CN113967936A - Can go up surely of unloading and tie strip machine automatically - Google Patents

Abstract

The invention provides a strip cutting and bundling machine capable of automatically feeding and discharging, which belongs to the technical field of strip cutting and bundling machines and comprises a feeding frame, a swinging orifice plate, a turnover plate, a horizontal limiting groove and a turnover orifice groove, wherein the top end of the feeding frame is fixedly connected with a feeding motor, the output end of the feeding motor is provided with a rotating plate for driving the swinging orifice plate to vertically swing, and the connecting part of the rotating plate and the swinging orifice plate is provided with a driving orifice groove. The automatic feeding and discharging operation of the raw materials is realized.

Description

Can go up surely of unloading and tie strip machine automatically

Technical Field

The invention relates to the field of building board processing, in particular to a strip cutting and bundling machine capable of automatically feeding and discharging.

Background

The strip cutting and bundling machine is a necessary choice for cutting and bundling strips and cutting (rolling) strips in industries such as shoemaking, clothes, bags, shoes and hats, garment accessories, medical supplies, reflective material factories, tent factories, umbrella factories, gift packaging, color flag manufacturing, decorative accessories and the like, and is suitable for cutting, slitting and bundling strips by using various widths of straight strips, 45-degree oblique strips and transverse-line rolling strips of materials such as umbrellas, foam cotton, leather, reflective materials, nylon, chiffon, denim, mesh fabrics, plastic, oxford, non-woven fabrics, double-sided adhesive, acetate cloth and the like.

The problem of unloading in can't automatic unloading appears when present surely binding strip machine uses in the aspect of panel generates, lead to work efficiency low, and surely bind the strip machine and appear unable automatic centering tight problem when using, lead to surely bind the strip machine and cut irregular to panel when using, and surely bind the strip machine and appear unable problem of adjusting cutting width when using, lead to appearing in batches when the product appears unqualifiedly, can not satisfy people's demand, but we provide a for this reason the strip machine of surely binding of unloading automatically.

Disclosure of Invention

The invention provides a strip cutting and bundling machine capable of automatically feeding and discharging, and aims to solve the problems that the automatic feeding and discharging cannot be realized, the automatic centering and clamping cannot be realized, and the cutting width cannot be adjusted in the prior art.

The invention is realized by the following steps: a strip cutting and bundling machine capable of automatically feeding and discharging materials, which comprises a feeding frame, a swing orifice plate, a turnover plate, a horizontal limiting groove and a turnover orifice groove, the top end of the feeding frame is fixedly connected with a feeding motor, the output end of the feeding motor is provided with a rotating plate for driving the swinging orifice plate to swing vertically, a driving hole groove is arranged at the connecting part of the rotating plate and the swinging pore plate, the top end of the swinging pore plate is movably connected with a driving guide post which is used for driving one end of the turnover plate to horizontally slide along the horizontal limiting groove, a driven hole groove is arranged at the connecting part of the driving guide post and the swing hole plate, one end of the turnover plate far away from the driving guide post is screwed with a driven guide post for driving one end of the turnover plate to slide along the turnover hole groove, one end of the driven guide pillar is fixedly connected with a mechanical claw, and the side face of the mechanical claw is positioned on the outer wall of the feeding frame and is fixedly connected with a placing table.

Preferably, the bottom end of the feeding frame is fixedly connected with an equipment main body, the top end of the equipment main body is located on the side face of the feeding frame and is connected with an ejector pin in a sliding mode, one end, far away from the ejector pin, of the equipment main body is fixedly connected with a clamping mechanism, and the side face of the clamping mechanism is located on the top end of the equipment main body and is fixedly connected with a working mechanism.

Preferably, the swing pore plate forms a swing structure between the swing plate and the driving pore groove and the feeding frame, the driving guide pillar forms a sliding structure between the swing pore plate and the driven pore groove and the horizontal limiting groove, the turning pore groove is in an inverted V shape, and the turning plate forms a turning structure between the driven guide pillar and the turning pore groove.

