CN112775361B

CN112775361B - Shaping die carrier for box girder reinforcement cage

Info

Publication number: CN112775361B
Application number: CN202011538425.XA
Authority: CN
Inventors: 蒋友富
Original assignee: Bay Area Guangdong Construction Assembly Technology Co ltd
Current assignee: Bay Area Guangdong Construction Assembly Technology Co ltd
Priority date: 2020-12-23
Filing date: 2020-12-23
Publication date: 2023-12-15
Anticipated expiration: 2040-12-23
Also published as: CN112775361A

Abstract

The invention discloses a shaping die carrier for a box girder steel reinforcement framework, which relates to the technical field of shaping die carriers and comprises a die carrier base, a steel reinforcement positioning frame and a base, wherein the die carrier base comprises a base body, the side surface of the base body is fixedly connected with the side surface of the base, a movable plate is movably arranged in the base body, and the upper surface of the movable plate is fixedly connected with the bottom surface of the steel reinforcement positioning frame. According to the invention, the driving gear is driven to rotate by the rotation of the motor output shaft, the driving gear is meshed with the driven gear, so that the rotating shaft rotates, the driving wheel and the roller I are matched, the steel bar in the steel bar conveying groove is driven to move, the transportation of the steel bar is completed, the large volume of the box girder is avoided, the required steel bar body is extremely large, manpower and material resources are wasted by manual feeding, meanwhile, great inconvenience exists, the time of workers is wasted, the production efficiency is reduced, and the effects of saving the time of the workers and improving the production efficiency are achieved.

Description

Shaping die carrier for box girder reinforcement cage

Technical Field

The invention relates to a shaping die carrier, relates to the technical field of shaping die carriers, and in particular relates to a shaping die carrier for a box girder steel reinforcement cage.

Background

Traditional prefabricated box girder steel bar binding is usually to assemble the external mold first, then in the template binding bottom plate and web reinforcing bar, then install the centre form, carry out roof reinforcing bar binding at last, pour concrete, the construction order is: installing side dies, reinforcing, binding bottom and web steel bars, positioning and installing web prestressed pipes, installing internal dies, installing anchor backing plates, binding top plate steel bars, positioning and installing top plate prestressed pipes, and pouring concrete.

The following problems exist in the prior art:

1. when the shaping die carrier is used for manufacturing the box girder steel reinforcement framework, manual feeding is generally adopted for conveying the steel reinforcement, and then binding is carried out, but because the box girder is large in size, the required steel reinforcement body is extremely large, the manual feeding wastes manpower and material resources, and meanwhile, great inconvenience exists, so that the time of workers is wasted, and the production efficiency is reduced;

2. after the box girder steel reinforcement framework is manufactured by using the shaping die frame, demolding is needed first, then the formed steel reinforcement framework is lifted off for next use, and the demolding can be realized only by disassembling the traditional shaping die frame after the use is finished, and the problem that the service life of the shaping die frame is reduced and the use cost is increased due to abrasion of the joint of the shaping die frame caused by frequent disassembly is solved.

Disclosure of Invention

The invention provides a shaping die carrier for a box girder steel reinforcement framework, which aims to provide the capability of mechanically conveying and feeding, and solves the problems that the box girder is large in size, the required steel reinforcement is extremely large in volume, manpower and material resources are wasted due to manual feeding, and meanwhile, the labor time is wasted and the production efficiency is reduced due to great inconvenience; the other purpose is to solve the problem that the service life of the shaping die carrier is reduced and the use cost is increased because the traditional shaping die carrier needs to be disassembled after the use is completed to realize demolding, and the joint of the shaping die carrier is worn out due to frequent disassembly, so that the effects of prolonging the service life of the shaping die carrier and reducing the use cost are achieved.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a design die carrier for case roof beam reinforcement cage, includes die carrier pedestal, reinforcing bar locating rack and base, the die carrier pedestal is including the pedestal body, the side of pedestal body and the side fixed connection of base, the inside movable mounting of pedestal body has the movable plate, the upper surface of movable plate and the bottom surface fixed connection of reinforcing bar locating rack, the upper surface fixed mounting of movable plate has the conveyer pipe dead lever that sets up in reinforcing bar locating rack left side, fixed mounting has the reinforcing bar conveyer pipe on the conveyer pipe dead lever, the one end of reinforcing bar conveyer pipe extends to the inside of reinforcing bar locating rack and with reinforcing bar locating rack fixed connection, the upper surface swing joint of movable plate has conveyor, conveyor is including the pulley, the bottom surface and the upper surface swing joint of movable plate of pulley, the inner chamber side fixed mounting of pedestal body has hydraulic system, hydraulic system's one end and the side fixed connection of movable plate.

