bolt (10) into the first threaded hole (9) to connect the concrete doorsill stone (1) and the first keel (4), and fixedly arranging a second keel (5) on the ground on one side of the first keel (4) according to the length of a wood floor body (6);

s2: then clamping the T-shaped wedge block (17) into a sliding clamping groove (12) at the bottom end of the wood floor body (6), and screwing a second fastening bolt (14) into a second threaded hole (13) to connect the wood floor body (6) with the T-shaped wedge block (17);

s3: then aligning a T-shaped wedge block (17) at the bottom end of the wood floor body (6) to a wedge groove (11) on the first keel (4) for wedge clamping, then obliquely drilling an oblique threaded hole (15) at one side of the wedge groove (11) by using a threaded electric drill, and then screwing a connecting bolt (16) into the oblique threaded hole (15) to connect the first keel (4) with the T-shaped wedge block (17);

s4: and then taking the next wood floor body (6), connecting the T-shaped wedge block (17) with the wood floor body (6), clamping and connecting the two wood floor bodies (6) with the wood floor connecting groove (8) through the wood floor clamping strip (7), and then operating according to S3 until the wood floor is installed.

9. A construction method according to claim 8, wherein: when the last wood floor body (6) is installed, a threaded electric drill is used for drilling parallel threaded holes at the position, corresponding to the wedging groove (11), of one side of the tail end of the first keel (4), and then a connecting bolt (16) penetrates through the drilled parallel threaded holes to be connected with the T-shaped wedging block (17) on the last wood floor body (6).