CN219707532U - Feed equipment with dyestripping upset function - Google Patents

Abstract

The utility model relates to a feeding device with a film tearing and overturning function in the field of mechanical automation production, which comprises: the feeding end of the conveying channel is provided with a sequential feeding part and a batch feeding mechanism corresponding to the sequential feeding part, and the sequential feeding part can relatively rotate the conveying channel to sequentially drive products in the batch feeding mechanism to be fed; the conveying channel is also provided with a turnover mechanism and a film tearing mechanism, the turnover mechanism can turn over relative to the conveying channel, the turnover mechanism can position and drive the workpiece to turn over relative to the conveying channel, and the film tearing mechanism can be used for sticking and tearing films attached to the workpiece. The utility model discloses a feeding device with a film tearing and overturning function, which can realize batch feeding of sheets, has a simple feeding structure and is convenient to operate, and can realize sequential feeding and conveying, and the sheets are overturned and conveyed in sequence.

Description

Feed equipment with dyestripping upset function

Technical Field

The utility model relates to the field of machining, in particular to automatic feeding equipment, and especially relates to feeding equipment with a film tearing and overturning function.

Background

The conveying mechanism in the traditional mechanical production equipment is inconvenient to realize automatic feeding, and particularly for a plate structure, the conveying mechanism is inconvenient to sequentially feed and convey. Therefore, more targeted feeding transmission equipment is provided for the circuit board structure in the prior art, for example: patent application number: CN 201910335004.8; patent name: an automatic conveying and overturning circuit board processing assembly line; the disclosed automatic conveying turnover circuit board processing assembly line comprises a feeding mechanism, a discharging mechanism, a material inlet and outlet conveying mechanism, a transfer machine, a lifter, an upper conveying mechanism, a buffer machine and an electric cabinet, wherein the lifters are respectively arranged at two ends of the upper conveying mechanism, the transfer machine is arranged at the side part of the lifter, the buffer machine is arranged at the side part of the transfer machine at one side, the material inlet and outlet conveying mechanism is arranged at the side part of the transfer machine at the other side, the feeding mechanism and the discharging mechanism are respectively arranged at the side part of the material inlet and outlet conveying mechanism, and the electric cabinet is electrically controlled and connected with electric equipment in the equipment.

However, the automatic conveying and overturning circuit board processing assembly line in the prior art can enable the assembly line to automatically complete conveying and overturning of materials. However, the transfer conveying mode of the PCB depends on the sucking disc and the conveying channel, but the feeding mode of the PCB is not convenient enough, and batch sequential feeding is inconvenient.

Disclosure of Invention

The utility model overcomes the defects of the prior art, provides the feeding equipment with the film tearing and overturning functions, can realize batch feeding of sheets, has a simple feeding structure and is convenient to operate, and can realize sequential feeding and conveying, and the sheets are overturned and conveyed in sequence.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a supply apparatus with a film tearing and turning function, comprising: the feeding end of the conveying channel is provided with a sequential feeding part and a batch feeding mechanism corresponding to the sequential feeding part, and the sequential feeding part can sequentially drive and feed workpieces in the batch feeding mechanism relative to the conveying channel; the transfer material channel is also provided with a turnover mechanism and a film tearing mechanism, the turnover mechanism can turn over relative to the transfer material channel, the turnover mechanism can position and drive the workpiece to turn over relative to the transfer material channel, and the film tearing mechanism can be used for sticking and tearing films attached to the workpiece.

In a preferred embodiment of the utility model, the batch feeding mechanism comprises a feeding frame, a batch trough corresponding to the feeding end is arranged on the feeding frame, a conveyor belt capable of conveying relative to the feeding end is arranged on the batch trough in a driving manner, and a plurality of feeding boxes assembled with workpieces are supported on the conveyor belt.

In a preferred embodiment of the utility model, the feed box is provided with a groove for accommodating workpieces, two side walls of the groove are respectively provided with a plurality of groups of supporting ribs which are arranged in opposite directions, and the workpieces are longitudinally inserted into an interlayer formed by the supporting ribs at intervals.

