CN115319354B - Reinforcement cage welding device of slope protection brick - Google Patents

Abstract

The invention discloses a reinforcement cage welding device of a slope protection brick, which comprises an inner annular reinforcement ring inner pushing fixing component, wherein one end of the inner annular reinforcement ring inner pushing fixing component is fixedly connected with a first outer transverse reinforcement tightening component through a supporting fixing arm rod, the first outer transverse reinforcement tightening component is rotatably arranged at one end of a moving rack component, the other end of the moving rack component is rotatably provided with a second outer transverse reinforcement tightening component, the inner annular reinforcement ring is internally pushed and fixed through the inner annular reinforcement ring inner pushing fixing component, a plurality of outer transverse reinforcements are clamped and fixed through the first outer transverse reinforcement tightening component and the second outer transverse reinforcement tightening component, and fixed point transposition can be realized through the matching of structures on a supporting main rack circular table and a supporting main rack circular table, so that welding points between the plurality of outer transverse reinforcements and the plurality of inner annular reinforcement rings are enabled not to be welded.

Description

Reinforcement cage welding device of slope protection brick

Technical Field

The invention belongs to the technical field of slope protection brick steel reinforcement cage processing, and particularly relates to a steel reinforcement cage welding device for slope protection bricks.

Background

Slope protection brick steel reinforcement cage means that the reinforcing bar is put together, forms a complete rack, and what be vivid is called steel reinforcement cage, and a complete steel reinforcement rack is favorable to retraining the concrete, improves the wholeness of concrete member.

The prior art has the following problems: slope protection brick steel reinforcement cage adds man-hour, it forms a complete steel reinforcement cage structure mainly to weld inside loop type support reinforcing bar circle and outside transverse reinforcement, but when current slope protection brick steel reinforcement cage used, the structure is complicated and use and maintenance cost are high, current slope protection brick steel reinforcement cage welding set's biggest drawback is simultaneously, in welding earlier stage, need support the fixed position before reinforcing bar circle and outside transverse reinforcement weld with inside loop type, current inside loop type supports the reinforcing bar circle simultaneously and outside transverse reinforcement size is also different, when we are in-service use, this work is simple, but wastes time and energy, a lot of human cost and time, inside loop type supports the reinforcing bar circle and outside transverse reinforcement effect of pre-fixing is not good simultaneously, can follow-up welded progress and quality of direct impact, consequently, the steel reinforcement cage welding set of slope protection brick that urgently needed, solve above-mentioned problem.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides a reinforcing cage welding device for slope protection bricks, which has the characteristics of convenience in use and convenience in pre-fixing of an internal annular supporting reinforcing ring and external transverse reinforcing steel bars.

In order to achieve the purpose, the invention provides the following technical scheme: a reinforcement cage welding device of a slope protection brick comprises an inner ring-shaped reinforcement ring inner pushing fixing assembly, one end of the inner ring-shaped reinforcement ring inner pushing fixing assembly is fixedly connected with a first outer transverse reinforcement tightening assembly through a supporting fixing arm rod, the first outer transverse reinforcement tightening assembly is rotatably arranged at one end of a moving rack assembly, the other end of the moving rack assembly is rotatably provided with a second outer transverse reinforcement tightening assembly, a plurality of inner ring-shaped reinforcement rings are arranged outside the inner ring-shaped reinforcement ring inner pushing fixing assembly in an inner pushing mode, a plurality of outer transverse reinforcements are fixedly clamped between the first outer transverse reinforcement tightening assembly and the second outer transverse reinforcement tightening assembly, and the plurality of outer transverse reinforcements are synchronously tightened outside the plurality of inner ring-shaped reinforcement rings;

fixed subassembly of interior ring type steel bar circle interpolation includes interpolation main shaft pole and two L type pinion racks, the fixed a plurality of tooth driving disks that are provided with on the interpolation main shaft pole, and interior push main shaft pole one end is provided with fixed pallet and interpolation driving motor, fixed pallet is gone up and is provided with two lines of guide seat pipes through the fixed support plate that pushes away in, L type pinion rack one end is fixed and is provided with tip arm cover outer tube, the inside slip of tip arm cover outer tube is provided with pole in the tip arm cover, pole both ends are provided with push pedal and bottom circle platform in the camber respectively in the tip arm cover, the cover is equipped with the tight spring in top on the tip arm cover outer tube, L type pinion rack top is fixed and is provided with the top slide bar.

