CN112916590A - Non-woven fabrics cover bag recovery unit of separable and straightening iron wire - Google Patents

Abstract

The invention relates to non-woven fabric product processing equipment, in particular to a non-woven fabric bag recycling device capable of separating and straightening iron wires. The technical problem is as follows: provides a non-woven fabric bag recycling device capable of separating and straightening iron wires. The technical scheme is as follows: a non-woven fabric bag recovery device capable of separating and straightening iron wires comprises a support frame, a control screen, a transfer and collection system, a material taking and limiting system, an iron wire separation system and a feeding system; the iron wire separation system is connected with the support frame device; the feeding system is connected with the supporting frame device. The invention achieves the effects of realizing automatic feeding and single processing of the non-woven fabric grape bagging, straightening the iron wires at the opening of the non-woven fabric grape bagging and separating the iron wires from the non-woven fabric grape bagging, avoiding the manual contact of the bent iron wires to puncture the hands, and facilitating the subsequent sorting and collection of the straightened iron wires.

Description

Non-woven fabrics cover bag recovery unit of separable and straightening iron wire

Technical Field

The invention relates to non-woven fabric product processing equipment, in particular to a non-woven fabric bag recycling device capable of separating and straightening iron wires.

Background

The bagging cultivation of the grape fruits has the advantages of improving the fruit surface smoothness, improving the coloring, preventing plant diseases and insect pests, reducing the using times of pesticides, reducing pesticide residues in the fruits and bird damage and the like. As an important technical measure of pollution-free fruits, the method is widely applied to production and also becomes an inevitable trend of market consumption. Wherein the non-woven grape cap bag is widely used due to the characteristics of good light transmission and ventilation and strong bird prevention capability.

In the prior art, the non-woven grape covering bag can be recycled for secondary use after being used, and when the non-woven grape covering bag is recycled, iron wires at the opening of the non-woven grape covering bag need to be separated out; after the grapes are taken out of the non-woven fabric grape covering bag, the iron wires are usually bent, and hands are easily punctured by the iron wires when the non-woven fabric grape covering bag is taken; the non-woven fabric grape covering bags are stacked together after being used, and need to be sorted before iron wires are separated, so that the non-woven fabric grape covering bags are difficult to recycle.

In order to solve the above problems, a non-woven fabric bag recycling device capable of separating and straightening iron wires is proposed.

Disclosure of Invention

In order to overcome the defect that the non-woven grape covering bag can be recycled for secondary use after being used, when the non-woven grape covering bag is recycled, iron wires at the opening of the non-woven grape covering bag need to be separated out firstly; after the grapes are taken out of the non-woven fabric grape covering bag, the iron wires are usually bent, and hands are easily punctured by the iron wires when the non-woven fabric grape covering bag is taken; non-woven fabrics grape cover bag uses and stacks together often, need arrange in order non-woven fabrics grape cover bag earlier before the separation iron wire, leads to retrieving the shortcoming of difficulty, technical problem: provides a non-woven fabric bag recycling device capable of separating and straightening iron wires.

The technical scheme is as follows: a non-woven fabric bag recovery device capable of separating and straightening iron wires comprises a support frame, a control screen, a transfer and collection system, a material taking and limiting system, an iron wire separation system and a feeding system; the support frame is used for supporting the device; the control screen is connected with the support frame; the transfer and collection system is connected with the support frame; the material taking limiting system is connected with the support frame device; the iron wire separation system is connected with the support frame device; the feeding system is connected with the supporting frame device.

Preferably, the transfer and collection system comprises a bracket, a conveyor belt and a collection box; the bracket is fixedly connected with the support frame; the conveyor belt is connected with the bracket; the lower part of the collecting box is fixedly connected with the supporting frame.

Preferably, the material taking limiting system comprises a first connecting plate, a telescopic elastic column, a clamping block, a first electric clamp, a first limiting plate, a second limiting plate, an electric push rod, a second connecting plate, a telescopic column, a connecting frame, a limiting connecting plate, a third connecting plate and a strip-shaped electromagnet; the first connecting plate is fixedly connected with the support frame; the telescopic elastic column is fixedly connected with the first connecting plate; the clamping block is fixedly connected with the telescopic elastic column; the first electric clamp holder is in bolt connection with the first connecting plate; the first limiting plate is connected with the first electric clamper; the second limiting plate is connected with the first electric clamper; the electric push rods are arranged in two groups, and the two groups of electric push rods are fixedly connected with the support frame; the upper part of the second connecting plate is fixedly connected with the two groups of electric push rods in sequence; the telescopic column is fixedly connected with the middle part below the second connecting plate; the connecting frame is fixedly connected with the telescopic column; the limiting connecting plate is connected with one side of the connecting frame through a bolt; the third connecting plate is connected with the other side of the connecting frame through a bolt; one side above the strip-shaped electromagnet is connected with the limiting connecting plate through a bolt, and the other side above the strip-shaped electromagnet is connected with the third connecting plate through a bolt.

