CN212897647U - Intelligent steel bar positioning and deviation rectifying device for reinforced concrete structure - Google Patents

Abstract

The utility model discloses an intelligent reinforcing steel bar positioning and deviation rectifying device for a reinforced concrete structure, which comprises an electric control system (1), a telescopic connecting tie bar (2), a support plate (3), a telescopic support rod (4) and a bidirectional jack (5); one end of a pair of telescopic connecting rods is connected to an electric control system, a pair of two-way jacks are mounted at the other ends of the pair of telescopic connecting rods, the two-way jacks are electrically connected with the electric control system through the telescopic connecting rods through conducting wires, one end of each of four telescopic supporting rods is connected to the two-way output end of the pair of two-way jacks, and the four supporting plates are connected to the other ends of the four telescopic supporting rods and synchronously telescopic with the telescopic supporting rods, so that the four supporting plates are attached to two side faces of a reinforcement cage (6) and inner side faces of templates (7) on. The utility model discloses can solve the unable accurate control's of steel reinforcement cage off normal, welt, protective layer thickness problem when the steel-concrete structure beam column construction, easy operation, it is light and handy nimble, accurate high-efficient, practiced thrift economic cost and time cost greatly.

Description

Intelligent steel bar positioning and deviation rectifying device for reinforced concrete structure

Technical Field

The utility model relates to a building engineering field especially relates to an intelligent reinforcing bar location and deviation correcting device for reinforced concrete structure.

Background

At present, most of building structures are mainly reinforced concrete structures, and reinforced concrete beams and columns are used as main body supporting parts of the building structures, so that the use of the building structures is very much. In the pouring construction of the reinforced concrete beam column, the thickness of the protective layer of the reinforced concrete beam column needs to be accurately controlled, and if the thickness of the protective layer deviates, the phenomena of rib leakage and the like are easy to occur. In traditional construction, use the concrete cushion to fix a position the reinforcing bar usually to this thickness of controlling the protective layer, nevertheless the concrete cushion can only fixed the setting, probably the skew appears and lead to the deviation of protective layer thickness pouring the in-process, can't in time rectify the location when steel reinforcement cage pastes the template edge simultaneously.

Disclosure of Invention

An object of the utility model is to provide an intelligence reinforcing bar location and deviation correcting device for reinforced concrete structure, the unable accurate control's of steel reinforcement cage off normal, welt, protective layer thickness problem when can solving the construction of reinforced concrete structure beam column, its easy operation, it is light and handy nimble, accurate high-efficient, practiced thrift economic cost and time cost greatly.

The utility model discloses a realize like this:

an intelligent reinforcing steel bar positioning and deviation rectifying device for a reinforced concrete structure comprises an electric control system, a telescopic connecting rod, a supporting plate, a telescopic supporting rod and a bidirectional jack; one end of each pair of telescopic connecting rods is symmetrically connected to two control ends of the electric control system respectively, and the telescopic connecting rods are of an L-shaped structure and can be stretched and retracted through the electric control system; the pair of two-way jacks are respectively and correspondingly arranged at the other ends of the pair of telescopic connecting rods, the two-way jacks are electrically connected with the electric control system, and one ends of the four telescopic supporting rods are respectively and correspondingly connected to the two-way output ends of the pair of two-way jacks, so that the two-way jacks can drive the four telescopic supporting rods to transversely stretch and retract through the electric control system; the four supporting plates are correspondingly connected to the other ends of the four telescopic supporting rods respectively and synchronously telescopic with the telescopic supporting rods, so that the four supporting plates are tightly attached to the two side surfaces of the reinforcement cage and the inner side surfaces of the formworks on the two sides respectively.

The supporting plate is of a plane plate-shaped structure and is perpendicular to the telescopic supporting rod.

The four telescopic supporting rods are positioned at the same horizontal height.

The telescopic rod is provided with scale marks which are uniformly distributed along the axial direction of the telescopic rod.

The telescopic connecting rod is of a hollow structure, and the two-way jack is connected with a lead of the electric control system and arranged in the telescopic connecting rod.

The electric control system is erected above the reinforcement cage, so that the four supporting plates can extend to a position between the reinforcement cage and the templates on two sides through the pair of telescopic connecting rods.

