CN219260732U - Integrated anti-collision wall prefabricating platform - Google Patents

Abstract

The utility model relates to the technical field of highway bridge reinforced concrete member prefabrication, in particular to an integrated anti-collision wall prefabrication platform, which comprises an anti-collision wall construction platform and a prefabrication device, wherein the anti-collision wall construction platform comprises a base, a base and a support, wherein the base is arranged on the base; the prefabrication device comprises an outer supporting seat and two pouring structures, the anti-collision wall construction platform plays a role in supporting an integral structure for the main body of the whole platform, the outer supporting seat is used for supporting the transverse supporting rod to connect an outer die of the outer die, the outer die is tightly connected with the inner die through a template connecting block to keep an integral state, the prefabricated pouring of the anti-collision wall is carried out by matching with the pouring part, and the prefabricated ratio is controlled to be poured by adopting the die pouring in advance, so that the problem that the prefabricated ratio is reduced by manually pouring in situ in the existing pouring mode is solved.

Description

Integrated anti-collision wall prefabricating platform

Technical Field

The utility model relates to the technical field of prefabrication of reinforced concrete members of highway bridges, in particular to an integrated anti-collision wall prefabrication platform.

Background

In recent years, under the positive promotion of government, the assembled bridge in China forms a good development situation, and a series of researches and applications of related technologies are also developed aiming at prefabrication of large bridge members, so that an anti-collision wall is important as an auxiliary structure.

However, the existing pouring modes are all manual in-situ pouring, so that the prefabrication duty ratio is reduced.

Disclosure of Invention

The utility model aims to provide an integrated anti-collision wall prefabrication platform, and aims to solve the problem that the prefabrication duty ratio is reduced due to the fact that the existing pouring modes are all manually cast in situ.

In order to achieve the above purpose, the utility model provides an integrated anti-collision wall prefabrication platform, which comprises an anti-collision wall construction platform and a prefabrication device;

the prefabricating device comprises an outer supporting seat and two pouring structures;

the outer supporting seat is fixedly connected with the anti-collision wall construction platform and is positioned at one side of the anti-collision wall construction platform; the two pouring structures are respectively positioned at two sides of the outer supporting seat; the pouring structure comprises a transverse supporting rod, an outer die, a die plate connecting block, an inner die and a pouring component, wherein the transverse supporting rod is rotationally connected with the outer supporting seat and is positioned at one side of the outer supporting seat; the outer mold is rotationally connected with the transverse supporting rod and is positioned at one side of the transverse supporting rod; the template connecting block is arranged at one side of the outer die; the inner die is in sliding connection with the template connecting block and is positioned at one side of the template connecting block; the pouring component is arranged on one side of the inner die.

The pouring component comprises a first supporting rod, a second supporting rod, an inner supporting seat and a box girder; the first supporting rod is rotationally connected with the inner die and is positioned at one side of the inner die; the second supporting rod is rotationally connected with the inner die and is positioned at one side of the inner die away from the first supporting rod; the inner supporting seat is respectively connected with the first supporting rod and the second supporting rod in a rotating way and is respectively positioned at one side of the first supporting rod and one side of the second supporting rod; the box girder is fixedly connected with the inner supporting seat and is positioned at one side of the inner supporting seat.

The pouring component further comprises expansion bolts which are fixedly connected with the outer die and the box girder respectively and located between the outer die and the box girder.

The pouring component further comprises an auxiliary supporting rod, wherein the auxiliary supporting rod is fixedly connected with the box girder and is located on one side of the box girder.

The pouring component further comprises a supporting bolt, wherein the supporting bolt is fixedly connected with the anti-collision wall construction platform, is in threaded connection with the inner die and is located between the anti-collision wall construction platform and the inner die.

Wherein, pour the part still include the shower, the shower with crashproof wall construction platform fixed connection, and be located crashproof wall construction platform one side

According to the integrated anti-collision wall prefabrication platform, the anti-collision wall construction platform plays a role in supporting an integral structure for the main body of the whole platform, the outer supporting seat is used for supporting the transverse supporting rods to connect the outer die, the outer die is tightly connected with the inner die through the die plate connecting blocks to keep an integral state, the casting part is matched for prefabrication of the anti-collision wall, and the casting prefabrication duty ratio can be well controlled by adopting die casting in advance, so that the problem that the prefabrication duty ratio is reduced by manually casting in situ in the existing casting mode is solved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic overall structure of a first embodiment of the present utility model.