Preferably, the iron wire separating system comprises a first motor, a first driving wheel, a second driving wheel, a first different gear, a first gear, a fourth connecting plate, a rack, a fifth connecting plate, a second electric gripper, a first sliding block, a first driving plate, a second driving plate, a first L-shaped connecting plate, a second sliding block, a first sliding rail, a third electric gripper, a third driving plate, a second L-shaped connecting plate, a third sliding block, a second sliding rail, a fourth electric gripper and a spring; the first motor is connected with the support frame; the first driving wheel is fixedly connected with an output shaft of the first motor; the second driving wheel is rotationally connected with the support frame, and the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt; the first different gear is rotationally connected with the support frame and synchronously rotates with the second transmission wheel through a rotating shaft; the first gear is meshed with the first different gear; the fourth connecting plate is fixedly connected with the supporting frame and is rotationally connected with the first gear; the rack is meshed with the first gear; the fifth connecting plate is fixedly connected with the rack; the second electric clamp holder is connected with the fifth connecting plate through bolts; the first sliding block is in sliding connection with the fourth connecting plate; the first driving plate is fixedly connected with the fifth connecting plate, and the first driving plate is fixedly connected with the first sliding block; the second transmission plate is in transmission connection with the first transmission plate; the first L-shaped connecting plate is in transmission connection with the second transmission plate; the second sliding block is fixedly connected with the first L-shaped connecting plate; the first sliding rail is fixedly connected with the supporting frame and is in sliding connection with the second sliding block; the third electric clamper is fixedly connected with the first L-shaped connecting plate; the third transmission plate is in transmission connection with the first transmission plate; the second L-shaped connecting plate is in transmission connection with the third transmission plate; the third sliding block is fixedly connected with the second L-shaped connecting plate; the second sliding rail is fixedly connected with the support frame and is in sliding connection with the third sliding block; the fourth electric clamper is fixedly connected with the second L-shaped connecting plate; one side of the spring is fixedly connected with the first L-shaped connecting plate, and the other side of the spring is fixedly connected with the second L-shaped connecting plate.

Preferably, the feeding system comprises a connecting frame, an electric slider, a second motor, a third transmission wheel, a fourth transmission wheel, a second different gear, a second gear, a fifth transmission wheel, a sixth transmission wheel, a fourth transmission plate, a fifth transmission plate, a sixth transmission plate, a first sliding column, a second sliding column, a first arc-shaped track, a second arc-shaped track, a shifting plate, a third gear, a seventh transmission wheel and an electric sliding rail; the electric sliding block is fixedly connected with the connecting frame; the second motor is connected with the connecting frame; the third driving wheel is fixedly connected with an output shaft of the second motor; the fourth driving wheel is rotationally connected with the connecting frame, and the outer ring surface of the fourth driving wheel is in transmission connection with the third driving wheel through a belt; the second different gear is in rotating connection with the connecting frame and synchronously rotates with the fourth driving wheel through the rotating shaft; the second gear is rotationally connected with the connecting frame and is meshed with the second different gear; the fifth driving wheel is rotationally connected with the connecting frame and synchronously rotates with the second gear through a rotating shaft; the sixth driving wheel is rotationally connected with the connecting frame, and the outer ring surface of the sixth driving wheel is in transmission connection with the fifth driving wheel through a belt; the fourth transmission plate is in rotating connection with the connecting frame and synchronously rotates with the sixth transmission wheel through the rotating shaft; the fifth transmission plate is in transmission connection with the fourth transmission plate; the sixth transmission plate is in transmission connection with the fifth transmission plate; the first sliding column is fixedly connected with the sixth transmission plate; the second sliding column is fixedly connected with the sixth transmission plate; the first arc-shaped track is in sliding connection with the first sliding column; the second arc-shaped track is fixedly connected with the connecting frame, the second arc-shaped track is in sliding connection with the second sliding column, and the second arc-shaped track is fixedly connected with the first arc-shaped track through two connecting blocks; the shifting plate is fixedly connected with the sixth transmission plate; the third gear is rotationally connected with the connecting frame; the seventh driving wheel is rotationally connected with the connecting frame and synchronously rotates with the third gear through a rotating shaft; the electric sliding rail is fixedly connected with the supporting frame and is in sliding connection with the electric sliding block.

Preferably, a baffle is arranged on one side, close to the collecting box, above the bracket.

Preferably, the fixture block is triangular as a whole.

Preferably, the side of the first limiting plate and the side of the second limiting plate, which are close to each other and far from the first electric clamper, are protruded outwards.

Preferably, the sixth transmission wheel, the fourth transmission plate, the fifth transmission plate, the sixth transmission plate, the first sliding column, the second sliding column, the first arc-shaped track, the second arc-shaped track and the shifting plate are arranged in two groups, the two groups are symmetrically distributed on the whole, and the seventh transmission wheel is connected with the other group of sixth transmission wheel.

Preferably, the two groups of shifting plates are provided with barbs on the sides close to each other.

The invention has the beneficial effects that: 1. in order to solve the problem that the non-woven grape covering bag can be recycled for secondary use after being used, when the non-woven grape covering bag is recycled, iron wires at the opening of the non-woven grape covering bag need to be separated out firstly; after the grapes are taken out of the non-woven fabric grape covering bag, the iron wires are usually bent, and hands are easily punctured by the iron wires when the non-woven fabric grape covering bag is taken; the non-woven fabric grape cap bags are stacked together after being used, and the non-woven fabric grape cap bags need to be arranged before iron wires are separated, so that the problem of difficult recovery is caused;

2. the non-woven grape bagging machine is characterized in that a transfer collecting system, a material taking limiting system, an iron wire separating system and a feeding system are designed, when the non-woven grape bagging machine is used, non-woven grape bagging is stacked together through the transfer collecting system and is transferred to the position below the material taking limiting system, then the material taking limiting system adsorbs part of the non-woven grape bagging, then the non-woven grape bagging is sequentially sent into the iron wire separating system through the feeding system, the iron wire separating system separates out the iron wires of the non-woven grape bagging and straightens the iron wires, and then the iron wires are collected into the transfer collecting system;

3. having reached the autoloading and the single processing that realize non-woven fabrics grape cover bag, having straightened the iron wire of non-woven fabrics grape cover bag opening part to separate out in the non-woven fabrics grape cover bag, avoid the manual contact to be stabbed the hand by crooked iron wire, the iron wire of being straightened is favorable to the effect of follow-up arrangement collection.

