CN216329429U - Automatic product storage device of full-automatic forming machine for shoe stretcher - Google Patents

Abstract

The utility model discloses an automatic product storage device of a full-automatic forming machine for a shoe stretcher, which comprises a first support frame, the full-automatic forming machine, a shoe stretcher die arranged on the full-automatic forming machine and an automatic summarizing device arranged on the first support frame, wherein the automatic summarizing device comprises a partition plate and a first storage frame, the first support frame is positioned right below the shoe stretcher die, a conveying assembly is arranged on the first support frame, the partition plate is arranged on the conveying assembly, the first storage frame is positioned on the side wall of the conveying assembly, a plurality of universal wheels are arranged at the bottom of the first storage frame, supporting springs are fixed at the tops of the universal wheels, one ends of the supporting springs, far away from the universal wheels, are fixed at the bottom of the first storage frame, an extension plate is fixed on the side wall of the bottom of the first support frame, a weight sensor is fixed on the extension plate and positioned at the bottom of the first storage frame, and the problem that the existing shoe stretcher is not positively and negatively distinguished in the manufacturing process is solved, so that the shoe stretcher needs to be manually distinguished and stored in the subsequent storage process.

Description

Automatic product storage device of full-automatic forming machine for shoe stretcher

Technical Field

The utility model relates to automatic product collection, in particular to an automatic product storage device of a full-automatic forming machine for shoe stretchers.

Background

The shoe tree generally all has positive and negative branch, often can carry out together preparation with positive and negative shoe tree in a pair mould, can make the product chaotic like this, and present shoe tree can pour into automatic conveying line with one in the mould after the shaping on, convey the product through automatic conveying line and collect in the goods frame, nevertheless because the in-process of preparation shoe tree does not distinguish positive and negative of shoe tree, so the shoe tree can mix together when dropping on the automatic conveying line, still need artifically to distinguish positive and negative shoe tree in follow-up, both improved the cost of labor and also reduced production efficiency greatly, the following solution is proposed to more than the problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic product storage device of a full-automatic forming machine for a shoe stretcher, which solves the problem that the existing shoe stretcher is not distinguished in the positive and negative directions in the manufacturing process, so that the shoe stretcher needs to be distinguished and stored manually in the subsequent storage process.

The technical purpose of the utility model is realized by the following technical scheme:

a product automatic storage device of a full-automatic forming machine for a shoe stretcher comprises a first support frame, the full-automatic forming machine, a shoe stretcher mold arranged on the full-automatic forming machine, and an automatic storage device arranged on the first support frame, wherein the automatic storage device comprises a partition plate and a first storage frame, the first support frame is positioned under the shoe stretcher mold, a conveying assembly is arranged on the first support frame, the partition plate is arranged on the conveying assembly, the first storage frame is positioned on the side wall of the conveying assembly, the first storage frame is internally fixed with a partition plate corresponding to the partition plate, the bottom of the first storage frame is provided with a plurality of universal wheels, the top of each universal wheel is fixed with a support spring, one end of each support spring, far away from the universal wheels, is fixed at the bottom of the first storage frame, the side wall at the bottom of the first support frame is fixed with an extension plate, and a weight sensor is fixed on the extension plate, the weight sensor is located at the bottom of the first storage frame, and the first support frame is further provided with a replacing device which is convenient for replacing the stored first storage frame.

By adopting the technical scheme, when the shoe stretcher is automatically stored, the shoe stretcher is firstly produced by a full-automatic forming machine through a shoe stretcher die, the produced shoe stretchers respectively fall on two sides of a conveying assembly, the conveying assembly is divided into two parts through a partition plate, the shoe stretchers are driven by the conveying component to respectively fall into the first accommodating frame, along with the increase of the number of the shoe stretchers in the first accommodating frame, so that the receiving frame will sink due to the influence of gravity, and the receiving frame will squeeze the supporting spring, and the bottom of the first accommodating frame is contacted with a weight sensor which is provided with a specified numerical value, when the weight of the first storage frame reaches the specified value, the weight sensor will transmit a signal to the replacing device, thereby through changing the device with the frame promotion of accomodating that can fill up, with new frame propulsion of accomodating to can realize lasting accomodating, improve production efficiency.

