CN211464664U - Reinforcing steel bar winding equipment - Google Patents

Abstract

The utility model relates to a reinforcing bar is around rolling up equipment, including material feeding unit and slewer, material feeding unit includes bracket, motor one, gyration dish and pay-off runner, and the bracket slides and sets up subaerial, and a vertical setting of motor is in the bracket, and the gyration dish level is fixed on motor one, and the pay-off runner rotates to be connected on the bracket, slewer slides and sets up subaerial, and slewer includes two motors and circular chuck, and two levels of motor set up, and two levels of two motors set up in opposite directions coaxially, and two below motors are provided with the motor layer board, and motor layer board both sides are provided with the backup pad, and circular chuck sets up on motor two. The utility model discloses a set up material feeding unit and slewer, make the steel reinforcement cage can revolve, material feeding unit removes along the steel reinforcement cage, and it has equipment size shorter, the effect of convenient installation at the factory building.

Description

Reinforcing steel bar winding equipment

Technical Field

The utility model belongs to the technical field of the technique of a wire pole and specifically relates to a reinforcing bar is around rolling up equipment is related to.

Background

The telegraph pole is widely applied to modern city construction. In order to improve the strength of the telegraph pole, a concrete pouring process is widely used in the telegraph pole manufacturing field, a plurality of steel pipes are welded into a steel reinforcement cage, steel reinforcements are wound outside the steel reinforcement cage, then the steel reinforcement cage is subjected to concrete pouring, and the safety and the strength of the telegraph pole are improved.

The patent document with the application publication number of CN110000311A discloses a steel reinforcement cage manufacturing device and a method, wherein the steel reinforcement cage manufacturing device comprises a feeding device and a winding device, the winding device comprises a driver, two rollers and a pressing roller, and the driver is in transmission connection with the rollers and is used for driving the two rollers to rotate; and friction belts are arranged on the peripheral surfaces of the rollers, so that the friction belts drive the reinforcement cage to rotate and drive the reinforcement cage to translate along the axial direction.

However, in the above structure, since the reinforcement cage rotates on the rollers and moves in the axial direction to wind the reinforcement, the length of the reinforcement cage is at most one-half of the length of the rollers, and the length of the apparatus is too large.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a reinforcing bar is around rolling up equipment, it has that the equipment size is shorter, the effect at the factory building of convenient installation.

The above object of the present invention is achieved by the following technical solutions:

the utility model provides a reinforcing bar is around rolling up equipment, includes material feeding unit and slewer, material feeding unit includes bracket, motor one, gyration dish and pay-off runner, and the bracket slides and sets up subaerial, and the vertical setting of motor is in the bracket, and the gyration dish level is fixed on motor one, and the pay-off runner rotates to be connected on the bracket, slewer slides and sets up subaerial, and slewer includes two motors and circular chuck, and two levels of motor set up, and two levels of two motors set up in opposite directions coaxially, and two below motors are provided with the motor layer board, and motor layer board both sides are provided with the backup pad, and circular chuck sets up on motor two.

Through adopting above-mentioned technical scheme, set up the gyration dish on motor one, make the reinforcing bar can set up on the gyration dish, drive the gyration dish through the motor and rotate, and then make the reinforcing bar rotate, emit the reinforcing bar at the uniform velocity through ejection of compact runner, twine on the steel reinforcement cage. Through setting up slewer, make the steel reinforcement cage pass through circular chuck and fix on slewer, two drive circular chucks of motor gyration, and then make the steel reinforcement cage gyration, make things convenient for the steel reinforcement winding on the steel reinforcement cage, reach the purpose of high efficiency at steel reinforcement cage surface winding reinforcing bar.

The utility model discloses further set up to: the motor supporting plate is characterized in that supporting plates are perpendicularly arranged on two sides of the motor supporting plate and are in sliding connection with the motor supporting plate along the vertical direction, a hydraulic cylinder is arranged below the motor supporting plate, and the top end of the hydraulic cylinder is connected with the motor supporting plate.

Through adopting above-mentioned technical scheme, set up the motor layer board below motor two, make the motor layer board can reciprocate through the pneumatic cylinder, and then make motor two and circular chuck reciprocate, make the steel reinforcement cage that circular chuck can fix different diameters, prevent that steel reinforcement cage diameter is too big, make steel reinforcement cage outer wall and ground contact.

The utility model discloses further set up to: a second sliding groove is formed in the supporting plate, and the motor supporting plate is in sliding connection with the second sliding groove.

