CN112002505A - Electric power insulator forming system - Google Patents

Abstract

The invention relates to an electric insulator forming and processing system which comprises a workbench, a supporting mechanism, a moving mechanism and a baking mechanism, wherein the workbench is symmetrically arranged on the working ground in a left-right mode, the supporting mechanism is arranged on the upper end face of the workbench, the moving mechanism is arranged on the outer end face of the supporting mechanism, and the baking mechanism is arranged on the inner end faces of the left workbench and the right workbench.

Description

Electric power insulator forming system

Technical Field

The invention relates to the technical field of insulator forming and processing, in particular to a power insulator forming and processing system.

Background

The insulator is a special insulating control part, can play an important role in overhead transmission lines, is a device which can bear the voltage and mechanical stress and is arranged between conductors with different potentials or between the conductors and a grounding component, is mostly used for telegraph poles in the early years, is gradually developed and hung at one end of a high-voltage wire connecting tower and is provided with a plurality of disc-shaped insulators, aims to increase the creepage distance, is usually made of glass or ceramics, namely called as the insulator, and has larger differences in the structures and the shapes of different types of insulators, however, the insulator is composed of two parts, namely an insulating part and a connecting hardware fitting, the insulator should not fail due to various electromechanical stresses caused by changes of environment and electric load conditions, otherwise, the insulator cannot generate a great effect and damage the service life and the service life of the whole line, but the following problems can occur in the production process of the electric power insulator:

1. in the traditional insulator forming processing, the insulator is sleeved on a cylinder for baking, the insulator which is just formed and is not baked is easy to deform by the processing method, and the movement in the baking process is easy to cause the insulators to move together, so that the insulators are connected during baking, and the processed insulators are stringed;

2. when the insulator is put into or taken out of the oven, the insulator in the oven needs to be stopped from being baked, and then the insulator needs to be put into or taken out.

Disclosure of Invention

Technical scheme (I)

In order to achieve the above object, the present invention adopts the following technical solution, wherein the electric insulator molding processing system comprises a workbench, a supporting mechanism, a moving mechanism and a baking mechanism, the workbench is symmetrically installed on a working floor, the supporting mechanism is arranged on the upper end surface of the workbench, the moving mechanism is arranged on the outer end surface of the supporting mechanism, and the baking mechanism is arranged on the inner end surface of the left workbench and the inner end surface of the right workbench.

The supporting mechanism comprises a horizontal plate, a supporting plate, a hollow column, rectangular blocks, a cross-shaped clamping plate and a supporting plate, wherein the horizontal plate is connected with the upper end face of the workbench in a sliding fit mode, the supporting plate is symmetrically arranged on the front end face and the rear end face of the horizontal plate, the hollow columns are arranged at equal intervals from front to back on the horizontal plate, the rectangular blocks are arranged on the lower end face of the hollow column, the rectangular blocks are arranged in rectangular grooves, the rectangular grooves are formed in the horizontal plate, cross-shaped grooves are formed in the upper end face of the hollow column, the cross-shaped clamping plate is connected with the cross-shaped grooves in a sliding fit mode, the supporting plate is respectively arranged on the outer side end face of the cross-shaped clamping plate, the upper end face of the supporting plate is arc-shaped, rectangular through grooves are formed in the outer surface of the hollow column, the rectangular through grooves are, the cross cardboard drives the layer board and packs into from the cross inslot of hollow post, rotates the cross cardboard when the logical groove position of arrival rectangle, goes into the logical inslot of rectangle with cross cardboard card, again with insulator cover downstream on hollow post for the layer board on the cross cardboard drags the insulator, prevents to cause the insulator of not drying to warp when fixed to the insulator, after the insulator of lower extreme is put, continues to put into fixed next insulator with the cross cardboard.

