CN218190038U - A garrulous limit shearing equipment for limit silk is handled - Google Patents

Abstract

The utility model provides a garrulous limit shearing equipment for limit silk is handled, includes garrulous limit power unit, first garrulous limit host computer, second garrulous limit host computer and host computer guiding mechanism, and garrulous limit power unit sets up on the power seat, and first garrulous limit host computer and second garrulous limit host computer set up relatively on the base and be connected with garrulous limit power unit's power take off shaft, are provided with the host computer guide rail on the base, and first garrulous limit host computer and second garrulous limit host computer are installed on the host computer guide rail and all are connected with host computer guiding mechanism. The device is arranged on the discharging side of the slitting machine, and the main machine adjusting mechanism drives the first scrap chopper main machine and the second scrap chopper main machine to move on the main machine guide rail so as to adjust the distance between the first scrap chopper main machine and the second scrap chopper main machine, adapt to the width of the side wires on the two sides of the steel coil and enable the side wires on the two sides to be sheared and broken on one scrap chopper main machine respectively. The scrap chopper power mechanism drives the first scrap chopper main machine and the second scrap chopper main machine to run simultaneously, and the scrap chopper is used for shearing and crushing the side wires on the two sides. The equipment can directly cut the side yarns at two sides into small sections, thereby facilitating collection and transportation.

Description

A garrulous limit shearing equipment for limit silk is handled

Technical Field

The utility model relates to a device that is used for cutting out the paper roll and indulges to cut the strip in-process to the side silk and collect the processing belongs to side silk processing technology field.

Background

The steel plate is usually cut into a certain width specification by a slitting machine after a steel coil produced by a steel mill is unfolded by a decoiling machine, the steel coil is called as steel coil decoiling, longitudinal cutting and splitting, and side wires (narrow side strips) cut at two sides of the steel coil are recycled.

At present, the main limit silk winding of collecting on the market, in the winding process, the condition such as limit silk fracture easily appears influences work efficiency, and after the limit silk winding, the transportation of being not convenient for need carry out the follow-up measure of compaction, follow-up continuation still need cut.

Disclosure of Invention

The utility model discloses to the easy disconnected silk scheduling problem that the technique exists is collected in the winding of present steel book open flat slitting strip in-process limit silk, provide a garrulous limit shearing equipment that is used for limit silk to handle convenient to collect, transport and low reaches process are handled.

The utility model discloses a garrulous limit shearing equipment for limit silk is handled adopts following technical scheme:

the equipment comprises a scrap chopper power mechanism, a first scrap chopper host, a second scrap chopper host and a host adjusting mechanism, wherein the scrap chopper power mechanism is arranged on a power seat, the first scrap chopper host and the second scrap chopper host are oppositely arranged on a base and connected with a power output shaft of the scrap chopper power mechanism, a host guide rail is arranged on the base, and the first scrap chopper host and the second scrap chopper host are arranged on the host guide rail and are connected with the host adjusting mechanism.

The scrap chopper power mechanism comprises a motor, a speed reducer, a coupler and a power output shaft, the motor, the speed reducer, the coupler and the power output shaft are sequentially connected, two driving gears which respectively drive the first scrap chopper main machine and the second scrap chopper main machine are installed on the power output shaft, and the driving gears are connected with the power output shaft through sliding keys, so that the driving gears can axially move on the power output shaft and can rotate along with the power output shaft.

First garrulous limit host computer is the same with the structure of second garrulous limit host computer, including the host computer seat, go up the arbor, go up the shearing blade disc, arbor and shearing blade disc down, the host computer seat is installed on the host computer guide rail and with host computer guiding mechanism connects, goes up the arbor and installs on the host computer seat with arbor down, goes up and installs upper shaft gear and last shearing blade disc on the arbor, installs arbor gear and shearing blade disc down on the arbor, upper shaft gear or lower shaft gear with install last driving gear engagement of power output shaft, the driving gear with power output shaft is the feather key connection. Each gear is a helical gear. The power of the scrap cutter power mechanism is transmitted to the lower cutter shaft through the transmission of the driving gear and the lower shaft gear, the lower cutter shaft is transmitted to the upper cutter shaft through the transmission of the lower shaft gear and the upper shaft gear, and the upper shearing cutter disc and the lower shearing cutter disc rotate to crush the scrap wires.

