CN211997601U - Product loading attachment based on industrial automation technique - Google Patents

Abstract

The utility model relates to a material conveying device, in particular to a product feeding device based on an industrial automation technology, which comprises a circumferential vibrating disk and an in-line vibrating disk, wherein the circumferential vibrating disk is matched with a feeding device which comprises a feeding hopper arranged on a fixed support, the discharge end of the circumferential vibrating disk corresponds to the in-line vibrating disk, and the discharge end of the in-line vibrating disk corresponds to a conveying belt; the feeding belt is arranged at the bottom of the feeding hopper, the feeding hopper is obliquely arranged, the baffle is arranged on the blanking side, and a gap for passing parts is formed between the baffle and the feeding belt only at the bottom of the feeding hopper. The utility model discloses an automatic circumference vibration dish loading attachment of design makes the whole degree of automation of loading attachment further promote, has saved manpower resources, has optimized work flow.

Description

Product loading attachment based on industrial automation technique

Technical Field

The utility model relates to a material conveying equipment, in particular to product loading attachment based on industrial automation technique.

Background

Industrial automation is a trend of widely adopting automatic control and automatic adjustment devices in industrial production to replace manual operation machines and machine systems for processing production.

For intensive product processing, a large amount of manpower is needed, the labor intensity of workers is relatively high, and therefore, the realization of industrial automation is a necessary trend for future development. All the procedures in the production process after industrial automation, including feeding, blanking, loading and unloading, and the like, are realized without the need of direct production operation by people, and one or a batch of products are continuously and repeatedly automatically produced by a machine. However, the existing automatic feeding mode mostly adopts a mechanical arm or a sucker for feeding, the mechanical arm feeding and the sucker feeding are in intermittent motion, the feeding speed is limited, and the overall efficiency is not high. And when the manipulator contacts the product, the surface of the product may be scratched.

The circular vibrating disk is a common automatic feeding device, and the components in the circular vibrating disk ascend along a spiral track through self vibration and are finally output. Circumference vibration dish can realize arranging the material loading in proper order automatically, but can't use on some instrument and equipment that require to the material loading precision is higher, like some check out test set, it is fixed to need material loading time interval, relies on the vibration dish alone to be difficult to realize. The circular vibration disc is fed by manual monitoring in the most common feeding mode, so that manpower is wasted, and if the feeding device is monitored in a centralized manner, the labor of monitoring personnel is greatly challenged, and the situation of untimely feeding is very easy to occur.

Disclosure of Invention

Not enough to prior art, the utility model provides a can realize even material loading's product loading attachment.

The utility model adopts the technical proposal that: a product feeding device based on an industrial automation technology comprises a circumferential vibrating disk and an in-line vibrating disk, wherein the circumferential vibrating disk is matched with a feeding device, the feeding device comprises a feeding hopper arranged on a fixed support, the discharge end of the circumferential vibrating disk corresponds to the in-line vibrating disk, and the discharge end of the in-line vibrating disk corresponds to a conveying belt; the feeding hopper bottom is provided with the material loading belt, the material loading belt is driven by driving motor, and the feeding hopper is close to circumference vibration dish one side and is the blanking side, the slope of feeding hopper sets up, and the blanking side is in highest position, the blanking side is provided with the baffle, the baffle with the feeding hopper only with the bottom between the material loading belt have the gap that supplies the part to pass through, circumference vibration dish matches there is level sensor.

A product loading attachment based on industrial automation technique, characterized by: the baffle is matched with a reverse thrust device, and the reverse thrust device drives the baffle to reciprocate along the conveying direction of the feeding belt.

A product loading attachment based on industrial automation technique, characterized by: the reverse thrust device is a material pushing cylinder, an adjusting long hole is formed in the baffle, a connecting block is fixedly mounted at the end of a piston rod of the material pushing cylinder, and the connecting block corresponds to the long hole and is provided with a fixed mounting hole.

A product loading attachment based on industrial automation technique, characterized by: a 'shape mounting rack is mounted at the top of the fixing support, shaft holes and arc-shaped adjusting holes are formed in mounting surfaces on two sides of the' shape mounting rack, and screw holes are formed in corresponding positions of the feeding hopper.

A product loading attachment based on industrial automation technique, characterized by: the conveying belt is provided with first deflector and second deflector respectively along direction of delivery, first deflector spigot surface corresponds work piece input direction, first deflector output corresponds the second deflector spigot surface, the second deflector extends to the conveying belt output.

