CN115254675B - Tealeaves detects presss from both sides and hides article separation conveyor - Google Patents

Abstract

The invention belongs to the technical field of tea detection equipment, and particularly relates to a separation and conveying device for tea detection, clamping and hiding products, which comprises a rack, a conveyor belt assembly, a CCD camera assembly, a pneumatic distribution assembly and a controller, wherein the conveyor belt assembly is arranged inside the rack; the multi-material conveying device comprises a material receiving assembly, a material guiding and distributing assembly, an intermittent cutting assembly and a driving belt assembly; the tea bag clamping device is novel in design and reasonable in structure, can be used for sequentially detecting the clamped articles of various tea bags, does not need to be watched manually, and synchronously operates with the conveying belt assembly for one round, so that the working efficiency is improved, the labor intensity is reduced, the practicability is high, and the using effect is good.

Description

Tealeaves detects presss from both sides and hides article separation conveyor

Technical Field

The invention belongs to the technical field of tea detection equipment, and particularly relates to a separation and conveying device for a tea detection occluded product.

Background

The tea bag detection device is characterized in that tea needs to be detected when the tea passes through customs, wherein the detection of a clamped article is an important content, the existing detection device basically comprises a rack, a conveying belt, a CCD camera assembly, a pneumatic pushing device and a controller, the clamped article can be effectively identified by the device, but the tea bags are required to be manually poured on the conveying belt in sequence for conveying, due to different types, workers can only wait for and convey the tea bags slowly according to the types, and the working efficiency is low and the labor intensity is high.

In order to solve the problems, the application provides a tea leaf detection, clamping and storing product separation and conveying device.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides the separation and conveying device for the tea detection, clamping and collection products, which is novel in design and reasonable in structure, can be used for sequentially and sequentially detecting the clamping and collection products of various tea bags, does not need to be watched manually at any time, runs synchronously with the conveying belt assembly for one round and one class, improves the working efficiency, reduces the labor intensity, and has strong practicability and good use effect.

In order to achieve the purpose, the invention provides the following technical scheme: a separation and conveying device for tea detection, clamping and collection products comprises a rack, a conveying belt assembly, a CCD camera assembly, a pneumatic distribution assembly and a controller, wherein the conveying belt assembly is installed inside the rack, the CCD camera assembly and the pneumatic distribution assembly are installed at the top of the rack respectively and arranged on the left and the right, the controller is installed on the outer surface of the rack and electrically connected with the conveying belt assembly, the CCD camera assembly and the pneumatic distribution assembly respectively, and the separation and conveying device further comprises a multi-material conveying device installed at the top of the rack;

the multi-material conveying device comprises a receiving assembly, a guide material distributing assembly, an intermittent material cutting assembly and a driving belt assembly, wherein the receiving assembly is mounted at the top of a rack and positioned above a conveying belt assembly, the guide material distributing assembly is mounted at the top of the rack and positioned between the receiving assemblies, the intermittent material cutting assembly is mounted on the surface of the rack and stretches over the guide material distributing assembly, one end of the intermittent material cutting assembly corresponds to and is meshed with the receiving assembly in position and is connected with the conveying belt assembly, the driving belt assembly is mounted on the surface of the rack and positioned on one side of the intermittent material cutting assembly, one end of the driving belt assembly is connected with the conveying belt assembly, and the other end of the driving belt assembly is connected with the guide material distributing assembly and the intermittent material cutting assembly respectively.

Preferably, the material receiving assembly comprises a material frame, a guide rod, a fixing frame, a baffle and a tooth part, the material frame is symmetrically and reversely fastened on the top of the frame through bolts and located above the conveying belt assembly, the guide rod is symmetrically and slidably connected to the inner wall of the material frame, one end of the guide rod penetrates through the top of the material discharging frame and is fixedly connected with the fixing frame, one end of the fixing frame, far away from the guide rod, is fixedly connected with the baffle, and the baffle is slidably connected to the surface of the material frame.

Preferably, the two material frames correspond to the starting end and the terminal end of the rack respectively, the material frames are provided with material discharging cavities at equal intervals, the bottoms of the material discharging cavities and positions corresponding to the positions of the baffles are provided with through grooves, the inner parts of the material discharging cavities corresponding to the terminal end of the rack are provided with clapboards, the inner parts of the material discharging cavities are separated by taking the clapboards as boundaries to form two groups of placing cavities, the baffles corresponding to the starting end of the rack are in an I shape, and the baffles corresponding to the terminal end of the rack are in an h shape.

The tea leaf detecting, clamping and storing product separating and conveying device preferably comprises a fixed support frame, a first threaded screw rod, a sliding seat, a material guiding frame, a guide plate, a material dividing partition frame, a counting mechanism, a first connecting gear, a first toothed synchronous belt and a first transmission gear, wherein the fixed support frame is symmetrically bolted and fastened at the top of the frame and positioned between material frames, the first threaded screw rod is rotationally connected to the inner wall of the fixed support frame, the sliding seat is in threaded connection with the outer surface of the first threaded screw rod and is in sliding connection with the inner wall of the fixed support frame, the material guiding frame is symmetrically bolted and fastened at the bottom of the sliding seat and positioned above the conveying belt assembly, two ends of the material guiding frame respectively correspond to the positions of baffle plates, the guide plates are symmetrically and reversely staggered on the surface of the material guiding frame, the material separating frame is fastened on the surface of the material guiding frame through bolts and located on one side of the guide plate, the CCD camera assembly and the pneumatic material separating assembly are respectively installed on the top of the material guiding frame and arranged in a left-right mode, the CCD camera assembly and the pneumatic material separating assembly are both arranged between the guide plate and the material separating frame, the counting mechanism is installed on the surface of the pneumatic material separating assembly, one end of the counting mechanism is installed on the surface of the frame, one end of the first threaded screw rod penetrates through the outside of the fixed support frame and is fixedly connected with a first connecting gear, the first connecting gear is connected with the first toothed synchronous belt, the first transmission gear is fixedly connected to one end of the first threaded screw rod penetrating through the outside of the fixed support frame and located on one side of the first connecting gear, and the first transmission gear is connected with one end of the transmission belt assembly in a corresponding mode in position and in a meshed mode.