The scrap chopper is characterized in that a knife gap adjusting mechanism is further arranged on the scrap chopper main machine and comprises a worm, a worm wheel and a lead screw, the worm wheel and the lead screw are mounted on the main machine base, the worm wheel is meshed with the worm, the worm wheel is connected to the lead screw, the lead screw is connected with the upper cutter shaft, and the upper shaft gear and the lower shaft gear are helical gears. The manual worm rotates, the lead screw is driven to move through worm and worm transmission, the lead screw drives the upper cutter shaft and the upper shaft gear to move, the lower cutter shaft and the lower shaft gear do not move axially, the upper shaft gear and the lower shaft gear are helical gears, the tooth surfaces of the helical gears are oblique, the meshing surface of the helical gears can be seen as a thread, the two helical gears which move relatively can rotate relatively, the angle between the upper shearing cutter disc and the lower shearing cutter disc is changed, the lower blade on the upper shearing cutter disc and the lower blade on the lower shearing cutter disc rotate along with the cutter disc, and the gap between the upper blade and the lower blade can be changed.

Host computer guiding mechanism includes gear motor, first adjustment lead screw and second adjustment lead screw, and gear motor installs on the base and with an adjustment lead screw connection, first adjustment lead screw and second adjustment lead screw are installed respectively on the base and both link together, the screw thread of first adjustment lead screw and second adjustment lead screw is turned around to the opposite direction, and first adjustment lead screw is connected with the host computer seat of first scrap chopper host computer, and the second adjustment lead screw is connected with the host computer seat of second scrap chopper host computer. The speed reduction motor drives the adjusting screw rods to rotate, and the two adjusting screw rods enable the first scrap chopper main machine and the second scrap chopper main machine to move towards the middle or two sides simultaneously so as to be suitable for different plate widths.

The scrap chopper main machine is also provided with a feeding mechanism,

the feeding mechanism comprises an adjusting shaft, a guide wheel shaft, a transmission mechanism and an adjusting mechanism, the adjusting shaft and the guide wheel shaft are arranged on the main machine seat, an adjusting guide wheel is arranged on the adjusting shaft and connected with the adjusting mechanism, and a fixed guide wheel is arranged on the guide wheel shaft and connected with the transmission mechanism. The two sides of the fixed guide wheel are provided with baffle plates, and the adjusting guide wheel is positioned above the fixed guide wheel and between the baffle plates at the two sides. The adjusting mechanism comprises an adjusting cylinder, a rack, an adjusting gear and an eccentric wheel, the adjusting cylinder is installed on the main machine base, the rack is connected to a piston rod of the adjusting cylinder, the adjusting gear and the eccentric wheel are coaxially installed on the main machine base, the adjusting gear is meshed with the rack, and an adjusting shaft is eccentrically connected to the eccentric wheel (forming an eccentric shaft). The adjusting cylinder pushes the rack to move, so that the adjusting gear and the eccentric wheel rotate, the adjusting shaft and the adjusting guide wheel change positions under the driving of the eccentric wheel, and therefore the gap between the fixed guide wheel and the adjusting guide wheel is adjusted, and the steel plate waste material adjusting device is suitable for steel plate waste materials with different thicknesses. The transmission mechanism comprises a transmission gear, an intermediate gear and a guide gear which are sequentially meshed, the transmission gear is arranged at one end of a lower cutter shaft of the edge crushing main machine, the intermediate gear is arranged on a main machine seat of the edge crushing main machine, and the guide gear is arranged on a guide wheel shaft; the transmission gear rotates along with the lower cutter shaft, and simultaneously drives the fixed guide wheel to rotate through gear transmission, so that the edge wire runs between the fixed guide wheel and the adjusting guide wheel.

The feeding mechanism comprises a connecting block and a sliding groove, the connecting block is arranged on the sliding groove, and the sliding groove is connected to a host machine seat of the scrap chopper host machine through the connecting block. The sliding groove is of a box-shaped structure, so that the side wires can be prevented from sliding out, and can slide down by the dead weight of the side wires, and the waste material shearing is smoothly completed.

The device is arranged on the discharging side of the slitting machine, and the main machine adjusting mechanism drives the first scrap chopper main machine and the second scrap chopper main machine to move on the main machine guide rail so as to adjust the distance between the first scrap chopper main machine and the second scrap chopper main machine, adapt to the width of the side wires on the two sides of the steel coil and enable the side wires on the two sides to be sheared and broken on one scrap chopper main machine respectively. The scrap chopper power mechanism drives the first scrap chopper main machine and the second scrap chopper main machine to simultaneously operate, and the scrap wires on the two sides are sheared and crushed.

