CN117945203B - Cotton pad and non-woven fabric composite device - Google Patents

Abstract

The invention discloses a cotton pad and non-woven fabric composite device, which relates to the field of non-woven fabric installation and comprises an equipment body, wherein a first bracket is arranged on one side of the equipment body, a disassembling component for disassembling a paper tube of the non-woven fabric is arranged on the first bracket, a second bracket and a third bracket are sequentially arranged on one side of the first bracket, a feeding component for feeding the non-woven fabric is arranged on the second bracket, an installation component for installing the non-woven fabric is arranged on the third bracket, and a flattening and extruding component for flattening the paper tube of the non-woven fabric is arranged on the third bracket; according to the invention, the nonwoven fabric is conveyed while the paper cylinder is disassembled after the nonwoven fabric is used up, and the new nonwoven fabric can be installed while the nonwoven fabric is conveyed, so that the disassembled paper cylinder can be extruded while the nonwoven fabric is installed, the nonwoven fabric is convenient to recover, the labor intensity of workers is reduced, and the working efficiency is improved.

Description

Cotton pad and non-woven fabric composite device

Technical Field

The invention relates to the field of non-woven fabric installation, in particular to a cotton pad and non-woven fabric composite device.

Background

The non-woven cotton pad is made of non-woven materials, has the characteristics of softness, comfort, good air permeability and the like, and is commonly used for bedding, heat insulation, warmth retention and the like in houses, offices and other places;

Most of the existing sofa cushions are made of chemical fiber cotton cushions and non-woven fabrics through pressing, and the non-woven fabrics are quite large in size and size during production and processing, the non-woven fabrics are usually manually assembled, disassembled, transported and replaced on equipment, and the problems of labor intensity and low efficiency are increased due to the fact that the non-woven fabrics are manually assembled, disassembled, transported and replaced.

Therefore, it is necessary to provide a cotton pad and non-woven fabric composite device to solve the above problems.

Disclosure of Invention

The invention aims to provide a cotton pad and non-woven fabric composite device, which solves the problems that the non-woven fabric is usually disassembled, transported and replaced to equipment manually, and the labor intensity of the manpower is increased and the efficiency is low due to the fact that the disassembly, the transportation and the replacement are performed manually.

In order to achieve the above purpose, the present invention provides the following technical solutions: the cotton pad and non-woven fabric composite device comprises a device body, wherein a first support is arranged on one side of the device body, a disassembly assembly for disassembling a paper tube of the non-woven fabric is arranged on the first support, a second support and a third support are sequentially arranged on one side of the first support, a feeding assembly for feeding the non-woven fabric is arranged on the second support, an installation assembly for installing the non-woven fabric is arranged on the third support, and a flattening and extrusion assembly for flattening the paper tube of the non-woven fabric is arranged on the third support;

The disassembly assembly comprises a motor, a screw rod, a first sliding groove, a first sliding block, a first shaft pin, a first sliding rod, an arc plate, a first sliding groove, a disassembly groove, a mounting groove, a sleeve, a hinge, a contact piece and a first spring, wherein the motor is fixed at the bottom of the first bracket, the screw rod is arranged at the bottom of the first bracket in a rotating mode through a bearing, one end of the screw rod, which is close to the motor, is fixed with the output end of the motor, the surface of the first bracket is arranged in the first sliding groove, the first sliding block is in threaded connection with the screw rod through a threaded hole, the first sliding block is in sliding connection with the inner wall of the first sliding groove, the first shaft pin is arranged on one side, which is far away from the screw rod, of the first sliding block, the first sliding rod is in rotating connection with the shaft pin through a bearing, the arc plate is arranged on the surface of the first bracket, the first sliding groove is arranged on one side, which is close to the first sliding rod, of the mounting groove is arranged on one side, which is far away from the disassembly groove, of the sleeve is arranged on one side, which is far from the first sliding rod, and the first sliding rod is in a rotating mode, and the spring is arranged on one side, which is in contact with the first sliding device.

Preferably, the feeding assembly comprises a rotary drum, a torsion spring, a Y-shaped rod, a fixed block, a second sliding groove, a first sliding piece, a cylinder, a rotating groove, a first rotating rod, a first rotating bar, a second rotating rod, a third sliding groove, an L-shaped piece, a third rotating rod, a charging box, a fourth rotating rod, a distributing piece, a driven grooved pulley, an inner concave locking arc, a radial groove, a fifth rotating rod, a driving dial, a round pin, an outer convex locking arc, a ratchet wheel, a pawl, a second spring, a first gear, a first rack, a bearing plate and a bearing plate avoiding groove, the rotary drum is rotatably arranged at the bottom of a first bracket through a bearing, the Y-shaped rod is arranged at one side of the rotary drum, which is close to the screw, the fixed block is arranged at one side of a second bracket, which is close to the rotary drum, the second sliding groove is arranged on the surface of the fixed block, the first sliding piece is slidably arranged on the inner wall of the second sliding groove, the first sliding piece is slidably connected with the inner wall of the second sliding groove, the cylinder is rotatably arranged on the surface of the first sliding piece through the bearing, and the rotating groove is arranged on the inner wall of the cylinder.

Preferably, one end of the Y-shaped rod, which is close to the cylinder, is in sliding connection with the inner wall of the rotating groove, the first rotating rod is arranged on the surface of the second bracket through a bearing, the first rotating rod is fixedly arranged on the surface of the first rotating rod, the second rotating rod is rotatably arranged on one side, which is close to the first sliding piece, of the first rotating rod through the bearing, and the first rotating rod is rotatably connected with the first sliding piece through the second rotating rod.

