阅读说明：本技术 一种具有识别功能的自动上料机构 (Automatic feeding mechanism with recognition function ) 是由 朱海峰 于 2021-09-23 设计创作，主要内容包括：本申请公布了一种具有识别功能的自动上料机构,它属于竹木制品加工领域,它包括物料输送部、物料上料部；所述物料输送部包括物料输送梁,所述物料输送梁下方设置有安装梁,所述安装梁上设置有识别单元,所述安装梁外侧设置有夹持调整部,物料输送梁一端设置有推动板,所述物料输送梁另一端与物料暂存架连接,所述物料暂存架上设置有横向运动的托物板,所述托物板下端与物料上料部中的上料架连通,所述上料架下端面与工作台上端面之间设置有间隙,设置于工作台上端的上料板穿过间隙将物料推送至上料区。本申请的目的是提供一种具有识别功能的自动上料机构,能够识别和调整竹木片的正反面并完成自动上料。(The application discloses an automatic feeding mechanism with an identification function, which belongs to the field of bamboo and wood product processing and comprises a material conveying part and a material feeding part; the material conveying part comprises a material conveying beam, an installation beam is arranged below the material conveying beam, an identification unit is arranged on the installation beam, a clamping adjustment part is arranged on the outer side of the installation beam, a pushing plate is arranged at one end of the material conveying beam, the other end of the material conveying beam is connected with a material temporary storage frame, a transversely moving material supporting plate is arranged on the material temporary storage frame, the lower end of the material supporting plate is communicated with a material loading frame in the material loading part, a gap is formed between the lower end face of the material loading frame and the upper end face of the workbench, and a material loading plate arranged at the upper end of the workbench penetrates through the gap to push materials to a material loading area. The utility model provides an automatic feeding mechanism with recognition function can discern and adjust the positive and negative of bamboo-wood piece and accomplish automatic feeding.)

1. An automatic feeding mechanism with an identification function is characterized by comprising a material conveying part and a material feeding part; the material conveying part comprises material conveying beams (1) arranged at intervals along the length direction of materials, an installation beam (2) is arranged below the material conveying beams (1), an identification unit (3) for identifying the front and back of the materials is arranged on the installation beam (2), a clamping and adjusting part (4) for adjusting the front and back of the materials is arranged on the outer side of the installation beam (2), an installation part (5) is arranged at one end of the material conveying beams (1), a conveying driving mechanism (6) is arranged on the installation part (5), the conveying driving mechanism (6) is connected with a pushing plate (7), the other end of the material conveying beams (1) is connected with a temporary material storage frame (8), a transversely moving object supporting plate (9) is arranged on the temporary material storage frame (8), the lower end of the object supporting plate (9) is communicated with an upper material frame in the material loading part, the upper material frame is arranged at the upper end of a workbench (10) in the material loading part, a gap is formed between the lower end face of the feeding frame and the lower end face of the workbench (10), and a feeding plate (11) arranged at the upper end of the workbench (10) penetrates through the gap to push materials to a feeding area.

2. The automatic feeding mechanism with the recognition function according to claim 1, wherein the clamping adjustment portion comprises a rotating portion (402) driven to ascend and descend by a jacking driving device (401), the rotating portion (402) is provided with a clamping portion (403), and the clamping portion (403) is arranged on one side of the mounting beam (2).

3. The automatic feeding mechanism with the identification function according to claim 1, characterized in that the object supporting plates (9) are arranged at two ends of the material in the length direction, and the object supporting plates (9) are connected with the transverse driving mechanism (12).

4. The automatic feeding mechanism with the identification function according to claim 1, wherein the feeding area comprises a slide way (13), a fixed conveying roller (14) and a lifting conveying roller (15) which are oppositely arranged up and down, and the slide way (13) is provided with a notch matched with the fixed conveying roller and the lifting conveying roller.

5. The automatic feeding mechanism with the recognition function according to claim 4, wherein the lifting conveying roller (15) is arranged on a lifting seat (16), a conveying main motor (17) for driving the lifting conveying roller (15) is arranged on the lifting seat (16), and the lifting seat (16) is connected with a conveying lifting driving device (18).

6. The automatic feeding mechanism with the identification function according to claim 5, characterized in that the slide way (13) is provided with a stop edge (19) extending upwards at the far end of the workbench (10), and the stop edge (19) is provided with a monitoring unit (20) for identifying and detecting materials.

7. The automatic feeding mechanism with the identification function according to claim 6, characterized in that the monitoring units (20) are arranged at intervals along the length direction of the slide way (13).