Preferably, clamping mechanism includes telescopic support, playback spring, swing bent plate, telescopic hole board, presss from both sides tight even board, clamp hole board and presss from both sides tight piece, clamping mechanism's inner wall sliding connection has telescopic support, and telescopic support is provided with the playback spring with clamping mechanism's the position of being connected, telescopic support's outer wall swing joint has the swing bent plate that connects soon with the clamping mechanism inner wall, and the position of being connected of swing bent plate and telescopic support is provided with telescopic hole board, the one end swing joint that telescopic hole board was kept away from to the swing bent plate has the tight even board of clamp with clamping mechanism inner wall sliding connection's clamp, and presss from both sides tight even board and the position of being connected of swing bent plate and be provided with the clamp hole board, the tight one end that links the board of clamp extends to clamping mechanism's outside fixedly connected with presss from both sides tight piece.

Preferably, the swing bent plate is provided with three groups, and the position distribution of three groups of swing bent plates becomes the angular circle distribution such as the axis about telescopic prop, the swing bent plate passes through telescopic prop and constitutes revolution mechanic between telescopic orifice plate and the clamping mechanism, and presss from both sides tight even board and constitutes sliding construction through swing bent plate and between clamping orifice plate and the clamping mechanism.

Preferably, the working mechanism comprises a working motor, a rotary table, a sliding orifice plate, a rotating guide pillar, a telescopic box, a telescopic abutting block, a sliding abutting pillar, a sliding frame, an adjusting motor, a driving rotating plate, a driven rotating plate, a limiting orifice plate, a cutting motor, a threaded rod, a threaded slider, a cutting orifice groove, a cutting orifice plate, a connecting sliding pillar and a cutting machine, the outer wall of the working mechanism is fixedly connected with the working motor, the output end of the working motor is provided with the rotary table, the top end of the rotary table is provided with the sliding orifice plate which is in sliding connection with the outer wall of the working mechanism, the connecting part of the sliding orifice plate and the top end edge of the rotary table is provided with the rotating guide pillar, one end of the sliding orifice plate is fixedly connected with the telescopic box, the inner spring of the telescopic box is connected with the telescopic abutting block, the side wall of the telescopic abutting block is tightly attached with the sliding abutting pillar, and one end of the sliding abutting pillar far away from the telescopic abutting block is fixedly connected with the sliding frame which is in sliding connection with the top end of the equipment main body, sliding frame's inner wall fixedly connected with adjustment motor, and the output of adjustment motor installs the initiative and changes the board, the one end that adjustment motor was kept away from to the initiative commentaries on classics board has connect the driven commentaries on classics board soon, and the driven commentaries on classics board keeps away from the one end of initiative commentaries on classics board and has connect the spacing orifice plate with sliding frame inner wall sliding connection soon, sliding frame's outer wall fixedly connected with cutting motor, and the output of cutting motor installs the threaded rod, the outer wall threaded connection of threaded rod has the screw thread slider, and the top fixedly connected with cutting hole groove of screw thread slider, the inner wall swing joint in cutting hole groove has the cutting orifice plate who connects soon with the sliding frame outer wall, and the position swing joint of being connected of cutting orifice plate and spacing orifice plate has the connection traveller, the top fixedly connected with cutting machine of connection traveller.

Preferably, the sliding pore plate forms a reciprocating sliding structure with the working mechanism through the turntable and the rotating guide pillar, the sliding length of the sliding pore plate is equal to the diameter of the turntable, the sliding frame forms an intermittent pushing structure with the equipment main body through the telescopic abutting block and the sliding abutting pillar, and the intermittent pushing length of the sliding frame is equal to the diameter of the turntable.

Preferably, the limiting pore plate forms a sliding structure between the driving rotating plate and the driven rotating plate and the sliding frame, and the sliding length of the limiting pore plate is twice of that of the driving rotating plate.

Preferably, the cutting orifice plate forms a swing structure through between cutting orifice groove and the sliding frame, and the swing angle of cutting orifice plate is 60 °, the connection sliding column forms a sliding structure through between cutting orifice plate and the spacing orifice plate.

When the device provided by the invention is used,

1. through setting up horizontal spacing groove and upset hole groove, in the pay-off frame, the rotor plate rotates and drives the swing orifice plate swing through initiative hole groove, and the swing orifice plate swing drives initiative guide pillar through driven hole groove and follows horizontal spacing groove horizontal slip to make initiative guide pillar motion drive driven guide pillar through the returning face plate and slide along the upset hole groove of falling "V" form, so that driven guide pillar drives the returning face plate and overturns, realize the unloading operation in the automation to the raw materials.