The moving mechanism comprises a rectangular plate, an electric push rod I, a push plate, a bidirectional air cylinder, a moving plate and a clamping plate, the rectangular plate is arranged on the upper end face of the workbench, a stepped groove is formed in the inner side end face of the rectangular plate, the electric push rod I is arranged in the stepped groove, the push plate is arranged on the electric push rod I and is connected with the workbench in a sliding fit mode, a T-shaped groove is formed in the push plate, the bidirectional air cylinder is arranged in the T-shaped groove, the moving plate is respectively arranged on the front end face and the rear end face of the bidirectional air cylinder, the clamping plate is respectively arranged on the inner side end faces of the front moving plate and the rear moving plate, the clamping plate is connected with the supporting plate in a sliding fit mode, the bidirectional air cylinder on the left end workbench is retracted to drive the moving plate to move, the moving plate drives the clamping plate to clamp the front and, an electric putter withdraws fast for toasting the mechanism and sending into the stoving with the insulator that has installed fast under the condition of not stopping work, toasting when a set of insulator toasts well after, an electric putter rapid motion on the right-hand member workstation drives the movable plate and removes left, and when the movable plate contacted with the horizontal plate, two-way cylinder was withdrawn the lower extreme chucking of backup pad, and an electric putter withdraws fast, makes toast the mechanism and press from both sides out with the insulator that toasts fast under the condition of not stopping work.

Toast the mechanism including toasting case, support, motor, connecting axle, plectane, axis of rotation and rotation group, toast the case and install the interior terminal surface of controlling the workstation, toast the rear end face of case and have the motor through the support mounting, the output of motor is connected with the rear end face of connecting axle, the symmetry is installed on toasting incasement wall around the connecting axle, be connected with the plectane through the bearing on the connecting axle, the plectane support is connected through the axis of rotation around, install the rotation group on the plectane, the motor rotates and drives the connecting axle and rotate, the connecting axle drives the plectane and rotates, the rotation synchronous rotation that the rotation of axis of rotation was driven through the rear end plectane to.

As a preferred technical scheme of the invention, the rotating group comprises a cylinder, a triangular rotating plate, a bearing plate, a vertical plate, a second electric push rod and a clamping plate, wherein the inner end surfaces of the front and rear circular plates are respectively provided with the cylinder, the cylinders are arranged along the circular plates at equal intervals in the circumferential direction, the triangular rotating plate is arranged on the cylinder, the triangular rotating plate is connected with a cylinder bracket in a sliding fit manner, the lower end surfaces of the front and rear triangular rotating plates are connected through the bearing plate, the vertical plate is arranged on the front and rear end surfaces of the upper end surface of the bearing plate, the inner end surfaces of the front and rear vertical plates are provided with stepped grooves, the second electric push rod is arranged in the stepped grooves, the second electric push rod is provided with the clamping plate, the clamping plate is connected with the bearing plate in a sliding fit manner, the circular plates rotate to drive the cylinders to synchronously rotate, the triangular rotating plate rotates along the cylinders to drive the bearing plate to synchronously, no. two electric putter promote the chucking around with the backup pad, backup pad and triangle commentaries on classics board synchronous rotation afterwards for accept the insulator on the board and be vertical placing all the time, after the insulator dries, an electric putter of right-hand member pushes the clamp plate and presss from both sides tight back to the backup pad, and No. two electric putter are withdrawed, make the insulator that dries shift out fast.

As a preferred technical scheme of the invention, round hole grooves are symmetrically formed in the front side and the rear side of a rectangular groove on a horizontal plate, round head columns are arranged in the round hole grooves, the round head columns are connected with the round hole grooves in a sliding fit mode, the front round head columns and the rear round head columns are connected with each other through a push rod, round grooves are formed in the round hole grooves, moving columns are arranged in the round grooves, the moving columns are connected with the round grooves through compression springs, the moving columns are connected with the round through grooves in a sliding fit mode, the round through grooves are formed in the front end face of a rectangular block, rectangular grooves are formed in the left end face of the rectangular block, push blocks are arranged in the rectangular grooves, the push blocks are connected with rectangular clamping grooves in a sliding fit mode, the rectangular clamping grooves are formed in the horizontal plate, the push blocks are connected with the rectangular grooves in the rectangular block through telescopic springs, the push, the round-head column pushes the movable column to be clamped into the circular through groove of the rectangular block, the front and back movable column pushes the pushing block, the pushing block is clamped into the rectangular clamping groove of the horizontal plate, the movable column and the pushing block clamp the end face of the rectangular block and the horizontal plate, the hollow column of the upper end face of the rectangular block is prevented from shaking, when the hollow column needs to be disassembled, the round-head column is pulled out, the movable column and the pushing block are withdrawn under the action of a compression spring and an expansion spring respectively, and the hollow column is taken out quickly.