Through adopting above-mentioned technical scheme, make the motor layer board setting in spout two, make the motor layer board slide along two length direction in the spout, prevent that steel reinforcement cage weight is too big or focus skew, make the motor layer board atress uneven, produce slope or upset.

The utility model discloses further set up to: the lower bottom of the supporting plate is provided with a sliding plate and a second guide rail, the supporting plate and the hydraulic cylinder are vertically fixed on the sliding plate, a third sliding groove is formed in the second guide rail, and the sliding plate is in sliding connection with the second guide rail through the third sliding groove.

Through adopting above-mentioned technical scheme, bottom set up sliding plate and guide rail two under the backup pad, make two sliding connection of sliding plate and guide rail, and then slewer can slide subaerial, and when the length of steel reinforcement cage was greater than the interval of two motors two, the user of service can remove slewer to preset position, makes the interval of two motors two unanimous with the length of steel reinforcement cage, makes the steel reinforcement cage install smoothly on circular chuck.

The utility model discloses further set up to: the lower bottom of the bracket is provided with a pulley and a first guide rail, a first sliding groove is formed in the first guide rail, the length direction of the first sliding groove is consistent with that of the first guide rail, and the pulley is connected in the first sliding groove in a sliding mode.

Through adopting above-mentioned technical scheme bottom at the bracket set up pulley and guide rail one, make the blowing device can slide subaerial, at the in-process of rolling up the reinforcing bar, the blowing device can slide, makes the reinforcing bar can be from the one end winding to the other end of steel reinforcement cage.

The utility model discloses further set up to: the rotary disc is provided with a material placing frame, the center of the material placing frame coincides with the center of the rotary disc, a motor is connected to the circle center of the rotary disc, and the material placing frame is used for placing bundles of reinforcing steel bars.

Through adopting above-mentioned technical scheme, set up the blowing frame on the gyration dish, make the reinforcing bar can place on the blowing frame, when preventing that the motor from driving the gyration dish rotatory, the reinforcing bar receives the centripetal force effect and throws away the gyration dish.

The utility model discloses further set up to: a plurality of chain support frames are arranged between the two motors II and comprise two support rods, a chain and three chain gears, the two chain gears are rotatably arranged on the support rods, the two support rods are arranged on the ground, one chain gear is rotatably arranged on the ground in the center of the two support rods, and the three chain gears support the chain.

Through adopting above-mentioned technical scheme, set up the chain support frame between motor two, make the chain support frame can lift up the steel reinforcement cage, prevent that steel reinforcement cage weight is too big, crush motor two's driving shaft.

The utility model discloses further set up to: the bracing piece is installed subaerial perpendicularly, and two bracing pieces set up respectively in the outside both sides of guide rail, and two bracing pieces are equal with two distances of guide rail, set up sprocket subaerial and lie in two bracing piece middle parts positions.

Through adopting above-mentioned technical scheme, through setting up the bracing piece in two outsides of guide rail, set up a sprocket on the ground of bracing piece middle part position, make the chain can hold up the steel reinforcement cage, prevent that steel reinforcement cage weight from too big crushing circular chuck and motor two, the chain can rotate on sprocket, makes the steel reinforcement cage rotate smoothly on the chain.

To sum up, the utility model discloses a beneficial technological effect does:

1. the steel reinforcement cage is fixed on the circular chuck through the rotating device, so that the steel reinforcement cage can rotate, and the material placing device is arranged beside the steel reinforcement cage, so that the material placing device can place out the steel reinforcement during the rotation process of the steel reinforcement cage and evenly wind the steel reinforcement cage on the outer wall of the steel reinforcement cage, thereby achieving the effects of reducing the size of equipment and facilitating installation in a factory building;

2. the chain support frame is arranged between the two motors II, so that the chain can support the reinforcement cage, the chain can rotate on the chain gear, and the reinforcement cage can smoothly rotate on the chain;

3. the hydraulic cylinder and the motor supporting plate are arranged under the second motor, so that the hydraulic cylinder can control the second motor and the circular chuck to move up and down, the circular chuck can fix reinforcement cages of different sizes, and reinforcement winding work is completed.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the overall structure of the present invention;

fig. 3 is a schematic diagram of the overall structure of the present invention.