The utility model provides an easy broken limit silk's the condition, make the limit silk directly collect with the form of segment simultaneously, be convenient for collect and transport, the processing work of the low reaches process of being convenient for.

Drawings

Fig. 1 is a schematic view of the three-dimensional structure of the scrap edge shearing equipment for processing scrap edge.

Figure 2 is the structure section view of the scrap edge shearing equipment for processing the scrap edge.

Fig. 3 is a schematic structural view of the middle scrap chopper main unit of the present invention.

Fig. 4 is a schematic structural diagram of the medium plate feeding mechanism of the present invention.

FIG. 5 is a schematic view of the drive mechanism in the slab feeding mechanism.

Fig. 6 is a schematic structural diagram of the middle thin plate feeding mechanism of the present invention.

Wherein: 1. the device comprises a power base, 2, a scrap chopper power mechanism, 3, a first scrap chopper main machine, 4, a second scrap chopper main machine, 5, a base, 6, a main machine guide rail, 7, a main machine adjusting mechanism, 8, a thick plate feeding mechanism and 9, a thin plate feeding mechanism;

201. the motor 202, the reducer 203, the coupler 204, the power output shaft 205, the driving gear 206 and the support;

301. a cutter gap adjusting mechanism 302, an upper shearing cutter head 303, a lower shearing cutter head 304, a main machine base 305, a lower cutter shaft 306, a lower shaft gear 307, an upper shaft gear 308 and an upper cutter shaft;

30101. worm, 30102, worm gear, 30103, lead screw;

701. a speed reducing motor, 702, a first adjusting screw rod, 703 and a second adjusting screw rod;

801. the adjusting mechanism comprises an adjusting shaft, 802, an adjusting guide wheel, 803, an adjusting gear, 804, a guide wheel shaft, 805, a rack, 806, an adjusting cylinder, 807, a fixed guide wheel, 808, an eccentric wheel, 809, a transmission gear, 810, an intermediate gear and 811, a guide gear;

901. connecting block, 902, chute.

Detailed Description

The utility model discloses a garrulous limit shearing equipment for limit silk is handled, as shown in fig. 1 and fig. 2, including garrulous limit power unit 2, first garrulous limit host computer 3, second garrulous limit host computer 4 and host computer guiding mechanism 7, garrulous limit power unit 2 sets up on power seat 1, first garrulous limit host computer 3 and second garrulous limit host computer 4 set up relatively on base 5 and are connected with garrulous limit power unit 2's power output shaft (see fig. 2 power output shaft 204), be provided with host computer guide rail 6 on the base 5, first garrulous limit host computer 3 and second garrulous limit host computer 4 are installed on host computer guide rail 6, and all are connected with host computer guiding mechanism 7. The host adjusting mechanism 7 drives the first scrap chopper host 3 and the second scrap chopper host 4 to move on the host guide rail 6 (the host and the second scrap chopper host move in opposite directions) so as to adjust the distance between the first scrap chopper host 3 and the second scrap chopper host 4, adapt to the width of the side wires on two sides of the steel coil and enable the side wires on two sides to be sheared and broken on one scrap chopper host respectively. The scrap chopper power mechanism 2 drives the first scrap chopper main machine 3 and the second scrap chopper main machine 4 to run simultaneously, and the scrap chopper is used for shearing and crushing the side wires on the two sides.

Referring to fig. 2, the shredding power mechanism 2 includes a motor 201, a reducer 202, a coupler 203, a power output shaft 204, and a driving gear 205, and the motor 201, the reducer 202, the coupler 203, and the power output shaft 204 are connected in sequence. Two ends of the power output shaft 204 are mounted on the base 5 through a support 206 (a bearing seat), and two driving gears 205 are mounted on the power output shaft 204 and respectively drive the first scrap chopper main body 3 and the second scrap chopper main body 4. In order to adapt to the movement of the first main shredding machine 3 and the second main shredding machine 4, the driving gear 205 is connected with the power output shaft 204 in a sliding key manner, and the driving gear 205 can axially move on the power output shaft 204 and can rotate along with the power output shaft 204. The motor 201 drives the power output shaft 204 to rotate through the speed reducer 202 and the coupler 203, and the driving gear 205 rotates along with the power output shaft 204 and transmits power to the host machine for shredding.