Preferably, the first external transverse steel bar tightening assembly comprises a supporting main frame round platform and a poking wheel, a main frame round platform shaft rod and a drawing platform driving motor are arranged on two sides of the supporting main frame round platform respectively, a drawing platform is arranged on an output shaft of the drawing platform driving motor, a plurality of drawing arc-shaped sliding grooves are formed in the drawing platform, a plurality of lifting inner arm rods are fixedly arranged on the outer side of the supporting main frame round platform, a plurality of arc-shaped limiting grooves and poking grooves are formed in the edge of the supporting main frame round platform, an L connecting side plate and a bottom fixing platform are arranged on the lifting inner arm rods, a side plate top seat tube is fixedly arranged at the top of the L connecting side plate, a lifting outer arm tube and a bottom pushing spring are sleeved outside the lifting inner arm rods, a second arc-shaped clamping plate and an arm tube bottom fixing ring platform are respectively arranged at the top and the bottom of the lifting outer arm tube, a handle slide rod is slidably arranged on the top seat of the side plate, a first arc-shaped clamping plate is fixedly arranged at the top of the handle slide rod through a slide rod, and a poking arm and a poking rod are arranged on the poking wheel;

the movable rack assembly comprises a first fixed rack plate and a second fixed rack plate, wherein an end rack plate and a top L-shaped rack plate are arranged on the first fixed rack plate, a guide sliding arm sliding rod and a pushing cylinder are arranged between the end rack plate and the second fixed rack plate, the guide sliding arm sliding rod penetrates through the end rack plate to slide, a top driving motor is arranged at the top of the second fixed rack plate, a telescopic cylinder is arranged at the top of the top L-shaped rack plate, and a plurality of inclined welding heads are arranged on the telescopic cylinder.

Preferably, the top slide bar slides in the guide seat pipe in a reciprocating manner, two tooth bodies of the L-shaped toothed plate are meshed with the top of the tooth moving plate and the bottom tooth body, the end part arm sleeve inner rod slides in the end part arm sleeve outer pipe in a reciprocating manner, and the arc-shaped inner push plate is in an outward pushing structure through pushing of the pushing spring.

Preferably, an inner pushing and jacking structure of an inner ring-shaped reinforcing ring is formed between two arc-shaped inner pushing plates at two ends of two L-shaped toothed plates arranged in the same row, and an elastic telescopic pushing structure is formed between the two arc-shaped inner pushing plates through the pushing of the jacking spring.

Preferably, the lifting outer arm pipe slides up and down on the lifting inner arm rod, two ends of the bottom pushing spring respectively abut against a fixed ring platform and a fixed platform at the bottom of the arm pipe, and the lifting outer arm pipe is in a top-pushing structure on the lifting inner arm rod through pushing of the bottom pushing spring.

Preferably, the rod body at the bottom of the handle sliding rod is inserted into a furling arc-shaped sliding groove on the furling table, and a clamping and fixing structure of the outer transverse steel bar is formed between the first arc-shaped clamping plate and the second arc-shaped clamping plate.

Preferably, the top driving motor drives the poking wheel to rotate, the poking wheel rotates in the arc-shaped limiting groove, the poking rod on the poking arm pokes and supports the main frame circular truncated cone through the poking groove, and a main frame circular truncated cone shaft rod supporting the rear end of the main frame circular truncated cone is rotatably connected with a frame body at the end part of the movable frame assembly through a bearing seat.

Preferably, the structure that tight subassembly was held up to the outer horizontal reinforcing bar of second is unanimous with the structure that tight subassembly was held up to the outer horizontal reinforcing bar of first, and is a plurality of outer top formula of interior ring type steel bar circle is fixed on interior ring type steel bar circle pushes away fixed subassembly, and is a plurality of outer horizontal reinforcing bar centre gripping is fixed and is held up between tight subassembly and the outer horizontal reinforcing bar of second and hold up tightly the subassembly outside first.