2. Through setting up the tight piece of clamp, in clamping mechanism, telescopic prop horizontal slip drives three synchronous relative rotations of group swing bent plate through three group's telescopic orifice plates, and the swing bent plate rotates and drives through pressing from both sides tight orifice plate and press from both sides tight even board and slide along clamping mechanism's inner wall, and the relative slip that presss from both sides tight even board through three groups drives three group's tight piece synchronous relative slip of clamp, realizes the tight operation of clamp to the raw materials.

3. Through setting up flexible piece and the slip support post of supporting, in operating mechanism, the carousel rotates and drives the outer wall reciprocating sliding of slip orifice plate along operating mechanism through rotatory guide pillar, and slip orifice plate reciprocating sliding drives expansion box reciprocating sliding to make flexible piece support the post through sliding and drive sliding frame along equipment main part top equidistance propelling movement, realize the control operation to sliding frame motion.

4. Through setting up the cutting orifice plate, in sliding frame, the threaded rod rotates and drives the cutting hole groove through the screw slider and slide along sliding frame's outer wall, and the cutting hole groove slides and drives the inner wall slip of connecting the traveller along spacing orifice plate through the cutting orifice plate, connects the traveller motion and drives cutting machine synchronous motion, realizes the cutting operation to the raw materials.

5. Through setting up spacing orifice plate, in sliding frame, the initiative is changeed the board and is rotated and drive spacing orifice plate through driven commentaries on classics board and slide along sliding frame's inner wall, through changing the relative position of spacing orifice plate at sliding frame, realizes the fine setting operation to raw materials cutting width.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts. The above and other objects, features and advantages of the present invention will become more apparent from the accompanying drawings. Like reference numerals refer to like parts throughout the drawings. The drawings are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention.

FIG. 1 is a schematic view of an overall first perspective structure of an apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an overall second perspective structure of the apparatus according to the embodiment of the present invention;

FIG. 3 is a schematic view of a first perspective of a feeding frame of the apparatus according to the embodiment of the present invention;

FIG. 4 is a schematic view of a second perspective of a feeding frame of the apparatus according to the present invention;

FIG. 5 is a schematic view of a first perspective of a clamping mechanism of the apparatus provided by the embodiments of the present invention;

FIG. 6 is a schematic diagram illustrating a second perspective view of a clamping mechanism of the apparatus according to the present invention;

FIG. 7 is a schematic view of a first perspective of an operating mechanism of the apparatus according to the present invention;

fig. 8 is a second perspective structural diagram of the working mechanism of the device according to the embodiment of the invention.

Summary of reference numerals: 1. a feeding frame; 2. a feeding motor; 3. a rotating plate; 4. a swing hole; 5. a driving hole groove; 6. a turnover plate; 7. a horizontal limiting groove; 8. an active guide post; 9. a driven hole groove; 10. turning over the hole groove; 11. a driven guide post; 12. a gripper; 13. a placing table; 14. an apparatus main body; 15. a thimble; 16. a clamping mechanism; 1601. a telescopic strut; 1602. a homing spring; 1603. swinging the bent plate; 1604. a telescopic orifice plate; 1605. clamping the connecting plate; 1606. clamping the orifice plate; 1607. a clamping block; 17. a working mechanism; 1701. a working motor; 1702. a turntable; 1703. sliding the orifice plate; 1704. rotating the guide post; 1705. a telescopic box; 1706. a telescopic resisting block; 1707. sliding the prop; 1708. a slide frame; 1709. adjusting the motor; 1710. actively rotating the plate; 1711. a driven rotating plate; 1712. limiting the pore plate; 1713. cutting the motor; 1714. a threaded rod; 1715. a threaded slider; 1716. cutting a hole groove; 1717. cutting the pore plate; 1718. connecting a sliding column; 1719. a cutting machine.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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 given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

For example, please refer to FIGS. 1-8.

The embodiment provides a strip cutting and bundling machine capable of automatically feeding and discharging, which comprises a feeding frame 1 and a swinging orifice plate 4, the overturning plate 6, horizontal spacing groove 7 and upset hole groove 10, the top fixedly connected with feeding motor 2 of pay-off frame 1, the rotor plate 3 that is used for driving the vertical wobbling of swing orifice plate 4 is installed to feeding motor 2's output, initiative hole groove 5 has been seted up with the position of being connected of swing orifice plate 4 to rotor plate 3, swing orifice plate 4's top swing joint has the one end that is used for driving overturning plate 6 to follow the gliding initiative guide pillar 8 of horizontal spacing groove 7 level, driven hole groove 9 has been seted up with the position of being connected of swing orifice plate 4 to initiative guide pillar 8, the one end that initiative guide pillar 8 was kept away from to overturning plate 6 has connect soon to be used for driving overturning plate 6's one end along the gliding driven guide pillar 11 of upset hole groove 10, the one end fixedly connected with gripper 12 of driven guide pillar, the side of gripper 12 is located feeding frame 1's outer wall fixedly connected with and places platform 13.