The first and second shredder main bodies 3 and 4 are identical in structure, and as shown in fig. 3, include a main body housing 304, an upper cutter shaft 308, an upper cutter head 302, a lower cutter shaft 305, and a lower cutter head 303. The main machine base 304 is mounted on the main machine guide 6 and connected to the main machine adjustment mechanism 7. The upper cutter shaft 308 and the lower cutter shaft 305 are parallelly installed on the main machine base 304 through bearings, an upper shaft gear 307 is installed on the upper cutter shaft 308, a lower shaft gear 306 is installed on the lower cutter shaft 305, and the upper shaft gear 307 and the lower shaft gear 306 are helical gears. The lower shaft gear 306 is engaged with the driving gear 205, and transmits the power of the chipping power mechanism 2 to the lower shaft 305 and then to the upper shaft 308 through bevel gear transmission. The outer ends of the upper cutter shaft 308 and the lower cutter shaft 305 are respectively provided with an upper shearing cutter head 302 and a lower shearing cutter head 303, and the edge strips enter between the upper shearing cutter head 302 and the lower shearing cutter head 303 and are rotated to crush edge wires.

In order to adjust the gap between the upper shearing cutter disc 302 and the lower shearing cutter disc 303, a cutter gap adjusting mechanism 301 is also arranged on the edge crushing main machine. Referring to fig. 3, the knife gap adjusting mechanism 301 includes a worm 30101, a worm gear 30102 and a lead screw 30103 mounted on the main machine base 304, the worm gear 30102 is engaged with the worm 30101, an inner hole of the worm gear 30102 is connected to the lead screw 30103 through a thread, and the lead screw 30103 is connected to the upper knife shaft 308. The worm 30101 is rotated manually, the lead screw 30103 is driven to move by the worm gear and worm, the lead screw 30103 drives the upper cutter shaft 308 to move axially, the upper shaft gear 307 moves along with the upper cutter shaft 308, the upper shaft gear 307 and the lower shaft gear 306 are helical gears, the tooth surfaces of the helical gears are oblique, the meshing surface of the helical gears can be regarded as a thread, the two helical gears of the upper shaft gear 307 and the lower shaft gear 306 which move relatively can rotate relatively, the angle between the upper shearing cutter disc 302 and the lower shearing cutter disc 303 changes, the lower blade on the upper shearing cutter disc 302 and the lower blade on the lower shearing cutter disc 303 rotate along with the shearing cutter disc, the gap between the upper blade and the lower blade changes, the purpose of adjusting the cutter gap is achieved, and the waste edge wires with different thicknesses can be used.

The first and second host computer 3 and 4 realize the distance adjustment of the two host computers through the host adjusting mechanism 7. Referring to fig. 2, the host adjusting mechanism 7 includes a speed reducing motor 701, a first adjusting lead screw 702 and a second adjusting lead screw 703, the speed reducing motor 701 is installed on the base 5, the first adjusting lead screw 702 and the second adjusting lead screw 703 are respectively installed on the base 5 through a bearing and are connected together through a coupler, the second adjusting lead screw 703 is connected with a rotating shaft of the speed reducing motor 701, and the thread turning directions of the first adjusting lead screw 702 and the second adjusting lead screw 703 are opposite. The first adjusting screw 702 is connected to the main housing 304 of the first shredder 3 (the main housing 304 is provided with a nut connected to the first adjusting screw 702), and the second adjusting screw 703 is connected to the main housing of the second shredder 4 (the main housing is provided with a nut connected to the second adjusting screw 703). The reduction motor 701 drives the first adjusting screw 702 and the second adjusting screw 703 to rotate simultaneously, and the rotation directions of the two adjusting screws are opposite, so that the first scrap chopper main machine 3 and the second scrap chopper main machine 4 move towards the middle or two sides simultaneously to adapt to different plate widths.

In order to ensure that the edge wires smoothly enter between the upper shearing cutter head 302 and the lower shearing cutter head 303, a feeding mechanism is further installed on the edge crushing main machine, and a thick plate feeding mechanism 8 or a thin plate feeding mechanism 9 can be selected according to the thickness of the edge wires. The thick plate feeding mechanism 8 is suitable for thick edge wires capable of bearing certain tensile force.

