CN111001974A - Movable feeding type reinforcement cage welding equipment - Google Patents

Abstract

The invention discloses a movable feeding type reinforcement cage welding device which comprises a reinforcement cage positioning device and a feeding device, wherein the feeding device comprises a feeding base, and the lower end of the feeding base is connected with a plurality of first roller assemblies; the feeding base is provided with a first left material storage mechanism, a first right feeding mechanism and a main rib pushing mechanism, and the first left material storage mechanism comprises a first material storage vertical support, a second material storage vertical support and a first transition support; the first right feeding mechanism comprises a first feeding vertical support and a second feeding vertical support, and the outer side end of the second feeding vertical support is connected with a main rib limiting mechanism; two groups of main rib pushing mechanisms are arranged, the two groups of main rib pushing mechanisms are connected to the front end and the rear end of the first right feeding mechanism, each main rib pushing mechanism comprises two first lifting cylinders, the upper ends of the first lifting cylinders are connected with second horizontal pushing cylinders through first supporting plates, and cylinder shafts of the second horizontal pushing cylinders are connected with first main rib pushing plates. The equipment is more convenient to move, labor-saving and safe in feeding, and simple and novel in structure.

Description

Movable feeding type reinforcement cage welding equipment

Technical Field

The invention relates to the field of engineering machinery, in particular to a movable feeding type reinforcement cage welding device.

Background

The reinforcement cage mainly plays a role similar to the stress of the longitudinal reinforcement of the column, and mainly plays a role of tensile strength, and the compressive strength of the concrete is high but the tensile strength is very low. The pile body concrete is restrained, so that the pile body concrete can bear certain horizontal force. When welding the reinforcement cage, a roll welding device is generally used to position the reinforcement cage. The main muscle of steel reinforcement cage when fixed, need place main muscle on steel reinforcement cage positioner, current main muscle can place on the strut, and the strut is generally for fixed motionless to the strut is simpler, and the security is lower, can not use with the fine cooperation of steel reinforcement cage positioner.

Disclosure of Invention

The invention aims to provide a mobile feeding type reinforcement cage welding device which is more convenient to move, more in material storage, more labor-saving and safe in material loading and simple and novel in structure.

In order to achieve the purpose, the invention adopts the technical scheme that:

a movable feeding type reinforcement cage welding device comprises a reinforcement cage positioning device and a feeding device, wherein the feeding device comprises a feeding base, the lower end of the feeding base is connected with a plurality of first roller assemblies, and the front end of the feeding base is connected with a traction frame;

the feeding base is provided with a first left material storing mechanism, a first right feeding mechanism and a main rib pushing mechanism, the first left material storing mechanism comprises a first material storing vertical support, a second material storing vertical support and a first transition support, and a first lower material storing support frame and a first upper material storing support frame are connected between the first material storing vertical support and the second material storing vertical support;

the first right feeding mechanism comprises a first feeding vertical support and a second feeding vertical support, the outer side end of the second feeding vertical support is connected with a main rib limiting mechanism, and a first lower feeding support frame and a first upper feeding support frame are connected between the first feeding vertical support and the second feeding vertical support;

a plurality of first inclined sliding plates are arranged at the upper end of the first upper feeding support frame; the first transition support comprises a first top supporting beam connected to the upper end of the first upper material storage support frame and a second inclined sliding block connected to the upper ends of the first upper material storage support frame and the first upper material feeding support frame;

the two groups of main rib pushing mechanisms are connected to the front end and the rear end of the first right feeding mechanism, each main rib pushing mechanism comprises two first lifting cylinders, the upper ends of the first lifting cylinders are connected with second horizontal pushing cylinders through first supporting plates, and cylinder shafts of the second horizontal pushing cylinders are connected with first main rib pushing plates.

Preferably, the steel reinforcement cage positioning device comprises a first positioning frame, a main reinforcement feeding frame is arranged at the side end of the first positioning frame, and a plurality of groups of feeding chain mechanisms are arranged on the main reinforcement feeding frame;

a plurality of first arc-shaped plates are arranged in the first positioning frame, each first arc-shaped plate is provided with a main rib positioning wheel, and the plurality of first main rib positioning wheels are positioned and connected through a first wheel body positioning rotary drum;

the main rib positioning wheel is connected with the first arc-shaped plate through a plurality of first main rib spacing rods, and the plurality of main rib spacing rods are radially connected to the main rib positioning wheel; the end part of the first main rib spacing rod is connected with a first spacing rod rotating wheel, and the first spacing rod rotating wheel is connected with the inner end of the first arc-shaped plate.