Drawings

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

FIG. 2 is a schematic diagram of the transfer collection system of the present invention;

FIG. 3 is an enlarged view of area A of the transfer collection system of the present invention;

FIG. 4 is a schematic view of a material pick-up limit system according to the present invention;

FIG. 5 is a schematic view of a combination of a first electric clamper, a first limiting plate and a second limiting plate according to the present invention;

FIG. 6 is a schematic view of the wire separation system of the present invention;

FIG. 7 is a right side view of a third drive plate of the present invention;

FIG. 8 is a schematic view of the feed system of the present invention;

fig. 9 is a top view of the feed system of the present invention.

In the above drawings: 1: support frame, 2: control screen, 3: transfer collection system, 4: get material spacing system, 5: iron wire separation system, 6: feeding system, 301: a support, 302: conveyor belt, 303: a collection tank, 401: first connecting plate, 402: telescopic elastic column, 403: a cartridge, 404: first motorized gripper, 405: first restriction plate, 406: second limiting plate, 407: electric putter, 408: second connecting plate, 409: telescopic column, 410: connecting frame, 411: spacing connecting plate, 412: third connection plate, 413: bar electromagnet, 501: first motor, 502: first drive wheel, 503: second drive wheel, 504: first spur gear, 505: first gear, 506: fourth connecting plate, 507: rack, 508: fifth connecting plate, 509: second motorized gripper, 510: first slider, 511: first drive plate, 512: second drive plate, 513: first L-shaped connecting plate, 514: second slider, 515: first slide rail, 516: third electric clamper, 517: third drive plate, 518: second L-shaped connecting plate, 519: third slider, 520: second slide rail, 521: fourth electric gripper, 522: a spring, 601: connection frame, 602: electric slider, 603: second motor, 604: third transmission wheel, 605: fourth drive wheel, 606: second different gear, 607: second gear, 608: fifth transmission wheel, 609: sixth transmission wheel, 610: fourth driving plate, 611: fifth drive plate, 612: sixth driving plate, 613: first sliding column, 614: second sliding column, 615: first arcuate rail, 616: second arcuate track, 617: dial, 618: third gear, 619: seventh transmission wheel, 620: provided is an electric sliding rail.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for completeness and fully convey the scope of the invention to the skilled person.

Example 1

A non-woven fabric bag recovery device capable of separating and straightening iron wires is shown in figures 1-9 and comprises a support frame 1, a control screen 2, a transfer and collection system 3, a material taking and limiting system 4, an iron wire separating system 5 and a feeding system 6; the support frame 1 is used for supporting the device; the control screen 2 is connected with the support frame 1; the transfer and collection system 3 is connected with the support frame 1; the material taking limiting system 4 is connected with the support frame 1; the iron wire separation system 5 is connected with the support frame 1; the feeding system 6 is connected with the support frame 1.

The working principle is as follows: when the device is used, the device is horizontally arranged at a place to be used, the power supply is switched on, the control device of the control screen 2 is switched on, a sufficient amount of non-woven grape bags to be recovered are prepared, a proper amount of the non-woven grape bags are sent into the transfer and collection system 3, the non-woven grape bags are stacked together through the transfer and collection system 3 and are transferred to the position below the material taking and limiting system 4, then the material taking and limiting system 4 adsorbs part of the non-woven grape bags, then the non-woven grape bags are sequentially sent into the iron wire separation system 5 through the feeding system 6, the iron wire separation system 5 separates the iron wires of the non-woven grape bags and straightens the iron wires, then the iron wires are collected into the transfer and collection system 3, the automatic feeding and single treatment of the non-woven grape bags are realized, and the iron wires at the openings of the non-woven grape bags are straightened, and separate out from non-woven fabrics grape cover bag, avoid artifical contact to be punctured the hand by crooked iron wire, the iron wire of being flare-outed is favorable to the effect of follow-up arrangement collection.

The transferring and collecting system 3 comprises a bracket 301, a conveyor belt 302 and a collecting box 303; the bracket 301 is fixedly connected with the support frame 1; the conveyor belt 302 is connected with the bracket 301; the lower part of the collecting box 303 is fixedly connected with the supporting frame 1.

When the non-woven grape bag taking system is used, a proper amount of non-woven grape bags are placed on the conveyor belt 302, power is externally connected to the conveyor belt 302, then the conveyor belt 302 drives the non-woven grape bags to move to the position below the material taking limiting system 4, further, separated iron wires and the non-woven grape bags are collected in the collecting box 303, and the non-woven grape bags are transferred and collected by the non-woven grape bag taking system.