As a preferred technical scheme of the present invention, an end cover is installed at an upper end of the hollow column, the end cover is connected with an outer surface of the hollow column in a sliding fit manner, a convex column is installed inside the end cover, a fixture block is installed on the convex column, the fixture block is connected with a clamping groove in a sliding fit manner, the clamping groove is formed in an inner wall of the hollow column, the clamping groove is staggered with the cross groove, after the fixture block of the convex column on the end cover is pressed in along the cross groove, the end cover is rotated to clamp the fixture block into the clamping groove, so that the end cover seals an upper end of the installed insulator.

According to a preferred technical scheme, a rectangular groove is formed in a circular hole groove in the horizontal plate, the rectangular groove is located on the right side of a rectangular groove for mounting the movable column, round-head retaining columns are mounted on the upper portion and the lower portion of the inner wall of the rectangular groove through pin shafts and connected with the circular groove in a sliding fit mode, the circular groove is formed in the round-head column, and after the round-head column is pushed in, the round-head retaining columns slide into the circular groove to fix the round-head column.

As a preferred technical scheme of the invention, the baking oven is symmetrically provided with the rectangular through grooves in the left and right directions, the lower end surfaces of the rectangular through grooves are flush with the upper end surface of the workbench, the left and right inner walls of the baking oven are provided with the rectangular support plates, the upper end surfaces of the rectangular support plates are flush with the lower end surfaces of the rectangular through grooves, and when the pushing plate is pushed inwards by the first electric push rod, the rectangular support plates play a role in supporting the pushing plate and prevent the pushing plate from being suspended.

(II) advantageous effects

1. According to the electric insulator forming and processing system, the supporting mechanism is adopted to support the lower end of the insulator during the installation of the insulator, so that the insulator is not easy to deform, the insulators are isolated at the same time, the insulators are prevented from being connected together during movement and installation, the adopted baking mechanism enables the insulators to be in a vertical state during movement, the insulators are prevented from moving, the moving mechanism can quickly put the insulators in or take the insulators out, and the processing efficiency is improved;

2. the pushing rod is pushed in to clamp the rectangular block, so that the hollow column on the rectangular block can be quickly installed and taken out, and the insulator is more convenient to install and disassemble;

3. the triangular rotating plate rotates along with the round column, so that the upper end face of the receiving plate is always upward, the upper end face of the horizontal plate is driven to be always upward after the supporting plate is clamped by the clamping plate, the direction of the insulators is always unchanged in the baking process, and the insulators are not easy to move.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a front cross-sectional view of the present invention;

FIG. 2 is a top cross-sectional view of the present invention;

FIG. 3 is a left side elevation view of the present invention;

fig. 4 is a schematic perspective view of an insulator according to the present invention;

FIG. 5 is an enlarged view of the invention taken from the line A of FIG. 1;

FIG. 6 is an enlarged view of the invention taken from the B-direction of FIG. 2;

FIG. 7 is an enlarged view of the invention taken along line C of FIG. 2;

FIG. 8 is an enlarged view of the invention taken from the D-side of FIG. 3;

fig. 9 is an enlarged view of the invention from the E-direction of fig. 6.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.

As shown in fig. 1 to 9, an electric insulator molding system includes a workbench 1, a supporting mechanism 2, a moving mechanism 3 and a baking mechanism 4, wherein the workbench 1 is symmetrically installed on a working floor, the supporting mechanism 2 is disposed on an upper end face of the workbench 1, the moving mechanism 3 is disposed on an outer end face of the supporting mechanism 2, and the baking mechanism 4 is disposed on an inner end face of each of the left and right workbenches 1.