Preferably, the third spout sets up the surface at the second support, L shape spare passes through third spout and second support sliding connection, the bottom and the third spout sliding connection of L shape spare, the third bull stick passes through the bearing rotation and sets up in one side that L shape spare is close to first rotation strip, L shape spare and first rotation strip pass through third bull stick rotation and are connected, the charging box sets up the surface at the second support, one side that the charging box is close to L shape spare is provided with the fourth bull stick through the bearing rotation, divide the material piece to fix at the both ends of fourth bull stick, the surface at the fourth bull stick is fixed to the driven sheave, indent locking arc equidistance is seted up in the outside of driven sheave, radial groove equidistance is seted up in the outside of driven sheave, the fifth bull stick passes through the bearing rotation and sets up in one side that the charging box is close to driven sheave, the surface at the fifth bull stick is fixed to the driving plate, the round pin is fixed on the surface of driving plate, evagination locking arc is fixed on the driving plate.

Preferably, the pawl is fixed on the surface of the fifth rotating rod, the pawl is rotationally arranged on the surface of the second support through a bearing, the pawl is connected with the ratchet wheel in a clamping mode, the second spring is arranged on the surface of the second support, one end of the second spring is fixed with the pawl, the first gear is rotationally connected with one end of the fifth rotating rod, which is far away from the pawl, through a one-way gear, the first rack is arranged on the surface of the L-shaped piece, the first rack is meshed with the first gear and is connected with the first gear, the bearing plate is slidingly arranged on the inner wall of the charging box, one side, which is close to the L-shaped piece, of the bearing plate is fixed with the L-shaped piece, and one side, which is far away from the L-shaped piece, of the charging box is provided with a bearing plate avoiding groove.

Preferably, the installation component includes that the second rack dodges groove, second rack, extrusion case, sixth bull stick, second gear, first initiative bevel gear, seventh bull stick, first driven bevel gear, eighth bull stick, synchronous pulley, synchronous belt, second initiative bevel gear, second slide bar, reciprocating groove, second initiative bevel gear, impeller and fourth spout, the second rack dodges the groove and sets up the one side that is close to the loading board at the loading case, the bottom at the loading board is fixed to the second rack, the extrusion case sets up the surface at the third support, one side that is close to the second rack of extrusion case is provided with sixth bull stick through the bearing rotation, the surface of sixth bull stick is fixed with the second gear, the second gear is connected with the second rack meshing, first initiative bevel gear is fixed and is kept away from the one end of second gear at the sixth bull stick, the seventh bull stick passes through the bearing rotation and sets up the one side that is close to first initiative bevel gear at the extrusion case, first driven bevel gear is fixed on the surface of seventh bull stick, first initiative bevel gear is connected with first initiative bevel gear meshing.

Preferably, the eighth rotating rod is rotatably arranged on one side of the extrusion box, which is far away from the first driven bevel gear, through a bearing, the synchronous belt pulley is fixed on the surfaces of the seventh rotating rod and the eighth rotating rod, the synchronous belt pulley is used for transmission through a synchronous belt, the second driven bevel gear is fixed on one end of the eighth rotating rod, which is far away from the synchronous belt pulley, the second sliding rod is fixed on the surface of the extrusion box, the reciprocating groove is formed in the outer side wall of the second sliding rod, the second driving bevel gear is fixed on one end, which is close to the second driven bevel gear, of the second driving bevel gear, the second driving bevel gear is connected with the second driven bevel gear in a meshed manner, the pushing piece is connected with the reciprocating groove in a sliding manner through a reciprocating hole, and the fourth sliding groove is formed on one side, which is close to the second sliding rod, of the bottom of the pushing piece is connected with the inner wall of the fourth sliding groove in a sliding manner.

Preferably, the extrusion assembly comprises an inclined plate, a third rack, a ninth rotating rod, a third gear, a cam, a second sliding groove, a sliding plate, a fixed rod, an extrusion plate and a third spring, wherein the inclined plate is arranged on the inner wall of the extrusion box, the third rack is arranged at the bottom of the pushing piece, the ninth rotating rod is rotatably arranged on one side, close to the third rack, of the extrusion box through a bearing, the third gear is fixed on the surface of the ninth rotating rod, the cam is fixed on the surface of the ninth rotating rod, the second sliding groove is formed on one side, close to the cam, of the extrusion box, the sliding plate is in sliding connection with the extrusion box through the second sliding groove, the sliding plate is in sliding connection with the inner wall of the second sliding groove, the fixed rod is arranged on one side, far away from the cam, of the extrusion plate is fixed on one end, far away from the sliding plate, of the third spring is arranged on one side, far away from the cam, and one end of the third spring is fixed on the outer side wall of the extrusion box.

Preferably, the surface of the bearing plate is provided with a blocking block.

