CN110695506A - Static rolling cage of reinforcement cage seam welder with inner hoop ring feeding mechanism - Google Patents

Abstract

The invention belongs to the technical field of the design of a static rolling cage of a reinforcement cage seam welder, and particularly relates to a static rolling cage of a reinforcement cage seam welder with an inner hoop loading mechanism. The static rolling cage of the reinforcement cage seam welder with the inner hoop feeding mechanism can automatically separate the inner hoops sleeved on the sliding table one by one, so that the labor intensity of workers is greatly reduced.

Description

Static rolling cage of reinforcement cage seam welder with inner hoop ring feeding mechanism

Technical Field

The invention relates to a static rolling cage of a reinforcement cage seam welder with an inner hoop ring feeding mechanism, and belongs to the technical field of design of the static rolling cage of the reinforcement cage seam welder.

Background

In the construction process of a bridge or a high-rise building, a steel reinforcement cage is often used, the steel reinforcement cage is formed by welding a main reinforcement and a stirrup, the main reinforcements are spaced and parallel to form an annular column, and the stirrup is wound and welded on the main reinforcement of the annular column according to a set screw pitch. Sometimes, in order to increase the strength of the reinforcement cage, a plurality of inner hoops need to be welded on the inner side of the reinforcement cage, and the current method is as follows: the inner hoop rings are manually placed into the reinforcement cage one by one, then two workers stand on two sides of the reinforcement cage to hold the inner hoop rings by hands, and then welding is carried out, so that the operation is very troublesome, and the labor intensity of the workers is high.

Disclosure of Invention

According to the defects in the prior art, the technical problems to be solved by the invention are as follows: the static rolling cage of the reinforcement cage seam welder with the inner hoop ring feeding mechanism can reduce the labor intensity of workers.

The invention relates to a stationary rolling cage of a reinforcement cage seam welder with an inner hoop ring feeding mechanism, which comprises a frame body and a rotating disk, wherein a discharging cylinder seat is fixed at the center of the rotating disk, a discharging cylinder is connected on the discharging cylinder seat, the end part of a piston rod of the discharging cylinder is connected with a three-fork connecting piece, the side wall of the three-fork connecting piece is hinged with at least three connecting rods, an inner hoop ring feeding mechanism is connected between the other end of each connecting rod and the rotating disk, the inner hoop ring feeding mechanism also comprises a fixed seat, the front end of the fixed seat is hinged with the connecting rod, the rear end of the fixed seat is hinged on the rotating disk, a top plate is fixed on the fixed seat, a sliding table is arranged on the top plate, a material distributing mechanism is fixed at the front end of the sliding table, a material pushing plate is connected on the side wall of the sliding table in, and a pushing cylinder is fixed on the first cylinder seat, and the end part of a piston rod of the pushing cylinder is fixedly connected with the material pushing plate through a second connecting plate.

Foretell feed mechanism is including fixing the box at the slip table front end, the inboard bottom sliding connection of box has the rack, it has the drive gear with rack looks meshing to articulate on the box, it has the branch material gear with drive gear looks meshing to still articulate on the box, divide the material gear to stretch out the box, and be equipped with the draw-in groove, be fixed with the branch material cylinder on the lateral wall of box, the piston rod that divides the material cylinder stretches into the box and is fixed with the connecting block, connecting block and rack fixed connection, divide the material cylinder action, divide the piston rod of material cylinder to stretch out, through the rack, drive gear drives branch material gear anticlockwise rotation, thereby the interior hoop that pushes away the scraping wings through the.

The bottom of the inner side of the box body is fixedly provided with a second linear sliding rail, the second linear sliding rail is connected with a second sliding block in a sliding mode, the rack and the connecting block are fixed on the second sliding block, the linear sliding rail and the sliding block are matched to slide, and the working stability is better.