Further, the bottom fixedly connected with equipment main part 14 of pay-off frame 1, and the side sliding connection that the top of equipment main part 14 is located pay-off frame 1 has thimble 15, one end fixedly connected with clamping mechanism 16 of thimble 15 is kept away from to equipment main part 14, and the side of clamping mechanism 16 is located the top fixedly connected with operating device 17 of equipment main part 14, through setting up clamping mechanism 16, the realization is to the tight centering operation of raw materials clamp, through setting up operating device 17, be favorable to realizing the equidistance cutting operation and the fine setting operation of cutting width to the raw materials.

Furthermore, the swing orifice plate 4 forms a swing structure with the feeding frame 1 through the rotating plate 3 and the driving orifice groove 5, and the driving guide post 8 forms a sliding structure with the horizontal limiting groove 7 through the swinging pore plate 4 and the driven pore groove 9, the turning pore groove 10 is in an inverted V shape, and the turnover plate 6 forms a turnover structure through the driven guide post 11 and the turnover hole groove 10, which is beneficial for the rotation of the rotating plate 3 to drive the swing orifice plate 4 to swing through the driving hole groove 5, the swing orifice plate 4 swings to drive the driving guide post 8 to horizontally slide along the horizontal limiting groove 7 through the driven hole groove 9, so that the driving guide post 8 moves to drive the driven guide post 11 to slide along the inverted V-shaped inverted hole groove 10 through the overturning plate 6, the driving guide post 8 slides along the horizontal limiting groove 7 and the driven guide post 11 slides along the inverted V-shaped overturning hole groove 10, so that the overturning operation of the overturning plate 6 for 90 degrees is realized.

Further, the clamping mechanism 16 comprises a telescopic strut 1601, a reset spring 1602, a swing bent plate 1603, a telescopic orifice plate 1604, a clamping connecting plate 1605, a clamping orifice plate 1606 and a clamping block 1607, the inner wall of the clamping mechanism 16 is connected with the telescopic strut 1601 in a sliding manner, the reset spring 1602 is arranged at the connecting part of the telescopic strut 1601 and the clamping mechanism 16, the swing bent plate 1603 screwed with the inner wall of the clamping mechanism 16 is movably connected to the outer wall of the telescopic strut 1601, the telescopic orifice plate 1604 is arranged at the connecting part of the swing bent plate 1603 and the telescopic strut 1601, the clamping connecting plate 1605 connected with the inner wall of the clamping mechanism 16 in a sliding manner is movably connected to one end of the swing bent plate 1603 far away from the telescopic orifice plate 1604, the clamping orifice plate 1606 is arranged at the connecting part of the clamping connecting plate 1605 and the swing bent plate 1603, one end of the clamping connecting plate 1605 extends to the external part of the clamping mechanism 16 and is fixedly connected with the clamping block 1607, and by arranging the clamping mechanism 16, be favorable to the raw materials to drive telescopic support 1601 horizontal compression homing spring 1602 through thimble 15, telescopic support 1601 horizontal slip drives three synchronous relative rotations of group swing bent plate 1603 through three group telescopic orifice plates 1604, and swing bent plate 1603 rotates and drives through pressing from both sides tight orifice plate 1606 and press from both sides tight even board 1605 and slide along clamping mechanism 16's inner wall, and the relative slip that presss from both sides even board 1605 through three groups drives three groups and presss from both sides tight piece 1607 synchronous relative slip, realizes the clamping operation to the raw materials.

Further, the swing bent plate 1603 is provided with three groups, the position distribution of the three groups of swing bent plates 1603 is distributed around the central axis of the telescopic strut 1601 in an equal-angle circumference manner, the swing bent plate 1603 forms a rotating structure between the telescopic strut 1601 and the telescopic orifice plate 1604 and the clamping mechanism 16, the clamping connecting plate 1605 forms a sliding structure between the swing bent plate 1603 and the clamping orifice plate 1606 and the clamping mechanism 16, through the three groups of swing bent plates 1603, the telescopic strut 1601 slides horizontally and drives the three groups of swing bent plates 1603 to rotate synchronously and relatively through the three groups of telescopic orifice plates 1604, so that the swing bent plate 1603 rotates to drive the clamping connecting plate 1605 to slide along the inner wall of the clamping mechanism 16 through the clamping orifice plate 1606, and the relative sliding operation of the three groups of clamping connecting plates 1605 is realized.

