CN214350547U - Square steel reinforcement cage processing platform - Google Patents

Abstract

The utility model relates to the technical field of steel bar processing, in particular to a square steel bar cage processing platform, which comprises a framework, a Y-axis wound bar placing clamping groove, an X-axis wound bar placing clamping groove and a fixed wound bar placing clamping groove, wherein the Y-axis wound bar placing clamping groove, the X-axis wound bar placing clamping groove and the fixed wound bar placing clamping groove are directly or indirectly arranged on the framework and are combined to form a right-angle space; the Y axle is placed the draw-in groove around the muscle and can is along the vertical direction of skeleton and be elevating movement, and is equipped with around muscle regulation draw-in groove for fix around the muscle, the X axle is placed the draw-in groove around the muscle and can be along the motion of skeleton horizontal direction, the utility model discloses can realize the semi-intelligent processing to square steel reinforcement cage, the personnel's use amount that has significantly reduced. Compared with the existing manual single welding winding rib, the speed is improved by several times, and the welding quality is superior to that of manual handheld welding. The labor cost is greatly saved, the processing quality is improved, and the production speed is improved.

Description

Square steel reinforcement cage processing platform

Technical Field

The utility model relates to a reinforcing bar processing technology field specifically is a square steel reinforcement cage processing platform.

Background

The welding of the square reinforcement cage in the prior art uses a large amount of manual work for welding, and no auxiliary equipment is used for the welding of the square reinforcement cage. Resulting in slower production efficiency of the square reinforcement cage. Manual welding can lead to the square steel reinforcement cage welding yield to hang down, extravagant manual work and material cost.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For solving the technical problem who exists among the background art, the utility model provides a square steel reinforcement cage processing platform.

(II) technical scheme

In order to solve the problems, the utility model provides a square reinforcement cage processing platform, which comprises a framework, a Y-axis wound reinforcement placing clamping groove, an X-axis wound reinforcement placing clamping groove and a fixed wound reinforcement placing clamping groove, wherein the Y-axis wound reinforcement placing clamping groove, the X-axis wound reinforcement placing clamping groove and the fixed wound reinforcement placing clamping groove are directly or indirectly arranged on the framework and are combined to form a right-angle space;

the Y-axis rib winding placement clamping groove can perform lifting motion along the vertical direction of the framework, and is provided with a rib winding adjusting clamping groove for fixing the rib winding;

the X-axis is placed the draw-in groove around the muscle and can be followed the motion of skeleton horizontal direction.

Preferably, the Y-axis rib-winding placing clamping groove is provided with a clamping plate, and the clamping plate is connected with a vertical beam of the framework.

Preferably, the rib winding adjusting clamping groove and the Y-axis rib winding placing clamping groove are correspondingly provided with strip-shaped holes for adjusting and fixing the relative positions of the rib winding adjusting clamping groove and the Y-axis rib winding placing clamping groove.

Preferably, a linear sliding rail is fixed on a horizontal beam of the framework, the linear sliding rail is provided with a sliding block, and the X-axis rib-winding placing clamping groove is fixed with the sliding block.

Preferably, the X-axis is placed the draw-in groove around the muscle, the fixed draw-in groove is placed around the muscle, the Y-axis is placed the draw-in groove around the muscle and is equipped with first around muscle standing groove, second around muscle standing groove, third around the muscle standing groove respectively equidistance, and first around muscle standing groove, second around muscle standing groove, third around muscle standing groove coplane.

Preferably, a fourth rib winding placing groove is formed in the rib winding adjusting clamping groove corresponding to the third rib winding placing groove.

Preferably, at least two linear sliding rails are arranged.

Preferably, the Y-axis rib-winding placing clamping groove and the X-axis rib-winding placing clamping groove can be connected with an automatic or semi-automatic propelling type device to realize the movement on the vertical beam and the horizontal beam of the framework respectively.

Preferably, the processing platform may be formed from a plurality of identical platforms to form a splice.

The above technical scheme of the utility model has following profitable technological effect:

the utility model discloses can realize the semi-intelligent processing to square steel reinforcement cage, the personnel's use amount that has significantly reduced. Compared with the existing manual single welding winding rib, the speed is improved by several times, and the welding quality is superior to that of manual handheld welding. The labor cost is greatly saved, the processing quality is improved, and the production speed is improved.

Drawings

Fig. 1 is a schematic view of a perspective three-dimensional structure of the present invention;

fig. 2 is the utility model discloses a spatial structure schematic diagram after the concatenation.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-2, the square reinforcement cage processing platform provided by the utility model comprises a framework 1, and a Y-axis wrapped reinforcement placing clamping groove 3, an X-axis wrapped reinforcement placing clamping groove 6 and a fixed wrapped reinforcement placing clamping groove 4 which are directly or indirectly installed on the framework 1 and are combined to form a right-angled space;

the Y-axis rib winding placement clamping groove 3 can perform lifting motion along the vertical direction of the framework 1, and is provided with a rib winding adjusting clamping groove 2 for fixing the rib winding;

the X-axis placing clamping groove 6 can move along the horizontal direction of the framework 1 around the rib.

