CN219505025U - Four-way moving portal frame overturning and composite shaking integrated device - Google Patents

Abstract

The utility model discloses a four-way movable portal frame overturning and compound shaking integrated device which comprises a portal frame and a ground sliding rail, wherein a movable frame is arranged at the top of the portal frame, movable rollers are connected to the bottom of the movable frame and the two ends of the bottom of the portal frame, the movable rollers connected to the movable frame are connected with the top of the portal frame, the movable rollers connected to the bottom of the portal frame are connected with the ground sliding rail, brake assemblies are arranged on the outer sides of the movable rollers, a winch is arranged in the middle of the movable frame, a clamping frame is arranged below the movable frame, lifting frames are arranged at the two ends of the clamping frame, an overturning motor is arranged between the lifting frames and the clamping frames, and a steel wire rope of the winch is connected with the lifting frames. The beneficial effects of the utility model are as follows: the portal frame and the movable frame in the device are connected with the movable roller, and the device can drive the clamping frame to realize four-way movement, so that the functionality is improved; the device has high integration level and can meet the requirement of multi-position overturning and vibration compound operation.

Description

Four-way moving portal frame overturning and composite shaking integrated device

Technical Field

The utility model relates to the technical field of concrete prefabrication, in particular to a four-way moving portal frame overturning and compound shaking integrated device.

Background

The concrete prefabricated component refers to an assembled concrete component which is manufactured before installation is carried out on a construction site. Common precast concrete floors, concrete box girders for bridges, precast concrete roof truss girders for industrial plants, precast concrete piles for foundation treatment, and the like. Compared with cast-in-place concrete, the concrete prefabricated part has the advantages of high production safety coefficient, easy control of production quality, acceleration of the construction engineering progress and the like. The tipping arrangement and the vibration equipment of the traditional production line are all arranged independently, the traditional production line is required to be matched with a circulating line for use, the occupied area of the circulating line is increased, and the input cost is high. The vibration equipment also needs to be compatible with the production of common precast concrete products, and the compatibility design firstly leads to the increase of production cost and the increase of the failure rate of the equipment.

Disclosure of Invention

The utility model provides a four-way movable portal frame overturning and composite shaking integrated device which reduces workshop matching, has small occupied area, can move equipment in four directions, has high equipment integration level and has high production efficiency, and aims to overcome the defects of large occupied area, low equipment integration level and low production efficiency of a matched circulating table production line in the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a four-way removal portal frame upset is compound shakes integrative device, includes portal frame and ground slide rail, the portal frame top is provided with the movable frame, the bottom both ends of movable frame bottom and portal frame all are connected with the movable roller, the movable roller that is connected on the movable frame is connected with the portal frame top, the movable roller that the portal frame bottom is connected with ground slide rail, movable roller outside side all is provided with brake subassembly, the movable frame middle part is provided with the hoist engine, the movable frame below is provided with the clamping frame, the both ends of clamping frame are provided with the hoist and mount frame, be provided with the upset motor between hoist and the clamping frame, the wire rope and the hoist and mount frame of hoist engine are connected.

Further, the bottom of moving frame and portal frame is close to both ends department and all is connected with driving motor, driving motor is connected with the removal gyro wheel, the removal gyro wheel is provided with the guide slot, the portal frame top is connected with the guide rail, and the guide slot and the guide rail connection of the removal gyro wheel of connecting on moving frame, the guide slot and the ground slide rail connection of the removal gyro wheel of connecting on the portal frame.

Further, the brake assembly comprises an electric cylinder and a brake element, the electric cylinder is connected with the brake element, an arc-shaped brake cambered surface is arranged on one side surface of the brake element, the brake cambered surface faces the movable roller, the electric cylinder in the brake assembly arranged on the movable frame is connected with the end part of the movable frame, and the electric cylinder in the brake assembly arranged on the portal frame is connected with the end part of the portal frame.