Further, the working mechanism 17 includes a working motor 1701, a rotating disc 1702, a sliding orifice plate 1703, a rotating guide post 1704, a telescopic box 1705, a telescopic abutting block 1706, a sliding abutting post 1707, a sliding frame 1708, an adjusting motor 1709, a driving rotating plate 1710, a driven rotating plate 1711, a limiting orifice plate 1712, a cutting motor 1713, a threaded rod 1714, a threaded slider 1715, a cutting orifice slot 1716, a cutting orifice plate 1717, a connecting sliding post 1718 and a cutting machine 1719, the outer wall of the working mechanism 17 is fixedly connected with the working motor 1701, the output end of the working motor 1701 is provided with the rotating disc 1702, the top end of the rotating disc 1702 is provided with the sliding orifice plate 1703 slidably connected with the outer wall of the working mechanism 17, the connecting part of the sliding orifice plate 1703 and the top end edge of the rotating disc 1702 is provided with the rotating guide post 1704, one end of the sliding orifice plate 1703 is fixedly connected with the telescopic box 1705, the inner spring of the telescopic box 1705 is connected with the telescopic abutting block 1706, the side wall of the telescopic abutting block 1706 is tightly jointed with the sliding abutting post 1707, and one end of the sliding support column 1707 far away from the telescopic support block 1706 is fixedly connected with a sliding frame 1708 which is connected with the top end of the equipment main body 14 in a sliding way, the inner wall of the sliding frame 1708 is fixedly connected with an adjusting motor 1709, the output end of the adjusting motor 1709 is provided with a driving rotating plate 1710, one end of the driving rotating plate 1710 far away from the adjusting motor 1709 is screwed with a driven rotating plate 1711, one end of the driven rotating plate 1711 far away from the driving rotating plate 1710 is screwed with a limit pore plate 1712 which is connected with the inner wall of the sliding frame 1708 in a sliding way, the outer wall of the sliding frame 1708 is fixedly connected with a cutting motor 1713, the output end of the cutting motor 1713 is provided with a threaded rod 1714, the outer wall of the threaded rod 1714 is connected with a threaded slider 5, the top end of the threaded slider 1715 is fixedly connected with a cutting pore groove 1716, the inner wall of the cutting pore groove 1716 is movably connected with a cutting pore plate 1717 which is screwed with the outer wall of the sliding frame 1708, and the connection part of the cutting pore plate 1717 and the limit pore plate 1712 is movably connected with a connecting sliding column 1718, the top end of the connecting sliding column 1718 is fixedly connected with a cutting machine 1719, a working mechanism 17 is arranged to facilitate the rotation of the turntable 1702 and the reciprocating sliding of the sliding orifice plate 1703 driven by the rotating guide column 1704, the reciprocating sliding of the sliding orifice plate 1703 drives the telescopic box 1705 to slide in a reciprocating manner, so that the telescopic resisting block 1706 drives the sliding frame 1708 to push along the top end of the equipment main body 14 at equal intervals through the sliding resisting column 1707, the control operation of the movement of the sliding frame 1708 is realized, the rotation of the threaded rod 1714 is facilitated, the rotation of the threaded rod 1714 drives the cutting orifice slot 1716 to slide along the outer wall of the sliding frame 1708 through the threaded slider 1715, the sliding of the cutting orifice slot 1716 drives the connecting sliding column 1718 to slide along the inner wall of the limiting orifice plate 1712 through the cutting orifice plate 1717, the connecting sliding column 1718 drives the synchronous movement of the cutting machine 1719 to realize the cutting operation of the raw material, the driving rotating plate 1710 rotates and drives the limiting orifice plate 1712 to slide along the inner wall of the sliding frame 1708 through the driven rotating plate 1711, the relative position of the limiting orifice plate 1712 on the sliding frame 1708 is changed, so that the fine adjustment operation of the cutting width of the raw material is realized.