Compared with the prior art, the invention has the beneficial effects that:

1. when the reinforcement cage of the slope protection brick is welded, an outer transverse reinforcement and an inner annular reinforcement ring need to be pre-contacted and fixed, so that the welding of an inclined welding head can be facilitated, the inner annular reinforcement ring is pushed and fixed through an inner annular reinforcement ring pushing and fixing component, the working principle is as follows, the specific connection mode of the upper structure of the inner annular reinforcement ring pushing and fixing component is as follows, a top sliding rod slides in a guide seat tube in a reciprocating manner, teeth of two L-shaped toothed plates are meshed with teeth of the top and the bottom of a toothed moving plate, when in actual use, the toothed driving motor is driven to rotate by pushing and driving, the structure is matched, the synchronous pushing and outward action of the two arc-shaped inner push plates at the ends of the two L-shaped toothed plates is realized, and at the moment, a plurality of inner annular reinforcement rings can be conveniently pushed and fixed on the inner annular reinforcement ring pushing and fixing component, simultaneously, the inside slip of tip arm cover outer tube is provided with tip arm cover interior pole, the cover is equipped with the tight spring in top on the tip arm cover outer tube, top through the top of tight spring pushes away, push pedal is in extrapolated structure in the arc, through this kind of mode, during the in-service use, can push away driving motor's rotation with push pedal to suitable interval in two arcs, because the size of interior ring type steel bar circle is different, through this kind of mode, can satisfy the fixed user demand of different interior ring type steel bar circles, push pedal to suitable interval after in adjusting two arcs through in pushing away driving motor, because a plurality of interior ring type steel bar circles can not disposable overlap establish the interpolation fixed, push away the structure through the elasticity of push pedal in two arcs this moment, can realize that the elasticity of a plurality of interior ring type steel bar circles is pushed away to overlap and establish fixedly.

2. The plurality of outer transverse steel bars form a structure distribution which is annularly arranged outside the plurality of inner ring-shaped steel bar rings, the plurality of outer transverse steel bars are clamped and fixed through the first outer transverse steel bar tightening component and the second outer transverse steel bar tightening component, when the steel bar drawing machine is in actual use, a bar body at the bottom of the handle slide bar is inserted into a drawing arc-shaped chute on the drawing table, a clamping and fixing structure of the outer transverse steel bars is formed between the first arc-shaped clamping plate and the second arc-shaped clamping plate, the drawing table is driven to rotate through the drawing table driving motor, the handle slide bar is arranged inside the top part of the side plate seat at the moment in a sliding manner, and the handle slide bar is matched with the structure, first arc grip block will be driven and draw close to the centre gripping of second arc grip block, through this kind of mode, the centre gripping of outer horizontal reinforcing bar is fixed to the realization, a plurality of outer horizontal reinforcing bar rings are established and are distributed outside a plurality of interior ring type reinforcing bar circles this moment, outer horizontal reinforcing bar and interior ring type reinforcing bar circle contactless this moment, the urgent need drive through drawing in a driving motor and draw in a platform and rotate this moment, first arc grip block urgent need move down this moment, will compress the bottom and push away the top and push away the spring and drive the urgent need of second arc grip block and move down, a plurality of outer horizontal reinforcing bar carry out the action of being drawn in outside a plurality of interior ring type reinforcing bar circles this moment, when a plurality of outer horizontal reinforcing bar tightly contact a plurality of interior ring type reinforcing bar circles outside, drive the welding head that inclines through telescopic cylinder and move down and weld.

3. The invention relates to an inclined welding head which is provided with two rows of welding heads which are distributed at the top of the device, when in welding, a plurality of outer transverse steel bars are folded and abutted outside a plurality of inner ring-shaped steel bar rings, at the moment, more than one welding point is arranged between the plurality of outer transverse steel bars and the plurality of inner ring-shaped steel bar rings, the position of the welding point needs to be adjusted in a rotating mode.