8. The automatic feeding mechanism with the identification function according to claim 1, wherein the feeding frame comprises upright posts (21) arranged at two ends of the material in the length direction at intervals, clamping grooves (22) are arranged at the side ends of the upright posts (21), and the clamping grooves (22) at the two sides are arranged oppositely.

9. The automatic feeding mechanism with the identification function according to any one of claims 1 to 8, characterized in that a storage hopper (23) is arranged above the material conveying beam (1), the bottom of the inner side of the storage hopper (23) is provided with an inclined surface which is reduced towards the discharging port (24), a rotating roller (25) is arranged in the storage hopper (23) at the feeding side of the discharging port (24), and the outer wall of the rotating roller (25) is provided with pushing parts (26) in an annular array.

10. The automatic feeding mechanism with the identification function according to claim 9, wherein a baffle (27) is arranged in the storage hopper (23) above the rotating roller (25), the lower end of the baffle (27) extends to the bottom of the storage hopper (23), a material control driving mechanism (28) is arranged on the baffle (27), and the material control driving mechanism (28) is connected with a material control plate (29).

Technical Field

The application relates to the field of bamboo and wood product processing, in particular to an automatic feeding mechanism with an identification function.

Background

When processing bamboo, wood etc. into products such as knife and fork, bamboo mat, at first need process into the slice with bamboo wood raw and other materials, then place bamboo wood chip on the assembly line to carry out subsequent operations such as design, gulleting, edging. If adopt the manual work to place bamboo wood piece on the assembly line this moment, the intensity of labour of improvement operation personnel that can be very big does not also do benefit to simultaneously and improves production efficiency.

If mechanical automatic feeding is adopted, because the bamboo chips have front and back surfaces, especially when bamboo products (generally, the green side of the bamboo is taken as the front surface) are produced, the front and back surfaces of the bamboo chips need to be strictly distinguished, and at the moment, feeding equipment is required to have the functions of identifying and adjusting the front and back surfaces of the bamboo chips.

Content of application

The utility model provides a to above problem, provide an automatic feeding mechanism with recognition function, can discern and adjust the positive and negative of bamboo-wood piece and accomplish automatic feeding.

In order to achieve the purpose, the technical scheme adopted by the application is as follows: an automatic feeding mechanism with an identification function comprises a material conveying part and a material feeding part; the material conveying part comprises material conveying beams arranged at intervals along the length direction of the material, an installation beam is arranged below the material conveying beams, identification units for identifying the front and back surfaces of the material are arranged on the installation beam, a clamping and adjusting part for adjusting the front and back surfaces of the material is arranged on the outer side of the installation beam, the front and back surfaces of the material such as bamboo chips are identified through the identification units, and then the material such as the bamboo chips is turned over through the clamping and adjusting part, so that the front and back surfaces of the bamboo chips entering the next process are kept consistent; material conveying beam one end is provided with the installation department, set up on the installation department and carry actuating mechanism, carry actuating mechanism and slurcam to be connected, the material conveying beam other end is kept in the frame with the material and is connected, be provided with transverse motion's material supporting plate on the frame is kept in to the material, material loading frame intercommunication in material supporting plate lower extreme and the material loading portion, material loading frame sets up the workstation upper end in the material loading portion, be provided with the clearance between material loading frame lower extreme face and the workstation up end, set up the material loading board of workstation upper end and pass the clearance with material propelling movement to the material district.

Further, a preferable structure of the clamping adjustment portion is that the clamping adjustment portion comprises a rotating portion driven to lift by a jacking driving device, a clamping portion is arranged on the rotating portion, and the clamping portion is arranged on one side of the mounting beam.

Furthermore, in order to avoid the situation that the two ends of the material fall into the feeding frame to be inclined, the object supporting plates are arranged at the two ends of the material in the length direction and are connected with the transverse driving mechanism.

Further, for on the assembly line of automatic material such as with bamboo chip send into next process, the material loading district includes the slide that sets up along material length direction and the relative fixed transfer roller and the lift transfer roller that sets up from top to bottom, be provided with the opening with fixed transfer roller and lift transfer roller looks adaptation on the slide.

Furthermore, for driving the bamboo chips to move and the like, the lifting conveying roller is arranged on the lifting seat, a main conveying motor for driving the lifting conveying roller is arranged on the lifting seat, and the lifting seat is connected with the lifting conveying driving device.

Further, for avoiding the phenomenon such as crooked appearing in the material that slides, the slide is provided with the ending limit that upwards extends in the distal end of workstation, be provided with the monitoring unit who is used for distinguishing detection material on the ending.

