CN113524792A - Non-woven fabric handbag manufacturing and processing equipment and manufacturing and processing method - Google Patents

Abstract

The invention provides a non-woven fabric handbag manufacturing and processing device and a manufacturing and processing method, wherein the non-woven fabric handbag manufacturing and processing device comprises a slitting mechanism, a conveying mechanism and a bottom plate, and the non-woven fabric handbag manufacturing and processing device and the non-woven fabric handbag manufacturing and processing method solve the following problems in the slitting process of the raw materials of the existing non-woven fabric handbag: the non-woven fabric can not correctly guide the moving track during conveying and cutting, is easy to deflect, causes deviation of the cut size, and is easy to wrinkle during the conveying process due to the particularity of the non-woven fabric material; the non-woven fabrics is direct whereabouts of blade when cutting and cuts off, causes the cutting resistance increase, can lead to incision department pleasing to the eye and have more burr, causes to cut the quality and descends to the non-woven fabrics takes place to remove when cutting off easily, can lead to the incision skew of non-woven fabrics, causes the preparation requirement scheduling problem that the cutting size can not satisfy the non-woven fabrics handbag.

Description

Non-woven fabric handbag manufacturing and processing equipment and manufacturing and processing method

Technical Field

The invention relates to the technical field of non-woven fabric handbag processing, in particular to non-woven fabric handbag manufacturing and processing equipment and a manufacturing and processing method.

Background

The non-woven fabric handbag is a green product, is tough and durable, attractive in appearance, good in air permeability, reusable, washable, capable of screen printing advertisements and shipping marks, and long in service life. The product takes non-woven fabrics as raw materials, is a new generation of environment-friendly material, has the characteristics of moisture resistance, air permeability, flexibility, light weight, no combustion supporting, easy decomposition, no toxicity or irritation, rich color, low price, recycling and the like, and is widely used in the prior non-woven fabric handbag.

The production raw materials of the prior non-woven fabric handbag are non-woven fabrics which are used as raw materials, cut by a cutting device and folded and sewn manually to prepare the non-woven fabric handbag; the slitting process of the raw materials of the non-woven fabric handbag nowadays often has the following problems: the non-woven fabric can not correctly guide the moving track during conveying and cutting, is easy to deflect, causes deviation of the cut size, and is easy to wrinkle during the conveying process due to the particularity of the non-woven fabric material; when the non-woven fabric is cut, the blade directly falls to cut off, so that the cutting resistance is increased, the cut is not attractive, more burrs exist, the cutting quality is reduced, the non-woven fabric is easy to move when being cut off, the cut of the non-woven fabric is inclined, and the cutting size cannot meet the manufacturing requirement of the non-woven fabric handbag; therefore, the invention provides a non-woven fabric handbag manufacturing and processing device and a manufacturing and processing method.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the following technical scheme that the non-woven fabric handbag manufacturing and processing equipment comprises a splitting mechanism, a conveying mechanism and a bottom plate, wherein the conveying mechanism is arranged on the bottom plate, the splitting mechanism is arranged on the left side of the conveying mechanism, and the splitting mechanism is arranged on the bottom plate, wherein:

the slitting mechanism comprises a main beam support, a discharging plate, a supporting cutter, a slitting unit, a floating unit, a straight plate, a sliding rod, a touch plate and an execution cylinder; the device comprises a main beam support, a cutting unit, a sliding rod, an execution cylinder, a cylinder seat and a floating unit, wherein the main beam support is arranged on a bottom plate and is of an H-shaped structure, a discharge plate is arranged on the inner wall of the main beam support, a strip-shaped groove is formed in the discharge plate, a supporting cutter is arranged on the inner side of the strip-shaped groove on the discharge plate, the supporting cutter is arranged on the end surface of the main beam support, the cutting unit is arranged right above the supporting cutter, the cutting unit is arranged on the inner wall of the main beam support in a sliding fit mode, the top end surface of the cutting unit is connected with the bottom end of the floating unit, the floating unit is symmetrically arranged on a straight plate, the straight plate is arranged on the inner wall of the main beam support, the sliding rod is arranged right above the straight plate, the sliding rod is arranged at the upper end of the main beam support in a sliding fit mode, two touch plates which are linearly arranged along the length direction are arranged on the sliding rod, the lower end surfaces of the touch plates are connected with the floating unit in an abutting mode, the execution cylinder is arranged on the outer wall of the main beam support through the cylinder seat, an output shaft of the execution cylinder is connected with one side shaft end of the sliding rod through a joint; promote the slide bar translation through carrying out the cylinder and slide, make the synchronous translation of touch panel, the slope terminal surface that lasts the increase through the touch panel lower extreme supports to push away to the unit that floats, makes the unit that floats slide and descend and support to push away to the cutting unit, makes the synchronous decline of cutting unit and with the terminal surface pressfitting contact of row flitch to with holding in the palm the cutter and mutually supporting then cut off the non-woven fabrics on the row flitch, discharge the non-woven fabrics after cutting off through the slope terminal surface in the row flitch outside.

