CN216142250U - Floor board convenient to concatenation - Google Patents

Abstract

The utility model provides a floor slab convenient to splice, which comprises a floor slab main body and a connecting piece connected between two adjacent floor slab main bodies; the floor plate main body comprises a support shell arranged between two beams in an overlapping mode; the support housing includes a first side plate and a second side plate between two beams; the first side plate comprises a first inner side face facing the second side plate, a first outer side face opposite to the first inner side face, and a plurality of first connecting notches arranged on the first outer side face at intervals; the second side plate comprises a second inner side face facing the first side plate, a second outer side face opposite to the second inner side face in orientation, and a plurality of second connecting notches arranged on the second outer side face at intervals. The connecting piece inserts in first connection breach and the second connection breach for the laminating of the second lateral surface of first lateral surface and another floor board main part, and then make the quick amalgamation of two adjacent floor board main parts link together, the quick construction of being convenient for can effectual improvement installation effectiveness.

Description

Floor board convenient to concatenation

Technical Field

The utility model relates to the technical field of floor plates, in particular to a floor plate convenient to splice.

Background

The fabricated building is a building which is fabricated by transferring a large amount of field operation work in the traditional construction mode to a factory, processing and manufacturing building components and accessories in the factory, transporting the components and accessories to a building construction site, and assembling and installing the components and accessories on the site in a reliable connection mode. For making the floor board convenient hoist and mount, when the actual construction, separate into a plurality of parts with the floor board usually, the amalgamation is connected and is formed the floor board after the hoist and mount, however in prior art, through the mode of the intussuseption concrete in the clearance between each part for each part amalgamation is connected, and the concatenation is inefficient, is unfavorable for building the construction fast.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a floor slab which is efficient in splicing, firm and reliable in connection and convenient to splice.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a floor board convenient for splicing comprises a floor board main body and a connecting piece connected between two adjacent floor board main bodies; the floor plate main body comprises a support shell arranged between two beams in an overlapping mode; the support housing includes a first side plate and a second side plate between two beams; the first side plate comprises a first inner side face facing the second side plate, a first outer side face opposite to the first inner side face, and a plurality of first connecting notches arranged on the first outer side face at intervals; the second side plate comprises a second inner side face facing the first side plate, a second outer side face opposite to the second inner side face in orientation, and a plurality of second connecting notches arranged at intervals on the second outer side face.

The first outer side face is vertically arranged; the first outer side face is parallel to the second outer side face.

The first connecting notch comprises an upward first upper opening and an outward first side opening; the first side opening comprises a first side wall and a second side wall extending outwards; the first side wall comprises a first limiting bulge facing the second side wall; the second side wall comprises a second limiting bulge facing the first side wall.

The second connecting notch comprises an upward second upper opening and an outward second side opening; the second side opening comprises a third side wall and a fourth side wall extending outwardly; the third side wall comprises a third limiting bulge facing the fourth side wall; the fourth side wall comprises a fourth limiting bulge facing the third side wall.

The connecting piece comprises a first connecting slide block matched with the first connecting notch, a second connecting slide block matched with the second connecting notch and a connecting plate connected between the first connecting slide block and the second connecting slide block.

The floor board main body also comprises a panel connected with the supporting shell; the first side plate further comprises a first limiting step which is positioned on the first inner side surface and used for limiting the panel; the second side plate further comprises a second limiting step which is positioned on the second inner side face and used for limiting the panel.

The connecting piece also comprises a clamping plate which is arranged at the upper end of the connecting piece and used for limiting the panel; the panel is provided with a clamping groove for accommodating the clamping plate.

After the technical scheme is adopted, in the practical implementation process, the connecting piece is inserted into the first connecting notch and the second connecting notch, so that the first outer side surface is attached to the second outer side surface of the other floor plate main body, the two adjacent floor plate main bodies are spliced and connected together quickly, the quick installation and construction are facilitated, and the installation efficiency can be effectively improved.