The technical scheme of the invention is further improved as follows: the top fixed mounting of pulley has the bottom plate, the upper surface four corners fixed mounting of bottom plate has the telescopic link, the top fixed mounting of telescopic link has the backup pad, the upper surface fixed mounting of backup pad has place board and intermediate lamella, place the board and set up about the central line symmetry of backup pad, the side fixed mounting of backup pad has the drive case, the inner chamber bottom surface fixed mounting of drive case has the motor, the output shaft of motor extends to the inside of backup pad and with backup pad swing joint, fixed mounting has the driving gear on the output shaft of motor, the inside fixed mounting of intermediate lamella has the pivot, the both ends and the inner chamber side swing joint of intermediate lamella of pivot, the one end fixed mounting of intermediate lamella has driven gear, driven gear and driving gear swing joint, the reinforcing bar conveyer trough has been seted up on the intermediate lamella, the model of motor is Y250M-2.

The technical scheme of the invention is further improved as follows: the side of movable plate and the side swing joint of base, the bottom surface fixed mounting of movable plate has the walking wheel, walking wheel evenly distributed is on the bottom surface of movable plate, the removal groove has been seted up to the inner chamber bottom surface of pedestal body, removal groove and walking wheel sliding connection.

The technical scheme of the invention is further improved as follows: the inner chamber bottom swing joint of reinforcing bar conveyer trough has gyro wheel one, the surface fixed mounting of pivot has a drive wheel, drive wheel and gyro wheel one swing joint, driven gear is connected with the driving gear meshing, the spout has been seted up to the upper surface of movable plate, the width value of spout and the width value looks adaptation of pulley, the surface parcel of gyro wheel one has anti-skidding rubber pad.

The technical scheme of the invention is further improved as follows: the placing plate is provided with placing grooves, the placing grooves are uniformly distributed on the upper surface of the placing plate, the side face of the driving box is provided with radiating holes, and the radiating holes are uniformly distributed on the side face of the driving box.

The technical scheme of the invention is further improved as follows: the top fixed mounting of reinforcing bar locating rack has the back timber, the upper surface both ends fixed mounting of base has the floorbar, the upper surface fixed mounting of base has the bottom surface reinforcing bar backing plate, the bottom surface reinforcing bar backing plate sets up with the central line symmetry of base, the bottom reinforcing bar groove has been seted up to the upper surface of bottom reinforcing bar backing plate, bottom reinforcing bar groove evenly distributed is on the upper surface of bottom reinforcing bar backing plate.

The technical scheme of the invention is further improved as follows: the steel bar conveying pipe is characterized in that roller grooves are formed in the inner surface of the steel bar conveying pipe, the number of the roller grooves is a plurality of, the roller grooves are uniformly distributed on the inner wall of the steel bar conveying pipe, a roller II is movably mounted on the inner wall of the roller grooves, and an anti-slip rubber pad is wrapped on the outer surface of the roller II.

By adopting the technical scheme, compared with the prior art, the invention has the following technical progress:

1. the invention provides a shaping die carrier for a box girder steel reinforcement framework, which adopts the cooperation of a motor, a driving gear, a driven gear, a rotating shaft, a steel reinforcement conveying groove, a roller I and a driving wheel, and drives the driving gear to rotate through the rotation of an output shaft of the motor, and the driving gear is meshed with the driven gear to enable the rotating shaft to rotate, and then the driving wheel and the roller I are matched to drive the steel reinforcement in the steel reinforcement conveying groove to move, so that the transportation of the steel reinforcement is completed, the box girder is prevented from being large in size, the required steel reinforcement body is extremely large, manpower and material resources are wasted due to manual feeding, meanwhile, great inconvenience is caused, the time of workers is wasted, and the production efficiency is reduced, so that the effects of saving the time of workers and improving the production efficiency are achieved.

