CN113878072A

CN113878072A - Reinforcing cage processing equipment

Info

Publication number: CN113878072A
Application number: CN202111257341.3A
Authority: CN
Inventors: 王巨腾; 苏井高; 王梽名; 欧阳禄龙; 尹吉
Original assignee: China Construction Civil Engineering Co Ltd
Current assignee: China Construction Civil Engineering Co Ltd
Priority date: 2021-10-27
Filing date: 2021-10-27
Publication date: 2022-01-04
Anticipated expiration: 2041-10-27
Also published as: CN113878072B

Abstract

The invention relates to a reinforcement cage processing device, which comprises: a base; a pair of support frames movably arranged on the base; the first processing frame and the second processing frame are arranged on the supporting frame, and the second processing frame can be buckled with the first processing frame by rotating the second processing frame so as to form a combined frame with the outer contour matched with that of the reinforcement cage to be processed; the driving piece is arranged on the base and can be in driving connection with the combined rack so as to drive the combined rack to rotate; the supporting bracket is arranged on the base and positioned between the pair of supporting frames, and the supporting height is adjustable. The processing equipment can correspondingly install the steel bars on the first processing frame and the second processing frame when the steel bars are placed, and then the first processing frame and the second processing frame are rotationally buckled together to form the combined frame, so that the installation of the steel bars is very convenient, the assistance of other hoisting equipment is not needed, and the operation is simple.

Description

Reinforcing cage processing equipment

Technical Field

The invention relates to the technical field of reinforcement cage processing, in particular to reinforcement cage processing equipment.

Background

The existing method is to use a seam welder to process the reinforcement cage on a construction site, however, for the reinforcement cage with longer length, the cost of the seam welder is higher, so that the construction cost is high. When not disposing reinforcing bar automatic feeding device, need carry out artifical manual material loading at the job site, when the diameter of steel reinforcement cage is great, the reinforcing bar material loading that is located the upper portion is comparatively difficult, needs the hoisting equipment that corresponds at the scene configuration to assist and accomplish the reinforcing bar material loading, and it is comparatively troublesome to operate.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a reinforcement cage processing device, and solves the problems of high cost, difficult manual feeding and troublesome operation of a seam welder used for processing a reinforcement cage on the existing construction site.

The technical scheme for realizing the purpose is as follows:

the invention provides a reinforcement cage processing device, which comprises:

a base;

the pair of supporting frames are arranged oppositely, and can move towards the direction close to each other or move towards the direction far away from each other through movement adjustment;

the first processing frame and the second processing frame are arranged on the supporting frame, corresponding end parts of the first processing frame and the second processing frame are rotatably connected, the second processing frame and the first processing frame can be buckled by rotating the second processing frame to form a combined frame with an outer contour matched with that of a reinforcement cage to be processed, and limiting sleeves for reinforcing steel bars to pass through are arranged on the first processing frame and the second processing frame;

the driving piece is arranged on the base and can be in driving connection with the combined rack so as to drive the combined rack to rotate;

the supporting bracket is arranged on the base and positioned between the pair of supporting frames, the supporting height of the supporting bracket is adjustable, and the supporting bracket can support the processed reinforcement cage by adjusting the supporting height of the supporting bracket.

The processing equipment can correspondingly install the steel bars on the first processing frame and the second processing frame when the steel bars are placed, and then the first processing frame and the second processing frame are rotationally buckled together to form the combined frame, so that the installation of the steel bars is very convenient, the assistance of other hoisting equipment is not needed, and the operation is simple. In addition, the processing equipment can be assembled on the construction site, is convenient to obtain materials and simple to install, and can reduce the construction cost compared with the existing formed seam welder.