Preferably, the slitting unit comprises a pressing plate, a pressing cutter, a vertical rod and a compression spring; the pressing plate is installed on the inner wall of the main beam support in a sliding fit mode, a strip-shaped groove is formed in the pressing plate, a pressing cutter is arranged on the inner side of the strip-shaped groove in the pressing plate, the pressing cutter is installed on the inner wall of the main beam support in a sliding fit mode, the top end face of the pressing cutter is connected with the floating unit, the pressing cutter is connected with the vertical rod in a sliding fit mode, the vertical rod is symmetrically installed on the pressing plate, a compression spring is arranged on the outer ring of the vertical rod, and the compression spring is connected between the outer ring of the vertical rod and the end face of the pressing plate; support through the unit that floats to pressing the cutter and push away the decline, make the clamp plate in advance with the terminal surface pressfitting contact of row flitch, make the non-woven fabrics compress tightly fixedly, prevent to take place to remove when the cutting, lead to the incision burr to increase and the incision position slope, then continuously support through the unit that floats to pressing the cutter and push away the decline, make pressing the cutter and hold in the palm the mutual crisscross cooperation of cutter and cut off the non-woven fabrics, and the montant is then the orbit that the direction pressing the cutter descends to remove, rethread compression spring supports to push away reset to clamp plate and pressing the cutter, and compression spring supports when pushing away the clamp plate, make the clamp plate can with the inseparable pressfitting contact of terminal surface of row flitch, can improve the clamping stability when the non-woven fabrics cuts off, prevent to take place to rock.

Preferably, the floating unit comprises a C-shaped frame, a floating rod, a roller and a cylindrical spring; the C-shaped frame is installed on the bottom wall surface of the straight plate, the floating rod is installed on the straight plate in a sliding fit mode and is connected with the C-shaped frame in a sliding fit mode, the roller wheel is installed at the top shaft end of the floating rod through a bearing and is connected with the touch plate in a rolling mode, the outer ring of the lower end of the floating rod is provided with a cylindrical spring, the cylindrical spring is connected between the outer ring of the lower end of the floating rod and the end surface of the C-shaped frame, and the bottom shaft end of the floating rod is connected with the slitting unit; the inclined end face continuously increased through the lower end of the touch plate supports and pushes the roller, so that the floating rod vertically slides and descends along the guide direction of the upper waist-shaped groove of the C-shaped frame, the friction resistance can be reduced through the contact of the roller and the touch plate, the horizontal translation motion can be smoothly converted into the vertical lifting motion, the cylindrical spring supports and pushes the floating rod, the roller is tightly contacted with the touch plate, and the stability of the lifting motion of the floating rod can be improved.

