CN111847075A

CN111847075A - Magnetic stripe and magnetic block combined feeding device of magnetic soft screen door

Info

Publication number: CN111847075A
Application number: CN202010782649.9A
Authority: CN
Inventors: 李传涛
Original assignee: Anhui Jiaoyang Soft Door Co ltd
Current assignee: Anhui Jiaoyang Soft Door Co ltd
Priority date: 2020-08-06
Filing date: 2020-08-06
Publication date: 2020-10-30
Anticipated expiration: 2040-08-06
Also published as: CN111847075B

Abstract

The invention discloses a magnetic stripe and magnetic block combined feeding device of a magnetic soft screen door, which comprises a conveying groove, a magnetic stripe feeding part and a magnetic block feeding part, wherein the conveying groove is provided with a conveying groove; the conveying groove comprises a first groove section, a second groove section, a third groove section and a fourth groove section which are sequentially connected along the conveying direction; the magnetic strip feeding part and the magnetic block feeding part are sequentially arranged along the axial direction of the conveying groove; the magnetic strip feeding part comprises a magnetic strip unreeling unit and a magnetic strip cutting unit; the magnetic strip unreeling unit conveys the magnetic strip into the first groove section; the second groove section is formed in the magnetic stripe cutting unit, and the magnetic stripe cutting unit is used for cutting the magnetic stripe on the second groove section in a fixed length; the third groove section is formed in the magnetic block feeding part, and the head end of the third groove section is connected with the tail end of the second groove section. Compared with the prior art, the invention meets the production requirement of modernization automation, reduces the labor cost and improves the production efficiency.

Description

Magnetic stripe and magnetic block combined feeding device of magnetic soft screen door

Technical Field

The invention relates to the technical field of production of magnetic soft screen doors, in particular to a magnetic strip and magnetic block combined feeding device of a magnetic soft screen door.

Background

In the prior art, the magnetic soft screen door comprises two symmetrically arranged mesh-shaped screen pieces with equal width, the mesh-shaped screen pieces are in a rectangular structure, a plurality of magnetic attraction blocks are symmetrically arranged on two adjacent wrapping edges of the two mesh-shaped screen pieces from top to bottom, wherein the magnetic attraction block comprises a long magnetic strip and a short magnetic strip which are combined, in the prior art, the magnetic strip and the magnetic strip are usually taken up from a raw material barrel by manpower and then filled into a reticular yarn sheet, and the processes of edge covering, cutting and the like are also carried out by manpower, thereby wasting time and labor, having low production efficiency, therefore, a set of automatic production system for the magnetic soft screen door, which can automatically convey the reticular screen sheet, automatically provide the magnetic strips and the magnetic blocks and automatically cut, needs to be designed, in the automatic production system, the magnetic strips and the magnetic blocks are automatically fed, the magnetic strips and the magnetic blocks are matched, and the matched magnetic strips and magnetic blocks are conveyed to a production line one by one.

Disclosure of Invention

The invention aims to provide a magnetic strip and magnetic block combined feeding device of a magnetic soft screen door, which aims to solve the technical problems in the prior art and can be used for matching magnetic strips and magnetic blocks and conveying the matched magnetic strips and magnetic blocks to a production line one by one.

The invention provides a magnetic stripe and magnetic block combined feeding device of a magnetic soft screen door, which comprises a conveying groove, a magnetic stripe feeding part and a magnetic block feeding part, wherein the conveying groove comprises a conveying groove body, a magnetic stripe feeding part and a magnetic block feeding part, and the magnetic stripe and magnetic block combined feeding device comprises:

the conveying groove is used for accommodating the magnetic strips and the magnetic blocks and guiding the magnetic strips and the magnetic blocks to be conveyed to a specified position along the axial direction of the conveying groove; the conveying groove comprises a first groove section, a second groove section, a third groove section and a fourth groove section which are sequentially connected along the conveying direction;

the magnetic strip feeding part and the magnetic block feeding part are sequentially arranged along the axial direction of the conveying groove;

the magnetic strip feeding part comprises a magnetic strip unreeling unit and a magnetic strip cutting unit;

the magnetic stripe unreeling unit is arranged at the starting end of the first groove section so as to convey the magnetic stripe into the first groove section;

the second groove section is formed in the magnetic stripe cutting unit, the head end of the second groove section is connected with the tail end of the first groove section, and the magnetic stripe cutting unit is used for cutting the magnetic stripe on the second groove section in a fixed length;

the third groove section is formed in the magnetic block feeding portion, the head end of the third groove section is connected with the tail end of the second groove section, the magnetic block feeding portion comprises a magnetic block storage box, a partition plate driving unit, a push plate and a push plate driving unit, wherein:

a storage space is formed in the magnetic block storage box, a plurality of groups of magnetic blocks are stacked in the storage space in the vertical direction, each group of magnetic blocks comprises a plurality of magnetic blocks, and the plurality of magnetic blocks are arranged in parallel in the horizontal direction;

a first opening, a second opening, a third opening and a fourth opening are formed in the magnetic block storage box, the first opening is located at the top of the storage space, the second opening is located on a first wall surface of the storage space, the third opening is located on a second wall surface of the storage space, the fourth opening is located on a third wall surface of the storage space, the second wall surface and the third wall surface are arranged oppositely, and the first wall surface is located between the second wall surface and the third wall surface; the third opening and the fourth opening are oppositely arranged, and the second opening is higher than the third opening;

one end of the partition board is fixed in the second opening in a clearance fit mode, and the partition board driving unit is connected with the other end of the partition board so as to drive the partition board to reciprocate in the horizontal direction;

one end of the push plate is fixed in the third opening in a clearance fit mode, and the push plate driving unit is connected with the other end of the push plate to drive the push plate to reciprocate in the horizontal direction, so that the magnetic blocks at the bottommost layer are pushed to be sent to the third groove section from the fourth opening one by one.