A product loading attachment based on industrial automation technique, characterized by: the circular vibration disc and the in-line vibration disc are fixed on the leveling mounting plate, the leveling mounting plate is fixed through four leveling bolts fixedly arranged and nuts matched with the leveling bolts respectively, and the leveling mounting plate is kept horizontal by adjusting the positions of the nuts on the four leveling bolts.

The utility model discloses an automatic circumference vibration dish loading attachment of design makes the whole degree of automation of loading attachment further promote, has saved manpower resources, has optimized work flow.

Drawings

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

FIG. 2 is a schematic view of the structural installation of the feeding device of the present invention;

fig. 3 is a partially enlarged view of fig. 2 according to the present invention.

In the figure: 1-feeding hopper, 2-driving motor, 3-fixing bracket, 4-circumferential vibrating disk, 5-in-line vibrating disk, 6-conveying belt, 7-first guide plate, 8-first fixing bracket, 9-belt fixing bracket, 10-second guide plate, 11-second fixing bracket, 14-feeding belt, 15-pushing cylinder, 16-baffle, 17-mounting bottom plate, 18-leveling mounting plate, 19-material level sensor, 20-adjusting long hole, 21-connecting block, 22-fixing mounting hole, 23- "-shaped mounting frame, 24-shaft hole, 25-arc-shaped adjusting hole and 26-screw hole.

Detailed Description

As shown in figure 1, the product feeding device based on the industrial automation technology comprises a feeding device, a circumferential vibrating disk 2, an in-line vibrating disk 4 and a conveying belt 6, wherein the feeding device, the circumferential vibrating disk, the in-line vibrating disk and the conveying belt are arranged in the feeding sequence.

As shown in fig. 2, the feeding device comprises a feeding hopper 1 mounted on a fixed bracket 3, the fixed bracket 3 is arranged on a mounting base plate 17, the mounting base plate 17 is provided with a leveling mounting plate 18, the leveling mounting plate 18 is fixedly mounted on the mounting base plate 17 through four leveling bolts and respective matched nuts, and the leveling mounting plate 18 is kept horizontal by adjusting the positions of the nuts on the four leveling bolts, so that the circumferential vibration disc 2 and the in-line vibration disc 4 can be conveniently mounted and operated.

The top of the fixed bracket 3 is provided with a ' shape mounting bracket 23 ', mounting surfaces on two sides of the ' shape mounting bracket 23 are provided with a shaft hole 24 and an arc-shaped adjusting hole 25, a screw hole 26 is arranged at a corresponding position of the middle part of the feeding hopper 1, the bottom of the feeding hopper 1 is provided with a feeding belt 14, the feeding belt 14 is driven by a driving motor 2, one side of the feeding hopper 1 close to the circumferential vibration disc 4 is a blanking side, the blanking side is provided with a pushing cylinder 15 and a baffle plate 16, a piston rod of the pushing cylinder 15 faces the opposite direction of the blanking side, a connecting block 21 is arranged at the end of the piston rod of the pushing cylinder 15, two fixed mounting holes 22 are arranged on the connecting block 21, two longitudinal adjusting long holes 20 are arranged on the baffle plate 16, the adjusting long holes 20 correspond to the fixed mounting holes 22 in position, and the longitudinal relative position, thereby changing the width of the gap between the baffle 16 and the feeding belt, and the space between the two sides of the baffle 16 and the feeding hopper 1 is not enough for the workpieces to pass through.

The circumferential vibration disc 4 is matched with a material level sensor 19, the bottom of the material level sensor 19 is provided with a photoelectric sensor, and when the circumferential vibration disc 4 is in a material-full state, the distance between a material pile and the photoelectric sensor is short, so that the photoelectric sensor is in a trigger state, and the photoelectric sensor sends a material-full signal; when the circumferential vibration disc 4 is in a material shortage state, the distance between the material pile and the photoelectric sensor is lengthened, the photoelectric sensor is in a non-triggering state, and the photoelectric sensor sends a material shortage signal.

