CN216404925U - Wet blank transfer device for molding plant fiber - Google Patents

Abstract

The utility model relates to the technical field of plant fiber molding products, in particular to a wet blank transfer device for plant fiber molding, which comprises a wet blank transfer die, wherein the top end of the wet blank transfer die is fixedly connected with a longitudinal moving sliding column, the two sides of the longitudinal moving sliding column are both slidably connected with longitudinal limiting blocks, the top end of each longitudinal limiting block is provided with a fixed pulley block, the outer side of each longitudinal limiting block is provided with a balancing weight, the front end of each longitudinal moving sliding column is provided with a longitudinal rack, each longitudinal limiting block is fixedly connected with a horizontal base, the surface of the horizontal base is provided with a first servo motor, one side of the horizontal base is uniformly provided with two groups of transverse moving sliding blocks, the other side of the horizontal base is uniformly provided with two groups of transverse moving control sliding blocks, and the balancing weight, the longitudinal limiting blocks and longitudinal sliding rails are arranged, so that the position and the moving process of the wet blank transfer die can be accurately controlled, thereby making the transfer process more stable.

Description

Wet blank transfer device for molding plant fiber

Technical Field

The utility model relates to the technical field of plant fiber molding products, in particular to a wet blank transfer device for plant fiber molding.

Background

In the existing plant fiber molding machine, slurry is sucked, filtered and molded in a suction filter molding die in a suction filter molding device to prepare a wet blank, a wet blank transferring device is arranged above the suction filter molding device, a wet blank transferring die in the wet blank transferring device can move up and down, the wet blank is moved out of the suction filter molding die and transferred to the next procedure for drying, and the wet blank transferring die is dragged by an oil cylinder. According to the existing wet blank transfer device for molding plant fibers, the wet blank transfer die is driven by an oil cylinder to move up and down, when a piston sealing ring of the oil cylinder is abraded, the oil cylinder can leak internally to cause the wet blank transfer die to lose control and slide down, and the abrasion of the piston sealing ring in the working process is inevitable, so that great trouble is brought to production. The wet blank transfer die cannot be accurately matched with the suction filter forming die, the error of matched die is large each time, the wet blank is often torn, or the wet blank cannot be normally transferred to the wet blank transfer die to realize normal transfer. When the wet blank transfer die and the suction filter forming die are closed, the impact is too large, and the positioning of the wet blank transfer die in the vertical direction is difficult to realize. When the wet blank is transferred to the hot-pressing die by the wet blank transfer die, the relative distance between the wet blank transfer die and the hot-pressing die cannot be controlled due to stroke overshoot, fibers around the wet blank splash outside a cavity of the hot-pressing die when the wet blank is transferred, a large amount of burrs are generated, and the fibers splashed onto the hot-pressing die become coke and pollute the hot-pressing die due to the fact that the fibers cannot be removed in time. The oil cylinder pushes the wet blank transfer mold to frequently generate a creeping phenomenon when moving up and down, the movement often generates shaking and is not stable, and after the sealing of the piston rod of the oil cylinder is damaged, hydraulic oil in the oil cylinder leaks to often pollute slurry. The up-and-down moving speed of the wet blank transfer die is very slow, and the up-and-down moving distance of the wet blank transfer die is very long, so that the yield is greatly influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a wet blank transfer device for molding plant fibers, which comprises a wet blank transfer die, wherein the top end of the wet blank transfer die is fixedly connected with a longitudinal moving sliding column, two sides of the longitudinal moving sliding column are both connected with longitudinal limiting blocks in a sliding manner, the top ends of the longitudinal limiting blocks are provided with fixed pulley blocks, the outer sides of the longitudinal limiting blocks are both provided with balancing weights, the upper ends of the balancing weights are connected with connecting wires, the balancing weights are connected with the longitudinal limiting blocks through the fixed pulley blocks and the connecting wires, the front ends of the longitudinal moving sliding columns are provided with longitudinal racks, the longitudinal limiting blocks are fixedly connected with a horizontal base, the surface of the horizontal base is provided with a first servo motor, the power output shaft of the first servo motor is fixedly connected with a longitudinal control gear, and the longitudinal control gear is meshed with the longitudinal racks, one side of horizontal base evenly is provided with two sets of lateral shifting sliders, the opposite side of horizontal base evenly is provided with two sets of lateral shifting control sliders, lateral shifting slider sliding connection has first horizontal slide rail, lateral shifting control slider sliding connection has the horizontal slide rail of second, the one end fixedly connected with horizontal connecting rod of first horizontal slide rail and the horizontal slide rail of second, one side of horizontal connecting rod is provided with the screw thread slide bar, lateral shifting control slider and screw thread slide bar screw thread sliding connection, the one end of the horizontal slide rail of second is provided with driving motor, driving motor's output shaft has drive gear, the drive gear meshing is linked there is the slide bar gear, slide bar gear and screw thread slide bar fixed connection.