The magnetic strip and magnetic block combined feeding device for the magnetic soft screen door preferably comprises a rack, a winding drum, a guide roller set and a first driving motor, wherein the winding drum, the guide roller set and the first driving motor are all arranged on the rack, an output end of the first driving motor is connected with an end of the winding drum to drive the winding drum to rotate, one end of the magnetic strip is wound on the winding drum, and the other end of the magnetic strip is guided by the guide roller set and then conveyed to a starting end of the first groove section;

the guide roller group includes first deflector roll, second deflector roll, third deflector roll and the fourth deflector roll that sets gradually along the delivery path, first deflector roll the third deflector roll with the fourth deflector roll all is fixed in the top of frame, but the perpendicular reciprocal lift's of second deflector roll is fixed in the frame.

As above, the magnetic strip and magnetic block combined feeding device for the magnetic soft screen door is preferably provided with a bottom plate, a strip plate, support legs and a plurality of guiding and shaping devices in the frame, wherein:

the lath is fixed on the bottom plate through a plurality of supporting legs, and the first groove section is formed at the top end of the lath;

the guide shaping devices are arranged in a plurality and are sequentially arranged along the axis direction of the first groove section, and each guide shaping device comprises a first base, a first mounting seat, a first air cylinder, a first shaping wheel, a second shaping wheel and a first lifting plate;

the first base is arranged at the bottom of the batten, and the first shaping wheel is rotatably supported on the first base;

first mount pad set up in the top of slat, the cylinder body of first cylinder is fixed in on the first mount pad, the piston rod of first cylinder runs through perpendicular downwardly extending behind the first mount pad, the piston rod of first cylinder end with first lifter plate is connected, first mount pad in the relative both sides of first cylinder all are equipped with first guide slot, clearance fit has first guide arm in the first guide slot, the bottom of first guide arm with first lifter plate is connected, the rotatable support of second sizing wheel in the bottom surface of first lifter plate, the second sizing wheel with first sizing wheel sets up relatively, first sizing wheel with be formed with between the second sizing wheel and be used for supplying the clearance that the magnetic stripe passes through.

As above a magnetic stripe magnetic path combination feedway of soft screen door of magnetism, wherein, preferably, magnetic stripe cutting unit includes first base, first belt pulley, second driving motor, third driving motor, transfer line, first transmission belt, first mounting panel, first fixed column and cutter, wherein:

the first base is arranged at the tail end of the batten, the second groove section is formed at the top of the first base, the first base is provided with a first accommodating groove and a second accommodating groove in a concave manner in sequence in the axis direction of the second groove section, a first rotating shaft is rotatably supported in the first accommodating groove, a first end of the first rotating shaft penetrates through the first base and then is connected with an output shaft of the second driving motor, the second end of the first rotating shaft penetrates through the first base and then is connected with the first belt pulley, a third sizing wheel is sleeved on the first rotating shaft, a second rotating shaft is rotatably supported in the second accommodating groove, a second end of the second rotating shaft penetrates through the first base and then is connected with the second belt pulley, a fourth setting wheel is sleeved on the second rotating shaft, and two ends of the first transmission belt are respectively sleeved on the first belt pulley and the second belt pulley in a circle manner;

the first mounting plate is fixed on the first base through the first fixing columns, four first fixing columns are arranged and symmetrically arranged at four corners of the first mounting plate, a fifth sizing wheel and a sixth sizing wheel are rotatably supported on the bottom surface of the first mounting plate, the fifth sizing wheel is arranged relative to the third sizing wheel, and a gap for the magnetic stripe to pass through is formed between the third sizing wheel and the fifth sizing wheel; the sixth sizing wheel is arranged relative to the fourth sizing wheel, and a gap for the magnetic stripe to pass through is formed between the sixth sizing wheel and the fourth sizing wheel;

the utility model discloses a cutter, including first mounting panel, third driving motor, cutter, first guide slot, second guide slot, third driving motor, motor mount pad, the head end eccentric connection of transfer line have a square groove to run through on the face of first mounting panel, third driving motor is fixed in through the motor mount pad the top of square groove, the head end eccentric connection of transfer line in on third driving motor's the output shaft, the bottom of transfer line with the top of second lifter plate is connected, the cutter is fixed in the bottom of second lifter plate, on the second lifter plate in the both sides of transfer line are equipped with the second guide slot respectively, two equal clearance fit has the second guide arm in the second guide slot, the bottom of second guide.

The magnetic strip and magnetic block combined feeding device of the magnetic soft screen door preferably further comprises a heating device and a cooling device, wherein the heating device and the cooling device are sequentially arranged along the conveying direction of the magnetic strip, the heating device is used for heating the magnetic strip conveyed to the first groove section at the designated position, and the cooling device is used for cooling the magnetic strip heated by the heating device.

The magnetic stripe and magnetic block combined feeding device for the magnetic soft screen door is characterized in that the partition driving unit comprises a partition driving cylinder, a first transfer plate and a cylinder mounting seat, the cylinder mounting seat is fixed on a first wall surface of the magnetic block storage box, a cylinder body of the partition driving cylinder is fixed on the cylinder mounting seat, a piston rod of the partition driving cylinder is arranged on one side deviated from the magnetic block storage box, the piston rod of the partition driving cylinder extends in the horizontal direction, the tail end of the piston rod of the partition driving cylinder is fixed to the top end of the first transfer plate, one end of the partition is connected with the bottom end of the first transfer plate, and the other end of the partition extends into the accommodating space horizontally from the second opening.