Preferably, the counting mechanism comprises an installation base, a second threaded screw rod, a sliding block, a counting assembly, an adjusting gear, a tooth rod frame and a counting trigger rod, wherein the installation base is fastened on the surface of the pneumatic distribution assembly through a bolt, the second threaded screw rod is rotatably connected to the inner wall of the installation base, the sliding block is connected to the outer surface of the second threaded screw rod in a threaded manner and is slidably connected to the surface of the pneumatic distribution assembly, the counting assembly is uniformly connected to the inner wall of the sliding block through a thread, one end of the second threaded screw rod penetrates through the outer portion of the installation base and is fixedly connected with the adjusting gear, the tooth rod frame is fastened to the surface of the frame and stretches over the material guide frame, the tooth rod frame is located on one side of the adjusting gear and is in meshed connection with the adjusting gear, the counting trigger rod is connected to the surface of one end of the pneumatic distribution assembly through a thread, one end of the counting trigger rod corresponds to one end of the counting assembly, and the counting trigger rod can synchronously move and trigger the counting assembly when the pneumatic distribution assembly operates.

Preferably, the counting assembly comprises a shell, a push handle, a transmission cylinder, a limiting guide groove, a compression spring, a fixing pin and a pointer, wherein the shell is in threaded connection with the inner wall of a sliding block, the push handle is in sliding connection with the inner wall of the shell, one end of the push handle penetrates out of the shell and corresponds to one end of a counting trigger rod, the transmission cylinder is in rotating connection with the inner wall of the shell, one end of the transmission cylinder penetrates out of the shell and is in threaded connection with the pointer, the other end of the transmission cylinder is located in the shell and is in sliding connection with the inner wall of the push handle, the compression spring is arranged between the transmission cylinder and the push handle, the limiting guide groove is formed in the surface of the transmission cylinder, the fixing pin is in threaded connection with the surface of the push handle and is located in the shell, and one end of the fixing pin penetrates into the push handle and is in sliding connection with the inner wall of the limiting guide groove.

Preferably, the tea leaf detecting, clamping and storing product separating and conveying device comprises an intermittent cutting assembly, a side fixing support, a guide sliding rod, a third threaded screw rod, a diamond rod, a second connecting gear, a second toothed synchronous belt, a second transmission gear, a third connecting gear, a third toothed synchronous belt, a third transmission gear, a sliding frame, a diamond sleeve shaft and a lifting gear, wherein the side fixing support is symmetrically fastened on the surface of the machine frame through bolts, the guide slide rod, the third threaded screw rod and the diamond rod are all rotationally connected to the inner wall of the side fixing support and are sequentially arranged from top to bottom, one end of the third threaded screw rod penetrates through the outer part of the side fixing bracket and is fixedly connected with second connecting gears, the two groups of second connecting gears are connected through a second toothed synchronous belt, the other end of the third threaded screw rod penetrates through the outer part of the side fixing bracket and is fixedly connected with a second transmission gear, the second transmission gear is connected with one end of the transmission belt assembly, one end of the rhombic rod penetrates out of the outer part of the side fixing bracket and is fixedly connected with third connecting gears, two groups of the third connecting gears are connected through a third tooth-shaped synchronous belt, the other end of the rhombic rod penetrates out of the outer part of the side fixing bracket and is fixedly connected with a third transmission gear, the third transmission gear is connected with one end of the transmission belt component, the sliding frame is in threaded connection with the outer surface of the third threaded screw rod and is respectively in sliding connection with the outer surfaces of the guide sliding rod and the diamond rod, the rhombic sleeve shaft is rotatably connected to the inner wall of the sliding frame and sleeved outside the rhombic rod, the rhombic sleeve shaft is connected with the rhombic rod in a sliding manner, the lifting gear is symmetrically and fixedly connected to the surface of the rhombic sleeve shaft and corresponds to the tooth part in position, and the lifting gear is meshed with the tooth part.

Preferably, one end of a central shaft of a driving roller in the conveyor belt assembly penetrates through the outside of the rack and is fixedly connected with a first synchronous gear, the other end of the central shaft of the driving roller in the conveyor belt assembly penetrates through the outside of the rack and is fixedly connected with a second synchronous gear, and a third synchronous gear is arranged on one side of the second synchronous gear.

Preferably, the transmission belt assembly comprises a first transmission belt mechanism, a second transmission belt mechanism and a third transmission belt mechanism, the first transmission belt mechanism is installed on one side surface of the rack corresponding to the position of the first synchronous gear, one end of the first transmission belt mechanism is connected with the first synchronous gear, the other end of the first transmission belt mechanism is connected with one end of a second transmission gear in the intermittent material cutting assembly, the third transmission belt mechanism and the second transmission belt mechanism are both installed on one side surface of the rack corresponding to the position of the third synchronous gear, one end of the second transmission belt mechanism is connected with the second synchronous gear, the other end of the second transmission belt mechanism is connected with one end of a third transmission gear in the intermittent material cutting assembly, one end of the third transmission belt mechanism is connected with the third synchronous gear, and the other end of the third transmission belt mechanism is connected with one end of the first transmission gear in the material guiding and separating assembly.

Preferably, the first transmission belt mechanism, the second transmission belt mechanism and the third transmission belt mechanism have the same structure, the first transmission belt mechanism comprises a transmission fluted disc, a transmission toothed belt and a transmission toothed block, the transmission fluted disc is symmetrically and rotatably connected to the surface of the rack and connected through the transmission toothed belt, the transmission toothed block is fastened to the surface of the transmission toothed belt through bolts, the transmission toothed block is designed to be adjustable in position, the transmission toothed block corresponds to and is meshed with the second transmission gear, the third transmission gear and the first transmission gear respectively, the surface of the transmission fluted disc is provided with a synchronous fluted disc, and the synchronous fluted disc is connected with the first synchronous gear, the second synchronous gear and the third synchronous gear respectively through the synchronous toothed belt.