2. The invention provides a shaping die carrier for a box girder steel reinforcement framework, which adopts the matching of a pedestal body, a hydraulic system, a movable groove and a movable plate, and the movable plate slides in the movable groove by matching with the traveling wheel on the bottom surface of the movable plate through the expansion and contraction of the hydraulic system, so that the movable plate moves towards the pedestal body by utilizing the expansion and contraction of the hydraulic system, the steel reinforcement is separated from a steel reinforcement conveying pipe, the demoulding is completed, the problem that the traditional shaping die carrier can be demoulded only after the use is completed, the connecting part of the shaping die carrier is worn due to frequent disassembly, the service life of the shaping die carrier is reduced, and the use cost is increased is solved, thereby achieving the effects of prolonging the service life of the shaping die carrier and reducing the use cost.

3. The invention provides a shaping die carrier for a box girder steel reinforcement framework, which reduces the probability of abrasion caused by overlarge friction force in the conveying process of steel reinforcement through the design of a roller groove and a roller II, thereby achieving the effects of further improving the production efficiency of the box girder steel reinforcement framework and reducing the cost in production and manufacture.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic top view of the structure of the present invention;

FIG. 3 is a schematic view of a structure of the structure conveying device of the present invention;

FIG. 4 is a schematic cross-sectional view of the structural support plate and drive case of the present invention;

FIG. 5 is an enlarged schematic view of the present invention at structure A;

fig. 6 is a schematic cross-sectional view of a structural rebar transportation pipe of the present invention;

fig. 7 is a schematic structural view of the structural base of the present invention.

In the figure: 1. a die carrier pedestal; 11. a pedestal body; 12. a hydraulic system; 13. a moving groove; 14. a moving plate; 141. a chute; 2. a conveying device; 21. a bottom plate; 22. a pulley; 23. a telescopic rod; 24. a support plate; 241. placing a plate; 2411. a placement groove; 242. an intermediate plate; 2421. a steel bar conveying groove; 2422. a roller I; 25. a drive box; 251. a motor; 252. a heat radiation hole; 253. a drive gear; 254. a driven gear; 255. a rotating shaft; 2551. driving wheels; 3. a steel bar positioning frame; 31. a top beam; 4. a steel bar conveying pipe; 41. a roller groove; 42. a second roller; 5. a conveying pipe fixing rod; 6. a base; 61. a bottom beam; 62. a bottom steel bar backing plate; 621. a bottom reinforcement groove.

Detailed Description

The invention is further illustrated by the following examples:

example 1

As shown in fig. 1-7, the invention provides a shaping die carrier for a box girder steel reinforcement framework, which comprises a die carrier base 1, a steel reinforcement positioning frame 3 and a base 6, wherein the die carrier base 1 comprises a base body 11, the side surface of the base body 11 is fixedly connected with the side surface of the base 6, a movable plate 14 is movably arranged in the base body 11, the upper surface of the movable plate 14 is fixedly connected with the bottom surface of the steel reinforcement positioning frame 3, a conveying pipe fixing rod 5 arranged at the left side of the steel reinforcement positioning frame 3 is fixedly arranged on the upper surface of the movable plate 14, a steel reinforcement conveying pipe 4 is fixedly arranged on the conveying pipe fixing rod 5, one end of the steel reinforcement conveying pipe 4 extends into the inside of the steel reinforcement positioning frame 3 and is fixedly connected with the steel reinforcement positioning frame 3, a conveying device 2 is movably connected with the upper surface of the movable plate 14, the conveying device 2 comprises a pulley 22, the bottom surface of the pulley 22 is movably connected with the upper surface of the movable plate 14, a hydraulic system 12 is fixedly arranged on the side surface of an inner cavity of the base body 11, and one end of the hydraulic system 12 is fixedly connected with the side surface of the movable plate 14.