Drawings

FIG. 1 is a schematic illustration of a floor structure of the present invention;

FIG. 2 is a first perspective structural view of the support housing of the present invention;

FIG. 3 is an enlarged view of area A of the present invention;

FIG. 4 is a second perspective view of the support housing of the present invention;

FIG. 5 is a schematic view of a connector structure of the present invention;

figure 6 is a first perspective cross-sectional view of the floor panel body of the present invention;

FIG. 7 is a cross-sectional view of a first orifice blocking member of the present invention;

in the figure:

a floor panel body 1; a connecting piece 2; a support housing 11; a first side plate 111; a second side plate 112; a first connection notch 1111; a second attachment notch 1121; a first upper opening 11111; a first side opening 11112; a first stopper protrusion 111121; a second limit projection 111122; a first connecting slider 21; a second connecting slider 22; a connecting plate 23; a panel 12; a first limit step 1112; a second limit step 1122; a chucking plate 24; a card slot 121; a receiving groove 116; a three-dimensional net frame 13; a barrier layer 14; a lower chamber 1161; an upper chamber 1162; a support portion 131; first connection barb 132; a second connecting barb 123; a first connecting groove 1113; a second communicating groove 1123; the third side panel 113; a fourth side plate 114; third communicating grooves 1131; a fourth communicating groove 1141; a first discharge hole 1132; a second discharge hole 1142; a first orifice occluding member 1133; a first housing 11331; a first tube 11332; a first elastomeric plug 11333; a first inner bore 11334; a bottom plate 115.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

As shown in fig. 1 to 7, a floor slab convenient for splicing comprises a floor slab main body 1 and a connecting member 2 connected between two adjacent floor slab main bodies 1; the floor plate main body 1 comprises a support shell 11 which is arranged between two beams; the support housing 11 comprises a first side plate 111 and a second side plate 112 between the two beams; the first side plate 111 includes a first inner side facing the second side plate 112, a first outer side facing opposite to the first inner side, and a plurality of first connection notches 1111 disposed at intervals on the first outer side; the second side plate 112 includes a second inner side surface facing the first side plate 111, a second outer side surface facing opposite to the second inner side surface, and a plurality of second connection notches 1121 arranged at intervals on the second outer side surface. In the actual implementation in-process, connect in the breach 1121 through inserting first connection breach 1111 and second with connecting piece 2 for the laminating of the second lateral surface of first lateral surface and another floor board main part 1, and then make the quick amalgamation of two adjacent floor board main parts 1 link together, the quick installation construction of being convenient for can effectual improvement installation effectiveness.

Preferably, the first outer side surface is vertically arranged; the first outer side surface is parallel to the second outer side surface. In the practical implementation process, the first outer side face and the second outer side face are convenient to process, and meanwhile, the two adjacent floor plate main bodies 1 are connected in a seamless mode in the splicing process.

Preferably, the first connection notch 1111 includes an upward facing first upper opening 11111 and an outward facing first side opening 11112; the first side opening 11112 includes first and second sidewalls that extend outward; the first side wall comprises a first limit protrusion 111121 facing the second side wall; the second side wall includes a second limit projection 111122 facing the first side wall. In the practical implementation process, the first upper opening 11111 is arranged, so that the connecting piece 2 can be conveniently inserted into the first connecting notch 1111 from top to bottom, the two adjacent floor plate main bodies 1 can be conveniently spliced, and the splicing efficiency can be effectively accelerated; meanwhile, the connecting piece 2 is limited through the first side opening 11112, and two adjacent floor plates are prevented from being separated from each other.

Preferably, the second connection notch 1121 includes a second upper opening facing upward and a second side opening facing outward; the second side opening comprises a third side wall and a fourth side wall extending outwards; the third side wall comprises a third limiting bulge facing the fourth side wall; the fourth side wall comprises a fourth limiting bulge facing the third side wall. In the practical implementation process, the second upper opening is arranged to facilitate the insertion of the connecting piece 2 into the second connecting notch 1121 from top to bottom, so that the splicing of the two adjacent floor plate main bodies 1 is facilitated, and the splicing efficiency can be effectively accelerated; meanwhile, the connecting piece 2 is limited through the second side opening, and the two adjacent floor plates are prevented from being separated from each other.

