CN212042379U - Traction wheel mechanism of traction device of transverse shearing production line - Google Patents

Abstract

The utility model relates to a drag wheel mechanism of horizontal production line draw gear that cuts, including the draw gear base, two draw gear stands about being provided with on the draw gear base, control and be connected with the draw gear crossbeam between two draw gear stands, the last subassembly of drawing and the subassembly of drawing of arranging about being provided with on the draw gear base, on draw the subassembly and draw the subassembly down and cooperate and will pull the transport to next process along the blade of silicon steel of defeated material direction back-and-forth movement different length after will shearing in previous process. The utility model relates to a violently cut production line draw gear's traction wheel mechanism can pull and accept the position according to the length size automatically regulated of the blade of silicon steel after shearing, has the advantage that degree of automation is high, improve production efficiency.

Description

Traction wheel mechanism of traction device of transverse shearing production line

Technical Field

The utility model relates to a transversely cut production line draw gear's traction wheel mechanism belongs to mechanical equipment technical field.

Background

The silicon steel sheet has excellent electromagnetic performance, is an important magnetic material indispensable in the power, telecommunication and instrument industries, and is mainly used for manufacturing iron cores of various transformers, motors and generators. The transverse shearing production line is core equipment of transformer production enterprises, and is used for uncoiling a silicon steel strip, fixing the length of the silicon steel strip, shearing the silicon steel strip into a required sheet shape by using devices such as punching, transverse shearing and the like, and finally orienting, positioning, conveying and stacking the silicon steel strip after shearing by a conveying and material arranging device. With the increasing market demand of power transformers, the performance requirements on the cross shearing machine are higher and higher. The existing transverse shearing production line can only produce the silicon steel sheets with one length specification in the same batch, if the silicon steel sheets with different lengths need to be produced, the transverse shearing production line needs to be stopped and the installation position of the traction conveying device needs to be properly adjusted again so as to adjust the distance between the traction conveying device and the shearing device, realize the traction conveying of the silicon steel sheets with different lengths, and is time-consuming and labor-consuming, low in automation degree and low in production efficiency.

Disclosure of Invention

An object of the utility model is to overcome the aforesaid not enough, provide a degree of automation height, can pull the horizontal production line draw gear that cuts of accepting the position, improving production efficiency according to the length size automatically regulated of blade of silicon steel after shearing.

The purpose of the utility model is realized like this: the utility model provides a horizontal production line draw gear's traction wheel mechanism that cuts, includes the draw gear base, be provided with on the draw gear base about two draw gear stands, control and be connected with the draw gear crossbeam between two draw gear stands, be provided with the last subassembly of pulling and the subassembly of pulling of arranging from top to bottom on the draw gear base, on pull the subassembly and pull the subassembly down and cooperate and will pull the silicon steel sheet of the different length after shearing in the former process along defeated material direction back-and-forth movement and carry to the next process.

The upper traction assembly comprises an upper traction assembly supporting beam and an upper traction assembly moving beam which are arranged up and down, the upper traction component supporting beam is arranged at the bottom of the cross beam of the traction device along the material conveying direction, the upper traction component moving beam and the upper traction component supporting beam are mutually parallel and are in sliding connection, an upper traction assembly fixing block is arranged on the bottom surface of the upper traction assembly moving beam, a left upper traction assembly rotating arm and a right upper traction assembly rotating arm are arranged on the upper traction assembly fixing block, an upper traction assembly traction wheel is arranged between the front sections of the left upper traction assembly rotating arm and the right upper traction assembly rotating arm, an upper traction assembly connecting shaft is arranged between the middle sections of the left upper traction assembly rotating arm and the right upper traction assembly rotating arm, the top surface of the upper traction assembly moving beam is provided with an upper traction assembly supporting plate extending forwards, an upper traction assembly cylinder is arranged on the upper traction assembly supporting plate, and the telescopic end of the upper traction assembly cylinder is connected with the upper traction assembly connecting shaft through a connecting piece.

The upper traction assembly moving beam is characterized in that an upper traction assembly guide rail is arranged in the length direction of the upper traction assembly moving beam, two upper traction assembly sliding blocks are arranged on the upper traction assembly guide rail, an upper traction assembly connecting plate is arranged between the two upper traction assembly sliding blocks, and the top surface of the upper traction assembly connecting plate is fixedly connected with the bottom surface of the upper traction assembly supporting beam.

The lower traction assembly comprises a left lower traction assembly fixing plate, a right lower traction assembly fixing plate, a left lower traction assembly moving plate, a right lower traction assembly moving plate and a lower traction assembly screw rod, the bottoms of the left lower traction assembly fixing plate and the right lower traction assembly fixing plate are fixedly connected with the traction device base, the left lower traction assembly moving plate and the right lower traction assembly moving plate are respectively positioned above the left lower traction assembly fixing plate and the right lower traction assembly fixing plate, the lower traction assembly screw rod is positioned below the left lower traction assembly fixing plate and the right lower traction assembly fixing plate, the lower traction assembly screw rod is arranged along the material conveying direction, a lower traction assembly moving seat is arranged on the lower traction assembly screw rod, a lower traction assembly first connecting plate extending downwards is arranged on the outer side surfaces of the left lower traction assembly moving plate and the right lower traction assembly first connecting plate;

the traction mechanism is characterized in that a plurality of guide wheels are arranged between the left lower traction assembly fixing plate and the right lower traction assembly fixing plate, a lower traction assembly traction wheel and a lower traction assembly fourth guide wheel are arranged between the left lower traction assembly moving plate and the right lower traction assembly moving plate, the lower traction assembly traction wheel and the lower traction assembly fourth guide wheel are arranged in the front-back direction, a lower traction assembly motor is arranged below the left lower traction assembly fixing plate and the right lower traction assembly fixing plate, a lower traction assembly driving wheel is arranged at the output end of the lower traction assembly motor, and a lower traction assembly conveying belt is connected between the lower traction assembly driving wheel and the guide wheels, the lower traction assembly traction wheel and the lower traction assembly fourth guide wheel in a.

The lower traction assembly guide rail is arranged between the left lower traction assembly first connecting plate and the right lower traction assembly first connecting plate along the material conveying direction, the lower traction assembly guide rail is connected with the bottoms of the left lower traction assembly fixing plate and the right lower traction assembly fixing plate through a lower traction assembly third connecting plate, two lower traction assembly sliding blocks are arranged on the lower traction assembly guide rail, a lower traction assembly second connecting plate is arranged between the two lower traction assembly sliding blocks, and the left side and the right side of the lower traction assembly second connecting plate are respectively connected with the left lower traction assembly first connecting plate and the right lower traction assembly first connecting plate.

The rear section of one of the lower traction component fixing plates is provided with a lower traction component guide plate.

The lower traction assembly guide plate is in a right-angle triangular shape.

And a plurality of lower traction assembly connecting blocks are arranged between the left lower traction assembly fixing plate and the right lower traction assembly fixing plate.