In the figure, 1, a feeding device; 11. a bracket; 111. a pulley; 12. a first motor; 13. a rotary disk; 131. a material placing frame; 14. a feeding runner; 15. a first guide rail; 151. a first sliding chute; 2. a turning device; 21. a second motor; 22. a motor supporting plate; 23. a support plate; 231. a second chute; 24. a hydraulic cylinder; 25. a sliding plate; 26. a second guide rail; 261. a third chute; 27. a circular chuck; 3. a chain support frame; 31. a support bar; 32. a chain; 33. a sprocket gear; 4. reinforcing steel bars; 5. and (4) a reinforcement cage.

Detailed Description

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

Referring to fig. 1, for the utility model discloses a reinforcing bar is around rolling up equipment, including material feeding unit 1 and slewer 2. The feeding device 1 comprises a bracket 11, a first motor 12, a rotary disc 13 and two feeding rotating wheels 14. The lower bottom of the bracket 11 is provided with a first guide rail 15 and a pulley 111, the first guide rail 15 is laid on the ground, the first guide rail 15 is provided with a first sliding groove 151, and the pulley 111 is rotatably connected in the first sliding groove 151, so that the bracket 11 is in sliding connection with the first guide rail 15. The first motor 12 is vertically arranged in the bracket 11, a driving shaft of the first motor 12 is vertically upwards connected with the rotary disc 13, and the first motor 12 drives the rotary disc 13 to enable the rotary disc 13 to horizontally rotate. Two feeding rotating wheels 14 are arranged on the bracket 11, the two feeding rotating wheels 14 are connected to the bracket 11 in a parallel rotating mode, reinforcing steel bars 4 are arranged between the feeding rotating wheels 14, and the feeding rotating wheels 14 can clamp the reinforcing steel bars 4 to rotate. The upper surface of the rotary disk 13 is provided with a material placing frame 131, the center of the material placing frame 131 coincides with the center of the rotary disk 13, and the material placing frame 131 can fix the bundled reinforcing steel bars 4 on the rotary disk 13 to prevent the rotary disk 13 from rotating and throwing away the reinforcing steel bars 4.

Referring to fig. 1 and 2, the rotating device 2 is arranged beside the feeding device 1 and close to the feeding runner 14. The rotating device 2 comprises two motors 21, a motor supporting plate 22, a supporting plate 23 and two circular chucks 27. The two motors 21 are horizontally, coaxially and oppositely arranged on the motor supporting plate 22 in a horizontal mode, the driving shafts of the motors 21 are provided with the circular chucks 27, the circular chucks 27 are provided with three clamping jaws, the clamping jaws can outwards expand from the circle center of the circular chucks 27, the circular chucks 27 are fixedly provided with the steel reinforcement cage 5, and the circular chucks 27 outwards expand through the three clamping jaws to clamp the steel reinforcement cage 5. Two circular chucks 27 are used for respectively chucking two ends of the reinforcement cage 5, the motor II 21 drives the circular chucks 27 to rotate, and then the reinforcement cage 5 is driven to rotate, and the reinforcement 4 is conveniently wound on the reinforcement cage 5. The supporting plate 23 is vertically arranged on two sides of the motor supporting plate 22, the second sliding groove 231 is formed in the supporting plate 23, and the motor supporting plate 22 is slidably connected with the second sliding groove 231, so that the motor supporting plate 22 can move up and down along the direction of the second sliding groove 231. Motor layer board 22 lower part is provided with pneumatic cylinder 24, the vertical setting of pneumatic cylinder 24, and pneumatic cylinder 24 can jack-up motor layer board 22, and then plays the effect of two 21 of lifting motor, prevents that 5 diameters are too big when steel reinforcement cage, and 5 outer walls of steel reinforcement cage contact with ground. The lower bottom of the support plate 23 is horizontally provided with a sliding plate 25 and a second guide rail 26, the hydraulic cylinder 24 is arranged on the upper surface of the sliding plate 25, the second guide rail 26 is provided with a third sliding groove 261, the sliding plate 25 is in sliding connection with the third sliding groove 261, so that the sliding plate 25 can slide along the third sliding groove 261, and further the motor 21 and the circular chuck 27 can slide. When the length of the reinforcement cage 5 is too large or too small, a user can move the sliding plate 25 to tightly clamp the reinforcement cage 5 by the two circular chucks 27, so that the reinforcement 4 can be wound. The length directions of the first guide rail 15 and the second guide rail 26 are consistent, so that the feeding device 1 can move parallel relative to the rotating device 2, when the winding operation is performed, one end of the steel bar 4 is fixed at one end of the steel bar cage 5, the feeding device 1 can slide back and forth relative to the steel bar cage 5, the steel bar cage 5 rotates, and the steel bar 4 can be wound to the other end from one end of the steel bar cage 5.