Drawings

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

FIG. 2 is a perspective view from another perspective of the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is a perspective view of a portion of the structure of the present invention;

FIG. 5 is an exploded view of a portion of the structure of the present invention;

fig. 6 is a perspective view of the inner annular steel reinforcement ring inward pushing and fixing assembly, the outer transverse steel reinforcement and the inner annular steel reinforcement ring;

fig. 7 is an exploded view of the inner annular steel bar ring inward pushing fixing assembly of the present invention;

FIG. 8 is a perspective view of the first outer transverse rebar gathering assembly of the present invention;

FIG. 9 is an exploded view of the first outer transverse rebar gathering assembly of the present invention;

FIG. 10 is a perspective view of the mobile frame assembly of the present invention;

in the figure: 100. the inner ring type steel bar ring is pushed inwards to fix the component; 101. pushing the main shaft rod inwards; 102. a gear moving disc; 103. a fixed stand; 104. an inner pushing driving motor; 105. pushing the support frame plate inwards; 106. a guide seat tube; 107. an L-shaped toothed plate; 108. a top slide bar; 109. an end arm sleeve outer pipe; 110. an inner rod is sleeved at the end part of the arm; 111. an arc-shaped inner push plate; 112. a bottom loop platform; 113. the spring is tightly propped; 200. the first outer transverse steel bar tightening assembly; 201. supporting the main frame circular table; 202. an arc-shaped limiting groove; 203. a poking arm; 204. a poke rod; 205. a main frame circular truncated cone shaft lever; 206. a poking wheel; 207. a poking groove; 208. a folding table; 209. furling the arc chute; 210. a furling table driving motor; 211. l is connected with the side plate; 212. a side plate top seat tube; 213. a bottom fixed table; 214. a bottom pushing spring; 215. a handle slide bar; 216. a slide bar connecting rod; 217. a first arc clamping plate; 218. a second arc clamping plate; 219. lifting the outer arm pipe; 220. a ring table is fixed at the bottom end of the arm pipe; 221. lifting the inner arm rod; 300. the second outer transverse steel bar tightening assembly; 400. a mobile rack assembly; 401. a first fixed frame plate; 402. a second fixed frame plate; 403. an end frame plate; 404. a guide slide arm slide bar; 405. a pushing cylinder; 406. a top drive motor; 407. a top L-shaped frame plate; 408. a telescopic cylinder; 409. an inclined welding head; 500. supporting the fixed arm lever; 600. outer transverse steel bars; 700. and (4) an inner ring type reinforcing steel ring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides the following technical solutions: a steel reinforcement cage welding device of a slope protection brick comprises an inner ring type steel reinforcement ring inner pushing fixing assembly 100, one end of the inner ring type steel reinforcement ring inner pushing fixing assembly 100 is fixedly connected with a first outer transverse steel reinforcement tightening assembly 200 through a supporting fixing arm rod 500, the first outer transverse steel reinforcement tightening assembly 200 is rotatably arranged at one end of a moving rack assembly 400, the other end of the moving rack assembly 400 is rotatably provided with a second outer transverse steel reinforcement tightening assembly 300, a plurality of inner ring type steel reinforcement rings 700 are arranged outside the inner ring type steel reinforcement ring inner pushing fixing assembly 100 in a pushing and tightening mode, a plurality of outer transverse steel reinforcements 600 are fixedly clamped between the first outer transverse steel reinforcement tightening assembly 200 and the second outer transverse steel reinforcement tightening assembly 300, the plurality of outer transverse steel reinforcements 600 perform synchronous actions outside the plurality of inner ring type steel reinforcement rings 700, the structure of the second outer transverse steel reinforcement tightening assembly 300 is consistent with that of the first outer transverse steel reinforcement tightening assembly 200, the plurality of inner ring type steel reinforcement rings 700 are fixedly clamped between the first outer transverse steel reinforcement tightening assembly 200 and the second outer transverse steel reinforcement tightening assembly 300;