Preferably: longitudinal sliding blocks are arranged on two sides of the longitudinal moving sliding column and are connected in the longitudinal sliding groove in a sliding mode, and the longitudinal moving sliding column can longitudinally slide along the longitudinal sliding groove through the longitudinal sliding blocks.

Preferably: the longitudinal rack is meshed with the longitudinal control gear, and the first servo motor can drive the longitudinal control gear to rotate to control the longitudinal moving sliding column to longitudinally slide.

Preferably: the inboard of balancing weight all is provided with the counter weight slider, the outside of vertical stopper all is provided with the counter weight spout, counter weight slider sliding connection is in the counter weight spout, balancing weight accessible counter weight slider is along counter weight spout longitudinal sliding, the balancing weight passes through the connecting wire and is connected with the longitudinal movement traveller, the weight of the longitudinal movement traveller of can balancing.

Preferably: the transverse movement control sliding block is in interactive connection with the first transverse sliding rail, the transverse movement sliding block is in sliding connection with the second transverse sliding rail, the horizontal base can be driven to horizontally slide along the directions of the first transverse sliding rail and the second transverse sliding rail, and the first transverse sliding rail and the second transverse sliding rail are parallel to each other.

Preferably: horizontal connecting rod is passed to screw thread slide bar one end, screw thread slide bar rotates with horizontal connecting rod to be connected, screw thread slide bar rotates with lateral shifting control slider screw thread to be connected, screw thread slide bar can drive lateral shifting control slider and slide along screw thread slide bar direction when rotating.

Preferably: one section of screw thread slide bar is provided with the slide bar gear, slide bar gear engagement is connected with drive gear, drive gear fixed connection is at driving motor's output shaft, driving motor accessible drive gear drives screw thread slide bar rotation control lateral shifting control slider horizontal direction and removes, the outer end of second lateral sliding rail is provided with motor support, driving motor fixed connection is on motor support.

Preferably: the other ends of the first transverse slide rail, the second transverse slide rail and the threaded slide bar can be connected with relevant structures of the molding equipment in an extending or shortening mode according to requirements.

Compared with the prior art, the utility model has the beneficial effects that:

1. through setting up vertical traveller, through servo motor control traveller longitudinal movement, set up balancing weight and vertical stopper and vertical slide rail, thereby can control the position and the moving process that wet base shifted the mould accurately, thereby make the transfer process more stable, the unstable removal and the oil leak pollution phenomenon that the hydro-cylinder control caused have been avoided, make wet base shift the mould can better with inhale and strain the mould compound die, the quality of product has been improved, through horizontal slide rail and horizontal threaded rod, can control the stable removal of wet base shift mould on the horizontal direction through driving motor steadily, thereby optimized the production flow, and the production efficiency is improved.

Drawings

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

FIG. 2 is a schematic cross-sectional structure of the present invention;

fig. 3 is a front view of the present invention.

