CN117988494B - Floor slab structure convenient to splice rapidly and splicing method - Google Patents

Abstract

The invention discloses a floor structure convenient for rapid splicing and a splicing method, and relates to the field of floors.A first connecting block is positioned between two second connecting blocks when a first floor is connected with a second floor, a first connecting groove and a second connecting groove are coaxial, and the first connecting groove and the second connecting groove are connected through a rotary rod; the two second connecting blocks are provided with first connecting pieces, the two sides of the first floor slab are provided with second connecting pieces, the first connecting pieces comprise third connecting pieces, and when the rotating rod rotates in the first connecting grooves and the second connecting grooves, the third connecting pieces of the two first connecting pieces are respectively inserted into the two second connecting pieces. The invention can connect the first floor slab and the second floor slab quickly and conveniently, and the joint of the first floor slab and the second floor slab has no gap, so that the connection stability can be improved.

Description

Floor slab structure convenient to splice rapidly and splicing method

Technical Field

The invention relates to the field of floors, in particular to a floor structure convenient to splice rapidly and a splicing method.

Background

The traditional civil building floor is formed by adopting steel bars and concrete according to a certain process and method. Recent studies have found that in non-load bearing areas of a building, or non-primary structures, there is a surplus of problems with the structural strength of the concrete floor slab, i.e. the floor slab in that area can be used with a suitably reduced amount of concrete.

The existing floor mainly comprises a cast-in-situ floor, a steel bar truss floor supporting plate, a composite floor, a PK plate, a prestressed hollow floor and a full prefabricated floor, wherein the prestressed hollow floor is suitable for a large-span structural rule due to plate requirements and is applied to an industrial factory building with simple functions. The full prefabricated floor slab can realize industrialized production and on-site assembled hoisting, the full prefabricated floor slab is installed without formwork and support, and binding of reinforcing steel bars is not needed on site, so that the on-site construction speed can be greatly increased, and the full prefabricated floor slab is environment-friendly and suitable for civil houses such as smaller-span houses, apartments and the like.

However, in order to facilitate the manufacture and transportation, the width of the floor slab is limited, and the prefabricated floor slab needs to be spliced when being installed and used, but in the actual operation process, a plurality of workers need to splice and place at the same time, so that the operation is troublesome and the efficiency is low.

Meanwhile, in the splicing process of the existing floor slab, floor slab joints exist, the integrity of the prefabricated floor slab can be affected by the floor slab joints, the in-plane shearing resistance, bending rigidity and bearing capacity of the floor slab are greatly weakened, and cracks can appear when deformation is uncoordinated, so that the actual use of the prefabricated floor slab is affected.

Disclosure of Invention

An object of the present invention is to provide a floor slab structure and a splicing method which facilitate rapid splicing, rapidly position a first floor slab and a second floor slab through a first connecting groove and a second connecting groove, and fixedly connect the first floor slab and the second floor slab by rotating a rotating rod.

The purpose is realized by adopting the following technical scheme:

The utility model provides a floor structure convenient to quick concatenation, includes first floor and second floor that wait to splice, and the link of first floor is provided with first connecting block, and the link of second floor is provided with two second connecting blocks, is provided with first spread groove on the first connecting block, and two second connecting blocks all are provided with the second spread groove; when first floor and second floor are connected, first connecting block is located between two second connecting blocks, and first spread groove and second spread groove coaxial line, no clearance between first connecting block and the two second connecting blocks, pass through rotary rod connection between first spread groove and the second spread groove, and the connecting rod carries out first fixed connection with first floor and second floor.

The first connecting pieces are arranged on the two second connecting blocks, the second connecting pieces are arranged on two sides of the first floor slab, and the first connecting pieces on the two second connecting blocks are in one-to-one correspondence with the second connecting pieces on two sides of the first floor slab.

The first connecting piece includes the third connecting block, and the rotary rod is rotatory in first spread groove and second spread groove, not only realizes the first fixed connection of first floor and second floor. Simultaneously, the third connecting blocks of the two first connecting pieces are respectively inserted into the two second connecting pieces, so that the second fixed connection of the first floor and the second floor is realized.

In the practical use process, the inventor finds a better structure, so that the third connecting block is inserted into the second connecting piece, and the connection stability of the first floor slab and the second floor slab is better.

Specifically, the first connecting piece includes the first rotatory piece and the second rotatory piece of coaxial setting, and first rotatory piece and second rotatory piece can relative rotation, and mutual rotation can not influence. And the first rotating block and the second rotating block are respectively provided with a through groove, and the through grooves are communicated with the first connecting grooves and the second connecting grooves and are coaxial.

