CN112518829A - Plastic woven sack leftover bits retrieval and utilization device - Google Patents

Abstract

The utility model provides a plastic woven sack leftover bits retrieval and utilization device, includes: the device comprises a device bracket, wherein a material roll feeding table is arranged at the upper part of the device bracket, and a feeding pair roller is arranged on one side of the material roll feeding table; the pressboard lies in that the lower plate is to closing to weave the material and carry out the coining back, the waste material of production can be moved to weaving the material both sides under the suction of wind fill, when the lower plate overturns once more, the closing plate scraping wind fill of drive lower plate both sides, push the absorbent waste material of wind fill port to the garbage collection fill in, the inside crushing pole that is provided with of garbage collection fill, utilize crushed aggregates motor to drive the rotation of crushing pole, carry out the breakage with the waste material, the waste material after the breakage sends into to former feed bin through screw conveyer again so that reuse, improve the utilization ratio of raw materials, and low cost.

Description

Plastic woven sack leftover bits retrieval and utilization device

Technical Field

The invention relates to the field of plastic woven bag production equipment, in particular to a plastic woven bag leftover recycling device.

Background

The plastic woven bag is also called as a snakeskin bag. Is one kind of plastic bag for packing and is produced with PP, PE and other plastic material. Every year, 60 hundred million woven bags are used for packaging cement in China, and account for more than 85% of bulk cement packages. Besides being used for cement packaging, plastic woven packaging bags are widely used for industrial and agricultural product packaging, aquatic product packaging, poultry feed packaging and the like; therefore, the market demand of the plastic woven bags is still large, in the production process of the plastic woven bags, the plastic is subjected to wire drawing treatment, the wire-drawing plastic ropes are woven into a barrel, the barrel-shaped woven materials are cut, and the edge sewing operation is performed after the cutting is finished, so that the finished plastic woven bags can be obtained.

Plastic woven sack is convenient for carry and draws, need set up at woven sack department and carry the draw-in groove, and then can cut the fluting to the braided bag in process of production, can produce a large amount of leftover bits after the fluting crosses, among the prior art, the leftover bits are collected after cutting not convenient for, moreover can not retrieve the leftover bits after cutting and recycle, the cost when having improved production greatly.

Disclosure of Invention

The invention aims to solve the problem that leftover materials after a woven bag is cut are inconvenient to recycle, and provides a device for recycling the leftover materials of a plastic woven bag.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

the utility model provides a plastic woven sack leftover bits retrieval and utilization device, includes:

the device comprises a device bracket, wherein a material roll feeding table is arranged at the upper part of the device bracket, and a feeding pair roller is arranged on one side of the material roll feeding table;

a portal frame is arranged on the material roll feeding table, an electric push rod is mounted at the upper part of the portal frame, and a cutter mechanism is fixed at the lower end of the electric push rod;

the cutting knife mechanism comprises a cutting knife rest, a printing plate and a cutting knife plate, the cutting knife rest is fixedly arranged at the output end of the electric push rod, the printing plate is fixed at the lower part of the cutting knife rest, a supporting spring is arranged at the lower part of the cutting knife rest, the cutting knife plate is arranged at the lower part of the supporting spring, a cutting knife is arranged at the bottom of the cutting knife plate, a cross shaft is arranged on the device support, a backing plate is fixed on the device support at the upper part of the cross shaft and is positioned under the cutting knife, driving gears are respectively arranged at the two ends of the cross shaft, racks are respectively fixed at the two sides of the cutting knife rest, the driving gears are meshed with the racks when the;

install the wind scoop on the device support of lower plate both sides respectively, the wind scoop has the air exhauster inlet scoop through the pipe connection, wind scoop port department installs the screen cloth, the arc support is installed respectively to the lower plate both sides, install the closing plate on the arc support, the lower plate drives the closing plate motion when rotating around the cross axle axis, the wind scoop port is located the movement track of closing plate, wind scoop port place planar motion is hugged closely to the closing plate, install the garbage collection fill on the device support of lower plate lower part, the garbage collection fill internally mounted has the crushed aggregates pole, crushed aggregates pole end is connected with the crushed aggregates motor, the crushed aggregates motor is fixed in the garbage collection fill outside, garbage collection fill bottom is connected with screw conveyer, the screw conveyer output is connected with former feed bin.