The invention has the technical effects and advantages that:

The paper tube feeding device is provided with the dismounting assembly, the motor drives the screw to rotate, the first sliding block can push the paper tube on the device body into the extrusion box with the contact piece, the feeding assembly can be driven to feed the paper tube while the paper tube is dismounted, and automatic feeding and discharging are performed through the dismounting assembly and the feeding assembly, so that manual work is saved to the greatest extent, the automation degree is high, and electric connection is omitted as much as possible through the connection structure;

The feeding assembly is arranged, the contact piece pushes the paper tube and can drive the feeding assembly to intermittently feed the paper tube, new non-woven fabrics are pushed out of the feeding box, the limit of the distributing piece after distributing can be realized through the matching of the ratchet wheel and the pawl, and the non-woven fabrics are prevented from being additionally discharged;

The installation component is arranged, when the contact piece contacts the feeding component and drives the feeding component to feed, the loading board pushes out the new non-woven fabric from the feeding box, the non-woven fabrics on the bearing plate can be pushed and arranged on the equipment body by driving the pushing piece while the second slide bar rotates;

The extrusion assembly is arranged, the pushing piece pushes the non-woven fabric to be installed, meanwhile, the detached paper tube can be flattened in the extrusion box by utilizing pushing force, the flattening mode is simple, the recycling is convenient, and the occupied space of the waste paper tube is reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of a cotton pad and nonwoven fabric composite device of the present invention;

FIG. 2 is a schematic view of the device body and the first stand of the present invention;

FIG. 3 is an enlarged view of the invention at A;

FIG. 4 is a schematic view of an arcuate plate, a first sliding channel, a mounting channel and a dismounting channel of the present invention;

FIG. 5 is a schematic view of a first slide bar, sleeve and contact according to the present invention;

FIG. 6 is a schematic view of the screw, motor and second bracket of the present invention;

FIG. 7 is a schematic view of a second bracket and a first bracket according to the present invention;

FIG. 8 is an enlarged view of the invention at B;

FIG. 9 is a schematic view of the drum, Y-bar and first slider of the present invention;

FIG. 10 is a schematic view of a cylinder, a first slider and a first rotating bar of the present invention;

FIG. 11 is a schematic view of a Y-bar, drum and cylinder of the present invention;

FIG. 12 is a schematic view of a first rotary lever, first slider and L-shaped member of the present invention;

FIG. 13 is an enlarged view of the present invention at C;

FIG. 14 is a schematic view of a divider, charging box and fourth rotating rod of the present invention;

FIG. 15 is a schematic view of the driven sheave, driving plate, fifth rotating rod and fourth rotating rod of the present invention;

FIG. 16 is a schematic view of a fifth lever, ratchet and pawl of the present invention;

FIG. 17 is a schematic view of a first gear, a first rack and an L-shaped member of the present invention;

FIG. 18 is a schematic view of a third chute, L-shaped member and mounting assembly of the present invention;

FIG. 19 is a schematic view of a charging box and a second rack of the present invention;

FIG. 20 is an enlarged view of the invention at D;

FIG. 21 is a schematic view of a carrier plate, L-shaped member and pusher member of the present invention;

FIG. 22 is an enlarged view of the invention at E;

FIG. 23 is a schematic view of the extrusion box, second slide bar, reciprocating trough and pusher of the present invention;

FIG. 24 is a schematic view of a tilt plate, a fixed rod and a squeeze plate of the present invention;

FIG. 25 is a schematic view of a third gear, third rack, cam and slide plate of the present invention;

FIG. 26 is a schematic view of the apparatus body, first bracket, second bracket, third bracket, loading assembly and mounting assembly of the present invention;

fig. 27 is an enlarged view of the invention at F.

In the figure: 1. an equipment body; 2. a first bracket; 3. disassembling the assembly; 301. a motor; 302. a screw; 303. a first chute; 304. a first slider; 305. a first shaft pin; 306. a first slide bar; 307. an arc-shaped plate; 308. a first sliding groove; 309. a dismantling groove; 310. a mounting groove; 311. a sleeve; 312. a hinge; 313. a contact; 314. a first spring; 4. a second bracket; 5. a third bracket; 6. a feeding assembly; 601. a rotating drum; 602. a torsion spring; 603. a Y-shaped rod; 604. a fixed block; 605. a second chute; 606. a first slider; 607. a cylinder; 608. a rotating groove; 609. a first rotating lever; 610. a first rotating bar; 611. a second rotating rod; 612. a third chute; 613. an L-shaped member; 614. a third rotating rod; 615. a charging box; 616. a fourth rotating lever; 617. a material distributing piece; 618. a driven sheave; 619. concave locking arc; 620. a radial groove; 621. a fifth rotating lever; 622. an active dial; 623. round pins; 624. a convex locking arc; 625. a ratchet wheel; 626. a pawl; 627. a second spring; 628. a first gear; 629. a first rack; 630. a carrying plate; 631. the bearing plate avoids the groove; 7. a mounting assembly; 701. a second rack avoiding groove; 702. a second rack; 703. an extrusion box; 704. a sixth rotating rod; 705. a second gear; 706. a first drive bevel gear; 707. a seventh rotating lever; 708. a first driven bevel gear; 709. an eighth rotating lever; 710. a synchronous pulley; 711. a timing belt; 712. a second driven bevel gear; 713. a second slide bar; 714. a reciprocating groove; 715. a second drive bevel gear; 716. a pushing member; 717. a fourth chute; 8. an extrusion assembly; 801. an inclined plate; 802. a third rack; 803. a ninth rotating lever; 804. a third gear; 805. a cam; 806. a second sliding groove; 807. a sliding plate; 808. a fixed rod; 809. an extrusion plate; 810. a third spring; 9. and a blocking piece.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a cotton pad and non-woven fabric composite device as shown in fig. 1-27, which comprises an equipment body 1, wherein a first support 2 is arranged on one side of the equipment body 1, a disassembling component 3 for disassembling a paper tube of non-woven fabric is arranged on the first support 2, a second support 4 and a third support 5 are sequentially arranged on one side of the first support 2, a feeding component 6 for feeding the non-woven fabric is arranged on the second support 4, a mounting component 7 for mounting the non-woven fabric is arranged on the third support 5, and a flattening and extruding component 8 for flattening the paper tube of the non-woven fabric is arranged on the third support 5;