The material taking limiting system 4 comprises a first connecting plate 401, a telescopic elastic column 402, a clamping block 403, a first electric clamper 404, a first limiting plate 405, a second limiting plate 406, an electric push rod 407, a second connecting plate 408, a telescopic column 409, a connecting frame 410, a limiting connecting plate 411, a third connecting plate 412 and a strip-shaped electromagnet 413; the first connecting plate 401 is fixedly connected with the support frame 1; the telescopic elastic column 402 is fixedly connected with the first connecting plate 401; the fixture block 403 is fixedly connected with the telescopic elastic column 402; the first electric clamper 404 is bolted to the first connection plate 401; the first limiting plate 405 is connected with the first electric clamper 404; the second limiting plate 406 is connected with the first electric clamper 404; the two groups of electric push rods 407 are arranged, and the two groups of electric push rods 407 are fixedly connected with the support frame 1; the upper part of the second connecting plate 408 is fixedly connected with two groups of electric push rods 407 in sequence; the telescopic column 409 is fixedly connected with the middle part below the second connecting plate 408; the connecting frame 410 is fixedly connected with the telescopic column 409; the limiting connecting plate 411 is connected with one side of the connecting frame 410 through bolts; the third connecting plate 412 is connected with the other side of the connecting frame 410 through bolts; one side above the strip-shaped electromagnet 413 is connected with the limiting connecting plate 411 through a bolt, and the other side above the strip-shaped electromagnet 413 is connected with the third connecting plate 412 through a bolt.

When the non-woven grape covering bag is used, the non-woven grape covering bag is positioned under the strip-shaped electromagnet 413, firstly, the two groups of electric push rods 407 drive the second connecting plate 408 to move downwards, then the second connecting plate 408 drives the connecting frame 410 to move downwards through the telescopic column 409, the connecting frame 410 drives the strip-shaped electromagnet 413 to move downwards through the limiting connecting plate 411 and the third connecting plate 412, so that the lower surface of the strip-shaped electromagnet 413 is contacted with the non-woven grape covering bag, then the strip-shaped electromagnet 413 is electrified to adsorb iron wires of the non-woven grape covering bag, then, the two groups of electric push rods 407 drive the second connecting plate 408 to move upwards and then move downwards again, in the process, the limiting connecting plate 411 firstly moves above the fixture block 403 and then moves downwards, when the limiting connecting plate 411 moves downwards, the limiting connecting plate 411 is contacted with the fixture block 403 to drive the fixture block 403 to move towards the telescopic elastic, then, when the limiting connection plate 411 moves to the lower side of the fixture block 403, the fixture block 403 returns to the initial position under the action of the elastic column 402, further, before the limiting connection plate 411 drives the fixture block 403 to move, because the telescopic column 409 is in a freely telescopic state, the telescopic column 409 is compressed, at this time, the limiting connection plate 411 is still located above the fixture block 403 and contacts with the fixture block 403, then when the telescopic column 409 is completely compressed, the limiting connection plate 411 drives the fixture block 403 to move, and when the fixture block 403 returns to the initial position, the telescopic column 409 is rapidly stretched under the pulling of the gravity borne by the connection frame 410, further, when the bar-shaped electromagnet 413 moves downwards, the bar-shaped electromagnet 413 is stopped first and then rapidly falls down, so that the non-woven fabric grape vine bag which is not firmly adsorbed on the bar-shaped electromagnet 413 is shaken down, further, in the initial state, the distance between the first limiting plate 405 and the second limiting plate 406 is large enough, first limiting plate 405 and second limiting plate 406 are cliied the non-woven fabrics grape cover bag of bar electro-magnet 413 below under the effect of first electronic holder 404 afterwards, carry out spacing processing to it, and this system has realized taking out non-woven fabrics grape cover bag from transferring collection system 3 to it is spacing with both sides to realize hanging of non-woven fabrics grape cover bag through adsorbing the iron wire that lives non-woven fabrics grape cover bag.

The iron wire separating system 5 comprises a first motor 501, a first driving wheel 502, a second driving wheel 503, a first external gear 504, a first gear 505, a fourth connecting plate 506, a rack 507, a fifth connecting plate 508, a second electric clamper 509, a first slide block 510, a first driving plate 511, a second driving plate 512, a first L-shaped connecting plate 513, a second slide block 514, a first slide rail 515, a third electric clamper 516, a third driving plate 517, a second L-shaped connecting plate 518, a third slide block 519, a second slide rail 520, a fourth electric clamper 521 and a spring 522; the first motor 501 is connected with the support frame 1; the first driving wheel 502 is fixedly connected with an output shaft of the first motor 501; the second driving wheel 503 is rotatably connected with the support frame 1, and the outer annular surface of the second driving wheel 503 is in transmission connection with the first driving wheel 502 through a belt; the first different gear 504 is rotatably connected with the support frame 1, and the first different gear 504 and the second driving wheel 503 synchronously rotate through a rotating shaft; the first gearwheel 505 intermeshes with the first counter-gearwheel 504; the fourth connecting plate 506 is fixedly connected with the support frame 1, and the fourth connecting plate 506 is rotatably connected with the first gear 505; the rack 507 is meshed with the first gear 505; the fifth connecting plate 508 is fixedly connected with the rack 507; the second electric clamper 509 is bolted to the fifth connecting plate 508; the first slider 510 is slidably connected to the fourth connecting plate 506; the first driving plate 511 is fixedly connected with the fifth connecting plate 508, and the first driving plate 511 is fixedly connected with the first slider 510; the second transmission plate 512 is in transmission connection with the first transmission plate 511; the first L-shaped connecting plate 513 is in transmission connection with the second transmission plate 512; the second sliding block 514 is fixedly connected with the first L-shaped connecting plate 513; the first slide rail 515 is fixedly connected with the support frame 1, and the first slide rail 515 is connected with the second slide block 514 in a sliding manner; the third electric clamper 516 is fixedly connected with the first L-shaped connecting plate 513; the third driving plate 517 is in driving connection with the first driving plate 511; the second L-shaped connecting plate 518 is in transmission connection with the third transmission plate 517; the third slide block 519 is fixedly connected with a second L-shaped connecting plate 518; the second slide rail 520 is fixedly connected with the support frame 1, and the second slide rail 520 is connected with the third slide block 519 in a sliding manner; the fourth electric clamper 521 is fixedly connected with the second L-shaped connecting plate 518; one side of the spring 522 is fixedly connected to the first L-shaped connecting plate 513, and the other side of the spring 522 is fixedly connected to the second L-shaped connecting plate 518.