Preferably, the connection member 2 includes a first connection slider 21 engaged with the first connection notch 1111, a second connection slider 22 engaged with the second connection notch 1121, and a connection plate 23 connected between the first connection slider 21 and the second connection slider 22. In the actual implementation process, the first connecting slide block 21 of the connecting piece 2 slides into the first connecting notch 1111 from top to bottom, and the second connecting slide block 22 slides into the second connecting notch 1121 from top to bottom, so that the two adjacent floor plate main bodies 1 are quickly spliced, and the installation efficiency is improved; meanwhile, the connecting piece 2 is installed from top to bottom, so that the connecting piece is not easy to fall off after being installed under the influence of self gravity.

Preferably, the floor panel body 1 further comprises a panel 12 connected to the support case 11; the first side plate 111 further comprises a first limiting step 1112 on the first inner side surface for limiting the panel 12; second side panel 112 also includes a second retention step 1122 on a second inner side surface for retaining panel 12. In the actual implementation process, the panel 12 is supported by the cooperation of the first step and the second step, and the panel 12 is at the same height after being spliced by the floor board main bodies 1 through the limiting action of the first limiting step 1112 and the second limiting step 1122, so that the upper surface of the floor board is flat.

Preferably, the connector 2 further comprises a clamping plate 24 which is arranged at the upper end of the connector 2 and limits the panel 12; the faceplate 12 has a card slot 121 that receives a card 24. In practical implementation, the panel 12 is further limited by the matching of the clamping plate 24 and the clamping groove 121, so that the panel 12 is firmly and reliably connected.

Preferably, the support housing 11 further comprises a receiving slot 116 between the first side plate 111 and the second side plate 112; the floor panel body 1 further includes a three-dimensional net frame 13 provided in the accommodating groove 116 to support the panel 12. In the actual implementation process, three-dimensional rack 13 can effectual supporting panel 12 for the floor board has good bearing performance, and safe and reliable can be constructed a plurality of floors simultaneously in the work progress, can effectual improvement construction efficiency.

Preferably, the floor panel main body 1 further includes an interlayer 14 disposed in the accommodating groove 116; the receiving recess 116 includes a lower chamber 1161 below the compartment 14 and an upper chamber 1162 above the compartment 14 for filling with concrete; the three-dimensional net frame 13 comprises a supporting part 131 arranged in the lower chamber 1161 and a plurality of first connecting barbs 132 connected with the supporting part 131 and extending into the upper chamber 1162 through the partition 14; the spacer 14 has a through hole for the first connecting barb 132 to pass through. In an actual implementation process, the supporting part 131 of the three-dimensional net rack 13 is placed in the lower chamber 1161, so that the lower chamber 1161 is hollowed out; thereby reducing the weight of the floor plate and facilitating the hoisting of the floor plate; meanwhile, after the hoisting is finished, concrete needs to be filled in the upper cavity 1162, and when the concrete is dried, a concrete layer is formed and supported between the supporting portion 131 and the panel 12; by the support of the concrete layer, the deformation of the panel 12 and the unevenness of the floor surface can be avoided in the use process; specifically, the interlayer 14 is a rubber pad, has the effect of buffering vibration, and can prevent the concrete layer from colliding with the supporting part 131 after the concrete is solidified, so that the three-dimensional net frame 13 and the concrete layer are protected.

Preferably, the panel 12 has a second connecting barb 123 that can extend into the upper chamber 1162. In the practical implementation process, the support shell 11, the three-dimensional net rack 13 and the panel 12 are connected through concrete; the second connecting barb 123 extends into the upper chamber 1162, and after the concrete filled in the upper chamber 1162 is solidified to form a concrete layer, the connection among the components of the supporting shell 11, the three-dimensional net frame 13 and the panel 12 is firm and stable, and meanwhile, the floor board has a good anti-seismic effect.

Preferably, the first side plate 111 further comprises a plurality of first communicating slots 1113 on the first inner side surface; the second side plate 112 further includes a plurality of second communication grooves 1123 on the second inner side surface. In the practical implementation process, the floor plate main body 1 is firstly hoisted to an installation building, the floor plate main bodies 1 are spliced to form the floor plate, then the panel 12 is opened, concrete is poured into the upper chamber 1162, and then the concrete flows into the first communicating groove 1113 and the second communicating groove 1123 in a mode of extruding the panel 12; after the concrete is solidified, the concrete layer is firmly and stably connected with the first side plate 111 and the second side plate 112; meanwhile, the concrete layer limits the three-dimensional net rack 13 and the panel 12, so that the support shell 11, the three-dimensional net rack 13 and the panel 12 are firmly and reliably connected, and the anti-seismic effect of the floor plate is improved.