The disassembly component 3 comprises a motor 301, a screw rod 302, a first sliding chute 303, a first sliding block 304, a first shaft pin 305, a first sliding rod 306, an arc plate 307, a first sliding groove 308, a disassembly groove 309, a mounting groove 310, a sleeve 311, a hinge 312, a contact 313 and a first spring 314, wherein the motor 301 is fixed at the bottom of the first bracket 2, the screw rod 302 is rotationally arranged at the bottom of the first bracket 2 through a bearing, one end of the screw rod 302 close to the motor 301 is fixed with the output end of the motor 301, the first sliding chute 303 is arranged on the surface of the first bracket 2, the first sliding block 304 is in threaded connection with the screw rod 302 through a threaded hole, the first sliding block 304 is in sliding connection with the inner wall of the first sliding chute 303, the first shaft pin 305 is rotationally arranged at one side of the first sliding block 304 far away from the screw rod 302, the first slide bar 306 is rotationally connected with the shaft pin through a bearing, the arc 307 is arranged on the surface of the first bracket 2, the first sliding groove 308 is formed in the surface of the arc 307, the dismounting groove 309 is formed in one side, close to the first slide bar 306, of the arc 307, the mounting groove 310 is formed in one side, far away from the dismounting groove 309, of the arc 307, the dismounting groove 309 and the mounting groove 310 are communicated with the first sliding groove 308, a sleeve 311 is arranged at the top of the first slide bar 306, a hinge 312 is arranged on one side, close to the device body 1, of the sleeve 311, a contact 313 is rotationally arranged on the hinge 312 through a bearing, a first spring 314 is arranged on one side, far away from the motor 301, of the contact 313, and one end of the first spring 314 is fixed with the sleeve 311.

The feeding assembly 6 comprises a rotary drum 601, a torsion spring 602, a Y-shaped rod 603, a fixed block 604, a second sliding groove 605, a first sliding piece 606, a cylinder 607, a rotating groove 608, a first rotating rod 609, a first rotating strip 610, a second rotating rod 611, a third sliding groove 612, an L-shaped piece 613, a third rotating rod 614, a charging box 615, a fourth rotating rod 616, a material dividing piece 617, a driven grooved wheel 618, an inner concave locking arc 619, a radial groove 620, a fifth rotating rod 621, a driving plate 622, a round pin 623, an outer convex locking arc 624, a ratchet 625, a pawl 626, a second spring 627, a first gear 628, a first rack 629, a bearing plate 630 and a bearing plate avoiding groove 631, wherein the rotary drum 601 is rotatably arranged at the bottom of the first bracket 2 through a bearing, the Y-shaped rod 603 is arranged at one side of the rotary drum 601 close to the screw 302, the fixed block 604 is arranged at one side of the second bracket 4 close to the rotary drum 601, the second sliding groove 605 is arranged on the surface of the fixed block 604, the first sliding piece 606 is slidably arranged on the inner wall of the second sliding groove 605, the inner wall 606 is rotatably connected with the inner wall 607 of the second sliding piece 605 through the bearing, and the sliding piece 607 is arranged on the inner wall of the rotating surface of the first sliding piece 606 through the bearing 608.

One end of the Y-shaped rod 603, which is close to the cylinder 607, is slidably connected with the inner wall of the rotating groove 608, the first rotating rod 609 is arranged on the surface of the second bracket 4 through a bearing, the first rotating rod 610 is fixedly arranged on the surface of the first rotating rod 609, the second rotating rod 611 is rotatably arranged on one side, close to the first sliding piece 606, of the first rotating rod 610 through a bearing, and the first rotating rod 610 is rotatably connected with the first sliding piece 606 through the second rotating rod 611.

The third sliding groove 612 is formed in the surface of the second bracket 4, the L-shaped piece 613 is in sliding connection with the second bracket 4 through the third sliding groove 612, the bottom of the L-shaped piece 613 is in sliding connection with the third sliding groove 612, the third rotating rod 614 is rotatably arranged on one side, close to the first rotating rod 610, of the L-shaped piece 613 through the third rotating rod 614, the L-shaped piece 613 is rotatably connected with the first rotating rod 610 through the third rotating rod 614, the charging box 615 is arranged on the surface of the second bracket 4, one side, close to the L-shaped piece 613, of the charging box 615 is rotatably provided with a fourth rotating rod 616 through a bearing, the material dividing piece 617 is fixed at two ends of the fourth rotating rod 616, the driven sheaves 618 are fixed on the surface of the fourth rotating rod 616, the inner concave locking arcs 619 are equidistantly arranged on the outer sides of the driven sheaves 618, the radial grooves 620 are equidistantly arranged on the outer sides of the driven sheaves 618, the fifth rotating rod 621 is rotatably arranged on one side, close to the driven sheaves 618 through a bearing, the driving dial 622 is fixed on the surface of the fifth rotating rod 621, the round pin 623 is fixed on the surface of the driving dial 622, and the outer locking arcs 624 are fixed on the surface of the driving dial 622;

It should be noted that, when the L-shaped piece 613 moves in the direction of the pressing box 703 with the first rack 629, the first rack 629 rotates to drive the first gear 628 and rotate the fifth rotating rod 621, and when the L-shaped piece 613 moves in the direction of the first sliding piece 606 with the first rack 629, the first rack 629 rotates only and does not drive the fifth rotating rod 621 to rotate under the influence of the pawl 626.