As shown in fig. 4 and 5, the thick plate feeding mechanism 8 includes an adjusting shaft 801, a guiding axle 804, a transmission mechanism and an adjusting mechanism, wherein the adjusting shaft 801 and the guiding axle 804 are installed on the main machine base 304 in parallel. The adjusting shaft 801 is sleeved with an adjusting guide wheel 802 and connected with an adjusting mechanism, and the adjusting mechanism drives the adjusting shaft 801 and the adjusting guide wheel 802 to change the vertical position. The guide wheel shaft 804 is provided with a fixed guide wheel 807 and is connected with a transmission mechanism, the transmission mechanism drives the guide wheel shaft 804 to rotate, two sides of the fixed guide wheel 807 are provided with baffles, and the adjusting guide wheel 802 is positioned above the fixed guide wheel 807 and between the baffles at the two sides. The adjusting mechanism comprises an adjusting cylinder 806, a rack 805, an adjusting gear 803 and an eccentric wheel 808, wherein the adjusting cylinder 806 is arranged on the main machine base 304, the rack 805 is connected to a piston rod of the adjusting cylinder 806, the adjusting gear 803 and the eccentric wheel 808 are coaxially arranged on the main machine base 304, the adjusting gear 803 is meshed with the rack 805, and an adjusting shaft 801 is eccentrically connected to the eccentric wheel 808 to form an eccentric shaft; the adjusting cylinder 806 pushes the rack 805 to move, so that the adjusting gear 803 and the eccentric wheel 808 rotate, the adjusting shaft 801 and the adjusting guide wheel 802 change the up-down position under the driving of the eccentric wheel 808, and the gap between the fixed guide wheel 807 and the adjusting guide wheel 802 is adjusted, so that the steel plate scrap with different thicknesses can be applied. The transmission mechanism comprises a transmission gear 809, an intermediate gear 810 and a guide gear 811 which are sequentially meshed, the transmission gear 809 is installed at one end of a lower cutter shaft 305 of the edge crushing main machine, the intermediate gear 810 is installed on a main machine seat 304 of the edge crushing main machine, and the guide gear 811 is installed on a guide wheel shaft 804; the transmission gear 809 rotates along with the lower knife shaft 305, and simultaneously drives the fixed guide wheel 807 to rotate through gear transmission, so that the edge wire runs between the fixed guide wheel 807 and the adjusting guide wheel 802.

As shown in fig. 6, the sheet feeding mechanism 9 includes a connecting block 901 and a chute 902, the connecting block 901 is disposed on the chute 902, and the chute 902 is connected to the main chassis 304 of the shredding main machine through the connecting block 901. When the thick plate feeding mechanism 8 needs to be changed into the thin plate feeding mechanism 9, the fixed guide wheel 807 and the adjusting guide wheel 802 can be detached, and the connecting block 901 is connected to the adjusting shaft 801 and the guide wheel shaft 804 of the thick plate feeding mechanism 8. Because the bearing capacity of the thin plate is weak, if the waste edge wires are pulled to move forward by the two guide wheels, the waste edge wires are easy to break, the edge wires cannot be discharged conveniently, meanwhile, the elasticity of the edge wires is small, large deformation cannot be generated, and the edge wires cannot slide downwards, so that the edge wires are guided into the shearing cutter disc to be sheared by the sliding groove 902, the sliding groove 902 is of a box-shaped structure, the edge wires can be prevented from sliding out, and the edge wires can slide downwards by self under the dead weight of the edge wires, and the waste material shearing is completed smoothly.

The process of shearing and crushing the two side wires by the equipment is as follows.

The device is arranged on the discharging side of the slitting machine, the speed reducing motor 701 in the main machine adjusting mechanism 7 is started, and the distance between the first scrap crushing main machine 3 and the second scrap crushing main machine 4 is adjusted according to the width of a plate. And selecting an appropriate feeding mechanism (a thick plate feeding mechanism 8 or a thin plate feeding mechanism 9) according to the thickness of the plate, and conveying the edge wires from the disc shearing line to a shearing cutter head for shearing. The worm 30101 in the upper cutter gap adjusting mechanism 301 of the scrap chopper main machine is rotated, and the gap between the upper shearing cutter disc 302 and the lower shearing cutter disc 303 is adjusted according to the thickness of the plate material.

The speed reducing motor 701 in the scrap chopper power mechanism 5 is started to drive the power output shaft 3 to rotate, so that the upper shearing cutter disc 302 and the lower shearing cutter disc 303 in the first scrap chopper main machine 2 and the second scrap chopper main machine 4 rotate. With the operation of the slitting machine, the side wires at two sides are guided into the scrap chopper main machine by the feeding mechanism, the scrap chopper work is completed by shearing by the upper shearing cutter disc 302 and the lower shearing cutter disc 303, and the sheared scrap can be conveyed to the waste receiving vehicle through the scrap chute at the discharge port of the scrap chopper main machine.

