CN214442563U - Automatic stacking device - Google Patents

Abstract

The utility model provides an automatic windrow device sets up a discharge gate department of mould on the press, include: the device comprises a sliding device, a base and a lifting platform; the material sliding device is used for guiding materials to slide downwards to the lifting platform and comprises an obliquely arranged material sliding plate, one end of the material sliding plate is connected with the discharge port, and the other end of the material sliding plate is arranged above one end of the lifting platform; the lifting platform is used for stacking materials and comprises a stacking platform and a lifting mechanism arranged below the stacking platform; the lifting platform is arranged on the base, the base comprises a plurality of material pushers arranged on the periphery of the stacking platform, and the material pushers are used for enabling materials to be stacked on the stacking platform. Through the utility model discloses a synchronous windrow function in the time of the blanking can be realized to the scheme.

Description

Automatic stacking device

Technical Field

The utility model relates to an automatic control technical field, concretely relates to automatic windrow device.

Background

At present, most part companies have economic two-wire uncoiling lines, and the production line has the functions of automatic uncoiling, leveling, blanking, rear-side stacking and the like.

In the prior art, the design style of a blanking die is usually a one-punching-one-time-two-sheet mode, namely, in the production process, a piece of blanking is simultaneously formed on the rear side and the front side of a blanking press, the rear side and the front side of the blanking press are provided with an automatic stacking mechanism, and the front side adopts manual material receiving.

However, in the prior art, the mode that the front side adopts manual material receiving is low in efficiency, and wastes time and labor.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides an automatic blevile of push improves the efficiency of stacking of two lines of decoiling front side blanking.

In order to solve the above problem, the technical scheme of the utility model is to provide an automatic windrow device sets up a discharge gate department of mould on the press, include: the device comprises a sliding device, a base and a lifting platform;

the material sliding device is used for guiding materials to slide downwards to the lifting platform and comprises an obliquely arranged material sliding plate, one end of the material sliding plate is connected with the discharge port, and the other end of the material sliding plate is arranged above one end of the lifting platform;

the lifting platform is used for stacking materials and comprises a stacking platform and a lifting mechanism arranged below the stacking platform;

the lifting platform is arranged on the base, the base comprises a plurality of material pushers arranged on the periphery of the stacking platform, and the material pushers are used for enabling materials to be stacked on the stacking platform.

In a possible implementation manner, a plurality of guide rollers are arranged on the contact surface of the material sliding plate and the material.

In one possible embodiment, the guide rollers are arranged uniformly on the slide plate.

In a possible implementation manner, the sliding device further includes a support, the front and rear side portions of the sliding plate are respectively mounted on the support, a plurality of adjusting holes are formed in the support at positions where the sliding plate is mounted, and the front and rear side portions of the sliding plate are respectively mounted in the corresponding adjusting holes through fasteners so as to adjust the mounting height and the mounting angle of the sliding plate.

In one possible implementation, the lifting mechanism is configured as a scissor-fork lifting mechanism.

In a possible implementation mode, be provided with a plurality of vertical beams on the base, the ejector setting is in the top of vertical beam, the ejector include the cylinder and with the striker plate that the cylinder is connected, the striker plate sets up the periphery of windrow platform, the cylinder is used for promoting the striker plate court remove in the windrow platform.

In a possible implementation manner, a blanking baffle is installed at the front end of the base through a vertical beam and used for blocking materials from continuously sliding forwards on the stacking platform.

The embodiment of the utility model provides an automatic windrow device carries the material to the elevating platform through adopting smooth material device on, sets up a plurality of stokers that can make the material stack in the middle of the elevating platform in the elevating platform periphery, realizes a plurality of materials through the slow decline of elevating platform and stacks on the elevating platform to realize the windrow when having realized the material whereabouts, improved efficiency.

Drawings

Fig. 1 is a diagram illustrating an overall connection structure of an automatic pushing device according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a material sliding device according to an embodiment of the present invention;

FIG. 3 is an enlarged view of part A of FIG. 2;

fig. 4 is a schematic view of a base structure according to an embodiment of the present invention;

fig. 5 is a schematic structural view of an elevating platform according to an embodiment of the present invention.

Description of reference numerals:

10-a material sliding device; 20-a lifting platform; 30-a base; 40-a mould; 50-a press; 11-a sliding material plate; 111-guide rollers; 112-a guide plate; 12-a scaffold; 121-a regulating hole; 31-a cylinder; 32-striker plate; 33-vertical beam; 34-a chassis; 35-a blanking baffle; 21-a stockpiling platform; 22-lead screw rotating handle; 23-lifting mechanism.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1 to 5, the present embodiment provides an automatic stacking apparatus provided at a discharge port of a die 40 on a press 50, including: the material sliding device 10, the base 30 and the lifting platform 20.