The utility model is further arranged in that the replacing device comprises a first air cylinder and a second accommodating frame, the first air cylinder is fixed on the extending plate, an output shaft of the first air cylinder penetrates through the extending plate and is fixedly provided with a push plate, the push plate corresponds to the first accommodating frame, the side wall of the bottom of the extending plate is fixedly provided with the second air cylinder, an output shaft of the second air cylinder is fixedly provided with a pull plate, the pull plate is in contact with the second accommodating frame, and the second accommodating frame is positioned on the side wall of the first accommodating frame.

Adopt above-mentioned technical scheme, can transmit signal for cylinder one when weight sensor senses the weight of accomodating frame one and reachs the specified value, thereby stretch out through cylinder piston rod and drive the promotion and stretch out, utilize the push pedal to promote to accomodate the frame and outwards remove, the piston rod withdrawal of cylinder one after accomodating frame one and promoting the assigned position, at this moment, cylinder two starts, thereby it slides to drive the arm-tie through stretching out of cylinder two piston rod, it slides to utilize the arm-tie pulling to accomodate frame two, make and to accomodate frame two and stimulate the position of originally accomodating frame one, thereby work efficiency has been improved, shoe stretcher in utilizing the manual work to accomodate frame one pushes away to handle, and position in originally accomodating frame two appears and impels an empty frame two of accomodating.

The conveying assembly comprises a first conveying belt, a second conveying belt and two rotating columns, the two rotating columns are rotatably arranged on two sides of the first supporting frame, the partition is fixed on the first supporting frame, the two rotating columns penetrate through the partition and are rotatably arranged on the partition, the first conveying belt and the second conveying belt are both arranged on the two rotating columns, the first conveying belt and the second conveying belt are located on two sides of the partition, the two rotating columns are connected through the first conveying belt and the second conveying belt, a driving motor is fixed on the first supporting frame, and an output shaft of the driving motor penetrates through one side of the first supporting frame and is fixed with the rotating column on one side.

By adopting the technical scheme, when the front and back shoe stretcher falls to the first conveyor belt and the second conveyor belt, the driving motor is started, the rotating column on one side is driven to rotate by the driving motor, the first conveyor belt and the second conveyor belt are driven to convey by the rotating column, and the rotating column on the other side is driven to rotate by the first conveyor belt and the second conveyor belt, so that the shoe stretcher is driven to convey.

The shoe stretcher is further characterized in that the shoe stretcher mold is divided into a left mold and a right mold, the left mold is fixed on one side of a full-automatic forming machine, a third air cylinder is symmetrically fixed on the other side of the full-automatic forming machine, an output shaft of the third air cylinder is fixed with the right mold, the right mold is arranged on the full-automatic forming machine in a sliding mode, a first partition plate is fixed on the left mold, and a wide groove corresponding to the first partition plate is formed in the right mold.

Adopt above-mentioned technical scheme, thereby produce the shoe stretcher through the cooperation between left mould and the right mould, through the promotion of three pairs of right moulds of cylinder for production becomes more convenient, thereby utilizes division board one to divide into two cavities with left mould, and the model opposite side that one side is positive shoe stretcher is convenient for can be more convenient in the later stage conclude it and collect for the model of anti-shoe stretcher.

The utility model is further provided that a grid baffle is further fixed on the side wall of the bottom of the first support frame, and touch sensors are symmetrically fixed on the grid baffle.

Adopt above-mentioned technical scheme, through check baffle to the removal of the frame two of accomodating of both sides play limiting displacement, and it is when accomodating frame two and contacting touch sensor, thereby touch sensor can transmit signal and stop to promote the piston rod to retract to original position by cylinder two control cylinder two.