In a preferred embodiment of the present utility model, the batch feeding mechanism further includes a cartridge receiving assembly disposed at one side of the feeding end, the cartridge receiving assembly corresponds to the batch chute, and the cartridge receiving assembly is driven by the lifting mechanism to be disposed at one side of the conveying channel.

In a preferred embodiment of the utility model, the sequential feeding part comprises a relative pushing part arranged on the material box bearing assembly, a telescopic pushing mechanism which can act relative to the workpiece in the material box at the feeding part is arranged on the relative pushing part in a driving way, and the telescopic pushing mechanism drives the pushing plate to drive the workpiece in the material box at the feeding part to move to the conveying material channel.

In a preferred embodiment of the utility model, the conveying channel comprises a conveying frame, a conveying groove is arranged on the conveying frame, a conveying belt I and a conveying belt II are arranged in the conveying groove in a driving mode according to the conveying direction, and a turnover mechanism used for connecting the conveying belt I and the conveying belt II is arranged between the conveying belt I and the conveying belt II in a driving mode.

In a preferred embodiment of the utility model, a clearance groove is reserved between the first conveying belt and the second conveying belt, and a turnover mechanism is arranged in the clearance groove in a driving way.

In a preferred embodiment of the utility model, the turnover mechanism comprises a turnover motor arranged on the conveying frame, a turnover plate is arranged on the turnover motor in a driving mode, and the turnover motor can drive the turnover plate to turn and swing relative to the first conveying belt or/and the second conveying belt.

In a preferred embodiment of the utility model, a recycling layer rack is further arranged at the side lower part of the batch trough of the feeding rack, and the lifting mechanism can drive the material box bearing assembly to longitudinally displace between the recycling layer rack and the batch trough; the material box bearing assembly is provided with a pushing plate which can relatively move relative to the material loading frame.

In a preferred embodiment of the utility model, a turnover suction hole for sucking the workpiece to be conveyed is arranged on the turnover plate in a driving manner; or/and, the film tearing mechanism is provided with a plurality of film tearing rotating rollers in a driving way, and the film tearing rotating rollers can relatively shift the film tearing to the workpiece to be conveyed on the conveying channel; or/and, the conveying rack is provided with a recovery mechanism, the recovery mechanism comprises a recovery frame corresponding to the discharging side of the conveying rack, the recovery frame is provided with a recovery displacement mechanism in a driving way, the recovery displacement mechanism is provided with a material receiving and transferring mechanism in a driving way, the material receiving and transferring mechanism comprises a material receiving plate in a driving way, and the material receiving plate is provided with a sucker for adsorbing a workpiece; or/and, one side of the discharging side of the conveying frame is also provided with a sequential material receiving mechanism for recovering the workpieces, the sequential material receiving mechanism is provided with a material box groove, and a material receiving lifting frame which can longitudinally lift relative to the material box groove, and a material box for accommodating the workpieces is accommodated in the material box groove.

The utility model solves the defects existing in the background technology:

the utility model discloses a feeding device with a film tearing and overturning function, which can realize batch feeding of sheets, has a simple feeding structure and is convenient to operate, and can realize sequential feeding and conveying, and the sheets are overturned and conveyed in sequence.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of an isometric view of a preferred embodiment of the utility model;

FIG. 2 is a schematic diagram of a second perspective structure of a preferred embodiment of the present utility model;

FIG. 3 is a schematic side elevational view of a preferred embodiment of the present utility model;

FIG. 4 is a schematic top view of a preferred embodiment of the present utility model;

FIG. 5 is a schematic view of the cartridge receiving assembly in a preferred embodiment of the utility model;

FIG. 6 is a schematic view of a transfer channel with a turnover mechanism according to a preferred embodiment of the present utility model;

FIG. 7 is a second schematic diagram of the structure of the transfer channel with the turnover mechanism according to the preferred embodiment of the present utility model;