Further, install first drive shaft and second drive shaft on the device support, first drive shaft is driven by step motor, install first pay-off conveyer belt and second pay-off conveyer belt in first drive shaft and the second drive shaft, be equipped with the isolation lug in the second drive shaft, it is located between first pay-off conveyer belt and the second pay-off conveyer belt to keep apart the lug, install the intermediate wheel on the device support, the setting of first pay-off conveyer belt is hugged closely to the intermediate wheel, first pay-off conveyer belt and second pay-off conveyer belt between intermediate wheel and the first drive shaft are parallel to each other, install the guide way pole on the device support between intermediate wheel and first drive shaft, the guide way pole is located between first pay-off conveyer belt and the material book feed table, the hemming machine is installed to guide way pole lower part.

Further, the lower plate is kept away from cross axle one side both ends and is connected with the haulage rope respectively, and the guide way pole bottom that is close to feeding pair roller one side is installed and is cushioned the pulley, the haulage rope is walked around the buffering pulley and is connected on the picture peg, the portal frame both sides are equipped with vertical guide slot respectively, be connected with traction spring between picture peg upper portion and portal frame, the picture peg is located between first pay-off conveyer belt and the second pay-off conveyer belt.

Furthermore, an upright post is fixed on the upper part of the cutting knife plate, the upright post is inserted into the cutting knife rest in a sliding manner, and the upright post is perpendicular to the cutting knife plate.

Furthermore, a limiting spring is mounted at the lower part of the cutter plate, a pressing strip is fixed at the bottom of the limiting spring and positioned at the upper part of the base plate

Further, the guide groove pole is close to first pay-off conveyer belt one side equidistant and is equipped with the mounting groove, the mounting groove tangent plane is the type structure of dogging, and two slide bars are installed to every mounting groove, the gyro wheel is installed respectively at the slide bar both ends, the gyro wheel is located inside the mounting groove, independently installs the connecting rod on the every slide bar, the connecting rod end articulates on the supporting wheel, first pay-off conveyer belt setting is hugged closely to the supporting wheel, is equipped with traction spring between two connecting rods in same mounting groove.

The invention has the beneficial effects that:

the waste material collecting hopper is internally provided with a crushing rod, the crushing rod is driven to rotate by a crushing motor to crush the waste material, and the crushed waste material is sent to a raw material bin by a screw conveyor to be reused, so that the utilization rate of the raw material is improved, and the cost is reduced.

Drawings

FIG. 1 is a view showing the arrangement structure of a lower plate and a waste collecting hopper according to the present invention;

FIG. 2 is a schematic view of the installation of a portal frame of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2 in accordance with the present invention;

FIG. 4 is a diagram of the present invention showing the inverted state of the lower plate;

FIG. 5 is a view of the first and second feeding belts of the present invention;

FIG. 6 is a view of the cutter mechanism of the present invention;

FIG. 7 is a cross-sectional view of a guide channel bar of the present invention;

in the figure: 1. a device holder; 2. a material roll feeding table; 3. feeding roller pairs; 12. a first drive shaft; 13. a second drive shaft; 14. a stepping motor; 15. a first feeding conveyor belt; 16. a second feeding conveyor belt; 17. isolating the bumps; 18. an intermediate wheel; 19. a guide groove rod; 20. a gantry; 21. an electric push rod; 22. a hemming machine; 23. a cutter mechanism; 24. inserting plates; 31. a cutter frame; 32. printing a pressing plate; 33. a cutter plate; 34. a support spring; 35. a cutter; 36. a horizontal axis; 37. a base plate; 38. a drive gear; 39. a rack; 40. a lower base plate; 41. a hauling rope; 42. a buffer pulley; 43. a vertical guide groove; 44. a traction spring; 51. a column; 52. a limiting spring; 53. layering; 61. mounting grooves; 62. a slide bar; 63. a roller; 64. a connecting rod; 65. a support wheel; 66. a tension spring; 81. a wind scoop; 82. an exhaust fan; 83. screening a screen; 84. an arc-shaped bracket; 85. a sealing plate; 86. a waste collection hopper; 88. a material crushing motor; 89. a screw conveyor.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

Example 1

As shown in fig. 1, 2, 3; the utility model provides a plastic woven sack leftover bits retrieval and utilization device, includes:

the device comprises a device support 1, wherein a material roll feeding table 2 is arranged at the upper part of the device support 1, and a feeding roller pair 3 is arranged on one side of the material roll feeding table 2;

a portal frame 20 is arranged on the material roll feeding table 2, an electric push rod 21 is arranged on the upper portion of the portal frame 20, a cutter mechanism 23 is fixed at the lower end of the electric push rod 21, and a flashboard 24 is arranged on the cutter mechanism 23;