Preferably, the first positioning frame comprises a first steel bar positioning underframe and a first steel bar positioning main frame, and the plurality of first arc-shaped plates are connected in the first steel bar positioning main frame in parallel;

the lower end of the first steel bar positioning chassis is connected with a plurality of first chassis supporting legs, the lower ends of the first chassis supporting legs are connected with a second roller assembly, a first supporting limiting pipe is sleeved outside the first chassis supporting legs, and the lower end of the first supporting limiting pipe is connected with a first outer radial plate.

Preferably, the feeding base comprises a base main support and a base main steel plate connected with the upper end of the base main support, the base main support is in a grid shape, and the base main support is welded with the base main steel plate;

a plurality of steel plate grooves are formed in the main steel plate of the base, and a plurality of lower end portions of the first left material storing mechanism and a plurality of lower end portions of the first right feeding mechanism can be uniformly distributed and embedded into the steel plate grooves.

Preferably, the first material storage vertical support comprises a plurality of first telescopic assemblies, and the first telescopic assemblies are positioned and connected through two first channel steel plates;

the first telescopic assembly comprises a first material storage supporting leg and a first upper extension rod, a first supporting leg slotted hole is formed in the upper end part of the first material storage supporting leg, and the lower end part of the first upper extension rod is positioned and connected in the first supporting leg slotted hole through a sleeve positioning screw rod; the lower end of the first material storage supporting leg is connected with a first foundation block, and the first foundation block is fixedly connected with the feeding base through a bolt.

Preferably, the second material storage vertical support comprises a plurality of second material storage support legs, the second material storage support legs are positioned and connected through two second channel steel plates, and the first lower material storage support frame and the first upper material storage support frame are connected between the first channel steel plate and the second channel steel plate;

the second material storage supporting leg is in a rectangular rod shape, and a second footing block is connected to the lower end of the second material storage supporting leg and is fixedly connected with the feeding base through a bolt;

the height value of the second material storage supporting leg is the same as that of the first material storage supporting leg, and the height value of the first telescopic assembly is larger than that of the second material storage supporting leg.

Preferably, the first feeding vertical support comprises a plurality of first feeding support legs, and the first feeding support legs are connected through two third groove steel plates in a positioning mode;

the first feeding supporting leg is in a rectangular rod shape, the lower end of the first feeding supporting leg is connected with a third foundation block, and the third foundation block is fixedly connected with the feeding base through a bolt; the height value of the first feeding vertical support is the same as that of the second material storage vertical support;

the second feeding vertical support comprises a plurality of second feeding supporting legs, and the second feeding supporting legs are positioned and connected through two fourth channel steel plates; the lower end of the second feeding supporting leg is connected with a fourth foundation block, and the fourth foundation block is fixedly connected with the feeding base through a bolt; the height value of the second feeding supporting leg is smaller than that of the first feeding supporting leg.

Preferably, the main rib limiting mechanisms are provided with a plurality of groups, and each second feeding supporting leg is connected with one group of main rib limiting mechanisms;

the main rib limiting mechanism comprises a main rib limiting rod and a main rib positioning pin, the main rib limiting rod can be adaptive to and clamped in a second feeding supporting leg in a channel steel plate shape, and the lower end part of the main rib limiting rod is connected with the second feeding supporting leg through a first rotating shaft assembly;

a first limiting rod through hole for the main rib positioning pin to pass through is formed in the middle of the main rib limiting rod, and after the main rib limiting rod rotates into the second feeding supporting leg, the main rib positioning pin passes through the main rib limiting rod and the second feeding supporting leg.

Preferably, the first inclined sliding plate is in a triangular plate shape, and the upper end surface of the first inclined sliding plate is connected with the lower end surface of the second inclined sliding block;

the second inclined sliding block is in a wedge-shaped block shape, the first jacking beam is in a rectangular rod shape, and a plurality of anti-skidding grooves are formed in the upper end of the first jacking beam; the traction frame is in a U-shaped frame shape, and a traction hole is formed in the end part of the traction frame.