The utility model discloses a backup pad, support telescopic link and two-way jack substitute the concrete cushion, the problem of steel reinforcement cage off normal, welt when having solved the construction of steel-concrete structure beam column can be accurate to the thickness of control protective layer, its easy operation, the controllability is strong, and is light and handy nimble, accurate high-efficient, when having improved construction quality and efficiency, has practiced thrift economic cost and time cost greatly, can have enough to meet the need used repeatedly simultaneously, has reduced construction cost.

Drawings

FIG. 1 is a perspective view of the intelligent reinforcing bar positioning and deviation rectifying device for reinforced concrete structure of the present invention;

FIG. 2 is a front view of the intelligent reinforcing bar positioning and deviation rectifying device for reinforced concrete structure of the present invention;

FIG. 3 is a side view of the intelligent rebar positioning and deviation rectifying device for a reinforced concrete structure of the present invention;

FIG. 4 is a top view of the intelligent rebar positioning and deviation rectifying device for a reinforced concrete structure of the present invention;

fig. 5 is the utility model discloses an in service state diagram that is used for intelligent reinforcing bar location and deviation correcting device of reinforced concrete structure.

In the figure, 1 an electric control system, 2 a telescopic connecting rod, 3 a supporting plate, 4 telescopic supporting rods, 5 a bidirectional jack, 6 a reinforcement cage and 7 a template.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Referring to fig. 1 to 5, an intelligent reinforcing steel bar positioning and deviation rectifying device for a reinforced concrete structure comprises an electric control system 1, a telescopic connecting rod 2, a support plate 3, a telescopic support rod 4 and a bidirectional jack 5; one end of each of the pair of telescopic connecting rods 2 is symmetrically connected to two control ends of the electric control system 1, and the telescopic connecting rods 2 are in an L-shaped structure and can be stretched and retracted through the electric control system 1; the telescopic connecting rod 2 is of a hollow structure, the pair of two-way jacks 5 are respectively and correspondingly installed at the other ends of the pair of telescopic connecting rods 2, the two-way jacks 5 are electrically connected with the electric control system 1 through the telescopic connecting rod 2 through conducting wires, and one ends of the four telescopic supporting rods 4 are respectively and correspondingly connected to the two-way output ends of the pair of two-way jacks 5, so that the two-way jacks 5 can drive the four telescopic supporting rods 4 to transversely extend and retract through the electric control system 1; the four supporting plates 3 are correspondingly connected to the other ends of the four telescopic supporting rods 4 respectively and synchronously telescopic with the telescopic supporting rods 4, so that the four supporting plates 3 are tightly attached to two side surfaces of the reinforcement cage 6 and inner side surfaces of the formworks 7 at two sides respectively.

The supporting plate 3 is of a plane plate-shaped structure and is perpendicular to the telescopic supporting rod 4, so that the supporting plate 3 is completely attached to two side faces of the reinforcement cage 6 and inner side faces of the formworks 7 on two sides.

The four telescopic supporting rods 4 are positioned at the same horizontal height, so that the vertical arrangement of the supporting plate 3 is further ensured, and the supporting plate can be completely attached to the reinforcement cage 6 and the template 7.

The electric control system 1 is erected above the reinforcement cage 6 through a suspension device or a support structure and the like, so that the four support plates 3 can extend between the reinforcement cage 6 and the templates 7 at two sides through the pair of telescopic connecting tie bars 2, and the four support plates 3 are convenient to position and correct.

The telescopic rod 4 on be equipped with the scale mark, the axial equipartition of scale mark along telescopic rod 4 is convenient for more accurate, audio-visual control telescopic rod 4's flexible scope, is favorable to the location and rectifies a deviation.

Preferably, a telescopic controller is arranged in the electric control system 1, a pneumatic or hydraulic telescopic cylinder structure in the prior art can be adopted, the pair of telescopic connecting rods 2 is driven to transversely stretch through the movement of a piston, the height of the telescopic connecting rods 2 can be determined according to actual construction requirements, a multi-section telescopic joint nesting connection mode can be adopted, the longitudinal stretching adjustment of the telescopic connecting rods 2 can be realized, and the pouring construction of steel-concrete beam columns with different sizes and heights can be adapted.

Preferably, the two-way jack 5 can adopt a separated two-way jack in the prior art, a controller of the two-way jack 5 is arranged in the electric control system 1, a main structure of the jack is connected with the controller thereof through a wire hidden in the hollow telescopic connecting rod 2, the controller can be externally connected to a main control system of the building engineering, the output control of the main control system to the controller and the main structure of the jack thereof can be realized through software programming, the automatic positioning and deviation rectifying control can be realized, the positioning and deviation rectifying precision is high, the use is safe, and the appearance is attractive. The two output ends of the bidirectional jack 5 are controlled by the controller to simultaneously drive the four telescopic supporting rods 4 or independently drive a certain telescopic supporting rod 4 to do telescopic action, so that the positions of the four supporting plates 3 are adjusted.

