CN113351806A - Pier steel reinforcement cage coiling device - Google Patents

Abstract

The invention discloses a pier reinforcement cage winding device which comprises a base and a skeleton ring, wherein two auxiliary supporting rollers are rotatably arranged on the surface of the base, a height-adjusting rod is arranged between the two auxiliary supporting rollers, the lifting end of the height-adjusting rod is connected with an installation plate, and two clamping rods are arranged on the surface of the installation plate; the surface of the base is provided with a first moving assembly and a second moving assembly, the moving end of the second moving assembly is connected with a bearing frame, and the surface of the bearing frame is provided with a second welding head; the bearing plate is connected to the moving end of the first moving assembly, a steel bar winding drum and a fixed vertical plate are arranged on the surface of the bearing plate, a bearing beam is connected to the upper portion of the bearing plate, and a first welding head is arranged on the surface of the bearing beam. Has the advantages that: can realize the skeleton establishment of steel reinforcement cage and the coiling of outside reinforcing bar in proper order, need not to carry out and remove hoist and mount to steel reinforcement cage skeleton, prevent that steel reinforcement cage skeleton hoist and mount from warping, guarantee pier steel reinforcement cage's preparation quality and efficiency.

Description

Pier steel reinforcement cage coiling device

Technical Field

The invention relates to the technical field of medicine taking devices, in particular to a pier reinforcement cage winding device.

Background

In the construction process of a bridge, the pouring of piers is an important step of bridge construction engineering. When pouring of the pier is carried out, a braided reinforcement cage is usually prefabricated. However, the existing reinforcement cage weaving mainly comprises two parts, namely framework weaving and winding of outside reinforcing steel bars, wherein the two parts are carried out independently, and the reinforcing steel bars can be wound only by using hoisting machinery to hoist the framework, so that the manufacturing quality and efficiency of the pier reinforcement cage are influenced.

Disclosure of Invention

The invention aims to solve the problems, and provides a pier reinforcement cage winding device to solve the technical problems that in the prior art, the existing reinforcement cage weaving is mainly divided into two parts, namely framework weaving and outer-side reinforcement steel winding, the two parts are independently carried out, the reinforcement steel winding can be carried out only by using a hoisting machine to hoist the framework, the manufacturing quality and efficiency of the pier reinforcement cage are influenced, and the like. The optimal technical scheme in the technical schemes provided by the invention can realize framework weaving of the reinforcement cage and winding of external reinforcing steel bars in sequence, does not need to hoist the reinforcement cage framework movably, prevents the reinforcement cage framework from being hoisted and deformed, ensures the manufacturing quality and efficiency of the pier reinforcement cage, has good use effect and other technical effects, and is explained in detail below.

In order to achieve the purpose, the invention provides the following technical scheme:

the invention provides a pier reinforcement cage winding device which comprises a base and a framework ring, wherein two auxiliary supporting rollers which are horizontally arranged in parallel are rotatably mounted on the surface of the base, the auxiliary supporting rollers extend along the length direction of the base, a height adjusting rod is arranged between the two auxiliary supporting rollers and uniformly distributed along the length direction of the base, the lifting end of the height adjusting rod is vertically upward and is connected with a mounting plate, the surface of the mounting plate is symmetrically provided with two clamping rods and a positioning driving assembly for driving the two clamping rods to be close to or far away from the length direction of the base, the two clamping rods clamp and fix the framework ring on the auxiliary supporting rollers under the driving of the positioning driving assembly, and the periphery of the surface of the framework ring is uniformly provided with a plurality of inserting holes for inserting framework reinforcements;

the surface of the base is provided with two bearing vertical plates and a clamping driving assembly for driving the two bearing vertical plates to approach or depart from the base along the length direction of the base, the opposite surfaces of the two bearing vertical plates are rotatably provided with clamping discs, the opposite surfaces of the two clamping discs are provided with positioning holes, the positioning holes correspond to the inserting holes, and the outer side of any one bearing vertical plate is provided with a rotating motor for driving the clamping discs to rotate;