Compared with the prior art, the invention has the beneficial effects that: the tea bag clamping device is novel in design and reasonable in structure, can be used for sequentially detecting the clamped articles of various tea bags, does not need to be watched manually, and synchronously operates with the conveying belt assembly for one round, so that the working efficiency is improved, the labor intensity is reduced, the practicability is high, and the using effect is good.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic diagram of a prior art structure;

FIG. 3 is a schematic view of the conveyor belt assembly of the present invention;

FIG. 4 is a schematic view of a receiving assembly according to the present invention;

FIG. 5 is a schematic view of a material guiding and distributing assembly according to the present invention;

FIG. 6 is a schematic view of a counting mechanism according to the present invention;

FIG. 7 is a schematic view of a counting assembly according to the present invention;

fig. 8 is a schematic structural view of an intermittent cutting assembly in the present invention.

In the figure:

1. a frame; 2. a conveyor belt assembly; 3. a CCD camera assembly; 4. a pneumatic material distributing assembly; 5. a controller; 6. a multi-material conveying device;

61. a receiving assembly; 62. the material guiding and distributing assembly; 63. an intermittent cutting assembly; 64. a belt assembly; 611. material frame; 612. a guide bar; 613. a fixed mount; 614. a baffle plate; 615. a tooth portion; 616. a discharge cavity; 617. a partition plate;

621. fixing a support frame; 622. a first threaded lead screw; 623. a slide base; 624. a material guide frame; 625. a guide plate; 626. separating the materials and separating the frames; 627. a counting mechanism; 628. a first connecting gear; 629. a first toothed synchronous belt; 6210. a first drive gear;

6271. mounting a base; 6272. a second threaded screw; 6273. a slider; 6274. a counting assembly; 6275. an adjusting gear; 6276. a rack of tooth bar; 6277. counting a trigger lever;

62741. a housing; 62742. a push handle; 62743. a transmission cylinder; 62744. a limiting guide groove; 62745. a compression spring; 62746. a fixing pin; 62747. a pointer;

631. a side fixing bracket; 632. a guide slide bar; 633. a third threaded screw; 634. a diamond-shaped rod; 635. a second connecting gear; 636. a second toothed synchronous belt; 637. a second transmission gear; 638. a third connecting gear; 639. a third toothed synchronous belt; 6310. a third transmission gear; 6311. a carriage; 6312. a diamond-shaped sleeve shaft; 6313. a lifting gear; 21. a first synchronizing gear; 22. a second synchronizing gear; 23. a third synchronizing gear;

641. a first drive belt mechanism; 642. a second belt mechanism; 643. a third belt mechanism;

6411. a transmission fluted disc; 6412. a drive toothed belt; 6413. a transmission gear block; 100. a synchronous fluted disc; 200. a synchronous toothed belt.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Please refer to fig. 1-8;

a separation and conveying device for tea detection, clamping and collection products comprises a rack 1, a conveying belt assembly 2, a CCD camera assembly 3, a pneumatic distribution assembly 4 and a controller 5, wherein the conveying belt assembly 2 is installed inside the rack 1, the CCD camera assembly 3 and the pneumatic distribution assembly 4 are installed on the top of the rack 1 respectively and arranged on the left and right sides, the controller 5 is installed on the outer surface of the rack 1 and electrically connected with the conveying belt assembly 2, the CCD camera assembly 3 and the pneumatic distribution assembly 4 respectively, and the separation and conveying device further comprises a multi-material conveying device 6 installed on the top of the rack 1;

many material conveyor 6 is including receiving material subassembly 61, the guide divides material subassembly 62, material subassembly 63 and drive belt subassembly 64 are opened to the intermittent type, receive material subassembly 61 and install at frame 1 top and be located conveyer belt subassembly 2 top, the guide divides material subassembly 62 to install at frame 1 top and be located between the material subassembly 61, material subassembly 63 is opened to the intermittent type installs on frame 1 surface and spanes the setting and divide material subassembly 62 top at the guide, material subassembly 63 one end is opened to the intermittent type is corresponding and the meshing is connected with the position of receiving material subassembly 61, drive belt subassembly 64 is installed on frame 1 surface and is located intermittent type and opens material subassembly 63 one side, drive belt subassembly 64 one end is connected with conveyer belt subassembly 2, the other end is opened material subassembly 62 and intermittent type with the guide respectively and is connected with material subassembly 63.

In this embodiment, it should be noted that: conveyer belt subassembly 2, CCD camera subassembly 3, pneumatic branch material subassembly 4 and controller 5 are prior art, and conveyer belt subassembly 2 is used for transporting the tealeaves package, and CCD camera subassembly 3 is arranged in shooing and comparing the discernment to the tealeaves package in transit, and pneumatic branch material subassembly 4 is used for promoting the tealeaves package according to the comparison result and removes to corresponding transfer chain way, and controller 5 is used for controlling above device operation and carries out data processing.

It should be noted that, in this embodiment: before use, qualified tea bags need to be photographed and identified to identify the clamping articles.

In this embodiment, it should be noted that: the third transmission gear 6310 rotates first and links the opening of the shutter 614, and then the second transmission gear 637 and the first transmission gear 6210 rotate synchronously and link the carriage 6311 and the slide 623 to move synchronously to one side, respectively.