the cutter mechanism 23 comprises a cutter frame 31, an imprinting plate 32 and a cutter plate 33, wherein the cutter frame 31 is fixedly arranged at the output end of the electric push rod 21, the imprinting plate 32 is fixed at the lower part of the cutter frame 31, a supporting spring 34 is arranged at the lower part of the cutter frame 31, the cutter plate 33 is arranged at the lower part of the supporting spring 34, a cutter 35 is arranged at the bottom of the cutter plate 33, a transverse shaft 36 is arranged on the device bracket 1, a backing plate 37 is fixed on the device bracket 1 at the upper part of the transverse shaft 36, the backing plate 37 is positioned right below the cutter 35, driving gears 38 are respectively arranged at two ends of the transverse shaft 36, racks 39 are respectively fixed at two sides of the cutter frame 31, when the cutter frame 31 moves downwards, the driving gears 38 are meshed;

install wind scoop 81 respectively on the device support 1 of lower plate 40 both sides, wind scoop 81 has air exhauster 82 inlet scoop through the pipe connection, wind scoop 81 port department installs screen cloth 83, arc support 84 is installed respectively to lower plate 40 both sides, install closing plate 85 on the arc support 84, when lower plate 40 rotated around 36 axes of cross axle, drive closing plate 85 motion, wind scoop 81 port is located closing plate 85's movement track, closing plate 85 hugs closely wind scoop 81 port place planar motion, install garbage collection fill 86 on the device support 1 of lower plate 40 lower part, garbage collection fill 86 internally mounted has crushed aggregates pole 87, crushed aggregates pole 87 end is connected with crushed aggregates motor 88, crushed aggregates motor 88 fixes in the garbage collection fill 86 outside, garbage collection fill 86 bottom is connected with screw conveyer 89, screw conveyer 89 output is connected with raw material storehouse.

The tubular knitting material is input through the material roll feeding table 2, the knitting material is flattened into a plane when passing through the feeding roller pair 3, the knitting material passes through between the cutter 35 and the backing plate 37, the first feeding conveyer belt 15 and the second feeding conveyer belt 16 stop moving during feeding, when the knitting material needs to be cut, the electric push rod 21 is utilized to push the cutter mechanism 23 to move downwards integrally, the cutter rest 31 on the cutter mechanism 23 drives the printing and pressing plate 32 and the cutter plate 33 to move downwards integrally, the cutter 35 at the lower part of the cutter plate 33 contacts the knitting material in advance during the downward movement, the cutter 35 cuts the knitting material under the extrusion force of the backing plate 37, meanwhile, the cutter rest 31 continues to move downwards, the supporting spring 34 between the cutter plate 33 and the cutter rest 31 is extruded and contracted, the racks 39 at the two sides of the cutter rest 31 move downwards along with the cutter rest 31, the racks 39 contact the driving gear 38 during the downward movement, the driving gear 38 is driven to rotate due to the gear engagement effect, the driving gear 38 drives the cross shaft 36 and the lower bottom plate 40 to rotate, when the lower bottom plate 40 rotates to a horizontal position, the upper end face of the lower bottom plate 40 is attached to the lower end face of the printing plate 32 at the lower part of the cutter frame 31, a carrying hole can be formed in the woven bag under the action of extrusion force of the printing plate 32 and the lower bottom plate 40, after cutting and punching are completed, the electric push rod 21 retracts to drive the cutter frame 31 to move upwards, meanwhile, the rack 39 is driven to move upwards, when the rack 39 moves upwards, the driving gear 38 is pulled to rotate reversely, the driving gear 38 drives the cross shaft 36 and the lower bottom plate 40 to rotate, so that the lower bottom plate 40 is separated from the printing plate 32, the electric push.

The pressboard 32 lies in that the lower plate 40 is to closing to weave the material and carry out the coining back, the waste material of production can be moved to weaving the material both sides under the suction of wind scoop 81, when lower plate 40 overturns once more, drive the closing plate 85 scraping wind scoop 81 of lower plate 40 both sides, push the absorbent waste material of wind scoop 81 port to garbage collection fill 86 in, garbage collection fill 86 is inside to be provided with crushing pole 87, utilize crushed aggregates motor 88 to drive crushing pole 87 and rotate, carry out the breakage with the waste material, the waste material after the breakage is sent into to former feed bin so that reuse through screw conveyer 89 again, improve the raw materials utilization ratio, and the cost is reduced.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, fig. 2, fig. 4, fig. 5 and fig. 6; the device support 1 is provided with a first driving shaft 12 and a second driving shaft 13, the first driving shaft 12 is driven by a stepping motor 14, the first driving shaft 12 and the second driving shaft 13 are provided with a first feeding conveyer belt 15 and a second feeding conveyer belt 16, the second driving shaft 13 is provided with an isolation bump 17, the isolation bump 17 is positioned between the first feeding conveyer belt 15 and the second feeding conveyer belt 16, the device support 1 is provided with an intermediate wheel 18, the intermediate wheel 18 is tightly attached to the first feeding conveyer belt 15, the first feeding conveyer belt 15 and the second feeding conveyer belt 16 between the intermediate wheel 18 and the first driving shaft 12 are parallel to each other, the device support 1 between the intermediate wheel 18 and the first driving shaft 12 is provided with a guide groove rod 19, the guide groove rod 19 is positioned between the first feeding conveyer belt 15 and the material roll feeding table 2, the lower part of the guide groove rod 19 is provided with an edge sewing machine 22, and the guide groove rod 19 is positioned between the feeding counter roll.

