CN111604405B - Automatic continuous stamping device of railway signal relay part - Google Patents

Abstract

The invention relates to a stamping device, in particular to an automatic continuous stamping device for railway signal relay parts. The copper sheet stamping device comprises a laying table, a falling opening, a vertical seat I, a winding roller and a base, wherein the winding roller automatically stops rotating during stamping, and then a long copper sheet stops moving rightwards; after the punching is finished, the winding roller automatically starts to rotate, and the long copper sheet automatically moves to the right to move the complete position on the left side of the long copper sheet to the right to a falling opening for punching again; the collecting hopper box is used for collecting waste materials; the inserted link can collect the stamping workpiece, and the stamping workpiece on it vibrates about repeatedly and falls disintegrating slag and debris to collecting the hopper case in.

Description

Automatic continuous stamping device of railway signal relay part

Technical Field

The invention relates to a stamping device, in particular to an automatic continuous stamping device for railway signal relay parts.

Background

The railway signal relay is a special electromagnetic switch device in various railway signal equipment or systems. The electromagnetic switch is composed of an electromagnetic coil, a contact group, a transmission system and a component for ensuring the contact to be closed or opened. A large number of copper sheets can be used when the railway signal relay is formed, and the manufacturing speed of the copper sheets can be increased by improving the stamping efficiency.

Disclosure of Invention

The invention aims to provide an automatic continuous stamping device for railway signal relay parts, which can improve stamping efficiency.

The purpose of the invention is realized by the following technical scheme:

the utility model provides an automatic continuous stamping device of railway signal relay part, is including laying platform, whereabouts mouth, founding seat I, winding up roller and base, lays the platform and founds the equal rigid coupling of seat I on the base, the right side of laying the bench end is equipped with the whereabouts mouth, founds seat I and sets up on the right side of laying the platform, and the winding up roller rotates to be connected at the upside of founding seat I, and the upper end tangent plane of winding up roller coincides with the up end of laying the platform.

This automatic continuous stamping device of railway signal relay part still includes position mouth and roller I, the right side of laying the platform is equipped with the position mouth, and roller I rotates to be connected on laying the platform, and roller I is located the position mouth, and the upper end tangent plane of roller I is higher than the up end of laying the platform.

This automatic continuous stamping device of railway signal relay part still includes base, motor II, lead screw, displacement base, guide arm and compression roller, the upper end rigid coupling motor II of base, the output shaft and the base of motor II rotate to be connected, and the lead screw rigid coupling is on the output shaft of motor II, lead screw and displacement base threaded connection, and the guide arm rigid coupling is at the lower extreme of base, and displacement base sliding connection is on the guide arm, and the compression roller rotates the downside of connecting at the displacement base, and the base rigid coupling is on laying the platform, and the compression roller is located roller I directly over.

This automatic continuous stamping device of railway signal relay part still includes reciprocal seat, connecting rod I, connecting rod II, axle I, found seat II, punching press head I, punching press head II, slider I and trough of belt and stands the seat, the articulated one end of connecting rod I of the rear end of reciprocal seat, the one end of the articulated connecting rod II of the other end of connecting rod I, the other end rigid coupling of connecting rod II is at the front end of axle I, and seat II is found to the middle part rigid coupling of axle I, and II rigid couplings of punching press head are at the lower extreme of reciprocal seat, and II rigid couplings of punching press head are in punching press head I, and the lower terminal surface of punching press head II is less than the lower terminal surface of punching press head I, and I rigid couplings of slider are at the front end of reciprocal seat, and I sliding connection of slider are in the trough of belt stands the seat, and II rigid couplings of standing the seat are on the base, and the trough of belt stands the rigid coupling and is on the platform, and I is located the whereabouts mouth directly over.