The second rotating block is provided with a rotating cavity, an adjusting rod is arranged in the rotating cavity, the first rotating block is provided with a connecting rod, and the connecting rod is connected with the third connecting block;

When the second rotating block rotates, the adjusting rod is driven to rotate together; when the first rotating block rotates, the connecting rod and the third connecting block are driven to rotate together. An action inclined plane is arranged on the third connecting block; when the second rotating block drives the adjusting rod to rotate to a certain angle, the adjusting rod acts on an acting inclined plane of the third connecting block, the other end of the adjusting rod is inserted into the first rotating block, and then the first rotating block is driven to rotate together when the second rotating block rotates.

When the rotary rod is connected with the first connecting groove and the second connecting groove, the rotary rod is fixedly connected with the second rotating block, and the second rotating block can be driven to rotate together when the rotary rod rotates, so that the third connecting block is driven to be inserted into the second connecting piece when the rotary rod rotates for the first time to be fixed, and the second fixing is completed.

The first rotating block is of a gear structure, and when one end of the adjusting rod rotates to an action inclined plane, the other end of the adjusting rod is inserted between two adjacent gears of the first rotating block.

Further, the adjusting rod comprises a first adjusting head, a second adjusting head and a third adjusting rod; the rotary cavity is internally provided with a supporting rod, the third adjusting rod penetrates through the supporting rod, a spring is arranged between the supporting rod and the first adjusting head, and when one end of the adjusting rod rotates to an action inclined plane, the second adjusting head is inserted between two adjacent gears of the first rotating block, and the spring is compressed. When the first connecting piece is inserted into the second connecting piece, the first adjusting head is inserted into the second connecting piece.

Specifically, one end of the second connecting piece is provided with a groove for placing the third connecting block, one end and the side face of the second connecting piece are provided with sliding grooves, the sliding grooves are provided with fixing grooves, and the sliding grooves, the fixing grooves and the groove are all communicated; when the first connecting piece is inserted into the second connecting piece, the first adjusting head is inserted into the fixing groove. Preferably, the third connecting block is an arc-shaped plate, and when the third connecting block is inserted into the second connecting piece, the connecting rod is parallel to the second floor, so that the connection stability is further improved.

On the other hand, the invention comprises a splicing method of a floor slab structure convenient for rapid splicing, and the splicing method comprises the following steps:

Connecting traction ropes on the first connecting groove and the second connecting groove, pulling the traction ropes to enable the first connecting block of the first floor slab to be inserted between the two second connecting blocks of the second floor slab, and enabling the first connecting groove and the second connecting groove to be communicated;

taking down the traction rope, and rotationally connecting the rotary rod to the first connecting groove and the second connecting groove;

when the rotary rod is rotated, the first connecting pieces of the two second connecting blocks are respectively inserted into the two second connecting pieces.

Compared with the prior art, the invention has the following advantages and beneficial effects:

According to the floor structure and the splicing method convenient to splice quickly, the first floor and the second floor can be connected quickly and conveniently, gaps are not reserved at the joints of the first floor and the second floor, and the connection stability can be improved.

Simultaneously, when connecting, only need operate the rotary rod and just can realize fixed and the fixed of second time simultaneously, easy operation, and it is effectual to connect, more is favorable to long-term use.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the principles of the application. In the drawings:

Fig. 1 is a schematic diagram of a first floor slab to be spliced and a second floor slab structure in embodiment 1;

Fig. 2 is a schematic structural diagram of a first floor slab and a second floor slab in embodiment 1 after being spliced;

fig. 3 is a schematic structural diagram of a second connector in embodiment 2;

Fig. 4 is a schematic view showing the structures of the first placement groove and the second placement groove in embodiment 2 when the first floor slab is connected to the second floor slab;

Fig. 5 is a schematic structural diagram of a first rotating block and a second rotating block in embodiment 2;

FIG. 6 is a schematic structural diagram of the first and second rotary blocks in embodiment 2 when the spring is compressed;

fig. 7 is a schematic view showing the structure in which the second regulating head is inserted into the first rotating block in embodiment 2;

fig. 8 is a schematic structural view of the third connecting block inserted into the second connecting member in embodiment 2;

fig. 9 is a schematic diagram of the traction rope in example 3.