The material sliding device 10 is used for sliding down materials, and includes a material sliding plate 11 disposed obliquely, the top end of the material sliding plate 11 is overlapped with the discharge port of the mold 40, optionally, the discharge port may be a waste material chute port of the mold 40, and the bottom end of the material sliding plate 11 is overlapped with the upper portion of the feed end of the lifting table 20. That is, the material sliding device 10 conveys the material onto the lifting table 20 by being guided by the material sliding plate 11.

In one possible implementation, the lifting platform 20 is used for stacking materials, and includes a stacking platform 21 and a lifting mechanism 23 disposed below the stacking platform 21. That is to say, when the material slides down from the sliding device 10 to the stacking platform 21, the material is stacked on the stacking platform 21 by the descending of the lifting mechanism 23 below, that is, when the material is stacked on the stacking platform 21 with a certain height, correspondingly, the lifting mechanism 23 can be adjusted to drive the stacking platform 21 to descend or have a height, so as to stack the material.

In order to stack the material, the lifting platform 20 is arranged on the base 30, and a plurality of ejectors are arranged on the base 30 at the periphery of the stacking platform 21 and used for stacking the material on the stacking platform 21.

That is, a plurality of ejectors having material blocking and pushing functions are disposed around the stacking platform 21, and when the material slides down from the sliding plate 11 onto the stacking platform, the ejectors disposed around the stacking platform 21 push the material so that the material is disposed on the stacking platform 21, for example, the material is centered on the stacking platform 21.

In the embodiment, the material stacking is realized by the combined action of the material sliding device 10, the lifting platform 20 and the material stacking device on the base 30, the synchronous operation of the blanking and the material stacking can be realized, and after the material is stacked on the material stacking device to a certain height, the material is carried by external carrying equipment together.

In a possible implementation, a plurality of guide rollers 111 are arranged on the contact surface of the material slide plate 11 and the material. Specifically, a plurality of rows of guide pulley blocks are arranged on the surface of the material sliding plate 11, each guide pulley block comprises a plurality of guide rollers 111, the guide rollers 111 are arranged between two parallel plates through central shafts, the central shafts of the guide rollers 111 are arranged in parallel, and each guide roller 111 can be in contact with the surface of the material. A plurality of guide rollers 111 are provided in parallel on the slip sheet 11 at intervals. That is, when the material slides down from the material sliding plate 11, the guide roller 111 can guide the material, and the guide roller 111 can also play a role of reducing friction.

Optionally, a guide plate 112 without pulleys is provided at the bottom end of the sliding plate 11, and the guide plate 112 is used for slowly guiding the materials above the stacking platform 21. The guide plate 112 is not provided with the guide roller 111, so that the friction force of the material sliding plate 11 can be increased, and the impact of the materials on the stacking platform 21 is reduced. Optionally, the guide rollers 111 are uniformly arranged on the slip sheet 11.

In a possible implementation manner, the material sliding device 10 further includes a bracket 12, and the front and rear side portions of the material sliding plate 11 are respectively mounted on the bracket 12. Specifically, the material slide plate 11 is provided in a square structure, lugs are provided at corresponding mounting positions of the front and rear portions of both sides of the material slide plate 11, mounting holes are provided in the lugs, and the material slide plate 11 is mounted on the bracket 12 by fasteners such as bolts. Optionally, in order to make the height and angle of the bracket 12 adjustable, a plurality of adjusting holes 121 are provided at the corresponding mounting positions of the bracket 12. When the front and rear parts of the slide plate 11 are moved into the adjusting holes 121 with the same longitudinal distance, the overall height of the slide plate 11 can be adjusted, and when the front and rear parts of the slide plate 11 are moved into the adjusting holes 121 with different longitudinal distances, the angle of the slide plate 11 can be adjusted. Of course both height and angle can be adjusted.

Alternatively, the lifting mechanism 23 is provided as a scissor-fork lifting mechanism. The scissors fork type lifting mechanism refers to a cross type lifting mechanism 23 similar to scissors, the top and the bottom of the scissors fork type lifting mechanism are respectively provided with a point which is a movable point, the movable point is arranged in a limiting block with a limiting groove, and the movable point can move a certain distance in a horizontal line in the limiting block. Optionally, the movable point at the bottom of the lifting mechanism 23 is connected through a screw rod mechanism, and the screw rod of the screw rod mechanism drives the movable point at the bottom to move linearly by rotating the screw rod rotating handle 22 of the screw rod mechanism, so that the scissors fork is folded or unfolded to realize the lifting of the stacking platform 21.

