CN112811251A

CN112811251A - Folding processing mechanism of non-woven fabrics

Info

Publication number: CN112811251A
Application number: CN202110092344.XA
Authority: CN
Inventors: 郭林
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-24
Filing date: 2021-01-24
Publication date: 2021-05-18

Abstract

The invention discloses a folding processing mechanism of non-woven fabrics, which comprises a base, wherein the surface of the base is provided with a sliding chute, a stress block, a first fixing plate, a lifting mechanism, a supporting plate, a pushing mechanism and a turnover mechanism, the sliding chute extends on the surface of the base, the extending direction of the sliding chute is parallel to the end surface of one side of the base, the stress block is positioned on one side of the sliding chute, the stress block is provided with an inclined surface, a first transmission rod which extends vertically is freely abutted on the inclined surface, the first fixing plate is vertically arranged and is opposite to the inclined surface, and one end of the first fixing plate, which is opposite to the inclined surface, is provided with a hydraulic rod. The non-woven fabric folding device is high in automation degree, the top plate can be pushed forwards through the pushing mechanism to fix the non-woven fabric when the non-woven fabric is folded, the non-woven fabric is convenient to fold through the turnover mechanism, and after the non-woven fabric is folded, the ironing plate can descend to iron the folded non-woven fabric, so that the folding effect of the non-woven fabric is better.

Description

Folding processing mechanism of non-woven fabrics

Technical Field

The invention relates to the field of non-woven fabrics, in particular to a folding processing mechanism of non-woven fabrics.

Background

The non-woven fabric is a non-woven fabric which is formed by directly utilizing high polymer slices, short fibers or filaments to form a net through air flow or machinery, then carrying out spunlace, needling or hot rolling reinforcement, and finally carrying out after-treatment. Novel fiber products having a soft, breathable and planar structure.

However, the folding of the existing nonwoven fabric wastes time, and the folding structure of many nonwoven fabrics can only simply fold the nonwoven fabric, which may result in poor folding effect.

Disclosure of Invention

The invention aims to provide a folding processing mechanism of non-woven fabrics, which aims to solve the problems that the folding of the existing non-woven fabrics proposed in the background art wastes time, and the folding structure of a plurality of non-woven fabrics only simply folds the non-woven fabrics, which may cause the poor folding effect.

The invention is realized by the following technical scheme: a folding processing mechanism of non-woven fabrics comprises a base, wherein a sliding groove, a stress block, a first fixing plate, a lifting mechanism, a supporting plate, a pushing mechanism and a turnover mechanism are arranged on the surface of the base, the sliding groove extends on the surface of the base, the extending direction of the sliding groove is parallel to one side end face of the base, the stress block is positioned on one side of the sliding groove, an inclined plane is arranged on the stress block, a first transmission rod which extends vertically is freely abutted to the inclined plane, the first fixing plate is vertically arranged and is opposite to the inclined plane, a hydraulic rod is arranged at one end of the first fixing plate opposite to the inclined plane and can extend and retract back and forth between the inclined plane and the first fixing plate, the output end of the hydraulic rod is connected with the first transmission rod to push the bottom end of the first transmission rod to slide on the inclined plane, and the top of the first transmission rod is connected to the lifting mechanism, the ironing board horizontally extends is arranged on the lifting mechanism, when the first transmission rod slides up and down on the inclined plane, the lifting mechanism is driven to vertically lift, so that the lifting mechanism is used for driving the ironing board to vertically lift, the supporting plate is positioned on one side, away from the first fixed plate, of the lifting mechanism, one side, away from the stress block, of the supporting plate is fixed with the pushing mechanism, a top plate is arranged on the pushing mechanism, the pushing mechanism is used for pushing the top plate to reciprocate on a horizontal plane along the extending direction of the sliding chute, the overturning mechanism is positioned on one side, close to the sliding chute, of the pushing mechanism, a second fixed plate and an overturning plate are arranged on the overturning mechanism, the second fixed plate and the top plate are positioned on the same horizontal plane, so that the top plate can be abutted to the second fixed plate when moving, and the overturning plate is rotatably connected with the second fixed plate, the part of the turnover mechanism is slidably positioned in the chute and used for driving the turnover plate to turn over around a rotating shaft between the turnover plate and the second fixing plate, so that the turnover plate can be attached to the second fixing plate.