The plurality of guide wheels are sequentially a first guide wheel of a lower traction assembly, a second guide wheel of the lower traction assembly and a third guide wheel of the lower traction assembly from back to front, the second guide wheel of the lower traction assembly is positioned below the first guide wheel of the lower traction assembly, the driving wheel of the lower traction assembly is positioned between the first guide wheel of the lower traction assembly and the second guide wheel of the lower traction assembly, and the third guide wheel of the lower traction assembly is positioned between the traction wheel of the lower traction assembly and the fourth guide wheel of the lower traction assembly.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model relates to a horizontal production line draw gear's traction wheel mechanism of cutting includes and pulls the subassembly and pull the subassembly down, on pull the subassembly and pull the subassembly down and cooperate and will pull fast to carry to the reason material device along the blade of silicon steel of defeated material direction back-and-forth movement after the second shearing mechanism cuts through the different length, need not to shut down the mounted position readjustment to draw gear, degree of automation is high, improve production efficiency.

Drawings

Fig. 1 is a schematic view of the horizontal shearing production line of the present invention.

Fig. 2 is a schematic structural view of the traction device.

Fig. 3 is a schematic view of another perspective of the traction device.

Fig. 4 is a schematic structural diagram of the traction wheel mechanism in fig. 2.

Fig. 5 is a schematic structural view of the upper pulling assembly of fig. 4.

Fig. 6 is a schematic structural view of the lower traction assembly of fig. 4.

Fig. 7 is a schematic structural view of fig. 6 with the left lower pulling assembly fixing plate, the left lower pulling assembly moving plate and the left lower pulling assembly first connecting plate removed.

Fig. 8 is a schematic structural view of the guide adjustment mechanism in fig. 2.

Fig. 9 is a schematic view of the connection relationship between the traction device and the second shearing device.

Fig. 10 is a schematic structural diagram of the material arranging device.

Fig. 11 is a schematic view of the connection between the material separating mechanism and the lifting mechanism in fig. 10.

Fig. 12 is a schematic structural view of a conveying assembly of the distributing mechanism in fig. 11.

Fig. 13 is a schematic view of the tension adjusting assembly of fig. 12.

Fig. 14 is a schematic structural view of the dispensing assembly of fig. 11.

Fig. 15 is a schematic view of the left feed assembly support plate of fig. 14 with the left feed assembly support plate removed.

Fig. 16 is a schematic structural view of the lifting mechanism in fig. 10.

Fig. 17 is a schematic structural view of the receiving mechanism in fig. 10.

Fig. 18 is a schematic structural view of fig. 17 with the left receiving mechanism support plate removed.

FIG. 19 is a schematic view showing the connection among the swing rod of the receiving assembly, the rotating shaft of the receiving assembly, the gear of the receiving assembly and the rack of the receiving assembly in FIG. 18.

Wherein:

feeding device 1

Feeding device 2

Punching device 3

V-shaped punching device 4

First shearing device 5

Second shearing device 6, second shearing device base 601 and second shearing device tool apron 602

A traction device 7, a traction device base 701, a traction device upright 702, a traction device cross beam 703,

Traction wheel mechanism 704, upper traction assembly 704.1, upper traction assembly support beam 704.1.1, upper traction assembly moving beam 704.1.2, upper traction assembly air cylinder 704.1.3, upper traction assembly traction wheel 704.1.4, upper traction assembly guide rail 704.1.5, upper traction assembly slider 704.1.6, upper traction assembly connecting plate 704.1.7, upper traction assembly fixing block 704.1.8, upper traction assembly rotating arm 704.1.9, upper traction assembly support plate 704.1.10, lower traction assembly 704.2, lower traction assembly fixing plate 704.2.1, lower traction assembly moving plate 704.2.2, lower traction assembly first connecting plate 704.2.3, lower traction assembly lead screw 704.2.4, lower traction assembly first guide wheel 704.2.5, lower traction assembly second guide wheel 704.2.6, lower traction assembly third guide wheel 704.2.7, lower traction assembly fourth guide wheel 704.2.8, lower traction assembly traction wheel 704.2.9, lower traction assembly drive wheel 704.2.10, lower traction conveyor belt assembly 704.2.11, lower traction assembly connecting block 704.2.12, lower traction assembly motor 704.2.13, lower traction assembly moving seat 704.2.14, A lower traction assembly guide rail 704.2.15, a lower traction assembly slide block 704.2.16, a lower traction assembly second connecting plate 704.2.17, a lower traction assembly guide plate 704.2.18, a lower traction assembly third connecting plate 704.2.19, a guide adjusting mechanism 705, a guide adjusting mechanism fixing seat 705.1, a guide adjusting mechanism screw 705.2, a guide adjusting mechanism moving seat 705.3, a guide adjusting mechanism supporting block 705.4, a guide adjusting mechanism guide plate 705.5, a guide adjusting mechanism guide groove 705.6, a guide adjusting mechanism guide rail 705.7, a guide adjusting mechanism connecting block 705.8, a guide adjusting mechanism supporting beam 705.9, a guide adjusting mechanism slide block 705.10, a transmission assembly supporting seat 706, a transmission assembly transmission shaft 707, a transmission assembly first gear 708, a transmission assembly second gear 709, a transmission assembly first chain wheel 710, a transmission assembly second chain wheel 711, a transmission assembly tensioning chain wheel 712, a traction wheel mechanism guide rail 713, a traction device first connecting block 714, a traction device first pin 715, a, Second connecting block 716 of traction device and second pin 717 of traction device

Sorting device 8, material distributing mechanism 801, material distributing mechanism rack 801.1, material distributing mechanism conveying assembly 801.2, material distributing mechanism conveying frame 801.2.1, material distributing mechanism conveying assembly motor 801.2.2, material distributing mechanism conveying assembly driving wheel 801.2.3, material distributing mechanism conveying assembly driven wheel 801.2.4, material distributing mechanism conveying belt 801.2.5, material distributing mechanism tensioning wheel 801.2.6, tensioning adjusting assembly fixing seat 801.2.7, tensioning adjusting assembly guide block 801.2.8, tensioning adjusting assembly guide groove 801.2.9, tensioning adjusting assembly adjusting block 801.2.10, tensioning adjusting assembly adjusting screw 801.2.11, corner joint 801.2.12, material distributing assembly 801.3, material distributing assembly support column 801.3.1, material distributing assembly connecting beam 801.3.2, material distributing assembly support plate 801.3.3, material distributing assembly rotating shaft 801.3.4, material distributing assembly cylinder seat 801.3.5, material distributing assembly cylinder 801.3.6, material distributing plate 801.3.7, material distributing assembly swing arm 801.3.8, material distributing assembly fixing part 801.3.9, material distributing assembly support column 801.3.10, material distributing assembly first support rod 801.3.11, material distributing assembly support column 801.3.11, material distributing assembly cylinder 801.3.5, material distributing assembly cylinder 3942, material, A material distributing component material baffle 801.3.12, a material distributing component fixed block 801.3.13, a material distributing component limit screw 801.3.14, a material distributing component second support rod 801.3.15, a material distributing component supporting plate 801.3.16, a lifting mechanism 802, a lifting mechanism frame 802.1, a lifting mechanism base 802.1.1, a lifting mechanism upright 802.1.2, a lifting mechanism cross beam 802.1.3, a lifting component 802.2, a lifting component double-end motor 802.2.1, a lifting component transmission box 802.2.2, a lifting screw 802.2.3, a lifting seat 802.2.4, a lifting mechanism guide rail 802.2.5, a lifting mechanism slide block 802.2.6, a lifting frame 802.3, an upper material receiving mechanism fixing frame 802.4, an upper material distributing mechanism conveying component fixing frame 802.5, a lower material receiving mechanism fixing frame 802.6, a lower material distributing mechanism conveying component fixing frame 802.7, a material receiving mechanism 803, a material receiving mechanism supporting frame 803.1, a material receiving mechanism supporting plate 803.1.1, a material receiving mechanism connecting plate 803.1.2, a material receiving mechanism conveying component 803.2, a material receiving mechanism conveying component motor 803.2.1, a, The receiving mechanism conveying component driven wheel 803.2.3, a receiving mechanism conveying belt 803.2.4, a receiving mechanism conveying component first synchronizing wheel 803.2.5, a receiving mechanism conveying component second synchronizing wheel 803.2.6, a receiving mechanism conveying component belt 803.2.7, a receiving mechanism conveying component tensioning wheel 803.2.8, a receiving component 803.3, a receiving component cylinder 803.3.1, a receiving component linkage rod 803.3.2, a receiving component swing rod 803.3.3, a receiving component transmission box 803.3.4, a receiving component fixing block 803.3.5, a receiving component rotating shaft 803.3.6, a receiving component gear 803.3.7, a receiving component rack 803.3.8, a receiving component guide ring 803.3.9, a receiving component magnet frame 803.3.10, a receiving mechanism beating component 803.4, a receiving mechanism beating component cylinder 803.4.1, a receiving mechanism beating component 803.4.2, a receiving mechanism beating component mounting plate 803.4.3, a receiving mechanism fixing plate 803.5, a receiving frame 804, a receiving tray 805 and a receiving net 806.