Further, for detecting the material and avoiding the situation that the material is not shifted out of the slideway, the lifting conveying roller and the like reset, the monitoring unit is arranged at intervals along the length direction of the slideway.

Further, for guaranteeing that the bamboo chips and the like cannot fall over in the working process of the feeding plate, the feeding frame comprises stand columns arranged at two ends of the length direction of the material at intervals, clamping grooves are formed in side ends of the stand columns, and the clamping grooves in two sides are arranged oppositely.

Further, for improving degree of automation, the time of manual arrangement when reducing the operation, material conveying beam top is provided with the storage hopper, the inboard bottom of storage hopper is provided with the inclined plane that descends to the discharge gate side, it is provided with rotatory roller to come the material side in the discharge gate in the storage hopper, annular array is provided with propelling movement portion on the rotatory roller outer wall.

Furthermore, in order to prevent the materials from blocking the rotating roller, a baffle is arranged above the rotating roller in the material storage hopper, the lower end of the baffle extends to the bottom of the material storage hopper, and a material control driving mechanism is arranged on the baffle and connected with the material control plate.

The beneficial effect of this application: the bamboo chips and the like are pushed above the mounting beam by the pushing plate, the identification unit identifies the front and back sides of the materials, the materials meeting the requirements are pushed above the object supporting plate, then fall into the feeding frame for temporary storage, and along with the movement of the feeding plate, the materials at the lowest end of the feeding frame are pushed to a feeding area, so that automatic feeding is completed; the materials which do not meet the requirements are overturned by one hundred eighty degrees under the action of the clamping and adjusting part and then enter the feeding frame.

1. Be provided with the material storage hopper, through the cooperation of accuse flitch and propelling movement portion for bamboo chip etc. drop to the material transport beam in the mode of ejection of compact one by one automatically, thereby further improve automatic level.

2. Through the fixed conveying roller and the lifting conveying roller which are arranged oppositely, materials such as bamboo chips in the feeding area can be automatically fed into the next procedure.

Drawings

Fig. 1 is a front view of the present application.

Fig. 2 is a schematic structural view of the material conveying part in a top view.

Fig. 3 is a schematic structural view of the clamping adjustment portion in a front view.

Fig. 4 is a schematic view of the internal structure of the storage hopper in a side view.

Fig. 5 is a schematic structural view of the material feeding portion in a side view.

Fig. 6 is a schematic structural view of the material feeding portion in a top view.

The text labels in the figures are represented as: 1. a material conveying beam; 2. mounting a beam; 3. an identification unit; 4. a clamping adjustment part; 401. a jacking driving device; 402. a rotating part; 403. a clamping portion; 5. an installation part; 6. a conveying drive mechanism; 7. a push plate; 8. a material temporary storage rack; 9. a supporting plate; 10. a work table; 11. feeding plates; 12. a lateral drive mechanism; 13. a slideway; 14. fixing the conveying roller; 15. lifting the conveying roller; 16. a lifting seat; 17. a transmitting main motor; 18. a transfer lift drive; 19. stopping edges; 20. a monitoring unit; 21. a column; 22. a card slot; 23. a storage hopper; 24. a discharge port; 25. a rotating roller; 26. a pushing section; 27. a baffle plate; 28. a material control driving mechanism; 29. a material control plate; 30. a feeding drive unit; 31. bamboo chips.

Detailed Description

The following detailed description of the present application is given for the purpose of enabling those skilled in the art to better understand the technical solutions of the present application, and the description in this section is only exemplary and explanatory, and should not be taken as limiting the scope of the present application in any way.

