CN215859043U - Novel hydraulic climbing formwork - Google Patents

Abstract

The utility model discloses a novel hydraulic creeping formwork, which comprises: a support frame; the climbing mechanism is arranged on the side surface of the support frame; the guide rail is arranged between the climbing mechanism and the pier stud; the mold closing and releasing mechanism is arranged on the top surface of the support frame; articulate the subassembly, including: the climbing cone is movably arranged in an accommodating hole formed in the pier stud; the high-strength screw rod is arranged on the inner side of the climbing cone, one end of the high-strength screw rod is embedded in the pier stud, and the other end of the high-strength screw rod extends outwards to the inner cavity of the climbing cone; the bearing block is arranged on the outer wall of the pier stud and is provided with a mounting hole opposite to the high-strength screw rod and at least one hanging type bearing part; the fastening bolt penetrates through the mounting hole and is connected with the high-strength screw in a screwed mode to fix the bearing block; and the hanging seat is hung and arranged on the bearing part and is used for connecting the support frame and/or the guide rail. The utility model adopts the translational template mounting rack, conveniently realizes die assembly and die disassembly, greatly shortens the construction period and reduces the construction cost.

Description

Novel hydraulic climbing formwork

Technical Field

The utility model relates to the technical field of hydraulic creeping formwork, in particular to a novel hydraulic creeping formwork.

Background

In the actual building construction process, especially in high pier column construction process, hoist and mount operation difficulty, construction safety degree of difficulty coefficient is great, consequently, often constructs with the help of having from climbing ability hydraulic pressure creeping formwork device. When the existing hydraulic climbing formwork device climbs, more embedded parts are needed, and the embedded parts cannot be recycled, so that great waste is caused; secondly, the mold closing and mold releasing mechanism of the existing hydraulic climbing mold device is complex in structure and inconvenient to operate, and certain influence is caused on the construction period.

Disclosure of Invention

In order to solve the problems, the utility model provides a novel hydraulic creeping formwork, which can adopt the following technical scheme:

the novel hydraulic climbing formwork comprises

A supporting frame is arranged on the base plate,

the climbing mechanism is arranged on the side surface of the support frame;

the guide rail is arranged between the climbing mechanism and the pier stud;

the mold closing and releasing mechanism is arranged on the top surface of the support frame;

a hitch assembly comprising

The climbing cone is movably arranged in an accommodating hole formed in the pier stud;

the high-strength screw rod is arranged on the inner side of the climbing cone, one end of the high-strength screw rod is embedded in the pier stud, and the other end of the high-strength screw rod extends outwards to the inner cavity of the climbing cone;

the bearing block is arranged on the outer wall of the pier stud and is provided with a mounting hole opposite to the high-strength screw rod and at least one hanging type bearing part;

the fastening bolt penetrates through the mounting hole and is connected with the high-strength screw in a screwed mode to fix the bearing block;

and the hanging seat is hung and arranged on the bearing part and is used for connecting the support frame and/or the guide rail.

The support frame comprises

The bearing tripod is provided with a cross beam, a longitudinal beam for hanging the climbing mechanism and a diagonal brace for connecting the cross beam and the longitudinal beam;

the upper platform is arranged at the top of the bearing tripod and is provided with the die closing and die withdrawing mechanism;

the middle platform is arranged at the lower part of the bearing tripod and is connected with the longitudinal beam of the bearing tripod, and the middle platform is provided with a vertical rod connected with the cross beam of the bearing tripod;

and the hoisting platform is arranged at the lower part of the middle platform and is connected with the middle platform through a hoisting rod.

The die assembling and die disassembling mechanism comprises a template supporting frame which is arranged on the upper platform in a sliding manner, and the template supporting frame comprises a bottom beam which is connected with the bearing tripod in a sliding manner, a main back ridge for installing a template, and a reinforcing support which is connected with the bottom beam and the main back ridge; the die closing and releasing mechanism further comprises a locking rod and a positioning pin which are arranged on the upper platform.