the inner ring-shaped steel bar ring inner pushing fixing component 100 comprises an inner pushing main shaft rod 101 and two L-shaped toothed plates 107, a plurality of toothed discs 102 are fixedly arranged on the inner pushing main shaft rod 101, a fixing stand 103 and an inner pushing driving motor 104 are arranged at one end of the inner pushing main shaft rod 101, two rows of guide seat pipes 106 are fixedly arranged on the fixing stand 103 through an inner pushing support frame plate 105, an end arm sleeve outer pipe 109 is fixedly arranged at one end of each L-shaped toothed plate 107, an end arm sleeve inner rod 110 is slidably arranged inside the end arm sleeve outer pipe 109, an arc-shaped inner pushing plate 111 and a bottom ring table 112 are respectively arranged at two ends of the end arm sleeve inner rod 110, a jacking spring 113 is sleeved on the outer pipe 109 of the end arm sleeve, a top sliding rod 108 is fixedly arranged at the top of the L-shaped toothed plate 107, the top sliding rod 108 slides in the guide seat pipe 106 in a reciprocating manner, tooth bodies of the two L-shaped toothed plates 107 are meshed with tooth bodies at the top and the bottom of the toothed disc 102, an inner rod 110 of the end arm sleeve slides in the outer pipe 109 of the end arm sleeve in a reciprocating manner, an arc-shaped inner push plate 111 is in an outward-pushing structure through jacking of the jacking spring 113, an inner push jacking structure of an inner ring-shaped reinforcing ring 700 is formed between the two arc-shaped inner push plates 111 at two ends of the two L-shaped toothed plates 107 arranged in a same row, and an elastic telescopic jacking structure is formed between the two arc-shaped inner push plates 111 through jacking of the jacking spring 113.

In this embodiment, preferably, the first external transverse reinforcement tightening assembly 200 includes a supporting main frame circular truncated cone 201 and a toggle wheel 206, the two sides of the supporting main frame circular truncated cone 201 are respectively provided with a main frame circular truncated cone shaft 205 and a furling table driving motor 210, an output shaft of the furling table driving motor 210 is provided with a furling table 208, the furling table 208 is provided with a plurality of furling arc-shaped sliding grooves 209, the outer side of the supporting main frame circular truncated cone 201 is fixedly provided with a plurality of lifting inner arm rods 221, the edge of the supporting main frame circular truncated cone 201 is provided with a plurality of arc-shaped limiting grooves 202 and a toggle groove 207, the lifting inner arm rods 221 are provided with L-shaped connecting side plates 211 and bottom fixing tables 213, the tops of the L-shaped connecting side plates 211 are fixedly provided with side plate top seat tubes 212, the lifting inner arm rods 221 are externally sleeved with lifting outer arm tubes 219 and bottom push springs 214, the top and the bottom of a lifting outer arm pipe 219 are respectively provided with a second arc-shaped clamping plate 218 and an arm pipe bottom end fixing ring platform 220, a handle sliding rod 215 is arranged in a side plate top seat pipe 212 in a sliding manner, the top of the handle sliding rod 215 is fixedly provided with a first arc-shaped clamping plate 217 through a sliding rod connecting rod 216, a poking arm 203 and a poking rod 204 are arranged on a poking wheel 206, the lifting outer arm pipe 219 slides up and down on a lifting inner arm rod 221, two ends of a bottom pushing spring 214 respectively abut against the arm pipe bottom end fixing ring platform 220 and the bottom fixing platform 213, the lifting outer arm pipe 219 is in an upward pushing structure on the lifting inner arm rod 221 through the pushing of the bottom pushing spring 214, a rod body at the bottom of the handle sliding rod 215 is inserted into a furling arc-shaped sliding groove 209 on a furling platform 208, and a clamping and fixing structure of an outer transverse steel bar 600 is formed between the first arc-shaped clamping plate 217 and the second arc-shaped clamping plate 218;

the moving frame assembly 400 comprises a first fixed frame plate 401 and a second fixed frame plate 402, an end frame plate 403 and a top L-shaped frame plate 407 are arranged on the first fixed frame plate 401, a guide sliding arm sliding rod 404 and a pushing cylinder 405 are arranged between the end frame plate 403 and the second fixed frame plate 402, the guide sliding arm sliding rod 404 slides on the end frame plate 403 in a penetrating manner, a top driving motor 406 is arranged at the top of the second fixed frame plate 402, a telescopic cylinder 408 is arranged at the top of the top L-shaped frame plate 407, a plurality of inclined welding heads 409 are arranged on the telescopic cylinder 408, the top driving motor 406 drives a poking wheel 206 to rotate, the poking wheel 206 rotates in an arc-shaped limiting groove 202, a poking rod 204 on the poking arm 203 pokes and supports the main frame circular truncated cone 201 through a poking groove 207, and a main frame circular truncated cone shaft rod 205 supporting the rear end of the main frame circular cone 201 is rotatably connected with a frame body at the end of the moving frame assembly 400 through a bearing seat.

