CN115055613A - Cage equipment is wound to numerical control steel reinforcement cage - Google Patents

Abstract

The invention discloses numerical control steel reinforcement cage winding equipment which comprises a base and a straightening device, wherein a moving mechanism is installed on the base, a supporting part is connected to the moving mechanism, and a paying-off mechanism and a support are installed on the supporting part; paying out machine constructs including disk body, tooth, stand, slider, support arm, block and first threaded rod, the spout has been seted up in the disk body, the slider is fixed the stand tip, the slider is in spacing slip in the spout, first threaded rod is in rotate on the disk body, block threaded sleeve is established on the first threaded rod, support arm one end with the block rotates to be connected, the other end with the stand rotates to be connected. Through the design have paying out machine to can make round steel raw and other materials outwards strut, and the disk body still will rotate through the driving piece, conveniently carry the round steel, avoid the steel reinforcement cage to need stronger power to pull the round steel at the in-process that produces.

Description

Numerical control steel reinforcement cage winds cage equipment

Technical Field

The invention relates to the technical field of steel bar processing equipment, in particular to numerical control steel bar cage winding equipment.

Background

The reinforcement cage is the steel bar structure of prefabricated such as drilling bored concrete pile, bored pile, stand, and the reinforcement cage mainly plays the effect with the vertical reinforcing bar's of post atress is the same reason, mainly plays tensile effect, and the compressive strength of concrete is high but tensile strength is very low.

The pile body concrete is restrained, so that the pile body concrete can bear a certain horizontal force, when a bridge or a high-rise building is constructed, a reinforcement cage is indispensable, the reinforcement cage is a cage-shaped reinforcement framework formed by using reinforcements with corresponding diameters and bound together according to certain appearance requirements.

The steel-concrete structure, pouring and reinforced concrete pile commonly used in modern buildings is characterized in that a reinforcement cage is used as a framework, concrete with corresponding labels is used for filling or pouring according to a specified process, and after a certain period of maintenance, the designed bearing pressure can be achieved so as to ensure the construction requirements of upper projects and the future use requirements.

When current steel reinforcement cage uses mechanical equipment to bind or ligature, its winding raw and other materials round steel is simply stacked on the disk body, scatters easily, can lead to the round steel to produce stronger pulling force when carrying, leads to the steel reinforcement cage comparatively difficult in the winding.

Disclosure of Invention

The invention aims to solve the problems of the background technology and provides a numerical control steel bar cage winding device.

The purpose of the invention can be realized by the following technical scheme:

a numerical control steel reinforcement cage winding device comprises a base and a straightening device, wherein a moving mechanism is installed on the base, a supporting part is connected to the moving mechanism, and a paying-off mechanism and a support are installed on the supporting part;

the pay-off mechanism comprises a disc body, teeth, an upright post, a sliding block, a support arm, a block body and a first threaded rod, wherein a sliding groove is formed in the disc body, the sliding block is fixed at the end part of the upright post, the sliding block slides in the sliding groove in a limiting manner, the first threaded rod rotates on the disc body, the block body is sleeved on the first threaded rod in a threaded manner, one end of the support arm is rotatably connected with the block body, and the other end of the support arm is rotatably connected with the upright post;

the straightening device is fixed on the bracket;

the moving mechanism comprises a second threaded rod and a third driving part, and the output end of the third driving part is connected with the second threaded rod.

As a further scheme of the invention: the supporting part comprises a support, a fixing frame and a moving wheel, the fixing frame is fixed at the bottom of the support, and the moving wheel rotates on the support.

As a further scheme of the invention: the support is including first support body, second support body, first drive division, third support body and second drive division, the second support body passes through first pivot first support body rotates to be connected, the output of first drive division with first pivot is connected, the second support body passes through the second pivot with the third support body rotates to be connected, the output and the second pivot of second drive division are connected.

As a further scheme of the invention: the disk body outer wall is formed with the tooth, be fixed with the driving piece on the supporting part, the driving piece is including motor and gear, the output and the gear connection of motor, the gear with the tooth meshing.

As a further scheme of the invention: still rotatory interlude has the rotary rod on the base, the rotary rod with the cover is equipped with the drive belt between the second threaded rod, still install third drive division on the base, the output of third drive division with the second threaded rod is connected.

