CN215251919U - Non-woven cloth bag processing and positioning cutting machine - Google Patents

Abstract

The utility model discloses a non-woven bag processing location guillootine, including workstation and conveying mechanism, the workstation: the upper surface middle part is equipped with the support frame, is equipped with electric putter in the mounting hole of support frame upper surface, and electric putter's flexible end lower extreme is equipped with cuts the sword, and the upper surface middle part of workstation is equipped with the sword frid, and the sword groove on the frid with cut the vertical correspondence of sword, both ends all are equipped with the recess about the upper surface of workstation, the inside electric drum conveyer belt that is equipped with of left recess, conveying mechanism: set up in the upper surface left end of workstation, wherein: still include the PLC controller, the PLC controller sets up in the front surface right-hand member of workstation, and this non-woven bag processing location guillootine conveniently fixes the position of material, avoids the material to take place the skew cutting with the in-process position of carrying, makes the position of tailorring more accurate, guarantees to tailor the quality.

Description

Non-woven cloth bag processing and positioning cutting machine

Technical Field

The utility model relates to a cloth processing equipment technical field specifically is a non-woven sack processing location guillootine.

Background

The non-woven fabric is a non-woven fabric, which is a novel fiber product with soft, breathable and plane structure formed by directly utilizing high polymer slices, short fibers or filaments through various fiber web forming methods and consolidation techniques, and the bag made of the non-woven fabric has the advantages of low price, high quality, environmental protection, practicality and wide application compared with the traditional plastic bag, and the non-woven fabric bag has an outstanding advertisement position, is suitable for various business activities and exhibition and sales meetings, and is an ideal advertisement promotion gift for enterprises and public institutions.

In the process of processing a non-woven fabric bag, a non-woven fabric raw material is usually required to be cut to a certain length, then the surface of the cut non-woven fabric is printed, and finally the non-woven fabric is sewn to form a bag, wherein the surface of a material is cut by a cutting knife in a common cutting mode.

Traditional mode of cutting, at the in-process that cuts, the position of material produces the change easily, influences the effect of cutting, and the removal in-process of material moreover, the skew appears in the position easily, reduces the accuracy that the material cut, for this reason, we provide a non-woven bag processing location guillootine.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a non-woven sack processing location guillootine, avoid the material to take place the position at the in-process that cuts and remove, avoid the material to take place the skew at the in-process position of carrying, improve the effect that cuts of material, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a non-woven cloth bag processing and positioning cutting machine comprises a workbench and a conveying mechanism;

a workbench: a support frame is arranged in the middle of the upper surface of the support frame, an electric push rod is arranged in a mounting hole in the upper surface of the support frame, a cutting knife is arranged at the lower end of the telescopic end of the electric push rod, a knife groove plate is arranged in the middle of the upper surface of the workbench, a knife groove on the knife groove plate vertically corresponds to the cutting knife, grooves are formed in the left end and the right end of the upper surface of the workbench, and an electric roller conveyor belt is arranged in the left groove;

the conveying mechanism comprises: the left end of the upper surface of the workbench;

wherein: still include the PLC controller, the PLC controller sets up in the front surface right-hand member of workstation, and the input electricity of PLC controller is connected in external power source, and electric putter and the input electricity of motorized pulley conveyer belt all connect in the output of PLC controller, conveniently fix the position of material, avoid the material to take place the position removal at the in-process that cuts, improve the effect of cutting of material, conveniently carry out the centre gripping to the material, improve the centre gripping effect, avoid the material to take place the skew at the in-process position of carrying, make the position of tailorring more accurate.

Further, conveying mechanism includes spout, slider, transport roller and install bin, the install bin symmetry sets up in the upper surface left end of workstation, and the equal transverse array of the relative medial surface of two install bins is provided with the spout, and the equal vertical sliding connection in inside of spout has the slider, all is connected with the transport roller through the pivot rotation between two sliders that vertically correspond, carries the roller respectively with the vertical correspondence of the cylinder on the motorized pulley conveyer belt, carries the material.