In this embodiment: when the tea bag conveying device is used, the controller 5 controls the motor in the conveying belt component 2 to be electrified and rotated, the motor synchronously drives the driving roller to operate through the synchronous belt, the driving roller synchronously drives the other driven rollers to operate through the synchronous belt, the driving roller and the driven rollers also synchronously drive the conveying belt to operate for conveying tea bags, meanwhile, the driving roller rotates, the central shaft synchronously rotates, the central shaft rotates, the first synchronous gear 21, the second synchronous gear 22 and the third synchronous gear 23 synchronously rotate, the first synchronous gear 21 synchronously drives the synchronous fluted disc 100 in the first conveying belt mechanism 641 to rotate through the synchronous toothed belt 200, the synchronous fluted disc 100 synchronously drives the transmission fluted disc 6411 in the first conveying belt mechanism 641 to rotate, the transmission fluted disc 6411 rotates to synchronously drive the transmission toothed belt 6412 to move, the transmission toothed belt 6412 moves to synchronously drive the transmission toothed block 6413 to move, until the teeth on the surface of the transmission gear block 6413 contact and mesh with the second transmission gear 637 and synchronously drive the second transmission gear 637 to rotate, the second transmission gear 637 rotates to synchronously drive the third screw lead screw 633 to rotate, the third screw lead screw 633 rotates to synchronously drive the sliding rack 6311 to move to one side along the surfaces of the guide sliding rod 632 and the diamond-shaped rod 634, meanwhile, the third screw lead screw 633 rotates to synchronously drive the second connecting gear 635 to rotate, the second connecting gear 635 rotates to synchronously drive the other group of second connecting gear 635 to rotate through the second tooth-shaped synchronous belt 636, the other group of second connecting gear 635 rotates and synchronously drives the other group of third screw lead screw 633 to rotate, so that the two groups of sliding racks 6311 synchronously move to one side, the two groups of sliding racks 6311 move to synchronously drive the diamond sleeve 6312 and the lifting gear 6313 to move until the lifting gear 6313 moves to correspond to the teeth 615 and stops moving, at this time, the teeth on the surface of the transmission gear block 6413 are disengaged from the second transmission gear 637 and are not engaged again, so that the second transmission gear 637 is not rotated any more, at the same time, the second synchronous gear 22 is rotated to synchronously drive the synchronous fluted disc 100 in the second transmission belt mechanism 642 to rotate through the synchronous fluted belt 200, the synchronous fluted disc 100 synchronously drives the transmission fluted disc 6411 in the second transmission belt mechanism 642 to rotate, the transmission fluted disc 6411 rotates to synchronously drive the transmission fluted belt 6412 to move, the transmission fluted belt 6412 moves to synchronously drive the transmission fluted block 6413 to move until the teeth on the surface of the transmission fluted block 6413 contact and engage with the third transmission gear 6310 and synchronously drive the third transmission gear 6310 to rotate, the third transmission gear 6310 rotates to synchronously drive the rhombic rod 634 to rotate, the rhombic sleeve shaft 6312 rotates synchronously along the inner wall of the carriage 6311 due to the rotation of the rhombic sleeve shaft 634, the rhombic sleeve shaft 6312 rotates to synchronously drive the lifting gear 6313 to rotate, and contacts and meshes with the tooth part 615 in the rotating process, and synchronously drives the baffle 614 to move upwards, the baffle 614 moves upwards to open a through groove on the surface of the material frame 611 corresponding to the starting end position of the rack 1, so that the tea bag moves from the through groove and enters the material guide frame 624 under the transportation of the conveyer belt, meanwhile, the rhombic rod 634 rotates to synchronously drive the third connecting gear 638 to rotate, the third connecting gear 638 rotates to synchronously drive the other group of rhombic rods 634 through a third tooth-shaped synchronous belt 639, the other group of rhombic rods 634 rotates to synchronously drive the lifting gear 6313 to rotate, the lifting gear 6313 rotates to synchronously drive the baffle 614 corresponding to the end position of the rack 1 to move upwards, so that the tea bag and the occluded product can enter conveniently, the tea bag coming out of the starting end of the rack 1 is guided by the guide plates 625 arranged in a staggered way, so that the tea bag is in a straight line and sequentially conveyed in sequence, when the CCD camera component 3 identifies that the clamped articles are sent to the controller 5, the controller 5 controls the pneumatic distribution component 4 to operate and pushes the clamped articles to other conveying lines, in the operation process of the pneumatic distribution component 4, the pneumatic distribution component 4 synchronously operates to drive the counting trigger rod 6277 to move towards one side of the counting component 6274, when the counting trigger rod 6277 contacts with the push handle 62742 in the counting component 6274, the push handle 62742 synchronously moves towards the inner side and synchronously extrudes the compression spring 62745 and synchronously drives the fixing pin 62746 to move, so that the fixing pin 62746 is moved to the inclined section from the original vertical section in the limiting guide groove 3724 zxft 24 and synchronously drives the transmission cylinder 626262743 to rotate, the transmission pointer 49743 synchronously drives the transmission pointer 4924 to rotate, and when the counting trigger rod 6277 resets, 62742 is also reset by the elastic force of 62745 and synchronously drives the fixed pin 62746 to move from the inclined section to the vertical section of the position-limiting guide slot 62744 again and keep the position fixed, when the counting trigger lever 6277 pushes 62742 once, the pointer 62747 rotates correspondingly, the number of the clamped articles can be known by comparing the pointer 62747 with the graduation line on the surface of the housing 62741, the tea bags and the clamped articles are respectively conveyed to the inside of the material frame 611 corresponding to the terminal position of the rack 1 through the material-separating frame 626, the inner material-discharging chamber 616 thereof is provided with a partition 617 for partitioning the material-discharging chamber 616 into two groups for respectively placing the tea bags and the clamped articles, the effect is better, meanwhile, the third synchronizing gear 23 rotates to synchronously drive the synchronizing toothed disc 100 in the third transmission belt 643 to synchronously drive the third toothed disc 6411 in the third toothed disc mechanism synchronously, the transmission fluted disc 6411 rotates to synchronously drive the transmission toothed belt 6412 to move, the transmission toothed belt 6412 moves to synchronously drive the transmission toothed block 6413 to move, the transmission toothed block 6413 moves to contact and mesh with the first transmission gear 6210 and synchronously drives the first transmission gear 6210 to rotate, the first transmission gear 6210 rotates to synchronously drive the first threaded screw rod 622 to rotate, the first threaded screw rod 622 rotates to synchronously drive the first connecting gear 628 to rotate, the first connecting gear 628 rotates to synchronously drive the other group of first connecting gears 628 to rotate through the first toothed synchronous belt 629 and synchronously drive the other group of first threaded screw rods 622 to rotate, the two groups of first threaded screw rods 622 rotate to synchronously drive the sliding seat 623 to synchronously move towards one side and synchronously drive the guide frame 624 to move to synchronously drive the adjusting gear 6275 to move and intermittently mesh with the teeth on the surface of the toothed bar frame 6276 and synchronously drive the adjusting gear 6275 to intermittently rotate, the adjusting gear 6275 rotates to drive the second threaded screw rod 72 to rotate and drive the sliding block 73 to move, the sliding block 6274 moves and is better in a counting effect and is better in a good integral operation with the discharge cavity 62616.