In one of them embodiment, elevating system includes movable block, first vertical joint pole, atress board, lifter, ironing board and splint, and the top of first transmission pole is provided with short horizontal pole perpendicularly, and the movable block inserts with sliding in the short horizontal pole of locating first transmission pole top, and the side swivelling joint of movable block has the atress board, the equal swivelling joint in middle part both sides of atress board has first vertical joint pole, and the one end that the movable block was kept away from to the atress board runs through there is the lifter, one side of lifter is connected with ironing board, and the equal sliding connection in lower extreme both sides of lifter has splint, and two splint are fixed in on the base, and ironing board's one end sliding connection is on the lateral wall of two splint.

In one embodiment, the joint of the first vertical joint rod and the stress plate is the central point of the stress plate, the left side of the stress plate applies thrust through the first transmission rod to perform lifting motion, and the stress plate drives the ironing plate fixedly connected with the lifting rod through the lifting rod fixedly connected with the stress plate to form a lifting structure.

In one embodiment, the pushing mechanism comprises a second transmission rod, a driven rod, a rotary rod, a first stress rod, a first slide block, a transverse guide rail, a driving rod, a second stress rod, a second slide block, a top plate and a slide way, the second transmission rod is rotatably connected to the top of the base, a driving motor is mounted on the base and connected to the bottom end of the second transmission rod, the driven rod is vertically and fixedly connected to the top of the second transmission rod, the rotary rod is fixedly connected to the surface of the driven rod, the first stress rod is rotatably connected to the surface of the rotary rod and parallel to the driven rod, the first slide rod is vertically and rotatably connected to the top of the first stress rod, the first slide block is fixedly connected to the top of the first slide rod, the transverse guide rail penetrates through the side surface of the first slide block, and the two opposite ends of the transverse guide rail are fixedly connected to the base through connection columns, the top swivelling joint of rotary rod has lower diaphragm, and the tip swivelling joint of lower diaphragm has second atress pole, and the perpendicular swivelling joint in top of second atress pole has the second slide bar, second slide bar top fixedly connected with second slider, the cross guide still runs through the second slider, and the equal fixedly connected with actuating lever in top of first slider and second slider, and the roof is installed jointly on the upper portion of two actuating levers, and the surface of roof is provided with two slides.

In one of them embodiment, the rotary rod is cylindric design, and the second atress pole deviates from the centre of a circle setting in the rotary rod, first slider and second slider all are sliding connection with the cross rail, drive first atress pole and second atress pole rotation through the second transfer line and make and constitute reverse sliding structure between first slider and the second slider, the slide is the tilt state about the lateral part edge of roof, and constitutes the splayed between two slides, and two actuating levers imbed the inside of two slides respectively and rather than sliding connection.

In one embodiment, the turnover mechanism comprises a motor, a rotating disk, a connecting rod, a swinging strip block, a moving block, a second connecting plate, a second fixing plate and a turnover plate, the motor is installed at the top of the base, the rotating disk is installed at the output end of the motor, the connecting rod is fixedly connected to the edge of one end of the rotating disk, the swinging strip block is rotatably connected to the surface of the connecting rod, the moving block is rotatably connected to one end, away from the connecting rod, of the swinging strip block, the connecting rod is fixedly connected to the top of the moving block, a sliding clamping block is convexly arranged on the side wall of the connecting rod, the turnover plate is fixedly connected to the top of the second connecting plate, the second fixing plate is rotatably connected to the side face of the turnover plate, a station groove is concavely arranged on the side face of the second connecting plate, the sliding clamping block is slidingly clamped into the station, the side surface of the second connecting plate is vertical to the rotating shaft.

In one embodiment, the connecting rod deviates from the center of the rotating disc, the bottom end cylinder of the moving block is embedded into the sliding groove and is in sliding connection with the sliding groove, and the connecting rod drives the rotating disc to rotate through the motor, so that the swinging block drives the moving block to form a sliding structure in the sliding groove.

In one embodiment, the second fixing plate is rotatably connected with the base through the connecting frame, the station groove on the surface of the second connecting plate is designed to be sixty degrees inclined, and the sliding clamping block of the connecting rod is embedded into the station groove and is in sliding connection with the station groove.

In one embodiment, the lateral surface of the force-bearing block is a right triangle, and the first transmission rod is embedded into the inclined surface of the force-bearing block and forms a lifting structure through a hydraulic rod.

In one embodiment, a symmetry line between the two slideways extends towards the turnover plate, the transverse guide rails are perpendicular to the symmetry line, the rotating disk, the first vertical connecting rod, the clamping rod, the first fixing plate, the stress block, the connecting rod, the hydraulic rods and the first transmission rod are all two in number, every two identical elements are symmetrically arranged, a longitudinal lifting groove is formed in the bottom end of each first transmission rod, and the end portion of each hydraulic rod is connected with the corresponding longitudinal lifting groove of the first transmission rod in a lifting mode.