Preferably, the conveying mechanism comprises a conveying bracket, a driving roller, a driven roller, a pinion, a main gear, a spur gear, a toothed belt, a stepping motor and a guide unit; the conveying support is arranged on the bottom plate, a plurality of driving rollers and driven rollers which are linearly arranged along the length direction of the conveying support are respectively arranged on the conveying support through bearings, the driving rollers are located under the driven rollers, pinions are arranged on shaft ends of the driven rollers and are mutually connected with a main gear in a meshing mode, the main gear is arranged on an outer ring of the shaft end of the driving rollers and is provided with straight gears on the outer side, the straight gears are arranged on the shaft ends of the driving rollers and are mutually connected with toothed belts arranged on the outer ring in a meshing mode, a stepping motor is arranged on the outer wall of the conveying support through a motor base, an output shaft of the stepping motor is mutually connected with a shaft head of one end of the driving roller on the rightmost side of the conveying support through a coupler, and a guide unit is arranged on the conveying support; the guiding space of the guiding unit is adjusted according to the width size of the conveyed non-woven fabric, then the driving roller is driven to rotate through the stepping motor, the main gear is meshed with the pinion, the driven roller synchronously rotates in opposite directions, the straight gear is meshed with the toothed belt through the rotation of the driving roller, and therefore the plurality of driving rollers and the driven roller synchronously convey the non-woven fabric in a rotating mode.

Preferably, the guide unit comprises a guide rod, a bidirectional screw, a hand wheel, a transverse plate, a straight rod and a ball; the guide rods are symmetrically arranged on the conveying support, two-way screw rods are arranged between the guide rods and are arranged on the conveying support through bearings, hand wheels are arranged on two side shaft ends of the two-way screw rods through pin bolts respectively, the two-way screw rods are connected with the transverse plate through a thread fit mode, the transverse plate is symmetrically arranged on the guide rods through a sliding fit mode, a plurality of straight rods linearly arranged along the length direction of the transverse plate are arranged at the bottom end of the transverse plate, and a plurality of balls linearly arranged along the length direction of the straight rods are arranged on the side walls of the straight rods; wave two-way lead screw rotation through the hand wheel, make the interval distance of two-way lead screw rotation control diaphragm, through the removal orbit of guide arm direction diaphragm horizontal direction, through the ball on the straight-bar again to the direction of contact of non-woven fabrics, keep the transmission direction of non-woven fabrics, prevent the skew, it is rotatory that the non-woven fabrics through directional motion drives the ball, can prevent that the non-woven fabrics edge from leading to the phenomenon that the burr increases because of the friction when the transmission.

Preferably, the lower terminal surface of touch panel sets up for the slope, is convenient for continuously contradict floating unit, makes floating unit carry out elevating movement according to the inclination change of terminal surface under the touch panel to with the elevating movement of the translation conversion position vertical direction of horizontal direction.

Preferably, the sword blade of pressing the cutter sets up for the slope, is convenient for improve the mobility of edge of a knife shear point to link up quick cutting off the non-woven fabrics, can reduce the incision burr.

Preferably, the C-shaped frame is provided with a waist-shaped groove, so that the movement track of the floating rod in the vertical direction can be guided conveniently.

Preferably, the ball is provided with a guide groove, so that the ball is convenient to contact with the non-woven fabric, guides a transmission path of the non-woven fabric, and prevents transmission deviation.

In addition, the invention also provides a method for manufacturing and processing the non-woven fabric handbag, which comprises the following steps:

s1, unreeling and conveying: clamping and fixing the non-woven fabric winding drum through an unwinding device, and carrying out rotary unwinding conveying on the non-woven fabric winding drum;

s2, guiding transmission: the non-woven fabric is conveyed through the conveying mechanism, and the conveying direction of the non-woven fabric is correctly guided, so that deviation is prevented;

s3, pressing and slitting: pre-pressing the non-woven fabric through a splitting mechanism, and then cutting off the non-woven fabric;

s4, sewing: the non-woven fabric handbag is manufactured by manually folding the cut non-woven fabric and then sewing the non-woven fabric by a sewing device.

The invention has the beneficial effects that:

firstly, the non-woven fabric is pressed and fixed by the pressing plate which is in press fit contact with the end face of the discharge plate in advance, so that the movement of the non-woven fabric during cutting is prevented, the increase of cut burrs and the inclination of a cut position are prevented, the correctness of the cut size of the non-woven fabric can be ensured, and the preparation quality of the non-woven fabric handbag is improved.

The invention further discloses a non-woven fabric hand bag cutting device, which comprises a pressing cutter, a supporting cutter, a cutting edge, and a cutting edge, a.