Referring to fig. 1 and 3, a plurality of chain supporting frames 3 are arranged between the two motors 21. The chain support 3 comprises two support bars 31, a chain 32 and three sprockets 33. The two support rods 31 are respectively vertically arranged on the outer sides of two sides of the second guide rail 26, the top ends of the two support rods 31 are respectively provided with a chain gear 33, one chain gear 33 is arranged on the ground in the middle of the two support rods 31, and the chain 32 is arranged on the three chain gears 33. The chain 32 is in a V shape on the chain gear 33, and the reinforcement cage 5 is placed on the chain 32 to be stable. The chain 32 can support the reinforcement cage 5, and the reinforcement cage 5 is prevented from pressing the circular chuck 27 and the second motor 21. The chain 32 can rotate along with the rotation of the reinforcement cage 5, so that the reinforcement can be conveniently wound.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a reinforcing bar is around rolling up equipment, includes material feeding unit (1) and slewer (2), its characterized in that: feeding device (1) includes bracket (11), motor (12), gyration dish (13) and pay-off runner (14), and bracket (11) slide to set up subaerial, and motor (12) is vertical to be set up in bracket (11), and gyration dish (13) level is fixed on motor (12), and pay-off runner (14) rotate to be connected on bracket (11), slewer (2) slide to set up subaerial, and slewer (2) include two motors two (21) and circular chuck (27), and motor two (21) level sets up, and two coaxial settings in opposite directions of motor two (21) level are provided with motor layer board (22) below motor two (21), and motor layer board (22) both sides are provided with backup pad (23), and circular chuck (27) set up on motor two (21).

2. A reinforcing bar winding apparatus according to claim 1, wherein: the motor supporting plate is characterized in that supporting plates (23) are perpendicularly arranged on two sides of the motor supporting plate (22), the supporting plates (23) are connected with the motor supporting plate (22) in a sliding mode in the vertical direction, hydraulic cylinders (24) are arranged below the motor supporting plate (22), the hydraulic cylinders (24) are vertically arranged, and the top ends of the hydraulic cylinders (24) are connected with the motor supporting plate (22).

3. A reinforcing bar winding apparatus according to claim 2, wherein: a second sliding groove (231) is formed in the supporting plate (23), and the motor supporting plate (22) is in sliding connection with the second sliding groove (231).

4. A reinforcing bar winding apparatus according to claim 2, wherein: the lower bottom of the supporting plate (23) is provided with a sliding plate (25) and a second guide rail (26), the supporting plate (23) and the hydraulic cylinder (24) are vertically fixed on the sliding plate (25), the second guide rail (26) is provided with a third sliding groove (261), and the sliding plate (25) is in sliding connection with the second guide rail (26) through the third sliding groove (261).

5. A reinforcing bar winding apparatus according to claim 1, wherein: the lower bottom of the bracket (11) is provided with a pulley (111) and a first guide rail (15), the first guide rail (15) is provided with a first sliding groove (151), the length direction of the first sliding groove (151) is consistent with that of the first guide rail (15), and the pulley (111) is connected in the first sliding groove (151) in a sliding manner.

6. A reinforcing bar winding apparatus according to claim 1, wherein: the steel bar stacking machine is characterized in that a material placing frame (131) is arranged on the rotary disc (13), the center of the material placing frame (131) is overlapped with the center of the rotary disc (13), a motor I (12) is connected to the circle center of the rotary disc (13), and the material placing frame (131) is used for placing bundles of steel bars (4).

7. A reinforcing bar winding apparatus according to claim 1, wherein: two be provided with a plurality of chain support frames (3) between motor two (21), chain support frame (3) include two bracing pieces (31), chain (32) and three sprocket (33), and two sprocket (33) rotate and set up on bracing piece (31), and two bracing pieces (31) set up subaerial, and one sprocket (33) rotate and set up subaerial between two bracing pieces (31), and three sprocket (33) support chain (32).

8. A reinforcing bar winding apparatus according to claim 7, wherein: the supporting rods (31) are vertically arranged on the ground, the two supporting rods (31) are respectively arranged on two outer sides of the second guide rail (26), the distances between the two supporting rods (31) and the second guide rail (26) are equal, and the chain gear (33) arranged on the ground is located in the middle of the two supporting rods (31).

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