The invention has the beneficial effects that:

1. this folding processing mechanism of non-woven fabrics's degree of automation is high, and accessible pushing mechanism fixes the non-woven fabrics when folding the non-woven fabrics, makes the non-woven fabrics can not take place the displacement when the fifty percent discount, and the tilting mechanism of being convenient for is folded the non-woven fabrics, and after folding finishing, elevating system can descend and iron to the non-woven fabrics that fold, makes its folding effect better.

2. Through setting up elevating system, when the first drive lever of hydraulic stem control upwards removed, first drive lever can drive the left side jack-up of fly leaf through the movable block with fly leaf swivelling joint, and the opposite side that the fly leaf used first vertical extension rod as the center can drive the lifter and descend afterwards, and the lifter can drive the board of ironing and descend afterwards, and the board of ironing can descend and will fold the good non-woven fabrics and iron.

3. Through setting up tilting mechanism, when the motor drives the rotary disk rotation, the rotary disk can drive the rotation of the pole of joining in the centre of a circle of self, when the pole of joining is rotatory, can drive the movable block through the swing strip piece with self swivelling joint and slide in the spout, because the connecting rod embedding with movable block fixed connection is in the station groove on second joint board again, when the movable block slides, can drive the connecting rod and slide in second joint board to consequently, drive the returning face plate and constitute flip structure.

4. Through setting up pushing mechanism, when the second transfer line passes through the motor rotation, can drive the driven lever rotatory, the driven lever can drive the rotary rod immediately and constitute revolution mechanic, first slide bar and second slide bar can consequently drive first slider and second slider and constitute reverse sliding structure on the cross rail afterwards, the actuating lever at two sets of slider tops also can slide thereupon together afterwards, because the actuating lever embedding is in the inside of second slide, when it slides along the second slide, can drive the roof and constitute sliding structure, the roof just can move forward afterwards and contact with the second fixed plate.

Drawings

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

FIG. 2 is a schematic view of the turnover mechanism of the present invention;

FIG. 3 is a schematic view of the turnover mechanism of the present invention;

FIG. 4 is a schematic view of the lift mechanism of the present invention;

FIG. 5 is a schematic view of a pushing mechanism according to the present invention;

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

FIG. 7 is a schematic three-dimensional structure of the present invention;

FIG. 8 is a schematic view of a groove structure in the surface of a second connector tile according to the present invention;

FIG. 9 is a schematic three-dimensional structure of the present invention.

In the figure: 1. a base; 2. a chute; 3. a stress block; 4. a first fixing plate; 5. a hydraulic lever; 6. a first drive lever; 7. a lifting mechanism; 701. a movable block; 702. a first vertical joint rod; 703. a stress plate; 704. a lifting rod; 705. an ironing board; 706. a splint; 8. a support plate; 9. a pushing mechanism; 901. a second transmission rod; 902. a driven lever; 903. rotating the rod; 904. a first force-bearing rod; 905. a first slide bar; 906. a first slider; 907. a transverse guide rail; 908. a drive rod; 909. a second force-bearing rod; 910. a second slide bar; 911. a second slider; 912. a top plate; 913. a slideway; 10. a turnover mechanism; 1001. a motor; 1002. rotating the disc; 1003. a connecting rod; 1004. swinging the bar; 1005. a moving block; 1006. a second connector tile; 1007. a second fixing plate; 1008. a turnover plate; 1009. a connecting rod; 1010. a station groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

Next, a mechanism for folding a nonwoven fabric according to an embodiment of the present invention will be described in detail with reference to fig. 1 to 7.