a first moving assembly and a second moving assembly are arranged on the surface of the base and are respectively positioned on two sides of the two auxiliary supporting rollers, a moving end of the second moving assembly is connected with a bearing frame, a second welding head is arranged on the surface of the bearing frame and is positioned above the framework ring and used for welding the framework ring and the framework steel bars;

the bearing plate comprises a bearing plate body, a first moving assembly and a second moving assembly, wherein the bearing plate body is provided with a steel bar winding drum and a fixed vertical plate in a rotating mode, a discharge hole penetrates through the front side of the fixed vertical plate, a guide assembly is arranged inside the discharge hole and used for guiding steel bars outside the steel bar winding drum to assist in winding reinforcing steel bars outside skeleton steel bars, the upper portion of the bearing plate body is connected with a bearing beam, a first welding head is arranged on the surface of the bearing beam and located above a skeleton ring and used for welding the skeleton steel bars and the reinforcing steel bars.

When the winding device for the bridge pier reinforcement cage is used, the framework rings are placed on the auxiliary supporting rollers, the height of the height adjusting rods is adjusted, the clamping rods are located on two sides of the framework rings, the positioning driving assembly drives the two clamping rods to move in opposite directions, the framework rings are clamped and fixed on the auxiliary supporting rollers through the two clamping rods, through the process, the framework rings are uniformly arranged on the auxiliary supporting rollers, the framework reinforcements are sequentially inserted into the positioning holes, the reinforcement framework and the framework rings form a framework of the bridge pier reinforcement cage, the second moving assembly drives the bearing frame to move in the length direction of the base, the framework rings and the framework reinforcements are pre-welded through the second welding head, after the pre-welding is completed, the clamping driving assembly drives the two bearing vertical plates to move in opposite directions, the end parts of framework steel bars forming a steel reinforcement cage framework are inserted into the positioning holes to clamp and fix the steel reinforcement cage framework, the positioning driving assembly drives the two clamping rods to be away from each other, the clamping and fixing of the clamping rods on the framework rings are released, the height of the height-adjusting rods is adjusted, the clamping rods descend along with the bearing plate, the clamping rods are located below the auxiliary supporting roller, the rotating motor drives the clamping disc to rotate, the clamping disc drives the framework to rotate integrally, the second moving assembly is matched to drive the bearing frame to move, each framework steel bar is welded with the framework rings through the second annular joint, and therefore the weaving of the steel reinforcement cage framework is completed; the end part of the reinforcing steel bar outside the reinforcing steel bar winding drum extends into the discharge hole, the reinforcing steel bar is guided by the guide assembly, the end part of the reinforcing steel bar is welded outside framework reinforcing steel bars, the rotating motor drives the framework of the reinforcement cage to rotate through the clamping disc, meanwhile, the first moving assembly drives the bearing plate to move along the length direction of the base, the reinforcing steel bar outside the reinforcing steel bar winding drum is spirally wound outside the framework, and the reinforcing steel bar and the framework reinforcing steel bar are welded through the first welding head along with the movement of the bearing plate, so that the winding of the reinforcing steel bar is completed; the device can realize the skeleton establishment of steel reinforcement cage and the coiling of outside reinforcing bar in proper order, need not to carry out and remove the hoist and mount to steel reinforcement cage skeleton, prevents that steel reinforcement cage skeleton hoist and mount from warping, guarantees pier steel reinforcement cage's preparation quality and efficiency, excellent in use effect.

Preferably, the positioning driving assembly comprises a mounting frame, a driving lead screw is rotatably mounted in the mounting frame, a fixed rod is arranged on the outer side of the driving lead screw, one end of the driving lead screw penetrates out of the mounting frame and is connected with a screwing block, the driving lead screw is coaxially butted with a first lead screw and a second lead screw, the screwing directions of the first lead screw and the second lead screw are opposite, a first moving block and a second moving block are respectively connected to the outer sides of the first lead screw and the second lead screw through threads, the fixed rod penetrates through the first moving block and the second moving block, and the first moving block are respectively connected with the clamping rod.