The distance between the transverse plates is controlled through the rotation of the bidirectional screw rod, the guiding requirements of non-woven fabrics with different width sizes can be met, the non-woven fabrics in directional motion drive the balls to rotate, the phenomenon that burrs are increased due to friction of the edges of the non-woven fabrics during transmission can be prevented, the transmission direction of the non-woven fabrics is kept, and errors of subsequent cutting sizes caused by transmission deviation are prevented.

And fourthly, the non-woven fabric is oppositely and rotatably transmitted through the driving roller and the driven roller, so that the non-woven fabric is not wrinkled during transmission, the transmission direction of the non-woven fabric is kept, and the stability of the non-woven fabric during transmission can be improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of the present invention in a primary viewing position;

FIG. 2 is a perspective view of the present invention in a rear-view position;

FIG. 3 is a perspective view of the slitting mechanism of the present invention;

FIG. 4 is a perspective sectional view of the slitting mechanism of the present invention;

FIG. 5 is a side elevational perspective structural cross-sectional view of the slitting mechanism of the present invention;

FIG. 6 is an enlarged view of a portion of the invention at A in FIG. 5;

FIG. 7 is a perspective view of the delivery mechanism of the present invention;

FIG. 8 is a perspective sectional view of the delivery mechanism of the present invention;

fig. 9 is a partial enlarged view of the invention at B in fig. 8.

In the figure: 1. a slitting mechanism; 10. a main beam support; 11. a discharge plate; 12. supporting a cutter; 13. cutting a sheet; 131. pressing a plate; 132. pressing and cutting the cutter; 133. a vertical rod; 134. a compression spring; 14. a floating unit; 141. a C-shaped frame; 142. a floating rod; 143. a roller; 144. a cylindrical spring; 15. a straight plate; 16. a slide bar; 17. a touch panel; 18. an actuating cylinder; 2. a conveying mechanism; 20. a delivery stent; 21. a drive roll; 22. a driven roller; 23. a pinion gear; 24. a main gear; 25. a spur gear; 26. a toothed belt; 27. a stepping motor; 28. a guide unit; 281. a guide bar; 282. a bidirectional lead screw; 283. a hand wheel; 284. a transverse plate; 285. a straight rod; 286. a ball bearing; 3. a base plate.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further described below by combining with the specific drawings, and it is to be noted that the embodiments and the features in the embodiments can be combined with each other in the application without conflict.

As shown in fig. 1 to 9, a non-woven fabric handbag manufacturing and processing device comprises a splitting mechanism 1, a conveying mechanism 2 and a bottom plate 3, wherein the bottom plate 3 is provided with the conveying mechanism 2, the left side of the conveying mechanism 2 is provided with the splitting mechanism 1, and the splitting mechanism 1 is installed on the bottom plate 3, wherein:

referring to fig. 1, 2, 7 and 8, the conveying mechanism 2 includes a conveying bracket 20, a driving roller 21, a driven roller 22, a pinion 23, a main gear 24, a spur gear 25, a toothed belt 26, a stepping motor 27 and a guide unit 28; the conveying bracket 20 is arranged on the bottom plate 3, a plurality of driving rollers 21 and driven rollers 22 which are linearly arranged along the length direction of the conveying bracket 20 are respectively arranged on the conveying bracket 20 through bearings, and the driving roller 21 is positioned right below the driven roller 22, a pinion 23 is mounted on the shaft end of the driven roller 22, the pinion 23 is connected with the main gear 24 in a meshing manner, the main gear 24 is arranged on an outer ring of the shaft end of the driving roller 21, a straight gear 25 is arranged on the outer side of the main gear 24, the straight gear 25 is arranged on the shaft end of the driving roller 21, the straight gears 25 are connected with a toothed belt 26 arranged on the outer ring in a meshing manner, a stepping motor 27 is arranged on the outer wall of the conveying bracket 20 through a motor base, an output shaft of the stepping motor 27 is connected with a shaft head at one end of the rightmost driving roller 21 on the conveying bracket 20 through a coupler, and the guide unit 28 is installed on the conveying bracket 20; the guide pitch of the guide unit 28 is adjusted according to the width size of the nonwoven fabric to be conveyed, and then the drive roller 21 is rotated by the stepping motor 27, the main gear 24 is engaged with the pinion 23, the driven roller 22 is rotated in synchronization with the counter rotation, the spur gear 25 is rotated by the drive roller 21, the spur gear 25 is engaged with the toothed belt 26, and the plurality of drive rollers 21 and the driven roller 22 are rotated in synchronization with the conveyance of the nonwoven fabric.