A folding processing mechanism of non-woven fabrics, concretely, the folding processing mechanism of non-woven fabrics for mask machine comprises a base 1, the surface of the base 1 is provided with a chute 2, a stress block 3, a first fixing plate 4, a lifting mechanism 7, a support plate 8, a pushing mechanism 9 and a turnover mechanism 10, the chute 2 extends on the surface of the base 1, the extending direction of the chute is parallel to one side end face of the base 1, the stress block 3 is positioned at one side of the chute 2, the stress block 3 is provided with an inclined plane, a first transmission rod 6 extending vertically is freely abutted on the inclined plane, the first fixing plate 4 is vertically arranged and opposite to the inclined plane, one end of the first fixing plate 4 opposite to the inclined plane is provided with a hydraulic rod 5, the hydraulic rod 5 can be extended and retracted in a reciprocating manner between the inclined plane and the first fixing plate 4, the output end of the hydraulic rod 5 is vertically connected with the first transmission rod 6, so as to push the bottom end of the first transmission rod 6 to slide on the inclined plane, the top of the first transmission rod 6 is connected to the lifting mechanism 7, the lifting mechanism 7 is provided with an ironing board 705 extending horizontally, when the first transmission rod 6 slides up and down on the inclined plane, the lifting mechanism 7 is driven to vertically lift up and down so that the lifting mechanism 7 is used for driving the ironing board 705 to vertically lift up and down, the supporting plate 8 is positioned at one side of the lifting mechanism 7 away from the first fixing plate 4, the pushing mechanism 9 is fixed at one side of the supporting plate 8 away from the stress block 3, the pushing mechanism 9 is provided with a top plate 912, the pushing mechanism 9 is used for pushing the top plate 912 to reciprocate on a horizontal plane along the extending direction of the chute 2, the turnover mechanism 10 is positioned at one side of the pushing mechanism 9 close to the chute 2, the turnover mechanism 10 is provided with a second fixing plate 1007 and a turnover plate 1008, the second fixing plate 1007 and the top, the turnover plate 1008 and the second fixing plate 1007 are connected in a rotating mode, and the turnover mechanism 10 is located in the sliding chute 2 and used for driving the turnover plate 1008 to turn over around a rotating shaft between the turnover plate 1008 and the second fixing plate 1007, so that the turnover plate 1008 can be attached to the second fixing plate 1007.

In the present embodiment, the processing operation is an ironing operation.

Specifically, this folding processing mechanism of non-woven fabrics, place the non-woven fabrics that need folding on returning face plate 1008 and second fixed plate 1007 at first when using, tilting mechanism 10 slides in spout 2 afterwards and drives returning face plate 1008 laminating to second fixed plate 1007 on, accomplish the folding of non-woven fabrics, under pushing mechanism 9's effect afterwards, roof 912 just can move forward and contact with second fixed plate 1007, fix the one side of placing the non-woven fabrics in its top, be under the promotion of hydraulic stem 5 afterwards, first drive rod 6 rises along the inclined plane, and then drive elevating system 7 vertical lift so that elevating system 7 drive ironing plate 705 vertical lift irones the non-woven fabrics that has been folded, make folding effect better.

Further, the lifting mechanism 7 comprises a movable block 701, a first vertical joint rod 702, a stressed plate 703, a lifting rod 704, an ironing plate 705 and a clamping plate 706, wherein a short cross rod is vertically arranged at the top of the first transmission rod, the movable block 701 is slidably inserted into the short cross rod arranged at the top of the first transmission rod 6, the side surface of the movable block 701 is rotatably connected with the stressed plate 703, both sides of the middle part of the stressed plate 703 are rotatably connected with the first vertical joint rod 702, the first vertical joint rod 702 is fixed on the base 1, the lifting rod 704 penetrates through one end of the stressed plate 703 far away from the movable block, one side of the lifting rod 704 is connected with the ironing plate 705, both sides of the lower end of the lifting rod 704 are slidably connected with the clamping plates 706, the two clamping plates are fixed on the base, one end of the ironing plate is slidably connected to the side walls of the two clamping plates, through the arrangement of the lifting mechanism 7, the lifting rod 704 drives the ironing plate 705 to descend and iron the folded, so that the folding effect of the cloth looks better. Specifically, when the first driving rod 6 rises upwards, the movable block 701 is driven to move upwards, then the other side of the stress plate 703, which takes the first vertical connecting rod 702 as a center, drives the lifting rod 704 to fall, then the lifting rod 704 drives the ironing plate 705 fixedly connected with the stress plate to fall, and the ironing plate 705 falls to iron the folded non-woven fabric, so that the folding effect is better.

Further, the stress plate 703 is a V-shaped structure, the joint of the first vertical joint rod 702 and the stress plate 703 is the central point of the stress plate 703, the left side of the stress plate 703 applies a pushing force through the first transmission rod 6 to perform a lifting motion, the stress plate 703 drives the ironing plate 705 fixedly connected with the lifting rod 704 through the lifting rod 704 fixedly connected with the stress plate 703 to form a lifting structure, and through the setting of the stress plate 703, when the stress plate 703 rotates, the lifting rod 704 is driven to slide on the inner wall of the clamping plate 706, and then the lifting rod 704 drives the ironing plate 705 to form the lifting structure. Specifically, after the first driving rod 6 jacks up the left side of the force-bearing plate 703 upwards, the right side of the force-bearing plate 703 can descend, the force-bearing plate 703 can drive the lifting rod 704 fixedly connected with the force-bearing plate 703 to descend, and the lifting rod 704 is slidably connected with the clamping plate 706, so that when the lifting rod 704 moves, the ironing plate 705 is driven to be fixedly connected with the force-bearing plate 706 to horizontally ascend and descend.