The supporting mechanism 2 comprises a horizontal plate 20, a supporting plate 21, hollow columns 22, rectangular blocks 23, cross clamping plates 24 and supporting plates 25, the horizontal plate 20 is connected with the upper end face of the workbench 1 in a sliding fit mode, the supporting plates 21 are symmetrically arranged on the front end face and the rear end face of the horizontal plate 20, the hollow columns 22 are arranged on the horizontal plate 20 from front to back at equal intervals, the rectangular blocks 23 are arranged on the lower end face of the hollow columns 22, the rectangular blocks 23 are arranged in rectangular grooves, the rectangular grooves are arranged on the horizontal plate 20 in a close mode, cross-shaped grooves are formed in the upper end face of the hollow columns 22, the cross clamping plates 24 are connected with the cross-shaped grooves in a sliding fit mode, the supporting plates 25 are respectively arranged on the outer side end faces of the cross clamping plates 24, the upper end faces of the supporting plates 25 are arc-shaped, rectangular through grooves are formed in the outer surfaces of the hollow columns 22 and are at equal intervals with the, install the rectangular block 23 of hollow post 22 lower extreme at horizontal plate 20, cross cardboard 24 drives layer board 25 and packs into from the cross-shaped inslot of hollow post 22, rotate cross cardboard 24 when reaching the logical groove position of rectangle, go into the logical inslot of rectangle with cross cardboard 24 card, again with insulator cover downstream on hollow post 22, make layer board 25 on the cross cardboard 24 drag the insulator, prevent to cause the insulator of not drying to warp when fixed to the insulator, after the insulator of lower extreme is put, continue to put into fixed next insulator with cross cardboard 24.

Round hole grooves are symmetrically formed in the front side and the rear side of a rectangular groove on the horizontal plate 20, round-head columns 201 are arranged in the round hole grooves, the round-head columns 201 are connected with the round hole grooves in a sliding fit mode, the front round-head columns 201 and the rear round-head columns 201 are connected with each other through pushing rods 202, round grooves are formed in the round hole grooves, moving columns 203 are arranged in the round grooves, the moving columns 203 are connected with the round grooves through compression springs 204, the moving columns 203 are connected with the round grooves in a sliding fit mode, the round grooves are formed in the front end face of a rectangular block 23, rectangular grooves are formed in the left end face of the rectangular block 23, pushing blocks 205 are arranged in the rectangular grooves, the pushing blocks 205 are connected with rectangular clamping grooves in a sliding fit mode, the rectangular clamping grooves are formed in the horizontal plate 20, the pushing blocks 205 are connected with the rectangular grooves in the rectangular block 23 through telescopic springs 206, the round-head column 201 pushes the movable column 203 to be clamped into a circular through groove of the rectangular block 23, the movable column 203 moves the pushing block 205 forward and backward, the pushing block 205 is clamped into a rectangular clamping groove of the horizontal plate 20, the movable column 203 and the pushing block 205 clamp the end surface of the rectangular block 23 and the horizontal plate 20 mutually, the hollow column 22 on the upper end surface of the rectangular block 23 is prevented from shaking, when the hollow column 22 needs to be disassembled, the round-head column 201 is pulled out, the movable column 203 and the pushing block 205 are respectively withdrawn under the action of the compression spring 204 and the expansion spring 206, and the hollow column 22 is rapidly taken out.

Horizontal plate 20 on the circular hole inslot seted up the rectangular channel, the rectangular channel is located the rectangle recess right side of installation removal post 203, installs button head bumping post 207 through the round pin axle from top to bottom on the rectangular channel inner wall, button head bumping post 207 is connected with the circular arc groove through the sliding fit mode, the circular arc groove is seted up on button head post 201, after pushing away of button head post 201, button head bumping post 207 slides in the circular arc inslot and fixes button head post 201.

The upper end of hollow post 22 install end cover 220, be connected through sliding fit's mode between the surface of end cover 220 and hollow post 22, install projection 221 in the end cover 220, install fixture block 222 on the projection 221, fixture block 222 is connected with the draw-in groove through sliding fit's mode, the draw-in groove is seted up at the inner wall of hollow post 22, the draw-in groove staggers with the cross recess, after impressing the fixture block 222 of projection 221 on the end cover 220 along the cross recess, rotate end cover 220 and block fixture block 222 card draw-in groove, make end cover 220 seal the insulator upper end of installing.