As above a magnetic stripe magnetic path combination feedway of soft screen door of magnetism, wherein, the preferred is, push pedal drive unit includes that the push pedal drives actuating cylinder and second keysets, the cylinder body that the push pedal drove actuating cylinder is fixed in on the fourth wall of magnetic path storage box, the fourth wall with first wall sets up relatively, the fourth wall set up in the second wall with between the third wall, the piston rod that the push pedal drove actuating cylinder set up in being close to the one end of second wall, the piston rod that the push pedal drove actuating cylinder extend along the horizontal direction and terminal with the top of second keysets is fixed, the one end of push pedal with the bottom of second keysets is connected, the other end of push pedal certainly the third opening horizontal extension enters in the accommodation space.

In the magnetic strip and magnetic block combined feeding device for the magnetic soft screen door, preferably, the bottom surfaces of the third opening and the fourth opening are flush with the bottom surface of the accommodating space, and the bottom surface of the second opening is flush with the top surface of the third opening.

The magnetic strip and magnetic block combined feeding device of the magnetic soft screen door preferably further comprises a magnetic strip output channel, the magnetic strip output channel is obliquely arranged, the starting end of the magnetic strip output channel is communicated with the fourth opening, and the tail end of the magnetic strip output channel is connected with the third groove section.

The magnetic strip and magnetic block combined feeding device for the magnetic soft screen door preferably further comprises a traction output unit, wherein the traction output unit comprises a second base, a fourth driving motor, a third belt pulley, a fourth belt pulley, a second mounting plate, a third mounting plate, a second transmission belt and second fixing columns, the fourth groove section is formed on the top surface of the second base, the head end of the fourth groove section is connected with the tail end of the third groove section, the second mounting plate is fixed on the second base through the second fixing columns, the four second fixing columns are arranged at four corners of the second mounting plate, the third mounting plate is fixed on the second mounting plate, the extending direction of the third mounting plate is perpendicular to the extending direction of the second mounting plate, and the third belt pulley is rotatably arranged at the top of the third mounting plate, the fourth belt pulley is equipped with a plurality ofly, and is a plurality of the rotatable interval of fourth belt pulley set up in on the second mounting panel, it is a plurality of the extending direction of fourth belt pulley with the extending direction of fourth groove section is parallel, second transmission belt circle overlap in third belt pulley and a plurality of on the fourth belt pulley, second transmission belt quilt third belt pulley and two that are located both ends the tensioning of fourth belt pulley, second transmission belt is located the top of fourth groove section and laminate in magnetic stripe and the magnetic path in the fourth groove section, fourth driving motor's output with third belt pulley connection, in order to drive the third belt pulley rotates.

Compared with the prior art, the automatic supply device has the advantages that the magnetic strip supply part and the magnetic block supply part are arranged, the magnetic strip supply part is responsible for providing the cut magnetic strips, the magnetic block supply part is responsible for providing the magnetic blocks, the magnetic strips are continuously conveyed in the conveying groove and are continuously conveyed to the fourth groove section from the first groove section and then output, the magnetic blocks are inserted between the two magnetic strips in the third groove section, the magnetic blocks and the magnetic strips are coated and fixed after the fourth groove section of the traction output unit is conveyed, and then the magnetic blocks and the magnetic strips are hot-melted and fixed on one side edge part of the reticular yarn sheet, so that the automatic supply of the magnetic blocks of the magnetic strips is completed, the production requirement of modernization automation is met, the labor cost is reduced.

Drawings

FIG. 1 is an isometric view of the overall structure of the present invention;

FIG. 2 is an isometric view of a magnetic strip supply portion;

FIG. 3 is an isometric view of a hidden heating and cooling device of a magnetic strip supply section;

FIG. 4 is an isometric view of the guide and sizing device;

FIG. 5 is an isometric view of a magnetic stripe cutting unit;

FIG. 6 is a partial view of a magnetic stripe cutting unit;

FIG. 7 is a first perspective view of the magnetic block supply portion;

FIG. 8 is a second perspective view of the magnetic block supply portion;

FIG. 9 is an isometric view of a magnetic block storage box;

FIG. 10 is an isometric view of the magnetic block storage box two;

FIG. 11 is an isometric view of the diaphragm drive unit;

FIG. 12 is an isometric view of the push plate drive unit;

fig. 13 is an isometric view of the traction output unit.

Description of reference numerals:

100-conveying trough, 101-first trough section, 102-second trough section, 103-third trough section, 104-fourth trough section;

200-a magnetic stripe unreeling unit, 201-a rack, 202-a reel, 203-a guide roller group, 2031-a first guide roller, 2032-a second guide roller, 2033-a third guide roller, 2034-a fourth guide roller and 204-a first driving motor;

300-magnetic stripe feeding part, 301-bottom plate, 302-ribbon board, 303-supporting legs, 304-guiding and shaping device, 3041-first base, 3042-first mounting seat, 3043-first cylinder, 3044-first shaping wheel, 3045-second shaping wheel, 3046-first lifting plate, 3047-first guide groove, 3048-first guide rod, 305-heating device and 306-cooling device;

400-a magnetic strip cutting unit, 401-a first base, 402-a first belt pulley, 403-a second belt pulley, 404-a first transmission belt, 405-a second driving motor, 406-a third driving motor, 407-a transmission rod, 408-a second lifting plate, 409-a first mounting plate, 410-a first fixing column, 411-a cutter, 412-a square groove, 413-a second guide groove, 414-a second guide rod, 415-a first accommodating groove, 416-a second accommodating groove, 417-a third shaping wheel, 418-a fourth shaping wheel, 419-a fifth shaping wheel and 420-a sixth shaping wheel;

500-magnetic block supply part, 501-magnetic block storage box, 502-storage space, 503-first opening, 504-second opening, 505-third opening, 506-fourth opening, 507-first wall surface, 508-second wall surface, 509-third wall surface, 510-fourth wall surface, 511-magnetic strip output channel and 512-lightening hole;

600-partition driving unit, 601-partition, 602-partition driving cylinder, 603-first adapter plate, 604-cylinder mounting seat;

700-push plate driving unit, 701-push plate, 702-push plate driving cylinder and 703-second adapter plate;

800-traction output unit, 801-second base, 802-fourth driving motor, 803-third belt pulley, 804-fourth belt pulley, 805-second mounting plate, 806-third mounting plate, 807-second transmission belt and 808-second fixing column.