Further, the pushing mechanism 9 includes a second transmission rod 901, a driven rod 902, a rotation rod 903, a first force-bearing rod 904, a first sliding rod 905, a first sliding block 906, a cross rail 907, a driving rod 908, a second force-bearing rod 909, a second sliding rod 910, a second sliding block 911, a top plate 912 and a sliding way 913, the second transmission rod 901 is rotatably connected to the top of the base 1, and a driving motor is installed on the base and connected to the bottom end of the second transmission rod. A driven rod 902 is vertically and fixedly connected to the top of the second transmission rod 901, a rotating rod 903 is fixedly connected to the surface of the driven rod 902, a first stressed rod 904 is rotatably connected to the surface of the rotating rod 903, the first stressed rod is parallel to the driven rod, a first sliding rod 905 is vertically and rotatably connected to the top of the first stressed rod 904, a first sliding block 906 is fixedly connected to the top of the first sliding rod 905, a transverse guide rail 907 penetrates through the side surface of the first sliding block 906, two opposite ends of the transverse guide rail are fixedly connected to the base through connecting columns, a lower transverse plate is rotatably connected to the top of the rotating rod 903, a second stressed rod 909 is rotatably connected to the end of the lower transverse plate, a second sliding rod 910 is vertically and rotatably connected to the top of the second stressed rod 909, a second sliding block 911 is fixedly connected to the top of the second sliding rod 910, the transverse guide rail also penetrates through the second sliding block, and driving rods 908 are fixedly connected to the tops of the first, the top plate 912 is installed jointly on the upper portion of two actuating levers 908, and the surface of top plate 912 is provided with two slides 913, through the setting of pushing mechanism 9, can fix the non-woven fabrics for the displacement can not appear when the upset in the non-woven fabrics, is convenient for fold the non-woven fabrics.

Specifically, when the second transmission rod 901 rotates, the driven rod 902 fixed to the second transmission rod can be driven to rotate, after the driven rod 902 rotates, the rotating rod 903 can be driven to rotate together, after the rotating rod 903 rotates, the first stress rod 904 and the second stress rod 909 can be driven to rotate at the same time, when the two sets of stress rods rotate, the first slider 906 and the second slider 911 can be driven to slide on the transverse guide rail 907, and the driving rod fixedly connected to the two sets of sliders can also follow the driving rod to form a sliding structure in the sliding rail 913.

In brief, the rotating rod 903 is pulled outward in a direction perpendicular to the paper by the driven rod 902, and finally the first slider 906 and the second slider 911 are pulled close to each other. When the direction is rotated, the transversal plate and the second force-bearing rod 909 are made parallel to each other and are located between the first slider and the second slider, so that the first slider and the second slider are away from each other.

Further, the rotating rod 903 is designed to be cylindrical, the second force-bearing rod 909 is disposed offset from the center of the rotating rod 903, the first slider 906 and the second slider 911 are both slidably connected to the cross rail 907, the first force-bearing rod 904 and the second force-bearing rod 909 are driven by the second transmission rod 901 to rotate so that a reverse sliding structure is formed between the first slider 906 and the second slider 911, the sliding ways 913 are inclined with respect to the side edge of the top plate 912, and a splayed shape is formed between the two sliding ways 913, the two driving rods 908 are respectively embedded into the two sliding ways 913 and slidably connected thereto, the driving rods 908 are driven by the first slider 906 and the second slider 911, and further the top plate 912 slidably connected to the base 1 is driven to slide on the base 1, and by the arrangement of the driving rods 908, when the driving rods slide in the obliquely disposed sliding ways 913, the top plate 912 is driven to move toward the non-woven fabric placed above the second fixing plate 1007, contacting the nonwoven fabric to fix the nonwoven fabric. Specifically, when the two sets of driving rods 908 slide in the sliding ways 913, the two sets of sliding ways 913 form a splayed shape therebetween, so that when the driving rods 908 slide, a clamping thrust is applied to the sliding ways 913, and the top plate 912 slidably connected to the base 1 is driven by the sliding ways 913 to move toward the non-woven fabric and contact with the non-woven fabric, so that the non-woven fabric is not displaced when being turned over.

For example, the line of symmetry between the two runners extends towards the roll-over panel, and the cross rail is perpendicular to this line of symmetry.