Further, the method comprises the following steps:

in an alternative embodiment: the material receiving assembly 61 comprises a material frame 611, a guide rod 612, a fixing frame 613, a baffle 614 and a tooth part 615, the material frame 611 is symmetrically and reversely bolted and fastened at the top of the frame 1 and is located above the conveyor belt assembly 2, the guide rod 612 is symmetrically and slidably connected to the inner wall of the material frame 611, one end of the guide rod 612 penetrates through the top of the material frame 611 and is fixedly connected with the fixing frame 613, one end of the fixing frame 613, which is far away from the guide rod 612, is fixedly connected with the baffle 614, and the baffle 614 is slidably connected to the surface of the material frame 611.

In this embodiment, it should be noted that: further the structure and the relation of connection of receiving material subassembly 61 explain, receive material subassembly 61 and be used for placing and collect clamping article and tealeaves package respectively, whole easy operation, the practicality is strong and excellent in use effect.

Further, the following steps:

in an alternative embodiment: the material frames 611 are divided into two groups and respectively correspond to the starting end position and the final end position of the rack 1, the material discharging cavities 616 are arranged in the material frames 611 at equal intervals, through grooves are formed in the bottoms of the material discharging cavities 616 and the positions corresponding to the positions of the baffles 614, partition plates 617 are arranged in the material discharging cavities 616 corresponding to the final end position of the rack 1, the interiors of the material discharging cavities 616 are separated by taking the partition plates 617 as boundaries to form two groups of placing cavities, the baffles 614 corresponding to the starting end position of the rack 1 are I-shaped, and the baffles 614 corresponding to the final end position of the rack 1 are h-shaped.

In this embodiment, it should be noted that: a tooth part 615 is arranged on one side of the inner wall of the inverted U-shaped groove in the baffle 614h shape.

It should be noted that, in this embodiment: further explain the structure and the relation of connection of material frame 611, set up baffle 617 and be used for separating open material chamber 616 inner space, be used for respectively collecting folder and tealeaves package, whole easy operation, the practicality is strong and excellent in use effect.

Further, the method comprises the following steps:

in an alternative embodiment: the material guiding and distributing assembly 62 comprises a fixed support frame 621, a first threaded screw rod 622, a slide seat 623, a material guiding frame 624, a guide plate 625, a material distributing partition frame 626, a counting mechanism 627, a first connecting gear 628, a first toothed synchronous belt 629 and a first transmission gear 6210, the fixed support frame 621 is symmetrically bolted at the top of the frame 1 and located between the material frames 611, the first threaded screw rod 622 is rotatably connected to the inner wall of the fixed support frame 621, the slide seat 623 is screwed on the outer surface of the first threaded screw rod 622 and slidably connected to the inner wall of the fixed support frame 621, the material guiding frame 624 is symmetrically bolted at the bottom of the slide seat 623 and located above the conveyor belt assembly 2, two ends of the material guiding frame 624 respectively correspond to the positions of the baffles 614, the guide plate 625 is symmetrically and reversely staggered on the surface of the material guiding frame 624, the material distributing partition frame 626 is bolted on the surface of the material guiding frame 624 and located on one side of the guide plate 625, the CCD camera assembly 3 and the pneumatic material distributing assembly 4 are respectively installed at the top of the material guiding frame 624 and located on the left and right sides of the guide frame 624, the pneumatic camera assembly 3 and the pneumatic camera assembly 4 are both arranged between the guide plate 625 and the first threaded support frame 628 and connected to the first connecting gear 628, the first connecting gear is connected to one end of the fixed support frame 10, and connected to the first connecting gear 628.

In this embodiment, it should be noted that: the number of the counting mechanisms 627 is equal to that of the discharge chambers 616.

In this embodiment, it should be noted that: further explain the structure and the relation of connection of material subassembly 62 are divided to the guide, and material subassembly 62 is divided to the guide is used for arranging the tealeaves package and carries and separate, whole easy operation, and the practicality is strong and excellent in use effect.

Further, the following steps:

in an alternative embodiment: the counting mechanism 627 comprises a mounting base 6271, a second threaded screw rod 6272, a sliding block 6273, a counting assembly 6274, an adjusting gear 6275, a tooth rod rack 6276 and a counting trigger rod 6277, wherein the mounting base 6271 is fastened on the surface of the pneumatic material distribution assembly 4 through bolts, the second threaded screw rod 6272 is rotatably connected on the inner wall of the mounting base 6271, the sliding block 6273 is connected on the outer surface of the second threaded screw rod 6272 through threads and is connected on the surface of the pneumatic material distribution assembly 4 in a sliding mode, the counting assembly 6274 is uniformly connected on the inner wall of the sliding block 6273 through threads, one end of the second threaded screw rod 6272 penetrates out of the mounting base 6271 and is fixedly connected with the adjusting gear 6275, the tooth rod rack 6276 is fastened on the surface of the frame 1 through bolts and is arranged above the material guide rack 624, the tooth rod rack 6276 is positioned on one side of the adjusting gear 6275 and is meshed with the adjusting gear 6275, the counting trigger rod 6277 is connected on the surface of the pneumatic material distribution assembly 4 through threads, one end of the counting trigger rod 6277 corresponds to one end of the counting assembly 6274, and the counting trigger rod 6277 corresponds to the position of the pneumatic material distribution assembly 6274, and the counting trigger rod 77 synchronously moves and operates when the pneumatic material distribution assembly 4 operates.

It should be noted that, in this embodiment: further explain the structure and the relation of connection of count mechanism 627, count mechanism 627 is arranged in counting the article of hiding of tealeaves package, is convenient for look over, whole easy operation, and the practicality is strong and excellent in use effect.

Further, the method comprises the following steps:

in an alternative embodiment: the counting assembly 6274 comprises a shell 62741, a push handle 62742, a transmission cylinder 62743, a limiting guide groove 62744, a compression spring 62745, a fixing pin 62746 and a pointer 62747, the shell 62741 is in threaded connection with the inner wall of a sliding block 6273, the push handle 62742 is in sliding connection with the inner wall of the shell 62741, one end of the push handle 62742 penetrates out of the outer shell 62741 and corresponds to one end of the counting trigger rod 6277, the transmission cylinder 62743 is in rotating connection with the inner wall of the shell 62741, one end of the transmission cylinder 62743 penetrates out of the outer shell 62741 and is in threaded connection with the pointer 62747 969696743, the other end of the transmission cylinder 6235 zxft 3235 is in the inner wall of the shell 3235 and in sliding connection with the inner wall of the limiting guide groove 3558 zxft 3558, the inner wall of the push handle 3292, one end of the transmission cylinder is in sliding connection with the limiting guide groove 35zxft 3558, the inner wall of the transmission cylinder 356258, the limiting guide groove 35zxft 35523558, the inner wall of the transmission cylinder, the transmission cylinder is in the sliding connection with the limiting guide groove 35zxft 355235523558, the inner wall of the limiting guide groove 355235523558, the inner wall of the transmission cylinder.