Preferably, the support housing 11 further includes a third side plate 113 and a fourth side plate 114 connected between the first side plate 111 and the second side plate 112; third side panel 113 includes a third inner side facing upper chamber 1162 and a plurality of third communication grooves 1131 on the third inner side; fourth side panel 114 further includes a fourth interior side facing upper chamber 1162 and a plurality of fourth communication slots 1141 on the fourth interior side. In practical implementation, after the face plate 12 is pressed, the concrete flows into the third communicating groove 1131 and the fourth communicating groove 1141 simultaneously; after the concrete is solidified, the concrete layer is firmly connected and stabilized with the third side plate 113 and the fourth side plate 114; meanwhile, the concrete layer limits the three-dimensional net rack 13 and the panel 12, so that the support shell 11, the three-dimensional net rack 13 and the panel 12 are firmly and reliably connected, and the anti-seismic effect of the floor plate is improved.

Preferably, the third panel 113 further includes a plurality of first discharge holes 1132 through which the concrete is discharged out of the upper chamber 1162, and a first blocking member 1133 blocking the first discharge holes 1132; the fourth side plate 114 further includes a plurality of second discharge holes 1142 through which the concrete is discharged out of the upper chamber 1162 and a second orifice blocking member blocking the second discharge holes 1142. In practical implementation, when the amount of concrete poured into the upper chamber 1162 is excessive, the concrete can be discharged through the first discharge hole 1132 and the second discharge hole 1142, and the concrete can flow into the first communicating groove 1113, the second communicating groove 1123, the third communicating groove 1131 and the fourth communicating groove 1141 only by a certain pressure required in the upper chamber 1162; blocking the first and second discharge holes 1132 and 1142 by providing the first and second hole-blocking members 1133 and 1142; after the panel 12 is squeezed to discharge the concrete in the upper chamber 1162, the panel 12 stops moving after moving downwards to the first limiting step 1112 and the second limiting step 1122, and a certain amount of concrete is kept in the upper chamber 1162; in this process, the upper chamber 1162 is continuously pressurized to cause the concrete to flow into the first communicating groove 1113, the second communicating groove 1123, the third communicating groove 1131 and the fourth communicating groove 1141, and when the pressure in the upper chamber 1162 reaches a threshold value, the first hole closing member 1133 and the second hole closing member are opened to allow the concrete to be discharged from the first discharge hole 1132 and the second discharge hole 1142.

Preferably, the first hole blocking member 1133 includes a first housing 11331 installed in the first discharge hole 1132, a first tube 11332 disposed in the first housing 11331, and a first elastic plug 11333 for blocking the first tube 11332; the first tube 11332 has a first inlet for concrete to enter and a first outlet for concrete to exit, the first inlet being larger than the first outlet, a first flexible plug 11333 is disposed at the first outlet, the plug having a first inner hole 11334 communicating with the first outlet; the second hole blocking member includes a second housing installed in the second discharge hole 1142, a second tube disposed in the second housing, and a second elastic plug blocking the second tube; the second pipe body is provided with a second inlet for concrete to enter and a second outlet for concrete to discharge, the second inlet is larger than the second outlet, the second elastic plug is arranged at the second outlet, and the plug is provided with a second inner hole communicated with the second outlet. In practical implementation, the first elastic plug 11333 and the second elastic plug are made of an elastic material, such as rubber; when not extruded, the first and second inner bores 11334 and 11334 are in a closed state; during extrusion, concrete enters from the first inlet and is discharged from the first outlet into the first inner hole 11334, the concrete extrudes the inner wall of the first inner hole 11334 due to the pressure effect so that the concrete is discharged from the first inner hole 11334 expanded, and after the concrete is discharged, the first inner hole 11334 is closed again due to the elastic effect; the second internal bore is identical in principle to the first internal bore 11334 when extruded.