The anti-collision wall comprises a 101-anti-collision wall construction platform, a 102-outer supporting seat, a 103-pouring structure, 104-transverse supporting rods, 105-outer dies, 106-template connecting blocks, 107-inner dies, 108-pouring components, 109-first supporting rods, 110-second supporting rods, 111-inner supporting seats, 112-box girders, 113-expansion bolts, 114-auxiliary supporting rods, 115-supporting bolts and 116-spraying pipes.

Detailed Description

Referring to fig. 1, fig. 1 is a schematic overall structure of a first embodiment of the present utility model, wherein.

The utility model provides an integrated anti-collision wall prefabrication platform which comprises an anti-collision wall construction platform 101 and prefabrication devices, wherein the prefabrication devices comprise an outer supporting seat 102 and two pouring structures 103, each pouring structure 103 comprises a transverse supporting rod 104, an outer die 105, a template connecting block 106, an inner die 107 and a pouring component 108, each pouring component 108 comprises a first supporting rod 109, a second supporting rod 110, an inner supporting seat 111, a box girder 112, expansion bolts 113, supporting bolts 115, auxiliary supporting rods 114 and a spray pipe 116, and the problem that the prefabrication ratio is reduced due to the fact that the existing pouring modes are manually performed in situ is solved through the scheme.

For this embodiment, the anti-collision wall construction platform 101 plays a role in supporting the whole structure for the main body of the whole platform.

The outer supporting seat 102 is fixedly connected with the anti-collision wall construction platform 101 and is positioned on one side of the anti-collision wall construction platform 101; the two pouring structures 103 are respectively positioned at two sides of the outer supporting seat 102; the pouring structure 103 comprises a transverse supporting rod 104, an outer mold 105, a mold connecting block 106, an inner mold 107 and a pouring component 108, wherein the transverse supporting rod 104 is rotatably connected with the outer supporting seat 102 and is positioned on one side of the outer supporting seat 102; the outer mold 105 is rotatably connected with the transverse supporting rod 104 and is positioned on one side of the transverse supporting rod 104; the template connecting block 106 is arranged on one side of the outer die 105; the inner die 107 is slidably connected with the die plate connecting block 106 and is positioned at one side of the die plate connecting block 106; the pouring component 108 is arranged on one side of the inner mold 107, the outer supporting seat 102 is used for supporting the transverse supporting rod 104 to connect the outer mold 105, the outer mold 105 is tightly connected with the inner mold 107 through the template connecting block 106 to keep an integral state, and the pouring component 108 is matched for prefabricating and pouring an anti-collision wall, so that the prefabrication duty ratio of pouring can be well controlled due to the fact that the pouring of the mold is adopted in advance.

Second, the first support rod 109 is rotatably connected to the inner mold 107 and located at one side of the inner mold 107; the second supporting rod 110 is rotatably connected with the inner mold 107 and is positioned at one side of the inner mold 107 away from the first supporting rod 109; the inner support base 111 is rotatably connected to the first support rod 109 and the second support rod 110, and is located at one side of the first support rod 109 and one side of the second support rod 110; the box girder 112 is fixedly connected with the inner supporting seat 111 and is located at one side of the inner supporting seat 111, the first supporting rod 109 and the second supporting rod 110 are used for supporting the inner die 107, after the first supporting rod 109 and the second supporting rod 110 are fixed, the force of pulling and pushing is simultaneously provided for guaranteeing the stability of the inner die 107 and the outer die 105, and the inner supporting seat 111 is used for connecting the first supporting rod 109 and the second supporting rod 110 with the box girder 112 for pouring an anti-collision wall.

Meanwhile, the expansion bolts 113 are fixedly connected with the outer mold 105 and the box girder 112, respectively, and are located between the outer mold 105 and the box girder 112, and the expansion bolts 113 assist in supporting the inner mold 107.

In addition, the auxiliary supporting rod 114 is fixedly connected with the box girder 112 and is located at one side of the box girder 112, and the auxiliary supporting rod 114 is used for performing auxiliary supporting with the ground on the box girder 112.

Furthermore, the supporting bolts 115 are fixedly connected with the anti-collision wall construction platform 101, are in threaded connection with the inner mold 107, and are located between the anti-collision wall construction platform 101 and the inner mold 107, and the supporting bolts 115 are used for supporting the bottom of the outer mold 105 upwards, and are supported on the anti-collision wall construction platform 101 to prevent the outer mold 105 from sinking.