Moving mechanism 3 include rectangular plate 30, electric putter 31, catch plate 32, two-way cylinder 33, movable plate 34 and clamp plate 35, rectangular plate 30 install the up end at workstation 1, the ladder groove has been seted up to the medial surface of rectangular plate 30, electric putter 31 is installed to the ladder inslot, catch plate 32 is installed to electric putter 31, catch plate 32 is connected with workstation 1 through the sliding fit mode, the T-slot has been seted up to catch plate 32, two-way cylinder 33 is installed to the T-slot, movable plate 34 is respectively installed to the front and back terminal surface of two-way cylinder 33, clamp plate 35 is respectively installed to the medial surface of front and back movable plate 34, clamp plate 35 is connected with backup pad 21 through the sliding fit mode, two-way cylinder 33 on the left end workstation 1 is withdrawed and is driven movable plate 34 motion, movable plate 34 drives clamp plate 35 and presss from both sides tightly around the backup pad 21, electric putter 31 drives the slurcam 32 fast and moves right, push the insulator on the horizontal plate 20 into toasting and toast in the mechanism 4, electric putter 31 withdraws fast No. one, make toast mechanism 4 and send into the toasting with the insulator that installs well fast under the condition of not stopping work, after a set of insulator toasts well, electric putter 31 rapid motion on the right-hand member workstation 1 drives movable plate 34 and moves left, when movable plate 34 and horizontal plate 20 contact, two-way cylinder 33 is withdrawed and is backed the lower extreme chucking of backup pad 21, electric putter 31 withdraws fast, make toast the mechanism 4 and press from both sides out the insulator that toasts well fast under the condition of not stopping work.

Baking mechanism 4 including toasting case 40, support 41, motor 42, connecting axle 43, plectane 44, axis of rotation 45 and rotating group 46, toast case 40 install the interior terminal surface at left right work platform 1, toast the rear end face of case 40 and install motor 42 through support 41, the output of motor 42 is connected with the rear end face of connecting axle 43, connecting axle 43 front and back symmetry is installed on toasting case 40 inner wall, be connected with plectane 44 through the bearing on the connecting axle 43, front and back plectane 44 support 41 is connected through axis of rotation 45, install rotating group 46 on the plectane 44, motor 42 rotates and drives connecting axle 43 and rotates, connecting axle 43 drives plectane 44 and rotates, front end plectane 44 drives the synchronous rotation of axis of rotation 45 through rear end plectane 44, the synchronous drive rotating group 46 of rotation of plectane 44.

Toast case 40 bilateral symmetry seted up the rectangle and led to the groove, the lower terminal surface that the rectangle led to the groove and 1 up end parallel and level of workstation toast case 40 and install 40 rectangle extension board 401 with the inner wall about, the up end of rectangle extension board 401 leads to the groove down end parallel and level with the rectangle, when electric putter 31 inwards promoted catch plate 32, rectangle extension board 401 played the effect of support to catch plate 32, prevented that catch plate 32 is unsettled.

The rotating group 46 comprises a cylinder 460, a triangular rotating plate 461, a bearing plate 462, a vertical plate 463, a second electric push rod 464 and a clamping plate 465, the inner end surfaces of the front and rear circular plates 44 are respectively provided with the cylinder 460, the cylinders 460 are arranged along the circumferential direction of the circular plates 44 at equal intervals, the triangular rotating plate 461 is arranged on the cylinder 460, the triangular rotating plate 461 is connected with the cylinder 460 bracket 41 in a sliding fit manner, the lower end surfaces of the front and rear triangular rotating plates 461 are connected through the bearing plate 462, the vertical plate 463 is arranged in front of and behind the upper end surface of the bearing plate 462, the inner end surface of the front and rear vertical plate 463 is provided with a stepped groove, the second electric push rod 464 is arranged in the stepped groove, the second electric push rod 464 is provided with the clamping plate 465, the clamping plate 465 is connected with the bearing plate 462 in a sliding fit manner, the circular plates 44 rotate to drive the cylinder 460 to rotate synchronously, the triangular rotating plate, when the insulator that electric putter 31 will be installed is pushed to accept on the board 462, No. two electric putter 464 promote chucking board 465 with the backup pad 21 around carry out the chucking, backup pad 21 rotates with triangle commentaries on classics board 461 synchronization afterwards for the insulator on the board 462 is vertical all the time and places, after the insulator is dried, No. one electric putter 31 of right-hand member pushes clamping plate 35 and presss from both sides tight back to backup pad 21, No. two electric putter withdraws 464, makes the insulator that dries out shift out fast.