Further, conveying mechanism still includes spring and connecting plate, the connecting plate is vertical sliding connection respectively between the inner wall around the install bin, and horizontal distribution's three slider all with adjacent connecting plate fixed connection, the equal horizontal array in upper surface of connecting plate is provided with the spring, the upper end of spring respectively with the install bin upside inner wall fixed connection of vertical correspondence, conveniently carry out the centre gripping to the material, avoid the material to take place the offset in transportation process.

Further, conveying mechanism still includes the double-screw bolt, threaded connection is in the threaded hole in the middle part of the installation box upper surface respectively to the double-screw bolt, and the lower extreme of double-screw bolt passes vertical corresponding connecting plate through-hole respectively and is equipped with spacing dish, and the upper end of double-screw bolt all is equipped with the knob, conveniently adjusts the position of carrying the roller.

Further, conveying mechanism still includes the spiral rubber sleeve, the spiral rubber sleeve sets up in the conveying roller extrados face in centre, and the screw thread opposite direction at both ends around the spiral rubber sleeve levels the surface of material, avoids the material fold to appear in transportation process.

Further, the upper surface right-hand member of workstation is equipped with the frame plate, and the inside of frame plate is equipped with ejection of compact motorized pulley conveyer belt, all is connected with the ejection of compact roller through the pivot rotation around the recess on right side between the inner wall, and the extrados upper end of ejection of compact roller respectively with the outer cambered surface lower extreme laminating of the rotary drum of ejection of compact motorized pulley conveyer belt vertical correspondence, the input electricity of ejection of compact motorized pulley conveyer belt is connected in the output of PLC controller, carries out the centre gripping to the right-hand member of removal in-process material and carries.

Furthermore, the support plate is symmetrically arranged at the upper end of the left side face of the workbench, the left end of the support plate at the front side is provided with a thread fixing hole, the thread fixing hole is in threaded connection with a thread ring at the front end of the sleeve column, and the rear end of the sleeve column is located in a rotary hole in the front surface of the support plate at the rear side, so that the material barrel can be conveniently and fixedly installed.

Further, be equipped with photoelectric sensor in the mounting hole of sword groove board upper surface right-hand member, photoelectric sensor's output electricity is connected in the input of PLC controller, detects the position of material.

Compared with the prior art, the beneficial effects of the utility model are that: this non-woven bag processing location guillootine has following benefit:

1. sleeving a material barrel on a barrel column, enabling materials on the material barrel to pass through a position between the lower end of an outer arc surface of a conveying roller and the upper surface of an electric roller conveyer belt, then clamping the surface of the materials by rotating a knob at the upper end of a stud, starting the electric roller conveyer belt through a PLC (programmable logic controller), conveying the materials to the right, sending a signal to the PLC by a photoelectric sensor when the photoelectric sensor senses the materials, controlling the starting of the discharging electric roller conveyer belt by the PLC, and clamping and conveying the right end of the materials to the right by matching the discharging electric roller conveyer belt and a discharging roller because the upper surface of the electric roller conveyer belt, the upper surface of a knife groove plate and the uppermost end of the outer arc surface of the discharging roller are positioned in the same plane in the process of moving the materials to the right, wherein the right end of the materials enters a position between the lower surface of the discharging electric roller conveyer belt and the upper end of the outer arc surface of the discharging roller, PLC controller cuts length according to the translation rate of material and preset, stop motorized pulley conveyer belt and ejection of compact motorized pulley conveyer belt after the definite time, both ends all receive the centre gripping about the material this moment, make the rigidity of material, start electric putter, electric putter's flexible end promotes cuts sword lapse, through with cut sword and the sword groove cooperation on the sword groove board, cut the material, the convenience is fixed the position of material, avoid the material to take place the position removal at the in-process that cuts, improve the effect that cuts of material.