Embodiment 1, as shown in fig. 1 to 6, a specific structure of this embodiment is an automatic feeding mechanism with an identification function, in this embodiment, bamboo chips are taken as an example of a material, the thickness of the bamboo chips is smaller than the width of the bamboo chips, an arrow in the figure indicates a movement direction of the bamboo chips, and the automatic feeding mechanism includes a material conveying part and a material feeding part; the material conveying part comprises two material conveying beams 1 arranged at intervals along the length direction of the material, an installation beam 2 is arranged below the material conveying beams 1, identification units 3 for identifying the front and back surfaces of the material are arranged on the installation beam 2, color scale sensors, visual sensors and the like can be adopted as the identification units 3, the color of the green surface of a bamboo chip is greatly different from the back surface of the bamboo chip, a clamping and adjusting part 4 for adjusting the front and back surfaces of the material is arranged on the outer side of the installation beam 2, the two clamping and adjusting parts 4 are oppositely arranged, the installation beam 2 is positioned on the connecting line of the two clamping and adjusting parts 4, an installation part 5 is arranged at one end of each material conveying beam 1, a conveying driving mechanism 6 is arranged on each installation part 5, the conveying driving mechanism 6 is connected with a pushing plate 7, the pushing plate 7 faces one side of the installation beam 2, and the other end of each material conveying beam 1 is connected with a material temporary storage rack 8, the distance between the material conveying beam 1 is less than the length of the material temporary storage frame 8, the material conveying beam 1 and the material temporary storage frame 8 share the center line, two object supporting plates 9 are arranged on the material temporary storage frame 8, the object supporting plates 9 are located at two ends of the bamboo chip 31 in the length direction, the object supporting plates 9 slide along the length direction of the bamboo chip 31 under the pushing of the transverse driving mechanism 12, the lower ends of the object supporting plates 9 are communicated with the material loading frame in the material loading part, control switches such as proximity switches or touch switches are arranged on the material temporary storage frame 8, when the bamboo chips 31 move to the upper ends of the object supporting plates 9, the bamboo chip side ends are in contact with the control switches, the control switches transmit signals to the processor, and after the processor analyzes the signals, the transverse driving mechanism 12 is controlled to drive the object supporting plates 9 to move.

The feeding frame is arranged at the upper end of a workbench 10 in the material feeding part, a gap is arranged between the lower end surface of the feeding frame and the upper end surface of the workbench 10, a feeding driving unit 30 is arranged on the workbench 10, the feeding driving unit 30 is connected with a feeding plate 11 at the upper end of the workbench 10, the feeding plate 11 penetrates through the gap between the workbench 10 and the feeding frame to push materials to a feeding area under the pushing of the feeding driving unit 30, and the upper end surfaces of the feeding plate 11, the pushing plate 7 and the like are higher than the upper end surface of the bamboo chip 31; in this embodiment and the following embodiments, the jacking driving device 401, the conveying driving mechanism 6, the transverse driving mechanism 12, the conveying lifting driving device 18, the material control driving mechanism 28, the material loading driving unit 30, and the like may adopt driving members such as an air cylinder and an oil cylinder, and the driving members are controlled by a processor and managed by a control system such as a PLC system.

During specific work, the bamboo chips 31 are arranged between the pushing plate 7 and the mounting beam 2, two ends of each bamboo chip extend out of the material conveying beam 1, the pushing plate 7 pushes the bamboo chips 31 to move to the upper side of the mounting beam 2 under the driving of the conveying driving mechanism, the identification unit 3 collects data of the lower end face of each bamboo chip 31 at the moment, then the data are sent to the processor, the processor analyzes the data collected by the identification unit 3, if the placement of the bamboo chips 31 meets requirements, the pushing plate 7 continues to drive the bamboo chips 31 to move to the upper end of the object supporting plate 9, if the placement of the bamboo chips 31 does not meet the requirements, the clamping and adjusting part 4 firstly clamps two ends of each bamboo chip 31 and then starts to turn over so as to enable the bamboo chips 31 to fall off, and after the turning of the bamboo chips 31 is finished, the pushing plate 7 pushes the bamboo chips 31 to the upper side of the object supporting plate 9.

After the bamboo chips 31 move to the upper ends of the object supporting plates 9, the object supporting plates 9 on the two sides simultaneously move to the side far away from the bamboo chips 31, so that the bamboo chips 31 fall into the material loading frame for temporary storage; when in production, the feeding plate 11 pushes the bamboo chips 31 at the lowest end in the feeding frame to the feeding area, so as to complete automatic feeding.

Embodiment 2, as shown in fig. 3, the other structure of this embodiment is the same as that of embodiment 1, but in this embodiment, the clamping adjustment portion includes a rotation portion 402 that is driven to move up and down by a jacking driving device 401, the rotation portion 402 may adopt a hydraulic turntable, an electric turntable, or the like, the rotation axis of the rotation portion 402 is arranged along the length direction of the bamboo chips 31, the rotation portion 402 is provided with a clamping portion 403, in this embodiment, the clamping portion 403 adopts a pneumatic clamping finger, and the clamping portion 403 is arranged on one side of the mounting beam 2.

During specific work, the two ends of the bamboo chip 31 move to positions between the two clamping fingers of the clamping portion 403, when the bamboo chip 31 needs to be turned over, the clamping portion 403 clamps the bamboo chip 31, then the jacking driving device 401 drives the clamping portion 403 to vertically ascend together with the rotating portion 402, then the rotating portion 402 rotates one hundred eighty degrees, and after the bamboo chip 31 is turned over, the jacking driving device 401 descends and resets, so that the bamboo chip is placed on the material conveying beam 1 again.