When in use, the iron wire of the non-woven grape bag is transferred between the third electric gripper 516 and the fourth electric gripper 521 through the feeding system 6, then the third electric gripper 516 and the fourth electric gripper 521 grip the bent iron wire at the moment, two sides of the iron wire close to the middle part are gripped, then the output shaft of the first motor 501 drives the first transmission wheel 502 to rotate, the outer annular surface of the first transmission wheel 502 drives the second transmission wheel 503 to rotate through a belt, the second transmission wheel 503 drives the first different gear 504 to rotate through a rotating shaft, and further the first different gear 504 drives the first gear 505 to rotate, because the first different gear 504 lacks part of teeth, the first gear 505 is driven to intermittently rotate counterclockwise, then the first gear 505 intermittently drives the racks 507 to move downwards, the racks 507 drives the first transmission plate 511 to move downwards through the fifth connecting plate 508, and further the first transmission plate 511 simultaneously drives the second transmission plate 512 and the third transmission plate 517 to move downwards, meanwhile, the first driving plate 511 drives the first slider 510 to slide on the fourth connecting plate 506 for guiding, further, when the second driving plate 512 is driven to drive, the first L-shaped connecting plate 513 is driven under the second driving plate 512 to move away from the second L-shaped connecting plate 518, the first L-shaped connecting plate 513 drives the third electric gripper 516 to move away from the fourth electric gripper 521, and simultaneously, the first L-shaped connecting plate 513 drives the second slider 514 to slide on the first slide rail 515, meanwhile, when the third driving plate 517 is driven to drive, the second L-shaped connecting plate 518 is driven under the third driving plate 517 to move away from the first L-shaped connecting plate 513, the second L-shaped connecting plate 518 drives the fourth electric gripper 521 to move away from the third electric gripper 516, and simultaneously, the second L-shaped connecting plate 518 drives the third slider 519 to slide on the second slide rail 520, in the process, the spring 522 is stretched, because the first driving plate 511 intermittently moves downwards, and then the third electric gripper 516 and the fourth electric gripper 521 intermittently move towards the direction away from each other, and further when the third electric gripper 516 and the fourth electric gripper 521 stop moving, the spring 522 can pull the third electric gripper 516 and the fourth electric gripper 521 towards the direction close to each other, so that the third electric gripper 516 and the fourth electric gripper 521 intermittently move towards the direction away from each other, and intermittently return for a short distance in the moving process, so as to straighten the iron wires in the non-woven grape covering bag, and simultaneously, the part of the non-woven grape covering bag body, which is sleeved with the iron wires, is pulled off, the iron wires are exposed, and then the third electric gripper 516 and the fourth electric gripper 521 release the iron wires, so that the iron wires and the bag body both fall into the transfer and collection system 3 for collection, further, when fifth connecting plate 508 was driven the downstream, the electronic holder 509 of second clamped non-woven fabrics grape cover bag body through two sets of grip blocks, when fifth connecting plate 508 drove the electronic holder 509 downstream of second afterwards, the electronic holder 509 of second straightened non-woven fabrics grape cover bag, was favorable to follow-up arrangement to collect, and this system has realized the iron wire separation in the non-woven fabrics grape cover bag, straightens iron wire and non-woven fabrics grape cover bag body simultaneously.

The feeding system 6 comprises a connecting frame 601, an electric slider 602, a second motor 603, a third driving wheel 604, a fourth driving wheel 605, a second different gear 606, a second gear 607, a fifth driving wheel 608, a sixth driving wheel 609, a fourth driving plate 610, a fifth driving plate 611, a sixth driving plate 612, a first sliding column 613, a second sliding column 614, a first arc-shaped rail 615, a second arc-shaped rail 616, a shifting plate 617, a third gear 618, a seventh driving wheel 619 and an electric sliding rail 620; the electric slider 602 is fixedly connected with the connecting frame 601; the second motor 603 is connected with the connection frame 601; the third driving wheel 604 is fixedly connected with the output shaft of the second motor 603; the fourth driving wheel 605 is rotatably connected with the connecting frame 601, and the outer annular surface of the fourth driving wheel 605 is in driving connection with the third driving wheel 604 through a belt; the second different gear 606 is rotatably connected with the connecting frame 601, and the second different gear 606 rotates synchronously with the fourth driving wheel 605 through a rotating shaft; the second gear 607 is rotatably connected with the connecting frame 601, and the second gear 607 is meshed with the second different gear 606; a fifth transmission wheel 608 is rotatably connected with the connecting frame 601, and the fifth transmission wheel 608 and the second gear 607 rotate synchronously through a rotating shaft; a sixth driving wheel 609 is rotatably connected with the connecting frame 601, and the outer annular surface of the sixth driving wheel 609 is in driving connection with a fifth driving wheel 608 through a belt; the fourth driving plate 610 is rotatably connected to the connecting frame 601, and the fourth driving plate 610 is synchronously rotated with the sixth driving wheel 609 through a rotating shaft; the fifth transmission plate 611 is in transmission connection with the fourth transmission plate 610; the sixth transmission plate 612 is in transmission connection with the fifth transmission plate 611; the first sliding column 613 is fixedly connected with the sixth transmission plate 612; the second sliding column 614 is fixedly connected with the sixth driving plate 612; the first arc-shaped track 615 is slidably connected with the first sliding column 613; the second arc-shaped rail 616 is fixedly connected with the connecting frame 601, the second arc-shaped rail 616 is slidably connected with the second sliding column 614, and the second arc-shaped rail 616 is fixedly connected with the first arc-shaped rail 615 through two connecting blocks; the shifting plate 617 is fixedly connected with the sixth transmission plate 612; the third gear 618 is rotatably connected with the connecting frame 601; the seventh driving wheel 619 is rotatably connected with the connecting frame 601, and the seventh driving wheel 619 synchronously rotates with the third gear 618 through a rotating shaft; the electric sliding rail 620 is fixedly connected with the support frame 1, and the electric sliding rail 620 is connected with the electric sliding block 602 in a sliding manner.