In this embodiment, the cooperation of conveyor 2 and reinforcing bar locating rack 3 for the design die carrier has possessed the ability of carrying out mechanical transportation with the reinforcing bar, has avoided the manual work to carry the reinforcing bar, influences the problem of box girder steel reinforcement cage's production efficiency, and hydraulic system 12 and movable plate 14's cooperation makes the design die carrier possess and need not dismantle, can the ability of drawing of patterns, has avoided the box girder steel reinforcement cage production to accomplish the back, frequently dismantle the problem that the life of design die carrier reduces the design die carrier.

As shown in fig. 1 to 7, in the present embodiment, preferably, a bottom plate 21 is fixedly installed at the top of a pulley 22, telescopic rods 23 are fixedly installed at four corners of the upper surface of the bottom plate 21, a supporting plate 24 is fixedly installed at the top of the telescopic rods 23, a placing plate 241 and an intermediate plate 242 are fixedly installed at the upper surface of the supporting plate 24, the placing plate 241 is symmetrically arranged with respect to the center line of the supporting plate 24, a driving box 25 is fixedly installed at the side surface of the supporting plate 24, a motor 251 is fixedly installed at the bottom surface of an inner cavity of the driving box 25, an output shaft of the motor 251 extends to the inside of the supporting plate 24 and is movably connected with the supporting plate 24, a driving gear 253 is fixedly installed on the output shaft of the motor 251, a rotating shaft 255 is fixedly installed at the inside of the intermediate plate 242, both ends of the rotating shaft 255 are movably connected with the side surface of the inner cavity of the intermediate plate 242, a driven gear 254 is fixedly installed at one end of the intermediate plate 242, the driven gear 254 is movably connected with the driving gear 253, the middle plate 242 is provided with a steel bar conveying groove 2421, the bottom of the inner cavity of the steel bar conveying groove 2421 is movably connected with a roller one 2422, the outer surface of the rotating shaft 255 is fixedly provided with a driving wheel 2551, the driving wheel 2551 is movably connected with the roller one 2422, the driven gear 254 is meshed with the driving gear 253, the upper surface of the moving plate 14 is provided with a sliding groove 141, the width value of the sliding groove 141 is matched with the width value of the pulley 22, the motor 251, the driving gear 253, the driven gear 254, the rotating shaft 255, the steel bar conveying groove 2421, the roller one 2422 and the driving wheel 2551 are matched, the driving gear 253 is driven to rotate through the rotation of the output shaft of the motor 251, the driving gear 253 is meshed with the driven gear 254, the rotating shaft 255 is driven by the meshed connection of the driving gear 253 and the roller one 2422, the steel bar in the steel bar conveying groove 2421 is driven to move, the transportation of the steel bar is completed, the box girder is prevented from being large in volume, the required reinforcement volume is very big, and artifical material loading extravagant manpower and materials exists very big inconvenience simultaneously, leads to extravagant workman's time, reduces production efficiency's problem to reach the effect of saving workman's time, improvement production efficiency.

As shown in fig. 1-7, preferably, the placing plate 241 is provided with a placing groove 2411, the placing groove 2411 is uniformly distributed on the upper surface of the placing plate 241, the side surface of the driving box 25 is provided with heat dissipation holes 252, the heat dissipation holes 252 are uniformly distributed on the side surface of the driving box 25, and by the design of the placing groove 2411, the conveying of the reinforcing steel bars is more convenient, and meanwhile, due to the design of the heat dissipation holes 252, heat generated during the operation of the motor 251 can be dissipated in time, and the use efficiency of the device is further improved.