In one embodiment, the Y-axis rib-surrounding housing 3 is provided with a clamp 12, and the clamp 12 is connected to a vertical beam of the framework 1. For example, the two clamping plates 12 are fixed by bolts. The rib winding adjusting clamping groove 2 and the Y-axis rib winding placing clamping groove 3 are correspondingly provided with strip-shaped holes 13 for adjusting the relative positions of the fixed rib winding adjusting clamping groove 2 and the Y-axis rib winding placing clamping groove 3. A linear sliding rail 5 is fixed on a horizontal beam of the framework 1, a sliding block 7 is assembled on the linear sliding rail 5, and the X-axis rib winding placing clamping groove 6 is fixed with the sliding block 7. The X-axis is placed draw-in groove 6 around the muscle, fixed is placed draw-in groove 4 around the muscle, Y axle is placed draw-in groove 3 around the muscle and is equipped with first around muscle standing groove 11, the second is around muscle standing groove 10, the third is around muscle standing groove 9 around the equidistance respectively, and first around muscle standing groove 11, the second is around muscle standing groove 10, the third is around muscle standing groove 9 coplane. Wherein, think about, can be to realizing the steel reinforcement cage of different muscle intervals of winding in order to guarantee, can be to winding the muscle draw-in groove and designing a plurality ofly closely.

And a fourth rib winding placing groove 8 is arranged on the rib winding adjusting clamping groove 2 corresponding to the third rib winding placing groove 9. The linear sliding rails 5 are at least two, so that the resistance is small during sliding.

In this embodiment, the machining platform is structured such that the size of the square reinforcement cage is controlled by placing the clamping groove 6 around the rib and the clamping groove 3 around the rib, which can be adjusted up and down, on the X-axis of the linear slide rail 5. Through X axle around the muscle place draw-in groove 6, Y axle around the muscle place draw-in groove 3 and fixed around the muscle place draw-in groove 4 and fix around the muscle to can adjust according to around the muscle diameter and adjust around the muscle and adjust draw-in groove 2 and make the fixed of draw-in groove can be firm around the muscle. The position of accessible removal regulation fourth around muscle standing groove 8 adopts the bolt fastening through bar hole 13 to it is fixed to make to be located the third around the muscle that winds in muscle standing groove 9.

Add earlier according to the size regulation X axle of square steel reinforcement cage and place draw-in groove 6, the Y axle is around the position that draw-in groove 3 was placed to the muscle, then will all around the muscle place the groove 11, the second is around muscle place the groove 10, the third is around muscle place the groove 9 in placing around the muscle in the first, can adjust according to the difference around the muscle diameter and wind muscle regulation draw-in groove 2 and press from both sides tightly around the muscle, will wind the muscle and all place behind the platform. When the main ribs are welded, the main ribs are inserted between the winding ribs, and the main ribs and the contact positions of the winding ribs are welded manually or by adopting a matched machine. And (5) finishing welding the main reinforcements of the four surfaces to manufacture the square reinforcement cage.

In some embodiments, the Y-axis rib-winding positioning slot 3 and the X-axis rib-winding positioning slot 6 may be connected to an automatic or semi-automatic pushing-type device to realize the movement on the vertical beam and the horizontal beam of the skeleton 1, respectively.

The above-mentioned automatic or semi-automatic propulsion type equipment can be linear motor, telescopic cylinder and so on.

In certain embodiments, the processing platform may be formed from a plurality of identical platforms, as shown in fig. 2. Forming a longer processing platform or increasing the length of the framework 1 and the clamping grooves for placing the winding ribs.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only preferred examples of the present invention, and is not intended to limit the present invention, and that the present invention can have various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall into the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A square reinforcement cage processing platform is characterized by comprising a framework (1), and a Y-axis reinforcement-winding placing clamping groove (3), an X-axis reinforcement-winding placing clamping groove (6) and a fixed reinforcement-winding placing clamping groove (4) which are directly or indirectly arranged on the framework (1) and combined to form a right-angle space;

the Y-axis rib winding placement clamping groove (3) can do lifting motion along the vertical direction of the framework (1), and is provided with a rib winding adjusting clamping groove (2) for fixing a rib winding;

the X-axis rib winding placement clamping groove (6) can move along the horizontal direction of the framework (1).

2. A square reinforcement cage processing platform according to claim 1, wherein the Y-axis rib-surrounding rib-placing clamping groove (3) is provided with a clamping plate (12), and the clamping plate (12) is connected with a vertical beam of the framework (1).

3. The square reinforcement cage processing platform according to claim 1, wherein the rib-winding adjusting clamping groove (2) and the Y-axis rib-winding placing clamping groove (3) are correspondingly provided with bar-shaped holes (13) for adjusting the relative positions of the fixed rib-winding adjusting clamping groove (2) and the Y-axis rib-winding placing clamping groove (3).

4. A square reinforcement cage processing platform according to claim 1, wherein a linear slide rail (5) is fixed on a horizontal beam of the framework (1), the linear slide rail (5) is provided with a slide block (7), and the X-axis rib-winding placing clamping groove (6) is fixed with the slide block (7).

5. The square reinforcement cage processing platform according to claim 1, wherein the X-axis rib-winding placing clamping groove (6), the fixed rib-winding placing clamping groove (4), and the Y-axis rib-winding placing clamping groove (3) are respectively provided with a first rib-winding placing groove (11), a second rib-winding placing groove (10), and a third rib-winding placing groove (9) at equal intervals, and the first rib-winding placing groove (11), the second rib-winding placing groove (10), and the third rib-winding placing groove (9) are coplanar.

6. The square reinforcement cage processing platform according to claim 5, wherein a fourth rib winding placing groove (8) is formed in the rib winding adjusting clamping groove (2) at a position corresponding to the third rib winding placing groove (9).

7. A square reinforcement cage processing platform according to claim 4, characterized in that, the number of the linear slide rails (5) is at least two.

8. A square reinforcement cage processing platform according to claim 1, wherein the Y-axis rib-winding positioning slots (3) and the X-axis rib-winding positioning slots (6) are connectable to an automatic or semi-automatic propelling type apparatus for movement on a vertical beam and a horizontal beam of the framework (1), respectively.

9. A square reinforcement cage processing platform according to claim 1, wherein the processing platform is formed from a plurality of identical platforms.

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