In the drawings, the reference numerals and corresponding part names:

The novel floor comprises the following components of a first floor, a second floor, a 3-second connecting block, a 4-first connecting block, a 5-sliding chute, a 6-second placing groove, a 7-fixing groove, an 8-first placing groove, a 9-second adjusting head, a 10-second rotating block, a 11-supporting rod, a 12-second rotating shaft, a 13-second connecting groove, a 14-first connecting groove, a 15-second connecting piece, a 16-first rotating block, a 17-rotating cavity, a 18-adjusting rod, a 181-first adjusting head, a 182-third adjusting rod, a 19-connecting rod, a 20-third connecting block, a 21-first rotating shaft, a 22-connecting cavity and a 23-spring.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present invention, the present invention will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present invention and the descriptions thereof are for illustrating the present invention only and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the terms "front", "rear", "left", "right", "upper", "lower", "vertical", "horizontal", "high", "low", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the scope of the present invention.

Example 1

As shown in fig. 1, the building comprises a first building slab 1 and a second building slab 2 to be spliced, wherein a first connecting block 4 is arranged at the connecting end of the first building slab 1, two second connecting blocks 3 are arranged at the connecting end of the second building slab 2, a first connecting groove 14 is formed in the first connecting block 4, and a second connecting groove 13 is formed in each of the two second connecting blocks 3; when the first floor slab 1 and the second floor slab 2 are connected, as shown in fig. 2, the first connecting block 4 is positioned between the two second connecting blocks 3, the first connecting groove 14 and the second connecting groove 13 are coaxial, and the first connecting groove 14 and the second connecting groove 13 are connected through a rotating rod.

The two second connecting blocks 3 are provided with first connecting pieces, the two sides of the first floor slab 1 are provided with second connecting pieces 15, the first connecting pieces comprise third connecting pieces 20, and when the rotating rod rotates in the first connecting groove 14 and the second connecting groove 13, the third connecting pieces 20 of the two first connecting pieces are respectively inserted into the two second connecting pieces 15.

In the rotating process of the rotating rod, there are many structures for driving the third connecting block 20 to be inserted into the second connecting piece, which can be the combination of a gear and a gear rod, the gear is meshed with the gear rod, and the gear rod is driven to move up and down when rotating so that the gear rod is inserted into the second connecting piece. The structure may be other existing structures as long as the rotation of the rotating rod can be realized, and the third connecting block 20 is inserted into the second connecting piece.

In some embodiments, the first connector is disposed on opposite sides of the two second connector blocks, the second connector is disposed on opposite sides of the first floor, and the first connector and the second connector are on the same plane when the first floor and the second floor are connected. In order to level the floor, all be provided with first standing groove 8 on two sides that two second connecting blocks are on the back of the body, two sides of first floor are provided with second standing groove 6, when first floor is connected with the second floor, first connecting block 4 is located between two second connecting blocks 3, the upper end of second connecting block contacts with first floor, first standing groove and second standing groove intercommunication, two second connecting pieces are located two second standing grooves respectively, first connecting piece is located first standing groove 8, when the rotary rod is rotatory, the rotary rod is used in first connecting piece on make third connecting block 20 insert in the second connecting piece, accomplish the first time fixed and the second time fixed to first floor.

When the first floor slab 1 and the second floor slab 2 are connected, the first connecting block 4 is located between the two second connecting blocks 3, and no gap exists between the first connecting block 4 and the two second connecting blocks 3, so that the stability of the connecting position of the first floor slab 1 and the second floor slab 2 can be ensured.

In order to further improve the connection effect, after connection, the first placing groove 8 and the second placing groove 6 are filled with fixing glue or cement, and the first placing groove 8 and the second placing groove 6 are further sealed to form an integrated connection.

Example 2

On the basis of the above embodiment, the second connecting piece is shown in fig. 3, and the second connecting piece 15 and the third connecting piece 20 are the same in shape and are arc-shaped plate structures. One end of the second connecting piece 15 is provided with a groove for placing the third connecting piece 20, one end and the side face of the second connecting piece 15 are provided with a sliding groove 5, the sliding groove 5 is provided with a fixed groove 7, and the sliding groove 5, the fixed groove 7 and the groove are communicated; when the first connector is inserted into the second connector 15, the first adjusting head 181 is inserted into the fixing groove 7. The first rotating block 16 and the second rotating block 10 are respectively provided with a through groove, and the through grooves are communicated with the first connecting groove 14 and the second connecting groove 13 and are coaxial. The through groove on the second rotating block 10 is connected with the rotating rod through threads.

