CN218264359U - Prefabricated slab with embedded and fixed meshing connection structure - Google Patents

Abstract

The utility model discloses a prefabricated plate with inlay interlock connection structure, which comprises a plate body, the equal fixed mounting in both ends of plate body has an gomphosis pole, an gomphosis hole has all been seted up at the both ends of plate body, a bar through-hole that is linked together with the gomphosis hole, two all install the sliding plate through spacing sliding construction on the bar through-hole, the width of sliding plate is less than the groove width of bar through-hole, and one side of sliding plate is laminated mutually with the lateral wall of bar through-hole, two the equal fixed mounting of opposite side of sliding plate has a supporting shoe. Has the advantages that: the embedding is realized between two adjacent plate bodies through the matching of the embedding hole and the embedding rod, and simultaneously, in the embedding process, one end of the arc-shaped embedding rod can rotate from the arc-shaped groove to be occluded to the arc-shaped embedding groove of the adjacent plate body under the matching of the magnetic block I, the magnetic block II, the sliding plate, the rack, the gear and the rotating shaft, so that the embedding and the occlusion of the two adjacent plate bodies are quickly realized.

Description

Prefabricated slab with embedded and fixed meshing connection structure

Technical Field

The utility model relates to a prefabricated plate technical field especially relates to a prefabricated plate with inlay solid interlock connection structure.

Background

The prefabricated slab is a floor slab which is often called a prefabricated slab and is transported to a construction site after being processed and formed in a production workshop, but the existing prefabricated slabs are independent from each other, a connection mode is not arranged between every two adjacent prefabricated slabs, and other people or tools are needed for supporting during installation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems in the prior art and providing a prefabricated slab with an embedded and occluded connecting structure.

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

the prefabricated plate with the embedded and occluded connecting structure comprises a plate body, wherein embedded rods are fixedly mounted at two ends of the plate body, embedded holes are formed in two ends of the plate body, a strip-shaped through hole communicated with the embedded holes is formed in the two ends of the plate body, sliding plates are mounted on the strip-shaped through holes through limiting sliding structures, the width of each sliding plate is smaller than the width of each strip-shaped through hole, one side of each sliding plate is attached to the side wall of each strip-shaped through hole, a supporting block is fixedly mounted at the other side of each sliding plate, a rotating shaft is rotatably mounted between the corresponding two supporting blocks, a rack is mounted between each sliding plate and the corresponding strip-shaped through hole through a supporting structure, a gear meshed with the rack is fixedly mounted on each rotating shaft, an arc-shaped occluded rod is fixedly mounted on each rotating shaft, an arc-shaped groove matched with the arc-shaped occluded rod is formed in the plate body and is communicated with the corresponding strip-shaped through hole, an arc-shaped occluded groove is further formed in two sides of the plate body, a magnetic block is fixedly mounted on each embedded rod, a magnetic block I is fixedly mounted on each sliding plate, and a reset structure is mounted between each strip-shaped through hole and each sliding plate.

In the prefabricated slab with the embedded and occluded connecting structure, the limiting sliding structure consists of positioning sliding chutes and positioning sliding blocks, the upper top wall and the lower bottom wall of the two strip-shaped through holes are respectively provided with one positioning sliding chute, and the upper ends and the lower ends of the two sliding plates are respectively fixedly provided with one positioning sliding block matched with the positioning sliding chutes.

In the prefabricated slab with the embedded and occluded connecting structure, the supporting structure is composed of a circular fixing rod, a step sliding groove and a step sliding block, wherein the circular fixing rod is fixedly mounted on the inner wall of the strip-shaped through hole, one end of the circular fixing rod is fixedly connected with the rack, the step sliding groove is formed in one side, close to the corresponding circular fixing rod, of the rack, and the step sliding block matched with the step sliding groove is fixedly mounted on the sliding plate.

In the prefabricated slab with the embedded and occluded connecting structure, the reset structure comprises a bar-shaped rod body and a spring, wherein the inner wall of each bar-shaped through hole is fixedly provided with one bar-shaped rod body, a plurality of springs are fixedly arranged between the bar-shaped rod body and the corresponding sliding plate, and the sliding plate is positioned between the spring and the first magnetic block.

In the prefabricated slab with the embedded and occluded connecting structure, two mounting grooves are formed in two ends of the slab body, and a magnetic block body is fixedly mounted in each of the four mounting grooves.

In the prefabricated slab with the embedding and meshing connection structure, the outer surface of the embedding rod is fixedly sleeved with the elastic sleeve matched with the outer surface of the embedding rod.

Compared with the prior art, the utility model discloses the advantage lies in:

1: the embedding is realized between two adjacent plate bodies through the matching of the embedding hole and the embedding rod, and simultaneously, in the embedding process, one end of the arc-shaped embedding rod can rotate from the arc-shaped groove to be occluded to the arc-shaped embedding groove of the adjacent plate body under the matching of the magnetic block I, the magnetic block II, the sliding plate, the rack, the gear and the rotating shaft, so that the embedding and the occlusion of the two adjacent plate bodies are quickly realized.