2. At the in-process that the connecting plate removed, under the elastic force effect of spring, give the decurrent thrust of connecting plate all the time, make the more stable that the connecting plate removed, conveniently carry out the centre gripping to the material, improve centre gripping effect, avoid the material to take place the skew at the in-process position of carrying, make the position of tailorring more accurate.

Drawings

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

FIG. 2 is a schematic structural view of the rear side of the workbench of the present invention;

fig. 3 is a schematic structural view of the conveying mechanism of the present invention;

fig. 4 is a schematic view of the internal structure of the frame plate of the present invention;

fig. 5 is an enlarged schematic view of the a position of the present invention.

In the figure: 1 workbench, 2 discharging electric roller conveyer belts, 3 grooves, 4 electric roller conveyer belts, 5 cutting knives, 6 discharging rollers, 7 conveying mechanisms, 71 springs, 72 connecting plates, 73 sliding grooves, 74 sliding blocks, 75 studs, 76 conveying rollers, 77 spiral rubber sleeves, 78 mounting boxes, 8 frame plates, 9 knife groove plates, 10PLC controllers, 11 supporting frames, 12 electric push rods, 13 supporting plates, 14 sleeve columns, 15 thread fixing holes and 16 photoelectric sensors.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present embodiment provides a technical solution: a non-woven cloth bag processing and positioning cutting machine comprises a workbench 1 and a conveying mechanism 7;

a workbench 1: the middle part of the upper surface of the worktable 1 is provided with a support frame 11 for supporting the arrangement of cutting parts, an electric push rod 12 is arranged in a mounting hole on the upper surface of the support frame 11, the lower end of the telescopic end of the electric push rod 12 is provided with a cutting knife 5, the middle part of the upper surface of the worktable 1 is provided with a knife slot plate 9, a knife slot on the knife slot plate 9 vertically corresponds to the cutting knife 5, the electric push rod 12 is started, the telescopic end of the electric push rod 12 pushes the cutting knife 5 to move downwards to cut materials by matching with the knife slot on the cutting knife 5 and the knife slot plate 9, the left end and the right end of the upper surface of the worktable 1 are both provided with grooves 3, an electric roller conveyer belt 4 is arranged inside the left groove 3 to convey the materials, the right end of the upper surface of the worktable 1 is provided with a frame plate 8, an electric roller conveyer belt 2 is arranged inside the frame plate 8, and a discharging roller 6 is rotationally connected between the front inner wall and the rear wall of the right groove 3, the upper end of the outer arc surface of the discharging roller 6 is respectively jointed with the lower end of the outer arc surface of the roller vertically corresponding to the discharging electric roller conveyer belt 2, the input end of the discharging electric roller conveyer belt 2 is electrically connected with the output end of the PLC 10, the discharging electric roller conveyer belt 2 is started, because the upper surface of the electric roller conveyer belt 4, the upper surface of the knife slot plate 9 and the uppermost end of the outer arc surface of the discharging roller 6 are positioned in the same plane, during the rightward movement of the material, the right end of the material enters between the lower surface of the discharging electric roller conveyer belt 2 and the upper end of the outer arc surface of the discharging roller 6, the right end of the material is clamped and conveyed rightwards through the matching of the discharging electric roller conveyer belt 2 and the discharging roller 6, the upper end of the left side surface of the workbench 1 is symmetrically provided with a support plate 13, the left end of the support plate 13 at the front side is provided with a thread fixing hole 15, the thread fixing hole 15 is in threaded connection with a thread ring at the front end of a sleeve column 14, the rear end of the sleeve column 14 is positioned in a front surface rotary hole of a support plate 13 on the rear side, the sleeve column 14 is rotated, the sleeve column 14 is drawn out from a thread fixing hole 15, a material cylinder is placed between the two support plates 13, the sleeve column 14 is inserted into the thread fixing hole 15 again, the left end of the sleeve column 14 penetrates through the inside of the material cylinder and enters the front surface rotary hole of the support plate 13 on the rear side, the sleeve column 14 is rotated reversely, the position of the sleeve column 14 is fixed through threaded connection of the front end of the sleeve column 14 and the thread fixing hole 15, the material cylinder is convenient to install and fix, a photoelectric sensor 16 is arranged in an installation hole at the right end of the upper surface of the knife groove plate 9, and the output end of the photoelectric sensor 16 is electrically connected with the input end of the PLC 10 to detect the position of a material;