The working principle and the using process of the invention are as follows: when the reinforcement cage of the slope protection brick of the invention is welded, the external transverse reinforcement 600 and the internal annular reinforcement 700 need to be pre-contacted and fixed, so as to facilitate the welding of the inclined welding head 409, the internal annular reinforcement 700 is fixed by the internal annular reinforcement pushing and fixing component 100 through internal pushing and pushing, the working principle is as follows, the specific connection mode of the structure on the internal annular reinforcement pushing and fixing component 100 is as follows, the top slide bar 108 slides back and forth in the guide seat tube 106, the teeth of the two L-shaped tooth plates 107 are engaged with the teeth at the top and the bottom of the toothed disc 102, when in actual use, the internal pushing driving motor 104 drives the toothed disc 102 to rotate, and the synchronous outward pushing action of the two arc-shaped internal push plates 111 at the ends of the two L-shaped tooth plates 107 is realized by matching with the structure, at this time, the internal annular reinforcements 700 can be conveniently fixed on the internal annular reinforcement pushing and fixing component 100 through internal pushing, meanwhile, an end arm sleeve inner rod 110 is slidably arranged inside the end arm sleeve outer pipe 109, a jacking spring 113 is sleeved on the end arm sleeve outer pipe 109, the arc-shaped inner push plates 111 are in an outward-pushing structure through jacking of the jacking spring 113, in this way, when the device is actually used, the two arc-shaped inner push plates 111 can be rotated to a proper distance through the rotation of the inward-pushing driving motor 104, because the sizes of the inner ring-shaped reinforcing rings 700 are different, the fixing and using requirements of different inner ring-shaped reinforcing rings 700 can be met through this way, after the two arc-shaped inner push plates 111 are adjusted to a proper distance through the inward-pushing driving motor 104, because the plurality of inner ring-shaped reinforcing rings 700 cannot be sleeved and pushed and fixed at one time, at this time, through the elastic jacking structure of the two arc-shaped inner push plates 111, the elastic outward-pushing sleeving and fixing of the plurality of inner ring-shaped reinforcing rings 700 can be realized, and the plurality of outer transverse reinforcing bars 600 form an annular structure distribution outside the plurality of inner ring-shaped reinforcing rings 700, the plurality of outer transverse steel bars 600 are clamped and fixed through the first outer transverse steel bar tightening assembly 200 and the second outer transverse steel bar tightening assembly 300, in practical use, the rod body at the bottom of the handle slide rod 215 is inserted into the furling arc-shaped chute 209 on the furling table 208, a clamping and fixing structure of the outer transverse steel bars 600 is formed between the first arc-shaped clamping plate 217 and the second arc-shaped clamping plate 218, the furling table 208 is driven to rotate through the furling table driving motor 210, at the moment, the handle slide rod 215 is arranged inside the seat tube 212 at the top of the side plate in a sliding manner, through the matching of the structures, the first arc-shaped clamping plate 217 is driven to clamp and draw close to the second arc-shaped clamping plate 218, through the mode, the clamping and fixing of the outer transverse steel bars 600 are realized, at the moment, the plurality of outer transverse steel bars 600 are annularly distributed outside the plurality of inner annular steel bars 700, at this time, the outer transverse bars 600 are not in contact with the inner annular reinforcing rings 700, at this time, the furling table 208 is urgently required to be driven to rotate by the furling table driving motor 210, at this time, the first arc-shaped clamping plate 217 is urgently required to move downwards, the bottom pushing spring 214 is compressed to drive the second arc-shaped clamping plate 218 to move downwards, at this time, the plurality of outer transverse bars 600 perform furling approaching motion outside the plurality of inner annular reinforcing rings 700, when the plurality of outer transverse bars 600 are tightly contacted with the outside of the plurality of inner annular reinforcing rings 700, the inclined welding heads 409 are driven to move downwards by the telescopic cylinders 408 for welding, the inclined welding heads 409 of the present invention are provided with two rows and distributed at the top of the device, during welding, the plurality of outer transverse bars 600 are furled and abutted against the outside of the plurality of inner annular reinforcing rings 700, at this time, the welding points between the plurality of outer transverse bars 600 and the plurality of inner annular reinforcing rings 700 are not at one point, at this time, the position of the welding points need to be rotatably adjusted, the working principle is as follows, the supporting main frame circular truncated cone 201 serves as a rotating main frame, at the moment, a main frame circular truncated cone shaft rod 205 supporting the rear end of the main frame circular truncated cone 201 is rotatably connected with a frame body at the end part of the movable frame assembly 400 through a bearing seat, a plurality of arc-shaped limiting grooves 202 and toggle grooves 207 are formed in the edge of the supporting main frame circular truncated cone 201, a toggle arm 203 and a toggle rod 204 are arranged on the toggle wheel 206, a top driving motor 406 drives the toggle wheel 206 to rotate, the toggle wheel 206 rotates in the arc-shaped limiting grooves 202, the toggle rod 204 on the toggle arm 203 toggles the supporting main frame circular truncated cone 201 through the toggle groove 207, when the main frame circular truncated cone is in actual use, the toggle arm 203 and the toggle rod 204 on the toggle wheel 206 are driven to rotate through the top driving motor 406, at the moment, through the matching of the structures, namely, the toggle rod 204 toggles the supporting main frame 201 through the toggle groove 207, the transposition of a plurality of outer transverse steel bars 600 and a plurality of inner ring steel bar welding points 700 can be realized, and the transposition of a plurality of outer transverse steel bar welding points can be realized through the cooperation of the supporting main frame circular truncated cone 201 and a plurality of inner ring welding points 700.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a steel reinforcement cage welding set of bank protection brick, includes that interior annular steel bar circle pushes away fixed subassembly (100) in, its characterized in that: one end of the inner ring-shaped steel bar ring inner pushing and fixing component (100) is fixedly connected with a first outer transverse steel bar tightening component (200) through a supporting and fixing arm rod (500), the first outer transverse steel bar tightening component (200) is rotatably arranged at one end of the moving rack component (400), the other end of the moving rack component (400) is rotatably provided with a second outer transverse steel bar tightening component (300), a plurality of inner ring-shaped steel bar rings (700) are arranged outside the inner ring-shaped steel bar ring inner pushing and fixing component (100) in a pushing and jacking mode, a plurality of outer transverse steel bars (600) are fixedly clamped between the first outer transverse steel bar tightening component (200) and the second outer transverse steel bar tightening component (300), and the plurality of outer transverse steel bars (600) perform synchronous tightening action outside the plurality of inner ring-shaped steel bar rings (700);