Further, tilting mechanism 10 includes motor 1001, rotary disk 1002, joint pole 1003, swing stick 1004, movable block 1005, second joint board 1006, second fixed plate 1007 and returning face plate 1008, motor 1001 installs in the top of base 1, and rotary disk 1002 is installed to the output of motor 1001, the one end edge fixedly connected with joint pole 1003 of rotary disk 1002, and the surperficial swivelling joint of joint pole 1003 has swing stick 1004, the one end swivelling joint that the joint pole was kept away from to swing stick 1004 has movable block 1005, the top fixedly connected with connecting rod 1009 of movable block 1005, and the protruding slip fixture block that is equipped with of lateral wall of connecting rod 1009, the top fixedly connected with returning face plate 1008 of second joint board 1006, and the side swivelling joint of returning face plate 1008 has second fixed plate 1007, through tilting mechanism 10's setting, can carry out the fifty percent discount to the cloth through returning face plate 1008, reach folding purpose. Specifically, the motor 1001 is turned on, so that the motor 1001 controls the rotating disc 1002 to rotate, the rotating disc 1002 rotates to drive the connecting rod 1003 to rotate, the connecting rod 1003 deviates from the center of the rotating disc 1002, the connecting rod 1003 rotates to drive the moving block 1005 to slide in the sliding groove 2 through the swinging block 1004, when the moving block 1005 slides, the connecting rod 1009 fixedly connected with the moving block 1005 is embedded into the side face of the second connecting plate 1006 to incline by 60 degrees and is arranged in the station groove 1010, when the connecting rod 1009 fixedly connected with the moving block 1005 applies thrust to the right side, the connecting rod 1009 can slide in the station groove 1010 and drives the turnover plate 1008 to form a turnover structure through the second connecting plate 1006, and cloth is folded in half.

Further, the joint rod 1003 deviates from the circle center of the rotating disc 1002, the bottom end column of the moving block 1005 is embedded into the sliding groove 2 and is in sliding connection with the sliding groove, the joint rod 1003 drives the rotating disc 1002 to rotate through the motor 1001, so that the swinging block 1004 drives the moving block 1005 to form a sliding structure in the sliding groove 2, through the arrangement of the moving block 1005, when the moving block 1005 applies thrust to the right side of the connecting rod 1009 fixedly connected with the moving block 1005, the connecting rod 1009 can slide in the station groove 1010 and drive the turnover plate 1008 to turn through the second joint plate 1006. Specifically, when the motor 1001 controls the rotating disc 1002 to rotate, the rotating disc 1002 rotates to drive the connecting rod 1003 to rotate, and the connecting rod 1003 deviates from the center of the rotating disc 1002, so that the connecting rod 1003 rotates to drive the moving block 1005 to slide in the sliding groove 2 through the swinging block 1004.

Further, a second fixing plate 1007 is rotatably connected with the base 1 through a connecting frame, a station groove 1010 is concavely formed in the side surface of the second connecting plate 1006, a sliding clamping block is clamped into the station groove in a sliding mode, the station groove 1010 in the surface of the second connecting plate 1006 is designed to be inclined at sixty degrees, the second fixing plate 1007 is connected with the turnover plate through a rotating shaft, and the side surface of the second connecting plate is perpendicular to the rotating shaft.

Inside and rather than sliding connection of the slip fixture block embedding station groove 1010 of connecting rod 1009, connecting rod 1009 constitutes sliding structure in station groove 1010 through the movable block 1005 with self fixed connection, and the returning face plate 1008 drives connecting rod 1009 through the movable block 1005 and slides right in the station groove 1010 of sixty degrees slope design and constitutes the flip structure, through the setting of returning face plate 1008, when returning face plate 1008 the upset, can carry out the fifty percent discount with the cloth. Specifically, when the moving block 1005 slides, because the connecting rod 1009 fixedly connected to the moving block 1005 is embedded in the station slot 1010 obliquely arranged at 60 ° on the second joint plate 1006, when the moving block 1005 applies a pushing force to the connecting rod 1009 fixedly connected to itself to the right side, the connecting rod 1009 can slide in the station slot 1010 and drive the turning plate 1008 to turn through the second joint plate 1006.

Further, the side of atress piece 3 is 60 degrees slope designs, and first transfer line 6 embedding atress piece 3's inclined plane, first transfer line 6 passes through hydraulic stem 5 and constitutes elevation structure, through the setting of first transfer line 6, can provide power for ironing board 705's lift, make its decline iron the cloth, it is concrete, when hydraulic stem 5's output promoted first transfer line 6, because first transfer line 6 embedding is at the inclined plane of atress piece 3 and rather than sliding connection, so first transfer line 6 can slowly rise along the inclined plane of atress piece 3 in the slip process, and consequently, drive the left side upward movement of atress piece 703.

