CN219906255U - High-precision feeding device - Google Patents

Abstract

The utility model provides a high-precision feeding device, wherein an end baffle plate, baffle plates and baffle plate fine-tuning mechanisms are arranged on a discharging platform, the end baffle plate and the baffle plates limit materials together, a plurality of groups of avoidance grooves for avoiding the baffle plates are arranged on two sides of the discharging platform, and the positions of the baffle plates can be finely tuned through screw rod parts on the baffle plate fine-tuning mechanisms so as to adapt to materials with different specifications and maintain the positioning precision of the materials; meanwhile, an electric cylinder is arranged on each of the X axis and the Y axis to control the adsorption plate so as to realize high-precision movement of the material, and the material can be precisely moved to a target position. The high-precision feeding device provided by the utility model can realize higher automation degree, improve the working efficiency and reduce the manual error; the utility model has better equipment adaptability and can be matched with different processing equipment.

Description

High-precision feeding device

Technical Field

The utility model relates to auxiliary equipment for material die cutting, in particular to a high-precision feeding device.

Background

The die cutting machine is processing equipment for materials such as sheets, coiled materials, flexible materials and the like, and is commonly applied to die cutting, indentation and cold embossing of the materials. The working process of the die cutting machine comprises a plurality of processes of cutting, attaching, rolling and the like, the die cutting process in the prior art is mostly semi-automatic, the above process treatment is respectively carried out on materials, and manual errors are easy to generate through manual feeding and feeding. With the development of industrial technology, the field of die cutting machines also provides the requirement of full-automatic operation so as to improve the working efficiency. In order to realize the automation of the die cutting process, a feeding device for conveying materials needs to be arranged between all the process equipment.

The Chinese patent publication No. 214733307U discloses a dual-purpose CCD die cutting machine for sheet coiled materials, which comprises a sheet feeding structure and represents the design thought of an automatic feeding device in the prior art. The material is placed on a lifting material supporting plate, and the material absorbing plate is controlled by an X-direction electric cylinder and a Y-direction motor to absorb the material and transfer the material to a die cutting table. The device has higher pay-off precision, but the material only relies on blowing baffle and material frame board to carry out spacingly on taking off the flitch, when changing the material of different specifications, needs the new baffle of dismouting, and complex operation can produce positioning error simultaneously, and the processing procedure of cross cutting especially the stronger positioning accuracy of laminating technology demand of material.

To above-mentioned prior art, it is necessary to make the improvement to the material feeding unit's among the prior art structure, can pinpoint the position of material to improve the automatic efficiency of pay-off.

Disclosure of Invention

The utility model provides a high-precision feeding device which comprises a machine table and a discharging platform arranged above the machine table, wherein an end baffle is arranged on the discharging platform; the device is also provided with a baffle and a baffle fine adjustment mechanism, wherein the baffle fine adjustment mechanism comprises two groups of connecting plates which are arranged in parallel, and a plurality of groups of baffles are arranged on the connecting plates;

the discharging platform is arranged above the connecting plate, a plurality of groups of avoidance grooves are formed in two sides of the discharging platform, and the avoidance grooves are arranged corresponding to the baffle plates;

the bottom of the discharging platform is provided with a jacking mechanism, the jacking mechanism comprises a jacking rod, one end of the jacking rod is connected with the discharging platform, and the jacking mechanism controls the discharging platform to vertically displace along the plane where the baffle plate is located;

the connecting plate is horizontally provided with a screw rod part, the end part of the screw rod part is provided with a fixing plate, the fixing plate is fixedly arranged on the machine table, and one end of the screw rod part is provided with a handle.

Further, the screw rod portion is a bidirectional screw rod, threads arranged at two ends of the bidirectional screw rod extend in opposite directions, and the two groups of connecting plates are respectively in threaded connection with two ends of the bidirectional screw rod.

Further, a rotating motor is arranged at the bottom of the jacking rod, and the jacking rod is connected with an output shaft of the rotating motor through a turbine screw rod structure.