Preferably, the lower end of the first lifting cylinder is connected with a first cylinder seat, and the first cylinder seat is fixedly connected with a first lower feeding support frame; the first support plate is in a rectangular plate shape, and the second pushing cylinder is longitudinally connected above the first support plate; the first main rib push plate is in a square plate shape, and a cylinder shaft of the second horizontal pushing cylinder is connected with the lower part of the first main rib push plate;

the feeding base below the first right feeding mechanism is connected with a power control mechanism, the power control mechanism comprises an air pump air compressor and an air cylinder controller, the air pump air compressor is connected to the upper end of the feeding base, and the air cylinder controller is connected to the side end of the feeding base.

The invention has the beneficial effects that:

the novel steel reinforcement cage positioning device and the novel feeding device are arranged, the first left material storage mechanism and the first right material feeding mechanism are detachably connected with the feeding base, compared with the prior art that the movement is inconvenient, the steel materials are not easy to recycle, the feeding device is convenient to move, the installation convenience is improved, parts damaged after being used can be replaced in a targeted mode, and welding is avoided to be integrated. The feeding device is divided into the material storage area and the material feeding area, so that the integral material storage amount is increased, the feeding and the material storage are refined, the safety during operation is improved, the excessive stacking of main ribs is avoided, and the convenience for splitting is improved.

The invention also provides a main rib pushing mechanism for helping workers to push the main ribs in an assisting manner, and a main rib limiting mechanism for conveniently conveying the main ribs. When transporting more main muscle, main muscle stop gear is in the state of erectting, and when processing the steel reinforcement cage, main muscle stop gear is in the state that falls. When the main ribs are too much and cannot be pushed well, the main rib pushing mechanism pushes the materials. When single reinforcing bar overlength leads to main muscle weight overweight, and make the manual work when not promoting well, also can use main muscle pushing mechanism to promote main muscle, main muscle pushing mechanism with main muscle propelling movement to chain mechanism on the back, chain mechanism conveys the steel reinforcement cage machining region with main muscle. Among the above-mentioned removal pay-off formula steel reinforcement cage welding equipment, holistic structure is simpler novel, and it is more convenient to remove the pay-off, can select to use pushing mechanism during artifical material loading, uses more laborsavingly.

Drawings

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

Fig. 1 is a schematic view of the overall structure of a mobile feeding type reinforcement cage welding device.

Fig. 2 is a schematic view of the overall structure of the steel reinforcement cage positioning device 1.

Fig. 3 is a schematic view of the overall structure of the feeding device.

Fig. 4 is a schematic view of a part of the structure of the feeding device.

Fig. 5 is a schematic view of the connection structure of the main rib pushing mechanism.

Detailed Description

The invention provides a mobile feeding type reinforcement cage welding device, and the invention is further described in detail below in order to make the purpose, technical scheme and effect of the invention clearer and clearer. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention is described in detail below with reference to the accompanying drawings:

example 1

With reference to fig. 1 to 5, a mobile feeding type reinforcement cage welding device comprises a reinforcement cage positioning device 1 and a feeding device 2, wherein the feeding device 2 comprises a feeding base 21, the lower end of the feeding base 21 is connected with a plurality of first roller assemblies 22, and the front end of the feeding base 21 is connected with a traction frame 23.

The feeding base 21 is provided with a first left material storage mechanism 3, a first right feeding mechanism 4 and a main rib pushing mechanism 5, the first left material storage mechanism 3 comprises a first vertical material storage support 31, a second vertical material storage support 32 and a first transition support 33, and a first lower material storage support frame 34 and a first upper material storage support frame 35 are connected between the first vertical material storage support 31 and the second vertical material storage support 32.

The first right feeding mechanism 4 comprises a first feeding vertical support 41 and a second feeding vertical support 42, the outer side end of the second feeding vertical support 41 is connected with a main rib limiting mechanism 6, and a first lower feeding support frame 43 and a first upper feeding support frame 44 are connected between the first feeding vertical support 41 and the second feeding vertical support 42.

The upper end of the first upper feeding support frame 44 is provided with a plurality of first inclined sliding plates 45; the first transition bracket 33 comprises a first top supporting beam 331 connected to the upper end of the first upper stock strut 35 and a second inclined sliding block 332 connected to the upper ends of the first upper stock strut 35 and the first upper feeding strut 44.