The utility model is further provided that a controller is fixed on the first support frame.

By adopting the technical scheme, the controller is used for controlling the running states of the driving motor, the first cylinder, the second cylinder and the third cylinder, so that the driving motor, the first cylinder, the second cylinder and the third cylinder can always keep the most appropriate running state.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is a schematic structural diagram of a transfer assembly according to an embodiment;

fig. 3 is a schematic structural diagram for showing the replacing device according to the embodiment.

Reference numerals: 1. a first support frame; 2. a full-automatic forming machine; 3. a shoe stretcher mold; 4. an automatic induction device; 5. a partition plate; 6. a first storage frame; 7. a transfer assembly; 8. a universal wheel; 9. a support spring; 10. an extension plate; 11. a weight sensor; 12. replacing the device; 13. a first cylinder; 14. a second storage frame; 15. pushing the plate; 16. a second air cylinder; 17. pulling a plate; 18. a first conveyor belt; 19. a second conveyor belt; 20. rotating the column; 21. a drive motor; 22. a left mold; 23. a right mold; 24. a third air cylinder; 25. a first partition plate; 26. a wide groove; 27. a grid baffle; 28. a touch sensor; 29. a controller; 30. a partition plate.

Detailed Description

The following description is only a preferred embodiment of the present invention, and the protection scope is not limited to the embodiment, and any technical solution that falls under the idea of the present invention should fall within the protection scope of the present invention. It should also be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model.

Referring to fig. 1 to 3, a product automatic storage device of a full-automatic forming machine for a shoe stretcher comprises a first support frame 1, a full-automatic forming machine 2, a shoe stretcher mold 3 arranged on the full-automatic forming machine 2, and an automatic storage device 4 arranged on the first support frame 1, wherein the automatic storage device 4 comprises a partition plate 5 and two first storage frames 6, the first support frame 1 is positioned under the shoe stretcher mold 3, the shoe stretcher mold 3 is divided into a left mold 22 and a right mold 23, the shoe stretcher can be produced by matching the left mold 22 with the right mold 23, the left mold 22 is fixed on one side of the full-automatic forming machine 2, three cylinders 24 are symmetrically fixed on the other side of the full-automatic forming machine 2, output shafts of the three cylinders 24 are fixed with the right mold 23, the right mold 23 is arranged on the full-automatic forming machine 2 in a sliding manner, and the production becomes more convenient by pushing the right mold 23 through the three cylinders 24, the first partition plate 305 is fixed on the left die 22, the wide groove 26 corresponding to the first partition plate 305 is formed in the right die 23, the first partition plate 305 is utilized to divide the left die 22 into two chambers, and a model with a front shoe stretcher on one side and a reverse shoe stretcher on the other side is convenient to summarize and collect in the later stage more conveniently.

Referring to fig. 1 and 2, a conveying assembly 7 is arranged on a first support frame 1, a partition plate 5 is arranged on the conveying assembly 7, the conveying assembly 7 is improved to transport and store products produced by a shoe stretcher mold 3, the conveying assembly 7 comprises a first conveying belt 18, a second conveying belt 19 and two rotating columns 20, the two rotating columns 20 are rotatably arranged on two sides of the first support frame 1, the partition plate 5 is fixed on the first support frame 1, the two rotating columns 20 penetrate through the partition plate 5 and are rotatably arranged on the partition plate 5, a driving motor 21 is fixed on the first support frame 1, a controller 29 is fixed on the first support frame 1, the driving motor 21 is started through the controller 29, an output shaft of the driving motor 21 penetrates through one side of the first support frame 1 and is fixed with the rotating column 20 on one side, the rotating column 20 on one side is driven to rotate through the driving motor 21, the first conveying belt 18 and the second conveying belt 19 are both arranged on the two rotating columns 20, and the first conveying belt 18 and the second conveying belt 19 are positioned on two sides of the partition plate 5, the two rotating columns 20 are connected through the first conveyor belt 18 and the second conveyor belt 19, the first conveyor belt 18 and the second conveyor belt 19 are driven to convey through the rotating columns 20, the rotating columns 20 on the other side are driven to rotate through the first conveyor belt 18 and the second conveyor belt 19, a front shoe stretcher and a back shoe stretcher which fall from the shoe stretcher mold 3 can fall onto the first conveyor belt 18 and the second conveyor belt 19 respectively, and therefore the shoe stretcher is driven to convey through the first conveyor belt 18 and the second conveyor belt 19.