Further, a first guide post is further arranged at the lower end of the discharging platform, a first positioning bearing is fixedly mounted on the machine table, and the first guide post penetrates through the center of the first positioning bearing.

Further, the baffle plates on the two groups of connecting plates are symmetrically arranged; and a second guide post is further arranged between the two groups of fixing plates, a second positioning bearing is arranged on the connecting plate, and the second guide post penetrates through the center of the second positioning bearing.

Further, an adsorption assembly is further arranged on the machine table, the adsorption assembly comprises an adsorption plate and a moving module for controlling the displacement of the adsorption plate, and a plurality of adsorption heads for extracting materials are arranged on the adsorption plate;

the movable module comprises an X-direction electric cylinder which is horizontally arranged and a Y-direction electric cylinder which is vertically arranged, one end of the adsorption plate is fixed on a sliding block of the Y-direction electric cylinder, and the Y-direction air cylinder is fixed on the sliding block of the X-direction electric cylinder.

Further, a plurality of long grooves are formed in the adsorption plate, and the adsorption heads are installed in the long grooves in a threaded mode.

Further, a hairbrush mounting seat is arranged on the outer side of one end of the discharging platform.

Further, sensor mounting seats are further arranged on two sides of the discharging platform, and photoelectric sensors and reflecting lenses which are matched with each other are respectively arranged on the two groups of sensor mounting seats.

The utility model provides a high-precision feeding device, wherein an end baffle plate, a baffle plate and a baffle plate fine-tuning mechanism are arranged on a discharging platform, the end baffle plate and the baffle plate limit materials together, and the baffle plate fine-tuning mechanism can fine-tune the position of the baffle plate so as to adapt to materials with different specifications and maintain the positioning precision of the materials; meanwhile, an electric cylinder is arranged on each of the X axis and the Y axis to control the adsorption plate so as to realize high-precision movement of the material, and the material can be precisely moved to a target position. The high-precision feeding device provided by the utility model can realize higher automation degree, improve the working efficiency and reduce the manual error; the utility model has better equipment adaptability and can be matched with different processing equipment.

Drawings

FIG. 1 is a schematic diagram of a high-precision feeding apparatus according to the present utility model;

FIG. 2 is a schematic diagram of the connection of the flap fine adjustment mechanism and the discharge platform according to the present utility model;

FIG. 3 is an exploded view of the blade fine tuning mechanism and the discharge platform;

fig. 4 is a schematic structural view of the adsorption module.

Reference numerals: a machine 1; a discharging platform 2; an avoidance groove 21; a lifting rod 22; a rotating electric machine 23; a first guide post 24; a first positioning bearing 25; a brush mounting base 26; a sensor mount 27; an end baffle 3; a baffle 4; a flap fine adjustment mechanism 5; a connection plate 51; a screw portion 52; a fixing plate 53; a handle 54; a second guide post 55; a second positioning bearing 56; an adsorption plate 6; a suction head 61; an elongated slot 62; an X-direction electric cylinder 7; and a Y-direction electric cylinder 8.

Detailed Description

The high-precision feeding device as shown in fig. 1 to 3 comprises a machine table 1 and a discharging platform 2 arranged above the machine table 1, wherein an end baffle 3 is arranged on the discharging platform 2, the end baffle 3 limits the position of one end of a material, the material is piled on the discharging platform 2, and the material is transferred from the upper part of the discharging platform 2; the device is also provided with a baffle 4 and a baffle fine adjustment mechanism 5, wherein the baffle fine adjustment mechanism 5 comprises two groups of connecting plates 51 which are arranged in parallel, and a plurality of groups of baffles 4 are arranged on the connecting plates 51; the discharging platform 2 is arranged above the connecting plate 51, a plurality of groups of avoidance grooves 21 are formed in two sides of the discharging platform 2, and the avoidance grooves 21 are arranged corresponding to the baffle plates 4; the bottom of the discharging platform 2 is provided with a jacking mechanism, the jacking mechanism comprises a jacking rod 22, and one end of the jacking rod 22 is connected with the discharging platform 2. The lifting mechanism drives the discharging platform 2, so that the discharging platform 2 vertically moves along the plane of the baffle 4 through the avoiding groove 21, and the baffle 4 and the end baffle 3 limit the storage position of materials together.