The reinforcement cage processing equipment is further improved in that the first processing frame comprises a first semicircular piece, a first semicircular roller which is supported and connected to the middle of the first semicircular piece, and first connecting end parts which are arranged at two end parts of the first semicircular piece;

the second processing frame comprises a second semicircular piece, a second semicircular roller which is in supporting connection with the middle of the second semicircular piece, and second connecting end parts which are arranged at two end parts of the second semicircular piece;

the first connecting end and the corresponding second connecting end are rotatably connected through a connecting shaft.

The processing equipment of the reinforcement cage is further improved in that the first semicircular roller and the second semicircular roller are provided with through holes;

the driving shaft of the driving piece is provided with a limiting chuck, and a limiting pin is arranged on the limiting chuck corresponding to the through hole.

The reinforcement cage processing equipment is further improved in that the driving piece is movably arranged on the base, and the driving piece can be moved and adjusted towards the direction close to or far from the combined rack by moving and adjusting the driving piece.

The further improvement of the reinforcement cage processing equipment is that the support frame is provided with a supporting plate which can be telescopically adjusted and corresponds to the first connecting end part and the second connecting end part.

The steel reinforcement cage processing equipment is further improved in that a plurality of jacking mechanisms are arranged on the base corresponding to one side, far away from the first processing frame, of the second processing frame, and the jacking heights of the jacking mechanisms are adjustable.

The steel reinforcement cage processing equipment is further improved in that the steel reinforcement cage processing equipment further comprises a welding mechanical arm arranged on the base and close to the first processing frame, and steel reinforcements are welded through the welding mechanical arm.

The further improvement of the reinforcement cage processing equipment is that the reinforcement cage processing equipment further comprises a drawing mechanism which is arranged on the base and is close to the first processing frame, and the drawing mechanism can be connected with the second processing frame and can draw the second processing frame, so that the second processing frame can be rotatably buckled on the first processing frame.

The further improvement of the reinforcement cage processing equipment is that the reinforcement cage processing equipment further comprises reinforcement storage racks arranged on two sides of the first processing rack and the second processing rack.

The further improvement of the reinforcement cage processing equipment is that the reinforcement cage processing equipment also comprises a slide rail;

the base is slidingly arranged on the sliding rail and can be adjusted along the sliding rail, so that the processed reinforcement cage is driven to move to be pre-assembled with the adjacent reinforcement cage.

Drawings

Fig. 1 is a front view of the reinforcement cage processing apparatus of the present invention.

Fig. 2 is a schematic structural view of the reinforcement cage processing equipment according to the present invention, wherein the second processing frame is fastened to the first processing frame.

Fig. 3 is a side view of the reinforcement cage processing apparatus of the present invention.

Fig. 4 is a top view of the reinforcement cage processing apparatus of the present invention.

Detailed Description

The invention is further described with reference to the following figures and specific examples.

Referring to fig. 1, the invention provides a reinforcement cage processing device, which is used for solving the problem of high cost of processing a reinforcement cage by using the existing roll welding machine and also solving the problems of difficulty in manually installing reinforcements and troublesome operation. The reinforcement cage processing equipment disclosed by the invention folds the half-and-half installed reinforcements, can reduce the installation height of the reinforcements, provides convenience for constructors to install the reinforcements, and avoids the installation of the reinforcements by means of other hoisting equipment. In addition, the steel reinforcement cage processing equipment is obtained from a construction site, and can be assembled on site, so that a plurality of steel reinforcement cage processing equipment can be arranged as required, and the steel reinforcement cage can be directly pre-assembled after being processed, so that the construction requirement is met, and the economy is better. The reinforcement cage processing equipment of the invention is explained in the following with the attached drawings.