The invention has the beneficial effects that:

through the design have paying out machine to can make round steel raw and other materials outwards strut, and the disk body still will rotate through the driving piece, conveniently carry the round steel, avoid the steel reinforcement cage to need stronger power to pull the round steel at the in-process that produces.

Drawings

The invention will be further described with reference to the accompanying drawings.

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

FIG. 2 is a schematic structural view of a pay-off mechanism and a bracket in the invention;

FIG. 3 is a schematic view of the structure of the support part of the present invention;

FIG. 4 is a schematic cross-sectional view of the pay-off mechanism, support portion and bracket of the present invention.

In the figure: 1. a base; 2. a pay-off mechanism; 21. a tray body; 22. a chute; 23. teeth; 24. a column; 25. a slider; 26. a support arm; 27. a block body; 28. a first threaded rod; 3. a moving mechanism; 4. a support portion; 41. a support; 42. a fixed mount; 43. a moving wheel; 5. a support; 51. a first frame body; 52. a second frame body; 53. a first driving section; 54. a third frame body; 55. a second driving section; 6. a drive member; 7. a straightening device; 8. rotating the rod; 9. a reinforcement cage; 10. a third driving section; 11. a transmission belt.

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. 1-4, the present invention is a numerical control steel reinforcement cage winding device, which comprises a base 1 and a straightening device 7;

the straightening device 7 is used for straightening the bent reinforcing steel bars;

a moving mechanism 3 is arranged on the base 1, and a supporting part 4 is connected to the moving mechanism 3;

the moving mechanism 3 is used for driving the supporting part 4 to move on the base 1 in parallel;

the supporting part 4 is provided with a pay-off mechanism 2 and a bracket 5;

wherein, paying out machine constructs 2 and is used for placing the round steel.

The pay-off mechanism 2 comprises a disc body 21, teeth 23, an upright post 24, a sliding block 25, a support arm 26, a block body 27 and a first threaded rod 28, wherein a sliding groove 22 is formed in the disc body 21, the sliding block 25 is fixed at the end part of the upright post 24, the sliding block 25 slides in the sliding groove 22 in a limiting manner, the first threaded rod 28 rotates on the disc body 21, the block body 27 is sleeved on the first threaded rod 28 in a threaded manner, one end of the support arm 26 is rotatably connected with the block body 27, and the other end of the support arm is rotatably connected with the upright post 24;

wherein, the number of the upright posts 24 corresponds to that of the support arms 26;

wherein, the first threaded rod 28 is in threaded connection with the block 27, and the top of the first threaded rod 28 is also fixed with a rotary disc;

the straightening device 7 is fixed on the bracket 5;

the moving mechanism 3 comprises a second threaded rod and a third driving part 10, and the output end of the third driving part 10 is connected with the second threaded rod.

The third driving part 10 may be a stepping motor, and the second threaded rod is rotatably connected to the base 1.

In this embodiment, the device comprises a base 1 and a straightening device 7;

the straightening device 7 is used for straightening the bent reinforcing steel bars;

a moving mechanism 3 is arranged on the base 1, and a supporting part 4 is connected to the moving mechanism 3;

the moving mechanism 3 is used for driving the supporting part 4 to move on the base 1 in parallel;

the supporting part 4 is provided with a pay-off mechanism 2 and a bracket 5;

wherein, paying out machine constructs 2 and is used for placing the round steel.

The pay-off mechanism 2 comprises a disc body 21, teeth 23, an upright post 24, a sliding block 25, a support arm 26, a block body 27 and a first threaded rod 28, wherein a sliding groove 22 is formed in the disc body 21, the sliding block 25 is fixed at the end part of the upright post 24, the sliding block 25 slides in the sliding groove 22 in a limiting manner, the first threaded rod 28 rotates on the disc body 21, the block body 27 is sleeved on the first threaded rod 28 in a threaded manner, one end of the support arm 26 is rotatably connected with the block body 27, and the other end of the support arm is rotatably connected with the upright post 24;

wherein, the number of the upright posts 24 corresponds to that of the support arms 26;

wherein, the first threaded rod 28 is in threaded connection with the block 27, and the top of the first threaded rod 28 is also fixed with a rotary disc;

the straightening device 7 is fixed on the bracket 5;

the moving mechanism 3 comprises a second threaded rod and a third driving part 10, and the output end of the third driving part 10 is connected with the second threaded rod.

The third driving part 10 may be a stepping motor, and the second threaded rod is rotatably connected to the base 1.