FIG. 8 is a schematic diagram of a third preferred embodiment of the present utility model with a turnover mechanism assembled to the conveyor track;

FIG. 9 is a schematic view of a transfer channel with a film tearing mechanism assembled thereon in accordance with a preferred embodiment of the present utility model;

in the figure: 1-batch feeding mechanism, 11-feeding rack, 111-batch trough, 112-conveyor belt, 12-feeding box, 121-groove, 122-supporting rib; 13-a material box recycling mechanism, 131-a recycling layer rack; 2-sequential feeding part, 21-lifting mechanism, 22-material box bearing component, 23-relative pushing part, 231-telescopic pushing mechanism and 232-pushing plate; 3-conveying material channels, 31-conveying frames, 32-conveying grooves, 321-conveying material belts I, 322-empty avoidance grooves and 33-conveying material belts II; 34-a turnover mechanism, 341 turns over the motor, 342-a turnover plate, 343-a turnover suction hole; 4-film tearing mechanism, 41-film tearing frame, 411-displacement driving mechanism, 42-film tearing roller, 43-film tearing adhesive tape and 44-material collecting roller; 5-recovery mechanism, 51-recovery rack, 52-recovery displacement mechanism, 53-material receiving and transferring mechanism, 531-material receiving plate and 532-sucker; 6-a sequential material receiving mechanism, 61-a material box groove and 7-a workpiece.

Detailed Description

The utility model will now be described in further detail with reference to the drawings and examples, which are simplified schematic illustrations of the basic structure of the utility model, which are presented only by way of illustration, and thus show only the structures that are relevant to the utility model.

As shown in fig. 1 to 9, a feeding apparatus with a film tearing and turning function, comprising: the conveying channel 3, the conveying channel 3 comprises a conveying rack 31, a conveying groove 32 is formed in the conveying rack 31, a conveying belt I321 and a conveying belt II 33 are arranged on the inner side wall of the conveying groove 32 in a driving mode, and a turnover mechanism 34 used for connecting the conveying belt I321 with the conveying belt II 33 is arranged between the conveying belt I321 and the conveying belt II 33 in a driving mode. An empty-avoiding groove 322 is reserved between the first conveying belt 321 and the second conveying belt 33, and a turnover mechanism 34 is arranged in the empty-avoiding groove 322 in a driving way. The turnover mechanism 34 can position and drive the workpiece 7 to turn over relative to the conveying channel 3, the turnover mechanism 34 comprises a turnover motor 341 arranged on the conveying frame 31, a turnover plate 342 is arranged on the turnover motor 341 in a driving mode, and the turnover motor 341 can drive the turnover plate 342 to reciprocate and turn between the relative conveying material belt one 321 and the conveying material belt two 33. The inversion plate 342 is provided with an inversion suction hole 343 for sucking the workpiece 7 to be conveyed.

One side of the feeding end of the conveying channel 3 is provided with a sequential feeding part 2 and a batch feeding mechanism 1 corresponding to the sequential feeding part 2, and the sequential feeding part 2 can sequentially drive and feed workpieces 7 in the batch feeding mechanism 1 relative to the conveying channel 3; the batch feeding mechanism 1 comprises a feeding frame 11, a batch trough 111 corresponding to a feeding end is arranged on the feeding frame 11, a material box recycling mechanism 13 is further arranged at the lower part of the side of the batch trough 111 of the feeding frame 11, a recycling layer frame 131 is adopted in the material box recycling mechanism 13, the batch feeding mechanism 1 further comprises a material box receiving component 22 arranged at the side of the feeding end, and the material box receiving component 22 is arranged at one side of the conveying channel 3 through a lifting mechanism 21 in a driving mode. The magazine receiving assembly 22 corresponds to the batch tank 111. The lifting mechanism 21 can drive the material box bearing assembly 22 to longitudinally move between the recycling layer rack 131 and the batch chute 111; the lifting mechanism 21 is arranged on the relative displacement mechanism in a driving way, and the relative feeding frame 11 is driven by the relative displacement mechanism to stretch back and forth. The batch tank 111 and the recovery layer rack 131 are respectively provided with a conveyer belt 112 which can convey relative to the feeding end, and a plurality of feed boxes 12 assembled with the workpieces 7 are supported on the conveyer belt 112. The feed box 12 is provided with a groove 121 for accommodating the workpieces 7, two side walls of the groove 121 are respectively provided with a plurality of groups of supporting ribs 122 which are arranged in opposite directions, and the workpieces 7 are longitudinally inserted into the interlayer formed by the supporting ribs 122 at intervals.