Referring to fig. 7, 8 and 9, the guide unit 28 includes a guide rod 281, a bidirectional screw 282, a handwheel 283, a cross plate 284, a straight rod 285 and a ball 286; the conveying device is characterized in that the guide rods 281 are symmetrically arranged on the conveying support 20, two-way screw rods 282 are arranged between the guide rods 281, the two-way screw rods 282 are arranged on the conveying support 20 through bearings, hand wheels 283 are respectively arranged on shaft ends on two sides of the two-way screw rods 282 through bolts, the two-way screw rods 282 are mutually connected with the transverse plate 284 through a thread matching mode, the transverse plate 284 is symmetrically arranged on the guide rods 281 through a sliding matching mode, a plurality of straight rods 285 linearly arranged along the length direction of the transverse plate 284 are arranged at the bottom end of the transverse plate 284, a plurality of balls 286 linearly arranged along the length direction of the straight rods 285 are arranged on the side wall of the straight rods 285, guide grooves are formed in the balls 286, the contact with non-woven fabrics is facilitated, the transmission path of the non-woven fabrics is guided, and the transmission deviation is prevented; shaking two-way lead screw 282 through hand wheel 283 and rotating, making two-way lead screw 282 rotate the interval distance of control diaphragm 284, through the removal orbit of guide arm 281 direction diaphragm 284 horizontal direction, ball 286 contacts leading to the non-woven fabrics on the rethread straight rod 285, keeps the transmission direction of non-woven fabrics, prevents the skew, and the non-woven fabrics through directional motion drives the ball 286 rotation, can prevent that the edge from leading to the phenomenon that the burr increases because of the friction when the non-woven fabrics is transmitted.

Referring to fig. 1, 2, 3, 4 and 5, the slitting mechanism 1 includes a main beam support 10, a discharging plate 11, a supporting cutter 12, a slitting unit 13, a floating unit 14, a straight plate 15, a sliding rod 16, a touch plate 17 and an actuating cylinder 18; the main beam support 10 is arranged on the bottom plate 3, the main beam support 10 is of an H-shaped structure, a discharging plate 11 is arranged on the inner wall of the main beam support 10, a strip-shaped groove is formed in the discharging plate 11, a supporting cutter 12 is arranged on the inner side of the strip-shaped groove in the discharging plate 11, the supporting cutter 12 is arranged on the end surface of the main beam support 10, a cutting unit 13 is arranged right above the supporting cutter 12, the cutting unit 13 is arranged on the inner wall of the main beam support 10 in a sliding fit mode, the top end surface of the cutting unit 13 is connected with the bottom end of a floating unit 14, the floating unit 14 is symmetrically arranged on a straight plate 15, the straight plate 15 is arranged on the inner wall of the main beam support 10, a sliding rod 16 is arranged right above the straight plate 15, the sliding rod 16 is arranged on the upper end of the main beam support 10 in a sliding fit mode, two contact plates 17 which are linearly arranged along the length direction of the sliding rod 16 are arranged on the sliding rod 16, the lower end face of the touch plate 17 is in abutting connection with the floating unit 14, the lower end face of the touch plate 17 is arranged in an inclined mode, so that the touch plate can continuously abut against the floating unit 14, the floating unit 14 can move up and down according to the inclination change of the lower end face of the touch plate 17, and the horizontal translation motion is converted into the vertical lifting motion; the execution cylinder 18 is arranged on the outer wall of the main beam support 10 through a cylinder seat, and an output shaft of the execution cylinder 18 is connected with one side shaft end of the sliding rod 16 through a joint; the sliding rod 16 is pushed by the execution cylinder 18 to move in a sliding mode, the contact plate 17 moves in a sliding mode synchronously, the floating unit 14 is pushed through the inclined end face of the lower end of the contact plate 17, the floating unit 14 slides and descends, the cutting unit 13 is pushed, the cutting unit 13 descends synchronously and is in press fit contact with the end face of the discharge plate 11, the cutting unit is matched with the supporting cutter 12 to cut off the non-woven fabric on the discharge plate 11, and the cut non-woven fabric is discharged through the inclined end face of the outer side of the discharge plate 11.