The support portion 4 includes a support 41, a fixed frame 42 and a movable wheel 43, the fixed frame 42 is fixed at the bottom of the support 41, and the movable wheel 43 rotates on the support 41.

The moving wheel 43 can roll on the base 1, so that the support 41 can move more smoothly;

the second threaded rod is in threaded connection with the fixing frame 42, and when the second threaded rod rotates, the fixing frame 42 moves on the base 1.

In this embodiment, the bracket 5 includes a first bracket body 51, a second bracket body 52, a first driving portion 53, a third bracket body 54, and a second driving portion 55, where the second bracket body 52 is rotatably connected to the first bracket body 51 through a first rotating shaft;

wherein, the first rotating shaft is rotatably connected with the first frame body 51, and the first rotating shaft is fixedly connected with the second frame body 52;

wherein, the second frame body 52 can be replaced by a telescopic rod, so that the height of the straightening device 7 can be adjusted.

Wherein, the first driving part 53 is fixed on the first frame 51;

an output end of the first driving portion 53 is connected to the first rotating shaft.

The second frame body 52 is rotatably connected with the third frame body 54 through the second rotating shaft, and the output end of the second driving part 55 is connected with the second rotating shaft;

the second shaft is fixedly connected to the third frame 54, the third shaft is rotatably connected to the second frame 52, and the second driving portion 55 is fixed to the second frame 52.

The first driving part 53 and the second driving part 55 may be stepping motors.

In this embodiment, the device comprises a base 1 and a straightening device 7;

the straightening device 7 is used for straightening the bent reinforcing steel bars;

a moving mechanism 3 is arranged on the base 1, and a supporting part 4 is connected to the moving mechanism 3;

the moving mechanism 3 is used for driving the supporting part 4 to move on the base 1 in parallel;

the supporting part 4 is provided with a pay-off mechanism 2 and a bracket 5;

wherein, paying out machine constructs 2 and is used for placing the round steel.

The pay-off mechanism 2 comprises a disc body 21, teeth 23, an upright post 24, a sliding block 25, a support arm 26, a block body 27 and a first threaded rod 28, wherein a sliding groove 22 is formed in the disc body 21, the sliding block 25 is fixed at the end part of the upright post 24, the sliding block 25 slides in the sliding groove 22 in a limiting manner, the first threaded rod 28 rotates on the disc body 21, the block body 27 is sleeved on the first threaded rod 28 in a threaded manner, one end of the support arm 26 is rotatably connected with the block body 27, and the other end of the support arm is rotatably connected with the upright post 24;

wherein, the number of the upright posts 24 corresponds to that of the support arms 26;

wherein, the first threaded rod 28 is in threaded connection with the block 27, and the top of the first threaded rod 28 is also fixed with a rotary disc;

the straightening device 7 is fixed on the bracket 5;

the moving mechanism 3 comprises a second threaded rod and a third driving part 10, and the output end of the third driving part 10 is connected with the second threaded rod.

The third driving part 10 may be a stepping motor, and the second threaded rod is rotatably connected to the base 1.

The support portion 4 includes a support 41, a fixed frame 42 and a movable wheel 43, the fixed frame 42 is fixed at the bottom of the support 41, and the movable wheel 43 rotates on the support 41.

Wherein, the moving wheel 43 can roll on the base 1, which can make the support 41 move more smoothly;

the second threaded rod is in threaded connection with the fixing frame 42, and when the second threaded rod rotates, the fixing frame 42 moves on the base 1.

In this embodiment, the bracket 5 includes a first bracket body 51, a second bracket body 52, a first driving portion 53, a third bracket body 54 and a second driving portion 55, and the second bracket body 52 is rotatably connected to the first bracket body 51 through a first rotating shaft;

wherein, the first rotating shaft is rotatably connected with the first frame body 51, and the first rotating shaft is fixedly connected with the second frame body 52;

wherein, the second frame body 52 can be replaced by a telescopic rod, so that the height of the straightening device 7 can be adjusted.

Wherein, the first driving part 53 is fixed on the first frame 51;

an output end of the first driving portion 53 is connected to the first rotating shaft.

The second frame body 52 is rotatably connected with the third frame body 54 through the second rotating shaft, and the output end of the second driving part 55 is connected with the second rotating shaft;

the second shaft is fixedly connected to the third frame 54, the third shaft is rotatably connected to the second frame 52, and the second driving portion 55 is fixed to the second frame 52.