For example, the number of the rotating disc 1002, the first vertical joint rod 702, the clamping rod 706, the first fixing plate 4, the force-receiving block 3, the connecting rod 1009, the hydraulic rod 5 and the first transmission rod 6 are two, and each of the same two elements are symmetrically arranged. The bottom end of each first transmission rod is provided with a longitudinal lifting groove, and the end part of each hydraulic rod is connected with the corresponding longitudinal lifting groove of the first transmission rod in a lifting manner.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims

1. The utility model provides a folding processing mechanism of non-woven fabrics, includes base (1), its characterized in that: the surface of the base (1) is provided with a sliding chute (2), a stress block (3), a first fixing plate (4), a lifting mechanism (7), a supporting plate (8), a pushing mechanism (9) and a turnover mechanism (10), the sliding chute (2) extends on the surface of the base (1), the extending direction of the sliding chute is parallel to one side end face of the base (1), the stress block (3) is positioned on one side of the sliding chute (2), the stress block (3) is provided with an inclined plane, a first transmission rod (6) extending vertically is freely abutted to the inclined plane, the first fixing plate (4) is vertically arranged and is opposite to the inclined plane, one end of the first fixing plate (4) opposite to the inclined plane is provided with a hydraulic rod (5), and the hydraulic rod (5) can extend and retract back and forth between the inclined plane and the first fixing plate (4), the output of hydraulic stem (5) is connected with first transfer lever (6), in order to promote the bottom of first transfer lever (6) is in slide on the inclined plane, the top of first transfer lever (6) is connected to elevating system (7), be equipped with ironing board (705) that the level extends on elevating system (7), when first transfer lever (6) slides from top to bottom on the inclined plane, the drive elevating system (7) vertical lift is so that elevating system (7) are used for driving ironing board (705) vertical lift, backup pad (8) are located elevating system (7) are kept away from one side of first fixed plate (4), backup pad (8) are kept away from one side of atress piece (3) is fixed pushing mechanism (9), be equipped with roof (912) on pushing mechanism (9), pushing mechanism (9) are used for promoting roof (912) are along on a horizontal plane along the direction that spout (2) extend The turnover mechanism (10) is located on one side, close to the sliding chute (2), of the pushing mechanism (9), a second fixing plate (1007) and a turnover plate (1008) are arranged on the turnover mechanism (10), the second fixing plate (1007) and the top plate (912) are located on the same horizontal plane, so that the top plate (912) can abut against the second fixing plate (1007) when moving, the turnover plate (1008) and the second fixing plate (1007) are connected in a rotating mode, and part of the turnover mechanism (10) can slide and is located in the sliding chute (2) and used for driving the turnover plate (1008) to turn around a rotating shaft between the turnover plate (1008) and the second fixing plate (1007), so that the turnover plate (1008) can abut against the second fixing plate (1007).

2. The folding processing mechanism of a nonwoven fabric according to claim 1, characterized in that: elevating system (7) are including movable block (701), first vertical linking pole (702), atress board (703), lifter (704), ironing board (705) and splint (706), and the top of first transmission pole is provided with short horizontal pole perpendicularly, and the movable block is inserted in the short horizontal pole of locating first transmission pole top with sliding, and the side swivelling joint of movable block (701) has atress board (703), the equal swivelling joint in middle part both sides of atress board (703) has first vertical linking pole (702), and the lifter (704) has been run through to the one end that the movable block was kept away from in atress board (703), one side of lifter (704) is connected with ironing board (705), and the equal sliding connection in lower extreme both sides of lifter (704) has splint (706), and two splint are fixed in on the base, and ironing board's one end sliding connection is on the lateral wall of two splint.

3. The folding processing mechanism of a nonwoven fabric according to claim 2, characterized in that: the joint of the first vertical joint rod (702) and the stress plate (703) is the central point of the stress plate (703), the left side of the stress plate (703) applies thrust through a first transmission rod (6) to move up and down, and the stress plate (703) drives an ironing plate (705) fixedly connected with the lifting rod (704) through the lifting rod (704) fixedly connected with the stress plate (703) to form a lifting structure.