Two sets of main muscle pushing mechanism 5 have, and two sets of main muscle pushing mechanism 5 are connected both ends around first right feeding mechanism 4, and main muscle pushing mechanism 5 includes two first lift cylinders 51, and the upper end of first lift cylinder 51 is connected with second through first extension board 52 and pushes away cylinder 53, and the epaxial first main muscle push pedal 54 that is connected with of cylinder of second push away cylinder 53.

The steel reinforcement cage positioning device 1 comprises a first positioning frame 11, a main reinforcement feeding frame 12 is arranged at the side end of the first positioning frame 11, and a plurality of groups of feeding chain mechanisms 13 are arranged on the main reinforcement feeding frame 12. A plurality of first arc-shaped plates 14 are arranged in the first positioning frame 11, a main rib positioning wheel 15 is arranged on each first arc-shaped plate 14, and the plurality of first main rib positioning wheels 15 are positioned and connected through a first wheel body positioning rotary drum 16.

The main rib positioning wheel 15 is connected with the first arc-shaped plate 14 through a plurality of first main rib spacing rods 17, and the plurality of main rib spacing rods 17 are radially connected to the main rib positioning wheel 15; the end of the first main rib spacing rod 17 is connected with a first spacing rod rotating wheel 18, and the first spacing rod rotating wheel 16 is connected with the inner end of the first arc-shaped plate 14. The chain mechanism 13 can lift the kingrib pushed by the first kingrib push plate 54 between the two first kingrib spacer bars 17.

The mode of using the first main reinforcement spacing rod 17 and the main reinforcement positioning wheel 15 to weld the reinforcement cage is a welding structure in the prior art, and the specific welding mode can refer to the prior art. The first positioning frame 11 includes a first reinforcing bar positioning base frame 111 and a first reinforcing bar positioning main frame 112, and a plurality of first arc-shaped plates 14 are connected in parallel to each other in the first reinforcing bar positioning main frame 112.

The lower end of the first steel bar positioning underframe 112 is connected with a plurality of first underframe legs 113, the lower ends of the first underframe legs 113 are connected with a second roller assembly 114, a first supporting limit pipe 115 is sleeved outside the first underframe legs 113, and the lower end of the first supporting limit pipe 115 is connected with a first outer radial plate 116. The first support limiting pipe 115 is fixedly connected with the first chassis supporting leg 113 through a first limiting pipe bolt, and a plurality of bolts used for the first limiting pipe bolt to pass through are arranged on the first support limiting pipe 115 and the first chassis supporting leg 113 and penetrate through the positioning holes.

The feeding base 21 comprises a base main support 211 and a base main steel plate 212 connected with the upper end of the base main support 211, the base main support 211 is in a grid shape, and the base main support 211 is welded with the base main steel plate. A plurality of steel plate grooves 213 are formed in the base main steel plate 212, and a plurality of lower end portions of the first left material storage mechanism 3 and a plurality of lower end portions of the first right material feeding mechanism 4 can be uniformly embedded into the steel plate grooves. The first vertical material storage bracket 31 comprises a plurality of first telescopic assemblies which are connected in a positioning manner through two first groove steel plates 311.

The first telescopic assembly comprises a first material storage supporting leg 312 and a first upper extension rod 313, a plurality of first supporting leg slotted holes are formed in the upper end part of the first material storage supporting leg 312, and the lower end part of the first upper extension rod 313 is connected in the first supporting leg slotted holes in a positioning mode through a sleeve positioning screw 314. The lower end of the first material storage leg 312 is connected with a first footing block 315, and the first footing block 315 is fixedly connected with the feeding base 21 through a bolt.

The second material storage vertical support 32 comprises a plurality of second material storage legs 321, the second material storage legs 321 are connected in a positioning mode through two second groove steel plates 322, and the first lower material storage support frame 34 and the first upper material storage support frame 35 are connected between the first groove steel plates 311 and the second groove steel plates 322.

The second material storage supporting leg 321 is in a shape of a rectangular rod, the lower end of the second material storage supporting leg 321 is connected with a second footing block 323, and the second footing block 323 is fixedly connected with the feeding base 21 through bolts. The height of the second storage leg 321 is the same as the height of the first storage leg 312, and the height of the first telescopic assembly is greater than the height of the second storage leg 321.

The first vertical feeding bracket 41 comprises a plurality of first feeding legs 411, and the first feeding legs 411 are connected in a positioning manner through two third slotted steel plates 412. The first feeding leg 411 is in a rectangular rod shape, the lower end of the first feeding leg 411 is connected with a third foot block 413, and the third foot block 413 is fixedly connected with the feeding base 21 through a bolt; the height of the first vertical feeding support 41 is the same as that of the second vertical storage support 32.