2: the arrangement of the limiting sliding structure enables the sliding plate to slide relatively in the strip-shaped through hole in a certain range, so that the use requirement is met.

3: the support structure is arranged such that the rack is in a fixed state, but does not interfere with the movement of the slide plate.

Drawings

Fig. 1 is a schematic structural view of a prefabricated slab with an embedded and engaged connection structure provided by the present invention;

FIG. 2 is an enlarged view of the structure of part A in FIG. 1;

fig. 3 is an enlarged schematic view of a portion B in fig. 2.

In the figure: the plate comprises a plate body 1, an embedding hole 2, an embedding rod 3, a strip-shaped through hole 4, a positioning sliding groove 5, a positioning sliding block 6, a sliding plate 7, a magnetic block I8, a magnetic block II 9, a stepped sliding groove 10, a stepped sliding block 11, a rack 12, a supporting block 13, a rotating shaft 14, a gear 15, an arc meshing rod 16, an arc groove 17, an arc meshing groove 18 and a circular fixing rod 19.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, a prefabricated slab with an embedded and occluded connecting structure comprises a slab body 1, wherein two ends of the slab body 1 are fixedly provided with an embedded rod 3, two ends of the slab body 1 are provided with embedded holes 2, two ends of the slab body 1 are provided with strip-shaped through holes 4 communicated with the embedded holes 2, the two strip-shaped through holes 4 are provided with sliding plates 7 through limiting sliding structures, the width of each sliding plate 7 is smaller than the groove width of each strip-shaped through hole 4, one side of each sliding plate 7 is attached to the side wall of each strip-shaped through hole 4, the other sides of the two sliding plates 7 are respectively and fixedly provided with a supporting block 13, a rotating shaft 14 is rotatably arranged between each two corresponding supporting blocks 13, a rack 12 is arranged between each sliding plate 7 and the corresponding strip-shaped through hole 4 through a supporting structure, and a gear 15 meshed with the rack 12 is fixedly arranged on each rotating shaft 14;

the following points are notable:

1. spacing sliding structure comprises location spout 5, location slider 6, and a location spout 5 has all been seted up to the last top wall and the diapire down of two bar through-holes 4, and the equal fixed mounting of upper end and the lower extreme of two sliding plates 7 has one and fixes a position 5 matched with location slider 6.

2. The arrangement of the limiting sliding structure enables the sliding plate 7 to slide relatively in the strip-shaped through hole 4 to a certain extent, so that the use requirement is met.

3. For easy understanding, fig. 1 is a schematic view of a state when two plate bodies 1 are spliced together, a portion provided at the left end of the right plate body 1 has the same structure as a left portion (not shown) of the left plate body 1.

4. The supporting structure comprises circular dead lever 19, ladder spout 10 and ladder slider 11, and equal fixed mounting has a circular dead lever 19 on the inner wall of two bar through-holes 4, and circular dead lever 19's one end and rack 12 fixed connection, two racks 12 have all seted up a ladder spout 10 near one side of corresponding circular dead lever 19, and equal fixed mounting has ladder slider 11 with ladder spout 10 matched with on two sliding plates 7.

5. The support structure is arranged such that the rack 12 is in a fixed state, but does not interfere with the movement of the slide plate 7.

6. Two mounting grooves (not shown in the figure) are formed in two ends of the plate body 1, and a magnetic block body (not shown in the figure) is fixedly mounted in each of the four mounting grooves; through the magnetic matching between the corresponding magnetic blocks, the installation between the two plate bodies 1 can be more stable.

Referring to fig. 1-3, an arc-shaped engagement rod 16 is fixedly mounted on a rotating shaft 14, an arc-shaped groove 17 matched with the arc-shaped engagement rod 16 is formed in a plate body 1, the arc-shaped groove 17 is communicated with a corresponding strip-shaped through hole 4, an arc-shaped engagement groove 18 is further formed in each of two sides of the plate body 1, a magnetic block two 9 is fixedly mounted on each engagement rod 3, a magnetic block one 8 is fixedly mounted on each sliding plate 7, and a reset structure is mounted between each strip-shaped through hole 4 and the sliding plate 7;

the following points are notable:

1. the reset structure comprises a bar-shaped rod body (not shown in the figure) and a spring (not shown in the figure), wherein the inner wall of each of the two bar-shaped through holes 4 is fixedly provided with one bar-shaped rod body, a plurality of springs are fixedly arranged between the two bar-shaped rod bodies and the corresponding sliding plates 7, and the sliding plates 7 are positioned between the springs and the magnetic blocks I8.