FIG. 4 is a cross-sectional view of a horizontal slide rail

In the figure:

1. a wet blank transfer mold; 2. longitudinally moving the traveler; 3. a longitudinal limiting block; 4. a fixed pulley block; 5. a balancing weight; 6. a first servo motor; 7. a horizontal base; 8. a first transverse slide rail; 9. a second transverse slide rail; 10. a horizontal connecting rod; 201. a longitudinal rack; 202. a longitudinal slide block; 301. a longitudinal chute; 302. a counterweight chute; 501. a connecting wire; 502. a counterweight sliding block; 601. a longitudinal control gear; 701. a lateral movement control slider; 702. transversely moving the slide block; 902. a threaded slide bar; 903. a slide bar gear; 904. a drive gear; 905. a drive motor; 906. a motor bracket.

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 wet blank transferring device for molding plant fiber of the present invention comprises a wet blank transferring mold 1, a longitudinal moving slide column 2 is fixedly connected to the top end of the wet blank transferring mold 1, longitudinal limiting blocks 3 are slidably connected to both sides of the longitudinal moving slide column 2, a fixed pulley block 4 is disposed at the top end of the longitudinal limiting block 3, a counterweight block 5 is disposed at the outer side of the longitudinal limiting block 3, a connecting line 501 is connected to the upper end of the counterweight block 5, the counterweight block 5 is connected to the longitudinal limiting block 3 through the fixed pulley block 4 and the connecting line 501, a longitudinal rack 201 is disposed at the front end of the longitudinal moving slide column 2, the longitudinal limiting block 3 is fixedly connected to a horizontal base 7, a first servo motor 6 is disposed on the surface of the horizontal base 7, and a longitudinal control gear 601 is fixedly connected to the power output shaft of the first servo motor 6, the longitudinal control gear 601 is meshed with the longitudinal rack 201, two groups of transverse moving sliding blocks 702 are uniformly arranged on one side of the horizontal base 7, two groups of transverse moving control sliding blocks 701 are uniformly arranged on the other side of the horizontal base 7, a first transverse sliding rail 8 is connected to each transverse moving sliding block 702 in a sliding manner, a second transverse sliding rail 9 is connected to each transverse moving control sliding block 701 in a sliding manner, a horizontal connecting rod 10 is fixedly connected to one end of each of the first transverse sliding rail 8 and the second transverse sliding rail 9, a threaded sliding rod 902 is arranged on one side of each horizontal connecting rod 10, each transverse moving control sliding block 701 is in threaded sliding connection with the threaded sliding rod 902, a driving motor 905 is arranged at one end of each second transverse sliding rail 9, a driving gear 904 is connected to an output shaft of each driving motor 905, a sliding rod gear 903 is meshed and linked with each driving gear 904, and the sliding rod gear 903 is fixedly connected with the threaded sliding rod 902, through the longitudinal movement of the first servo motor 6 control longitudinal movement sliding column 2, set up the balancing weight 5 and the longitudinal stopper 3 and the longitudinal slide rail 301, thereby can control the position and the moving process of the wet blank transfer mould 1 accurately, thereby make the transfer process more stable, avoid the unstable removal and the oil leak pollution phenomenon that the hydro-cylinder control caused.