Further, a reciprocating sliding structure is formed between the sliding orifice plate 1703 and the working mechanism 17 through the turntable 1702 and the rotating guide post 1704, the sliding length of the sliding orifice plate 1703 is equal to the diameter of the turntable 1702, the sliding frame 1708 forms an intermittent pushing structure with the device main body 14 through the telescopic abutting block 1706 and the sliding abutting post 1707, and the intermittent pushing length of the sliding frame 1708 is equal to the diameter of the turntable 1702, so that the turntable 1702 rotates to drive the sliding orifice plate 1703 to slide along the outer wall of the working mechanism 17 in a reciprocating manner through the rotating guide post 1704, and the sliding orifice plate 1703 drives the telescopic box 1705 to slide in a reciprocating manner, so that the telescopic abutting block 1706 drives the sliding frame 1708 to push along the top end of the device main body 14 at equal intervals through the sliding abutting post 1707, and the control operation of the movement of the sliding frame 1708 is realized.

Further, spacing orifice plate 1712 constitutes sliding construction through initiative commentaries on classics board 1710 and from changeing between board 1711 and the sliding frame 1708, and the slip length of spacing orifice plate 1712 is the twice of initiative commentaries on classics board 1710 length, be favorable to initiatively changeing the board 1710 and rotate and drive spacing orifice plate 1712 through from changeing board 1711 and slide along the inner wall of sliding frame 1708, through changing the relative position of spacing orifice plate 1712 at sliding frame 1708, realize the fine setting operation to the raw materials cutting width.

Further, cutting orifice plate 1717 passes through and constitutes swing structure between cutting orifice slot 1716 and the sliding frame 1708, and cutting orifice plate 1717's swing angle is 60, connect between traveller 1718 through cutting orifice plate 1717 and the spacing orifice plate 1712 constitute slide structure, be favorable to cutting orifice slot 1716 to slide and drive the inner wall that connects traveller 1718 and follow spacing orifice plate 1712 through cutting orifice plate 1717 and slide, it drives cutting machine 1719 synchronous motion to connect traveller 1718 motion, the realization is to the cutting operation of raw materials.

As shown in fig. 1-8, when the strip cutting and bundling machine capable of automatically feeding and discharging material is used, firstly, the raw material is placed on a placing table 13, then the raw material is clamped by a gripper 12, then the raw material is automatically fed, in a feeding frame 1, a feeding motor 2 works to drive a rotating plate 3 to rotate, the rotating plate 3 rotates to drive a swinging pore plate 4 to swing through a driving pore groove 5, the swinging pore plate 4 swings to drive a driving guide pillar 8 to horizontally slide along a horizontal limiting groove 7 through a driven pore groove 9, so that the driving guide pillar 8 moves to drive a driven guide pillar 11 to slide along an inverted "V" -shaped overturning pore groove 10 through an overturning plate 6, and the driving guide pillar 8 slides along the horizontal limiting groove 7 and the driven guide pillar 11 slides along the inverted "V" -shaped overturning pore groove 10, thereby realizing the 90-degree control operation of overturning plate 6.

Then, the raw material is fed into the clamping mechanism 16 through the thimble 15, in the clamping mechanism 16, the raw material drives the telescopic strut 1601 to horizontally compress the return spring 1602 through the thimble 15, the telescopic strut 1601 horizontally slides and drives the three sets of swinging bent plates 1603 to synchronously rotate relatively through the three sets of telescopic orifice plates 1604, the swinging bent plates 1603 rotate and drive the clamping connecting plates 1605 to slide along the inner wall of the clamping mechanism 16 through the clamping orifice plates 1606, and the three sets of clamping blocks 1607 are driven to synchronously slide relatively through the relative sliding of the three sets of clamping connecting plates 1605, so that the clamping operation of the raw material is realized.

Then, equidistant pushing operation is performed on the sliding frame 1708, in the working mechanism 17, the working motor 1701 works to drive the rotating disc 1702 to rotate, so that the rotating disc 1702 rotates to drive the sliding hole plate 1703 to slide back and forth along the outer wall of the working mechanism 17 through the rotating guide post 1704, the sliding hole plate 1703 slides back and forth to drive the telescopic box 1705 to slide back and forth, so that the telescopic abutting block 1706 drives the sliding frame 1708 to push equidistantly along the top end of the device main body 14 through the sliding abutting column 1707, and the control operation of the movement of the sliding frame 1708 is realized.