As shown in fig. 1, the output end of the circumferential vibrating disk 4 corresponds to the in-line vibrating disk 5, the output end of the in-line vibrating disk corresponds to the conveying belt 6 arranged on the belt fixing support 9, the conveying belt 6 is sequentially provided with a first guide plate 7 and a second guide plate 10 along the conveying direction, the first guide plate 7 is installed on the first fixing support 8, the second guide plate 10 is installed on the second fixing support 11, the guide surface of the first guide plate 7 corresponds to the workpiece input direction, the output end of the first guide plate 7 corresponds to the guide surface of the second guide plate 10, and the second guide plate 10 extends to the output end of the conveying belt 6.

During the feeding operation, a workpiece is placed in the feeding hopper 1, then the feeding device and the material level sensor are started, and when the material level sensor 9 sends a full material signal, the driving motor 2 is stopped; when the material level sensor 9 sends a material shortage signal, the driving motor 2 is started to drive the feeding belt 14 to operate, and the workpiece passes through a gap between the baffle 16 and the feeding belt 14 and finally falls into the circumferential vibration disc 4; when the driving motor 2 is started, the material pushing cylinder 15 is synchronously started, the piston rod of the material pushing cylinder stretches and retracts in a reciprocating mode, the workpieces stacked on the blanking side in the feeding process are pushed back through the baffle 16, excessive stacking of the workpieces is avoided, and when the driving motor 2 is stopped, the material pushing cylinder 15 stops operating after the current piston rod stretches and retracts in a reciprocating mode.

The work piece falls into in the circumference vibration dish 4 to become orderly and accord with the state of automated processing/detection condition by unordered random state through in-line vibration dish 5, the work piece gets into conveyor belt 6 and moves along direction of delivery after 5 outputs by in-line vibration dishes, touches first deflector 7 spigot surface, carries out the first direction, after moving to first deflector 7 spigot surface output, touches second deflector 10 spigot surface, carries out the second time direction and finally confirms work piece output direction, gets into in the processing/detection device.

Claims (6)

1. The utility model provides a product loading attachment based on industrial automation technique, includes circumference vibration dish (4), inline vibration dish (5), circumference vibration dish (4) are matched with loading attachment, characterized by: the feeding device comprises a feeding hopper (1) arranged on a fixed support (3), the discharge end of a circumferential vibrating disk (4) corresponds to an in-line vibrating disk (5), and the discharge end of the in-line vibrating disk (5) corresponds to a conveying belt (6); feeding hopper (1) bottom is provided with material loading belt (14), material loading belt is driven by driving motor (2), and feeding hopper (1) is close to circumference vibration dish one side and is the blanking side, the feeding hopper slope sets up, and the blanking side is in the highest position, the blanking side is provided with baffle (16), the baffle with the feeding hopper only with have the gap that supplies the part to pass through between material loading belt (14) of bottom, circumference vibration dish matches there is level sensor (19).

2. The industrial automation technology-based product feeding device as claimed in claim 1, wherein: the baffle (16) is matched with a reverse thrust device, and the reverse thrust device drives the baffle to reciprocate along the conveying direction of the feeding belt.

3. The industrial automation technology-based product feeding device as claimed in claim 2, wherein: the reverse pushing device is a pushing cylinder (15), the baffle is provided with an adjusting long hole (20), a connecting block (21) is fixedly mounted at the piston rod end of the pushing cylinder, and the connecting block is provided with a fixed mounting hole (22) corresponding to the long hole.

4. The industrial automation technology-based product feeding device as claimed in claim 1, wherein: the top of the fixed support (3) is provided with a 'shape mounting rack (23), the mounting surfaces on the two sides of the' shape mounting rack (23) are provided with a shaft hole (24) and an arc-shaped adjusting hole (25), and the corresponding position of the feeding hopper is provided with a screw hole (26).

5. The industrial automation technology-based product feeding device as claimed in claim 1, wherein: conveying belt (6) are provided with first deflector (7) and second deflector (10) respectively along direction of delivery, first deflector (7) spigot surface corresponds work piece input direction, first deflector (7) output corresponds second deflector (10) spigot surface, second deflector (10) extend to conveying belt (6) output.

6. The industrial automation technology-based product feeding device as claimed in claim 1, wherein: circumference vibration dish (4), inline vibration dish (5) are fixed in on leveling mounting panel (18), the leveling mounting panel through four fixed leveling bolts that set up with the nut that the leveling bolt matches respectively is fixed, through adjusting the nut position on four leveling bolts, makes leveling mounting panel (18) keep the level.

Images