Preferably, the clamping rods are connected to both ends of the first moving block and the second moving block.

Preferably, the height-adjusting rod comprises a bearing pipe, the bearing pipe is connected to the upper surface of the base, a lifting groove is formed in the outer wall of the bearing pipe in a penetrating mode, a bearing sleeve is rotatably installed inside the upper end of the bearing pipe through a bearing, the upper end of the bearing sleeve penetrates out of the bearing pipe and is connected with an adjusting nut, a lifting screw rod is connected inside the adjusting nut through threads, the upper end of the lifting screw rod is connected with the mounting plate, the bottom end of the lifting screw rod stretches into the inside of the bearing pipe and is connected with a guide block, and the guide block is in clearance fit with the lifting groove.

Preferably, the bearing frame and the bearing beam surface are provided with guide holes in a penetrating mode, the bearing frame and the bearing beam surface are connected with heightening bolts through threads, the bottom ends of the heightening bolts are rotatably connected with lifting plates, the bottom surfaces of the two lifting plates are respectively connected with the first welding head and the second welding head, lifting rods are connected to the surfaces of the lifting plates, and the lifting rods are in clearance fit with the guide holes.

Preferably, the clamping driving assembly comprises a supporting frame, an adjusting lead screw is installed inside the supporting frame in a rotating mode, one end of the adjusting lead screw penetrates through the supporting frame and is connected with a hand wheel, a guide rod is arranged on the outer side of the adjusting lead screw, the adjusting lead screw is coaxially butted with a third lead screw and a fourth lead screw, the thread screwing directions of the third lead screw and the fourth lead screw are opposite, a first moving seat and a second moving seat are connected to the outer side of the third lead screw and the outer side of the fourth lead screw through threads respectively, the guide rod penetrates through the first moving seat and the second moving seat, and the first moving seat and the second moving seat are connected with the bearing vertical plates respectively.

Preferably, the first moving assembly and the second moving assembly are identical in structure, the first moving assembly comprises a positioning frame, a moving screw is rotatably mounted inside the positioning frame, one end of the moving screw penetrates through the positioning frame and is connected with a moving motor, a positioning rod is arranged on one side of the moving screw, a moving platform is connected to the outer side of the moving screw through threads, the positioning rod penetrates through the moving platform, and the moving platform is connected with the bearing plate.

Preferably, the guide assembly comprises a vertical roller and a horizontal roller, the vertical roller and the horizontal roller are distributed in parallel, and the vertical roller and the horizontal roller are distributed in a staggered manner in the width direction of the base and form a structure in the shape of a Chinese character 'jing'.

Preferably, the surface of the bearing plate is provided with a fixing frame which is of a U-shaped structure, a placing groove is formed in the outer side of the fixing frame, fixing shafts are connected to two sides of the steel bar winding drum, and the fixing shafts stretch into the placing groove.

Has the advantages that: can realize the skeleton establishment of steel reinforcement cage and the coiling of outside reinforcing bar in proper order, need not to carry out and remove the hoist and mount to steel reinforcement cage skeleton, prevent that steel reinforcement cage skeleton hoist and mount from warping, guarantee pier steel reinforcement cage's preparation quality and efficiency, excellent in use effect.

Drawings

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

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is an enlarged schematic view of portion B of FIG. 1;

FIG. 4 is an enlarged schematic view of section C of FIG. 1;

FIG. 5 is a schematic structural view of the rod adjusting bar;

FIG. 6 is a top cross-sectional view of the present invention;

FIG. 7 is a left side cross-sectional view of the present invention;

fig. 8 is an enlarged schematic view of a portion D of fig. 7.