When the non-woven grape bag lifting device is used, firstly, the electric slide rail 620 drives the connecting frame 601 to integrally move towards the control screen 2 for a certain distance through the electric slide block 602, at the beginning, the non-woven grape bag contacted with the shifting plate 617 is positioned below the strip-shaped electromagnet 413 and close to one side of the third connecting plate 412, subsequently, the non-woven grape bag is conveyed into the iron wire separating system 5 to be processed along with the non-woven grape bag, the non-woven grape bag at the rest position needs to be hooked by adjusting the shifting plate 617 through the mutual matching of the electric slide block 602 and the electric slide rail 620, the non-woven grape bag is firstly hooked by the shifting plate 617 and is transferred to the position which is about to enter between the bulges of the first limiting plate 405 and the second limiting plate 406, then, the non-woven grape bag is transferred to the position between the bulges of the first limiting plate 405 and the second limiting plate 406 through the action of the shifting plate 617, at the moment, the middle part of, further, in the process of transferring the non-woven grape bag between the protrusions of the first and second position- limiting plates 405 and 406, firstly, the output shaft of the second motor 603 drives the third driving wheel 604 to rotate, and then the outer circumferential surface of the third driving wheel 604 drives the fourth driving wheel 605 to rotate through the belt, the fourth driving wheel 605 drives the second different gear 606 to rotate through the rotating shaft, because the second different gear 606 has only one half gear tooth, and then in the process of one rotation, the second gear 607 and the third gear 618 are intermittently driven to rotate, and in the process of the second gear 607 rotating, the second gear 607 drives the fifth driving wheel 608 to rotate through the rotating shaft, the outer circumferential surface of the fifth driving wheel 608 drives the sixth driving wheel 609 to rotate through the belt, and then the sixth driving wheel 609 drives the fourth driving plate 610 to rotate through the rotating shaft, and the fourth driving plate 610 drives the sixth driving plate 612 to transmit through the fifth driving plate 611, in the process of transmission of the sixth transmission plate 612, the sixth transmission plate 612 drives the first sliding column 613 and the second sliding column 614 to slide back and forth in the first arc-shaped track 615 and the second arc-shaped track 616, respectively, in the process of moving the first sliding column 613 and the second sliding column 614 in the direction away from the sixth transmission wheel 609, the sixth transmission plate 612 drives the poking plate 617 to be in contact with the non-woven grape cap bag in an inclined manner, so as to insert the barb into the non-woven grape cap bag body, at this time, the first sliding column 613 moves on the arc-shaped track of the first arc-shaped track 615, then the non-woven grape cap bag is transferred to the position to be inserted into the protrusion of the first limiting plate 405 and the second limiting plate 406 through the cooperation of the electric slider 602 and the electric sliding rail 620, then the sixth transmission plate 612 is controlled to move again in the direction away from the sixth transmission wheel 609, at this time, the first sliding column 613 moves on the horizontal track of the first arc-shaped track 615, thereby transferring the non-woven fabric grape covering bag between the bulges of the first limiting plate 405 and the second limiting plate 406, realizing transferring the non-woven fabric grape covering bag at one side below the strip-shaped electromagnet 413 to the working area of the iron wire separation system 5, further, in the process of rotating the third gear 618, the third gear 618 drives the seventh driving wheel 619 to rotate through the rotating shaft, further the seventh driving wheel 619 drives the other group of sixth driving wheel 609 to rotate, thereby realizing that the other group of sixth driving wheel 609, the fourth driving plate 610, the fifth driving plate 611, the sixth driving plate 612, the first sliding column 613, the second sliding column 614, the first arc-shaped track 615, the second arc-shaped track 616 and the shifting plate 617 which are symmetrically distributed cooperate, transferring the non-woven fabric grape covering bag at the other side below the strip-shaped electromagnet 413 into the iron wire separation system 5, the two groups of shifting plates 617 cooperate with each other one after another, further transferring all the non-woven fabric grape covering bags below the strip-shaped electromagnet 413 into the iron wire separation system 5, the system realizes that the non-woven grape bags on two sides below the strip-shaped electromagnet 413 are transferred to the iron wire separation system 5 in sequence.

