CN210767826U - A creeping formwork creeps awl and buries a device for intensive district of reinforcing bar - Google Patents

Abstract

The utility model discloses a creeping formwork and creeping cone embedding device for a reinforcing steel bar dense area, belonging to the field of building construction; the device comprises a high-strength screw, an integrated slender rod, a guide mechanism, a folding mechanism, an embedded part bottom plate, a creeping formwork cone and a connecting bolt hole; the high-strength screw rod, the integrated slender rod, the creeping formwork cone and the connecting screw hole are matched to realize the vertical movement of the integrated slender rod; the integrated slender rod, the folding mechanism and the embedded bottom plate are matched to realize the turnover of the embedded bottom plate; the integrated slender rod, the guide mechanism and the embedded part bottom plate are matched, so that the turning position of the embedded part bottom plate is limited while the smoothness of the turning movement of the embedded part bottom plate is ensured, and the pulling resistance of the novel embedded part device is improved; bury a bottom plate and be folding initial condition, the staff can insert this novel piece device with fold condition in the steel reinforcement cage according to the demand, insert required space less, can be applicable to different reinforcing bar intervals, avoid adjusting the reinforcing bar interval temporarily and cause and increase staff's work load.

Description

A creeping formwork creeps awl and buries a device for intensive district of reinforcing bar

Technical Field

The utility model discloses a creeping formwork creeps awl and buries a device for intensive district of reinforcing bar relates to construction technical field.

Background

The hydraulic climbing formwork system is used as a common formwork system for the construction of the super high-rise vertical structure, and has the advantages of reducing the number of hoisting machines, accelerating the construction speed, providing reliable protection, improving economic benefits and the like. However, because the embedded bottom plate of the climbing form climbing cone is a circular plate with the radius of 150mm, in a reinforcing steel bar dense area, the installation of the climbing form climbing cone embedded part is often difficult, although the position of the reinforcing steel bar can be optimized in advance, the collision between the climbing cone embedded part and the reinforcing steel bar is avoided to a certain extent, the encryption area is too concentrated due to arrangement of horizontal bars, stirrups, reinforcing drag hooks and the like, the space between the horizontal bars is very narrow and small, the space between the horizontal bars cannot reach more than 100mm often, and the climbing cone embedded part is difficult to install.

When the position condition that there is the conflict in discovery awl position and reinforcing bar, arrange constructor adjustment reinforcing bar interval temporarily to the awl is buried the piece installation, and the adjustment reinforcing bar interval temporarily can increase workman's work load, and delays follow-up compound die construction, influences the time limit for a project. The embedded part is replaced by adopting a form of a through-wall screw and a back plate, but the method has the problems of complex construction and poor economical efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to prior art's problem, provide a creeping formwork and climb awl and bury a device for intensive district of reinforcing bar, the technical scheme who adopts is: a creeping formwork and creeping cone embedded device for a reinforcing steel bar dense area comprises a high-strength screw rod, an integrated slender rod, a guide mechanism, a folding mechanism, an embedded bottom plate, a creeping formwork and creeping cones and connecting bolt holes;

an integrated thin rod is movably sleeved in the high-strength screw rod, the upper side of the integrated thin rod is connected with an embedded part bottom plate through a folding mechanism, the embedded part bottom plate and the high-strength screw rod are in guiding fit through a guiding mechanism,

threaded connection between the screw rod that excels in and the creeping formwork climb awl, interim fastening bolt is located creeping formwork and climbs the awl, and the lower extreme of integrated slim pole passes through connecting bolt hole and interim fastening bolt contact cooperation.

The guide mechanism comprises a limiting block and a guide block;

a through guide groove is formed in one side of the high-strength screw rod, the folding mechanism is located in the guide groove, the limiting block and the guide block are simultaneously and fixedly installed in the guide groove, and the limiting block is located below the guide block;

the upper side of the embedded part bottom plates can be clamped between the guide blocks and the limiting blocks along the guide blocks, and the limiting blocks can simultaneously provide upward supporting force for the two embedded part bottom plates.

The folding mechanism comprises a connecting lug plate;

the connecting lug plates are fixedly connected to two sides of the corresponding integrated slender rod, and the connecting lug plates are movably connected with the embedded part bottom plate.