Referring to fig. 3, a first receiving frame 6 is positioned on the side wall of a conveying assembly 7, a partition plate 30 corresponding to a partition plate 5 is fixed in the first receiving frame 6, each shoe stretcher can continuously fall into two spaces of the first receiving frame 6 divided by the partition plate 30 along with a first conveying belt 18 and a second conveying belt 19, a plurality of universal wheels 8 are arranged at the bottom of the first receiving frame 6, a supporting spring 9 is fixed at the top of each universal wheel 8, one end of the supporting spring 9, far away from the universal wheels 8, is fixed at the bottom of the first receiving frame 6, an extension plate 10 is fixed on the side wall of the bottom of the first supporting frame 1, a weight sensor 11 is fixed on the extension plate 10, the weight sensor 11 is positioned at the bottom of the first receiving frame 6, as the number of the shoe stretchers in the first receiving frame 6 increases, the first receiving frame 6 can sink due to the influence of gravity, the first receiving frame 6 can extrude the supporting spring 9, and the bottom of the first receiving frame 6 can contact with the weight sensor 11, the first support frame 1 is further provided with a replacing device 12 which is convenient for replacing the stored first storage frame 6, the weight sensor 11 is provided with a specified value, when the weight of the first storage frame 6 reaches the specified value, the weight sensor 11 can transmit a signal to the replacing device 12, and the first storage frame 6 which can be filled is pushed to leave the original position through the replacing device 12.

Referring to fig. 3, the replacing device 12 includes a first cylinder 13 and a second receiving frame 14, the first cylinder 13 is fixed on the extension plate 10, an output shaft of the first cylinder 13 penetrates through the extension plate 10 and is fixed with a push plate 15, the weight sensor 11 transmits a signal to the first cylinder 13, the first cylinder 13 is started, the push plate 15 corresponds to the first receiving frame 6, the push plate 15 is pushed to move by extending a piston rod of the first cylinder 13, so as to realize that the first receiving frame 6 leaves the original position, a lattice baffle 27 is further fixed on a bottom side wall of the first support frame 1, touch sensors 28 are symmetrically fixed on the lattice baffle 27, when the first receiving frame 6 is stored in the original position, the first receiving frame 6 is always in contact with the touch sensors 28, when the first receiving frame 6 gradually leaves the original position, the first receiving frame 6 is not in contact with the touch sensors 28, the second cylinder 16 is fixed on the bottom side wall of the extension plate 10, the second cylinder 16 is started, a pull plate 17 is fixed on an output shaft of the second cylinder 16, the pull plate 17 is in contact with the storage frame II 14, the storage frame II 14 is located on the side wall of the storage frame I6, the pull plate 17 is driven to slide through retraction of the piston rod of the cylinder II 16, the storage frame II 14 is pulled to slide by the pull plate 17, the storage frame II 14 can be pulled to the position of the original storage frame I6, the storage frame II 14 is in contact with the touch sensor 28, the cylinder II 16 does not retract at the moment, the cylinder II 16 stretches out again to return to the original position, uninterrupted work of the storage frame I6 and the storage frame II 14 is utilized, it is guaranteed that the shoe stretcher can be received all the time, working efficiency is improved, labor cost is reduced, and finally, the shoe stretcher in the storage frame I6 is pushed to be processed manually, and an empty storage frame II 14 is pushed to appear at the position of the original storage frame II 14.