2. The outer surface of the embedded rod 3 is fixedly sleeved with an elastic sleeve matched with the embedded rod, and the elastic sleeve is arranged to ensure that the embedded rod 3 is more stable when being clamped on the corresponding embedded hole 2 in a sliding manner.

3. The magnetism of the side, close to the first magnetic block 8, of the second magnetic block 9 on the adjacent plate body 1 is the same, so that when the two adjacent plate bodies 1 are spliced, the first magnetic block 8 moves under the action of the second magnetic block 9, and the state shown in fig. 2 is formed.

Further, unless otherwise specifically stated or limited, the above-described fixed connection is to be understood in a broad sense, and may be, for example, welded, glued, or integrally formed as is conventional in the art.

The utility model discloses in, when installing two adjacent plate bodys 1, correspond gomphosis hole 2 and gomphosis pole 3, then promote one of them plate body 1, make two plate body 1 parallel and level (front and back both ends), thereby the embedded solid when realizing two adjacent plate body 1 installations, magnetic block two 9 corresponds with magnetic block 8, this in-process magnetic block 8 receives a repulsion effort, magnetic block 8 removes and drives sliding plate 7 and remove, sliding plate 7 removes and transfers the supporting shoe 13 to remove, supporting shoe 13 removes the in-process and passes through rack 12, gear 15's cooperation makes pivot 14 take place to rotate, pivot 14 rotates and drives arc interlock pole 16 and rotates, thereby make arc interlock pole 16's one end follow arc wall 17 internal rotation interlock to arc interlock groove 18, thereby realize the interlock when two adjacent plate body 1 installs.

Claims (6)

1. A prefabricated plate with an embedded and occluded connecting structure comprises a plate body (1) and is characterized in that two ends of the plate body (1) are fixedly provided with an embedded rod (3), two ends of the plate body (1) are respectively provided with an embedded hole (2), two ends of the plate body (1) are respectively provided with a strip-shaped through hole (4) communicated with the embedded holes (2), two strip-shaped through holes (4) are respectively provided with a sliding plate (7) through a limiting sliding structure, the width of the sliding plate (7) is smaller than the groove width of the strip-shaped through holes (4), one side of the sliding plate (7) is attached to the side wall of each strip-shaped through hole (4), the other sides of the two sliding plates (7) are respectively and fixedly provided with a supporting block (13), a rotating shaft (14) is rotatably arranged between the two corresponding supporting blocks (13), a rack (12) is arranged between the two sliding plates (7) and the corresponding strip-shaped through holes (4) through a supporting structure, the rotating shaft (14) is fixedly provided with a gear (15) engaged with the rack (12), the rotating shaft (14) is fixedly provided with an occluded rod (16), the arc-shaped through hole (17) is communicated with the corresponding arc-shaped through hole (17), an arc-shaped occlusion groove (18) is further formed in the two sides of the plate body (1), a magnetic block II (9) is fixedly mounted on each embedding rod (3), a magnetic block I (8) is fixedly mounted on each sliding plate (7), and a reset structure is mounted between each strip-shaped through hole (4) and each sliding plate (7).

2. The precast slab with the embedded and occluded connecting structure according to claim 1, wherein the limiting sliding structure is composed of a positioning sliding chute (5) and a positioning sliding block (6), the upper top wall and the lower bottom wall of the two strip-shaped through holes (4) are respectively provided with a positioning sliding chute (5), and the upper end and the lower end of the two sliding plates (7) are respectively fixedly provided with a positioning sliding block (6) matched with the positioning sliding chute (5).

3. The precast slab with the embedded and occluded connecting structure according to claim 1, wherein the supporting structure is composed of a circular fixing rod (19), a step sliding groove (10) and a step sliding block (11), a circular fixing rod (19) is fixedly installed on the inner wall of each of the two strip-shaped through holes (4), one end of the circular fixing rod (19) is fixedly connected with a rack (12), one side of each of the two racks (12) close to the corresponding circular fixing rod (19) is provided with the step sliding groove (10), and the step sliding block (11) matched with the step sliding groove (10) is fixedly installed on each of the two sliding plates (7).

4. The precast slab with the embedded and occluded connecting structure according to claim 1, wherein the restoring structure comprises bar-shaped rod bodies and springs, one bar-shaped rod body is fixedly installed on the inner wall of each bar-shaped through hole (4), a plurality of springs are fixedly installed between each bar-shaped rod body and the corresponding sliding plate (7), and the sliding plate (7) is located between the springs and the first magnetic block (8).

5. The precast slab with the embedded and occluded connecting structure according to claim 1, characterized in that two mounting grooves are opened at both ends of the slab body (1), and a magnetic block is fixedly mounted in each of the four mounting grooves.

6. A prefabricated panel with an embedded and occluded connecting structure according to claim 1, characterized in that the outer surface of the embedded rod (3) is fixedly sleeved with an elastic sleeve matched with the embedded rod.

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