The longitudinal sliding block 202 is arranged on each of two sides of the longitudinal sliding column 2, the longitudinal sliding block 202 is connected in the longitudinal sliding groove 301 in a sliding mode, and the longitudinal sliding column 2 can slide longitudinally along the longitudinal sliding groove 301 through the longitudinal sliding block 202. The longitudinal rack 201 is engaged with the longitudinal control gear 601, and the first servo motor 6 can drive the longitudinal control gear 601 to rotate to control the longitudinal moving sliding column 2 to longitudinally slide. The inboard of balancing weight 5 all is provided with counter weight slider 502, the outside of vertical stopper 3 all is provided with counter weight spout 302, counter weight slider 502 sliding connection is in counter weight spout 302, 5 accessible counter weight sliders 502 of balancing weight vertically slide along counter weight spout 302, balancing weight 5 is connected with longitudinal movement traveller 2 through connecting wire 501, the weight of the longitudinal movement traveller 2 of can balancing. The lateral movement control slider 701 is interactively connected with a first lateral sliding rail 8, the lateral movement slider 702 is slidably connected with a second lateral sliding rail 9, the horizontal base 7 can be driven to horizontally slide along the directions of the first lateral sliding rail 8 and the second lateral sliding rail 9, and the first lateral sliding rail 8 and the second lateral sliding rail 9 are parallel to each other. One end of the threaded sliding rod 902 penetrates through the horizontal connecting rod 10, the threaded sliding rod 902 is rotatably connected with the transverse movement control sliding block 701 through threads, and the transverse movement control sliding block 701 can be driven to slide along the direction of the threaded sliding rod 902 when the threaded sliding rod 902 rotates. One section of screw thread slide 902 is provided with slide bar gear 903, slide bar gear 903 meshing is connected with drive gear 904, drive gear 904 fixed connection is at driving motor 905's output shaft, driving motor 905 accessible drive gear 904 drives screw thread slide 902 rotation control lateral shifting control slider 701 horizontal direction and removes, the outer end of second lateral slide 9 is provided with motor support 906, driving motor 905 fixed connection is on motor support 906. The other ends of the first transverse slide rail 8, the second transverse slide rail 9 and the threaded slide rod 902 can be connected with relevant structures of molding equipment in an extending or shortening mode according to requirements, and the second transverse slide rail 9 and the threaded slide rod 902 can control the wet blank transfer mold 1 to stably move in the horizontal direction through the driving motor 905, so that the production flow is optimized, and the production efficiency is improved.

The working process of the utility model is as follows: through 6 control longitudinal movement travelers longitudinal sliding of first servo motor to drive wet base and remove mould 1 and in vertical stable removal and location, thereby can with inhale the compound die that strains the mould accuracy, drive screw slide 902 through driving motor 905 and rotate, drive horizontal base 7 is stable removal in the horizontal direction, make wet base transfer mould 1 can shift to stoving mould or hot pressing mould department with wet base level.

Wherein: the first servo motor 6, the driving motor 905, the threaded sliding rod 902, the fixed pulley block 4, the balancing weight 5 and the wet blank moving mold 1 are all mature production technologies and equipment which are already applied in real life.

While the utility model has been described in further detail in connection with specific embodiments thereof, it will be understood that the utility model is not limited thereto, and that various other modifications and substitutions may be made by those skilled in the art without departing from the spirit of the utility model, which should be considered to be within the scope of the utility model as defined by the appended claims.

Claims (8)

1. A plant fiber molding wet blank transfer device comprises a wet blank transfer mold (1), and is characterized in that: the wet blank transferring die is characterized in that a longitudinally moving sliding column (2) is fixedly connected to the top end of the wet blank transferring die (1), longitudinal limiting blocks (3) are connected to two sides of the longitudinally moving sliding column (2) in a sliding mode, a fixed pulley block (4) is arranged at the top end of each longitudinal limiting block (3), balancing weights (5) are arranged on the outer sides of the longitudinal limiting blocks (3), connecting lines (501) are connected to the upper ends of the balancing weights (5), the balancing weights (5) are connected with the longitudinal limiting blocks (3) through the fixed pulley blocks (4) and the connecting lines (501), a longitudinal rack (201) is arranged at the front end of each longitudinally moving sliding column (2), each longitudinal limiting block (3) is fixedly connected with a horizontal base (7), a first servo motor (6) is arranged on the surface of each horizontal base (7), and a longitudinal control gear (601) is fixedly connected to a power output shaft of each first servo motor (6), the vertical control gear (601) is meshed with the vertical rack (201) and connected, one side of the horizontal base (7) is uniformly provided with two groups of transverse moving sliders (702), the other side of the horizontal base (7) is uniformly provided with two groups of transverse moving control sliders (701), the transverse moving sliders (702) are connected with first transverse sliding rails (8) in a sliding manner, the transverse moving control sliders (701) are connected with second transverse sliding rails (9) in a sliding manner, one ends of the first transverse sliding rails (8) and the second transverse sliding rails (9) are fixedly connected with horizontal connecting rods (10), one sides of the horizontal connecting rods (10) are provided with threaded sliding rods (902), the transverse moving control sliders (701) are connected with the threaded sliding rods (902) in a sliding manner, one ends of the second transverse sliding rails (9) are provided with driving motors (905), output shafts of the driving motors (905) are connected with driving gears (904), the driving gear (904) is connected with a sliding rod gear (903) in a meshed and linked mode, and the sliding rod gear (903) is fixedly connected with a threaded sliding rod (902).