In the construction process of the reinforced concrete beam column of building construction, after the reinforcement cage 6 is bound and the formworks 7 on the two sides of the reinforcement cage 6 are erected, the electric control system 1 is hoisted to the upper side of the reinforcement cage 6 through hoisting equipment in a construction engineering field, the hoisting height of the electric control system 1 is suitable for non-interference pouring operation, and the vertical section of the telescopic tie bar 2 can be longitudinally adjusted until the four supporting plates 3 are positioned between the reinforcement cage 6 and the formworks 7 on the two sides. The electric control system 1 is electrified to start, the telescopic controller adjusts the telescopic connecting rods 2 to realize transverse telescopic, the width of the pair of telescopic connecting rods 2 after being unfolded is slightly larger than that of the reinforcement cage 5, and the four support plates 3 are adjusted between the reinforcement cage 6 and the templates 7 on the two sides of the reinforcement cage in cooperation with longitudinal adjustment of the telescopic joint to finish coarse positioning. And then according to the design thickness requirement of the protective layer, the four telescopic supporting rods 4 are driven to transversely extend and retract by the two-way jack 5, so that the four supporting plates 3 are ensured to be tightly attached to the two side surfaces of the reinforcement cage 6 and the inner wall surface of the template 7, and concrete pouring operation can be carried out.

If pour the in-process if take place the reinforcing bar off normal, then adjust in time rectifying to the interval of both sides backup pad 3 respectively through electrical system 1, guarantee construction quality, after pouring, can with the utility model discloses take out, the turnover of being convenient for utilizes.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, therefore, any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (6)

1. The utility model provides an intelligence reinforcing bar location and deviation correcting device for reinforced concrete structure, characterized by: comprises an electric control system (1), a telescopic connecting rod (2), a supporting plate (3), a telescopic supporting rod (4) and a bidirectional jack (5); one end of each pair of telescopic connecting rods (2) is symmetrically connected to two control ends of the electric control system (1) respectively, and the telescopic connecting rods (2) are of an L-shaped structure and can be stretched through the electric control system (1); a pair of two-way jacks (5) are respectively and correspondingly arranged at the other ends of the pair of telescopic connecting rods (2), the two-way jacks (5) are electrically connected with the electric control system (1), one ends of the four telescopic supporting rods (4) are respectively and correspondingly connected with the two-way output ends of the pair of two-way jacks (5), so that the two-way jacks (5) can drive the four telescopic supporting rods (4) to transversely extend and retract through the electric control system (1); the four supporting plates (3) are correspondingly connected to the other ends of the four telescopic supporting rods (4) respectively and synchronously telescopic with the telescopic supporting rods (4), so that the four supporting plates (3) are tightly attached to the two side faces of the reinforcement cage (6) and the inner side faces of the formworks (7) on the two sides respectively.

2. The intelligent reinforcing steel bar positioning and deviation rectifying device for the reinforced concrete structure as claimed in claim 1, wherein: the supporting plate (3) is of a plane plate-shaped structure and is perpendicular to the telescopic supporting rod (4).

3. The intelligent reinforcing steel bar positioning and deviation rectifying device for the reinforced concrete structure as claimed in claim 1 or 2, wherein: the four telescopic supporting rods (4) are positioned at the same horizontal height.

4. The intelligent reinforcing steel bar positioning and deviation rectifying device for the reinforced concrete structure as claimed in claim 1 or 2, wherein: the telescopic supporting rod (4) is provided with scale marks which are uniformly distributed along the axial direction of the telescopic supporting rod (4).

5. The intelligent reinforcing steel bar positioning and deviation rectifying device for the reinforced concrete structure as claimed in claim 1, wherein: the telescopic connecting rod (2) is of a hollow structure, and a lead for connecting the bidirectional jack (5) and the electric control system (1) is arranged in the telescopic connecting rod (2).

6. The intelligent reinforcing steel bar positioning and deviation rectifying device for the reinforced concrete structure as claimed in claim 1, wherein: the electric control system (1) is erected above the reinforcement cage (6), so that the four support plates (3) can extend between the reinforcement cage (6) and the templates (7) on two sides through the pair of telescopic connecting tie bars (2).

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