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. 1-19, the cross shearing production line of the present invention comprises a feeding device 1, a feeding device 2, a punching device 3, a V-shaped punching device 4, a first shearing device 5, a second shearing device 6, a traction device 7, and a material arranging device 8 in sequence,

the first shearing device 5 and the second shearing device 6 are symmetrically arranged front and back, the second shearing device 6 comprises a second shearing device base 601, a second shearing device cutter holder 602 arranged at 135 degrees is arranged on the second shearing device base 601, a shearing die is arranged on the second shearing device cutter holder 602, and in the shearing process, the second shearing device cutter holder 602 moves left and right along the shearing direction and shears to realize shearing of silicon steel sheets with different lengths;

the traction device 7 moves along the material conveying direction to convey the cut silicon steel sheets with different lengths to the material arranging device 8, the material arranging device 8 comprises a material distributing mechanism 801 and a material receiving mechanism 802, and the material distributing mechanism 801 is used for distributing and conveying the silicon steel sheets with different lengths and performing classified stacking through the material receiving mechanism 802;

the traction device 7 comprises a traction device base 701, a traction wheel mechanism 704 and a guide adjusting mechanism 705 are arranged on the traction device base 701, the traction wheel mechanism 704 comprises an upper traction assembly 704.1 and a lower traction assembly 704.2, the upper traction assembly 704.1 and the lower traction assembly 704.2 are matched with each other to move back and forth along a material conveying direction, silicon steel sheets with different lengths after being sheared by the second shearing device 6 are conveyed to the material arranging device 8 in a traction mode, and the guide adjusting mechanism 705 is used for guiding the width direction of the silicon steel sheets;

a left traction device upright column and a right traction device upright column 702 are arranged on the traction device base 701, and a traction device cross beam 703 is arranged between the left traction device upright column and the right traction device upright column 702;

the traction wheel mechanism 704 comprises an upper traction assembly 704.1 and a lower traction assembly 704.2 which are arranged up and down, the upper traction assembly 704.1 comprises an upper traction assembly supporting beam 704.1.1 and an upper traction assembly moving beam 704.1.2 which are arranged up and down, the upper traction assembly supporting beam 704.1.1 is arranged at the bottom of the traction device cross beam 703 along the material conveying direction, the rear section of the upper traction assembly supporting beam 704.1.1 is fixedly connected with the middle section of the traction device cross beam 703, the upper traction assembly moving beam 704.1.2 and the upper traction assembly supporting beam 704.1.1 are parallel and connected in a sliding way, the front section of the bottom surface of the upper traction assembly moving beam 704.1.2 is provided with an upper traction assembly fixing block 704.1.8, the upper traction assembly fixing block 704.1.8 is provided with a left upper traction assembly rotating arm 704.1.9 and a right upper traction assembly rotating arm 704.1.9, an upper traction assembly traction wheel 704.1.4 is arranged between the front sections of the left upper traction assembly rotating arm 704.1.9 and the right upper traction assembly rotating arm 704.1.9, an upper traction assembly connecting shaft is, an upper traction assembly supporting plate 704.1.10 extending forwards is arranged at the front section of the top surface of the upper traction assembly moving beam 704.1.2, an upper traction assembly air cylinder 704.1.3 arranged vertically is arranged at the front section of the upper traction assembly supporting plate 704.1.10, the upper traction assembly air cylinder 704.1.3 is positioned right above an upper traction assembly connecting shaft, and the telescopic end of the upper traction assembly air cylinder 704.1.3 is connected with the middle part of the upper traction assembly connecting shaft through a connecting piece;

an upper traction assembly guide rail 704.1.5 is arranged in the length direction of the top surface of the upper traction assembly moving beam 704.1.2, two upper traction assembly sliding blocks 704.1.6 are arranged on the upper traction assembly guide rail 704.1.5, an upper traction assembly connecting plate 704.1.7 is arranged between the two upper traction assembly sliding blocks 704.1.6, and the top surface of the upper traction assembly connecting plate 704.1.7 is fixedly connected with the bottom surface of the upper traction assembly supporting beam 704.1.1;

the lower traction assembly 704.2 comprises a left lower traction assembly fixing plate 704.2.1, a right lower traction assembly fixing plate 704.2.2, a left lower traction assembly moving plate 704.2.2 and a lower traction assembly screw rod 704.2.4, the middle sections of the bottoms of the left lower traction assembly fixing plate 704.2.1 and the middle section of the traction device base 701 are fixedly connected, the left lower traction assembly moving plate 704.2.2 and the right lower traction assembly moving plate 704.2.2 are respectively positioned above the front sections of the left lower traction assembly fixing plate 704.2.1 and the right lower traction assembly fixing plate 704.2.1, the lower traction assembly screw rod 704.2.4 is positioned below the front sections of the left lower traction assembly fixing plate 704.2.1 and the right lower traction assembly fixing plate 704.2.1, the lower traction assembly screw rod 704.2.4 is installed on the bottom surface of the second shearing device base 601 along the material conveying direction, a lower traction assembly moving seat 704.2.14 is arranged on the lower traction assembly screw rod 704.2.4, a lower traction assembly first connecting plate 704.2.3 extending downwards is respectively arranged on the outer side surfaces of the left lower traction assembly moving plate 73 704.2.2, and the lower parts of the Connecting;

a plurality of guide wheels are arranged between the left lower traction assembly fixing plate 704.2.1 and the right lower traction assembly fixing plate 704.2.1, a lower traction assembly traction wheel 704.2.9 and a lower traction assembly fourth guide wheel 704.2.8 are arranged between the left lower traction assembly moving plate 704.2.2 and the right lower traction assembly moving plate 704.2.2, the lower traction assembly traction wheel 704.2.9 and the lower traction assembly fourth guide wheel 704.2.8 are arranged in front of and behind, a lower traction assembly motor 704.2.13 is arranged below the rear section of the left lower traction assembly fixing plate 704.2.1, a lower traction assembly driving wheel 704.2.10 is arranged at the output end of the lower traction assembly motor 704.2.13, and a lower traction assembly conveying belt 704.2.11 is wound between the lower traction assembly driving wheel 704.2.10 and the plurality of guide wheels 704.2.9 and between the lower traction assembly traction wheel 5392 and the lower traction assembly fourth guide wheel 704.2.8;