The pawl 626 is fixed on the surface of the fifth rotating rod 621, the pawl 626 is rotatably arranged on the surface of the second bracket 4 through a bearing, the pawl 626 is clamped with the ratchet 625, the second spring 627 is arranged on the surface of the second bracket 4, one end of the second spring 627 is fixed with the pawl 626, the first gear 628 is rotatably connected with one end of the fifth rotating rod 621, which is far away from the pawl 626, through a one-way gear, the first rack 629 is arranged on the surface of the L-shaped piece 613, the first rack 629 is in meshed connection with the first gear 628, the bearing plate 630 is slidably arranged on the inner wall of the charging box 615, a blocking block 9 is arranged on the surface of the bearing plate 630 and used for blocking non-woven fabrics, the non-woven fabrics are prevented from falling when the bearing plate 630 moves, one side of the bearing plate 630, which is close to the L-shaped piece 613, is fixed with the L-shaped piece 613, and one side of the charging box 615, which is far away from the L-shaped piece 613, is provided with a bearing plate avoidance groove 631, and is used for avoiding the bearing plate 630.

The installation component 7 includes that the second rack dodges groove 701, the second rack 702, extrusion case 703, sixth bull stick 704, the second gear 705, first initiative bevel gear 706, seventh bull stick 707, first driven bevel gear 708, eighth bull stick 709, synchronous pulley 710, synchronous belt 711, second driven bevel gear 712, second slide bar 713, reciprocating groove 714, second initiative bevel gear 715, pushing piece 716 and fourth spout 717, the second rack dodges the groove 701 and opens in the one side that the loading case 615 is close to loading board 630, the bottom at loading board 630 is fixed to second rack 702, extrusion case 703 sets up the surface at third support 5, one side that extrusion case 703 is close to second rack 702 is provided with sixth bull stick 704 through bearing rotation, the surface mounting of sixth bull stick 704 has second gear 705, second gear 705 is connected with second rack 702 meshing, first initiative bevel gear 706 is fixed in the one end that second bull stick 704 kept away from, the seventh bull stick is close to first initiative bevel gear 706 through bearing rotation setting, first driven bevel gear 708 is fixed in the one side of seventh driven bevel gear 708, first surface 707 meshing with first initiative bevel gear 708.

The eighth rotating rod 709 is rotatably arranged on one side of the extrusion box 703 far away from the first driven bevel gear 708 through a bearing, the synchronous pulley 710 is fixed on the surfaces of the seventh rotating rod 707 and the eighth rotating rod 709, the synchronous pulley 710 is used for transmission through a synchronous belt 711, the second driven bevel gear 712 is fixed on one end of the eighth rotating rod 709 far away from the synchronous pulley 710, the second sliding rod 713 is fixed on the surface of the extrusion box 703, the reciprocating groove 714 is formed in the outer side wall of the second sliding rod 713, the second driving bevel gear 715 is fixed on one end of the second sliding rod 713 near the second driven bevel gear 712, the second driving bevel gear 715 is in meshed connection with the second driven bevel gear 712, the pushing piece 716 is in sliding connection with the reciprocating groove 714 through a reciprocating hole, the fourth sliding groove 717 is formed on one side of the extrusion box 703 near the second sliding rod 713, and the bottom of the pushing piece 716 is in sliding connection with the inner wall of the fourth sliding groove 717.

The extrusion assembly 8 comprises an inclined plate 801, a third rack 802, a ninth rotating rod 803, a third gear 804, a cam 805, a second sliding groove 806, a sliding plate 807, a fixed rod 808, an extrusion plate 809 and a third spring 810, wherein the inclined plate 801 is arranged on the inner wall of the extrusion box 703, the third rack 802 is arranged at the bottom of the pushing piece 716, the ninth rotating rod 803 is rotatably arranged on one side of the extrusion box 703 close to the third rack 802 through a bearing, the third gear 804 is fixed on the surface of the ninth rotating rod 803, the cam 805 is fixed on the surface of the ninth rotating rod 803, the second sliding groove 806 is formed on one side of the extrusion box 703 close to the cam 805, the sliding plate 807 is in sliding connection with the extrusion box 703 through the second sliding groove 806, the fixed rod 808 is arranged on one side of the sliding plate 807 away from the cam 805, the extrusion plate 809 is fixed on one end of the fixed rod 808 away from the sliding plate 807, the third spring 810 is fixed on one end of the outer side of the extrusion box 703 through the arrangement of the sliding plate 801, and when falling down to the extrusion box 703, the inclined plate 703 can not block the inclined plate 801 to the extrusion box 703 when falling down along the cambered surface of the extrusion box 703.