Then, the raw material is cut, in the sliding frame 1708, the cutting motor 1713 works to drive the threaded rod 1714 to rotate, so that the threaded rod 1714 rotates to drive the cutting hole 1716 to slide along the outer wall of the sliding frame 1708 through the threaded sliding block 1715, the cutting hole 1716 slides to drive the connecting sliding column 1718 to slide along the inner wall of the limiting hole plate 1712 through the cutting hole plate 1717, and the connecting sliding column 1718 moves to drive the cutting machine 1719 to move synchronously, so that the raw material is cut.

Finally, finely tune the operation to raw materials cutting width, in sliding frame 1708, adjustment motor 1709 work drives initiative commentaries on classics board 1710 and rotates, so that initiative commentaries on classics board 1710 rotates and drives spacing orifice plate 1712 through from changeing board 1711 and slide along sliding frame 1708's inner wall, through changing the relative position of spacing orifice plate 1712 at sliding frame 1708, realize the fine setting operation to raw materials cutting width, then swing orifice plate 4 continues the swing, the raw materials after will processing carries out the unloading operation.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a but cut of unloading and tie strip machine automatically, includes pay-off frame (1), swing orifice plate (4), returning face plate (6), horizontal spacing groove (7) and upset hole groove (10), its characterized in that: the top end of the feeding frame (1) is fixedly connected with a feeding motor (2), the output end of the feeding motor (2) is provided with a rotating plate (3) used for driving the swinging pore plate (4) to vertically swing, the connecting part of the rotating plate (3) and the swinging pore plate (4) is provided with a driving pore groove (5), the top end of the swinging pore plate (4) is movably connected with a driving guide pillar (8) used for driving one end of the turnover plate (6) to horizontally slide along the horizontal limiting groove (7), the connecting part of the driving guide pillar (8) and the swinging pore plate (4) is provided with a driven pore groove (9), one end of the turnover plate (6) far away from the driving guide pillar (8) is rotatably connected with a driven guide pillar (11) used for driving one end of the turnover plate (6) to slide along the turnover pore groove (10), one end of the driven guide pillar (11) is fixedly connected with a mechanical claw (12), the side surface of the mechanical claw (12) is positioned on the outer wall of the feeding frame (1) and is fixedly connected with a placing table (13).

2. The slitter capable of feeding and discharging automatically as claimed in claim 1, wherein: the bottom fixedly connected with equipment main part (14) of pay-off frame (1), and the side sliding connection that the top of equipment main part (14) is located pay-off frame (1) has thimble (15), one end fixedly connected with clamping mechanism (16) of thimble (15) are kept away from in equipment main part (14), and the side of clamping mechanism (16) is located the top fixedly connected with operating mechanism (17) of equipment main part (14).

3. The slitter capable of feeding and discharging automatically as claimed in claim 1, wherein: swing pore plate (4) constitute swing structure through between rotor plate (3) and initiative hole groove (5) and pay-off frame (1), and constitute sliding construction between initiative guide pillar (8) and horizontal spacing groove (7) through swing pore plate (4) and driven hole groove (9), upset hole groove (10) are "V" form, and upset structure is formed through between driven guide pillar (11) and upset hole groove (10) in returning face plate (6).

4. The slitter capable of feeding and discharging automatically as claimed in claim 2, wherein: the clamping mechanism (16) comprises a telescopic support pillar (1601), a reset spring (1602), a swinging bent plate (1603), a telescopic orifice plate (1604), a clamping connecting plate (1605), a clamping orifice plate (1606) and a clamping block (1607), wherein the inner wall of the clamping mechanism (16) is connected with the telescopic support pillar (1601) in a sliding manner, the reset spring (1602) is arranged at the connecting part of the telescopic support pillar (1601) and the clamping mechanism (16), the swinging bent plate (1603) which is connected with the inner wall of the clamping mechanism (16) in a screwing manner is movably connected to the outer wall of the telescopic support pillar (1601), the telescopic orifice plate (1604) is arranged at the connecting part of the swinging bent plate (1603) and the telescopic support pillar (1601), the clamping connecting plate (1605) which is connected with the inner wall of the clamping mechanism (16) in a sliding manner is movably connected to one end, far away from the telescopic orifice plate (1603), of the swinging bent plate (1603), and the clamping connecting plate (1605) and the clamping orifice plate (1603) are provided with the clamping orifice plate (1606), one end of the clamping connecting plate (1605) extends to the outside of the clamping mechanism (16) and is fixedly connected with a clamping block (1607).