The reference numerals are explained below:

1. a base; 2. a clamp drive assembly; 201. a hand wheel; 202. a support frame; 203. a first movable base; 204. a guide bar; 205. adjusting the lead screw; 2051. a third lead screw; 2052. a fourth lead screw; 206. a second movable base; 3. a first moving assembly; 301. a moving motor; 302. a positioning frame; 303. a mobile station; 304. moving the lead screw; 305. positioning a rod; 4. a carrier plate; 401. a fixed mount; 402. a placement groove; 5. a reinforcing steel bar reel; 501. a fixed shaft; 6. an auxiliary support roller; 7. clamping the disc; 701. positioning holes; 8. a second welding head; 9. a carrier; 10. a skeleton ring; 1001. an insertion hole; 11. a load beam; 12. a first welding head; 13. a second moving assembly; 14. fixing the vertical plate; 1401. a discharge port; 15. a guide assembly; 1501. a vertical roller; 1502. a horizontal roll; 16. a bearing vertical plate; 17. a rotating electric machine; 18. a height adjusting rod; 1801. a carrier tube; 1802. a lifting groove; 1803. a guide block; 1804. a bearing sleeve; 1805. adjusting the nut; 1806. lifting a screw rod; 19. mounting a plate; 20. positioning the driving assembly; 2001. screwing blocks; 2002. a mounting frame; 2003. a first moving block; 2004. driving a lead screw; 20041. a first lead screw; 20042. a second lead screw; 2005. a second moving block; 21. a clamping lever; 22. a lifting rod; 23. a guide hole; 24. heightening the bolt; 25. a lifting plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Referring to fig. 1-8, the invention provides a pier reinforcement cage winding device, which includes a base 1 and a framework ring 10, wherein two horizontal parallel auxiliary supporting rollers 6 are rotatably mounted on the surface of the base 1, the auxiliary supporting rollers 6 extend along the length direction of the base 1, a height-adjusting rod 18 is arranged between the two auxiliary supporting rollers 6, the height-adjusting rod 18 is uniformly distributed along the length direction of the base 1, the lifting end of the height-adjusting rod 18 is vertically upward and is connected with a mounting plate 19, the surface of the mounting plate 19 is symmetrically provided with two clamping rods 21 and a positioning driving assembly 20 for driving the two clamping rods 21 to approach or separate from the base 1 along the length direction of the base 1, the two clamping rods 21 clamp the framework ring 10 and fix the auxiliary supporting rollers 6 under the driving of the positioning driving assembly 20, and the circumference of the surface of the framework ring 10 is uniformly provided with a plurality of inserting holes 1001 for inserting and placing framework reinforcements;

the surface of the base 1 is provided with two bearing vertical plates 16 and a clamping driving assembly 2 for driving the two bearing vertical plates 16 to approach or depart from the base 1 along the length direction, the opposite surfaces of the two bearing vertical plates 16 are rotatably provided with clamping discs 7, the opposite surfaces of the two clamping discs 7 are provided with positioning holes 701, the positioning holes 701 correspond to the inserting holes 1001, and the outer side of any one bearing vertical plate 16 is provided with a rotating motor 17 for driving the clamping discs 7 to rotate;

the surface of the base 1 is provided with a first moving assembly 3 and a second moving assembly 13, the first moving assembly 3 and the second moving assembly 13 are respectively positioned at two sides of the two auxiliary supporting rollers 6, the moving end of the second moving assembly 13 is connected with a bearing frame 9, the surface of the bearing frame 9 is provided with a second welding head 8, and the second welding head 8 is positioned above the skeleton ring 10 and used for welding the skeleton ring 10 and the skeleton steel bars;

first removal subassembly 3 remove the end and be connected with loading board 4, 4 surperficial rotations of loading board are provided with reinforcing bar reel 5 and fixed riser 14, fixed riser 14 front side is run through and is provided with discharge gate 1401, the inside direction subassembly 15 that is provided with of discharge gate 1401 for the reinforcing bar to the reinforcing bar reel 5 outside is led supplementaryly and is twined the reinforcing bar in the skeleton reinforcing bar outside, 4 upper portions of loading board are connected with carrier beam 11, carrier beam 11 surfaces are provided with first soldered connection 12, first soldered connection 12 is located skeleton ring 10 top, be used for welding skeleton reinforcing bar and reinforcing bar.