Example 2

As shown in fig. 1-7, on the basis of embodiment 1, the present invention provides a technical solution: preferably, the side of movable plate 14 and the side swing joint of base 6, the bottom surface fixed mounting of movable plate 14 has the walking wheel, walking wheel evenly distributed is on the bottom surface of movable plate 14, movable groove 13 has been seted up to the inner chamber bottom surface of pedestal body 11, movable groove 13 and walking wheel sliding connection, adopt pedestal body 11, hydraulic system 12, the cooperation of movable groove 13 and movable plate 14, through hydraulic system 12's flexible, cooperation movable wheel on the bottom surface of movable plate 14 slides in movable groove 13, make movable plate 14 utilize hydraulic system 12's flexible, towards pedestal body 11 motion, make reinforcing bar and reinforcing bar conveyer pipe 4 separate, accomplish the drawing of patterns, the wearing and tearing just can be realized to the junction that has avoided traditional design die carrier to need dismantle after the use, and frequent dismantlement can make the design die carrier appear wearing and tearing, lead to the life of design die carrier reduces, the problem that use cost increases, thereby the life of improving the design die carrier, reduce use cost.

Example 3

As shown in fig. 1-7, on the basis of embodiment 1, the present invention provides a technical solution: preferably, the top fixed mounting of reinforcing bar locating rack 3 has back timber 31, the upper surface both ends fixed mounting of base 6 has sill 61, the upper surface fixed mounting of base 6 has bottom surface reinforcing bar backing plate 62, bottom surface reinforcing bar backing plate 62 sets up with the central line symmetry of base 6, bottom reinforcing bar groove 621 has been seted up to the upper surface of bottom reinforcing bar backing plate 62, bottom reinforcing bar groove 621 evenly distributed is on the upper surface of bottom reinforcing bar backing plate 62, the gyro wheel groove 41 has been seted up on the internal surface of reinforcing bar conveyer pipe 4, the quantity of gyro wheel groove 41 is a plurality of, a plurality of gyro wheel groove 41 evenly distributed is on the inner wall of reinforcing bar conveyer pipe 4, movable mounting has gyro wheel second 42 on the inner wall of gyro wheel groove 41, through the design of gyro wheel groove 41 and gyro wheel second 42, the probability of wearing and tearing appears because of the frictional force is too big in the reinforcing bar transportation process has been reduced, thereby reached the production efficiency that has further improved the case roof beam skeleton of reinforcing bar, the cost when manufacturing is reduced.

The working principle of the shaping die carrier for the box girder steel reinforcement framework is specifically described below.

As shown in fig. 1-7, when in use, firstly, a bottom connecting plate and a bottom reinforcement are respectively placed in a bottom beam 61 and a bottom reinforcement groove 621, then reinforcement raw materials are placed on a supporting plate 24 and uniformly distributed in a placing groove 2411 and a reinforcement conveying groove 2421 on a placing plate 241 and a middle plate 242, then a motor 251 is started to drive a driving gear 253 to rotate, then a driving gear 253 is utilized to drive a driven gear 254 to rotate, meanwhile, a rotation shaft 255 is rotated by utilizing the rotation of the driven gear 254, then the reinforcement raw materials in the reinforcement conveying groove 2421 are driven to move in the reinforcement conveying pipe 4 through a driving wheel 2551 and a first roller 2422, friction between the reinforcement raw materials and the reinforcement conveying pipe 4 when conveyed in the reinforcement conveying pipe 4 is reduced by utilizing a roller groove 41 and a second roller 42 in the reinforcement conveying pipe 4, after the reinforcement raw materials are conveyed, the conveying device 2 is pushed, the pulley 22 slides on the chute 141 to reach the next position, the reinforcement conveying raw materials are conveyed into the reinforcement conveying pipe 4, and after all the reinforcement conveying pipes 4 have raw materials, binding can be started;

as shown in fig. 1 to 7, after the reinforcing steel bar is bound and fixed, the hydraulic system 12 is started, the expansion and contraction of the hydraulic system 12 are utilized, then the moving plate 14 moves towards the pedestal body 11 through the sliding of the travelling wheels on the bottom surface of the moving plate 14 in the moving groove 13, then the reinforcing steel bar is separated from the reinforcing steel bar conveying pipe 4, the demoulding is completed, and finally the formed box girder reinforcing steel bar skeleton is lifted off, so that the next production and manufacture can be started.

The foregoing invention has been generally described in great detail, but it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, it is intended to cover modifications or improvements within the spirit of the inventive concepts.