2. The plant fiber molding wet blank transfer device as claimed in claim 1, wherein: longitudinal sliding blocks (202) are arranged on two sides of the longitudinal moving sliding column (2), the longitudinal sliding blocks (202) are connected in the longitudinal sliding groove (301) in a sliding mode, and the longitudinal moving sliding column (2) can slide longitudinally along the longitudinal sliding groove (301) through the longitudinal sliding blocks (202).

3. The plant fiber molding wet blank transfer device as claimed in claim 1, wherein: the longitudinal rack (201) is meshed with the longitudinal control gear (601), and the first servo motor (6) can drive the longitudinal control gear (601) to rotate to control the longitudinal sliding of the longitudinal moving sliding column (2).

4. The plant fiber molding wet blank transfer device as claimed in claim 1, wherein: the inboard of balancing weight (5) all is provided with counter weight slider (502), the outside of vertical stopper (3) all is provided with counter weight spout (302), counter weight slider (502) sliding connection is in counter weight spout (302), balancing weight (5) accessible counter weight slider (502) are along counter weight spout (302) longitudinal sliding, balancing weight (5) are connected with longitudinal movement traveller (2) through connecting wire (501), but the weight of balanced longitudinal movement traveller (2).

5. The plant fiber molding wet blank transfer device as claimed in claim 1, wherein: the horizontal movement control sliding block (701) is interactively connected with a first horizontal sliding rail (8), the horizontal movement sliding block (702) is in sliding connection with a second horizontal sliding rail (9) and can drive a horizontal base (7) to horizontally slide along the directions of the first horizontal sliding rail (8) and the second horizontal sliding rail (9), and the first horizontal sliding rail (8) and the second horizontal sliding rail (9) are parallel to each other.

6. The plant fiber molding wet blank transfer device as claimed in claim 1, wherein: horizontal connecting rod (10) is passed to screw thread slide bar (902) one end, screw thread slide bar (902) rotate with horizontal connecting rod (10) and are connected, screw thread slide bar (902) and lateral shifting control slider (701) screw thread rotation are connected, can drive lateral shifting control slider (701) when screw thread slide bar (902) rotate and slide along screw thread slide bar (902) direction.

7. The plant fiber molding wet blank transfer device as claimed in claim 1, wherein: one section of screw thread slide bar (902) is provided with slide bar gear (903), slide bar gear (903) meshing is connected with drive gear (904), drive gear (904) fixed connection is at the output shaft of driving motor (905), driving motor (905) accessible drive gear (904) drive screw thread slide bar (902) rotation control lateral shifting control slider (701) horizontal direction removes, the outer end of second transverse sliding rail (9) is provided with motor support (906), driving motor (905) fixed connection is on motor support (906).

8. The plant fiber molding wet blank transfer device as claimed in claim 1, wherein: the other ends of the first transverse sliding rail (8), the second transverse sliding rail (9) and the threaded sliding rod (902) can be connected with relevant structures of the molding equipment in an extending or shortening mode according to requirements.

Images