As an alternative embodiment, the positioning driving assembly 20 includes a mounting frame 2002, a driving lead screw 2004 is rotatably mounted inside the mounting frame 2002, a fixing rod is disposed outside the driving lead screw 2004, one end of the driving lead screw 2004 penetrates through the mounting frame 2002 and is connected with a screwing block 2001, the driving lead screw 2004 is coaxially butted with a first lead screw 20041 and a second lead screw 20042, the thread directions of the first lead screw 20041 and the second lead screw 20042 are opposite, a first moving block 2003 and a second moving block 2005 are respectively connected outside the first lead screw 20041 and the second lead screw 20042 through threads, the fixing rod penetrates through the first moving block 2003 and the second moving block 2005, the first moving block 2003 and the first moving block 2003 are respectively connected with the clamping rod 21, such that the driving lead screw 2004 is screwed through the screwing block 2001, the first moving block 2003 and the second moving block 2005 are limited and guided by the fixing rod, because the thread directions of the first lead screw 20041 and the second lead screw 20042 are opposite, the first moving block 2003 and the second moving block 2005 are moved closer to or away from each other by screw transmission, so that the two clamping bars 21 clamp and fix the skeleton ring 10 to the auxiliary support roller 6.

The clamping rods 21 are connected to two ends of the first moving block 2003 and the second moving block 2005, so that the clamping rods 21 can clamp and fix the framework ring 10 stably.

Heightening rod 18 includes carrier tube 1801, carrier tube 1801 connects at the 1 upper surface of base, the outer wall of carrier tube 1801 runs through and is provided with lift groove 1802, carrier tube 1801 upper end is inside to rotate through the bearing and installs carrier cover 1804, carrier cover 1804 upper end is worn out carrier tube 1801 and is connected with adjusting nut 1805, adjusting nut 1805 is inside to have lift lead screw 1806 through threaded connection, lift lead screw 1806 upper end is connected with mounting panel 19, lift lead screw 1806 bottom stretches into carrier tube 1801 is inside and is connected with guide block 1803, guide block 1803 and lift groove 1802 clearance fit, set up like this, carry out spacing direction through guide block 1803 and lift groove 1802 to lift lead screw 1806, twist adjusting nut 1805, utilize screw drive, make lift lead screw 1806 inside going up and down at carrier tube 1801, realize heightening rod 18's altitude mixture control.

Bear 9 and the bearing beam 11 surface and all run through and be provided with guiding hole 23, bear 9 and the bearing beam 11 surface all has heightening bolt 24 through threaded connection, heightening bolt 24 bottom is rotated and is connected with lifter plate 25, two lifter plate 25 bottom surfaces are connected with first soldered connection 12 and second soldered connection 8 respectively, lifter plate 25 surface is connected with lifter 22, lifter 22 and 23 clearance fit of guiding hole, set up like this, carry out spacing direction to lifter plate 25 through lifter 22 and guiding hole 23, twist soon and heighten bolt 24, realize lifter plate 25's altitude mixture control, thereby adjust the height of first soldered connection 12 and second soldered connection 8, guarantee the welding quality of first soldered connection 12 and second ring joint.

The clamping driving assembly 2 comprises a supporting frame 202, an adjusting screw 205 is rotatably installed inside the supporting frame 202, one end of the adjusting screw 205 penetrates through the supporting frame 202 and is connected with a handwheel 201, a guide rod 204 is arranged outside the adjusting screw 205, the adjusting screw 205 is coaxially butted by a third screw 2051 and a fourth screw 2052, the screw thread turning directions of the third screw 2051 and the fourth screw 2052 are opposite, the outer sides of the third screw 2051 and the fourth screw 2052 are respectively connected with a first moving seat 203 and a second moving seat 206 through screw threads, the guide rod 204 penetrates through the first moving seat 203 and the second moving seat 206, the first moving seat 203 and the second moving seat 206 are respectively connected with two bearing vertical plates 16, the arrangement is that the first moving seat 203 and the second moving seat 206 are limited and guided through the guide rod 204, the adjusting screw 205 is rotated through the handwheel 201, because the screw thread turning directions of the third screw 2051 and the fourth screw 2052 are opposite, the first moving seat 203 and the second moving seat 206 are moved closer to or away from each other by means of a screw drive, so as to drive the two load-bearing risers 16 closer to or away from each other.