Embodiment 3, as shown in fig. 1, 5, and 6, the other structures of this embodiment are the same as those of embodiment 1, but in this embodiment, the feeding area includes a slide 13 disposed along the length direction of the bamboo sheet 31, and a fixed conveying roller 14 and a lifting conveying roller 15 disposed opposite to each other up and down, the upper end surface of the slide 13 is not higher than the upper end surface of the table 10, the rotating shafts of the fixed conveying roller 14 and the lifting conveying roller 15 are disposed along the width direction of the bamboo sheet, the slide 13 is provided with a notch adapted to the fixed conveying roller and the lifting conveying roller, the upper portion of the fixed conveying roller 14 extends into the notch, and the upper end surface of the fixed conveying roller 14 is flush with the upper end surface of the slide 13; the lifting conveying roller 15 is arranged on a lifting seat 16, a conveying main motor 17 for driving the lifting conveying roller 15 is arranged on the lifting seat 16, the lifting seat 16 is connected with a conveying lifting driving device 18, the conveying lifting driving device 18 is arranged on a support, and the support is arranged at the side end of the workbench 10; a stopping edge 19 extending upwards is arranged at the far end of the workbench 10 of the slideway 13, a monitoring unit 20 for identifying and detecting materials is arranged on the stopping edge 19, and the monitoring unit 20 can adopt a photoelectric sensor and the like; the monitoring units 20 are arranged at intervals along the length direction of the slideway 13.

During specific work, the feeding plate 11 is driven by the feeding driving unit 30 to push the bamboo chips 31 to the upper end of the slide 13 from the upper end of the workbench 10, at the moment, the monitoring unit 20 detects the bamboo chips 31 and sends data to the processor, the processor analyzes the data of the monitoring unit 20 and then controls the conveying lifting driving device 18 to drive the lifting conveying roller 15 to descend, so that the bamboo chips 31 are fixed between the lifting conveying roller 15 and the fixed conveying roller 14, and the lifting conveying roller 15 rotates to convey the bamboo chips 31 to a next process.

Embodiment 4, as shown in fig. 1, 5, and 6, other structures of this embodiment are the same as those of embodiment 1, but in this embodiment, the feeding frame includes upright posts 21 disposed at both ends of the length direction of the material at intervals, a side end of each upright post 21 is provided with a clamping groove 22, a gap between a lower end surface of the clamping groove 22 and an upper end of the worktable 10 is just enough for a bamboo chip to pass through, the clamping grooves 22 at both sides are disposed oppositely, and both ends of the bamboo chip 31 in the length direction extend into the clamping grooves 22.

Embodiment 5, as shown in fig. 4, the other structure of this embodiment is the same as that of embodiment 1, but in this embodiment, a storage hopper 23 is disposed above the material conveying beam 1, the upper end of the storage hopper 23 is open, an inclined surface which is lowered toward the discharge port 24 is disposed at the bottom of the inner side of the storage hopper 23, a vibration motor may be disposed at the outer side of the storage hopper 23 to slide the bamboo chips toward the discharge port 24, the length directions of the discharge port 24 and the storage hopper 23 are adapted to the length direction of the material temporary storage rack, a rotating roller 25 is disposed at the material supply side of the discharge port 24 in the storage hopper 23, the axis of the rotating roller 25 is the same as the length direction of the material temporary storage rack, pushing portions 26 are disposed in an annular array on the outer wall of the rotating roller 25, the pushing portions 26 extend in the radial direction of the rotating roller 25, the distance between two adjacent pushing portions 26 is adapted to the width of the bamboo chip 31, and the bamboo chips are clamped between the two pushing portions 26 along with the active rotation of the rotating roller 25, so that only one bamboo chip can fall out of the discharge hole each time; a baffle 27 is arranged above the rotating roller 25 in the storage hopper 23, one end of the baffle 27 is fixed on the side wall of the storage hopper 23 on one side of the rotating roller 25, the other end of the baffle 27 extends towards the bottom of the storage hopper 23, a material control driving mechanism 28 is arranged on the baffle 27, the material control driving mechanism 28 is connected with a material control plate 29, and the speed and the quantity of the bamboo chips moving towards the rotating roller 25 are controlled by adjusting the gap between the material control plate 29 and the bottom of the storage hopper 23.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present application are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present application. The foregoing is only a preferred embodiment of the present application, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes may be made without departing from the principle of the present application, and the above technical features may be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments, or may be learned by practice of the invention.