a lower traction assembly guide rail 704.2.15 arranged along the material conveying direction is arranged between the left lower traction assembly first connecting plate 704.2.3 and the right lower traction assembly first connecting plate 704.2.3, the lower traction assembly guide rail 704.2.15 is connected with the front sections of the bottoms of the left lower traction assembly fixing plate 704.2.1 and the right lower traction assembly fixing plate 704.2.1 through a lower traction assembly third connecting plate 704.2.19, two lower traction assembly sliding blocks 704.2.16 are arranged on the lower traction assembly guide rail 704.2.15, a lower traction assembly second connecting plate 704.2.17 is arranged between the two lower traction assembly sliding blocks 704.2.16, and the left side and the right side of the lower traction assembly second connecting plate 704.2.17 are fixedly connected with the inner side surfaces of the left lower traction assembly first connecting plates 704.2.3 respectively;

the guide wheels are sequentially a lower traction assembly first guide wheel 704.2.5, a lower traction assembly second guide wheel 704.2.6 and a lower traction assembly third guide wheel 704.2.7 from back to front, the lower traction assembly second guide wheel 704.2.6 is positioned below the lower traction assembly first guide wheel 704.2.5, the lower traction assembly driving wheel 704.2.10 is positioned between the lower traction assembly first guide wheel 704.2.5 and the lower traction assembly second guide wheel 704.2.6, and the lower traction assembly third guide wheel 704.2.7 is positioned between the lower traction assembly traction wheel 704.2.9 and the lower traction assembly fourth guide wheel 704.2.8;

a plurality of lower traction assembly connecting blocks 704.2.12 are arranged between the left lower traction assembly fixing plate 704.2.1 and the right lower traction assembly fixing plate 704.2.1, a lower traction assembly guide plate 704.2.18 is arranged on the outer side face of the rear section of the lower traction assembly fixing plate 704.2.1, and the lower traction assembly guide plate 704.2.18 is in a right triangle shape.

The guiding adjustment mechanism 705 comprises a left guiding adjustment mechanism fixing seat 705.1 and a right guiding adjustment mechanism fixing seat 705.1, the left and right guide adjusting mechanism fixing seats 705.1 are respectively positioned at the outer sides of the left and right lower traction assembly fixing plates 704.2.1, a guide adjusting mechanism screw 705.2 which penetrates through the left lower traction assembly fixing plate 704.2.1 and the right lower traction assembly fixing plate 705.1 is arranged between the left guide adjusting mechanism fixing seat and the right guide adjusting mechanism fixing seat 705.1, the left section and the right section of the guide adjusting mechanism screw rod 705.2 are provided with reverse thread sections, guide adjusting mechanism moving seats 705.3 are symmetrically arranged on the left section and the right section of the guide adjusting mechanism screw rod 705.2, a guide adjusting mechanism supporting block 705.4 is arranged at the top of the guide adjusting mechanism moving seat 705.3, the guide adjusting mechanism supporting block 705.4 is provided with a guide adjusting mechanism guide plate 705.5 arranged along the material conveying direction, the inner side of the guide adjusting mechanism guide plate 705.5 is provided with a guide adjusting mechanism guide groove 705.6 arranged along the length direction;

a transversely arranged guide adjusting mechanism supporting beam 705.9 is arranged between the guide adjusting mechanism fixing seat 705.1 and the lower traction assembly fixing plate 704.2.1 which are positioned on the same side, the guide adjusting mechanism supporting beam 705.9 is positioned above the guide adjusting mechanism screw 705.2, one end of the guide adjusting mechanism supporting beam 705.9 is connected with the top of the guide adjusting mechanism fixing seat 705.1, the other end of the guide adjusting mechanism supporting beam 705.9 is connected with the outer side surface of the lower traction assembly fixing plate 704.2.1 through a guide adjusting mechanism connecting block 705.8, a guide adjusting mechanism guide rail 705.7 is arranged on the guide adjusting mechanism supporting beam 705.9, a guide adjusting mechanism sliding block 705.10 is arranged on the guide adjusting mechanism guide rail 705.7, and the guide adjusting mechanism sliding block 705.10 is fixedly connected with the guide adjusting mechanism supporting block 705.4;

the guide adjusting mechanism screw rod rotates to drive the guide adjusting mechanism moving seats on the left side and the right side to move oppositely or oppositely so as to adjust the space between the guide plates of the guide adjusting mechanisms on the left side and the right side, thereby realizing the conveying of the silicon steel sheets with different widths.

The traction device base 701 is further provided with a transmission assembly, the transmission assembly comprises a front transmission assembly supporting seat 706 and a rear transmission assembly supporting seat 706, a transmission assembly transmission shaft 707 is arranged between the front transmission assembly supporting seat and the rear transmission assembly supporting seat 706, a transmission assembly first gear 708 is arranged on the transmission assembly transmission shaft 707, a transmission assembly second gear 709 is arranged at one end of the guide adjusting mechanism screw 705.2, the transmission assembly second gear 709 is meshed with the transmission assembly first gear 708, a transmission assembly first chain wheel 710 is arranged at the front end of the transmission assembly transmission shaft 707, a transmission assembly second chain wheel 711 is arranged at the rear end of the lower traction assembly screw 704.2.4, a transmission assembly tensioning chain wheel 712 is arranged at the rear side of the second shearing device base 601, and a transmission assembly chain is wound among the transmission assembly first chain wheel 710, the transmission assembly second chain wheel 711 and the transmission assembly tensioning chain wheel 712, the transmission assembly transmission shaft 707 is driven by a power source to drive meshing transmission and chain transmission, and can simultaneously drive the guide adjusting mechanism screw rod and the lower traction assembly screw rod to rotate.

The second shearing device tool apron 602 is provided with a traction device guide rail 713, the traction wheel mechanism guide rail 713 is arranged along the shearing direction of the second shearing device 6, the traction device guide rail 713 is provided with a first traction device sliding block and a second traction device sliding block, the first traction device sliding block is provided with a first traction device connecting block 714, the first traction device connecting block 714 is connected with an upper traction assembly supporting plate 704.1.10 through a first traction device pin shaft 715 which is vertically arranged, the second traction device sliding block is provided with a second traction device connecting block 716, and the second traction device connecting block 716 is connected with a guide adjusting mechanism guide plate 705.5 which is positioned on the right side through a second traction device pin shaft 717 which is vertically arranged.