900-magnetic stripe magnetic block fixing mechanism, 901-hot press.

Detailed Description

The embodiments described below with reference to the drawings are illustrative only and should not be construed as limiting the invention.

As shown in fig. 1 to 13, an embodiment of the present invention provides a magnetic stripe and magnetic block combined feeding device for a magnetic soft screen door, including a conveying trough 100, a magnetic stripe feeding part 300, and a magnetic block feeding part 500, wherein:

the conveying groove 100 is used for accommodating magnetic strips and magnetic blocks and guiding the magnetic strips and the magnetic blocks to be conveyed to a designated position along the axial direction of the conveying groove 100; the conveying trough 100 comprises a first trough section 101, a second trough section 102, a third trough section 103 and a fourth trough section 104 which are sequentially connected along the conveying direction; the magnetic stripe is in a long strip shape before being cut, one end of the magnetic stripe is wound on a winding drum 202 mentioned below, the other end of the magnetic stripe is conveyed towards the next process in the first groove section 101, the conveying power sources are three, one is active unwinding of the winding drum 202 at the head end of the first groove section 101, one is active drawing of relevant structures in the magnetic stripe cutting unit 400, the other is drawing of a drawing output unit 800, and the shape of the magnetic stripe is matched with the inner contour of the conveying groove 100;

the magnetic strip feeding part 300 and the magnetic block feeding part 500 are sequentially arranged along the axial direction of the conveying groove 100;

the magnetic stripe feeding part 300 comprises a magnetic stripe unreeling unit 200 and a magnetic stripe cutting unit 400;

the magnetic stripe unwinding unit 200 is arranged at the starting end of the first groove section 101 to convey the magnetic stripe into the first groove section 101; the raw material of the magnetic strip is placed on the magnetic strip unreeling unit 200, the magnetic strip is in a long strip shape after being wound before being cut, and the magnetic strip in the winding state is unreeled to the first conveying groove 100 under the action of the magnetic strip unreeling unit 200;

the second groove section 102 is formed in the magnetic stripe cutting unit 400, the head end of the second groove section 102 is connected with the tail end of the first groove section 101, and the magnetic stripe cutting unit 400 is used for cutting the magnetic stripe on the second groove section 102 in a fixed length; the whole magnetic stripe is gradually conveyed to the magnetic stripe cutting unit 400 by the magnetic stripe transmission unit, and the magnetic stripe cutting unit 400 sequentially cuts the whole magnetic stripe into a section with equal width for subsequent production line needs.

The third groove section 103 is formed in the magnetic block feeding portion 500, a head end of the third groove section 103 is connected to a tail end of the second groove section 102, the magnetic block feeding portion 500 includes a magnetic block storage box 501, a partition 601, a partition driving unit 600, a push plate 701, and a push plate driving unit 700, wherein:

a storage space 502 is formed in the magnetic block storage box 501, a plurality of groups of magnetic blocks are stacked in the storage space 502 in the vertical direction, each group of magnetic blocks comprises a plurality of magnetic blocks, and the plurality of magnetic blocks are arranged in parallel in the horizontal direction;

a first opening 503, a second opening 504, a third opening 505 and a fourth opening 506 are formed in the magnetic block storage box 501, the first opening 503 is located at the top of the storage space 502 so that a worker can place multiple groups of magnetic blocks from the first opening 503, the second opening 504 is located on a first wall 507 of the storage space 502, the third opening 505 is located on a second wall 508 of the storage space 502, the fourth opening 506 is located on a third wall 509 of the storage space 502, the second wall 508 is opposite to the third wall 509, and the first wall 507 is located between the second wall 508 and the third wall 509; the third opening 505 and the fourth opening 506 are oppositely arranged, and the second opening 504 is higher than the third opening 505; in this embodiment, the inner diameters of the third opening 505 and the fourth opening 506 are both matched with the width of the magnetic block, the bottom surfaces of the third opening 505 and the fourth opening 506 are both flush with the bottom surface of the accommodating space, and the bottom surface of the second opening 504 is flush with the top surface of the third opening 505.

One end of the partition board 601 is fixed in the second opening 504 in a clearance fit manner, and the partition board driving unit 600 is connected with the other end of the partition board 601 to drive the partition board 601 to reciprocate in the horizontal direction; the free end of the partition board 601 may be provided with an inclined surface so as to be conveniently inserted into a gap between the upper and lower magnetic blocks, the partition board driving unit 600 may completely pull the partition board 601 out of the storage space 502, so as to facilitate the falling of the magnetic blocks, and on the other hand, may also be inserted between the two magnetic blocks to separate them, so as to facilitate the push plate 701 to push out the magnetic blocks of the lower layer one by one.

One end of the push plate 701 is fixed in the third opening 505 in a clearance fit manner, and the push plate driving unit 700 is connected with the other end of the push plate 701 to drive the push plate 701 to reciprocate in the horizontal direction, so as to further push the magnetic blocks at the bottommost layer to be sent into the third groove section 103 from the fourth opening 506 one by one. Thereby pushing the magnetic blocks at the bottommost layer to be sent out from the fourth opening 506 one by one.