Preferably, the support housing 11 further includes a bottom plate 115 for supporting the three-dimensional net frame 13, wherein the bottom plate 115 is arched inward from the first side plate 111 to the second side plate 112; the supporting portion 131 has a bottom surface to be fitted with the bottom plate 115. In practical implementation, the floor panel body 1 can bear larger weight and has better load bearing performance through the inward arched bottom panel 115.

In the actual implementation process, the floor plate main body 1 is hollow, so that the weight is light, the lifting is convenient, and the mounting efficiency can be effectively improved; meanwhile, the concrete mainly plays a role in connection, when the concrete is not solidified, the supporting shell 11 can support the panel 12, so that the convenience is brought to constructors, the construction is facilitated, the floor plate main body 1 does not need to wait for the concrete to be dried and solidified in the installation and splicing process, and the construction efficiency can be further improved. From top to bottom erection joint spare 2, accessible action of gravity makes in the first connection slider 21 of connecting piece 2 slides in first connection breach 1111 along the trend, and in the second connection slider 22 of connecting piece 2 slides in second connection breach 1121 along the trend simultaneously for quick amalgamation is connected between two adjacent floor board main parts 1, can the effectual installation and construction efficiency who improves the floor board.

After the construction is completed, the floor slab comprises a panel 12, a concrete layer, an interlayer 14, a hollow area and a bottom plate 115 for supporting the shell 11 from top to bottom, and after sound occurs, the sound needs to be transmitted through the multilayer structure of the floor slab, because the multilayer structure of the floor slab is made of different materials, wherein the concrete layer is formed after concrete is solidified, the interlayer 14 is made of rubber, and the hollow area has a large amount of air; the floor plate can effectively enable sound to be gradually attenuated when passing through the floor plate, and further the sound insulation effect is achieved.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

Claims (7)

1. The utility model provides a floor board convenient to concatenation which characterized in that: comprises a floor plate main body and a connecting piece connected between two adjacent floor plate main bodies; the floor plate main body comprises a support shell arranged between two beams in an overlapping mode; the support housing includes a first side plate and a second side plate between two beams; the first side plate comprises a first inner side face facing the second side plate, a first outer side face opposite to the first inner side face, and a plurality of first connecting notches arranged on the first outer side face at intervals; the second side plate comprises a second inner side face facing the first side plate, a second outer side face opposite to the second inner side face in orientation, and a plurality of second connecting notches arranged on the second outer side face at intervals.

2. A splice-facilitating floor panel as claimed in claim 1, wherein: the first outer side face is vertically arranged; the first outer side face is parallel to the second outer side face.

3. A splice-facilitating floor panel as claimed in claim 2, wherein: the first connecting notch comprises an upward first upper opening and an outward first side opening; the first side opening comprises a first side wall and a second side wall extending outwards; the first side wall comprises a first limiting bulge facing the second side wall; the second side wall comprises a second limiting bulge facing the first side wall.

4. A splice-facilitating floor panel as claimed in claim 3, wherein: the second connecting notch comprises an upward second upper opening and an outward second side opening; the second side opening comprises a third side wall and a fourth side wall extending outwardly; the third side wall comprises a third limiting bulge facing the fourth side wall; the fourth side wall comprises a fourth limiting bulge facing the third side wall.

5. A splice-facilitating floor panel according to claim 4, wherein: the connecting piece comprises a first connecting slide block matched with the first connecting notch, a second connecting slide block matched with the second connecting notch and a connecting plate connected between the first connecting slide block and the second connecting slide block.

6. A splice-facilitating floor panel according to claim 5, wherein: the floor board main body also comprises a panel connected with the supporting shell; the first side plate further comprises a first limiting step which is positioned on the first inner side surface and used for limiting the panel; the second side plate further comprises a second limiting step which is positioned on the second inner side face and used for limiting the panel.

7. A splice-facilitating floor panel according to claim 6, wherein: the connecting piece also comprises a clamping plate which is arranged at the upper end of the connecting piece and used for limiting the panel; the panel is provided with a clamping groove for accommodating the clamping plate.

Images