The second vertical feeding support 42 comprises a plurality of second feeding legs 421, and the second feeding legs 421 are connected by two fourth slotted steel plates 422 in a positioning manner. The lower end of the second feeding leg 421 is connected with a fourth foot block, and the fourth foot block is fixedly connected with the feeding base 21 through a bolt; the height of the second feeding leg 421 is smaller than the height of the first feeding leg 411. The main rib limiting mechanisms 6 are provided with a plurality of groups, and each second feeding supporting leg 421 is connected with one group of main rib limiting mechanisms 6.

The main rib limiting mechanism 6 comprises a main rib limiting rod 61 and a main rib positioning pin 62, the main rib limiting rod 61 can be adaptive to and clamped in a second feeding supporting leg 421 of a channel steel plate shape, and the lower end part of the main rib limiting rod 61 is connected with the second feeding supporting leg 421 through a first rotating shaft assembly.

The first limiting rod through hole for the main rib positioning pin 62 to pass through is formed in the middle of the main rib limiting rod 61, and after the main rib limiting rod 61 rotates into the second feeding supporting leg 421, the main rib positioning pin 62 passes through the main rib limiting rod 61 and the second feeding supporting leg 421. The first inclined slide plate 45 has a triangular plate shape, and the upper end surface of the first inclined slide plate 45 is connected to the lower end surface of the second inclined slide block 332.

The second inclined slide block 332 is in a wedge-shaped block shape, the first top support beam 331 is in a rectangular rod shape, and a plurality of anti-slip grooves 333 are formed in the upper end of the first top support beam 331; the traction frame 23 is in a U-shaped frame shape, and a traction hole is formed in the end part of the traction frame 23. The lower end of the first lifting cylinder 51 is connected with a first cylinder seat 511 which is fixedly connected with the first lower feeding support frame 43; the first support plate 52 is in a rectangular plate shape, and the second pushing cylinder 53 is longitudinally connected above the first support plate 52; the first main rib pushing plate 54 is in a square plate shape, and a cylinder shaft of the second pushing cylinder 53 is connected with the lower portion of the first main rib pushing plate 54.

The feeding base 21 below the first right feeding mechanism 4 is connected with a power control mechanism, the power control mechanism comprises an air pump air compressor and an air cylinder controller 7, the air pump air compressor is connected to the upper end of the feeding base 21, and the air cylinder controller 7 is connected to the side end of the feeding base 21.

Example 2

In the above-mentioned removal pay-off formula steel reinforcement cage welding equipment, set up neotype steel reinforcement cage positioner 1 and material feeding unit 2. The supporting structure of the lower end of the steel reinforcement cage positioning device 1 is a connecting structure of a first chassis leg 113, a second roller assembly 114 and a first supporting limit pipe 115. When the reinforcement cage is processed, the first underframe supporting leg 113 is fixedly connected with the first supporting limiting pipe 115, the first supporting limiting pipe 115 is a supporting point, the first supporting limiting pipe 115 is in direct contact with the ground, the second roller assembly 114 is suspended, and the stability at the moment is high.

When the whole reinforcement cage positioning device 1 needs to be moved, a jack is used for jacking a main frame of the reinforcement cage positioning device, the lower support limiting pipe 115 is disassembled and moves upwards, so that the second roller assembly 114 is a supporting point, and the second roller assembly 114 is in direct contact with the ground, so that the reinforcement cage positioning device 1 can be moved. Different from the fixed reinforcement cage positioning device in the prior art, the reinforcement cage positioning device 1 is more convenient to move.

According to the invention, the brand-new feeding device 2 is arranged, the first left material storage mechanism 3 and the first right material storage mechanism 4 are detachably connected with the feeding base 21, compared with the prior art that the movement is inconvenient and steel materials are not easy to recycle, the feeding device 2 is convenient to move, the installation convenience is improved, damaged parts can be replaced in a targeted manner after use, and the welding is avoided. In addition, the feeding device 2 is divided into a material storage area and a material feeding area, so that the integral material storage amount is increased, the material feeding and the material storage are refined, the safety during operation is improved, the excessive stacking of main ribs is avoided, and the convenience of splitting is improved.