A baffle is arranged on one side of the upper part of the bracket 301 close to the collecting box 303.

Preventing the non-woven grape envelope from falling off the conveyor belt 302.

The latch 403 has a triangular shape as a whole.

When the limit connecting plate 411 and the latch 403 contact with each other, the limit connecting plate 411 may drive the latch 403 to move toward the elastic column 402.

The side of the first and second stopper plates 405 and 406 that are close to each other and the side that is away from the first motorized gripper 404 are protruded outward.

When the non-woven grape bag is clamped by the first limiting plate 405 and the second limiting plate 406, the outward convex part can only pass through one non-woven grape bag.

The sixth transmission wheel 609, the fourth transmission plate 610, the fifth transmission plate 611, the sixth transmission plate 612, the first sliding column 613, the second sliding column 614, the first arc-shaped rail 615, the second arc-shaped rail 616 and the shifting plate 617 are arranged in two groups, the whole is distributed symmetrically, and the seventh transmission wheel 619 is connected with the other group of the sixth transmission wheel 609.

The cooperation transfers all the non-woven grape bags to the iron wire separation system 5.

The side of the two groups of pulling plates 617 close to each other is provided with a barb.

The pulling plate 617 can hook the non-woven grape cap bag and drive the non-woven grape cap bag to move.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a non-woven fabrics cover bag recovery unit of separable and straightening iron wire, including:

the support frame (1), the support frame (1) is used for supporting the device;

the control screen (2), the control screen (2) is connected with the support frame (1);

it is characterized by also comprising:

the transfer and collection system (3), the transfer and collection system (3) is connected with the support frame (1);

the material taking limiting system (4), the material taking limiting system (4) is connected with the support frame (1);

the iron wire separating system (5), the iron wire separating system (5) is connected with the supporting frame (1);

the feeding system (6), the feeding system (6) is connected with the support frame (1).

2. A non-woven fabric bag recycling device capable of separating and straightening iron wires according to claim 1, characterized in that the transferring and collecting system (3) comprises:

the bracket (301), the bracket (301) is fixedly connected with the support frame (1);

the conveyor belt (302), the conveyor belt (302) is connected with the bracket (301);

the collecting box (303), the collecting box (303) below and support frame (1) carry out the rigid coupling.

3. A non-woven fabric bag recycling device capable of separating and straightening iron wires according to claim 2, wherein the material taking and limiting system (4) comprises:

the first connecting plate (401), the first connecting plate (401) is fixedly connected with the support frame (1);

the telescopic elastic column (402), the telescopic elastic column (402) is fixedly connected with the first connecting plate (401);

the fixture block (403), the fixture block (403) is fixedly connected with the telescopic elastic column (402);

a first electric gripper (404), the first electric gripper (404) being bolted to the first connection plate (401);

the first limiting plate (405), the first limiting plate (405) is connected with the first electric gripper (404);

the second limiting plate (406), the second limiting plate (406) is connected with the first electric gripper (404);

the electric push rods (407) are arranged in two groups, and the two groups of electric push rods (407) are fixedly connected with the support frame (1);

the upper part of the second connecting plate (408) is fixedly connected with the two groups of electric push rods (407) in sequence;

the telescopic column (409), the telescopic column (409) is fixedly connected with the middle part below the second connecting plate (408);

the connecting frame (410), the connecting frame (410) is fixedly connected with the telescopic column (409);

the limiting connecting plate (411), the limiting connecting plate (411) is in bolted connection with one side of the connecting frame (410);

a third connecting plate (412), wherein the third connecting plate (412) is in bolt connection with the other side of the connecting frame (410);

and one side above the bar-shaped electromagnet (413) is in bolted connection with the limiting connecting plate (411), and the other side above the bar-shaped electromagnet (413) is in bolted connection with the third connecting plate (412).

4. A non-woven fabric bag recycling device capable of separating and straightening iron wires according to claim 3, characterized in that the iron wire separating system (5) comprises:

the first motor (501), the first motor (501) is connected with the support frame (1);

the first driving wheel (502), the first driving wheel (502) is fixedly connected with the output shaft of the first motor (501);

the second driving wheel (503), the second driving wheel (503) is connected with the supporting frame (1) in a rotating mode, and the outer ring surface of the second driving wheel (503) is connected with the first driving wheel (502) in a driving mode through a belt;

the first different gear (504) is rotationally connected with the support frame (1), and the first different gear (504) and the second driving wheel (503) synchronously rotate through a rotating shaft;

a first gear (505), the first gear (505) intermeshing with a first external gear (504);

the fourth connecting plate (506), the fourth connecting plate (506) is fixedly connected with the support frame (1), and the fourth connecting plate (506) is rotatably connected with the first gear (505);

the rack (507), the rack (507) is meshed with the first gear (505);

the fifth connecting plate (508), the fifth connecting plate (508) is fixedly connected with the rack (507);

a second electric holder (509), wherein the second electric holder (509) is connected with the fifth connecting plate (508) through bolts;

the first sliding block (510), the first sliding block (510) and the fourth connecting plate (506) are connected in a sliding mode;

a first transmission plate (511), wherein the first transmission plate (511) is fixedly connected with the fifth connecting plate (508), and the first transmission plate (511) is fixedly connected with the first slide block (510);

the second transmission plate (512), the second transmission plate (512) is connected with the first transmission plate (511) in a transmission way;

the first L-shaped connecting plate (513) is in transmission connection with the second transmission plate (512);