Two ends of one side of the lower bottom plate 40, which is far away from the transverse shaft 36, are respectively connected with a traction rope 41, the bottom of the guide groove rod 19, which is close to one side of the feeding double-roller 3, is provided with a buffer pulley 42, the traction rope 41 is connected to the inserting plate 24 by bypassing the buffer pulley 42, two sides of the portal frame 20 are respectively provided with a vertical guide groove 43, a pinching traction spring 44 is connected between the upper part of the inserting plate 24 and the portal frame 20, and the inserting plate 24 is positioned between the first feeding and conveying belt 15 and the.

When the electric push rod 21 extends out, the rack 39 drives the driving gear 38 to rotate, the lower bottom plate 40 rotates along with the rotation, so that the lower bottom plate 40 pulls the pulling rope 41 to move, the pulling rope 41 pulls the inserting plate 24 to move along the vertical guide groove 43, when the inserting plate 24 moves, the cut material at the lower part of the inserting plate 24 is pushed downwards into the gap between the first feeding conveyer belt 15 and the second feeding conveyer belt 16, one end of the cut woven material is folded and exposed at the lower parts of the first feeding conveyer belt 15 and the second feeding conveyer belt 16 due to the extrusion of the inserting plate 24, the first driving shaft 12 drives the first feeding conveyer belt 15 and the second feeding conveyer belt 16 to move simultaneously, so as to drive the cut woven material to move, when the woven material moves to the hemming machine, the part of the woven material, which is folded and exposed at the lower parts of the first feeding conveyer belt 15 and the second feeding conveyer belt 16, passes through, the realization is to the seam limit of braided bag, and whole in-process fixes a position the side that needs to sew up promptly after the cutting is accomplished, and keeps the area throughout in transportation process and sews up the location of side, need not to carry out the opposite side once more when sewing up the limit, has effectively avoided the braided bag to take place the skew when carrying between cutting and seam limit, has improved production efficiency greatly.

Example 3

On the basis of example 1, as shown in fig. 6; an upright post 51 is fixed on the upper part of the cutter plate 33, the upright post 51 is inserted into the cutter frame 31 in a sliding manner, the upright post 51 is perpendicular to the cutter plate 33, a limiting spring 52 is installed on the lower part of the cutter plate 33, a pressing strip 53 is fixed on the bottom of the limiting spring 52, and the pressing strip 53 is positioned on the upper part of the backing plate 37.

When the cutter plate 33 moves downwards, the pressing strip 53 is in contact with the woven material in advance, and when the electric push rod 21 extends out, the limiting spring 52 is extruded, so that the pressing strip 53 extrudes the backing plate 37, the woven material is pre-fixed, and the woven material is prevented from falling off at the end after being cut.

Example 4

On the basis of example 2, as shown in fig. 7; first pay-off conveyer belt 15 and second pay-off conveyer belt 16 are when removing, when moving to both intermediate positions, both centre gripping dynamics or reduction, therefore can cause the location to the braided bag not hard up, influence location effect, through being close to first pay-off conveyer belt 15 one side at guide way pole 19 and being equipped with mounting groove 61 at an equal interval, the mounting groove 61 tangent plane is the type structure of dogging, two slide bars 62 are installed to every mounting groove 61, gyro wheel 63 is installed respectively at slide bar 62 both ends, gyro wheel 63 is located inside mounting groove 61, independently install connecting rod 64 on every slide bar 62, the connecting rod 64 end articulates on supporting wheel 65, supporting wheel 65 hugs closely first pay-off conveyer belt 15 and sets up, be equipped with tension spring 66 between two connecting rods 64 in same mounting groove 61.