Claims (10)

1. The utility model provides a garrulous limit shearing equipment for limit silk is handled which characterized by: including garrulous limit power unit, first garrulous limit host computer, second garrulous limit host computer and host computer guiding mechanism, garrulous limit power unit sets up on the power seat, and first garrulous limit host computer and second garrulous limit host computer set up on the base relatively and be connected with garrulous limit power unit's power take off shaft, are provided with the host computer guide rail on the base, and first garrulous limit host computer and second garrulous limit host computer are installed on the host computer guide rail and all are connected with host computer guiding mechanism.

2. The scrap cutting apparatus for processing scrap wire according to claim 1, wherein: the scrap chopper power mechanism comprises a motor, a speed reducer, a coupler and a power output shaft, the motor, the speed reducer, the coupler and the power output shaft are sequentially connected, two driving gears which respectively drive the first scrap chopper main machine and the second scrap chopper main machine are mounted on the power output shaft, and the driving gears are connected with the power output shaft through sliding keys.

3. The scrap cutting apparatus for edging filament processing according to claim 1, wherein: first garrulous limit host computer is the same with the structure of second garrulous limit host computer, including the host computer seat, go up the arbor, go up the shearing blade disc, arbor and shearing blade disc down, the host computer seat is installed on the host computer guide rail and with host computer guiding mechanism connects, goes up the arbor and installs on the host computer seat with arbor down, goes up and installs upper shaft gear and last shearing blade disc on the arbor, installs arbor gear and shearing blade disc down on the arbor, upper shaft gear or lower shaft gear with install last driving gear engagement of power output shaft, the driving gear with power output shaft is the feather key connection.

4. The scrap cutting apparatus for edging filament processing according to claim 3, wherein: the scrap chopper is characterized in that a knife gap adjusting mechanism is further arranged on the scrap chopper main machine and comprises a worm, a worm wheel and a lead screw, the worm wheel and the lead screw are mounted on the main machine base, the worm wheel is meshed with the worm, the worm wheel is connected to the lead screw, the lead screw is connected with an upper knife shaft, and the upper shaft gear and the lower shaft gear are helical gears.

5. The scrap cutting apparatus for processing scrap wire according to claim 1, wherein: host computer guiding mechanism includes gear motor, first adjustment lead screw and second adjustment lead screw, and gear motor installs on the base and with an adjustment lead screw connection, first adjustment lead screw and second adjustment lead screw are installed respectively on the base and both link together, the screw thread of first adjustment lead screw and second adjustment lead screw is turned around to the contrary, two adjustment lead screws are connected with the host computer seat of first scrap chopper host computer and second scrap chopper host computer respectively.

6. A scrap cutting apparatus for processing scrap wire in accordance with claim 3 wherein: the edge breaking host machine is characterized in that a feeding mechanism is further installed on the edge breaking host machine and comprises an adjusting shaft, a guide wheel shaft, a transmission mechanism and an adjusting mechanism, the adjusting shaft and the guide wheel shaft are installed on the host machine seat, an adjusting guide wheel is installed on the adjusting shaft and connected with the adjusting mechanism, and a fixed guide wheel is installed on the guide wheel shaft and connected with the transmission mechanism.

7. The scrap cutting apparatus for edging filament processing according to claim 6, wherein: the two sides of the fixed guide wheel are provided with baffle plates, and the adjusting guide wheel is positioned above the fixed guide wheel and between the baffle plates at the two sides.

8. The scrap cutting apparatus for edging filament processing according to claim 6, wherein: the adjusting mechanism comprises an adjusting cylinder, a rack, an adjusting gear and an eccentric wheel, the adjusting cylinder is installed on the main engine base, the rack is connected to a piston rod of the adjusting cylinder, the adjusting gear and the eccentric wheel are coaxially installed on the main engine base, the adjusting gear is meshed with the rack, and an adjusting shaft is eccentrically connected to the eccentric wheel.

9. The scrap cutting apparatus for processing scrap wire in accordance with claim 6 wherein: the transmission mechanism comprises a transmission gear, an intermediate gear and a guide gear which are sequentially meshed, the transmission gear is installed at one end of a lower cutter shaft of the scrap edge main machine, the intermediate gear is installed on a main machine seat of the scrap edge main machine, and the guide gear is installed on a guide wheel shaft.

10. A scrap cutting apparatus for processing scrap wire in accordance with claim 3 wherein: still install pan feeding mechanism on the garrulous limit host computer, pan feeding mechanism includes connecting block and spout, and the connecting block setting is on the spout, and the connecting block is connected on the host computer seat of garrulous limit host computer.

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