The connecting plate 51 is horizontally provided with a screw part 52, the end part of the screw part is provided with a fixing plate 53, and the fixing plate 53 is fixedly arranged on the machine table 1; a handle 54 is attached to one end of the screw portion 52, and the connecting plate 51 is moved on the screw portion 52 by rotating the handle 54, thereby adjusting the position of the flap 4 in the escape groove 21. In this embodiment, the lifting rod 22 is driven by a rotating motor 23 disposed at the bottom of the lifting rod 22, the lifting rod 22 is connected with an output shaft of the rotating motor 23 through a turbine screw rod structure, and the rotating motor 23 can automatically adjust the vertical height of the discharging platform 2, so that materials on the discharging platform 2 are always located at the same working height. The lower extreme of blowing platform 2 still is provided with first guide post 24, and fixed mounting has first positioning bearing 25 on board 1, and first guide post 24 passes the center of first positioning bearing 25.

In this embodiment, the baffle plates 4 on the two sets of connection plates 51 are symmetrically arranged; further, the screw portion 52 is a bidirectional screw, the extending directions of threads arranged at two ends of the bidirectional screw are opposite, the two groups of connecting plates 51 are respectively in threaded connection with two ends of the bidirectional screw, and the blocking pieces 4 on the two groups of connecting plates 51 can be controlled to run oppositely or reversely by rotating the handle 54 at one end of the bidirectional screw, so that the working efficiency of staff is improved. A second guide post 55 is further arranged between the two groups of fixing plates 53, a second positioning bearing 56 is arranged on the connecting plate 51, and the second guide post 55 passes through the center of the second positioning bearing 56. The second guide post 55 is disposed between the two sets of fixing plates 53, so that the stability of the operation of the flap fine adjustment mechanism 5 can be ensured.

When the materials on the discharging platform 2 are extracted, adhesion is easy to generate between the materials, so that the cycle consistency of the feeding process is affected. The outside of one end of blowing platform 2 is provided with brush mount pad 26, and the brush on the brush mount pad 26 can be automatic the tip of material to the adhesion problem that produces when solving the extraction material. The two sides of the discharging platform 2 are also provided with sensor mounting seats 27, the two groups of sensor mounting seats 27 are respectively provided with a photoelectric sensor and a reflecting lens which are matched with each other, the photoelectric sensor is used for monitoring the height of materials on the discharging platform 2 in real time, when no materials are detected on the discharging platform 2, the photoelectric sensor sends feedback information to a control center, and the control center sends a stop instruction to a feeding device.

In this embodiment, an adsorption component is further disposed on the machine 1, including an adsorption plate 6 and a mobile module for controlling the displacement of the adsorption plate 6, as shown in fig. 4, a plurality of adsorption heads 61 for extracting materials are arranged on the adsorption plate 6, the mobile module includes an X-direction electric cylinder 7 horizontally disposed and a Y-direction electric cylinder 8 vertically disposed, one end of the adsorption plate 6 is fixed on a slide block of the Y-direction electric cylinder 8, and the Y-direction air cylinder is fixed on the slide block of the X-direction electric cylinder 7. In the embodiment, the material can be accurately transferred to the target position by driving the adsorption plate 6 to adsorb the material by the servo motor on the X-direction electric cylinder 7 and the Y-direction electric cylinder 8. Further, a plurality of long grooves 62 are formed in the adsorption plate 6, the adsorption heads 61 are installed in the long grooves 62 in a threaded mode, and workers can adjust the positions of the adsorption heads 61, so that the feeding device can convey materials with different specifications.