Working principle: after a worker transports and places a new non-woven fabric in a charging box 615, the motor 301 rotates and drives the screw 302 to rotate so that the first sliding block 304 slides along the first sliding groove 303, the first sliding block 304 slides and simultaneously carries the first sliding rod 306 to slide along the first sliding groove 308, when the outer side wall of the first sliding rod 306 contacts the disassembling groove 309, the first sliding rod 306 rotates and slides along the disassembling groove 309, the first sliding block 304 continuously slides so that the first sliding rod 306 slides out of the disassembling groove 309 and contacts the first sliding groove 308, at the moment, the contact member 313 contacts the paper cylinder and pushes the paper cylinder into the extrusion box 703, when the first sliding block 304 continuously pushes the paper cylinder along the contact member 313 to move towards the extrusion box 703, the bottom of the first sliding block 304 contacts the Y-shaped rod 603 and pushes the Y-shaped rod 603, at the moment, the Y-shaped rod 603 rotates to carry out rotation with the rotary drum 601, the torsion spring 602 compresses so that the Y-shaped rod 603 moves away from one side rotating cylinder 607 of the first sliding block 304 and pushes the first sliding block 606 to contact the first sliding rod 306 along the fixed cylinder 306, at the moment, and the contact member 313 contacts the paper cylinder 313 is mounted in the extrusion box 703, and the contact the paper cylinder 313 contacts the paper cylinder is pushed into the extrusion box 703, at the moment, and the bottom of the first sliding block 304 contacts the Y-shaped rod is continuously pushes the paper cylinder along the contact member 313, and moves towards the extrusion box 703, at the bottom, at the moment, and the bottom part is contacted by the Y-shaped rod 603 and rotates;

While the first sliding member 606 slides and pushes the first rotating bar 610 to rotate, the first rotating bar 610 rotates and pushes the L-shaped member 613 to move forward through the third rotating bar 614, the L-shaped member 613 moves towards the extrusion box 703 with the bearing plate 630, while the bearing plate 630 moves towards the extrusion box 703 with the second rack 702, the second rack 702 rotates the second gear 705, the second gear 705 rotates and simultaneously drives the sixth rotating bar 704 to rotate, the sixth rotating bar 704 rotates and drives the first drive bevel gear 706 to rotate, the first drive bevel gear 706 rotates and drives the first driven bevel gear 708 to rotate, the first driven bevel gear 708 rotates to drive the synchronous pulley 710 to rotate to drive the synchronous belt 711 to rotate, so that the eighth rotating rod 709 rotates, the eighth rotating rod 709 rotates to drive the second driven bevel gear 712 to rotate, the second driven bevel gear 712 rotates to stir the second drive bevel gear 715 to rotate, the second drive bevel gear 715 rotates to drive the second sliding rod 713 to rotate, the second sliding rod 713 rotates to drive the pushing piece 716 to move to the side of the equipment body 1 along the second sliding rod 713 through the reciprocating groove 714, the pushing piece 716 moves to push the non-woven fabrics on the bearing plate 630 to move to the side of the equipment body 1, while the pushing member 716 moves and carries the third rack 802 to move, when the third rack 802 moves to contact the third gear 804, the third gear 804 rotates to drive the ninth rotating rod 803 to rotate, and the ninth rotating rod 803 rotates to drive the cam 805 to rotate together, when the cam 805 rotates to contact the sliding plate 807, the sliding plate 807 is pressed by the third spring 810, and when the sliding plate 807 slides downwards, the paper tube in the extrusion box 703 is extruded and flattened by the fixing rod 808 and the extrusion plate 809, and when the pushing member 716 moves to be out of contact with the third gear 804 with the third rack 802, at this time, the third spring 810 resumes deformation to push the sliding plate 807 to rise, when the pushing piece 716 pushes the non-woven fabric onto the apparatus body 1, the driving motor 301 is reversely driven to reversely drive the screw 302 to reversely drive the first sliding block 304 to move towards the motor 301, and at the same time when the first sliding block 304 moves, the outer side wall of the first sliding rod 306 slides out along the mounting groove 310 and contacts with the first sliding groove 308, at this time, the contact piece 313 contacts with the non-woven fabric and pushes the non-woven fabric to move towards the motor 301 for mounting, when the first sliding block 304 slides out of contact with the Y-shaped rod 603, at this time, the torsion spring 602 resumes deformation to push the rotary drum 601 to reset, the drum 601 is reset to rotate with the Y-shaped rod 603, the side, connected with the first sliding piece 606, of the Y-shaped rod 603 pulls the first sliding piece 606 to slide, the first sliding piece 606 is pulled by the Y-shaped rod 603 to pull the first rotating strip 610 to slide, the first sliding piece 606 rotates and simultaneously pulls the L-shaped piece 613 to move towards the direction of the first rotating strip 610, the L-shaped piece 613 moves and simultaneously moves backwards with the second rack 702, the second rack 702 pulls the second gear 705 to rotate, the synchronous pulley 710 is pulled to rotate through the synchronous belt 711 to drive the second sliding rod 713 to rotate, the second slide bar 713 rotates to enable the pushing piece 716 to move along the reciprocating groove 714 towards the side far away from the equipment body 1, and when the pushing piece 716 moves towards the side far away from the equipment body 1, the third gear 804 is shifted again to rotate, so that the paper cylinder in the extrusion box 703 is re-pressed;

while the L-shaped piece 613 moves backward, the L-shaped piece 613 drives the first gear 628 to rotate with the first rack 629, the first gear 628 rotates and drives the fifth rotating rod 621 to rotate, the fifth rotating rod 621 rotates and drives the driving plate 622 to rotate, at this time, the outer convex locking arc 624 of the driving plate 622 rotates along the inner concave locking arc 619 of the driven grooved wheel 618, when the driving plate 622 rotates to contact the round pin 623 with the radial groove 620, the driven grooved wheel 618 is driven to rotate by the round pin 623, the driven grooved wheel 618 rotates to drive the material distributing piece 617 to rotate, the fifth rotating rod 621 rotates and drives the ratchet wheel 625 to rotate, the ratchet wheel 625 rotates and drives the pawl 626, and when the ratchet wheel rotates reversely, the pawl 626 limits the ratchet wheel 625, so that intermittent feeding can be realized and simultaneously limit materials, thereby realizing that the fifth rotating rod 621 rotates to enable the material distributing piece 617 to distribute the non-woven fabric, when the L-shaped piece 613 pushes the third gear 804 to rotate again, new non-woven fabric is directly pushed out, and when the L-shaped piece 613 resets again, the new non-woven fabric automatically drops;