By arranging the partition board 601 and the push board 701 in the magnetic block storage box 501, wherein the push board 701 is located below the partition board 601, in an initial state, the push board 701 is driven by the push board driving unit 700 and does not extend into the storage space 502, the partition board 601 extends into the storage space 502 completely, an operator stacks a plurality of sets of magnetic blocks into the storage space 502, the magnetic block of the bottommost layer is placed on the partition board 601, at this time, the partition board driving unit 600 drives the partition board 601 to move away from the storage space 502, the magnetic block of the bottommost layer falls between the partition board 601 and the bottom surface of the storage space 502, the partition board driving unit 600 works again, the partition board 601 is driven to be inserted into the storage space 502 again, so that the magnetic block of the previous penultimate layer is placed on the partition board 601, the magnetic block of the previous bottommost layer is placed between the partition board 601 and the bottom surface of the storage space 502, the push board driving unit 700 drives the push board, when the group of magnetic blocks are all pushed out, the push plate driving unit 700 drives the push plate 701 to exit the storage space 502, and the cycle is repeated.

Further, as shown in fig. 3 and 4, the magnetic stripe unwinding unit 200 includes a frame 201, a winding drum 202, a guide roller set 203 and a first driving motor 204, the frame 201 is a frame-type steel body structure, and includes a plurality of cross beams and a plurality of longitudinal beams that are overlapped with each other, and the fastness is improved at the overlapping position through a reinforcing rib, the winding drum 202, the guide roller set 203 and the first driving motor 204 are all disposed on the frame 201, the winding drum 202 is used for winding the magnetic stripe, and two ends of the winding drum 202 are rotatably supported on two longitudinal beams of the frame 201 through bearing seats.

The output end of the first driving motor 204 is connected with the end of the winding drum 202 through a speed reducer so as to drive the winding drum 202 to rotate, one end of the magnetic stripe is wound on the winding drum 202, and the other end of the magnetic stripe is guided by the guide roller set 203 and then conveyed to the starting end of the first groove section 101; the guide roller set 203 comprises a plurality of guide rollers, wherein one function of the guide roller set 203 is to provide the belt-shaped magnetic strip with a necessary tension to keep the belt-shaped magnetic strip in a stretched state.

The guide roller set 203 comprises a first guide roller 2031, a second guide roller 2032, a third guide roller 2033 and a fourth guide roller 2034 which are sequentially arranged along a conveying path, two ends of the first guide roller 2031, the second guide roller 2032, the third guide roller 2033 and the fourth guide roller 2034 are all fixed on two opposite cross beams, a belt-shaped magnetic stripe passes through the outer walls of the first guide roller 2031, the second guide roller 2032, the third guide roller 2033 and the fourth guide roller 2034 in sequence and gives a tensile force to the belt-shaped magnetic stripe, so that the belt-shaped magnetic stripe is smoothly conveyed to the opening of the first groove section 101, the first guide roller 2031, the third guide roller 2033 and the fourth guide roller 2034 are all fixed on the top end of the frame 201, the second guide roller 2032 can vertically reciprocate and is fixed on the frame 201, the second guide roller 2032 is fixed on the frame 201 in a way of matching with a fastening bolt through a way of a strip-shaped groove and a vertically extending strip-shaped groove is formed on the frame 201, two ends of the second guide roller 2032 are respectively fixed, when the position needs to be adjusted, the fastening bolt is unscrewed, after the position is adjusted, the fastening bolt is screwed, and the size of the tensile force can be adjusted by adjusting the position of the second guide roller 2032, so that the magnetic stripe can adapt to multiple specifications.

Further, a bottom plate 301, a strip plate 302, a leg 303 and a plurality of guiding and shaping devices 304 are arranged in the frame 201, wherein:

the lath 302 is a strip-shaped plate body structure, the lath 302 is fixed on the bottom plate 301 through a plurality of supporting legs 303, and the first groove section 101 is formed at the top end of the lath 302; the first slot segment 101 forms openings at both opposite ends of the slat 302;

as shown in fig. 4, a plurality of guiding and shaping devices 304 are provided, the plurality of guiding and shaping devices 304 are sequentially arranged along the axial direction of the first trough section 101, the guiding and shaping devices 304 are used for assisting in transporting the magnetic stripe, and providing an acting force in the vertical direction to the magnetic stripe for shaping, and each guiding and shaping device 304 includes a first base 3041, a first mounting seat 3042, a first cylinder 3043, a first shaping wheel 3044, a second shaping wheel 3045, and a first lifting plate 3046;

the first base 3041 is disposed at the bottom of the slat 302, the first base 30411051 is two oppositely disposed plate structures, the plate structures are provided with bearing seats, and the first shaping wheel 3044 is rotatably supported on the first base 3041 through a shaft body; a through groove is formed in the lath 302, the through groove penetrates through the lath 302, and the top end of the first shaping wheel 3044 extends through the through groove and is flush with the bottom surface of the first groove section 101;

the first mounting seat 3042 is disposed on the top of the slat 302, the first mounting seat 3042 is an L-shaped structure, the vertical plate is fixed on the bottom plate 301102 and is located at the side end of the slat 302, the horizontal plate extends toward the top of the slat 302, the cylinder body of the first cylinder 3043 is fixed on the first mounting seat 3042, the piston rod of the first cylinder 3043 penetrates through the first mounting seat 3042 and vertically extends downward, the end of the piston rod of the first cylinder 3043 is connected with the first lifting plate 3046, the first mounting seat 3042 is provided with first guide slots 3047 on two opposite sides of the first cylinder 3043, the first guide slot 3047 is internally and loosely fitted with a first guide rod 3048, the bottom end of the first guide rod 3048 is connected with the first lifting plate 3046, the bottom surface of the first lifting plate 3046 is provided with two oppositely disposed bearing seats, the second shaping wheel 3045 is supported between the two oppositely disposed bearing seats of the bottom surface of the first lifting plate 3046 through a shaft body, the second sizing wheel 3045 is rotatably supported on the bottom surface of the first lifting plate 3046, the second sizing wheel 3045 is opposite to the first sizing wheel 3044, and a gap for the magnetic stripe to pass through is formed between the first sizing wheel 3044 and the second sizing wheel 3045. The first cylinder 3043 operates to drive the first lifting plate 3046 to lift, so that the first and

second sizing wheels

3044 and 3045 clamp the magnetic stripe together to keep it in a fixed shape.