As shown in fig. 1 and 2, the reinforcement cage processing equipment of the present invention includes a base 21, a pair of supporting frames 22, a first processing frame 231, a second processing frame 232, a driving member, and a supporting bracket, wherein the pair of supporting frames 22 are movably disposed on the base 21, the pair of supporting frames 22 are oppositely disposed, and the pair of supporting frames 22 can move toward a direction approaching to each other or move toward a direction away from each other by moving adjustment; the first processing rack 231 and the second processing rack 232 are disposed on the corresponding support frames 22, that is, the first processing rack 231 and the second processing rack 232 are respectively disposed on the two support frames 22, and on the movable adjusting support frame 22, the support frame 22 can move and adjust together with the first processing rack 231 and the second processing rack 232 thereon. The corresponding ends of the first processing frame 231 and the second processing frame 232 are rotatably connected, the second processing frame 232 and the first processing frame 231 can be buckled by rotating the second processing frame 232 to form a combined frame 23 with an outer contour matched with that of a reinforcement cage to be processed, limiting sleeves 24 for reinforcing steel bars to pass through are arranged on the first processing frame 231 and the second processing frame 232, the limiting sleeves 24 are multiple and used for limiting the reinforcing steel bars 11 of the reinforcement cage to be processed, when the combined frame is processed, the reinforcing steel bars 11 can firstly pass through the limiting sleeves 24 on the first processing frame 231 and the second processing frame 232, so that one reinforcing steel bar is supported and limited by the limiting sleeves 24 at the two ends, then the second processing frame 232 is rotatably adjusted to be buckled on the first processing frame 231, and the reinforcing steel bars of the reinforcement cage are firstly installed in half and then folded. Referring to fig. 3, a driving member 25 is disposed on the base 21, and the driving member 25 is drivingly connected to the assembly rack 23 to drive the assembly rack 23 to rotate, so as to perform the welding process on the reinforcement cage 10 during the rotation of the assembly rack 23. The support bracket 26 is arranged on the base 21, the support bracket 26 is positioned between the pair of support frames 22, the support height of the support bracket 26 is adjustable, and the support bracket 26 can support the finished reinforcement cage 10 by adjusting the support height of the support bracket 26. Preferably, the upright of the support bracket 26 is a jack, and the support height is adjusted by the extension and contraction of the jack.

When the reinforcement cage processing equipment disclosed by the invention is used for processing a reinforcement cage, the reinforcement can be manually installed on the first processing frame and the second processing frame, then the second processing frame is rotationally buckled on the first processing frame to form the combined frame, the combined frames at two ends are used for supporting the reinforcement of the reinforcement cage, then the driving piece is in driving connection with the combined frame, the driving piece is used for driving the combined frame to rotate, and at the moment, stirrups can be hooped on the rotating reinforcement and are welded with the reinforcement, so that the processing of the reinforcement cage is completed. Contact driving piece and built-up frame be connected to place the built-up frame in on the support frame, move the regulation support frame towards opposite direction after that for the reinforcing bar on built-up frame and the steel reinforcement cage breaks away from mutually, and steel reinforcement cage accessible bearing bracket holds this moment, and this steel reinforcement cage accessible lifting device hangs away, then carries out the processing of next steel reinforcement cage. Preferably, the base 21 is provided with a track, the supporting frame is slidably disposed on the corresponding track, and the base 21 is further provided with a power member, the power member is connected with the supporting frame, and the supporting frame can be driven by the power member to move and adjust. The power member is preferably a rodless cylinder.

In one embodiment of the present invention, as shown in fig. 1, the first processing frame 231 includes a first semicircular member 2311, a first semicircular roller 2312 supportingly coupled at a middle portion of the first semicircular member 2311, and first coupling ends 2313 provided at both end portions of the first semicircular member 2311; the second processing frame 232 comprises a second semicircular piece 2321, a second semicircular roller 2322 which is supported and connected at the middle part of the second semicircular piece 2321, and second connecting end parts 2323 which are arranged at the two end parts of the second semicircular piece 2321; the first connection end 2313 and the corresponding second connection end 2323 are rotatably connected by a connection shaft.