the conveying mechanism 7: the conveying mechanism 7 comprises a sliding groove 73, sliding blocks 74, conveying rollers 76 and mounting boxes 78, the mounting boxes 78 are symmetrically arranged at the left end of the upper surface of the workbench 1, the sliding grooves 73 are transversely arranged on the opposite inner side surfaces of the two mounting boxes 78 in an array manner, the sliding blocks 74 are vertically and slidably connected inside the sliding grooves 73, the conveying rollers 76 are rotatably connected between the two vertically corresponding sliding blocks 74 through rotating shafts, the conveying rollers 76 vertically correspond to the rollers on the electric roller conveyor belt 4 respectively, the conveying mechanism 7 further comprises springs 71 and connecting plates 72, the connecting plates 72 are vertically and slidably connected between the front inner wall and the rear inner wall of the mounting boxes 78 respectively, the three sliding blocks 74 which are transversely distributed are fixedly connected with the adjacent connecting plates 72, the springs 71 are transversely arranged on the upper surfaces of the connecting plates 72 in an array manner, and the upper ends of the springs 71 are fixedly connected with the upper inner walls of the vertically corresponding mounting boxes 78 respectively, the conveying mechanism 7 further comprises a stud 75, the studs 75 are respectively in threaded connection with threaded holes in the middle of the upper surface of the mounting box 78, the lower end of the stud 75 penetrates through holes of the connecting plates 72 corresponding to the vertical direction and is provided with a limiting disc, the upper ends of the studs 75 are provided with knobs, the conveying mechanism 7 further comprises a spiral rubber sleeve 77, the spiral rubber sleeve 77 is arranged on the outer arc surface of the conveying roller 76 in the middle, the thread directions of the front end and the rear end of the spiral rubber sleeve 77 are opposite, the knobs on the upper ends of the studs 75 are rotated to be in threaded connection with the threaded holes in the upper surface of the mounting box 78 through the studs 75, the studs 75 move upwards, the limiting discs arranged at the lower ends of the studs 75 drive the connecting plates 72 to move upwards, the springs 71 contract, materials on the material barrels pass between the lower ends of the outer arc surface of the conveying roller 76 and the upper surface of the electric roller conveyor belt 4, then the knobs at the upper ends of the studs 75 are rotated reversely to reset the limiting discs at the lower ends of the studs 75, under the action of the elastic force of the spring 71, downward thrust is given to the connecting plate 72, the connecting plate 72 drives the sliding block 74 and the conveying roller 76 to move downwards, the conveying roller 76 is matched with the electric roller conveying belt 4 to clamp materials, the position of the materials in the conveying process is prevented from deviating, the cutting position is more accurate, the electric roller conveying belt 4 is started through the PLC 10 to convey the materials rightwards, the spiral rubber sleeve 77 rotates to generate two thrust forces in opposite directions on the surfaces of the materials in the conveying process, the materials are unfolded in the front-back direction, the surfaces of the materials are more flat, wrinkles are prevented from appearing on the surfaces of the materials, and subsequent cutting is facilitated;

wherein: still include PLC controller 10, PLC controller 10 sets up in the front surface right-hand member of workstation 1, and the input electricity of PLC controller 10 is connected in external power source, and electric putter 12 and motorized pulley conveyer belt 4's input all electricity are connected in the output of PLC controller 10, the start-up and the stop of control overall device.