The invention is also provided with a main rib pushing mechanism 5 for helping workers to push the main ribs in an assisting manner, and a main rib limiting mechanism 6 for conveniently conveying the main ribs. When transporting more main muscle, main muscle stop gear 6 is in the state of erectting, and when processing the steel reinforcement cage, main muscle stop gear 6 is in the state that falls. When the main ribs are too much and cannot be pushed well, the main rib pushing mechanism 5 pushes the materials. When single reinforcing bar overlength leads to main muscle weight overweight, and make the manual work when not promoting well, also can use main muscle pushing mechanism 5 to promote main muscle, main muscle pushing mechanism 5 with main muscle propelling movement to chain mechanism 13 on the back, chain mechanism 13 conveys the steel reinforcement cage processing region with main muscle. Among the above-mentioned removal pay-off formula steel reinforcement cage welding equipment, holistic structure is simpler novel, and it is more convenient to remove the pay-off, can select to use pushing mechanism during artifical material loading, uses more laborsavingly.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Parts which are not described in the invention can be realized by adopting or referring to the prior art.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art may make modifications, alterations, additions or substitutions within the spirit and scope of the present invention.

Claims (10)

1. A movable feeding type reinforcement cage welding device is characterized by comprising a reinforcement cage positioning device and a feeding device, wherein the feeding device comprises a feeding base, the lower end of the feeding base is connected with a plurality of first roller assemblies, and the front end of the feeding base is connected with a traction frame;

the feeding base is provided with a first left material storing mechanism, a first right feeding mechanism and a main rib pushing mechanism, the first left material storing mechanism comprises a first material storing vertical support, a second material storing vertical support and a first transition support, and a first lower material storing support frame and a first upper material storing support frame are connected between the first material storing vertical support and the second material storing vertical support;

the first right feeding mechanism comprises a first feeding vertical support and a second feeding vertical support, the outer side end of the second feeding vertical support is connected with a main rib limiting mechanism, and a first lower feeding support frame and a first upper feeding support frame are connected between the first feeding vertical support and the second feeding vertical support;

a plurality of first inclined sliding plates are arranged at the upper end of the first upper feeding support frame; the first transition support comprises a first top supporting beam connected to the upper end of the first upper material storage support frame and a second inclined sliding block connected to the upper ends of the first upper material storage support frame and the first upper material feeding support frame;

the two groups of main rib pushing mechanisms are connected to the front end and the rear end of the first right feeding mechanism, each main rib pushing mechanism comprises two first lifting cylinders, the upper ends of the first lifting cylinders are connected with second horizontal pushing cylinders through first supporting plates, and cylinder shafts of the second horizontal pushing cylinders are connected with first main rib pushing plates.

2. The mobile feeding type reinforcement cage welding equipment as claimed in claim 1, wherein the reinforcement cage positioning device comprises a first positioning frame, a main reinforcement feeding frame is arranged at a side end of the first positioning frame, and a plurality of groups of feeding chain mechanisms are arranged on the main reinforcement feeding frame;

a plurality of first arc-shaped plates are arranged in the first positioning frame, each first arc-shaped plate is provided with a main rib positioning wheel, and the plurality of first main rib positioning wheels are positioned and connected through a first wheel body positioning rotary drum;

the main rib positioning wheel is connected with the first arc-shaped plate through a plurality of first main rib spacing rods, and the plurality of main rib spacing rods are radially connected to the main rib positioning wheel; the end part of the first main rib spacing rod is connected with a first spacing rod rotating wheel, and the first spacing rod rotating wheel is connected with the inner end of the first arc-shaped plate.

3. The mobile feeding type reinforcement cage welding equipment of claim 2, wherein the first positioning frame comprises a first reinforcement positioning underframe and a first reinforcement positioning main frame, and a plurality of first arc-shaped plates are connected in the first reinforcement main frame in parallel;

the lower end of the first steel bar positioning chassis is connected with a plurality of first chassis supporting legs, the lower ends of the first chassis supporting legs are connected with a second roller assembly, a first supporting limiting pipe is sleeved outside the first chassis supporting legs, and the lower end of the first supporting limiting pipe is connected with a first outer radial plate.

4. The mobile feeding type reinforcement cage welding equipment as claimed in claim 1, wherein the feeding base comprises a base main support and a base main steel plate connected with the upper end of the base main support, the base main support is in a grid shape, and the base main support is welded with the base main steel plate;

a plurality of steel plate grooves are formed in the main steel plate of the base, and a plurality of lower end portions of the first left material storing mechanism and a plurality of lower end portions of the first right feeding mechanism can be uniformly distributed and embedded into the steel plate grooves.