The working principle of the traction device 7 is as follows: the lower traction assembly motor is started to drive the lower traction assembly conveyer belt to run, the lower traction assembly screw rod rotates to drive the first connecting plate of the lower traction assembly to do linear motion along the length direction of the first connecting plate, the lower traction assembly moving plate is driven to move back and forth, and the lower traction assembly traction wheel and the fourth guide wheel of the lower traction assembly are driven to simultaneously move forward or backward under the driving of the lower traction assembly moving plate, so that the lower traction assembly conveyer belt is driven to extend back and forth along the conveying direction; meanwhile, the guide rail of the traction device moves left and right along the shearing direction along with the tool apron of the second shearing device, the upper traction assembly traction wheel is driven to move directionally by the first connecting block of the traction device, the bearing point is adjusted in time according to the size of the sheared silicon steel sheet, after the corresponding bearing point is reached, the upper traction assembly cylinder retracts, the upper traction assembly traction wheel is controlled to lift upwards, the silicon steel sheet sheared by the second shearing device is led into the lower traction assembly conveying belt, the upper traction assembly cylinder extends out, the upper traction assembly traction wheel is controlled to press downwards and is matched with the lower traction assembly conveying belt to provide certain traction force for the sheared silicon steel sheet, and the silicon steel sheets with different lengths are quickly dragged and conveyed into the material arranging device.

The material arranging device 8 comprises a material distributing mechanism 801, a lifting mechanism 802 and a material receiving mechanism 803 in sequence along the material conveying direction,

the material distributing mechanism 801 comprises a material distributing mechanism rack 801.1, two material distributing mechanism conveying assemblies 801.2 which are arranged up and down are arranged on the material distributing mechanism rack 801.1, a material distributing assembly 801.3 is arranged between the feeding ends of the two material distributing mechanism conveying assemblies 801.2,

the lifting mechanism 802 comprises a lifting mechanism frame 802.1, a lifting frame 802.3 and a lifting component 802.2 for controlling the lifting frame 802.3 to lift up and down are arranged on the lifting mechanism frame 802.1,

receiving agencies 803 is provided with two from top to bottom, receiving agencies 803 includes receiving agencies support frame 803.1, be provided with receiving agencies conveying component 803.2, receiving components 803.3 and receiving agencies in the receiving agencies support frame 803.1 and clap material subassembly 803.4, receiving agencies conveying component 803.2's feed end corresponds from top to bottom with the discharge end of receiving agencies conveying component 801.2, receiving agencies conveying component 801.2's discharge end is connected with crane 802.3, receiving agencies support frame 803.1 and crane 802.3 fixed connection.

The feed mechanism conveying assembly 801.2 comprises a feed mechanism conveying frame 801.2.1, a feed mechanism conveying assembly motor 801.2.2 is arranged at the bottom of the feed mechanism conveying frame 801.2.1, a feed mechanism conveying assembly driving wheel 801.2.3 is arranged at the output end of the feed mechanism conveying assembly motor 801.2.2, a feed mechanism tensioning wheel 801.2.6 is arranged obliquely above the feed mechanism conveying assembly driving wheel 801.2.3, feed mechanism conveying assembly driven wheels 801.2.4 are arranged at the front side and the rear side of the feed mechanism conveying frame 801.2.1, feed mechanism conveying assembly conveying belt 801.2.5 is sleeved between the two feed mechanism conveying assembly driven wheels 801.2.4, the feed mechanism conveying assembly driving wheel 801.2.3 and a feed mechanism tensioning wheel 801.2.6, the feed mechanism tensioning wheel 801.2.6 adjusts the tensioning force of the feed mechanism conveying belt 801.2.5 through a tensioning adjusting assembly, the tensioning adjusting assembly comprises a tensioning adjusting assembly fixing seat 801.2.7, and the tensioning adjusting assembly fixing seat 801.2.7 is fixedly connected with the bottom of the feed mechanism conveying frame 801.2.1, a tensioning adjusting component guide block 801.2.8 is arranged on one side of the tensioning adjusting component fixing seat 801.2.7, a tensioning adjusting component guide groove 801.2.9 parallel to the material conveying direction is arranged on the bottom surface of the tensioning adjusting component guide block 801.2.8, a tensioning adjusting component adjusting block 801.2.10 is arranged in the tensioning adjusting component guide groove 801.2.9, the distributing mechanism tensioning wheel 801.2.6 is arranged on the tensioning adjusting component adjusting block 801.2.10, a tensioning adjusting component adjusting screw 801.2.11 transversely arranged is arranged at the lower part of the tensioning adjusting component fixing seat 801.2.7 in a penetrating manner, one end of the tensioning adjusting component adjusting screw 801.2.11 is fixedly connected with the tensioning adjusting component adjusting block 801.2.10, the tensioning adjusting component adjusting block 801.2.10 can be driven to move back and forth along the track of the tensioning adjusting component guide groove 801.2.9 by rotating the tensioning adjusting component adjusting screw 801.2.11 so as to adjust the tensioning force of the distributing mechanism tensioning wheel 801.2.6 on the distributing mechanism conveying belt 801.2.5, the phenomenon that a conveying belt of the distributing mechanism is loosened after long-time use to influence conveying efficiency is avoided;

preferably, a corner connector 801.2.12 is provided between the top surface of the tension adjustment assembly guide block 801.2.8 and the bottom of the feed mechanism carriage 801.2.1.

The material distributing assembly 801.3 comprises a left material distributing assembly support column 801.3.1 and a right material distributing assembly support column 801.3.1 which are arranged on the top of a material distributing mechanism rack 801.1, the left material distributing assembly support column 801.3.1 and the right material distributing assembly support column 801.3.1 are respectively arranged on the left side and the right side of the feed ends of two material distributing mechanism conveying assemblies 801.2, one material distributing assembly support column 801.3.1 is provided with a material distributing assembly cylinder base 801.3.5, the material distributing assembly cylinder base 801.3.5 is provided with a material distributing assembly cylinder 801.3.6 which is vertically arranged, the inner side surfaces of the left material distributing assembly support column 801.3.1 and the right material distributing assembly support column 801.3.1 are both provided with a material distributing assembly support plate 801.3.3 which is vertically arranged, a material distributing assembly rotating shaft 801.3.4 is arranged between the left material distributing assembly support plate 801.3.3 and the right material distributing assembly support plate 801.3.3, a material distributing assembly swinging arm 801.3.8 is arranged between one end of the material distributing assembly rotating shaft 801.3.4 and the telescopic end of the, the material distributing assembly air cylinder 801.3.6 drives the material distributing assembly rotating shaft 801.3.4 to rotate through the material distributing assembly swinging arm 801.3.8;

the material distributing plate 801.3.7 comprises an upper inclined plate and a lower inclined plate, the front side of the upper inclined plate is connected with the front side of the lower inclined plate, a plurality of connecting plates which are arranged in parallel left and right are arranged between the upper inclined plate and the lower inclined plate, sleeving holes are formed in the connecting plates, and the material distributing assembly rotating shaft 801.3.4 penetrates into the sleeving holes;

an upper distributing assembly fixing block 801.3.13 and a lower distributing assembly fixing block 801.3.13 are arranged on the outer side face of the distributing assembly supporting plate 801.3.3 close to the distributing assembly swing arm 801.3.8, a vertically-arranged distributing assembly limiting screw 801.3.14 is arranged on the distributing assembly fixing block 801.3.13, the upper distributing assembly limiting screw 801.3.14 and the lower distributing assembly limiting screw 801.3.14 are respectively positioned above and below the distributing assembly swing arm 801.3.8 and are symmetrically arranged up and down, and the swing amplitude of the distributing assembly swing arm 801.3.8 can be controlled by adjusting the distributing assembly limiting screw 801.3.14;