Further, the movable frame top is provided with the hole of stepping down, fixed sleeve is installed at the movable frame top, fixed sleeve is coaxial with the hole of stepping down, fixed sleeve has cup jointed the connecting rod, the connecting rod upper end is provided with the leading wheel, be provided with buffer spring and connecting rod between fixed sleeve and the leading wheel and cup joint, fixed sleeve one side is provided with the wire hole, the leading wheel is walked around from the wire hole and passes and be detained with the hoisting frame's hoisting point and be connected.

Further, a guide sleeve is arranged at the bottom of the movable frame, the lower part of the guide sleeve is conical, the hoisting frame is connected with a guide rod, and the guide rod is sleeved with the guide sleeve.

Further, the inner wall of the clamping frame is connected with a clamping seat, a telescopic rod is connected in the clamping seat, the end part of the telescopic rod is connected with a clamping block, and the clamping block is hinged with the clamping seat.

Further, the top of clamping frame is connected with a plurality of vibrators, the vibrator is connected with the vibrating plate, the inner wall of vibrating plate is connected with a plurality of vibrating blocks, be connected with a plurality of vibrating springs between vibrating plate and the clamping frame.

The beneficial effects of the utility model are as follows: the portal frame is arranged to replace the circulating table, so that the occupied area is saved, and a large amount of investment can be saved; the portal frame and the movable frame in the device are connected with movable rollers, so that the device can drive the clamping frame to realize four-way movement, and the functionality is improved; the device integrates four-way movement, lifting, overturning and vibrating functions, has high integration level, and meets the requirement of multi-position overturning and vibrating composite operation; the guide rod and the guide sleeve pipe are arranged to ensure that the guide rod and the guide sleeve pipe move in the vertical direction when lifting and lowering, and the movement direction is stable; the brake component arranged on one side of the movable roller can brake and limit the movable roller, so that the movable roller can be stopped in time when stopping is needed, the accurate movement of the position is ensured, the clamping frame can clamp the die table accurately, and the normal function is ensured; the vibrating plate is connected with the clamping frame through the vibrating spring, so that the effect of reducing noise pollution during vibration can be achieved.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a cross-sectional view of a brake assembly of the present utility model;

FIG. 3 is an enlarged view at A in FIG. 1;

FIG. 4 is an enlarged view at B in FIG. 1;

FIG. 5 is an enlarged view at C in FIG. 1;

fig. 6 is an enlarged view of D in fig. 1.

In the drawings of which there are shown,

1. portal frame, 2, moving frame, 3, hoist, 4, clamping frame, 5, lifting frame, 6, turnover motor, 10, guide rail, 20, moving roller, 21, driving motor, 22, fixed sleeve, 23, connecting rod, 24, guide wheel, 25, buffer spring, 26, wire passing hole, 27, guide sleeve, 40, clamping seat, 41, telescopic rod, 42, clamping block, 43, vibrator, 44, vibrating plate, 45, vibrating block, 46, vibrating spring, 50, guide rod, 70, electric cylinder, 71, brake element, 72, brake arc surface, 200, guide groove.

Detailed Description

The utility model is further described below with reference to the drawings and detailed description.

Embodiment 1 as shown in fig. 1-6, a four-way moving portal frame overturning and compound shaking integrated device comprises a portal frame 1 and a ground sliding rail. The top of the portal frame 1 is provided with a movable frame 2. The bottom of the movable frame 2 and the two ends of the bottom of the portal frame 1 are connected with movable rollers 20. A moving roller 20 connected to the moving frame 2 is connected to the top of the gantry 1. The movable roller 20 connected with the bottom of the portal frame 1 is connected with a ground sliding rail. Brake components are arranged on the outer side of the movable roller 20. A winch 3 is arranged in the middle of the movable frame 2. A clamping frame 4 is arranged below the moving frame 2. Two ends of the clamping frame 4 are provided with hoisting frames 5. A turnover motor 6 is arranged between the lifting frame 5 and the clamping frame 4, and the turnover motor 6 can turn over the clamping frame 4 by 180 degrees. The steel wire rope of the hoist 3 is connected with the hoisting frame 5.