At this time, when the first sliding block 304 pushes the non-woven fabric to move towards the motor 301 with the contact member 313, when the contact member 313 pushes the non-woven fabric to the device body 1 to push the non-woven fabric upwards, the contact member 313 is forced to compress the first spring 314 so that the contact member 313 rotates under the cooperation of the hinge 312 and slides along the outer side wall of the non-woven fabric, and when the first sliding block 304 slides along the first sliding direction with the first sliding rod 306 and contacts the detaching groove 309 with the first sliding rod 306, the first sliding rod 306 contracts along the detaching groove 309, so as to avoid contacting the device body 1 when the paper tube is detached.

Claims (5)

1. The cotton pad and non-woven fabric composite device comprises an equipment body (1), and is characterized in that: a first support (2) is arranged on one side of the equipment body (1), a disassembly component (3) for disassembling a paper tube of non-woven fabrics is arranged on the first support (2), a second support (4) and a third support (5) are sequentially arranged on one side of the first support (2), a feeding component (6) for feeding the non-woven fabrics is arranged on the second support (4), an installation component (7) for installing the non-woven fabrics is arranged on the third support (5), and a flattening and extrusion component (8) for flattening the paper tube of the non-woven fabrics is arranged on the third support (5);

The disassembly component (3) comprises a motor (301), a screw rod (302), a first sliding groove (303), a first sliding block (304), a first shaft pin (305), a first sliding rod (306), an arc-shaped plate (307), a first sliding groove (308), a disassembly groove (309), a mounting groove (310), a sleeve (311), a hinge (312), a contact piece (313) and a first spring (314), wherein the motor (301) is fixed at the bottom of the first bracket (2), the screw rod (302) is rotationally arranged at the bottom of the first bracket (2) through a bearing, one end of the screw rod (302) close to the motor (301) is fixed with the output end of the motor (301), the first sliding groove (303) is arranged on the surface of the first bracket (2), the first sliding block (304) is in threaded connection with the screw rod (302) through a threaded hole, the first sliding block (304) is in sliding connection with the inner wall of the first sliding groove (303), the first shaft pin (305) is rotationally arranged at one side of the first sliding block (304) far away from the screw rod (302), the first sliding block (306) is rotationally arranged on the surface of the arc-shaped plate (307) through the bearing (307), the dismounting groove (309) is formed in one side, close to the first sliding rod (306), of the arc-shaped plate (307), the mounting groove (310) is formed in one side, far away from the dismounting groove (309), of the arc-shaped plate (307), the dismounting groove (309) and the mounting groove (310) are communicated with the first sliding groove (308), a sleeve (311) is arranged at the top of the first sliding rod (306), a hinge (312) is arranged on one side, close to the equipment body (1), of the sleeve (311), a contact (313) is arranged on the hinge (312) in a rotating mode through a bearing, a first spring (314) is arranged on one side, far away from the motor (301), of the contact (313), and one end of the first spring (314) is fixed with the sleeve (311);

The feeding component (6) comprises a rotary drum (601), a torsion spring (602), a Y-shaped rod (603), a fixed block (604), a second sliding groove (605), a first sliding part (606), a cylinder (607), a rotating groove (608), a first rotating rod (609), a first rotating bar (610), a second rotating rod (611), a third sliding groove (612), an L-shaped part (613), a third rotating rod (614), a charging box (615), a fourth rotating rod (616), a distributing part (617), a driven grooved pulley (618), an inwards concave locking arc (619), a radial groove (620), a fifth rotating rod (621), a driving plate (622), a round pin (623), an outwards convex locking arc (624), a ratchet wheel (625), a pawl (626), a second spring (627), a first gear (628), a first rack (629), a bearing plate (630) and a bearing plate (630) avoiding groove, wherein the rotary drum (601) is rotationally arranged at the bottom of a first bracket (2) through a bearing, the Y-shaped rod (603) is arranged at one side of the rotary drum (601) close to a screw (302), the fixed block (604) is arranged at one side of the second bracket (604) close to the surface of the fixed block (604), the first sliding part (606) is arranged on the inner wall of the second sliding groove (605) in a sliding way, the first sliding part (606) is connected with the inner wall of the second sliding groove (605) in a sliding way, the cylinder (607) is rotatably arranged on the surface of the first sliding part (606) through a bearing, and the rotating groove (608) is arranged on the inner wall of the cylinder (607);

One end of the Y-shaped rod (603) close to the cylinder (607) is in sliding connection with the inner wall of the rotating groove (608), the first rotating rod (609) is arranged on the surface of the second bracket (4) through a bearing, the first rotating rod (610) is fixedly arranged on the surface of the first rotating rod (609), the second rotating rod (611) is rotatably arranged on one side, close to the first sliding piece (606), of the first rotating rod (610) through the bearing, and the first rotating rod (610) is rotatably connected with the first sliding piece (606) through the second rotating rod (611);