The utility model provides a pair of nonwoven sack processing location guillootine's theory of operation as follows: in the using process, the sleeve column 14 is rotated, the sleeve column 14 is drawn out from the thread fixing hole 15, the material barrel is placed between the two support plates 13, the sleeve column 14 is inserted into the thread fixing hole 15 again, the left end of the sleeve column 14 penetrates through the material barrel and enters the front surface rotary hole of the support plate 13 at the rear side, the sleeve column 14 is rotated reversely, the position of the sleeve column 14 is fixed through the threaded connection of the front end of the sleeve column 14 and the thread fixing hole 15, the knob at the upper end of the stud 75 is rotated, the stud 75 is moved upwards through the threaded connection of the stud 75 and the threaded hole on the upper surface of the mounting box 78, the connecting plate 72 is driven to move upwards through the limiting disc arranged at the lower end of the stud 75, the spring 71 contracts to drive the sliding block 74 and the conveying roller 76 to move upwards, and the material on the material barrel penetrates between the lower end of the outer cambered surface of the conveying roller 76 and the upper surface of the electric roller conveying belt 4, then, a knob at the upper end of the stud 75 is rotated reversely, so that a limiting disc at the lower end of the stud 75 is reset, a downward thrust is given to the connecting plate 72 under the action of the elastic force of the spring 71, the connecting plate 72 drives the sliding block 74 and the conveying roller 76 to move downwards, the materials are clamped through the matching of the conveying roller 76 and the electric roller conveying belt 4, the position deviation of the materials in the conveying process is avoided, the cutting position is more accurate, the electric roller conveying belt 4 is started through the PLC 10 to convey the materials to the right, the spiral rubber sleeve 77 rotates to generate two thrusts in opposite directions on the surface of the materials in the conveying process, the materials are unfolded in the front-back direction, the surface of the materials is more flat, the wrinkles are prevented from appearing on the surface of the materials, the subsequent cutting is convenient, when the photoelectric sensor 16 senses the materials, the photoelectric sensor 16 sends signals to the PLC 10, the PLC 10 controls the starting of the discharging electric roller conveyer belt 2, because the upper surface of the electric roller conveyer belt 4, the upper surface of the knife slot plate 9 and the uppermost end of the outer arc surface of the discharging roller 6 are positioned in the same plane, in the process of moving the material to the right, the right end of the material enters between the lower surface of the discharging electric roller conveyer belt 2 and the upper end of the outer arc surface of the discharging roller 6, the right end of the material is clamped and conveyed to the right through the matching of the discharging electric roller conveyer belt 2 and the discharging roller 6, the PLC 10 stops the electric roller conveyer belt 4 and the discharging electric roller conveyer belt 2 after a certain time according to the moving speed and the preset cutting length of the material, the left end and the right end of the material are clamped, the position of the material is fixed, the electric push rod 12 is started, the telescopic end of the electric push rod 12 pushes the cutting knife 5 to move downwards through matching with the knife slot on the cutting knife 5 and the knife slot plate 9, cut the material, cut and accomplish the back, start ejection of compact motorized pulley conveyer belt 2, through the cooperation with ejection of compact roller 6, the material after will cutting is carried right.

It should be noted that the PLC controller 10 disclosed in the above embodiment may be a PLC controller of TPC8-8TD type, the electric push rod 12 and the photoelectric sensor 16 may be freely configured according to the actual application scenario, the electric push rod 12 may be an ANT-52 type electric push rod, the photoelectric sensor 16 may be a reflective photoelectric sensor of KR3630 type, and the PLC controller 10 controls the electric push rod 12 and the photoelectric sensor 16 to work by a method commonly used in the prior art.

The above is only the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention can be used in other related technical fields, directly or indirectly, or in the same way as the present invention.