The novel hydraulic creeping formwork provided by the utility model adopts the translational formwork mounting frame, so that the mould closing and mould withdrawing are conveniently realized, and the construction period is greatly shortened; climbing the awl through special design with link together creeping formwork and pier stud etc. with seat etc. and not only realized the purpose of climbing, can cyclic utilization moreover above-mentioned climbing awl with hang the seat, reached supplementary spare part cyclic utilization's purpose, reduced construction cost.

Drawings

Fig. 1 is a schematic structural view of the present invention.

FIGS. 2-7 are schematic illustrations of the construction steps of the present invention.

Fig. 8 is an exploded view of the hitch assembly shown in section a of fig. 2.

Detailed Description

The following describes embodiments of the present invention in detail with reference to the drawings, and the embodiments are implemented on the premise of the technical solution of the present invention, and detailed embodiments and specific construction processes are given, but the scope of the present invention is not limited to the following embodiments.

As shown in fig. 1-8, the novel hydraulic climbing formwork of the present invention comprises a supporting frame consisting of a bearing tripod 101, an upper platform 102, a middle platform 103 and a hanging platform 104, wherein the bearing tripod 101 has a cross beam, a longitudinal beam for hanging the climbing mechanism 2, and an inclined strut connecting the cross beam and the longitudinal beam; the upper platform 102 is positioned at the top of a cross beam of the bearing tripod 101, a plurality of I-shaped steel bars are arranged between the upper platform 102 and the cross beam, the upper platform 102 provides an operating space, and a die closing and stripping mechanism is arranged on the upper platform and is mainly used for carrying out operation on steel bars and templates; the middle platform 103 is positioned at the lower part of the bearing tripod 101, is connected with the longitudinal beam of the bearing tripod 101, can be used for placing construction materials and auxiliary tools, and is provided with a plurality of upright posts connected with the cross beam of the bearing tripod 101 at the edge of the middle platform 103 in order to enhance the structural stability; the hanging platform 104 is located below the middle platform 103, is connected with the middle platform 103 through a plurality of hanging rods, and is mainly used for integral weight balancing. Guard rails and protective nets are arranged around the upper platform 102, the middle platform 103 and the hanging platform 104 to form a peripheral protection system.

The climbing mechanism 2 is purchased from the market, is positioned on the side surface of the bearing tripod 101, is connected with the longitudinal beam of the bearing tripod 101, and needs to be assisted by the guide rail 3 arranged between the climbing mechanism 2 and the pier stud during climbing.

The mold closing and mold releasing mechanism is arranged on the top surface of the upper platform 102, the main body of the mold closing and mold releasing mechanism is a triangular mold plate supporting frame 401, and the mold closing and mold releasing mechanism comprises a bottom beam connected with the bearing tripod 101 in a sliding manner, a main back ridge used for installing the mold plate M, and a reinforcing support for connecting the bottom beam and the main back ridge; the mold closing and releasing mechanism further includes a lock lever 402 and a positioning pin 403 mounted on the upper stage 102. Specifically, the locking rod 402 is hinged and installed at one side close to the template M, and when the template M is in place, the locking rod 402 is clamped in a bump on the main back edge for position locking; when the mold needs to be removed, the locking rod 402 is unlocked, the mold plate support frame 401 is enabled to translate backwards along the upper platform 102 until the position of the positioning pin 403 is reached, and the mold plate M is taken down from the main back edge.

The bearing tripod 101 and the guide rail 3 are connected with the pier stud through a hitching assembly 5 (see fig. 8), and each hitching assembly 5 comprises a climbing cone 501, a high-strength screw rod 502, a bearing block 503, a fastening bolt 504 and a hitching seat 505. The creeping awl 501 is a conical sleeve, the outside of which is wound with adhesive tape and smeared with grease, and is movably arranged in a conical accommodating hole arranged on the pier stud; the high-strength screw 502 is positioned on the inner side of the climbing cone 501, one end of the high-strength screw is embedded in the pier stud, and the other end of the high-strength screw extends outwards to the inner cavity of the climbing cone 501; the bearing block 503 is positioned on the outer wall of the pier stud and is provided with a mounting hole opposite to the high-strength screw 502 and at least one hanging type bearing part a; the fastening bolt 504 penetrates through the mounting hole and is connected with the high-strength screw 502 in a screwing mode to fix the bearing block 503; the hanging seat 505 is connected with the hanging type bearing part a in a hanging way, and when the hanging seat is connected with the bearing tripod 101 or the guide rail 3, the bearing tripod 101 or the guide rail 3 can be conveniently hung and fixed on the outer wall of the pier stud.