The restraining sleeve 24 is disposed on the first and second

semicircular members

2311 and 2321 at intervals, and the restraining sleeve 24 is disposed on the outer circumferences of the first and second

semicircular members

2311 and 2321. In order to improve the stability of reinforcing bar in spacing sleeve 24, equal threaded connection has a locking bolt on each spacing sleeve 24, wears to establish the reinforcing bar in spacing sleeve 24 after, twists the locking bolt of twisting and makes locking bolt tightly push up the reinforcing bar to press from both sides the reinforcing bar tightly in spacing sleeve 24.

The first and second

semi-circular members

2311 and 2321 are of the same size, and the first and second

semi-circular members

2311 and 2321 are circular when they are mated. The first and second

semi-circular rollers

2312 and 2322 are of the same size and form a circular roller after the first and second

semi-circular rollers

2312 and 2322 are butted. The first semicircular roller 2312 is supported and coupled to the first semicircular member 2311 by a plurality of struts, and the second semicircular roller 2322 is supported and coupled to the second semicircular member 2321 by a plurality of struts. A first connecting end 2313 of the first semicircular member 2311 is rotatably connected with a second connecting end 2323 of the second semicircular member 2321 through a connecting shaft, the supporting frame 22 supports the first connecting end 2313 and also supports the other first connecting end 2313 and the second connecting end 2323, and preferably, three vertical rods are arranged on the supporting frame 22 and support the corresponding first connecting end 2313 and the second connecting end 2323 so as to support the first semicircular member and the second circular member. Preferably, the first connection end 2313 and the second connection end 2323 are both connection sleeves, the corresponding connection sleeves are butted and penetrate through the connection shaft to realize rotatable connection, and the stop pieces are fixedly connected to two ends of the connection shaft. After the first and second

semicircular members

2311 and 2321 are snapped together, the corresponding first and second connection ends are aligned and rotatably coupled through the coupling shaft.

Further, as shown in fig. 1, 2 and 4, the first and second

semicircular rollers

2312 and 2322 are provided with through holes; a limiting chuck is arranged on the driving shaft of the driving part 25, and a limiting pin is arranged on the limiting chuck corresponding to the through hole. When the driving member 25 is drivingly connected to the assembly frame 23, the limiting chucks on the driving member 25 are attached to the first semicircular roller 2312 and the second semicircular roller 2322, and the limiting pins are inserted through the corresponding through holes, so that the limiting chucks are engaged with the first semicircular roller 2312 and the second semicircular roller 2322. Then, the driving member 25 is started, the driving shaft on the driving member 25 is driven to rotate, and then the driving shaft drives the first semicircular roller 2312 and the second semicircular roller 2322 to rotate through the limiting chuck, so that the reinforcing steel bars on the driving combination rack 23 are driven to rotate. The drive member 25 is preferably an electric motor.

Still further, the driving member 25 is movably disposed on the base 21, and the driving member 25 can be adjusted to move toward or away from the rack assembly 23 by adjusting the driving member 25. After first processing frame and second processing frame lock are connected, remove and adjust driving piece 25 and let driving piece 25 and built-up 23 drive connection, preferably, driving piece 25 supports through the branch subassembly and installs on base 21, the bottom of this branch subassembly is slided and is established on base 21 and can be followed base 21 and carry out the regulation of moving, for satisfying the removal regulation of branch subassembly and support frame, it is equipped with the opening to correspond the branch subassembly on support frame 22, the branch subassembly preferred realizes the regulation of moving through the drive of rodless cylinder. The supporting height of the strut assembly of the driving member 25 is adjustable, when the driving member 25 is needed, the supporting height of the strut assembly is increased, and when the driving member 25 is not needed, the supporting height of the strut assembly is decreased, so that the driving member 25 can avoid the reinforcement cage 10.

Preferably, a driving part 25 is disposed at one of the assembly stands, a rotating shaft capable of freely rotating is disposed at the other assembly stand, a limiting chuck is disposed on the rotating shaft and connected with the corresponding assembly stand in a clamping manner, the driving part 25 drives the corresponding assembly stand to rotate, and the assembly stand drives the steel bar, the other assembly stand and the rotating shaft to rotate together.