First removal subassembly 3 is the same with the structure of second removal subassembly 13, first removal subassembly 3 includes locating rack 302, locating rack 302 is inside to be rotated and to be installed removal lead screw 304, removal lead screw 304 one end is run through locating rack 302 and is connected with mobile motor 301, removal lead screw 304 one side is provided with locating lever 305, there is mobile station 303 through threaded connection in the removal lead screw 304 outside, locating lever 305 runs through mobile station 303, mobile station 303 is connected with loading board 4, set up like this, carry out spacing direction to mobile station 303 through locating lever 305, it is rotatory to drive removal lead screw 304 through mobile motor 301, utilize screw drive to make mobile station 303 remove along the length direction of base 1.

The guide assembly 15 comprises vertical rollers 1501 and horizontal rollers 1502, the vertical rollers 1501 and the horizontal rollers 1502 are distributed in parallel, the vertical rollers 1501 and the horizontal rollers 1502 are distributed in a staggered mode in the width direction of the base 1 and form a structure in a shape like a Chinese character 'jing', the reinforcing steel bars are limited only by positioning through the vertical rollers 1501 and the horizontal rollers 1502, and the reinforcing steel bars can be accurately wound on the outer side of the steel bar cage framework.

The surface of the bearing plate 4 is provided with a fixing frame 401, the fixing frame 401 is of a U-shaped structure, a placing groove 402 is formed in the outer side of the fixing frame 401, two sides of the steel bar winding drum 5 are connected with fixing shafts 501, and the fixing shafts 501 stretch into the placing groove 402, so that the steel bar winding drum 5 can be conveniently replaced.

By adopting the structure, when in use, the framework rings 10 are placed on the auxiliary supporting rollers 6, the height of the height-adjusting rods 18 is adjusted, the clamping rods 21 are positioned at two sides of the framework rings 10, the two clamping rods 21 are driven to move oppositely by the positioning driving assembly 20, the framework rings 10 are clamped and fixed on the auxiliary supporting rollers 6 by the two clamping rods 21, through the process, a plurality of framework rings 10 are uniformly arranged on the auxiliary supporting rollers 6, framework steel bars are sequentially inserted into the positioning holes 701, the framework steel bar framework and the framework rings 10 form a framework of a pier steel bar cage, the second moving assembly 13 drives the bearing frame 9 to move along the length direction of the base 1, each framework ring 10 and each framework steel bar are pre-welded through the second welding joint 8, after the pre-welding is completed, the two bearing vertical plates 16 are driven to move oppositely by the clamping driving assembly 2, so that the end parts of the steel bar framework forming the steel bar cage framework are inserted into the positioning holes 701, clamping and fixing of the steel reinforcement cage framework are achieved, the two clamping rods 21 are driven to be away from each other through the positioning driving assembly 20, clamping and fixing of the clamping rods 21 on the framework rings 10 are released, the height of the height adjusting rod 18 is adjusted, the clamping rods 21 descend along with the bearing plate 4, the clamping rods 21 are located below the auxiliary supporting roller 6, the clamping disc 7 is driven to rotate through the rotating motor 17, the framework is driven to rotate integrally through the clamping disc 7, the bearing frame 9 is driven to move by matching with the second moving assembly 13, welding of each framework steel bar and the framework rings 10 is achieved through the second ring joint, and weaving of the steel reinforcement cage framework is completed; the end part of the reinforcing steel bar outside the reinforcing steel bar drum 5 extends into a discharge hole 1401, the reinforcing steel bar is guided through a guide assembly 15, the end part of the reinforcing steel bar is welded outside the framework reinforcing steel bar, a rotating motor 17 drives a reinforcing cage framework to rotate through a clamping disc 7, meanwhile, a first moving assembly 3 drives a bearing plate 4 to move along the length direction of a base 1, the reinforcing steel bar outside the reinforcing steel bar drum 5 is spirally wound outside the framework, and the reinforcing steel bar and the framework reinforcing steel bar are welded through a first welding head 12 along with the movement of the bearing plate 4, so that the winding of the reinforcing steel bar is completed; the device can realize the skeleton establishment of steel reinforcement cage and the coiling of outside reinforcing bar in proper order, need not to carry out and remove the hoist and mount to steel reinforcement cage skeleton, prevents that steel reinforcement cage skeleton hoist and mount from warping, guarantees pier steel reinforcement cage's preparation quality and efficiency, excellent in use effect.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (9)