the fixed subassembly of interior ring type steel reinforcement circle interpolation (100) includes interior push spindle rod (101) and two L type pinion rack (107), fixedly on interior push spindle rod (101) be provided with a plurality of toothed disc (102), and interior push spindle rod (101) one end is provided with fixed pallet (103) and interior push driving motor (104), fixed pallet (103) are gone up and are fixedly provided with two lines of guide holder pipes (106) through interior push support frame board (105), L type pinion rack (107) one end is fixed and is provided with tip arm cover outer tube (109), tip arm cover outer tube (109) inside slip is provided with tip arm cover interior pole (110), tip arm cover interior pole (110) both ends are provided with camber inner push pedal (111) and bottom circle platform (112) respectively, the cover is equipped with on tip arm cover outer tube (109) and pushes up tight spring (113), L type pinion rack (107) top is fixed and is provided with top slide bar (108),

the first outer transverse steel bar tightening assembly (200) comprises a supporting main frame circular truncated cone (201) and a toggle wheel (206), a main frame circular truncated cone shaft rod (205) and a folding table driving motor (210) are arranged on two sides of the supporting main frame circular truncated cone (201) respectively, a folding table (208) is arranged on an output shaft of the folding table driving motor (210), a plurality of folding arc-shaped sliding grooves (209) are formed in the folding table (208), a plurality of lifting inner arm rods (221) are fixedly arranged on the outer side of the supporting main frame circular truncated cone (201), a plurality of arc-shaped limiting grooves (202) and a toggle groove (207) are formed in the edge of the supporting main frame circular truncated cone (201), an L connecting side plate (211) and a bottom fixing table (213) are arranged on the lifting inner arm rods (221), a side plate top seat tube (212) is fixedly arranged at the top of the L connecting side plate (211), a lifting outer arm tube (219) and a bottom pushing spring (214) are sleeved on the lifting inner arm rod (221), a second arc-shaped clamping plate (218) and a sliding arm seat tube (215) and a first sliding arm tube (217) are arranged on the top of the handle (220), a first sliding arm tube (204) and a first sliding arm fixing ring (204) are arranged on the top of the lifting inner arm tube (204), and a sliding arm (215), and a sliding arm plate (204), and a sliding arm tube (215) respectively, and a first sliding arm fixing ring (204), and a sliding arm tube (220) are arranged on the handle (204), and a sliding arm tube fixing ring (204) are arranged on the lifting inner arm tube (204), and a sliding arm tube fixing ring (204) are arranged on the lifting inner arm tube fixing ring (204), and a sliding arm tube fixing ring (220) are arranged on the lifting inner arm tube (204), and a sliding arm tube fixing ring (220) respectively ) (ii) a