Alternatively, the lifting mechanism 23 may be a hydraulic cylinder or a screw mechanism may be driven by a motor, and the screw mechanism may be driven manually.

In a possible implementation, a plurality of vertical beams 33 are arranged on the base 30, and the vertical beams 33 are arranged on the underframe 34. The stoker sets up the top of founding roof beam 33, the stoker include cylinder 31 and with the striker plate that cylinder 31 is connected, the striker plate sets up the periphery of windrow platform 21, cylinder 31 is used for promoting the striker plate court remove in the windrow platform 21.

Specifically, a plurality of vertical beams 33 are disposed on the top plane of the base 30, and optionally, 5 vertical beams 33 are disposed, four of the vertical beams are disposed on two sides of the stacking platform 21 in a pairwise opposite manner, and the other vertical beam is disposed at the feeding end of the stacking platform 21. Optionally, the top of each of the 5 vertical beams 33 is provided with a cylinder 31, the extending end of the piston rod of each cylinder 31 is connected with a striker plate 32, and optionally, the striker plates 32 can contact with the side surfaces of the materials and push the materials into the stacking platform 21 under the action of the cylinders 31, so that the materials are centered on the stacking platform 21. In this embodiment, the pusher primarily pushes the top stack of material under the influence of the lifting mechanism 23.

In a possible implementation manner, a blanking baffle 35 is disposed at an end of the stacking platform 21 opposite to the feeding end, the blanking baffle 35 is used for preventing the material from continuously sliding forward on the stacking platform 21, and the blanking baffle 35 is supported by two vertical beams 33. That is, the blanking baffle 35 is disposed at the end where no pusher is disposed, and one pusher can be saved by the action of the blanking baffle 35.

Optionally, 5 cylinders 31 are connected in series through T-joints, two speed control valves are respectively added at the gas inlet and outlet ends to control the thrust of the cylinders 31, and finally, two SMC male screw plugs are connected with a gas source at the front side of the press 50 and the press 50 panel controls the movement of 5 feeders. In order to ensure that the stacking cylinder 31 is synchronous with the blanking stroke frequency, the mechanism directly adopts an air source provided by the second line, and the synchronous stacking function can be achieved by modifying the output time difference of the air source of the second line.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (7)

1. The utility model provides an automatic windrow device, sets up a discharge gate department at mould on the press which characterized in that includes: the device comprises a sliding device, a base and a lifting platform;

the material sliding device is used for guiding materials to slide downwards to the lifting platform and comprises an obliquely arranged material sliding plate, one end of the material sliding plate is connected with the discharge port, and the other end of the material sliding plate is arranged above one end of the lifting platform;

the lifting platform is used for stacking materials and comprises a stacking platform and a lifting mechanism arranged below the stacking platform;

the lifting platform is arranged on the base, the base comprises a plurality of material pushers arranged on the periphery of the stacking platform, and the material pushers are used for enabling materials to be stacked on the stacking platform.

2. The automatic stacking device of claim 1, wherein a plurality of guide rollers are disposed on a contact surface of the material sliding plate and the material.

3. The automated stacking apparatus according to claim 2, wherein the guide rollers are uniformly arranged on the slip sheet.

4. The automatic stacking device according to claim 1, wherein the sliding device further comprises a bracket, the front and rear side portions of the sliding plate are respectively mounted on the bracket, the bracket is provided with a plurality of adjusting holes at positions where the sliding plate is mounted, and the front and rear side portions of the sliding plate are respectively mounted in the corresponding adjusting holes through fasteners so as to adjust the mounting height and the mounting angle of the sliding plate.

5. The automated stacking apparatus of claim 1, wherein the lifting mechanism is configured as a scissor-like lifting mechanism.

6. The automatic stacking device of claim 1, wherein a plurality of vertical beams are arranged on the base, the pusher is arranged at the tops of the vertical beams, the pusher comprises an air cylinder and a striker plate connected with the air cylinder, the striker plate is arranged at the periphery of the stacking platform, and the air cylinder is used for pushing the striker plate to move towards the inside of the stacking platform.

7. The automatic stacking device of claim 1, wherein a blanking baffle is mounted at the front end of the base through an upright beam, and the blanking baffle is used for preventing materials from continuously sliding forwards on the stacking platform.

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