In this embodiment, it should be noted that: the limiting guide groove 62744 consists of a vertical section and an oblique section which are connected end to end, when the fixing pin 62746 moves in the oblique section, the driving cylinder 62743 is synchronously driven to rotate, when the fixing pin 62746 moves in the vertical section, the driving cylinder 62743 keeps the position inconvenient and stops rotating, and the driving cylinder 62743 always keeps unidirectional rotation in the rotation process.

In this embodiment, it should be noted that: the surface of the housing 62741 is provided with graduation lines.

In this embodiment, it should be noted that: further explain counting assembly 6274's structure and relation of connection, counting assembly 6274 is arranged in counting the article of hiding of pressing from both sides in the tealeaves package, triggers design easy operation, and the practicality is strong and excellent in use effect.

Further, the method comprises the following steps:

in an alternative embodiment: the intermittent cutting assembly 63 comprises a side fixing support 631, a guide sliding rod 632, a third threaded lead screw 633, a diamond rod 634, a second connecting gear 635, a second toothed synchronous belt 636, a second transmission gear 637, a third connecting gear 638, a third toothed synchronous belt 639, a third transmission gear 6310, a carriage 6311, a diamond sleeve shaft 6312, a lifting gear 6313, the side fixing support 631 is symmetrically bolted on the surface of the rack 1, the guide sliding rod 632, the third threaded lead screw 633 and the diamond rod 634 are rotatably connected to the inner wall of the side fixing support 631 and are sequentially arranged from top to bottom, one end of the third threaded lead screw 633 penetrates through the outside of the side fixing support and is fixedly connected with the second connecting gear 635, two groups of the second connecting gear 635 are connected through the second toothed synchronous belt 636, the other end of the third threaded lead screw penetrates through the outside of the side fixing support 631 and is fixedly connected with the second transmission gear 637, the second 637 is connected with one end of the second threaded lead screw 6364, one end of the diamond rod penetrates through the outside of the side fixing support 631 and is fixedly connected with the diamond sleeve shaft 6312, one end of the diamond sleeve shaft 6312 is fixedly connected with the outer surface of the diamond sleeve shaft 6313, and is connected with the outer surface of the diamond sleeve shaft 6312, and is fixedly connected with the third toothed synchronous belt 6312, and is connected with the outer surface of the diamond sleeve shaft 6313, and is connected with the diamond sleeve shaft 6313.

It should be noted that, in this embodiment: the structure and the relation of connection of subassembly 63 are opened to the further intermittent type, and the subassembly 63 is opened to the intermittent type is used for the intermittent type to open baffle 614, and the intermittent type of being convenient for discharges the tealeaves package, easy operation, and the practicality is strong and excellent in use effect.

Further, the method comprises the following steps:

in an alternative embodiment: one end of a central shaft of a driving roller in the conveying belt assembly 2 penetrates through the outside of the rack 1 and is fixedly connected with a first synchronous gear 21, the other end of the central shaft of the driving roller in the conveying belt assembly 2 penetrates through the outside of the rack 1 and is fixedly connected with a second synchronous gear 22, and a third synchronous gear 23 is arranged on one side of the second synchronous gear 22.

In this embodiment, it should be noted that: further explain the structure and the relation of connection to conveyer belt subassembly 2, with conveyer belt subassembly 2 synchronous operation, a round grade, whole easy operation, the practicality is strong and excellent in use effect.

Further, the method comprises the following steps:

in an alternative embodiment: the belt assembly 64 includes a first belt mechanism 641, a second belt mechanism 642 and a third belt mechanism 643, the first belt mechanism 641 is installed on a side surface of the rack 1 corresponding to the position of the first synchronizing gear 21, one end of the first belt mechanism 641 is connected to the first synchronizing gear 21, the other end is connected to one end of the second transmission gear 637 in the intermittent cutting assembly 63, the third belt mechanism 643 and the second belt mechanism 642 are both installed on a side surface of the rack 1 corresponding to the position of the third synchronizing gear 23, one end of the second belt mechanism 642 is connected to the second synchronizing gear 22, the other end is connected to one end of the third transmission gear 6310 in the intermittent cutting assembly 63, one end of the third belt mechanism 643 is connected to the third synchronizing gear 23, and the other end is connected to one end of the first transmission gear 6210 in the material guiding and distributing assembly 62.

In this embodiment, it should be noted that: further explain the structure and the relation of connection of drive belt subassembly 64, can trigger multiple mechanism operation respectively through drive belt subassembly 64, whole easy operation, the practicality is strong and excellent in use effect.

Further, the method comprises the following steps:

in an alternative embodiment: the first transmission belt mechanism 641, the second transmission belt mechanism 642 and the third transmission belt mechanism 643 are identical in structure, the first transmission belt mechanism 641 comprises a transmission toothed disc 6411, a transmission toothed belt 6412 and a transmission toothed block 6413, the transmission toothed disc 6411 is symmetrically and rotatably connected to the surface of the frame 1 and connected through the transmission toothed belt 6412, the transmission toothed block 6413 is fastened to the surface of the transmission toothed belt 6412 through bolts, the transmission toothed block 6413 is designed to be adjustable in position, the transmission toothed block 6413 corresponds to and is meshed with the second transmission gear 637, the third transmission gear 6310 and the first transmission gear 6210 respectively, the transmission toothed disc 6411 is provided with a synchronization toothed disc 100 on the surface, and the synchronization toothed disc 100 is connected with the first synchronization gear 21, the second synchronization gear 22 and the third synchronization gear 23 respectively through the synchronization toothed belt 200.