1. The utility model provides a pier steel reinforcement cage coiling device which characterized in that: the framework ring fixing device comprises a base (1) and a framework ring (10), wherein two auxiliary supporting rollers (6) which are horizontally arranged in parallel are installed on the surface of the base (1) in a rotating mode, the auxiliary supporting rollers (6) extend along the length direction of the base (1), a heightening rod (18) is arranged between the two auxiliary supporting rollers (6), the heightening rods (18) are evenly distributed along the length direction of the base (1), the lifting end of the heightening rod (18) vertically upwards and is connected with a mounting plate (19), two clamping rods (21) and a positioning driving assembly (20) used for driving the two clamping rods (21) to be close to or far away from the length direction of the base (1) are symmetrically arranged on the surface of the mounting plate (19), the two clamping rods (21) are driven by the positioning driving assembly (20) to clamp and fix the framework ring (10) on the auxiliary supporting rollers (6), a plurality of inserting holes (1001) for inserting framework steel bars are uniformly formed in the circumference of the surface of the framework ring (10);

the surface of the base (1) is provided with two bearing vertical plates (16) and a clamping driving assembly (2) for driving the two bearing vertical plates (16) to approach or separate from each other along the length direction of the base (1), the opposite surfaces of the two bearing vertical plates (16) are rotatably provided with clamping discs (7), the opposite surfaces of the two clamping discs (7) are provided with positioning holes (701), the positioning holes (701) correspond to the inserting holes (1001), and the outer side of any bearing vertical plate (16) is provided with a rotating motor (17) for driving the clamping discs (7) to rotate;

a first moving assembly (3) and a second moving assembly (13) are arranged on the surface of the base (1), the first moving assembly (3) and the second moving assembly (13) are respectively located on two sides of the two auxiliary supporting rollers (6), a moving end of the second moving assembly (13) is connected with a bearing frame (9), a second welding head (8) is arranged on the surface of the bearing frame (9), and the second welding head (8) is located above the framework ring (10) and used for welding the framework ring (10) and the framework steel bars;

the movable end of the first movable assembly (3) is connected with a bearing plate (4), a steel bar winding drum (5) and a fixed vertical plate (14) are arranged on the surface of the bearing plate (4) in a rotating mode, a discharge hole (1401) penetrates through the front side of the fixed vertical plate (14), a guide assembly (15) is arranged inside the discharge hole (1401) and used for guiding steel bars outside the steel bar winding drum (5) to assist in winding the reinforced steel bars outside a framework steel bar, a bearing beam (11) is connected to the upper portion of the bearing plate (4), a first welding joint (12) is arranged on the surface of the bearing beam (11), and the first welding joint (12) is located above the framework ring (10) and used for welding the framework steel bar and the reinforced steel bar.

2. The pier reinforcement cage winding device of claim 1, wherein: the positioning driving assembly (20) comprises a mounting frame (2002), a driving screw rod (2004) is rotatably mounted in the mounting frame (2002), a fixed rod is arranged on the outer side of the driving screw rod (2004), one end of the driving screw rod (2004) penetrates out of the mounting rack (2002) and is connected with a screwing block (2001), the driving lead screw (2004) is coaxially butted by a first lead screw (20041) and a second lead screw (20042), the thread directions of the first lead screw (20041) and the second lead screw (20042) are opposite, a first moving block (2003) and a second moving block (2005) are respectively connected with the outer sides of the first lead screw (20041) and the second lead screw (20042) through threads, the fixed rod penetrates through the first moving block (2003) and the second moving block (2005), the first moving block (2003) and the first moving block (2003) are connected to the clamp lever (21), respectively.