Further, as shown in fig. 5, the magnetic stripe cutting unit 400 includes a first base 401, a first belt pulley 402, a second belt pulley 403, a second driving motor 405, a third driving motor 406, a transmission rod 407, a first transmission belt 404, a first mounting plate 409, a first fixing column 410, and a cutter 411, wherein:

the first base 401 is a block-shaped structure, the first base 401 is disposed at the tail end of the strip 302, the second groove section 102 is formed at the top of the first base 401, after the strip-shaped magnetic stripe is conveyed from the first groove section 101 to the second groove section 102, the strip-shaped magnetic stripe is cut into the block-shaped magnetic stripe by the cutter 411 at equal intervals, the first base 401 is sequentially provided with a first accommodating groove 415 and a second accommodating groove 416 in a concave manner in the axial direction of the second groove section 102, a first rotating shaft is rotatably supported in the first accommodating groove 415, a first end of the first rotating shaft penetrates through the first base 401 and then is connected with an output shaft of the second driving motor 405, a second end of the first rotating shaft penetrates through the first base 401 and then is connected with the first belt pulley 402, a third shaping wheel 417 is sleeved on the first rotating shaft, and a second rotating shaft is rotatably supported in the second accommodating groove 416, the second end of the second rotating shaft penetrates through the first base 401 and then is connected with the second belt pulley 403, a fourth sizing wheel 418 is sleeved on the second rotating shaft, two ends of the first transmission belt 404 are respectively sleeved on the first belt pulley 402 and the second belt pulley 403 in a looping mode, and the top surface of the third sizing wheel 417 and the top surface of the fourth sizing wheel 418 are flush with the bottom surface of the second passing groove;

the first mounting plate 409 is fixed to the first base 401 through the first fixing columns 410, four first fixing columns 410 are provided, the four first fixing columns 410 are symmetrically arranged at four corners of the first mounting plate 409, a fifth sizing wheel 419 and a sixth sizing wheel 420 are rotatably supported on the bottom surface of the first mounting plate 409, the fifth sizing wheel 419 is arranged relative to the third sizing wheel 417, and a gap for the magnetic stripe to pass through is formed between the third sizing wheel 417 and the fifth sizing wheel 419; the sixth sizing wheel 420 is arranged opposite to the fourth sizing wheel 418, and a gap for the magnetic stripe to pass through is formed between the sixth sizing wheel 420 and the fourth sizing wheel 418; the fifth sizing wheel 419 and the third sizing wheel 417, and the sixth sizing wheel 420 and the fourth sizing wheel 418 are respectively matched with each other in pairs to clamp and size the magnetic stripes, and the second driving motor 405 works to drive the first rotating shaft to rotate, so that the second rotating shaft rotates through the power transmission of the first belt pulley 402 and the second belt pulley 403, and the third sizing wheel 417 and the fourth sizing wheel 418 synchronously roll to pull the magnetic stripes to be conveyed forwards.

A square groove 412 penetrates through the plate surface of the first mounting plate 409, the third driving motor 406 is fixed above the square groove 412 through a motor mounting seat, the head end of the transmission rod 407 is eccentrically connected to an output shaft of the third driving motor 406, the bottom end of the transmission rod 407 is connected with the top end of the second lifting plate 408, the cutter 411 is fixed at the bottom end of the second lifting plate 408, second guide grooves 413 are respectively formed in two sides of the transmission rod 407 on the second lifting plate 408, second guide rods 414 are in clearance fit in the second guide grooves 413, and the bottom ends of the second guide rods 414 are connected with the second lifting plate 408. The third driving motor 406 works, and as the transmission rod 407 is eccentrically connected, the output shaft of the third driving motor 406 rotates, the transmission rod 407 makes reciprocating movement in the vertical direction to drive the cutter 411 to make reciprocating movement in the vertical direction, while the magnetic strips are continuously conveyed forwards, and the cutter 411 falls in place at intervals, so that the strip-shaped magnetic strips are cut into block-shaped magnetic strips, and the block-shaped magnetic strips meet the assembly requirements of the magnetic soft screen door, thereby completing the preparation of feeding.

Further, since the tape-shaped magnetic stripe is wound around the reel 202 as a raw material, its shape is deformed, and in order to further shape the tape-shaped magnetic stripe, the ribbon may be heated, cooled, assisted by the guide 304, the magnetic stripe cooling device can be used for shaping, and also comprises a heating device 305 and a cooling device 306, the cooling and heating structures of the heating device 305 and the cooling device 306 can refer to the content of the prior art, as long as the magnetic stripe can be heated and cooled, and can refer to heating coil heating, condensed water refrigeration and the like, not described in detail, the heating device 305 and the cooling device 306 are sequentially arranged along the conveying direction of the magnetic strips, the heating device 305 is used for heating the magnetic strip on the first groove section 101 conveyed to a designated position, the cooling device 306 is used for cooling the magnetic strip heated by the heating device 305.