Still further, as shown in fig. 1 and 2, a telescopically adjustable supporting plate 221 is provided on the supporting frame 22 corresponding to the first connecting end 2313 and the second connecting end 2323, the supporting plate 221 supports the first processing frame and the second processing frame, after the first processing frame and the second processing frame are fastened and connected to form a combined frame, the driving member 25 is drivingly connected to the combined frame, and the supporting frame 22 adjusts the supporting plate 221 to retract, so that the supporting frame 22 is not directly connected to the combined frame 23, and the combined frame 23 can be rotationally adjusted in the supporting frame 22 by the driving action of the driving member 25. After the steel reinforcement cage is processed, the supporting plate 221 extends out, the combined frame 23 is supported by the supporting plate 221, then the driving piece 25 can be moved reversely, the locking bolt on the limiting sleeve is unscrewed, the supporting frame 22 is moved to withdraw the combined frame 23 from the processed steel reinforcement cage 10, at the moment, the connection between the first processing frame and the second processing frame can be disassembled, and the second processing frame is rotated and reset. After the assembly frame 23 is withdrawn, the reinforcement cage 10 is supported by the support bracket 26.

In an embodiment of the present invention, a plurality of jacking mechanisms are disposed on the base 21 corresponding to a side of the second processing frame 232 away from the first processing frame 231, jacking heights of the jacking mechanisms are adjustable, and by adjusting jacking heights of the jacking mechanisms, a side of the second processing frame 232 away from the first processing frame 231 can be jacked up, so that the second processing frame 232 can be rotatably fastened to the first processing frame 231.

Further, the device further comprises a pulling mechanism which is arranged on the base 21 and close to the first processing frame 231, and the pulling mechanism can be connected with the second processing frame 232 and can pull the second processing frame 232, so that the second processing frame 232 can be rotatably buckled on the first processing frame 231. Preferably, the traction mechanism is provided with a retractable traction rope, the traction rope is connected with the second processing frame, the jacking mechanism at the bottom of the second processing frame jacks up one side of the second processing frame, and then the traction rope pulls the second processing frame, so that the second processing frame can be smoothly buckled on the first processing frame. When resetting the second processing frame, because the second processing frame is not provided with the reinforcing steel bar, the second processing frame can be manually turned over and reset at the moment.

In an embodiment of the present invention, the welding robot is disposed on the base 21 and adjacent to the first processing frame 231, and the welding robot performs welding of the reinforcing bars. A plurality of steel bars are arranged on the circular periphery of the combined frame 23, as shown in fig. 1, a stirrup disc 28 is arranged on one side of the base 21, stirrups on the stirrup disc 28 are wound on the periphery of the steel bars, and the stirrups and the steel bars are welded and fixed by the welding mechanical arm, so that a steel bar cage is formed. Preferably, as shown in fig. 4, a sliding rail is disposed on one side of the base 21, the stirrup tray 28 is slidably disposed on the sliding rail, a driving mechanism is disposed on the stirrup tray 28, the driving mechanism can drive the stirrup tray 28 to move along the sliding rail, and the stirrup can be spirally hooped on the periphery of the steel bar by moving the stirrup tray 28. The driving mechanism is preferably a motor, and the stirrup plate 28 is provided with rollers, and the motor drives the rollers to rotate so as to move the stirrup plate 28.

In one embodiment of the present invention, as shown in fig. 1 and 2, reinforcing bars 11 are stored in reinforcing bar storage shelves 27 provided at both sides of the first and

second processing shelves

231 and 232. When processing steel reinforcement cage, constructor can follow reinforcing bar storage rack 27 and take off the reinforcing bar to wear to establish the reinforcing bar in the spacing sleeve of the processing frame that corresponds.