3. The pier reinforcement cage winding device of claim 2, wherein: the clamping rods (21) are connected to both ends of the first moving block (2003) and the second moving block (2005).

4. The pier reinforcement cage winding device of claim 1, wherein: heightening pole (18) are including bearing pipe (1801), bearing pipe (1801) is connected base (1) upper surface, bearing pipe (1801) outer wall runs through and is provided with lift groove (1802), bearing pipe (1801) upper end is inside to be installed through bearing rotation and is born weight of cover (1804), bear weight of cover (1804) upper end is worn out bear weight of pipe (1801) and be connected with adjusting nut (1805), adjusting nut (1805) is inside to have lift lead screw (1806) through threaded connection, lift lead screw (1806) upper end with mounting panel (19) are connected, lift lead screw (1806) bottom is stretched into bear weight of inside and be connected with guide block (1803) of pipe (1801), guide block (1803) with lift groove (1802) clearance fit.

5. The pier reinforcement cage winding device of claim 1, wherein: bear frame (9) with bearer beam (11) surface all runs through and is provided with guiding hole (23), bear frame (9) with bearer beam (11) surface all has increaseing bolt (24) through threaded connection, increaseing bolt (24) bottom and rotating and being connected with lifter plate (25), two lifter plate (25) bottom surface respectively with first soldered connection (12) with second soldered connection (8) are connected, lifter (22) surface connection has lifter (22), lifter (22) with guiding hole (23) clearance fit.

6. The pier reinforcement cage winding device of claim 1, wherein: the clamping driving assembly (2) comprises a supporting frame (202), an adjusting screw rod (205) is rotatably arranged in the supporting frame (202), one end of the adjusting screw rod (205) penetrates through the support frame (202) and is connected with a hand wheel (201), a guide rod (204) is arranged on the outer side of the adjusting screw rod (205), the adjusting screw rod (205) is coaxially butted with a third screw rod (2051) and a fourth screw rod (2052), the thread directions of the third lead screw (2051) and the fourth lead screw (2052) are opposite, the outer sides of the third screw rod (2051) and the fourth screw rod (2052) are respectively connected with a first movable seat (203) and a second movable seat (206) through threads, the guide rod (204) penetrates through the first moving seat (203) and the second moving seat (206), the first movable seat (203) and the second movable seat (206) are respectively connected with the two bearing vertical plates (16).

7. The pier reinforcement cage winding device of claim 1, wherein: first removal subassembly (3) with the structure of second removal subassembly (13) is the same, first removal subassembly (3) are including locating rack (302), locating rack (302) inside rotation is installed and is removed lead screw (304), it runs through to remove lead screw (304) one end locating rack (302) and be connected with mobile motor (301), it is provided with locating lever (305) to remove lead screw (304) one side, it has mobile station (303) to remove lead screw (304) outside through threaded connection, locating lever (305) run through mobile station (303), mobile station (303) with loading board (4) are connected.

8. The pier reinforcement cage winding device of claim 1, wherein: the guide assembly (15) comprises vertical rollers (1501) and horizontal rollers (1502), the vertical rollers (1501) and the horizontal rollers (1502) are distributed in parallel, and the vertical rollers (1501) and the horizontal rollers (1502) are distributed in a staggered mode in the width direction of the base (1) and form a structure in the shape of a Chinese character 'jing'.

9. The pier reinforcement cage winding device of claim 1, wherein: the surface of the bearing plate (4) is provided with a fixing frame (401), the fixing frame (401) is of a U-shaped structure, a placing groove (402) is formed in the outer side of the fixing frame (401), two sides of the steel bar winding drum (5) are connected with fixing shafts (501), and the fixing shafts (501) stretch into the placing groove (402).

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