When the insulator fixing device works, the rectangular block 23 at the lower end of the hollow column 22 is installed on the horizontal plate 20, the push rod 202 is pushed to drive the round-head column 201 to enter, the round-head column 201 pushes the movable column 203 to be clamped into the circular through groove of the rectangular block 23, the round-head column 201 is pushed to slide into the circular-arc groove to fix the round-head column 201, the forward and backward moving column 203 pushes the push block 205 to ensure that the push block 205 is clamped into the rectangular clamping groove of the horizontal plate 20, the movable column 203 and the push block 205 clamp the end surface of the rectangular block 23 with the horizontal plate 20 to prevent the hollow column 22 at the upper end surface of the rectangular block 23 from shaking, the cross chuck plate 24 drives the supporting plate 25 to be installed in the cross-shaped groove of the hollow column 22, the cross chuck plate 24 is clamped into the rectangular through groove, then the insulator is sleeved on the hollow column 22 to move downwards, so that the supporting plate 25 on the cross chuck plate 24, after the insulator at the lower end is placed, the cross-shaped clamping plate 24 is continuously placed into the next insulator, after the insulator is installed, the fixture block 222 of the convex column 221 on the end cover 220 is pressed into the cross-shaped groove, the end cover 220 is rotated to clamp the fixture block 222 into the clamping groove, so that the upper end of the installed insulator is sealed by the end cover 220, the bidirectional cylinder 33 on the left end workbench 1 is withdrawn to drive the clamping plate 35 to clamp the front and the back of the support plate 21, the electric push rod 31 of the first number rapidly drives the push plate 32 to move rightwards, the insulator on the horizontal plate 20 is pushed into the baking mechanism 4 to be baked, the electric push rod 31 of the first number is rapidly withdrawn, so that the baking mechanism 4 rapidly sends the installed insulator into the baking mechanism to be baked without stopping working, the circular plate 44 is driven by the motor 42 to rotate, the circular plate 44 at the front end drives the rotation of the rotating shaft 45 to synchronously rotate through the, the triangular rotating plate 461 rotates along the column 460, the triangular rotating plate 461 drives the receiving plate 462 to move synchronously, when the installed insulators are pushed to the receiving plate 462 by the first electric push rod 31, the second electric push rod 464 pushes the clamping plate 465 to clamp the front and back of the support plate 21, then the support plate 21 and the triangular rotating plate 461 rotate synchronously, so that the insulators on the receiving plate 462 are placed vertically all the time, after the insulators are dried, the first electric push rod 31 at the right end pushes the clamping plate 35 to clamp the support plate 21, the second electric push rod 464 retracts, so that the dried insulators are moved out quickly, when the hollow column 22 needs to be detached, the round-head column 201 is pulled out, the movable column 203 and the pushing block 205 retract under the action of the compression spring 204 and the extension spring 206 respectively, and the hollow column 22 is taken out quickly.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides an electric power insulator contour machining system, includes workstation (1), supporting mechanism (2), moving mechanism (3) and toasts mechanism (4), its characterized in that: the worktable (1) is symmetrically arranged on the working ground left and right, the upper end surface of the worktable (1) is provided with a supporting mechanism (2), the outer side end surface of the supporting mechanism (2) is provided with a moving mechanism (3), and the inner side end surfaces of the left worktable (1) and the right worktable (1) are provided with baking mechanisms (4);

the supporting mechanism (2) comprises a horizontal plate (20), a supporting plate (21), hollow columns (22), rectangular blocks (23), cross clamping plates (24) and supporting plates (25), the horizontal plate (20) is connected with the upper end face of the workbench (1) in a sliding fit mode, the supporting plate (21) is symmetrically installed on the front end face and the rear end face of the horizontal plate (20), the hollow columns (22) are installed on the horizontal plate (20), the hollow columns (22) are arranged equidistantly from front to back, the rectangular blocks (23) are installed on the lower end face of the hollow columns (22), the rectangular blocks (23) are installed in rectangular grooves which are formed in the horizontal plate (20), cross grooves are formed in the upper end face of the hollow columns (22), the cross clamping plates (24) are connected with the cross grooves in a sliding fit mode, the supporting plates (25) are installed on the outer side end faces of the cross clamping plates (24) respectively, the upper end surface of the supporting plate (25) is arc-shaped, rectangular through grooves are formed in the outer surface of the hollow column (22), the rectangular through grooves are close to the cross-shaped grooves, and the rectangular through grooves are formed from top to bottom at equal intervals;