The connecting lug plates are respectively provided with a mounting pin hole, and the top surface of the embedded part bottom plate is provided with a plurality of connecting pin holes;

the connecting lug plate and the embedded part bottom plate are connected through connecting pin holes in an inserted mode, and each mounting pin hole is connected with the corresponding connecting pin hole through a connecting pin.

The guide block is of an arc-shaped structure.

The utility model has the advantages that: the high-strength screw rod, the integrated slender rod, the creeping formwork cone and the connecting screw hole are matched to realize the vertical movement of the integrated slender rod; the integrated slender rod, the folding mechanism and the embedded bottom plate are matched to realize the turnover of the embedded bottom plate; the integrated slender rod, the guide mechanism and the embedded part bottom plate are matched, so that the turning position of the embedded part bottom plate is limited while the smoothness of the turning movement of the embedded part bottom plate is ensured, and the pulling resistance of the novel embedded part device is improved; this novel bury a device bury a bottom plate for folding initial condition, in the staff can insert this novel bury a device with fold condition reinforcing bar cage according to the demand, it is less to insert required space, can be applicable to different reinforcing bar intervals, avoids interim adjustment reinforcing bar interval to cause and increases staff's work load, delay the time limit for a project to improve staff's work efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Reference numerals:

high-strength screw-1; an integrated slender rod-2; a limiting block-3; a guide block-4; a guide groove-5; connecting the ear plates-6; a buried member bottom plate-7; climbing a mold and climbing a cone-8; a connecting bolt hole-9; connecting pin-10.

Fig. 1 is a schematic structural diagram of the present invention; FIG. 2 is a left side view of FIG. 1; fig. 3 is a schematic view of the development of the insert bottom plate 7; fig. 4 is a schematic view of the mounting of the insert bottom plate 7 and the connecting lug plate 6.

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

The first embodiment is as follows:

a creeping formwork and creeping cone embedding device for a reinforcing steel bar dense area comprises a high-strength screw 1, an integrated thin rod 2, a guide mechanism, a folding mechanism, an embedding bottom plate 7, a creeping formwork and creeping cone 8 and a connecting bolt hole 9;

the high-strength screw 1 is movably sleeved with an integrated thin rod 2, the upper side of the integrated thin rod 2 is connected with an embedded part bottom plate 7 through a folding mechanism, the folding mechanism comprises connecting lug plates 6, the connecting lug plates 6 are fixedly connected to two sides of the corresponding integrated thin rod 2, and the connecting lug plates 6 are movably connected with the embedded part bottom plate 7;

the embedded part ear plates 6 are in guiding fit with the high-strength screw rods 1 through guide mechanisms, each guide mechanism comprises a limiting block 3 and a guide block 4, one side of each high-strength screw rod 1 is provided with a through guide groove 5, the connecting ear plates 6 are positioned in the guide grooves 5, the limiting blocks 3 and the guide blocks 4 are simultaneously and fixedly installed in the guide grooves 5, the limiting blocks 3 are positioned below the guide blocks 4, the upper sides of the embedded part bottom plates 7 can be clamped between the guide blocks 4 and the limiting blocks 3 along the corresponding guide blocks 4, and the limiting blocks 3 can simultaneously provide upward supporting force for the two embedded part bottom plates 7;

the periphery of the lower side of the high-strength screw rod 1 is provided with internal threads, the inner wall of the inserting groove of the creeping formwork creeping cone 8 is provided with external threads, the high-strength screw rod 1 and the creeping formwork creeping cone 8 are in threaded connection, a temporary fastening bolt is positioned in the creeping formwork creeping cone 8, and the lower end of the integrated slender rod 2 is in contact fit with the temporary fastening bolt through a connecting bolt hole 9;

when the climbing cone and the climbing formwork are fixed, a worker places the novel embedded part device at a designated position of an encryption area, then rotates a temporary fastening bolt, pushes the integrated thin rod 2 into the high-strength screw rod 1 through the connecting bolt hole 9, drives the embedded part bottom plate 7 to move upwards through the connecting lug plate 6 while the integrated thin rod 2 moves towards the high-strength screw rod 1, the embedded part bottom plate 7 is matched with the guide block 4, the embedded part bottom plate 7 slides towards the guide groove 5 along the guide block 4 to drive the embedded part bottom plate 7 to unfold, the upper side of the embedded part bottom plate 7 is clamped between the guide block 4 and the limiting block 3, the limiting block 3 is in contact fit with the embedded part bottom plate 7, so that the embedded part bottom plate 7 is folded to be parallel to the ground, the embedded part bottom plate 7 can be ensured to be tightly attached to a reinforcing steel bar to be supported, and the limiting block 3 can avoid the embedded part bottom plate 7 from continuing to be folded upwards, therefore, the anti-pulling capacity of the novel embedded device is improved, and the installation stability of the novel embedded device is ensured;