Foretell slip table slides through the cooperation of first linear slide rail with first slider and sets up on the roof, be fixed with the second cylinder block on the lateral wall of fixing base, be fixed with the fine setting cylinder on the second cylinder block, the tailpiece of the piston rod portion of fine setting cylinder passes through second connecting plate and slip table fixed connection, when unexpected material distributing gear that appears feed mechanism can't dial the condition of the inner hoop of outermost end, the fine setting cylinder action, the piston rod of fine setting cylinder stretches out, can drive the slip table through the second connecting plate and move inwards, because inner hoop dead weight, can take place relative slip between inner hoop and the slip table, thereby can make feed mechanism's material distributing gear move inwards for inner hoop under the drive of slip table, thereby dial the inner hoop of outermost end.

The material pushing plate is connected with the sliding table in a sliding mode through the matching of the third linear sliding rail and the third sliding block, the sliding plate slides through the matching of the sliding rail and the sliding block, and the working stability is better.

The number of the connecting rods is three, the corresponding inner hoop loading mechanisms are also three, the three inner hoop loading mechanisms are circumferentially distributed at equal intervals by taking the discharging air cylinders as axes, the layout is reasonable, and the working stability is good.

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

the static rolling cage of the reinforcement cage seam welder with the inner hoop feeding mechanism can automatically separate the inner hoops sleeved on the sliding table one by one, so that the labor intensity of workers is greatly reduced.

Drawings

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

FIG. 2 is a schematic diagram of a portion of the structure of the present invention;

FIG. 3 is a left side view of FIG. 2;

FIG. 4 is a schematic front side view of the inner ferrule feeding mechanism of the present invention;

FIG. 5 is a rear side view of the inner ferrule feeding mechanism of the present invention;

FIG. 6 is a front view of FIG. 4;

FIG. 7 is a top view of FIG. 4;

FIG. 8 is a left side view of FIG. 4;

FIG. 9 is a schematic structural view of the feed mechanism of the present invention;

fig. 10 is a longitudinal sectional view of fig. 9.

In the figure: 1. a material distributing cylinder; 2. a box body; 3. a material distributing gear; 4. a card slot; 5. a second linear slide rail; 6. connecting blocks; 7. a second slider; 8. a rack; 9. a transmission gear; 10. a fixed seat; 11. a top plate; 12. a material pushing cylinder; 13. a first slider; 14. a first linear slide rail; 15. a sliding table; 16. a material pushing plate; 17. a material pushing section; 18. a third slider; 19. a first cylinder block; 20. a first connecting plate; 21. a second connecting plate; 22. fine adjustment of the cylinder; 23. a second connecting plate; 24. a second cylinder block; 25. a third linear slide rail; 26. a frame body; 27. rotating the disc; 28. a discharging cylinder seat; 29. a discharging cylinder; 30. a three-fork connecting piece; 31. a connecting rod; 32. an inner hoop ring; 33. inner hoop circle feeding mechanism.

Detailed Description

Embodiments of the invention are further described below with reference to the accompanying drawings:

as shown in fig. 1 to 10, the stationary roll cage of a reinforcement cage roll welding machine with an inner hoop loading mechanism of the invention comprises a frame body 26 and a rotating disc 27, a loading cylinder seat 28 is fixed at the center of the rotating disc 27, a loading cylinder 29 is connected on the loading cylinder seat 28, a three-fork connecting piece 30 is connected at the end of a piston rod of the loading cylinder 29, the three-fork connecting piece 30 is hinged on the side wall of the three-fork connecting piece 30, at least three connecting rods 31 are hinged on the side wall of the three-fork connecting piece 30, an inner hoop loading mechanism 33 is connected between the other end of each connecting rod 31 and the rotating disc 27, the inner hoop loading mechanism 33 comprises a fixed seat 10, the front end of the fixed seat 10 is hinged with the connecting rod 31, the rear end of the fixed seat 10 is hinged on the rotating disc 27, a top plate 11 is fixed on the fixed seat 10, a sliding table 15 is arranged on the top plate 11, a, a first connecting plate 20 is further fixed on the sliding table 15, a first cylinder seat 19 is fixed on the first connecting plate 20, a material pushing cylinder 12 is fixed on the first cylinder seat 19, and the end of a piston rod of the material pushing cylinder 12 is fixedly connected with the material pushing plate 16 through a second connecting plate 21.