It should be noted that, in this embodiment: further explain the structure and the relation of connection of transmission cogged block 6413, can trigger multiple mechanism operation respectively through the transmission cogged block 6413 of different positions, whole easy operation, the practicality is strong and excellent in use effect.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a tealeaves detects presss from both sides and hides article separation conveyor, includes frame (1), conveyer belt subassembly (2), CCD camera subassembly (3), pneumatic branch material subassembly (4) and controller (5), install inside frame (1) conveyer belt subassembly (2), CCD camera subassembly (3) and pneumatic branch material subassembly (4) install respectively at frame (1) top and control the setting, controller (5) install in frame (1) surface and respectively with conveyer belt subassembly (2), CCD camera subassembly (3) and pneumatic branch material subassembly (4) electric connection, its characterized in that: the multi-material conveying device is arranged on the top of the rack (1);

the multi-material conveying device (6) comprises a receiving assembly (61), a material guiding and distributing assembly (62), an intermittent material cutting assembly (63) and a conveying belt assembly (64), wherein the receiving assembly (61) is installed at the top of the rack (1) and located above the conveying belt assembly (2), the material guiding and distributing assembly (62) is installed at the top of the rack (1) and located between the receiving assemblies (61), the intermittent material cutting assembly (63) is installed on the surface of the rack (1) and arranged above the material guiding and distributing assembly (62) in a crossing mode, one end of the intermittent material cutting assembly (63) corresponds to and is meshed with the position of the receiving assembly (61), the conveying belt assembly (64) is installed on the surface of the rack (1) and located on one side of the intermittent material cutting assembly (63), one end of the conveying belt assembly (64) is connected with the conveying belt assembly (2), and the other end of the conveying belt assembly (64) is respectively connected with the material guiding and distributing assembly (62) and the intermittent material cutting assembly (63);

the material receiving assembly (61) comprises a material frame (611), a guide rod (612), a fixing frame (613), a baffle (614) and a tooth part (615), the material frame (611) is symmetrically and reversely screwed and fastened at the top of the frame (1) and positioned above the conveying belt assembly (2), the guide rod (612) is symmetrically and slidably connected to the inner wall of the material frame (611), one end of the guide rod (612) penetrates through the top of the material frame (611) and is fixedly connected with the fixing frame (613), one end of the fixing frame (613) far away from the guide rod (612) is fixedly connected with the baffle (614), and the baffle (614) is slidably connected to the surface of the material frame (611);

the intermittent cutting assembly (63) comprises a side fixing support (631), a guide sliding rod (632), a third threaded screw rod (633), a rhombic rod (634), a second connecting gear (635), a second toothed synchronous belt (636), a second transmission gear (637), a third connecting gear (638), a third toothed synchronous belt (639), a third transmission gear (6310), a sliding frame (6311), a rhombic sleeve shaft (6312) and a lifting gear (6313), wherein the side fixing support (631) is symmetrically bolted on the surface of the rack (1), the guide sliding rod (632), the third threaded screw rod (633) and the rhombic rod (634) are rotatably connected to the inner wall of the side fixing support (631) and are sequentially arranged from top to bottom, one end of the third threaded screw rod (633) penetrates through the outside of the side fixing support (631) and is fixedly connected with the second connecting gear (635), two groups of the second connecting gears (635) are connected through the second toothed synchronous belt (636), the other end of the third threaded screw rod (633) penetrates through the side fixing support (631) and is fixedly connected with the second transmission gear (637), one end of the rhombic rod (637) is connected with the second toothed synchronous belt (637), two groups of third connecting gears (638) are connected through a third tooth-shaped synchronous belt (639), the other end of the rhombic rod (634) penetrates through the outside of the side fixing support (631) and is fixedly connected with a third transmission gear (6310), the third transmission gear (6310) is connected with one end of a transmission belt assembly (64), the carriage (6311) is in threaded connection with the outer surface of the third threaded screw rod (633) and is respectively in sliding connection with the outer surfaces of the guide sliding rod (632) and the rhombic rod (634), the rhombic sleeve shaft (6312) is rotationally connected with the inner wall of the carriage (6311) and is sleeved outside the rhombic rod (634), the rhombic sleeve shaft (6312) is in sliding connection with the rhombic rod (634), the lifting gear (6313) is symmetrically and fixedly connected with the surface of the rhombic sleeve shaft (6312) and corresponds to the tooth part (615), and the lifting gear (6313) is in meshing connection with the tooth part (615);

the material guiding and distributing assembly (62) comprises a fixed support frame (621), a first threaded screw rod (622), a sliding seat (623), material guiding frames (624), guide plates (625), material distributing partition frames (626), a counting mechanism (627), a first connecting gear (628), a first toothed synchronous belt (629) and a first transmission gear (6210), wherein the fixed support frame (621) is symmetrically bolted on the top of the frame (1) and positioned between the material frames (611), the first threaded screw rod (622) is rotationally connected to the inner wall of the fixed support frame (621), the sliding seat (623) is in threaded connection with the outer surface of the first threaded screw rod (622) and is in sliding connection with the inner wall of the fixed support frame (621), the material guiding frames (624) are symmetrically bolted on the bottom of the sliding seat (623) and positioned above the conveying belt assembly (2), two ends of the material guiding frames (624) respectively correspond to the positions of the baffle plates (614), the guide plates (624) are symmetrically and reversely staggered on the surfaces of the material guiding frames (624), the material distributing partition frames (626) are symmetrically arranged on the surfaces of the material guiding frames (624), the left side and the right side of the material distributing partition frames (625), the pneumatic camera (2) and the pneumatic camera assembly (4) are respectively arranged on the top of the CCD guide frame (625), and the CCD) and the pneumatic camera assembly (2), and the pneumatic camera assembly (4) The counting mechanism (627) is installed on the surface of the pneumatic distribution assembly (4), one end of the counting mechanism (627) is installed on the surface of the frame (1), one end of the first threaded screw rod (622) penetrates through the outside of the fixed support frame (621) and is fixedly connected with the first connecting gear (628), the first connecting gear (628) is connected with the first connecting gear (629) through the first toothed synchronous belt, the first transmission gear (6210) is fixedly connected with the first threaded screw rod (622) penetrates through the surface of one end of the outside of the fixed support frame (621) and is located on one side of the first connecting gear (628), and the first transmission gear (6210) corresponds to and is meshed with one end of the transmission belt assembly (64).