this novel bury a device bury a bottom plate 8 for folding initial condition, in the staff can insert this novel bury a device with fold condition reinforcing bar cage according to the demand, it is less to insert required space, can be applicable to different reinforcing bar intervals, avoids interim adjustment reinforcing bar interval to cause and increases staff's work load, delay time limit for a project to improve staff's work efficiency.

Example two:

on the basis of the first embodiment, as shown in fig. 4, through mounting pin holes are respectively formed in the outer sides of the connecting lug plates 6, three connecting pin holes are respectively formed in the top surface of the embedded part bottom plate 7, the connecting lug plates 6 are respectively clamped into the connecting pin holes in the middle position of the embedded part bottom plate 7, the centers of the mounting pin holes and the connecting pin holes are collinear at this time, and the mounting pin holes and the connecting pin holes are connected through the connecting pins 10, so that the movable fit between the connecting lug plates 6 and the embedded part bottom plate 7 can be realized;

the connecting pin 10 is connected to improve the stability of the movable connection between the connecting ear plate 6 and the embedded piece bottom plate 7, and further improve the stability of the inside of the novel embedded piece device.

Example three:

on the basis of the first embodiment or the second embodiment, as shown in fig. 3, the guide block 4 is of an arc-shaped structure, the top surface of the embedded part bottom plate 7 moves along the guide block 4, the arc-shaped structure can reduce the friction force between the guide block 4 and the embedded part bottom plate 7, the embedded part bottom plate 7 can move conveniently, and the matching degree of internal parts of the novel embedded part device is improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (5)

1. A creeping formwork and creeping cone embedded device for a reinforcing steel bar dense area is characterized by comprising a high-strength screw rod, an integrated slender rod, a guide mechanism, a folding mechanism, an embedded base plate, a creeping formwork and creeping cone and a connecting bolt hole;

an integrated thin rod is movably sleeved in the high-strength screw rod, the upper side of the integrated thin rod is connected with an embedded part bottom plate through a folding mechanism, and the embedded part bottom plate and the high-strength screw rod are in guiding fit through a guiding mechanism;

threaded connection between the screw rod that excels in and the creeping formwork climb awl, interim fastening bolt is located creeping formwork and climbs the awl, and the lower extreme of integrated slim pole passes through connecting bolt hole and interim fastening bolt contact cooperation.

2. The creeping formwork and creeping cone embedded part device for reinforcing steel bar dense area as recited in claim 1, wherein the guiding mechanism comprises a limiting block and a guiding block;

a through guide groove is formed in one side of the high-strength screw rod, the folding mechanism is located in the guide groove, the limiting block and the guide block are simultaneously and fixedly installed in the guide groove, and the limiting block is located below the guide block;

the upper side of the embedded part bottom plates can be clamped between the guide blocks and the limiting blocks along the guide blocks, and the limiting blocks can simultaneously provide upward supporting force for the two embedded part bottom plates.

3. The climbing formwork and climbing cone embedded part device for the reinforcing steel bar dense area as recited in claim 2, wherein the folding mechanism comprises a connecting ear plate;

the connecting lug plates are fixedly connected to two sides of the corresponding integrated slender rod, and the connecting lug plates are movably connected with the embedded part bottom plate.

4. The climbing formwork cone climbing embedded part device for the reinforcement dense area as claimed in claim 3, wherein the connecting ear plates are respectively provided with mounting pin holes, and the top surfaces of the embedded part bottom plates are respectively provided with a plurality of connecting pin holes;

the connecting lug plate and the embedded part bottom plate are connected through connecting pin holes in an inserted mode, and each mounting pin hole is connected with the corresponding connecting pin hole through a connecting pin.

5. The creeping formwork and creeping cone embedding device for reinforcing steel bar dense area as recited in any one of claims 2-4, wherein the guide block is arc-shaped.

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