Specifically, the sequential feeding portion 2 includes a relative pushing portion 23 disposed on the cartridge receiving assembly 22, a telescopic pushing mechanism 231 capable of acting relative to the workpiece 7 in the feed cartridge 12 at the feeding portion is driven on the relative pushing portion 23, and the telescopic pushing mechanism 231 drives a pushing plate 232 to drive the workpiece 7 in the feed cartridge 12 at the feeding portion to move onto the conveying channel 3.

Specifically, the conveying channel 3 is further provided with a turnover mechanism 34 and a film tearing mechanism 4 which can turn over relative to the conveying channel 3. The film tearing mechanism 4 comprises a film tearing frame 41, a displacement driving mechanism 411 is arranged on the film tearing frame 41, a mounting plate is arranged on the displacement driving mechanism 411 in a driving mode, a plurality of film tearing rotating rollers 42 which rotate synchronously, at least one material collecting rotating roller 44 and at least one material discharging rotating roller are arranged on the mounting plate in a driving mode, a film tearing adhesive tape 43 is wound on the film tearing rotating roller 42, and the film tearing adhesive tape 43 is recovered through the material collecting rotating roller 44. And the film tearing roller 42 can displace the film tearing relative to the workpiece 7 to be conveyed on the conveying channel 3. The film tearing mechanism 4 can tear the film attached to the work 7.

Specifically, the conveying frame 31 is provided with a recovery mechanism 5, the recovery mechanism 5 comprises a recovery frame 51 corresponding to the discharging sides of the first conveying belt 321 and the second conveying belt 33, a recovery displacement mechanism 52 is arranged on the recovery frame 51 in a driving mode, a receiving and transferring mechanism 53 is arranged on the recovery displacement mechanism 52 in a driving mode, the receiving and transferring mechanism 53 comprises a receiving plate 531 arranged on the receiving and transferring mechanism 53 in a driving mode, and a sucking disc 532 for sucking the workpiece 7 is arranged on the receiving plate 531. The one side of the first conveying belt 321 and the second conveying belt 33 is also provided with a sequential material receiving mechanism 6 for recovering the workpieces 7, the sequential material receiving mechanism 6 comprises a material receiving lifting frame positioned on the one side of the first conveying belt 321 and the second conveying belt 33, a material box groove 61 is arranged on the material receiving lifting frame, and the material box groove 61 can be provided with a material box 12. The recovery displacement mechanism 52 in the recovery mechanism 5 drives the material receiving and transferring mechanism 53 to act, so that the turned workpiece 7 on the first conveying belt 321 and the second conveying belt 33 is sucked by the suction disc 532 and then is displaced to the material feeding box 12 of the material feeding box groove 61 of the material receiving lifting frame of the sequential material receiving mechanism 6, and the recovery of the workpiece 7 is realized.

Working principle:

as shown in fig. 1 to 9, the workpieces 7 are sequentially placed in the grooves 121 of the feed box 12, the workpieces 7 are of a plate structure such as a circuit board, the workpieces 7 are horizontally inserted at intervals into the supporting ribs 122 in the grooves 121 of the feed box 12, and the workpieces 7 are supported by the supporting ribs 122 provided at intervals on the side walls on both sides of the grooves 121 so that the workpieces 7 are arranged at intervals in the interlayer formed in the grooves 121 by the supporting ribs 122. Processing a plurality of feed boxes 12 containing workpieces 7 are placed on a batch trough 111 of a batch feeding mechanism 1 on one side of a conveying rack 31, the feed boxes 12 are driven to move to one side of a feeding end of a conveying channel 3 through the conveying belt 112 on a conveying belt 112 which is arranged on the batch trough 111 in a driving mode, until the feed boxes 12 move to a feed box receiving component 22, the feed boxes 12 are received by the feed box receiving component 22, the workpieces 7 in the feed boxes 12 are moved to the feeding end of the conveying channel 3 through a lifting mechanism 21 in a driving mode of the feed box receiving component 22, the lifting mechanism 21 is adjusted to move after taking materials, the feed height of the feed box receiving component 22 is adjusted, when the feed boxes 12 in the feed boxes 12 on the feed box receiving component 22 are taken out, the feed boxes receiving component 22 are lowered to a recovery layer frame 131, and the empty feed boxes 12 are moved to the recovery layer frame 131 through the feed box receiving component 22. The relative pushing part 23 in the sequential feeding part 2 drives the telescopic pushing mechanism 231 to push the pushing plate 232, the pushing plate 232 pushes the workpiece 7 in the feed box 12 to move to the first conveying belt 321 and the second conveying belt 33 of the conveying channel 3, and the first conveying belt 321 adopts the conveying belt 112 which is pivoted on two sides of the conveying groove 32 to support and convey. The first conveying belt 321 drives the workpiece 7 to move, the film tearing rotary roller 42 and the material collecting rotary roller 44 are driven and arranged on the film tearing mechanism 4, the film tearing rotary roller 42 is wound with the film tearing adhesive tape 43, and the film tearing adhesive tape 43 is recovered through the material collecting rotary roller 44. And the film tearing roller 42 can displace the film tearing relative to the workpiece 7 to be conveyed on the conveying channel 3. The film tearing mechanism 4 can tear the film attached to the work 7. The first conveying belt 321 and the second conveying belt 33 drive the workpiece 7 to move to the turnover mechanism 34. The turnover mechanism 34 can position and drive the workpiece 7 to turn over relative to the conveying channel 3, the turnover mechanism 34 comprises a turnover motor 341 arranged on the conveying frame 31, a turnover plate 342 is arranged on the turnover motor 341 in a driving mode, and the turnover motor 341 can drive the turnover plate 342 to reciprocally turn over and swing relative to the conveying belt one 321 and the conveying belt two 33. The inversion plate 342 is provided with an inversion suction hole 343 for sucking the workpiece 7 to be conveyed. The workpiece 7 is turned over to the following first conveying belt 321 and second conveying belt 33, the workpiece 7 is conveyed to the next station through the first conveying belt 321 and the second conveying belt 33, the recovery displacement mechanism 52 in the recovery mechanism 5 drives the receiving and transferring mechanism 53 to act, and the turned workpiece 7 on the first conveying belt 321 and the second conveying belt 33 is sucked by the sucking disc 532 and then is displaced to the feeding box 12 of the feeding box groove 61 of the receiving lifting frame of the sequential receiving mechanism 6, so that the workpiece 7 is recovered.

The above-described preferred embodiments according to the present utility model are intended to suggest that, from the above description, various changes and modifications can be made by the person skilled in the art without departing from the scope of the technical idea of the present utility model. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims (10)

1. A supply apparatus with a film tearing and turning function, comprising: the feeding end of the conveying channel is provided with a sequential feeding part and a batch feeding mechanism corresponding to the sequential feeding part, and the sequential feeding part can sequentially drive and feed workpieces in the batch feeding mechanism relative to the conveying channel;

the conveying material channel is further provided with a turnover mechanism and a film tearing mechanism, the turnover mechanism can turn over relative to the conveying material channel, the turnover mechanism can position and drive the workpiece to turn over relative to the conveying material channel, and the film tearing mechanism can adhere and tear films attached to the workpiece.