the front sides of the left and right distributing assembly supporting plates 801.3.3 are respectively provided with a distributing assembly fixing piece 801.3.9, two vertically parallel distributing assembly material blocking columns 801.3.10 are arranged between the two distributing assembly fixing pieces 801.3.9, and a gap for passing through the silicon steel sheet is reserved between the two distributing assembly material blocking columns 801.3.10;

a first distributing assembly supporting rod 801.3.11 is arranged above the distributing plate 801.3.7, two ends of the first distributing assembly supporting rod 801.3.11 are fixedly connected with a left distributing assembly supporting plate 801.3.3 and a right distributing assembly supporting plate 801.3.3 respectively, a distributing assembly striker plate 801.3.12 is arranged on the first distributing assembly supporting rod 801.3.11, and the distributing assembly striker plate 801.3.12 is matched with an upper inclined plate of the distributing plate 801.3.7 to introduce the silicon steel sheets into the distributing mechanism conveying assembly 801.2 above the distributing plate;

a second supporting rod 801.3.15 of the distributing component is arranged below the distributing plate 801.3.7, two ends of the second supporting rod 801.3.15 of the distributing component are fixedly connected with a left supporting plate 801.3.3 and a right supporting plate 801.3.3 of the distributing component respectively, a supporting plate 801.3.16 of the distributing component is arranged on the second supporting rod 801.3.15 of the distributing component, and a supporting plate 801.3.16 of the distributing component is matched with a lower inclined plate of the distributing plate 801.3.7 to guide the silicon steel sheet into a conveying component 801.2 of a distributing mechanism positioned below;

a material distributing assembly connecting beam 801.3.2 is connected between the top ends of the left material distributing assembly supporting column 801.3.1 and the right material distributing assembly supporting column 801.3.1.

The working principle of the material distributing mechanism 801 is as follows: two feed mechanism conveyor components motors start simultaneously about the drive, two feed mechanism conveyer belts move simultaneously about the drive, divide the action of material subassembly cylinder, it rotates to drive the rotation axis of material subassembly, drive the upset of branch flitch promptly, when dividing the flitch and upwards overturning, the swash plate of branch flitch cooperatees with the feed assembly striker plate and lies in the feed mechanism conveyer belt of top with the blade of silicon steel introduction, when dividing the flitch and overturning downwards, the lower swash plate of branch flitch cooperatees with the feed assembly layer board and lies in the feed mechanism conveyer belt of below with the blade of silicon steel introduction, in this way loop operation, realize the purpose that automatic branch material was carried.

The material receiving mechanism 803 comprises a material receiving mechanism support frame 803.1, the material receiving mechanism support frame 803.1 comprises a left material receiving mechanism support plate 803.1.1 and a right material receiving mechanism support plate 803.1.1, a plurality of material receiving mechanism connecting plates 803.1.2 are arranged between the top parts of the left material receiving mechanism support plate 803.1 and the right material receiving mechanism support plate 803.1.1 in a front-back parallel arrangement, a material receiving mechanism conveying assembly 803.2 is arranged between the left material receiving mechanism support plate 803.1.1 and the right material receiving mechanism support plate 803.1.1, the material receiving mechanism conveying assembly 803.2 comprises a material receiving mechanism conveying assembly motor 803.2.1, a material receiving mechanism conveying assembly driving wheel 803.2.2 and a material receiving mechanism conveying assembly driven wheel 803.2.3 which are arranged in a front-back parallel arrangement, a left material receiving mechanism conveying assembly, a second synchronizing wheel 803.2.6 of the material receiving mechanism conveying assembly is arranged at one end of the material receiving mechanism conveying assembly driving wheel 803.2.2, and a material receiving mechanism conveying assembly belt 803.2.7 is sleeved between the first synchronizing wheel 803.2.5 of the material receiving mechanism conveying assembly and the second synchronizing wheel 803.2.6 of the material receiving mechanism conveying assembly;

a front and a rear material receiving mechanism conveying assembly tension wheels 803.2.8 are arranged between the left and the right material receiving mechanism supporting plates 803.1.1, and the front and the rear material receiving mechanism conveying assembly tension wheels 803.2.8 are respectively positioned above the rear of the material receiving mechanism conveying assembly driving wheel 803.2.2 and above the front of the material receiving mechanism conveying assembly driven wheel 803.2.3;

a material receiving mechanism fixing plate 803.5 is arranged between the upper layer and the lower layer of the left and right material receiving mechanism conveying belts 803.2.4, the left and right sides of the material receiving mechanism fixing plate 803.5 are respectively fixedly connected with the lower parts of the left and right material receiving mechanism supporting plates 803.1.1, a material receiving assembly 803.3 is arranged between the material receiving mechanism fixing plate 803.5 and the upper layer of the material receiving mechanism conveying belt 803.2.4, the material receiving assembly 803.3 comprises a material receiving assembly cylinder 803.3.1, a material receiving assembly fixing shaft is arranged at the fixed end of the material receiving assembly cylinder 803.3.1, two ends of the material receiving assembly fixing shaft are respectively connected with the left and right material receiving mechanism supporting plates 803.1.1, a material receiving assembly linkage rod 803.3.2 arranged along the material conveying direction is arranged at the telescopic end of the material receiving assembly cylinder 803.3.1, a plurality of material receiving assembly swing rods 803.3.3 are arranged on the material receiving assembly linkage rod 803.3.2 at intervals, and the top end of the, a material receiving component transmission box 803.3.4 is arranged at the bottom end of the material receiving component swing rod 803.3.3, a material receiving component fixing block 803.3.5 is arranged at one side of the material receiving component transmission box 803.3.4, the left side and the right side of the material receiving component fixing block 803.3.5 are fixedly connected with a left material receiving mechanism supporting plate 803.1.1 and a right material receiving mechanism supporting plate 803.1.1 respectively, a material receiving component rotating shaft 803.3.6 perpendicular to the material receiving component linkage rod 803.3.2 is arranged in the material receiving component transmission box 803.3.4, one end of the material receiving component rotating shaft 803.3.6 extends out of the material receiving component transmission box 803.3.4 and is connected with the bottom end of the material receiving component swing rod 803.3.3, the material receiving component swing rod 803.3.3 can drive the material receiving component rotating shaft 803.3.6 to rotate, a material receiving component gear 803.3.7 is arranged on the material receiving component rotating shaft 803.3.6, a material receiving component rack 803.3.8 which is vertically arranged is arranged in the material receiving component transmission box 803.3.4, the material receiving component 803.3.8 is meshed with the material receiving component gear 803.3.7, the, the bottom end of the material receiving component rack 803.3.8 extends out of the bottom surface of the material receiving component transmission box 803.3.4, material receiving component guide rings 803.3.9 are arranged between the upper section and the lower section of the material receiving component rack 803.3.8 and the top surface and the bottom surface of the material receiving component transmission box 803.3.4 respectively, material receiving component magnet frames 803.3.10 parallel to the material receiving mechanism fixing plate 803.5 are arranged between the bottom ends of the material receiving component racks 803.3.8, and a plurality of material receiving component magnets are arranged at intervals along the length direction of the material receiving component magnet frames 803.3.10;