Referring to fig. 3, 4 and 6, the slitting unit 13 comprises a pressing plate 131, a pressing cutter 132, a vertical rod 133 and a compression spring 134; the pressing plate 131 is installed on the inner wall of the girder support 10 in a sliding fit manner, a strip-shaped groove is formed in the pressing plate 131, a pressing cutter 132 is arranged on the inner side of the strip-shaped groove in the pressing plate 131, the pressing cutter 132 is installed on the inner wall of the girder support 10 in a sliding fit manner, and the cutting edge of the pressing cutter 132 is arranged in an inclined manner, so that the mobility of a cutting edge shearing point is improved conveniently, the non-woven fabric is cut off continuously and rapidly, and the cutting burrs can be reduced; the top end face of the pressing cutter 132 is connected with the bottom shaft end of the floating rod 142, the pressing cutter 132 is connected with the vertical rod 133 in a sliding fit mode, the vertical rod 133 is symmetrically arranged on the pressing plate 131, the outer ring of the vertical rod 133 is provided with a compression spring 134, and the compression spring 134 is connected between the outer ring of the vertical rod 133 and the end face of the pressing plate 131; support through floating unit 14 and push away the decline to pressing cutter 132, make clamp plate 131 in advance with the terminal surface pressfitting contact of row flitch 11, make the non-woven fabrics compress tightly fixedly, prevent to take place to remove when the cutting, lead to the incision burr to increase and the incision position slope, then continuously support through floating unit 14 and push away the decline to pressing cutter 132, make pressing cutter 132 and holding in the palm cutter 12 crisscross cooperation each other and cut off the non-woven fabrics, montant 133 then leads to the orbit that pressing cutter 132 descends the removal, rethread compression spring 134 supports to push away and resets clamp plate 131 and pressing cutter 132, and compression spring 134 supports when pushing away to clamp plate 131, make clamp plate 131 can contact with the inseparable pressfitting of terminal surface of row flitch 11, can improve the clamping stability when the non-woven fabrics cuts off, prevent to take place to rock.

Referring to fig. 3, 4 and 5, the floating unit 14 includes a C-shaped frame 141, a floating rod 142, a roller 143 and a cylindrical spring 144; the C-shaped frame 141 is arranged on the bottom wall surface of the straight plate 15, and a waist-shaped groove is formed in the C-shaped frame 141 so as to guide the moving track of the floating rod 142 in the vertical direction; the floating rod 142 is installed on the straight plate 15 in a sliding fit mode, the floating rod 142 is connected with a kidney-shaped groove on the C-shaped frame 141 in a sliding fit mode, a roller 143 is installed at the top shaft end of the floating rod 142 through a bearing, the roller 143 is connected with the inclined lower end face of the touch plate 17 in a rolling mode, a cylindrical spring 144 is arranged on the lower end outer ring of the floating rod 142, the cylindrical spring 144 is connected between the lower end outer ring of the floating rod 142 and the end face of the C-shaped frame 141, and the bottom shaft end of the floating rod 142 is connected with the press cutter 132; the inclined end face continuously increased at the lower end of the touch plate 17 pushes against the roller 143, so that the floating rod 142 vertically slides and descends along the guiding direction of the waist-shaped groove on the C-shaped frame 141, the roller 143 contacts with the touch plate 17 to reduce friction resistance, the horizontal translation motion can be smoothly converted into the vertical lifting motion, the cylindrical spring 144 pushes against the floating rod 142, the roller 143 is tightly contacted with the touch plate 17, and the stability of the lifting motion of the floating rod 142 can be improved.