5. The mobile feeding type reinforcement cage welding equipment of claim 1, wherein the first material storage vertical support comprises a plurality of first telescopic assemblies, and the first telescopic assemblies are connected in a positioning mode through two first channel steel plates;

the first telescopic assembly comprises a first material storage supporting leg and a first upper extension rod, a first supporting leg slotted hole is formed in the upper end part of the first material storage supporting leg, and the lower end part of the first upper extension rod is positioned and connected in the first supporting leg slotted hole through a sleeve positioning screw rod; the lower end of the first material storage supporting leg is connected with a first foundation block, and the first foundation block is fixedly connected with the feeding base through a bolt.

6. The mobile feeding type reinforcement cage welding equipment of claim 5, wherein the second material storage vertical support comprises a plurality of second material storage legs, the second material storage legs are connected in a positioning mode through two second channel steel plates, and the first lower material storage support and the first upper material storage support are connected between the first channel steel plate and the second channel steel plate;

the second material storage supporting leg is in a rectangular rod shape, and a second footing block is connected to the lower end of the second material storage supporting leg and is fixedly connected with the feeding base through a bolt;

the height value of the second material storage supporting leg is the same as that of the first material storage supporting leg, and the height value of the first telescopic assembly is larger than that of the second material storage supporting leg.

7. The mobile feeding type reinforcement cage welding equipment as recited in claim 1, wherein the first feeding vertical support comprises a plurality of first feeding legs, and the first feeding legs are connected in a positioning manner through two third groove steel plates;

the first feeding supporting leg is in a rectangular rod shape, the lower end of the first feeding supporting leg is connected with a third foundation block, and the third foundation block is fixedly connected with the feeding base through a bolt; the height value of the first feeding vertical support is the same as that of the second material storage vertical support;

the second feeding vertical support comprises a plurality of second feeding supporting legs, and the second feeding supporting legs are positioned and connected through two fourth channel steel plates; the lower end of the second feeding supporting leg is connected with a fourth foundation block, and the fourth foundation block is fixedly connected with the feeding base through a bolt; the height value of the second feeding supporting leg is smaller than that of the first feeding supporting leg.

8. The mobile feeding type reinforcement cage welding equipment as recited in claim 7, wherein there are multiple sets of main reinforcement limiting mechanisms, and each second feeding leg is connected with one set of main reinforcement limiting mechanisms;

the main rib limiting mechanism comprises a main rib limiting rod and a main rib positioning pin, the main rib limiting rod can be adaptive to and clamped in a second feeding supporting leg in a channel steel plate shape, and the lower end part of the main rib limiting rod is connected with the second feeding supporting leg through a first rotating shaft assembly;

a first limiting rod through hole for the main rib positioning pin to pass through is formed in the middle of the main rib limiting rod, and after the main rib limiting rod rotates into the second feeding supporting leg, the main rib positioning pin passes through the main rib limiting rod and the second feeding supporting leg.

9. The mobile feeding type reinforcement cage welding equipment as recited in claim 1, wherein the first inclined slide plate is in a triangular plate shape, and an upper end surface of the first inclined slide plate is connected with a lower end surface of the second inclined slide block;

the second inclined sliding block is in a wedge-shaped block shape, the first jacking beam is in a rectangular rod shape, and a plurality of anti-skidding grooves are formed in the upper end of the first jacking beam; the traction frame is in a U-shaped frame shape, and a traction hole is formed in the end part of the traction frame.

10. The mobile feeding type reinforcement cage welding equipment as recited in claim 1, wherein a first cylinder seat is connected to a lower end of the first lifting cylinder, and the first cylinder seat is fixedly connected with the first lower feeding support frame; the first support plate is in a rectangular plate shape, and the second pushing cylinder is longitudinally connected above the first support plate; the first main rib push plate is in a square plate shape, and a cylinder shaft of the second horizontal pushing cylinder is connected with the lower part of the first main rib push plate;

the feeding base below the first right feeding mechanism is connected with a power control mechanism, the power control mechanism comprises an air pump air compressor and an air cylinder controller, the air pump air compressor is connected to the upper end of the feeding base, and the air cylinder controller is connected to the side end of the feeding base.

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