Finally, the spray pipe 116 is fixedly connected with the anti-collision wall construction platform 101 and is located at one side of the anti-collision wall construction platform 101, and the spray pipe 116 is used for sprinkling water, maintaining the anti-collision wall and supplying water.

The integrated anti-collision wall prefabrication platform in this embodiment is used, anti-collision wall construction platform 101 plays the effect of supporting overall structure for the main part of whole platform, outer supporting seat 102 is used for supporting horizontal bracing piece 104 is connected outer mould 105 passes through template connecting block 106 with interior mould 107 zonulae occludens keeps integrative state, first bracing piece 109 with second bracing piece 110 is used for supporting on the anti-collision wall construction platform 101, first bracing piece 109 with the second bracing piece 110 is fixed after accomplishing and is possessed simultaneously and draws and push's power assurance interior mould 107 with the firm of outer mould 105, interior supporting seat 111 is used for with first bracing piece 109 with second bracing piece 110 with roof beam 112 is connected, expansion bolts 113 auxiliary support interior mould 107, auxiliary support pole 114 is used for right roof beam 112 carries out with the auxiliary support of ground, support bolts 115 are used for with outer mould 105 bottom upwards supports on the anti-collision wall construction platform 101, prevent down behind the installation of interior mould 105 possess simultaneously and draw and push's power assurance interior mould 107 with the firm of outer mould 105, it can both take up advantages of the prefabricated water supply of the prefabricated pipe to have taken up an account of the advantages of the fact that the prefabricated water supply of the prefabricated pipe is taken up in advance of the control of having solved and has been cast in advance, thereby the prefabricated the problem of the prefabricated wall is cast in the mode is guaranteed well.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (6)

1. An integrated anti-collision wall prefabrication platform, which comprises an anti-collision wall construction platform and is characterized in that,

the device also comprises a prefabricating device;

the prefabricating device comprises an outer supporting seat and two pouring structures;

the outer supporting seat is fixedly connected with the anti-collision wall construction platform and is positioned at one side of the anti-collision wall construction platform; the two pouring structures are respectively positioned at two sides of the outer supporting seat; the pouring structure comprises a transverse supporting rod, an outer die, a die plate connecting block, an inner die and a pouring component, wherein the transverse supporting rod is rotationally connected with the outer supporting seat and is positioned at one side of the outer supporting seat; the outer mold is rotationally connected with the transverse supporting rod and is positioned at one side of the transverse supporting rod; the template connecting block is arranged at one side of the outer die; the inner die is in sliding connection with the template connecting block and is positioned at one side of the template connecting block; the pouring component is arranged on one side of the inner die.

2. An integrated anti-collision wall prefabrication platform as set forth in claim 1, wherein,

the pouring component comprises a first supporting rod, a second supporting rod, an inner supporting seat and a box girder; the first supporting rod is rotationally connected with the inner die and is positioned at one side of the inner die; the second supporting rod is rotationally connected with the inner die and is positioned at one side of the inner die away from the first supporting rod; the inner supporting seat is respectively connected with the first supporting rod and the second supporting rod in a rotating way and is respectively positioned at one side of the first supporting rod and one side of the second supporting rod; the box girder is fixedly connected with the inner supporting seat and is positioned at one side of the inner supporting seat.

3. An integrated anti-collision wall prefabrication platform as set forth in claim 2, wherein,

the pouring component further comprises expansion bolts which are fixedly connected with the outer mould tool and the box girder respectively and are located between the outer mould tool and the box girder.

4. An integrated anti-collision wall prefabrication platform according to claim 3, wherein,

the pouring component further comprises an auxiliary supporting rod, and the auxiliary supporting rod is fixedly connected with the box girder and is located on one side of the box girder.

5. An integrated anti-collision wall prefabrication platform as set forth in claim 4, wherein,

the pouring component further comprises a supporting bolt, wherein the supporting bolt is fixedly connected with the anti-collision wall construction platform, is in threaded connection with the inner die and is positioned between the anti-collision wall construction platform and the inner die.

6. An integrated anti-collision wall prefabrication platform as set forth in claim 5, wherein,

the pouring component further comprises a spray pipe, wherein the spray pipe is fixedly connected with the anti-collision wall construction platform and is positioned on one side of the anti-collision wall construction platform.

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