a material beating component 803.4 of the material receiving mechanism is arranged between every two adjacent material receiving component transmission boxes 803.3.4, the receiving mechanism material beating component 803.4 comprises a receiving mechanism material beating component mounting plate 803.4.3, the material collecting mechanism material beating component mounting plate 803.4.3 is positioned above the material collecting component magnet frame 803.3.10, the left side and the right side of the material receiving mechanism beating component mounting plate 803.4.3 are respectively fixedly connected with a left material receiving mechanism support plate 803.1.1 and a right material receiving mechanism support plate 803.1.1, the receiving mechanism material beating component mounting plate 803.4.3 is provided with a vertically arranged receiving mechanism material beating component cylinder 803.4.1, the telescopic end of the material receiving mechanism material beating component cylinder 803.4.1 is provided with a material receiving mechanism material beating component 803.4.2, the bottom end of the material beating component beating piece 803.4.2 of the material receiving mechanism sequentially penetrates through a material beating component mounting plate 803.4.3, a material receiving component magnet frame 803.3.10 and a material receiving component fixing plate 803.5 of the material receiving mechanism and extends to a position between the lower layers of the left and right material receiving mechanism conveying belts 803.2.4;

the silicon steel sheet collecting device is characterized in that a material collecting frame 804 is arranged below the material collecting mechanism 803, an upper layer of material collecting plate 805 and a lower layer of material collecting plate 805 are arranged on the material collecting frame 804, the upper layer of material collecting plate 805 and the lower layer of material collecting plate 805 are respectively corresponding to positions under the upper layer of material collecting mechanism 803 and the lower layer of material collecting plate 803, the bottom of the material collecting plate 805 is connected with the material collecting frame 804 in a sliding mode, and a protective net 806 is arranged at the tail end of the material collecting frame 804 to prevent silicon steel sheets.

The working principle of the material receiving mechanism 803 is as follows: the motor of the conveying component of the material receiving mechanism is started, the left and right conveying belts of the material receiving mechanism are driven by the belt to run simultaneously, the cylinder of the material receiving component acts, the material collecting component linkage rod drives a plurality of material collecting component swing rods to swing simultaneously, drives a plurality of material collecting component rotating shafts to rotate, drives a plurality of material collecting component gears to rotate, the receiving component rack is driven to move downwards along the vertical direction through meshing transmission, the receiving component magnet rack is driven to move downwards to be close to the lower layer of the receiving mechanism conveying belt, the silicon steel sheet is adsorbed on the bottom surface of the receiving mechanism conveying belt through magnetic attraction, when the silicon steel sheet is conveyed to the position right above the material receiving plate, the material receiving mechanism material beating component cylinder acts to drive the material receiving mechanism material beating component to push the silicon steel sheet, therefore, the silicon steel sheets vertically fall into the material receiving tray, and the silicon steel sheets are circularly operated in the mode, so that the silicon steel sheets are orderly stacked. In this process, guarantee to receive material subassembly magnet frame vertical lift through rack and pinion meshing transmission, avoid rocking to ensure that the multi-disc blade of silicon steel can pile up neatly, need not the manual work and arrange in order again and can directly pack, improve production efficiency.

The lifting mechanism 802 comprises a lifting mechanism frame 802.1, a lifting frame 802.3 and a lifting component 802.2 for controlling the lifting frame 802.3 to lift up and down are arranged on the lifting mechanism frame 802.1, the lifting mechanism frame 802.1 comprises a lifting mechanism base 802.1.1, a left lifting mechanism upright post 802.1.2 and a right lifting mechanism upright post 802.1.2 are arranged on the lifting mechanism base 802.1.1, a lifting mechanism cross beam 802.1.3 is arranged between the top ends of the left lifting mechanism upright post 802.1.2 and the right lifting mechanism upright post 802.1.2,

the lift assembly 802.2 includes a laterally disposed lift assembly double head motor 802.2.1, two output ends of the lifting assembly double-head motor 802.2.1 are provided with a lifting assembly transmission case 802.2.2, a lifting screw rod 802.2.3 is inserted in the vertical direction of the lifting component transmission box 802.2.2, the output end of the double-headed motor 802.2.1 of the lifting component extends into the transmission box 802.2.2 of the lifting component to be matched with the lifting screw 802.2.3, the lifting screw 802.2.3 is provided with a lifting seat 802.2.4, the lifting frame 802.3 is arranged between two lifting seats 802.2.4, the left and right sides of the front part of the lifting frame 802.3 are respectively fixedly connected with two lifting seats 802.2.4, the inner side surfaces of the left and right lifting mechanism upright posts 802.1.2 are provided with lifting mechanism guide rails 802.2.5 which are vertically arranged, the lifting mechanism guide rail 802.2.5 is provided with a lifting mechanism slider 802.2.6, the left side surface and the right side surface of the lifting frame 802.3 are respectively and fixedly connected with lifting mechanism slide blocks 802.2.6 on the left lifting mechanism guide rail 802.2.5 and the right lifting mechanism guide rail 802.2.5;

an upper material collecting mechanism fixing frame 802.4, an upper material collecting mechanism conveying assembly fixing frame 802.5, a lower material collecting mechanism fixing frame 802.6 and a lower material collecting mechanism conveying assembly fixing frame 802.7 are sequentially arranged in the lifting frame 802.3 from top to bottom, the left and right outer side surfaces of the upper distributing mechanism conveying assembly fixing frame 802.5 are provided with upper rollers, the upper parts of the left and right inner side surfaces of the lifting frame 802.3 are provided with upper guide bars with L-shaped structures, the upper roller is matched and connected with the upper guide strip, the left side and the right side of the lower material distributing mechanism conveying assembly fixing frame 802.7 are respectively connected with the lower parts of the left inner side and the right inner side of the lifting frame 802.3 through pin shafts, the left side and the right side of the upper material receiving mechanism fixing frame 802.4 are respectively and fixedly connected with the upper parts of the left inner side and the right inner side of the lifting frame 802.3, the left side and the right side of the lower material receiving mechanism fixing frame 802.6 are respectively and fixedly connected with the lower parts of the left inner side and the right inner side of the lifting frame 802.3;

the left and right sides of the feeding position of the upper feed mechanism carriage 801.2.1 are connected with the left and right feed assembly support plates 801.3.3 through pin shafts, respectively, and the left and right sides of the discharging position of the upper feed mechanism carriage 801.2.1 are fixedly connected with the left and right sides of the upper feed mechanism carriage assembly fixing frame 802.5, respectively; the left side and the right side of the feeding position of the lower material distribution mechanism conveying frame 801.2.1 are provided with lower rollers, the inner side surfaces of the left material distribution assembly supporting plate 801.3.3 and the right material distribution assembly supporting plate 801.3.3 are both provided with lower guide strips of an L-shaped structure, the lower rollers are matched and connected with the lower guide strips, and the left side surface and the right side surface of the discharging position of the lower material distribution mechanism conveying frame 801.2.1 are respectively fixedly connected with the left side surface and the right side surface of a lower material distribution mechanism conveying assembly fixing frame 802.7;

the top of the feed end of the receiving mechanism support frame 803.1 located above is fixedly connected with the bottom of the upper receiving mechanism fixing frame 802.4, an upper connecting rod is arranged between the middle of the receiving mechanism support frame 803.1 and the top of the upper receiving mechanism fixing frame 802.4, the top of the feed end of the receiving mechanism support frame 803.1 located below is fixedly connected with the bottom of the lower receiving mechanism fixing frame 802.6, and a lower connecting rod is arranged between the middle of the receiving mechanism support frame 803.1 and the top of the lower receiving mechanism fixing frame 802.6.