The third sliding groove (612) is arranged on the surface of the second bracket (4), the L-shaped piece (613) is in sliding connection with the second bracket (4) through the third sliding groove (612), the bottom of the L-shaped piece (613) is in sliding connection with the third sliding groove (612), the third sliding groove (614) is rotatably arranged on one side of the L-shaped piece (613) close to the first rotating strip (610) through a bearing, the L-shaped piece (613) is rotatably connected with the first rotating strip (610) through the third sliding groove (614), the charging box (615) is arranged on the surface of the second bracket (4), one side of the charging box (615) close to the L-shaped piece (613) is rotatably provided with a fourth sliding groove (616) through a bearing, the material distributing piece (617) is fixed on two ends of the fourth sliding groove (616), the driven sliding groove (618) is fixed on the surface of the fourth sliding groove (616), the inner concave locking arc (619) is equidistantly arranged on the outer side of the driven sliding groove (618), the radial groove (620) is rotatably arranged on the fifth sliding groove (622) close to the driving groove (618) through the bearing, the fifth sliding groove (622) is fixedly arranged on the surface (622) of the driving groove (618), the convex locking arc (624) is fixed on the surface of the driving plate (622);

Pawl (626) are fixed on the surface of fifth bull stick (621), pawl (626) rotate the surface that sets up at second support (4) through the bearing, pawl (626) and ratchet (625) joint, second spring (627) set up the surface at second support (4), the one end and pawl (626) of second spring (627) are fixed, first gear (628) are connected in the one end that pawl (626) was kept away from in fifth bull stick (621) through unidirectional gear rotation, first rack (629) set up the surface at L shape piece (613), first rack (629) are connected with first gear (628) meshing, loading board (630) slide the inner wall that sets up at loading box (615), loading board (631) are dodged to one side that loading box (615) are close to L shape piece (613) and are fixed, loading board groove (631) are seted up to one side that loading box (615) kept away from L shape piece (613).

2. The cotton pad, nonwoven fabric composite device of claim 1, wherein: the mounting assembly (7) comprises a second rack avoidance groove (701), a second rack (702), an extrusion box (703), a sixth rotating rod (704), a second gear (705), a first drive bevel gear (706), a seventh rotating rod (707), a first driven bevel gear (708), an eighth rotating rod (709), a synchronous pulley (710), a synchronous belt (711), a second driven bevel gear (712), a second sliding rod (713), a reciprocating groove (714), a second drive bevel gear (715), a pushing piece (716) and a fourth sliding groove (717), the second rack avoidance groove (701) is formed in one side of the charging box (615) close to the bearing plate (630), the second rack (702) is fixed at the bottom of the bearing plate (630), the extrusion box (703) is arranged on the surface of the third support (5), one side of the extrusion box (703) close to the second rack (702) is rotatably provided with the sixth rotating rod (704) through a bearing, a second gear (705) is fixed on the surface of the sixth rotating rod (704), the second gear (705) is connected with the second rack (615) close to the second rack (704) and meshed with the first rotating rod (706), the seventh rotating rod (707) is rotatably arranged on one side, close to the first driving bevel gear (706), of the extrusion box (703) through a bearing, the first driven bevel gear (708) is fixed on the surface of the seventh rotating rod (707), and the first driven bevel gear (708) is in meshed connection with the first driving bevel gear (706).

3. The cotton pad, nonwoven fabric composite device of claim 2, wherein: the eighth rotating rod (709) is rotatably arranged on one side of the extrusion box (703) far away from the first driven bevel gear (708) through a bearing, the synchronous pulley (710) is fixed on the surfaces of the seventh rotating rod (707) and the eighth rotating rod (709), the synchronous pulley (710) is in transmission through a synchronous belt (711), the second driven bevel gear (712) is fixed on one end of the eighth rotating rod (709) far away from the synchronous pulley (710), the second sliding rod (713) is fixed on the surface of the extrusion box (703), the reciprocating groove (714) is formed in the outer side wall of the second sliding rod (713), the second driving bevel gear (715) is fixed on one end of the second sliding rod (713) close to the second driven bevel gear (712), the second driving bevel gear (715) is in meshed connection with the second driven bevel gear (712), the pushing piece (716) is in sliding connection with the reciprocating groove (714) through a reciprocating hole, the fourth sliding groove (717) is formed in one side of the extrusion box (703) close to the second sliding rod (713), and the bottom of the pushing piece (716) is in sliding connection with the fourth sliding groove (717).

4. A cotton pad, nonwoven fabric composite device according to claim 3, wherein: the extrusion component (8) comprises an inclined plate (801), a third rack (802), a ninth rotating rod (803), a third gear (804), a cam (805), a second sliding groove (806), a sliding plate (807), a fixed rod (808), an extrusion plate (809) and a third spring (810), wherein the inclined plate (801) is arranged on the inner wall of the extrusion box (703), the third rack (802) is arranged at the bottom of a pushing piece (716), the ninth rotating rod (803) is rotatably arranged on one side of the extrusion box (703) close to the third rack (802) through a bearing, the third gear (804) is fixed on the surface of the ninth rotating rod (803), the cam (805) is fixed on the surface of the ninth rotating rod (803), the second sliding groove (806) is arranged on one side of the extrusion box (703) close to the cam (805), the sliding plate (807) is in sliding connection with the inner wall of the second sliding groove (703) through the second sliding groove (806), the fixed rod (808) is arranged on one side of the sliding plate (805) far away from the fixed rod (807), the third spring (810) is arranged on one side of the sliding plate (807) away from the cam (805), and one end of the third spring (810) is fixed with the outer side wall of the extrusion box (703).

5. The cotton pad, nonwoven fabric composite device of claim 1, wherein: the surface of the bearing plate (630) is provided with a blocking block (9).