The working procedure of this embodiment is as follows: stacking the materials on the discharging platform 2, and accurately positioning the materials by the end baffle 3 and the baffle plates 4 on the two groups of connecting plates 51, wherein the positions of the baffle plates 4 can be finely adjusted by the bidirectional screws above and below the discharging platform 2; the X-direction electric cylinder 7 enters a working state, drives the adsorption plate 6 to enter the upper part of the material platform, and the Y-direction electric cylinder 8 is started, drives the adsorption plate 6 to descend to absorb materials and transfers the materials to a target position; at this time, the rotating motor 23 is started to drive the lifting rod 22 to lift the feeding platform, new materials enter the working area, and the X-direction electric cylinder 7 is started, so that the circulation of the feeding process is completed.

While embodiments of the present utility model have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the utility model.

Claims (9)

1. The high-precision feeding device comprises a machine table and a discharging platform arranged above the machine table, wherein an end baffle is arranged on the discharging platform; the method is characterized in that: the device is also provided with a baffle and a baffle fine adjustment mechanism, wherein the baffle fine adjustment mechanism comprises two groups of connecting plates which are arranged in parallel, and a plurality of groups of baffles are arranged on the connecting plates;

the discharging platform is arranged above the connecting plate, a plurality of groups of avoidance grooves are formed in two sides of the discharging platform, and the avoidance grooves are arranged corresponding to the baffle plates;

the bottom of the discharging platform is provided with a jacking mechanism, the jacking mechanism comprises a jacking rod, one end of the jacking rod is connected with the discharging platform, and the jacking mechanism controls the discharging platform to vertically displace along the plane where the baffle plate is located;

the connecting plate is horizontally provided with a screw rod part, the end part of the screw rod part is provided with a fixing plate, the fixing plate is fixedly arranged on the machine table, and one end of the screw rod part is provided with a handle.

2. A high precision feeding apparatus as defined in claim 1, wherein: the screw rod portion is a bidirectional screw rod, the thread extending directions of the two ends of the bidirectional screw rod are opposite, and the two groups of connecting plates are respectively in threaded connection with the two ends of the bidirectional screw rod.

3. A high precision feeding apparatus as defined in claim 2, wherein: the bottom of the jacking rod is provided with a rotating motor, and the jacking rod is connected with an output shaft of the rotating motor through a turbine screw rod structure.

4. A high precision feeding apparatus as defined in claim 3, wherein: the lower extreme of blowing platform still is provided with first guide post, fixed mounting has first positioning bearing on the board, first guide post passes the center of first positioning bearing.

5. A high precision feeding apparatus as defined in claim 3, wherein: the baffle plates on the two groups of connecting plates are symmetrically arranged; and a second guide post is further arranged between the two groups of fixing plates, a second positioning bearing is arranged on the connecting plate, and the second guide post penetrates through the center of the second positioning bearing.

6. A high precision feeding apparatus according to any one of claims 2 to 5, wherein: the machine table is also provided with an adsorption assembly, the adsorption assembly comprises an adsorption plate and a moving module for controlling the displacement of the adsorption plate, and a plurality of adsorption heads for extracting materials are arranged on the adsorption plate;

the movable module comprises an X-direction electric cylinder which is horizontally arranged and a Y-direction electric cylinder which is vertically arranged, one end of the adsorption plate is fixed on a sliding block of the Y-direction electric cylinder, and the Y-direction air cylinder is fixed on the sliding block of the X-direction electric cylinder.

7. A high precision feeding apparatus as defined in claim 6, wherein: the adsorption plate is provided with a plurality of long grooves, and the adsorption head is arranged in the long grooves in a threaded manner.

8. A high precision feeding apparatus as defined in claim 6, wherein: and a hairbrush mounting seat is arranged outside one end of the discharging platform.

9. A high precision feeding apparatus as defined in claim 6, wherein: the two sides of the discharging platform are also provided with sensor mounting seats, and the two groups of sensor mounting seats are respectively provided with a photoelectric sensor and a reflecting lens which are matched with each other.