The structures of the first connecting piece and the second connecting piece at the first placing groove 8 of the second connecting block and the second placing groove 6 of the first floor slab are shown in fig. 4, and when the first floor slab is connected with the second floor slab, the first placing groove 8 and the second placing groove 6 are communicated. The second rotating block 10 is connected with the first placing groove 8 through a second rotating shaft 12, and the second rotating block 10 can rotate on the first placing groove 8.

As shown in fig. 5, the first connecting member includes a first rotating block 16 and a second rotating block 10 coaxially arranged, the first rotating block 16 and the second rotating block 10 are connected by a first rotating shaft 21, and the first rotating block 16 and the second rotating block 10 can rotate in a circumferential direction relatively independent from each other. The first rotating block 16 has a gear structure, and when one end of the adjusting lever 18 is rotated to the action slope, the other end of the adjusting lever 18 is inserted between adjacent two gears of the first rotating block 16.

The second rotating block 10 is provided with a rotating cavity 17, the rotating cavity 17 is the same as the first rotating block 16 in height, the lower end of the rotating cavity 17 is connected with a connecting cavity 22, and the connecting cavity 22 is connected with the second rotating block 10. An adjusting rod 18 is arranged in the rotating cavity 17, and the adjusting rod 18 comprises a first adjusting head 181, a second adjusting head 9 and a third adjusting rod 182; the rotary cavity 17 is internally provided with a support rod 11, the third adjusting rod 182 penetrates through the support rod 11, and a spring 23 is arranged between the support rod 11 and the first adjusting head 181.

The first rotating block 16 is provided with a connecting rod 19, the connecting rod 19 is connected with a third connecting block 20, and the third connecting block 20 is provided with an action inclined plane; the adjustment lever 18 is located at the same level as the third connection block 20.

The first rotating block 16 drives the connecting rod 19 and the third connecting block 20 to rotate, the second rotating block 10 drives the adjusting rod 18 to rotate, when the adjusting rod rotates to the third connecting block, the first adjusting head 181 of the adjusting rod contacts with the action inclined surface of the third connecting block as shown in fig. 4, at this time, as shown in fig. 6, the spring 23 is compressed, the first adjusting head 181, the second adjusting head 9 and the third adjusting rod 182 move towards the direction approaching the first rotating block 16, and the second adjusting head 9 is inserted into the first rotating block 16 as shown in fig. 7.

At this time, when the second rotating block rotates, the second adjusting head is inserted into the first rotating block to drive the first rotating block to rotate together. During the rotation, the link 19 and the third connection block 20 are rotated together, and finally the third connection block 20 is inserted into the second connection member 15 as shown in fig. 8. During the insertion process, the connecting rod 19 moves on the chute 5, and when the first adjusting head 181 reaches the fixing groove 7, the first adjusting head 181 is inserted into the fixing groove 7 under the action of the spring to further fix. When the third connection block 20 is inserted into the second connection member 15, the connection rod 19 is parallel to the second floor plate 2.

Example 3

On the basis of the above embodiment, a splicing method of a floor structure convenient for rapid splicing, the splicing method includes the following steps:

Connecting traction ropes on the first connecting groove 14 and the second connecting groove 13 in a connecting mode shown in fig. 9, and pulling two ends of the traction ropes after connection to enable the first connecting block 4 of the first floor slab 1 to be inserted between the two second connecting blocks 3 of the second floor slab 2, wherein the first connecting groove 14 is communicated with the second connecting groove 13;

Directly taking down the traction rope, and the operator rotationally connects the rotary rod to the first connecting groove 14 and the second connecting groove 13; the second rotating block 10 is fixed by the hand of an operator, and the rotating rod is rotated, so that after the rotating rod is connected with the second rotating block, the rotating rod enters the joint of the first connecting groove 14 and the second connecting groove 13, the second rotating block is loosened by the hand of the operator, the rotating rod is continuously rotated, the rotating rod and the second rotating block 10 rotate together, one end of the rotating rod penetrates through the first connecting groove and the second connecting groove, meanwhile, the second rotating block drives the adjusting rod to act on the first rotating block, the first rotating block drives the connecting rod 19 and the third connecting block 20 to rotate together, and the third connecting block 20 is inserted into the second connecting piece 15, so that the first fixed connection and the second fixed connection are completed.

The rotary rod passes the one end further connection mounting of first spread groove and second spread groove, improves rotary rod connection's steadiness, and the rotary rod all passes through threaded connection with first spread groove and second spread groove.