As shown in fig. 2-7, the utility model is used in pairs, and the construction is carried out according to the following steps when the pier stud is poured:

1) after the newly poured section of the pier stud reaches the required strength, dismantling a counter-pull screw rod arranged between the templates M, unlocking the locking rod 402 to the template support frame 401, and moving the templates M backwards by 600 mm;

2) a hanging seat 505 is arranged on an embedded creeping cone 501 of a newly poured section of the pier stud and used for fixing a guide rail 3 and enabling a support frame to move upwards through a climbing mechanism 2;

3) dismantling the climbing cones 501, the hanging seats 505 and the like which are not used any more and are positioned on the middle platform 103 for the next turnover;

4) after the support frame climbs in place, the direction of a turning box pawl in the climbing mechanism 2 is changed, so that a climbing object is transferred to the climbing formwork frame body and the frame body is lifted;

5) enabling the template M to move towards the pier stud, locking the template support frame 401 through the locking rod 402 after the template M is in place, connecting the counter-pull screw rods, and completing die assembly;

6) and pouring concrete, chiseling, installing reinforcing steel bars after the concrete reaches the required strength, and after the reinforcing steel bars are installed and the concrete strength reaches 15MPa, disassembling the template M and starting the next construction cycle.

It should be noted that in the description of the present invention, terms of orientation or positional relationship such as "front", "rear", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Claims (3)

1. The utility model provides a novel hydraulic pressure creeping formwork which characterized in that: comprises that

A supporting frame is arranged on the base plate,

the climbing mechanism is arranged on the side surface of the support frame;

the guide rail is arranged between the climbing mechanism and the pier stud;

the mold closing and releasing mechanism is arranged on the top surface of the support frame;

a hitch assembly comprising

The climbing cone is movably arranged in an accommodating hole formed in the pier stud;

the high-strength screw rod is arranged on the inner side of the climbing cone, one end of the high-strength screw rod is embedded in the pier stud, and the other end of the high-strength screw rod extends outwards to the inner cavity of the climbing cone;

the bearing block is arranged on the outer wall of the pier stud and is provided with a mounting hole opposite to the high-strength screw rod and at least one hanging type bearing part;

the fastening bolt penetrates through the mounting hole and is connected with the high-strength screw in a screwed mode to fix the bearing block;

and the hanging seat is hung and arranged on the bearing part and is used for connecting the support frame and/or the guide rail.

2. The novel hydraulic creeping formwork of claim 1, characterized in that: the support frame comprises

The bearing tripod is provided with a cross beam, a longitudinal beam for hanging the climbing mechanism and a diagonal brace for connecting the cross beam and the longitudinal beam;

the upper platform is arranged at the top of the bearing tripod and is provided with the die closing and die withdrawing mechanism;

the middle platform is arranged at the lower part of the bearing tripod and is connected with the longitudinal beam of the bearing tripod, and the middle platform is provided with a vertical rod connected with the cross beam of the bearing tripod;

and the hoisting platform is arranged at the lower part of the middle platform and is connected with the middle platform through a hoisting rod.

3. The novel hydraulic creeping formwork of claim 2, characterized in that: the die assembling and die disassembling mechanism comprises a template supporting frame which is arranged on the upper platform in a sliding manner, and the template supporting frame comprises a bottom beam which is connected with the bearing tripod in a sliding manner, a main back ridge for installing a template, and a reinforcing support which is connected with the bottom beam and the main back ridge; the die closing and releasing mechanism further comprises a locking rod and a positioning pin which are arranged on the upper platform.

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