The portal frame 1 is of a frame structure, a guide rail is arranged at the upper top of the portal frame 1, a moving roller 20 arranged on the moving frame 2 is provided with a guide groove 200, and the guide groove 200 is connected with the guide rail. The driving motors 21 are connected to the two ends of the moving frame 2, which are close to the two ends, the driving motors 21 are connected with the moving rollers 20, the driving motors 21 rotate to drive the moving rollers 20 to roll, and further the moving frame 2 can move on the guide rail on the portal frame 1, the rolling directions of the moving rollers 20 can be different due to the difference of the rotating directions of the driving motors 21, and the bidirectional movement of the moving frame 2 on the portal frame 1 is realized. Meanwhile, driving motors 21 are installed at four corners of the bottom of the portal frame 1, the driving motors 21 are connected with moving rollers 20 arranged at the bottom of the portal frame 1, meanwhile, the moving rollers 20 connected with the driving motors 21 can be driven to rotate by rotation of the driving motors 21, the portal frame 1 is driven to move, the direction of the moving rollers 20 can be realized by controlling the rotation direction of the driving motors 21, and further, the bidirectional moving direction of the portal frame 1 is realized. The two-way movement of the portal frame 1 and the two-way movement of the moving frame 2 are combined, the clamping frame can realize four-way movement, the working coverage area is enlarged, and the cost can be saved.

Wherein, the brake assembly provided at the end of the moving frame 2 includes an electric cylinder 70 and a brake member 71, and the electric cylinder 70 is connected with the brake member 71. The braking element 71 is provided with a braking arc surface 72 on one side, the braking arc surface 72 is arranged towards the moving roller 20, the braking element 71 is arranged on the outer side of the moving roller 20, the electric cylinder 70 is fixed on the end part of the moving frame 2, and meanwhile, the position of the electric cylinder 70 is arranged on the outer side of the braking element 71. The electric cylinder 70 can push the brake element 71 to move horizontally, when the moving frame 2 needs to stop after moving to the target position, the driving motor 21 stops rotating, and meanwhile, the electric cylinder 70 pushes the brake element 71 to the moving roller 20, so that the brake element 71 rubs with the moving roller 20, the moving roller 20 stops rotating, and braking and stopping movement are realized. The moving position of the moving frame 2 can be ensured to be accurate, the clamping frame 4 can be ensured to be accurately arranged above the die table, and the clamping frame 4 can implement clamping vibration operation on the die table after falling. Similarly, the brake components arranged at the two ends of the bottom of the portal frame 1 have the same functions as the brake components, so that the functions of braking and stopping the movement of the portal frame 1 can be realized.

Wherein, be provided with the hole of stepping down at the top of moving frame 2, fixed sleeve 22 is installed at the top of moving frame 2, fixed sleeve 22 and the coaxial arrangement of hole of stepping down, and the downthehole cover connection pole 23 of stepping down is provided with leading wheel 24 in the upper end of connecting rod 23, simultaneously, is provided with buffer spring 25 between leading wheel 24 and fixed sleeve 22, buffer spring 25 is arranged in fixed sleeve 22 and cup joints with connecting rod 23. A wire through hole 26 is provided in the moving frame 2, wherein the wire through hole 26 is disposed beside the fixed sleeve 22, and the wire through hole 26 is used for passing the wire rope of the hoist 3. The lifting frame 5 disposed below the moving frame 2 is provided with a lifting point buckle, and the position of the wire passing hole 26 and the lifting point buckle of the lifting frame 5 are on the same line in the vertical direction. The wire rope led out from the winch 3 passes through the wire passing hole 26 after winding the guide wheel 24 and is connected with the hanging point buckle on the hanging frame 5, wherein the guide wheel 24 can play a role of stabilizing the buffer wire rope under the action of the buffer spring 25, so that the wire rope led out from the winch 3 can stably implement the up-and-down moving traction of the hanging frame 5.