In a preferred embodiment:

foretell feed mechanism is including fixing the box 2 at slip table 15 front end, the inboard bottom sliding connection of box 2 has rack 8, it has drive gear 9 with rack 8 meshing to articulate on the box 2, it has branch gear 3 with drive gear 9 meshing to still articulate on the box 2, branch gear 3 stretches out box 2, and be equipped with draw-in groove 4, be fixed with on the lateral wall of box 2 and divide material cylinder 1, the piston rod that divides material cylinder 1 stretches into box 2 and is fixed with connecting block 6, connecting block 6 and rack 8 fixed connection, divide material cylinder 1 action, the piston rod that divides material cylinder 1 stretches out, through rack 8, drive gear 9 drives branch gear 3 anticlockwise rotation, thereby divide the inner hoop 32 that the scraping wings 16 pushed over through draw-in groove 4.

The bottom of the inner side of the box body 2 is fixedly provided with a second linear sliding rail 5, the second linear sliding rail 5 is connected with a second sliding block 7 in a sliding mode, the rack 8 and the connecting block 6 are fixed on the second sliding block 7, the linear sliding rail and the sliding block are matched to slide, and the working stability is better.

The sliding table 15 is arranged on the top plate 11 in a sliding manner through the matching of the first linear slide rail 14 and the first slide block 13, a second cylinder seat 24 is fixed on the side wall of the fixing seat 10, a fine adjustment cylinder 22 is fixed on the second cylinder seat 24, the end portion of a piston rod of the fine adjustment cylinder 22 is fixedly connected with the sliding table 15 through a second connecting plate 23, when the situation that the material distribution gear 3 of the material distribution mechanism cannot be shifted to the inner hoop 32 at the outermost end accidentally occurs, the fine adjustment cylinder 22 acts, the piston rod of the fine adjustment cylinder 22 extends out, and the sliding table 15 can be driven to move inwards through the second connecting plate 23, due to the self weight of the inner hoop 32, relative sliding can occur between the inner hoop 32 and the sliding table 15, so that the material distribution gear 3 of the material distribution mechanism can move inwards relative to the inner hoop 32 under the driving of the sliding table 15, and the inner hoop.

The material pushing plate 16 is connected with the sliding table 15 in a sliding manner through the matching of the third linear slide rail 25 and the third slide block 18, and the sliding is performed through the matching of the slide rail and the slide block, so that the working stability is better.

The number of the connecting rods 31 is three, the corresponding inner hoop loading mechanisms 33 are also three, the three inner hoop loading mechanisms 33 are circumferentially distributed at equal intervals by taking the discharging cylinder 29 as an axis, the layout is reasonable, and the working stability is good.

When the feeding mechanism is used, the feeding cylinder 29 acts, the piston rod of the feeding cylinder 29 retracts, the outer ends of the three inner hoop loading mechanisms 33 are driven to contract inwards through the connecting rod 31, the three sliding tables 15 form a conical surface, then the inner hoops 32 are manually and regularly sleeved on the sliding tables 15, the piston rod of the feeding cylinder 29 extends again, the sliding tables 15 of the three inner hoop loading mechanisms 33 are driven to be horizontal through the connecting rod 31, the material pushing cylinder 12 acts during feeding, the piston rod of the material pushing cylinder 12 extends out, the material pushing plate 11 is driven to move forwards through the second connecting plate 21, the inner hoops 32 are pushed outwards through the material pushing portion 17, the inner hoops 32 at the outermost end enter the clamping grooves 4 of the material distributing mechanism, then the piston rod of the material distributing cylinder 1 extends out, the material distributing gear 3 is driven to rotate anticlockwise through the rack 8 and the transmission gear 9, and the inner hoops 32 at the outermost end are separated through the clamping, then the material distributing cylinder 1 is reset, the piston rod of the material pushing cylinder 12 continues to extend out, the next inner hoop 32 is pushed into the clamping groove 4 again, then the material distributing cylinder 1 acts again to separate the inner hoop 32, and the process is repeated until the inner hoop 32 is completely separated.