2. The tea leaf detection, occluded product separation and transport device according to claim 1, wherein: the material frame (611) is divided into two groups and corresponds to the starting end position and the end position of the rack (1) respectively, material discharging cavities (616) are arranged in the material frame (611) at equal intervals, through grooves are formed in the bottoms of the material discharging cavities (616) and positions corresponding to the baffle plates (614), partition plates (617) are arranged in the material discharging cavities (616) corresponding to the end position of the rack (1), the interiors of the material discharging cavities (616) are separated by taking the partition plates (617) as boundaries to form two groups of placing cavities, the baffle plates (614) corresponding to the starting end position of the rack (1) are I-shaped, and the baffle plates (614) corresponding to the end position of the rack (1) are h-shaped.

3. The tea leaf detection, occluded product separation and transport device according to claim 1, wherein: the counting mechanism (627) comprises a mounting base (6271), a second threaded screw rod (6272), a sliding block (6273), a counting assembly (6274), an adjusting gear (6275), a tooth bar rack (6276) and a counting trigger rod (6277), the mounting base (6271) is fastened on the surface of the pneumatic material distributing component (4) through bolts, the second screw thread screw rod (6272) is rotatably connected with the inner wall of the mounting base (6271), the sliding block (6273) is in threaded connection with the outer surface of the second threaded screw rod (6272) and is in sliding connection with the surface of the pneumatic material distributing assembly (4), the counting assembly (6274) is uniformly screwed on the inner wall of the sliding block (6273), one end of the second threaded screw rod (6272) penetrates through the outer part of the mounting base (6271) and is fixedly connected with an adjusting gear (6275), the tooth bar rack (6276) is fastened on the surface of the machine frame (1) by bolts and is arranged above the material guide rack (624) in a crossing way, the tooth bar rack (6276) is positioned at one side of the adjusting gear (6275) and is meshed with the adjusting gear (6275), the counting trigger rod (6277) is connected with one end surface of the pneumatic material distributing component (4) in a threaded mode, one end of the counting trigger rod (6277) corresponds to one end of the counting assembly (6274), the counting trigger rod (6277) synchronously moves and triggers the counting assembly (6274) to operate when the pneumatic distribution assembly (4) operates.

4. The tea leaf detection, occluded product separation and transport device according to claim 3, wherein: the counting assembly (6274) comprises a shell (62741), a push handle (62742), a transmission barrel (62743), a limiting guide groove (62744), a compression spring (62745), a fixing pin (62746) and a pointer (62747), wherein the shell (62741) is in threaded connection with the inner wall of a sliding block (6273), the push handle (62742) is in sliding connection with the inner wall of the shell (62741), one end of the push handle (62742) penetrates through the outer part of the shell (62741) and corresponds to one end of a counting trigger rod (6277), the transmission barrel (62743) is in rotating connection with the inner wall of the shell (7439 zxft 74743), one end of the transmission barrel (62743) penetrates through the outer part of the shell (8624 zxft 868624) and is in threaded connection with the transmission barrel (3496743), one end of the transmission barrel (344196), the transmission barrel (6258) is in sliding connection with the limiting guide groove (34xxft) and the inner wall of the transmission barrel (6258) and the inner wall of the transmission barrel (423258) is in the sliding connection with the limiting guide groove (34zxft 3258), the transmission barrel (6258) and the inner wall of the transmission barrel (423258) and the transmission barrel (423258) which is in the transmission barrel (4232963258) and the inner wall of the transmission barrel (423258) which is in the transmission barrel (423258) and the transmission barrel (42523258) is in the inner wall of the transmission barrel (4252523258).

5. The tea leaf detection, occluded product separation and transport device according to claim 1, wherein: one end of a driving roller central shaft in the conveying belt assembly (2) penetrates through the outer portion of the rack (1) and is fixedly connected with a first synchronous gear (21), the other end of the driving roller central shaft in the conveying belt assembly (2) penetrates through the outer portion of the rack (1) and is fixedly connected with a second synchronous gear (22), and a third synchronous gear (23) is arranged on one side of the second synchronous gear (22).

6. The tea leaf detection, occluded product separation and conveyance device according to claim 1, wherein: the transmission belt assembly (64) comprises a first transmission belt mechanism (641), a second transmission belt mechanism (642) and a third transmission belt mechanism (643), wherein the first transmission belt mechanism (641) is installed on one side surface of the rack (1) corresponding to the position of the first synchronous gear (21), one end of the first transmission belt mechanism (641) is connected with the first synchronous gear (21), the other end of the first transmission belt mechanism is connected with one end of the second transmission gear (637) in the intermittent cutting assembly (63), the third transmission belt mechanism (643) and the second transmission belt mechanism (642) are both installed on one side surface of the rack (1) corresponding to the position of the third synchronous gear (23), one end of the second transmission belt mechanism (642) is connected with the second synchronous gear (22), the other end of the second transmission belt mechanism is connected with one end of the third transmission gear (6310) in the intermittent cutting assembly (63), one end of the third transmission belt mechanism (643) is connected with the third synchronous gear (23), and the other end of the third transmission belt mechanism is connected with the first transmission gear (6210) in the material guiding assembly (62).

7. The tea leaf detection, occluded product separation and transport device according to claim 6, wherein: the first transmission belt mechanism (641), the second transmission belt mechanism (642) and the third transmission belt mechanism (643) are identical in structure, the first transmission belt mechanism (641) comprises a transmission fluted disc (6411), a transmission fluted disc (6412) and a transmission toothed block (6413), the transmission fluted disc (6411) is symmetrically and rotatably connected to the surface of the rack (1) and connected through the transmission fluted disc (6412), the transmission toothed block (6413) is fastened to the surface of the transmission fluted disc (6412) through bolts, the transmission toothed block (6413) is designed to be adjustable in position, the transmission fluted disc (6413) is respectively corresponding to and meshed with the second transmission gear (637), the third transmission gear (6310) and the first transmission gear (6210), the surface of the transmission fluted disc (6411) is provided with a synchronous fluted disc (100), and the synchronous fluted disc (100) is respectively connected with the first synchronous gear (21), the second synchronous gear (22) and the third synchronous gear (23) through a synchronous fluted disc (200).

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