5. The slitter capable of feeding and discharging automatically as claimed in claim 4, wherein: swing bent plate (1603) is provided with three groups, and the position distribution of three groups of swing bent plate (1603) becomes equal angle circumference distribution about the axis of telescopic strut (1601), swing bent plate (1603) constitutes revolution mechanic through between telescopic strut (1601) and telescopic orifice plate (1604) and clamping mechanism (16), and presss from both sides tight even board (1605) and constitutes sliding construction through between swing bent plate (1603) and clamping orifice plate (1606) and clamping mechanism (16).

6. The slitter capable of feeding and discharging automatically as claimed in claim 2, wherein: the working mechanism (17) comprises a working motor (1701), a turntable (1702), a sliding pore plate (1703), a rotating guide column (1704), a telescopic box (1705), a telescopic abutting block (1706), a sliding abutting column (1707), a sliding frame (1708), an adjusting motor (1709), a driving rotating plate (1710), a driven rotating plate (1711), a limiting pore plate (1712), a cutting motor (1713), a threaded rod (1714), a threaded slider (1715), a cutting pore groove (1716), a cutting pore plate (1717), a connecting sliding column (1718) and a cutting machine (1719), wherein the outer wall of the working mechanism (17) is fixedly connected with the working motor (1701), the turntable (1702) is installed at the output end of the working motor (1701), the sliding pore plate (1703) which is in sliding connection with the outer wall of the working mechanism (17) is arranged at the top end of the turntable (1702), and the rotating guide column (1704) is arranged at the connection part of the sliding pore plate (1703) and the top end edge of the turntable (1702), the one end fixedly connected with expansion box (1705) of slip orifice plate (1703), and the inside spring coupling of expansion box (1705) is flexible to piece (1706), the lateral wall that flexible to piece (1706) is closely laminated with slides and is supported post (1707), and slide to the post (1707) keep away from the one end fixedly connected with of flexible support piece (1706) and equipment main part (14) top sliding connection's slip frame (1708), the inner wall fixedly connected with adjusting motor (1709) of slip frame (1708), and the output of adjusting motor (1709) installs initiative commentaries on classics board (1710), the one end that adjusting motor (1709) were kept away from to initiative commentaries on classics board (1710) has connect soon from commentaries on classics board (1711), and from changeing board (1711) keeping away from the one end of initiative commentaries on classics board (1710) and have soon connect 1708) inner wall sliding connection's spacing orifice plate (1712), the outer wall fixedly connected with cutting motor (1713) of slip frame (1708), and threaded rod (1714) are installed to the output of cutting motor (1713), the outer wall threaded connection of threaded rod (1714) has screw slider (1715), and the top fixedly connected with cutting hole groove (1716) of screw slider (1715), the inner wall swing joint of cutting hole groove (1716) has cutting orifice plate (1717) of connecing soon with sliding frame (1708) outer wall, and cutting orifice plate (1717) and the connection position swing joint of spacing orifice plate (1712) have connection traveller (1718), the top fixedly connected with cutting machine (1719) of connecting traveller (1718).

7. The slitter capable of feeding and discharging automatically as claimed in claim 6, wherein: the sliding orifice plate (1703) forms a reciprocating sliding structure with the working mechanism (17) through the turntable (1702) and the rotating guide post (1704), the sliding length of the sliding orifice plate (1703) is equal to the diameter of the turntable (1702), the sliding frame (1708) forms an intermittent pushing structure with the equipment main body (14) through the telescopic abutting block (1706) and the sliding abutting post (1707), and the intermittent pushing length of the sliding frame (1708) is equal to the diameter of the turntable (1702).

8. The slitter capable of feeding and discharging automatically as claimed in claim 6, wherein: spacing orifice plate (1712) constitute sliding construction through initiative commentaries on classics board (1710) and driven commentaries on classics board (1711) and sliding frame (1708) between, and the slip length of spacing orifice plate (1712) is the twice of initiative commentaries on classics board (1710) length.

9. The slitter capable of feeding and discharging automatically as claimed in claim 6, wherein: cutting orifice plate (1717) constitute swing structure through between cutting orifice groove (1716) and sliding frame (1708), and the swing angle of cutting orifice plate (1717) is 60, connect traveller (1718) and constitute slide structure through cutting between orifice plate (1717) and spacing orifice plate (1712).

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