The first driving part 53 and the second driving part 55 may be stepping motors.

Teeth 23 are formed on the outer wall of the disc body 21, a driving piece 6 is fixed on the supporting portion 4, the driving piece 6 comprises a motor and a gear, the output end of the motor is connected with the gear, and the gear is meshed with the teeth 23.

In this embodiment, a rotating rod 8 is further inserted on the base 1 in a rotating manner, a driving belt 11 is sleeved between the rotating rod 8 and the second threaded rod, a third driving portion 10 is further installed on the base 1, and an output end of the third driving portion 10 is connected with the second threaded rod.

Wherein the third driving part 10 may be a stepping motor.

Wherein, the reinforcement cage 9 is placed on the rotating rod 8.

The base 1 is also fixed with a controller.

Wherein the disc 21 is rotatably connected with the support 41.

The specific operation process is as follows:

when the third driving portion 10 is powered on to operate, the second threaded rod will drive the paying-off mechanism 2 to move in parallel on the base 1 through rotation, and also can drive the rotary rod 8 to rotate through the driving belt 11, so that the reinforcement cage 9 placed on the rotary rod 8 is overturned along with the rotary rod 8, and the round steel is convenient to wind the reinforcement cage 9.

When the driving part 6 is powered on to rotate, the gear drives the disc body 21 to rotate on the support 41 through the teeth 23, so that the round steel is convenient to convey.

Can place the round steel on disk body 21, stand 24 is inboard at the round steel, only needs rotatory first threaded rod 28 afterwards for block 27 moves down perpendicularly, and support arm 26 atress outwards pushes up stand 24, and slider 25 slides in spout 22, and final stand 24 will strut the round steel, makes things convenient for the round steel to carry.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (5)

1. A numerical control reinforcement cage winding device comprises a base (1) and a straightening device (7), and is characterized in that a moving mechanism (3) is mounted on the base (1), a supporting part (4) is connected to the moving mechanism (3), and a paying-off mechanism (2) and a support (5) are mounted on the supporting part (4);

the paying-off mechanism (2) comprises a disc body (21), teeth (23), an upright post (24), a sliding block (25), a support arm (26), a block body (27) and a first threaded rod (28), a sliding groove (22) is formed in the disc body (21), the sliding block (25) is fixed at the end part of the upright post (24), the sliding block (25) slides in the sliding groove (22) in a limiting manner, the first threaded rod (28) rotates on the disc body (21), the block body (27) is sleeved on the first threaded rod (28) in a threaded manner, one end of the support arm (26) is rotatably connected with the block body (27), and the other end of the support arm is rotatably connected with the upright post (24);

the straightening device (7) is fixed on the bracket (5);

the moving mechanism (3) comprises a second threaded rod and a third driving part (10), and the output end of the third driving part (10) is connected with the second threaded rod.

2. A numerically controlled steel reinforcement cage winding device according to claim 1, characterized in that the supporting part (4) comprises a support (41), a fixed frame (42) and a moving wheel (43), the fixed frame (42) is fixed at the bottom of the support (41), and the moving wheel (43) rotates on the support (41).

3. A cage winding device for a numerical control steel reinforcement cage according to claim 1 or 2, wherein the bracket (5) comprises a first bracket body (51), a second bracket body (52), a first driving portion (53), a third bracket body (54) and a second driving portion (55), the second bracket body (52) is rotatably connected with the first bracket body (51) through a first rotating shaft, the output end of the first driving portion (53) is connected with the first rotating shaft, the second bracket body (52) is rotatably connected with the third bracket body (54) through a second rotating shaft, and the output end of the second driving portion (55) is connected with the second rotating shaft.

4. A numerically controlled steel reinforcement cage winding device according to claim 1, wherein teeth (23) are formed on the outer wall of the disc body (21), a driving member (6) is fixed on the supporting portion (4), the driving member (6) comprises a motor and a gear, the output end of the motor is connected with the gear, and the gear is meshed with the teeth (23).

5. A numerical control steel reinforcement cage winding device according to claim 1, characterized in that a rotating rod (8) is further rotatably inserted into the base (1), a driving belt (11) is sleeved between the rotating rod (8) and the second threaded rod, a third driving portion (10) is further installed on the base (1), and an output end of the third driving portion (10) is connected with the second threaded rod.

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