Claims (8)

1. The utility model provides a non-woven sack processing location guillootine which characterized in that: comprises a workbench (1) and a conveying mechanism (7);

table (1): a support frame (11) is arranged in the middle of the upper surface of the support frame (11), an electric push rod (12) is arranged in a mounting hole in the upper surface of the support frame (11), a cutting knife (5) is arranged at the lower end of the telescopic end of the electric push rod (12), a knife groove plate (9) is arranged in the middle of the upper surface of the workbench (1), a knife groove on the knife groove plate (9) vertically corresponds to the cutting knife (5), grooves (3) are formed in the left end and the right end of the upper surface of the workbench (1), and an electric roller conveyor belt (4) is arranged in the left groove (3);

conveying mechanism (7): is arranged at the left end of the upper surface of the workbench (1);

wherein: still include PLC controller (10), PLC controller (10) set up in the front surface right-hand member of workstation (1), and the input electricity of PLC controller (10) is connected in external power source, and the input of electric putter (12) and motorized pulley conveyer belt (4) all connects in the output of PLC controller (10).

2. The non-woven bag processing and positioning cutting machine according to claim 1, characterized in that: conveying mechanism (7) include spout (73), slider (74), carry roller (76) and install bin (78), install bin (78) symmetry sets up in the upper surface left end of workstation (1), and the equal transverse array of the relative medial surface of two install bins (78) is provided with spout (73), and the equal vertical sliding connection in inside of spout (73) has slider (74), all is connected with through the pivot rotation between two sliders (74) that vertically correspond and carries roller (76), carries roller (76) respectively with the vertical correspondence of the cylinder on electric drum conveyer belt (4).

3. The non-woven fabric bag processing, positioning and cutting machine according to claim 2, characterized in that: conveying mechanism (7) still include spring (71) and connecting plate (72), connecting plate (72) vertical sliding connection respectively between the front and back inner wall of install bin (78), three slider (74) of horizontal distribution all with adjacent connecting plate (72) fixed connection, the equal horizontal array of upper surface of connecting plate (72) is provided with spring (71), the upper end of spring (71) respectively with vertical install bin (78) upside inner wall fixed connection that corresponds.

4. The non-woven fabric bag processing, positioning and cutting machine according to claim 3, characterized in that: conveying mechanism (7) still include double-screw bolt (75), double-screw bolt (75) threaded connection is in the screw hole in the middle part of install bin (78) upper surface respectively, and the lower extreme of double-screw bolt (75) passes vertical corresponding connecting plate (72) through-hole respectively and is equipped with spacing dish, and the upper end of double-screw bolt (75) all is equipped with the knob.

5. The non-woven fabric bag processing, positioning and cutting machine according to claim 2, characterized in that: conveying mechanism (7) still include spiral rubber sleeve (77), spiral rubber sleeve (77) set up in the outer cambered surface of middle transport roller (76), and the screw thread opposite direction at both ends around spiral rubber sleeve (77).

6. The non-woven bag processing and positioning cutting machine according to claim 1, characterized in that: the upper surface right-hand member of workstation (1) is equipped with frame plate (8), and the inside of frame plate (8) is equipped with ejection of compact motorized pulley conveyer belt (2), all is connected with ejection of compact roller (6) through the pivot rotation around recess (3) on right side between the inner wall, the outer cambered surface upper end of ejection of compact roller (6) respectively with ejection of compact motorized pulley conveyer belt (2) go up the laminating of vertical corresponding rotary drum outer cambered surface lower extreme, the input electricity of ejection of compact motorized pulley conveyer belt (2) is connected in the output of PLC controller (10).

7. The non-woven bag processing and positioning cutting machine according to claim 1, characterized in that: support plate (13) are symmetrically arranged at the upper end of the left side face of the workbench (1), a thread fixing hole (15) is formed in the left end of the support plate (13) at the front side, the thread fixing hole (15) is in threaded connection with a thread ring at the front end of a sleeve column (14), and the rear end of the sleeve column (14) is located in a rotary hole in the front surface of the support plate (13) at the rear side.

8. The non-woven bag processing and positioning cutting machine according to claim 1, characterized in that: and a photoelectric sensor (16) is arranged in the mounting hole at the right end of the upper surface of the knife slot plate (9), and the output end of the photoelectric sensor (16) is electrically connected with the input end of the PLC (10).

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