The bottom of the moving frame 2 is also provided with a guide sleeve 27, the bottom of the guide sleeve 27 is in a conical horn mouth shape, a guide rod 50 is connected to the hoisting frame 5, the guide rod 50 is vertically arranged, when the hoisting frame 5 is driven by the winch 3 to move up and down, the guide rod 50 is matched with the guide sleeve 27 to realize a guiding function, when the moving frame 2 moves to a target position, the winch 3 can accurately drop to the target mold stage position when the hoisting frame 5 is lowered, and locking of the mold stage is ensured.

Wherein, be connected with a plurality of clamping seat 40 at the inner wall of clamping frame 4, the box structure of clamping seat 40 is connected with telescopic link 41 at the inside of clamping seat 40, and the end connection of telescopic link 41 has a clamp block 42, and this clamp block 42 articulates with clamping seat 40 simultaneously, when telescopic link 41 outwards ejects, promotes clamp block 42 and rotates around the articulated shaft for clamp block 42 locks the platform, guarantees to press from both sides tightly firmly stable. Meanwhile, the top of the clamping frame 4 is provided with a plurality of vibrators 43, the vibrators 43 are connected with a vibrating plate 44, the inner sides of the vibrating plates 44 are connected with a plurality of vibrating blocks 45, the vibrating blocks 45 can be in contact with a clamped die table, the die table can vibrate when the vibrators 43 vibrate, meanwhile, a plurality of vibrating springs 46 are connected between the vibrating plate 44 and the top surface of the clamping frame 4, the vibrating springs 46 play a certain buffering role, noise generated by vibration can be reduced, and noise pollution is effectively reduced.

The application principle of the utility model is as follows: as shown in fig. 1 to 6, the moving frame 2 is driven by the driving motor 21 to move the moving roller 20 so that the moving frame 2 moves on the gantry 1, and when the moving frame 2 moves to a designated position, the electric cylinder 70 pushes the braking member 71 toward the moving roller 20 to perform a braking operation. Then, the hoist 3 loosens the wire rope, lowers the hoisting frame 5, enables the clamping frame 4 to be sleeved on the die table, enables the telescopic rod 41 to be ejected outwards, enables the clamping block 42 to rotate, and enables the clamping block 42 to clamp the die table. The hoist 3 tightens the wire rope, lifts the hoist frame 5, and inserts the guide bar 50 into the guide sleeve tube 27, and then the turnover motor 6 rotates, so that the clamp frame 4 turns 180 °. Then, the electric cylinder 70 is retracted to disengage the brake element 71 from the movable roller 20, the driving motor 21 moves the movable roller 20 to rotate, the electric cylinder 70 pushes the brake element 71 to the movable roller 20 again after moving the movable frame 2 to another designated position, the hoist 3 releases the wire rope, the hoisting frame 5 and the clamping frame 4 are lowered to the designated positions to start the compound operation, and the vibrator 43 starts the vibration operation to ensure the compound effect. After the compounding is completed, the winch 3 tightens up the steel wire rope again, the lifting frame 5 and the clamping frame 4 are lifted, meanwhile, the electric cylinder 70 recovers the brake element 71, the driving motor 21 drives the movable roller 20 to rotate, the movable frame 2 moves to the original position, the winch 3 loosens the steel wire rope, the lifting frame 5 and the clamping frame 4 descend and fall back, the telescopic rod 41 recovers to enable the clamping block 42 to loosen the die table, and one-time operation is completed.