the moving mechanism (3) comprises a rectangular plate (30), a first electric push rod (31), a push plate (32), a bidirectional cylinder (33), a moving plate (34) and a clamping plate (35), the automatic cutting machine is characterized in that the rectangular plate (30) is arranged on the upper end face of the workbench (1), a step groove is formed in the inner side end face of the rectangular plate (30), a first electric push rod (31) is arranged in the step groove, a push plate (32) is arranged on the first electric push rod (31), the push plate (32) is connected with the workbench (1) in a sliding fit mode, a T-shaped groove is formed in the push plate (32), a bidirectional cylinder (33) is arranged in the T-shaped groove, movable plates (34) are respectively arranged on the front end face and the rear end face of the bidirectional cylinder (33), clamping plates (35) are respectively arranged on the inner side end faces of the front movable plate and the rear movable plate (34), and the clamping plates (35);

toast mechanism (4) including toasting case (40), support (41), motor (42), connecting axle (43), plectane (44), axis of rotation (45) and rotation group (46), toast the interior terminal surface of workstation (1) about installing in case (40), toast the rear end face of case (40) and install motor (42) through support (41), the output of motor (42) is connected with the rear end face of connecting axle (43), the symmetry is installed on toasting case (40) inner wall around connecting axle (43), be connected with plectane (44) through the bearing on connecting axle (43), plectane (44) support (41) are connected through axis of rotation (45) around, install rotation group (46) on plectane (44).

2. An electric insulator molding and processing system according to claim 1, characterized in that: the rotating group (46) comprises a cylinder (460), a triangular rotating plate (461), a bearing plate (462), a vertical plate (463), a second electric push rod (464) and a clamping plate (465), cylinder (460) are all installed to the inner end face of front and back plectane (44), cylinder (460) are arranged along plectane (44) circumference equidistance, install triangle commentaries on classics board (461) on cylinder (460), triangle commentaries on classics board (461) is connected through sliding fit with cylinder (460) support (41), the lower terminal surface of front and back triangle commentaries on classics board (461) is connected through accepting board (462), accept board (462) up end front and back and install riser (463), the ladder groove has been seted up to front and back riser (463) medial surface, the ladder inslot is installed No. two electric putter (464), install chucking plate (465) on No. two electric putter (464), chucking plate (465) and accept to be connected through sliding fit's mode between board (462).

3. An electric insulator molding and processing system according to claim 1, characterized in that: horizontal plate (20) on the rectangular channel around both sides symmetry seted up the round hole groove, round hole inslot is provided with button head post (201), be connected through sliding fit between button head post (201) and the round hole groove, be connected through catch bar (202) between front and back button head post (201), round recess has been seted up in the round hole inslot, be provided with in the round recess and remove post (203), it is connected through compression spring (204) to remove between post (203) and the round recess, it is connected through sliding fit between post (203) and the round recess to remove, the round recess is seted up at the preceding terminal surface of rectangular block (23), the rectangle recess has been seted up to the left end face of rectangular block (23), be provided with in the rectangle recess and promote piece (205), it is connected through sliding fit between promotion piece (205) and the rectangle draw-in groove, the rectangle draw-in groove is seted up on horizontal plate (20), it is connected through expanding spring (206) between the rectangle recess on promotion piece (205) and rectangular block (23).

4. An electric insulator molding and processing system according to claim 1, characterized in that: end cover (220) are installed to the upper end of hollow post (22), be connected through sliding fit's mode between the surface of end cover (220) and hollow post (22), convex column (221) are installed to interior of end cover (220), install fixture block (222) on convex column (221), fixture block (222) are connected with the draw-in groove through sliding fit's mode, the draw-in groove is seted up at the inner wall of hollow post (22), the draw-in groove staggers with the cross recess.

5. An electric insulator molding and processing system according to claim 1, characterized in that: horizontal plate (20) go up the round hole inslot and seted up the rectangular channel, the rectangular channel is located the rectangle recess right side of installation removal post (203), round head bumping post (207) is installed through the round pin axle from top to bottom to the rectangular channel inner wall, round head bumping post (207) are connected with the circular arc groove through sliding fit mode, the circular arc groove is seted up on round head post (201).

6. An electric insulator molding and processing system according to claim 1, characterized in that: toast case (40) bilateral symmetry seted up the rectangle and led to the groove, the lower terminal surface that the rectangle led to the groove and workstation (1) up end parallel and level toast the inner wall about case (40) and install 40 rectangle extension board (401), the up end of rectangle extension board (401) leads to the groove down end parallel and level with the rectangle.

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