Utilize tension spring 66 effect pulling two connecting rods 64 to draw close, and then make connecting rod 64 jack-up supporting wheel 65 for supporting wheel 65 extrudes first pay-off conveyer belt 15 to second pay-off conveyer belt 16 one side, improves the extrusion force between first pay-off conveyer belt 15 and second pay-off conveyer belt 16, makes the better centre gripping braided bag of first pay-off conveyer belt 15 and second pay-off conveyer belt 16, prevents that the braided bag is not hard up.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a plastic woven sack leftover bits retrieval and utilization device which characterized in that includes:

the device comprises a device bracket, wherein a material roll feeding table is arranged at the upper part of the device bracket, and a feeding pair roller is arranged on one side of the material roll feeding table;

a portal frame is arranged on the material roll feeding table, an electric push rod is mounted at the upper part of the portal frame, and a cutter mechanism is fixed at the lower end of the electric push rod;

the cutting knife mechanism comprises a cutting knife rest, a printing plate and a cutting knife plate, the cutting knife rest is fixedly arranged at the output end of the electric push rod, the printing plate is fixed at the lower part of the cutting knife rest, a supporting spring is arranged at the lower part of the cutting knife rest, the cutting knife plate is arranged at the lower part of the supporting spring, a cutting knife is arranged at the bottom of the cutting knife plate, a cross shaft is arranged on the device support, a backing plate is fixed on the device support at the upper part of the cross shaft and is positioned under the cutting knife, driving gears are respectively arranged at the two ends of the cross shaft, racks are respectively fixed at the two sides of the cutting knife rest, the driving gears are meshed with the racks when the;

install the wind scoop on the device support of lower plate both sides respectively, the wind scoop has the air exhauster inlet scoop through the pipe connection, wind scoop port department installs the screen cloth, the arc support is installed respectively to the lower plate both sides, install the closing plate on the arc support, the lower plate drives the closing plate motion when rotating around the cross axle axis, the wind scoop port is located the movement track of closing plate, wind scoop port place planar motion is hugged closely to the closing plate, install the garbage collection fill on the device support of lower plate lower part, the garbage collection fill internally mounted has the crushed aggregates pole, crushed aggregates pole end is connected with the crushed aggregates motor, the crushed aggregates motor is fixed in the garbage collection fill outside, garbage collection fill bottom is connected with screw conveyer, the screw conveyer output is connected with former feed bin.

2. The recycling device of leftover bits and pieces of plastic woven bags according to claim 1, characterized in that the device bracket is provided with a first driving shaft and a second driving shaft, the first driving shaft is driven by a stepping motor, the first driving shaft and the second driving shaft are provided with a first feeding conveyer belt and a second feeding conveyer belt, the second driving shaft is provided with an isolating lug, the isolating lug is positioned between the first feeding conveyer belt and the second feeding conveyer belt, the device bracket is provided with an intermediate wheel, the intermediate wheel is tightly attached to the first feeding conveyer belt, the first feeding conveyer belt and the second feeding conveyer belt between the intermediate wheel and the first driving shaft are parallel to each other, the device bracket between the intermediate wheel and the first driving shaft is provided with a guide groove rod, the guide groove rod is positioned between the first feeding conveyer belt and the feeding table, and the lower part of the guide groove rod is provided with an edge sewing machine.

3. The plastic woven sack leftover bits retrieval and utilization device of claim 1, characterized in that, the lower plate is kept away from cross axle one side both ends and is connected with the haulage rope respectively, and the guide way pole bottom that is close to feeding pair roller one side is installed and is cushioned the pulley, the haulage rope is walked around cushioned the pulley and is connected on the picture peg, the portal frame both sides are equipped with vertical guide slot respectively, be connected with traction spring between picture peg upper portion and the portal frame, the picture peg is located between first pay-off conveyer belt and the second pay-off conveyer belt.

4. The device for recycling the leftover materials of the plastic woven bags according to claim 1, wherein an upright post is fixed at the upper part of the cutter plate, the upright post is slidably inserted into the cutter frame, and the upright post is perpendicular to the cutter plate.

5. The device for recycling the leftover materials of the plastic woven bags according to claim 1, wherein a limiting spring is arranged at the lower part of the cutter plate, a pressing strip is fixed at the bottom of the limiting spring, and the pressing strip is positioned at the upper part of the base plate.

6. The recycling device for leftover materials of plastic woven bags according to claim 2, wherein the guide groove rod is provided with mounting grooves at equal intervals near one side of the first feeding and conveying belt, the tangent plane of each mounting groove is of a convex structure, each mounting groove is provided with two sliding rods, rolling wheels are respectively mounted at two ends of each sliding rod and are positioned inside the mounting groove, each sliding rod is independently provided with a connecting rod, the end of each connecting rod is hinged to a supporting wheel, the supporting wheel is arranged close to the first feeding and conveying belt, and a traction spring is arranged between the two connecting rods in the same mounting groove.

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