4. The folding processing mechanism of a nonwoven fabric according to claim 3, characterized in that: the pushing mechanism (9) comprises a second transmission rod (901), a driven rod (902), a rotating rod (903), a first stress rod (904), a first sliding rod (905), a first sliding block (906), a transverse guide rail (907), a driving rod (908), a second stress rod (909), a second sliding rod (910), a second sliding block (911), a top plate (912) and a sliding way (913), the second transmission rod (901) is rotatably connected to the top of the base (1), a driving motor is installed on the base and is connected with the bottom end of the second transmission rod, the top of the second transmission rod (901) is vertically and fixedly connected with the driven rod (902), the surface of the driven rod (902) is fixedly connected with the rotating rod (903), the surface of the rotating rod (903) is rotatably connected with the first stress rod (904), the first stress rod is parallel to the driven rod, the top of the first stress rod (904) is vertically and rotatably connected with the first sliding rod (905), and the top fixedly connected with first slider (906) of first slide bar (905), the side of first slider (906) is run through and is had horizontal guide rail (907), and the relative both ends of horizontal guide rail all are through spliced pole fixed connection on the base, and the top swivelling joint of rotary rod has lower diaphragm, and the tip swivelling joint of lower diaphragm has second atress pole, and the perpendicular swivelling joint in top of second atress pole has the second slide bar, second slide bar (910) top fixedly connected with second slider (911), and the horizontal guide rail still runs through the second slider, and the equal fixedly connected with actuating lever (908) in top of first slider (906) and second slider (911), and the roof is installed jointly on the upper portion of two actuating levers 908, and the surface of roof (912) is provided with two slides (913).

5. The folding processing mechanism of non-woven fabric according to claim 4, characterized in that: the rotary rod (903) is designed in a cylindrical shape, the second stress rod (909) deviates from the circle center of the rotary rod (903), the first slider (906) and the second slider (911) are in sliding connection with the transverse guide rail (907), the first stress rod (904) and the second stress rod (909) are driven to rotate through the second transmission rod (901) to enable the first slider (906) and the second slider (911) to form a reverse sliding structure, the slide ways (913) are in an inclined state relative to the side edge of the top plate (912), the two slide ways (913) form a splayed shape, and the two driving rods are respectively embedded into the two slide ways and are in sliding connection with the two slide ways.

6. The folding processing mechanism of a nonwoven fabric according to claim 5, characterized in that: the turnover mechanism (10) comprises a motor (1001), a rotating disc (1002), a joint bar (1003), a swinging bar block (1004), a moving block (1005), a second joint bar (1006), a second fixing plate (1007) and a turnover plate (1008), wherein the motor (1001) is installed at the top of the base (1), the rotating disc (1002) is installed at the output end of the motor (1001), the joint bar (1003) is fixedly connected to the edge of one end of the rotating disc (1002), the swinging bar block (1004) is rotatably connected to the surface of the joint bar (1003), the moving block (1005) is rotatably connected to one end, far away from the joint bar, of the swinging bar block (1004), a connecting rod (1009) is fixedly connected to the top of the moving block (1005), a sliding clamping block is convexly arranged on the side wall of the connecting rod (1009), the turnover plate (1008) is fixedly connected to the top of the second joint bar (1006), and the second fixing plate (1007) is rotatably connected, the side surface of the second connecting plate (1006) is concavely provided with a station groove (1010), a sliding clamping block is clamped in the station groove in a sliding mode, the second fixing plate is connected with the turnover plate through a rotating shaft, and the side surface of the second connecting plate is perpendicular to the rotating shaft.

7. The folding processing mechanism of a nonwoven fabric according to claim 6, characterized in that: the connecting rod (1003) deviates from the circle center of the rotating disc (1002), the bottom end column of the moving block (1005) is embedded into the sliding groove (2) and is in sliding connection with the sliding groove, and the connecting rod (1003) drives the rotating disc (1002) to rotate through the motor (1001), so that the swinging block (1004) drives the moving block (1005) to form a sliding structure in the sliding groove (2).

8. The folding processing mechanism of a nonwoven fabric according to claim 7, characterized in that: the second fixing plate (1007) is rotatably connected with the base (1) through a connecting frame, a station groove (1010) in the surface of the second connecting plate (1006) is designed to be inclined at sixty degrees, and a sliding clamping block of the connecting rod (1009) is embedded into the station groove (1010) and is in sliding connection with the station groove.

9. The folding processing mechanism of a nonwoven fabric according to claim 8, characterized in that: the side of the stress block (3) is a right-angled triangle, a first transmission rod (6) is embedded into the inclined plane of the stress block (3), and the first transmission rod (6) forms a lifting structure through a hydraulic rod (5).

10. The folding processing mechanism of a nonwoven fabric according to claim 9, characterized in that: the symmetrical line between two slides extends towards the roll-over plate, the transverse guide rail is vertical relative to the symmetrical line, the number of the rotary disk, the first vertical connecting rod, the clamping rod, the first fixing plate, the stress block, the connecting rod, the hydraulic rod and the first transmission rod is two, every two identical elements are symmetrically arranged, the bottom end of each first transmission rod is provided with a longitudinal lifting groove, and the end part of each hydraulic rod is connected with the corresponding longitudinal lifting groove of the first transmission rod in a lifting manner.