The use of "first," "second," "third," etc. herein is for clarity of description only and is not intended to limit any order or emphasize importance, etc. to distinguish between corresponding components. In addition, the term "coupled" as used herein may be directly coupled or indirectly coupled via other components, unless otherwise indicated.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the invention, and is not meant to limit the scope of the invention, but to limit the invention to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (7)

1. The utility model provides a floor structure convenient to splice fast, its characterized in that, including first floor (1) and second floor (2) of waiting to splice, the link of first floor (1) is provided with first connecting block (4), and the link of second floor (2) is provided with two second connecting blocks (3), is provided with first spread groove (14) on first connecting block (4), and two second connecting blocks (3) all are provided with second spread groove (13); when the first floor plate (1) is connected with the second floor plate (2), the first connecting block (4) is positioned between the two second connecting blocks (3), the first connecting groove (14) and the second connecting groove (13) are coaxial, and the first connecting groove (14) and the second connecting groove (13) are connected through a rotary rod; the two second connecting blocks (3) are respectively provided with a first connecting piece, the two sides of the first floor (1) are respectively provided with a second connecting piece (15), the first connecting pieces comprise a third connecting piece (20), and when the rotating rod rotates in the first connecting groove (14) and the second connecting groove (13), the third connecting pieces (20) of the two first connecting pieces are respectively inserted into the two second connecting pieces (15);

The first connecting piece comprises a first rotating block (16) and a second rotating block (10) which are coaxially arranged, a rotating cavity (17) is arranged on the second rotating block (10), an adjusting rod (18) is arranged in the rotating cavity (17), a connecting rod (19) is arranged on the first rotating block (16), and the connecting rod (19) is connected with a third connecting block (20); an action inclined plane is arranged on the third connecting block (20); the second rotating block (10) drives the adjusting rod (18) to rotate, when one end of the adjusting rod (18) rotates to an action inclined plane, the other end of the adjusting rod (18) is inserted into the first rotating block (16), and the second rotating block (10) drives the first rotating block (16) to jointly rotate so that the third connecting block (20) is inserted into the second connecting piece (15); the first rotating block (16) is of a gear structure, and when one end of the adjusting rod (18) rotates to an action inclined plane, the other end of the adjusting rod (18) is inserted between two adjacent gears of the first rotating block (16); the adjusting rod (18) comprises a first adjusting head (181), a second adjusting head (9) and a third adjusting rod (182); be provided with bracing piece (11) in rotatory chamber (17), third regulation pole (182) pass bracing piece (11), are provided with spring (23) between bracing piece (11) and first regulation head (181), and when the one end of regulation pole (18) rotated to the effect inclined plane, second regulation head (9) inserts between two adjacent gears of first rotatory piece (16).

2. A floor structure facilitating quick splicing according to claim 1, characterized in that the first adjustment head (181) is inserted into the second connector (15) when the first connector is inserted into the second connector (15).

3. The floor slab structure convenient for rapid splicing according to claim 2, wherein a groove is formed in one end of the second connecting piece (15), the groove is used for placing the third connecting piece (20), a sliding groove (5) is formed in one end and the side face of the second connecting piece (15), a fixing groove (7) is formed in the sliding groove (5), and the sliding groove (5), the fixing groove (7) and the groove are communicated; when the first connecting piece is inserted into the second connecting piece (15), the first adjusting head (181) is inserted into the fixing groove (7).

4. A floor structure facilitating rapid splicing according to claim 1, characterized in that the first rotating block (16) and the second rotating block (10) are provided with through grooves which are in communication and coaxial with the first connecting groove (14) and the second connecting groove (13).

5. A floor structure facilitating rapid splicing according to claim 1, wherein the third connecting block (20) is an arcuate plate.

6. A floor structure facilitating quick splicing according to claim 1, characterized in that the connecting rod (19) is parallel to the second floor (2) when the third connecting block (20) is inserted into the second connecting piece (15).

7. A method of splicing floor structures for facilitating rapid splicing, comprising the floor structure of any one of claims 1-6, the method comprising the steps of:

Connecting a traction rope on the first connecting groove (14) and the second connecting groove (13), pulling the traction rope to enable the first connecting block (4) of the first floor plate (1) to be inserted between the two second connecting blocks (3) of the second floor plate (2), and enabling the first connecting groove (14) to be communicated with the second connecting groove (13);

the traction rope is taken down, and the rotary rod is rotationally connected to the first connecting groove (14) and the second connecting groove (13);

When the rotating rod is rotated, the first connecting pieces of the two second connecting blocks (3) are respectively inserted into the two second connecting pieces (15).