The movable rack assembly (400) comprises a first fixed rack plate (401) and a second fixed rack plate (402), wherein the first fixed rack plate (401) is provided with an end rack plate (403) and a top L-shaped rack plate (407), a guide sliding arm sliding rod (404) and a pushing cylinder (405) are arranged between the end rack plate (403) and the second fixed rack plate (402), the guide sliding arm sliding rod (404) slides on the end rack plate (403) in a penetrating manner, a top driving motor (406) is arranged at the top of the second fixed rack plate (402), a telescopic cylinder (408) is arranged at the top of the top L-shaped rack plate (407), and a plurality of inclined welding heads (409) are arranged on the telescopic cylinder (408),

the structure that subassembly (300) was tightened up to the outer horizontal reinforcing bar of second is unanimous with the structure that subassembly (200) was tightened up to the outer horizontal reinforcing bar of first, and is a plurality of outer top formula of interior annular steel bar circle (700) is fixed on interior annular steel bar circle pushes away fixed subassembly (100) in, and is a plurality of outer horizontal reinforcing bar (600) centre gripping is fixed and is being tightened up between subassembly (300) is tightened up to the outer horizontal reinforcing bar of first outer horizontal reinforcing bar (200) and second.

2. The reinforcement cage welding device of slope protection brick of claim 1, characterized in that: the top sliding rod (108) slides in a guide seat pipe (106) in a reciprocating mode, tooth bodies of the two L-shaped toothed plates (107) are meshed with the top of the tooth moving plate (102) and the bottom tooth body, the end portion arm sleeve inner rod (110) slides in an end portion arm sleeve outer pipe (109) in a reciprocating mode, and the arc-shaped inner push plate (111) is in an outward pushing structure through pushing of the jacking spring (113).

3. The reinforcement cage welding device of slope protection brick of claim 1, characterized in that: two that set up in the same row form the interior top of inner ring type steel bar circle (700) between push pedal (111) in two camber at L type pinion rack (107) both ends, through the top of top tight spring (113), two form elastic telescopic top between push pedal (111) in the camber and push the structure.

4. The reinforcement cage welding device of slope protection brick of claim 1, characterized in that: the outer arm pipe that goes up and down (219) slides about on arm pole (221) in going up and down, the both ends that the bottom pushed away spring (214) contradict respectively on the solid fixed ring platform of arm socle end (220) and bottom fixed station (213), through the top of bottom pushed away spring (214) pushes away, the structure that goes up and down outer arm pipe (219) is in on arm pole (221) in going up and down.

5. The reinforcement cage welding device of slope protection brick of claim 1, characterized in that: the bottom rod body of the handle sliding rod (215) is inserted into a furling arc-shaped sliding groove (209) on a furling table (208), and a clamping and fixing structure of an outer transverse steel bar (600) is formed between the first arc-shaped clamping plate (217) and the second arc-shaped clamping plate (218).

6. The reinforcement cage welding device of slope protection brick of claim 1, characterized in that: the top driving motor (406) drives the poking wheel (206) to rotate, the poking wheel (206) rotates in the arc-shaped limiting groove (202), the poking rod (204) on the poking arm (203) pokes and supports the main frame circular truncated cone (201) through the poking groove (207), and a main frame circular truncated cone shaft rod (205) supporting the rear end of the main frame circular truncated cone (201) is rotationally connected with a frame body at the end part of the movable frame assembly (400) through a bearing seat.

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