Claims (6)

1. The product automatic storage device of the full-automatic forming machine for the shoe stretcher comprises a first support frame (1), the full-automatic forming machine (2) and a shoe stretcher mold (3) arranged on the full-automatic forming machine (2), and is characterized by further comprising an automatic storage device (4) arranged on the first support frame (1), wherein the automatic storage device (4) comprises a partition plate (5) and a first storage frame (6), the first support frame (1) is positioned under the shoe stretcher mold (3), a conveying assembly (7) is arranged on the first support frame (1), the partition plate (5) is arranged on the conveying assembly (7), the first storage frame (6) is positioned on the side wall of the conveying assembly (7), a partition plate (30) corresponding to the partition plate (5) is fixed in the first storage frame (6), and a plurality of universal wheels (8) are arranged at the bottom of the first storage frame (6), each universal wheel (8) top all is fixed with supporting spring (9), the one end that universal wheel (8) were kept away from in supporting spring (9) is fixed in taking in frame (6) bottom, be fixed with extension board (10) on the bottom lateral wall of support frame (1), be fixed with weighing transducer (11) on extension board (10), weighing transducer (11) are located the bottom of taking in frame (6), still be provided with on support frame (1) and be convenient for the change device (12) that will take in frame (6) that will accomodate and change.

2. The automatic product storage device of the full-automatic forming machine for the shoe stretcher comprises a first air cylinder (13) and a second storage frame (14), wherein the first air cylinder (13) is fixed on an extension plate (10), an output shaft of the first air cylinder (13) penetrates through the extension plate (10) and is fixed with a push plate (15), the push plate (15) corresponds to the first storage frame (6), a second air cylinder (16) is fixed on a bottom side wall of the extension plate (10), a pull plate (17) is fixed on an output shaft of the second air cylinder (16), the pull plate (17) is in contact with the second storage frame (14), and the second storage frame (14) is located on a side wall of the first storage frame (6).

3. The automatic product storage device of a full-automatic shoe stretcher molding machine according to claim 2, characterized in that the conveying component (7) comprises a first conveying belt (18), a second conveying belt (19) and two rotating columns (20), the two rotating columns (20) are rotatably arranged on two sides of the first support frame (1), the clapboard is fixed on the first support frame, the two rotating columns penetrate through the clapboard and are rotatably arranged on the clapboard, the first conveyor belt (18) and the second conveyor belt (19) are arranged on the two rotating columns (20), the first conveyor belt (18) and the second conveyor belt (19) are positioned on two sides of the partition board (5), the two rotating columns (20) are connected through the first conveyor belt (18) and the second conveyor belt (19), a driving motor (21) is fixed on the first support frame (1), and an output shaft of the driving motor (21) penetrates through one side of the first support frame (1) and is fixed with a rotating column (20) on one side.

4. The automatic product storage device of the full-automatic forming machine for the shoe stretcher according to claim 3, wherein the shoe stretcher mold (3) is divided into a left mold (22) and a right mold (23), the left mold (22) is fixed on one side of the full-automatic forming machine (2), a third cylinder (24) is symmetrically fixed on the other side of the full-automatic forming machine (2), an output shaft of the third cylinder (24) is fixed with the right mold (23), the right mold (23) is slidably arranged on the full-automatic forming machine (2), a first partition plate (25) is fixed on the left mold (22), and a wide groove (26) corresponding to the first partition plate (25) is formed on the right mold (23).

5. The automatic product storage device of the full-automatic forming machine for the shoe stretcher is characterized in that a lattice baffle (27) is further fixed on the bottom side wall of the first support frame (1), and touch sensors (28) are symmetrically fixed on the lattice baffle (27).

6. The automatic product storage device of a full-automatic shoe stretcher forming machine according to claim 5, wherein a controller (29) is fixed on the first support frame (1).

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