When another area of the workshop is required to be operated, the driving motor 21 arranged at the bottom of the portal frame 1 is started to move the portal frame 1 to the corresponding position, then the electric cylinder 70 arranged at the bottom of the portal frame 1 is started to push the brake element 71 connected with the electric cylinder to move towards the movable roller 20, stopping of the movable roller 20 is achieved, the portal frame 1 is ensured to stably stop in the appointed area, and operation in the area is facilitated.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (7)

1. The utility model provides a compound integrative device that shakes of quadriversal removal portal frame upset, its characterized in that, including portal frame (1) and ground slide rail, portal frame (1) top is provided with movable frame (2), movable frame (2) bottom and portal frame (1)'s bottom both ends all are connected with movable roller (20), movable roller (20) that are connected on movable frame (2) are connected with portal frame (1) top, movable roller (20) and ground slide rail that portal frame (1) bottom is connected are connected, movable roller (20) outside side all is provided with brake subassembly, movable frame (2) middle part is provided with hoist engine (3), movable frame (2) below is provided with clamping frame (4), clamping frame (4) both ends are provided with hoist and mount frame (5), be provided with upset motor (6) between hoist and mount frame (4), wire rope and hoist and mount frame (5) of hoist and mount frame (3) are connected.

2. The four-way moving portal frame overturning and compound shaking integrated device according to claim 1, wherein the bottoms of the moving frame (2) and the portal frame (1) are both connected with driving motors (21) near two ends, the driving motors (21) are connected with moving rollers (20), the moving rollers (20) are provided with guide grooves (200), the tops of the portal frame (1) are connected with guide rails (10), the guide grooves (200) of the moving rollers (20) connected to the moving frame (2) are connected with the guide rails (10), and the guide grooves (200) of the moving rollers (20) connected to the portal frame (1) are connected with ground sliding rails.

3. The four-way moving portal frame overturning and compound shaking integrated device according to claim 1, wherein the brake assembly comprises an electric cylinder (70) and a brake element (71), the electric cylinder (70) is connected with the brake element (71), an arc-shaped brake cambered surface (72) is arranged on one side surface of the brake element (71), the brake cambered surface (72) faces the moving roller (20), the electric cylinder (70) in the brake assembly arranged on the moving frame is connected with the end part of the moving frame (2), and the electric cylinder (70) in the brake assembly arranged on the portal frame is connected with the end part of the portal frame (1).

4. The four-way moving portal frame overturning and compound shaking integrated device according to claim 1, wherein a yielding hole is formed in the top of the moving frame (2), a fixed sleeve (22) is mounted on the top of the moving frame (2), the fixed sleeve (22) is coaxial with the yielding hole, a connecting rod (23) is sleeved on the fixed sleeve (22), a guide wheel (24) is arranged at the upper end of the connecting rod (23), a buffer spring (25) is arranged between the fixed sleeve (22) and the guide wheel (24), the buffer spring (25) is sleeved on the connecting rod (23), a wire passing hole (26) is formed in one side of the fixed sleeve (22), and a steel wire rope of the winch (3) passes through the wire passing hole (26) and is connected with a hanging point buckle of the hanging frame (5).

5. The four-way moving portal frame overturning and compound shaking integrated device according to claim 1, wherein a guide sleeve (27) is arranged at the bottom of the moving frame (2), the lower part of the guide sleeve (27) is conical, the hoisting frame (5) is connected with a guide rod (50), and the guide rod (50) is sleeved with the guide sleeve (27).

6. The four-way moving portal frame overturning and compound shaking integrated device according to claim 1, wherein a clamping seat (40) is connected to the inner wall of the clamping frame (4), a telescopic rod (41) is connected to the clamping seat (40), a clamping block (42) is connected to the end portion of the telescopic rod (41), and the clamping block (42) is hinged to the clamping seat (40).

7. The four-way moving portal frame overturning and compound shaking integrated device according to claim 1, wherein a plurality of vibrators (43) are connected to the top of the clamping frame (4), the vibrators (43) are connected with vibrating plates (44), a plurality of vibrating blocks (45) are connected to the inner walls of the vibrating plates (44), and a plurality of vibrating springs (46) are connected between the vibrating plates (44) and the clamping frame (4).