2. A feeding apparatus with a film tearing and turning function according to claim 1, characterized in that: the batch feeding mechanism comprises a feeding frame, a batch trough corresponding to the feeding end is arranged on the feeding frame, a conveyor belt capable of conveying relative to the feeding end is arranged on the batch trough in a driving mode, and a plurality of feeding boxes for assembling and carrying workpieces are arranged on the conveyor belt in a bearing mode.

3. A feeding apparatus with a film tearing and turning function according to claim 2, characterized in that: the feeding box is provided with a groove for accommodating workpieces, two side walls of the groove are respectively provided with a plurality of groups of supporting ribs which are arranged in opposite directions, and a plurality of workpieces are longitudinally inserted into an interlayer formed by the supporting ribs at intervals.

4. A feeding apparatus with a film tearing and turning function according to claim 3, wherein: the batch feeding mechanism further comprises a material box receiving component arranged on one side of the feeding end, the material box receiving component corresponds to the batch trough, and the material box receiving component is driven by the lifting mechanism to be arranged on one side of the conveying channel.

5. A feeding apparatus with a film tearing turnover function as set forth in claim 4, wherein: the sequential feeding part comprises a relative pushing part arranged on the material box receiving assembly, a telescopic pushing mechanism capable of acting relative to the workpiece in the material box at the feeding part is arranged on the relative pushing part in a driving mode, and the telescopic pushing mechanism drives a pushing plate to drive the workpiece in the material box at the feeding part to move to the material conveying channel.

6. A feeding apparatus with a film tearing turnover function as set forth in claim 5, wherein: the conveying material channel comprises a conveying rack, a conveying groove is formed in the conveying rack, a first conveying material belt and a second conveying material belt are arranged in the conveying groove in a driving mode according to the conveying direction, and a turnover mechanism used for connecting the first conveying material belt and the second conveying material belt is arranged between the first conveying material belt and the second conveying material belt in a driving mode.

7. A feeding apparatus with a film tearing turnover function as set forth in claim 6, wherein: an empty avoidance groove is reserved between the first conveying material belt and the second conveying material belt, and the turnover mechanism is arranged in the empty avoidance groove in a driving mode.

8. A feeding apparatus with a film tearing turnover function as set forth in claim 7, wherein: the turnover mechanism comprises a turnover motor arranged on the conveying frame, a turnover plate is arranged on the turnover motor in a driving mode, and the turnover plate can be driven to turn and swing relative to the conveying belt one or/and the conveying belt two.

9. A feeding apparatus with a film tearing turnover function as set forth in claim 8, wherein: the lower part of the batch trough side of the feeding rack is also provided with a recovery layer rack, and the lifting mechanism can drive the material box bearing assembly to longitudinally displace between the recovery layer rack and the batch trough; the material box bearing assembly is provided with a pushing plate which can relatively move relative to the material loading frame in a driving manner.

10. A feeding apparatus with a film tearing turnover function as set forth in claim 9, wherein: the turnover plate is provided with a turnover suction hole for sucking a workpiece to be conveyed in a driving manner;

or/and, the film tearing mechanism is provided with a plurality of film tearing rotating rollers in a driving way, and the film tearing rotating rollers can displace the film tearing relative to the workpiece to be conveyed on the conveying material channel;

or/and, a recovery mechanism is arranged on the conveying rack, the recovery mechanism comprises a recovery frame corresponding to the discharging side of the conveying rack, a recovery displacement mechanism is arranged on the recovery frame in a driving mode, a material receiving and transferring mechanism is arranged on the recovery displacement mechanism in a driving mode, the material receiving and transferring mechanism comprises a material receiving plate arranged on the material receiving and transferring mechanism in a driving mode, and a sucker for adsorbing a workpiece is arranged on the material receiving plate;

or/and, one side of the discharging side of the conveying frame is also provided with a sequential material receiving mechanism for recovering the workpieces, the sequential material receiving mechanism is provided with a material box groove and a material receiving lifting frame which can longitudinally lift relative to the material box groove, and the material box groove is internally provided with a material feeding box for accommodating the workpieces.