The static rolling cage of the reinforcement cage seam welder with the inner hoop feeding mechanism can automatically separate the inner hoops 32 pre-sleeved on the sliding table 15 one by one, thereby greatly reducing the labor intensity of workers.

Claims (6)

1. The utility model provides a steel reinforcement cage seam welder static roll cage with interior hoop ring feeding mechanism, includes support body (26) and rotary disk (27), its characterized in that: a discharging cylinder seat (28) is fixed at the center of the rotating disc (27), a discharging cylinder (29) is connected on the discharging cylinder seat (28), a three-fork connecting piece (30) is connected at the end part of a piston rod of the discharging cylinder (29), the three-fork connecting piece (30) is hinged on the side wall of the three-fork connecting piece (30), at least three connecting rods (31) are hinged on the side wall of each connecting rod (31), an inner hoop loading mechanism (33) is connected between the other end of each connecting rod (31) and the rotating disc (27), the inner hoop loading mechanism (33) also comprises a fixed seat (10), the front end of the fixed seat (10) is hinged with the connecting rods (31), the rear end of the fixed seat (10) is hinged on the rotating disc (27), a top plate (11) is fixed on the fixed seat (10), a sliding table (15) is arranged on the top plate (11), a material distributing mechanism is, the pushing device is characterized in that a pushing part (17) is arranged on the pushing plate (16), a first connecting plate (20) is further fixed on the sliding table (15), a first cylinder seat (19) is fixed on the first connecting plate (20), a pushing cylinder (12) is fixed on the first cylinder seat (19), and the end part of a piston rod of the pushing cylinder (12) is fixedly connected with the pushing plate (16) through a second connecting plate (21).

2. The static roller cage of a reinforcement cage seam welder with an inner hoop loading mechanism as claimed in claim 1, wherein: feed mechanism including fixing box (2) at slip table (15) front end, the inboard bottom sliding connection of box (2) has rack (8), it has drive gear (9) with rack (8) looks meshing to articulate on box (2), it has branch material gear (3) with drive gear (9) looks meshing still to articulate on box (2), divide material gear (3) to stretch out box (2), and be equipped with draw-in groove (4), be fixed with on the lateral wall of box (2) and divide material cylinder (1), the piston rod that divides material cylinder (1) stretches into box (2) and is fixed with connecting block (6), connecting block (6) and rack (8) fixed connection.

3. The static roller cage of a reinforcement cage seam welder with an inner hoop loading mechanism as claimed in claim 2, wherein: the inboard bottom of box (2) be fixed with second linear slide rail (5), sliding connection has second slider (7) on second linear slide rail (5), rack (8) and connecting block (6) all fix on second slider (7).

4. The static roller cage of a reinforcement cage seam welder with an inner hoop loading mechanism as claimed in claim 2 or 3, wherein: the sliding table (15) is arranged on the top plate (11) in a sliding mode through the matching of the first linear sliding rail (14) and the first sliding block (13), a second cylinder seat (24) is fixed on the side wall of the fixing seat (10), a fine adjustment cylinder (22) is fixed on the second cylinder seat (24), and the end portion of a piston rod of the fine adjustment cylinder (22) is fixedly connected with the sliding table (15) through a second connecting plate (23).

5. The static roller cage of a reinforcement cage seam welder with an inner hoop loading mechanism as claimed in claim 1, wherein: the material pushing plate (16) is in sliding connection with the sliding table (15) through the matching of a third linear slide rail (25) and a third slide block (18).

6. The static roller cage of a reinforcement cage seam welder with an inner hoop loading mechanism as claimed in claim 1, wherein: the number of the connecting rods (31) is three, the number of the corresponding inner hoop loading mechanisms (33) is also three, and the three inner hoop loading mechanisms (33) are circumferentially distributed at equal intervals by taking the discharging cylinder (29) as an axis.

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