In addition, the invention also provides a method for manufacturing and processing the non-woven fabric handbag, which comprises the following steps:

s1, unreeling and conveying: clamping and fixing the non-woven fabric winding drum through an unwinding device, and carrying out rotary unwinding conveying on the non-woven fabric winding drum;

s2, guiding transmission: the driving roller 21 is driven to rotate by the stepping motor 27, the main gear 24 is meshed with the pinion 23, the driven roller 22 synchronously rotates oppositely, the driving roller 21 rotates the straight gear 25, the straight gear 25 is meshed with the toothed belt 26, so that the plurality of driving rollers 21 and the driven roller 22 synchronously rotate to convey the non-woven fabrics, and the guide unit 28 correctly guides the conveying direction of the non-woven fabrics to prevent deviation;

s3, pressing and slitting: the pressing cutter 132 is pushed and descended through the floating unit 14, the pressing plate 131 is in press-fit contact with the end face of the discharging plate 11 in advance, the non-woven fabric is pressed and fixed, then the pressing cutter 132 is continuously pushed and descended through the floating unit 14, and the pressing cutter 132 and the supporting cutter 12 are in staggered fit with each other to cut off the non-woven fabric;

s4, sewing: the non-woven fabric handbag is manufactured by manually folding the cut non-woven fabric and then sewing the non-woven fabric by a sewing device.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a non-woven fabrics handbag preparation processing equipment, includes cuts mechanism (1), conveying mechanism (2) and bottom plate (3), its characterized in that: bottom plate (3) on install conveying mechanism (2), the left side that is located conveying mechanism (2) is provided with cuts mechanism (1), cuts mechanism (1) and installs on bottom plate (3), wherein:

the slitting mechanism (1) comprises a main beam support (10), a discharging plate (11), a supporting cutter (12), a slitting unit (13), a floating unit (14), a straight plate (15), a sliding rod (16), a touch plate (17) and an execution cylinder (18); the main beam support (10) is arranged on the bottom plate (3), the main beam support (10) is of an H-shaped structure, a discharging plate (11) is arranged on the inner wall of the main beam support (10), a strip-shaped groove is formed in the discharging plate (11), a supporting cutter (12) is arranged on the inner side of the strip-shaped groove in the discharging plate (11), the supporting cutter (12) is arranged on the end face of the main beam support (10), a cutting unit (13) is arranged right above the supporting cutter (12), the cutting unit (13) is arranged on the inner wall of the main beam support (10) in a sliding fit mode, the top end face of the cutting unit (13) is connected with the bottom end of a floating unit (14) mutually, the floating unit (14) is symmetrically arranged on a straight plate (15), the straight plate (15) is arranged on the inner wall of the main beam support (10), a sliding rod (16) is arranged right above the straight plate (15), and the sliding rod (16) is arranged on the upper end of the main beam support (10) in a sliding fit mode, two touch plates (17) which are linearly arranged along the length direction of the slide rod (16) are arranged on the slide rod, the lower end faces of the touch plates (17) are in abutting connection with the floating unit (14), the execution cylinder (18) is installed on the outer wall of the main beam support (10) through a cylinder seat, and the output shaft of the execution cylinder (18) is connected with the shaft end on one side of the slide rod (16) through a joint.

2. The non-woven fabric handbag manufacturing and processing equipment as claimed in claim 1, wherein: the slitting unit (13) comprises a pressing plate (131), a pressing cutter (132), a vertical rod (133) and a compression spring (134); pressing plate (131) install on the inner wall of girder support (10) through the sliding fit mode, the bar groove has been seted up on pressing plate (131), the inboard that is located bar groove on pressing plate (131) is provided with presses cutter (132), press cutter (132) to install on the inner wall of girder support (10) through the sliding fit mode, the top terminal surface and the unit (14) interconnect that floats of pressing cutter (132), and press cutter (132) to pass through sliding fit mode and montant (133) interconnect, install on pressing plate (131) montant (133) symmetry, the outer lane of montant (133) is provided with compression spring (134), compression spring (134) are connected between the outer lane of montant (133) and the terminal surface of pressing plate (131).