The working principle of the lifting mechanism 802 is as follows: the lifting component double-end motor starts to drive the lifting screw rod to rotate, so that the lifting frame can perform lifting motion, the whole height of the material receiving mechanism can be adjusted, the space between the material receiving mechanism and the material receiving disc can be adjusted in real time according to the stacking height of the silicon steel sheets, the utilization rate of the material receiving box is improved, and the frequency of manual replacement of the material receiving box is reduced.

The production method of the transverse shearing production line comprises the following steps:

firstly, a feeding device conveys the unreeled silicon steel strip to a feeding device;

secondly, the feeding device conveys the silicon steel strip to the punching device;

thirdly, the silicon steel strip is punched by a punching device;

step four, performing V-shaped punching treatment on the silicon steel strip subjected to punching treatment by using a V-shaped punching device;

step five, the first shearing device carries out primary shearing on the silicon steel strip subjected to the V-shaped punching treatment;

step six, the second shearing device carries out two times of shearing on the silicon steel strip subjected to the one-time shearing to form a silicon steel sheet;

step seven, the traction device moves back and forth along the material conveying direction according to the length of the silicon steel sheets to convey the silicon steel sheets with different lengths into the material arranging device in a traction manner;

and step eight, the material arranging device carries out shunting conveying and classified stacking collection on the silicon steel sheets with different lengths.

The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (9)

1. The utility model provides a transversely cut production line draw gear's traction wheel mechanism which characterized in that: the silicon steel sheet shearing machine comprises a traction device base, wherein a left traction device upright and a right traction device upright are arranged on the traction device base, a traction device crossbeam is connected between the left traction device upright and the right traction device upright, an upper traction assembly and a lower traction assembly which are arranged from top to bottom are arranged on the traction device base, and the upper traction assembly and the lower traction assembly are matched with each other to pull and convey silicon steel sheets with different lengths sheared in the previous process to the next process along the material conveying direction back and forth movement.

2. The traction wheel mechanism of the traction device of the transverse shearing production line according to claim 1, characterized in that: the upper traction assembly comprises an upper traction assembly supporting beam and an upper traction assembly moving beam which are arranged up and down, the upper traction component supporting beam is arranged at the bottom of the cross beam of the traction device along the material conveying direction, the upper traction component moving beam and the upper traction component supporting beam are mutually parallel and are in sliding connection, an upper traction assembly fixing block is arranged on the bottom surface of the upper traction assembly moving beam, a left upper traction assembly rotating arm and a right upper traction assembly rotating arm are arranged on the upper traction assembly fixing block, an upper traction assembly traction wheel is arranged between the front sections of the left upper traction assembly rotating arm and the right upper traction assembly rotating arm, an upper traction assembly connecting shaft is arranged between the middle sections of the left upper traction assembly rotating arm and the right upper traction assembly rotating arm, the top surface of the upper traction assembly moving beam is provided with an upper traction assembly supporting plate extending forwards, an upper traction assembly cylinder is arranged on the upper traction assembly supporting plate, and the telescopic end of the upper traction assembly cylinder is connected with the upper traction assembly connecting shaft through a connecting piece.

3. The traction wheel mechanism of the traction device of the transverse shearing production line according to claim 2, characterized in that: the upper traction assembly moving beam is characterized in that an upper traction assembly guide rail is arranged in the length direction of the upper traction assembly moving beam, two upper traction assembly sliding blocks are arranged on the upper traction assembly guide rail, an upper traction assembly connecting plate is arranged between the two upper traction assembly sliding blocks, and the top surface of the upper traction assembly connecting plate is fixedly connected with the bottom surface of the upper traction assembly supporting beam.

4. The traction wheel mechanism of the traction device of the transverse shearing production line according to claim 1, characterized in that: the lower traction assembly comprises a left lower traction assembly fixing plate, a right lower traction assembly fixing plate, a left lower traction assembly moving plate, a right lower traction assembly moving plate and a lower traction assembly screw rod, the bottoms of the left lower traction assembly fixing plate and the right lower traction assembly fixing plate are fixedly connected with the traction device base, the left lower traction assembly moving plate and the right lower traction assembly moving plate are respectively positioned above the left lower traction assembly fixing plate and the right lower traction assembly fixing plate, the lower traction assembly screw rod is positioned below the left lower traction assembly fixing plate and the right lower traction assembly fixing plate, the lower traction assembly screw rod is arranged along the material conveying direction, a lower traction assembly moving seat is arranged on the lower traction assembly screw rod, a lower traction assembly first connecting plate extending downwards is arranged on the outer side surfaces of the left lower traction assembly moving plate and the right lower traction assembly first connecting plate;

the traction mechanism is characterized in that a plurality of guide wheels are arranged between the left lower traction assembly fixing plate and the right lower traction assembly fixing plate, a lower traction assembly traction wheel and a lower traction assembly fourth guide wheel are arranged between the left lower traction assembly moving plate and the right lower traction assembly moving plate, the lower traction assembly traction wheel and the lower traction assembly fourth guide wheel are arranged in the front-back direction, a lower traction assembly motor is arranged below the left lower traction assembly fixing plate and the right lower traction assembly fixing plate, a lower traction assembly driving wheel is arranged at the output end of the lower traction assembly motor, and a lower traction assembly conveying belt is connected between the lower traction assembly driving wheel and the guide wheels, the lower traction assembly traction wheel and the lower traction assembly fourth guide wheel in a.

5. The traction wheel mechanism of the traction device of the transverse shearing production line according to claim 4, characterized in that: the lower traction assembly guide rail is arranged between the left lower traction assembly first connecting plate and the right lower traction assembly first connecting plate along the material conveying direction, the lower traction assembly guide rail is connected with the bottoms of the left lower traction assembly fixing plate and the right lower traction assembly fixing plate through a lower traction assembly third connecting plate, two lower traction assembly sliding blocks are arranged on the lower traction assembly guide rail, a lower traction assembly second connecting plate is arranged between the two lower traction assembly sliding blocks, and the left side and the right side of the lower traction assembly second connecting plate are respectively connected with the left lower traction assembly first connecting plate and the right lower traction assembly first connecting plate.

6. The traction wheel mechanism of the traction device of the transverse shearing production line according to claim 4, characterized in that: the rear section of one of the lower traction component fixing plates is provided with a lower traction component guide plate.

7. The traction wheel mechanism of the traction device of the transverse shearing production line according to claim 6, characterized in that: the lower traction assembly guide plate is in a right-angle triangular shape.

8. The traction wheel mechanism of the traction device of the transverse shearing production line according to claim 4, characterized in that: and a plurality of lower traction assembly connecting blocks are arranged between the left lower traction assembly fixing plate and the right lower traction assembly fixing plate.

9. The traction wheel mechanism of the traction device of the transverse shearing production line according to claim 4, characterized in that: the plurality of guide wheels are sequentially a first guide wheel of a lower traction assembly, a second guide wheel of the lower traction assembly and a third guide wheel of the lower traction assembly from back to front, the second guide wheel of the lower traction assembly is positioned below the first guide wheel of the lower traction assembly, the driving wheel of the lower traction assembly is positioned between the first guide wheel of the lower traction assembly and the second guide wheel of the lower traction assembly, and the third guide wheel of the lower traction assembly is positioned between the traction wheel of the lower traction assembly and the fourth guide wheel of the lower traction assembly.

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