Further, as shown in fig. 11, the partition driving unit 600 includes a partition driving cylinder 602, a first adapter plate 603, and a cylinder mounting seat 604, the cylinder mounting seat 604 is fixed on the first wall 507 of the magnetic block storage box 501, a cylinder body of the partition driving cylinder 602 is fixed on the cylinder mounting seat 604, a piston rod of the partition driving cylinder 602 is disposed on a side away from the magnetic block storage box 501, the piston rod of the partition driving cylinder 602 extends in a horizontal direction, and a distal end of the piston rod is fixed to a top end of the first adapter plate 603, one end of the partition 601 is connected to a bottom end of the first adapter plate 603, and the other end of the partition 601 extends horizontally into the accommodating space from the second opening 504. In an initial state, the partition board 601 is inserted into the storage space 502, a plurality of groups of magnetic blocks are stacked on the partition board 601, the partition board drives the cylinder 602 to work, a piston rod of the partition board drives the cylinder 602 to extend forwards, the partition board 601 can be completely drawn out of the storage space 502, so that the magnetic blocks can conveniently fall down, after the magnetic block group at the bottommost layer falls down, the partition board drives the cylinder 602 to work, the piston rod of the partition board drives the cylinder 602 to retract, the partition board 601 is inserted between the two magnetic blocks to be separated, and therefore the magnetic blocks at the lower layer can be conveniently pushed out one by the.

Further, as shown in fig. 12, the push plate driving unit 700 includes a push plate driving cylinder 702 and a second adapter plate 703, a cylinder body of the push plate driving cylinder 702 is fixed on a fourth wall surface 510 of the magnetic block storage box 501, the fourth wall surface 510 is opposite to the first wall surface 507, the fourth wall surface 510 is disposed between the second wall surface 508 and the third wall surface 509, a piston rod of the push plate driving cylinder 702 is disposed at one end close to the second wall surface 508, the piston rod of the push plate driving cylinder 702 extends in a horizontal direction, and a terminal end of the piston rod is fixed to a top end of the second adapter plate 703, one end of the push plate 701 is connected to a bottom end of the second adapter plate 703, and the other end of the push plate 701 extends horizontally into the accommodating space from the third opening 505. In an initial state, the push plate 701 is pulled away from the storage space 502 so that the magnetic blocks fall on the bottom surface of the storage space 502, when the magnetic blocks fall, the push plate drives the piston rod of the air cylinder 702 to retract, the group of magnetic blocks are pushed out from the fourth opening 506 one by one, and after the magnetic blocks are completely pushed out, the piston rod of the air cylinder 702 is driven by the push plate to extend forwards, and the cycle is repeated.

Further, in order to guide the magnetic block pushed out from the fourth opening 506 to reach the designated working position, the magnetic strip output channel 511 is further included, the two ends of the magnetic strip output channel 511 are provided with plate structures in a penetrating mode, the magnetic strip output channel 511 is arranged in an inclined mode, the starting end of the magnetic strip output channel 511 is communicated with the fourth opening 506, and the tail end of the magnetic strip output channel 511 is connected with the third groove section 103.

The second wall 508 and the third wall 509 are provided with lightening holes 512, which is convenient for observing the states of the magnetic blocks in the magnetic block storage box 501, so as to prepare for magnetic block supplement or maintenance at any time.

Further, as shown in fig. 13, a traction output unit 800 is further provided, the traction output unit 800 includes a second base 801, a fourth driving motor 802, a third belt pulley 803, a fourth belt pulley 804, a second mounting plate 805, a third mounting plate 806, a second transmission belt 807 and second fixing posts 808, the second base 801 is a plate structure, the fourth groove section 104 is formed on the top surface of the second base 801, the head end of the fourth groove section 104 is engaged with the tail end of the third groove section 103, the magnetic strip and the magnetic block output from the third groove section 103 fall into the fourth groove section 104 and then are sent out through the fourth groove section 104, the second mounting plate 805 is fixed on the second base 801 by the second fixing posts 808, the four second fixing posts 808 are arranged at the four corners of the second mounting plate 805, the third mounting plate 806 is fixed on the second mounting plate 805, the extending direction of the third mounting plate 806 is perpendicular to the extending direction of the second mounting plate 805, the third pulley 803 is rotatably disposed on the top of the third mounting plate 806, the plurality of fourth pulleys 804 are disposed, the plurality of fourth pulleys 804 are rotatably disposed on the second mounting plate 805 at intervals, the extending direction of the plurality of fourth pulleys 804 is parallel to the extending direction of the fourth slot segment 104, the second transmission belt 807 is looped around the third pulley 803 and the plurality of fourth pulleys 804, the second transmission belt 807 is tensioned by the third pulley 803 and two fourth pulleys 804 at both ends, the second transmission belt is located above the fourth slot segment 104 and is attached to the magnetic strip and the magnetic block in the fourth slot segment 104, the output end of the fourth driving motor 802 is connected to the third pulley 803, to drive the third pulley 803 to rotate. The fourth driving motor 802 operates to drive the third belt pulleys 803 to rotate, and then drives the plurality of third belt pulleys 803 on the second mounting plate 805 to synchronously rotate, the second transmission belt 807 rotates, meanwhile, since the second transmission belt 807 is tightly attached to the magnetic blocks of the magnetic stripe on the fourth slot segment 104, therefore, the rotation of the second transmission belt 807 can drive the magnetic stripe magnet to move on the fourth groove section 104 by the action of friction force, the end of the fourth groove section 104 is provided with the magnetic stripe magnet fixing mechanism 900, the magnetic stripe magnet output by the magnetic stripe magnet fixing mechanism 900 is just aligned with the edge of the reticular yarn sheet, after being sent out from the fourth groove section 104, the magnetic strips and the magnetic blocks are fixed through a magnetic strip and magnetic block fixing mechanism 900, the magnetic strip and magnetic block fixing mechanism 900 outputs fabric, one magnetic strip and one magnetic block are wrapped in one unit, and then the fabric is fixed on the edge of the reticular yarn sheet through hot pressing and fusion of a hot press 901. The structure of the magnetic stripe and magnetic block fixing mechanism 900 can refer to the content of the prior art, non-woven fabric is wound on a cylinder in a coiled mode and then is output through a conveying roller, tension is provided by the support of a guide roller during the process, the tail end of the non-woven fabric covers the magnetic stripe of the magnetic block in one unit from one side perpendicular to the output direction of the magnetic stripe and the magnetic stripe of the magnetic block, the magnetic stripe is hot-pressed and fused through the hot press 901 after being cut, the structure of the part can refer to the content of the attached drawing or the prior art, and.