3. The non-woven fabric handbag manufacturing and processing equipment as claimed in claim 1, wherein: the floating unit (14) comprises a C-shaped frame (141), a floating rod (142), a roller (143) and a cylindrical spring (144); c shape frame (141) install on the bottom wall of straight board (15), floating rod (142) are installed on straight board (15) through sliding fit, and floating rod (142) are through sliding fit and C shape frame (141) interconnect, the top axle head that is located floating rod (142) installs gyro wheel (143) through the bearing, and gyro wheel (143) are through rolling mode and touch panel (17) interconnect, the lower extreme outer lane of floating rod (142) is provided with cylindrical spring (144), cylindrical spring (144) are connected between the lower extreme outer lane of floating rod (142) and the terminal surface of C shape frame (141), the bottom axle head and the unit of cutting (13) interconnect of floating rod (142).

4. The non-woven fabric handbag manufacturing and processing equipment as claimed in claim 1, wherein: the conveying mechanism (2) comprises a conveying support (20), a driving roller (21), a driven roller (22), a pinion (23), a main gear (24), a straight gear (25), a toothed belt (26), a stepping motor (27) and a guide unit (28); conveying support (20) install on bottom plate (3), be provided with a plurality of drive roll (21) and driven voller (22) that are linear arrangement along its length direction respectively through the bearing on conveying support (20), and drive roll (21) are located driven voller (22) under, install pinion (23) on the axle head of driven voller (22), and pinion (23) are through meshing mode and master gear (24) interconnect, master gear (24) are installed on the axle head outer lane of drive roll (21), the outside that is located master gear (24) is provided with spur gear (25), spur gear (25) are installed on the axle head of drive roll (21), through meshing mode and the toothed belt (26) interconnect that the outer lane set up between spur gear (25), step motor (27) are installed on the outer wall of conveying support (20) through the motor cabinet, and the output shaft of step motor (27) passes through the shaft coupling and the one end axle head of rightmost drive roll (21) on conveying support (20) The heads are connected to each other, and a guide unit (28) is mounted on the conveying support (20).

5. The non-woven fabric handbag manufacturing and processing equipment as claimed in claim 4, wherein: the guide unit (28) comprises a guide rod (281), a bidirectional screw rod (282), a hand wheel (283), a transverse plate (284), a straight rod (285) and a ball (286); the utility model discloses a two-way lead screw, including guide arm (281), be provided with two-way lead screw (282) between guide arm (281) on conveying support (20), two-way lead screw (282) are installed on conveying support (20) through the bearing, be located and install hand wheel (283) through the cotter on the both sides axle head of two-way lead screw (282) respectively, and two-way lead screw (282) are through screw-thread fit mode and diaphragm (284) interconnect, install on guide arm (281) through sliding fit mode symmetry diaphragm (284), the bottom of diaphragm (284) is provided with a plurality of straight-bars (285) that are the linear arrangement along its length direction, be provided with a plurality of balls (286) that are the linear arrangement along its length direction on the lateral wall of straight-bar (285).

6. The non-woven fabric handbag manufacturing and processing equipment as claimed in claim 1, wherein: the lower end face of the touch plate (17) is obliquely arranged.

7. The non-woven fabric handbag manufacturing and processing equipment as claimed in claim 2, wherein: the cutter edge of the pressing cutter (132) is obliquely arranged.

8. The non-woven fabric handbag manufacturing and processing equipment as claimed in claim 3, wherein: the C-shaped frame (141) is provided with a waist-shaped groove.

9. The non-woven fabric handbag manufacturing and processing equipment as claimed in claim 5, wherein: the ball (286) is provided with a guide groove.

10. The non-woven fabric handbag manufacturing and processing equipment as claimed in claim 1, wherein: the non-woven fabric raw material is cut by adopting the non-woven fabric handbag manufacturing and processing equipment, and the specific cutting and processing method comprises the following steps:

s1, unreeling and conveying: clamping and fixing the non-woven fabric winding drum through an unwinding device, and carrying out rotary unwinding conveying on the non-woven fabric winding drum;

s2, guiding transmission: the non-woven fabric is conveyed through the conveying mechanism (2), and the conveying direction of the non-woven fabric is correctly guided, so that deviation is prevented;

s3, pressing and slitting: pre-pressing the non-woven fabric through a splitting mechanism (1), and then cutting the non-woven fabric;

s4, sewing: the non-woven fabric handbag is manufactured by manually folding the cut non-woven fabric and then sewing the non-woven fabric by a sewing device.

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