Claims

1. The utility model provides a design die carrier for case roof beam steel reinforcement skeleton, includes die carrier pedestal (1), reinforcing bar locating rack (3) and base (6), its characterized in that: the die carrier pedestal (1) comprises a pedestal body (11), the side of pedestal body (11) is fixedly connected with the side of base (6), movable mounting has movable plate (14) in the inside of pedestal body (11), the upper surface of movable plate (14) is fixedly connected with the bottom surface of reinforcing bar locating rack (3), the upper surface fixed mounting of movable plate (14) has conveyer pipe dead lever (5) that sets up in reinforcing bar locating rack (3) left side, fixed mounting has reinforcing bar conveyer pipe (4) on conveyer pipe dead lever (5), the one end of reinforcing bar conveyer pipe (4) extends to the inside of reinforcing bar locating rack (3) and with reinforcing bar locating rack (3) fixed connection, the upper surface swing joint of movable plate (14) has conveyor (2), conveyor (2) are including pulley (22), the bottom surface of pulley (22) is movably connected with the upper surface of movable plate (14), the inner chamber side fixed mounting of pedestal body (11) has hydraulic system (12), the one end of reinforcing bar conveyer pipe (4) is fixedly connected with the side of movable plate (14).

The top of pulley (22) is fixedly provided with bottom plate (21), the four corners of the upper surface of bottom plate (21) are fixedly provided with telescopic links (23), the top of telescopic links (23) is fixedly provided with supporting plate (24), the upper surface of supporting plate (24) is fixedly provided with placing plate (241) and intermediate plate (242), placing plate (241) is symmetrically arranged about the central line of supporting plate (24), the side of supporting plate (24) is fixedly provided with driving box (25), the bottom surface of the inner cavity of driving box (25) is fixedly provided with motor (251), the output shaft of motor (251) extends to the inside of supporting plate (24) and is movably connected with supporting plate (24), the output shaft of motor (251) is fixedly provided with driving gear (253), the inside of intermediate plate (242) is fixedly provided with rotating shaft (255), the two ends of rotating shaft (255) are movably connected with the side surface of the inner cavity of intermediate plate (242), one end of intermediate plate (242) is fixedly provided with driven gear (254), driven gear (254) is movably connected with driving gear (253), and steel bar conveying groove (2421) is arranged on intermediate plate (242).

The side face of the moving plate (14) is movably connected with the side face of the base (6), the bottom face of the moving plate (14) is fixedly provided with travelling wheels, the travelling wheels are uniformly distributed on the bottom face of the moving plate (14), the bottom face of the inner cavity of the pedestal body (11) is provided with a moving groove (13), and the moving groove (13) is in sliding connection with the travelling wheels;

the bottom of the inner cavity of the steel bar conveying groove (2421) is movably connected with a roller I (2422), the outer surface of the rotating shaft (255) is fixedly provided with a driving wheel (2551), the driving wheel (2551) is movably connected with the roller I (2422), the driven gear (254) is meshed with the driving gear (253), the upper surface of the moving plate (14) is provided with a sliding groove (141), and the width value of the sliding groove (141) is matched with the width value of the pulley (22);

the placing plate (241) is provided with placing grooves (2411), the placing grooves (2411) are uniformly distributed on the upper surface of the placing plate (241), the side surface of the driving box (25) is provided with radiating holes (252), and the radiating holes (252) are uniformly distributed on the side surface of the driving box (25);

the top of the steel bar positioning frame (3) is fixedly provided with a top beam (31), two ends of the upper surface of the base (6) are fixedly provided with bottom beams (61), the upper surface of the base (6) is fixedly provided with bottom steel bar base plates (62), the bottom steel bar base plates (62) are symmetrically arranged relative to the central line of the base (6), the upper surface of the bottom steel bar base plates (62) is provided with bottom steel bar grooves (621), and the bottom steel bar grooves (621) are uniformly distributed on the upper surface of the bottom steel bar base plates (62);

the steel bar conveying pipe is characterized in that roller grooves (41) are formed in the inner surface of the steel bar conveying pipe (4), the number of the roller grooves (41) is a plurality of, the roller grooves (41) are uniformly distributed on the inner wall of the steel bar conveying pipe (4), and two rollers (42) are movably mounted on the inner wall of the roller grooves (41).