In a specific embodiment of the present invention, the reinforcement cage pre-assembly device further includes a slide rail, and the base 21 is slidably disposed on the slide rail and can move and adjust along the slide rail, so as to drive the processed reinforcement cage to move to implement pre-assembly with an adjacent reinforcement cage.

In a construction site, after the reinforcement cage is processed, the reinforcement cage needs to be pre-assembled, and then the reinforcement cage can be hung to a specified construction position. If the reinforcement cage that will process well shifts elsewhere and assembles in advance, can make the construction comparatively troublesome. The steel reinforcement cage processing equipment can be arranged oppositely, after the steel reinforcement cages on the equipment are processed, the base of the steel reinforcement cage processing equipment is moved along the slide rail, so that the steel reinforcement cages on the steel reinforcement cage processing equipment are butted with the steel reinforcement cages on the other processing equipment, the pre-assembly is directly completed, and then the steel reinforcement cages can be directly hoisted to the construction station through the hoisting equipment for construction. So improved steel reinforcement cage machining efficiency to construction cost has been saved.

While the present invention has been described in detail and with reference to the embodiments thereof as illustrated in the accompanying drawings, it will be apparent to one skilled in the art that various changes and modifications can be made therein. Therefore, certain details of the embodiments are not to be interpreted as limiting, and the scope of the invention is to be determined by the appended claims.

Claims

1. The utility model provides a steel reinforcement cage processing equipment which characterized in that includes:

a base;

the pair of supporting frames are movably arranged on the base, are oppositely arranged, and can move towards the direction close to each other or move towards the direction far away from each other through movement adjustment;

the first processing frame and the second processing frame are arranged on the supporting frame, corresponding end parts of the first processing frame and the second processing frame are rotatably connected, the second processing frame and the first processing frame can be buckled by rotating the second processing frame to form a combined frame with an outer contour matched with that of a reinforcement cage to be processed, and limiting sleeves for steel bars to pass through are arranged on the first processing frame and the second processing frame;

2. The reinforcement cage processing apparatus of claim 1, wherein the first processing frame comprises a first semicircular member, a first semicircular roller supportingly coupled at a middle portion of the first semicircular member, and first coupling end portions provided at both end portions of the first semicircular member;

the second processing frame comprises a second semicircular piece, a second semicircular rolling shaft connected to the middle of the second semicircular piece in a supporting mode, and second connecting end portions arranged at two end portions of the second semicircular piece;

3. The reinforcement cage processing apparatus of claim 2, wherein the first semi-circular roller and the second semi-circular roller have through holes;

4. The reinforcement cage processing apparatus of claim 2, wherein the driving member is movably disposed on the base, and the driving member is movably adjusted in a direction toward or away from the assembly rack by movably adjusting the driving member.

5. The reinforcement cage processing apparatus of claim 2, wherein the support frame is provided with telescopically adjustable support plates corresponding to the first connection end and the second connection end.

6. The reinforcement cage processing equipment of claim 1, wherein a plurality of jacking mechanisms are arranged on the base corresponding to one side of the second processing frame far away from the first processing frame, and the jacking heights of the jacking mechanisms are adjustable.

7. The reinforcement cage processing apparatus of claim 1, further comprising a welding robot disposed on the base and adjacent to the first processing frame, the welding robot configured to weld the reinforcement bars.

8. The reinforcement cage processing apparatus of claim 1, further comprising a pulling mechanism disposed on the base and adjacent to the first processing rack, the pulling mechanism being connectable to the second processing rack and pulling the second processing rack such that the second processing rack can be rotatably snapped onto the first processing rack.

9. The reinforcement cage processing apparatus of claim 1, further comprising reinforcement storage shelves disposed on both sides of the first and second processing shelves.

10. The reinforcement cage processing apparatus of claim 1, further comprising a slide rail;

the base is arranged on the sliding rail in a sliding mode and can move and be adjusted along the sliding rail, and therefore the processed reinforcement cage is driven to move to be pre-assembled with the adjacent reinforcement cage.