the second sliding block (514), the second sliding block (514) is fixedly connected with the first L-shaped connecting plate (513);

the first sliding rail (515), the first sliding rail (515) is fixedly connected with the supporting frame (1), and the first sliding rail (515) is connected with the second sliding block (514) in a sliding manner;

the third electric clamper (516), the third electric clamper (516) is fixedly connected with the first L-shaped connecting plate (513);

the third transmission plate (517) is in transmission connection with the first transmission plate (511);

the second L-shaped connecting plate (518), the second L-shaped connecting plate (518) is in transmission connection with the third transmission plate (517);

the third sliding block (519), the third sliding block (519) is fixedly connected with the second L-shaped connecting plate (518);

the second sliding rail (520), the second sliding rail (520) is fixedly connected with the supporting frame (1), and the second sliding rail (520) is connected with the third sliding block (519) in a sliding manner;

the fourth electric clamper (521), the fourth electric clamper (521) is fixedly connected with the second L-shaped connecting plate (518);

and one side of the spring (522) is fixedly connected with the first L-shaped connecting plate (513), and the other side of the spring (522) is fixedly connected with the second L-shaped connecting plate (518).

5. A non-woven fabric bag recycling device capable of separating and straightening iron wires according to claim 4, characterized in that the feeding system (6) comprises:

a connection frame (601);

the electric sliding block (602), the electric sliding block (602) is fixedly connected with the connecting frame (601);

the second motor (603), the second motor (603) is connected with the connecting frame (601);

the third transmission wheel (604), the third transmission wheel (604) is connected with the output shaft of the second motor (603) fixedly;

the fourth driving wheel (605), the fourth driving wheel (605) is rotationally connected with the connecting frame (601), and the outer annular surface of the fourth driving wheel (605) is in transmission connection with the third driving wheel (604) through a belt;

the second different gear (606), the second different gear (606) is connected with the connecting frame (601) in a rotating mode, and the second different gear (606) rotates synchronously with the fourth driving wheel (605) through a rotating shaft;

a second gear (607), the second gear (607) is rotationally connected with the connecting frame (601), and the second gear (607) is meshed with the second different gear (606);

the fifth transmission wheel (608), the fifth transmission wheel (608) and the connecting frame (601) carry on the rotating connection, the fifth transmission wheel (608) carries on the synchronous rotation with the second gear (607) through the spindle;

a sixth driving wheel (609), wherein the sixth driving wheel (609) is rotatably connected with the connecting frame (601), and the outer annular surface of the sixth driving wheel (609) is in transmission connection with a fifth driving wheel (608) through a belt;

the fourth transmission plate (610) is rotatably connected with the connecting frame (601), and the fourth transmission plate (610) and the sixth transmission wheel (609) synchronously rotate through a rotating shaft;

the fifth transmission plate (611), the fifth transmission plate (611) is connected with the fourth transmission plate (610) in a transmission mode;

the sixth transmission plate (612), the sixth transmission plate (612) is in transmission connection with the fifth transmission plate (611);

the first sliding column (613), the first sliding column (613) is connected with the sixth driving plate (612) fixedly;

the second sliding column (614), the second sliding column (614) is fixedly connected with the sixth transmission plate (612);

the first arc-shaped rail (615), the first arc-shaped rail (615) is connected with the first sliding column (613) in a sliding mode;

the second arc-shaped rail (616), the second arc-shaped rail (616) is fixedly connected with the connecting frame (601), the second arc-shaped rail (616) is slidably connected with the second sliding column (614), and the second arc-shaped rail (616) is fixedly connected with the first arc-shaped rail (615) through two connecting blocks;

the shifting plate (617), the shifting plate (617) is fixedly connected with the sixth transmission plate (612);

a third gear (618), wherein the third gear (618) is rotatably connected with the connecting frame (601);

the seventh driving wheel (619), the seventh driving wheel (619) is connected with the connecting frame (601) in a rotating mode, and the seventh driving wheel (619) rotates synchronously with the third gear (618) through a rotating shaft;

electronic slide rail (620), electronic slide rail (620) and support frame (1) carry out the rigid coupling, and electronic slide rail (620) and electronic slider (602) carry out sliding connection.

6. A non-woven fabric bag recycling device capable of separating and straightening iron wires according to claim 5, characterized in that a baffle is arranged above the bracket (301) and on the side close to the collecting box (303).

7. The non-woven fabric bag recycling device capable of separating and straightening iron wires as claimed in claim 6, wherein the latch (403) is triangular in shape as a whole.

8. A non-woven fabric bag recycling device capable of separating and straightening iron wires according to claim 7, characterized in that the side of the first limiting plate (405) and the side of the second limiting plate (406) close to each other and far from the first electric clamper (404) are protruded outwards.

9. A non-woven fabric bag recycling device capable of separating and straightening iron wires according to claim 8, wherein two sets of the sixth transmission wheel (609), the fourth transmission plate (610), the fifth transmission plate (611), the sixth transmission plate (612), the first sliding column (613), the second sliding column (614), the first arc-shaped track (615), the second arc-shaped track (616) and the shifting plate (617) are arranged, the whole sets are distributed symmetrically, and the seventh transmission wheel (619) is connected with the other set of the sixth transmission wheel (609).

10. A non-woven fabric bag recycling device capable of separating and straightening iron wires according to claim 9, characterized in that the side of the two groups of pulling plates (617) close to each other is provided with barbs.

Images