The construction, features and functions of the present invention are described in detail in the embodiments illustrated in the drawings, which are only preferred embodiments of the present invention, but the present invention is not limited by the drawings, and all equivalent embodiments modified or changed according to the idea of the present invention should fall within the protection scope of the present invention without departing from the spirit of the present invention covered by the description and the drawings.

Claims

1. The utility model provides a magnetic stripe magnetic path combination feedway of soft screen door of magnetism which characterized in that, includes conveyer trough, magnetic stripe feed portion and magnetic path feed portion, wherein:

2. The magnetic stripe and magnetic block combined feeding device of the magnetic soft screen door as claimed in claim 1, wherein the magnetic stripe unwinding unit comprises a frame, a winding drum, a guide roller set and a first driving motor, the winding drum, the guide roller set and the first driving motor are all arranged on the frame, an output end of the first driving motor is connected with an end portion of the winding drum to drive the winding drum to rotate, one end of the magnetic stripe is wound on the winding drum, and the other end of the magnetic stripe is guided by the guide roller set and then conveyed to a starting end of the first groove section;

3. The magnetic strip and magnet block combined feeding device of the magnetic soft screen door as claimed in claim 2, wherein a bottom plate, a strip plate, support legs and a plurality of guiding and shaping devices are arranged in the frame, wherein:

4. The magnetic strip and magnetic block combined feeding device of the magnetic soft screen door as claimed in claim 3, wherein the magnetic strip cutting unit comprises a first base, a first belt pulley, a second driving motor, a third driving motor, a transmission rod, a first transmission belt, a first mounting plate, a first fixing column and a cutter, wherein:

5. The magnetic strip and magnetic block combined feeding device of the magnetic soft screen door as claimed in claim 4, further comprising a heating device and a cooling device, wherein the heating device and the cooling device are sequentially arranged along the conveying direction of the magnetic strip, the heating device is used for heating the magnetic strip conveyed to the first groove section at a specified position, and the cooling device is used for cooling the magnetic strip heated by the heating device.

6. The magnetic stripe and magnetic block combined feeding device of the magnetic soft screen door as claimed in claim 4, wherein the partition driving unit comprises a partition driving cylinder, a first transfer plate and a cylinder mounting seat, the cylinder mounting seat is fixed on the first wall surface of the magnetic block storage box, the cylinder body of the partition driving cylinder is fixed on the cylinder mounting seat, the piston rod of the partition driving cylinder is arranged on one side departing from the magnetic block storage box, the piston rod of the partition driving cylinder extends along the horizontal direction, the tail end of the piston rod is fixed with the top end of the first transfer plate, one end of the partition is connected with the bottom end of the first transfer plate, and the other end of the partition extends into the accommodating space horizontally from the second opening.

7. The magnetic stripe and magnetic block combined feeding device of the magnetic soft screen door as claimed in claim 6, wherein the push plate driving unit comprises a push plate driving cylinder and a second adapter plate, the cylinder body of the push plate driving cylinder is fixed on a fourth wall surface of the magnetic block storage box, the fourth wall surface and the first wall surface are oppositely arranged, the fourth wall surface is arranged between the second wall surface and the third wall surface, a piston rod of the push plate driving cylinder is arranged at one end close to the second wall surface, the piston rod of the push plate driving cylinder extends along the horizontal direction and is fixed at the tail end with the top end of the second adapter plate, one end of the push plate is connected with the bottom end of the second adapter plate, and the other end of the push plate extends horizontally into the accommodating space from the third opening.

8. The magnetic stripe and magnet block combined feeding device of the magnetic soft screen door as claimed in claim 7, wherein the bottom surfaces of the third opening and the fourth opening are flush with the bottom surface of the accommodating space, and the bottom surface of the second opening is flush with the top surface of the third opening.

9. The magnetic strip and magnetic block combined feeding device of the magnetic soft screen door as claimed in claim 8, further comprising a magnetic strip output channel, wherein the magnetic strip output channel is obliquely arranged, the starting end of the magnetic strip output channel is communicated with the fourth opening, and the tail end of the magnetic strip output channel is connected with the third groove section.

10. The magnetic stripe and magnetic block combined feeding device of the magnetic soft screen door as claimed in claim 9, further comprising a traction output unit, wherein the traction output unit comprises a second base, a fourth driving motor, a third belt pulley, a fourth belt pulley, a second mounting plate, a third mounting plate, a second transmission belt and second fixing columns, the fourth groove section is formed on the top surface of the second base, the head end of the fourth groove section is connected with the tail end of the third groove section, the second mounting plate is fixed on the second base through the second fixing columns, the four second fixing columns are arranged at four corners of the second mounting plate, the third mounting plate is fixed on the second mounting plate, the extending direction of the third mounting plate is perpendicular to the extending direction of the second mounting plate, and the third belt pulley is rotatably arranged on the top of the third mounting plate, the fourth belt pulley is equipped with a plurality ofly, and is a plurality of the rotatable interval of fourth belt pulley set up in on the second mounting panel, it is a plurality of the extending direction of fourth belt pulley with the extending direction of fourth groove section is parallel, second transmission belt circle overlap in third belt pulley and a plurality of on the fourth belt pulley, second transmission belt quilt third belt pulley and two that are located both ends the tensioning of fourth belt pulley, second transmission belt is located the top of fourth groove section and laminate in magnetic stripe and the magnetic path in the fourth groove section, fourth driving motor's output with third belt pulley connection, in order to drive the third belt pulley rotates.