This automatic continuous stamping device of railway signal relay part still includes band pulley I, band pulley II, founds seat III, motor I, half-tooth gear, axle II, gear I, band pulley III, axle III, gear II and band pulley IV, found seat III's front end solid connection motor I, motor I's output shaft rotates to be connected on founding seat III, and half-tooth gear rigid coupling is on motor I's output shaft, and axle II rotates to be connected on founding seat III, and axle II goes up rigid coupling gear I and band pulley III, gear I be used for with half-tooth gear engagement transmission, and axle III rotates to be connected on founding seat III, and gear II and band pulley IV rigid coupling are on axle III, and gear II is used for with half-tooth gear engagement transmission.

The automatic continuous stamping device of this railway signal relay part still includes the collection hopper box, collection hopper box rigid coupling is on the base, and the collection hopper box is located under the whereabouts mouth.

This automatic continuous stamping device of railway signal relay part still includes tube socket, inserted bar, motor III, founds seat IV, dials shovel, wallboard and longkou, the tube socket rigid coupling is in collecting the hopper case, and inserted bar sliding connection is in the tube socket, dials wallboard of the equal rigid coupling in both ends around the shovel upper end, and the longkou setting is on dialling the shovel, and inserted bar sliding connection is in the longkou, dials the left end of shovel and motor III's output shaft rigid coupling, dials the shovel and is located the mouth of falling under, and the inserted bar is located punching press head II under, founds seat IV rigid coupling and is laying the platform.

The automatic continuous stamping device of this railway signal relay part still includes the sliding hopper, the sliding hopper sets up in the right side below of dialling the shovel, and the sliding hopper rigid coupling is put on the platform of laying.

The automatic continuous stamping device of this railway signal relay part still includes draw-in groove, follow-up seat, clamp plate and bolt, the draw-in groove sets up on the winding up roller, and follow-up seat of both ends rigid coupling respectively around the winding up roller, and a bolt is all inserted to both ends around the clamp plate, and two bolts respectively with two follow-up seat threaded connection, the clamp plate is located the draw-in groove.

The automatic continuous stamping device of this railway signal relay part still includes the portion of hanging, the lower extreme rigid coupling of bolt hangs the portion.

The automatic continuous stamping device for the railway signal relay parts has the beneficial effects that:

during stamping, the winding roller automatically stops rotating, and the long copper sheet stops moving rightwards; after the punching is finished, the winding roller automatically starts to rotate, and the long copper sheet automatically moves to the right to move the complete position on the left side of the long copper sheet to the right to a falling opening for punching again; the collecting hopper box is used for collecting waste materials; the inserted link can collect the stamping workpiece, and the stamping workpiece on it vibrates about repeatedly and falls disintegrating slag and debris to collecting the hopper case in.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of an automatic continuous stamping device for railway signal relay parts according to the present invention;

FIG. 2 is a partial schematic view of the first embodiment of the present invention;

FIG. 3 is a second partial schematic structural view of the present invention;

FIG. 4 is a third schematic view of a portion of the present invention;

FIG. 5 is a fourth schematic view of a portion of the present invention;

FIG. 6 is a schematic diagram of a portion of the present invention;

FIG. 7 is a schematic diagram six of a portion of the present invention;

FIG. 8 is a seventh schematic view of a portion of the present invention;

fig. 9 is a partial structural schematic view eight of the present invention.

In the figure: a laying table 1; a drop opening 101; a location port 102; a roller I103; a vertical seat I2; a winding roller 201; a belt pulley I202; a card slot 203; a follower base 204; a reciprocating base 3; a connecting rod I301; a connecting rod II 302; a shaft I303; a pulley II 304; a vertical base II 305; a stamping head I306; a punching head II 307; a slide block I308; grooved vertical seats 309; a vertical seat III 4; a motor I401; a half-tooth gear 402; shaft II 403; a gear I404; a pulley III 405; a shaft III 406; gear II 407; a pulley IV 408; a base 5; a motor II 501; a lead screw 502; a displacement base 503; a guide rod 504; a press roll 505; a collection hopper box 6; a stem 601; an insertion rod 602; a motor III 603; a vertical seat IV 604; a shovel 605 is pulled; wall panels 606; a long opening 607; a sliding hopper 7; a pressing plate 8; a bolt 801; a hanging portion 802; a base 9.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in fig. 1-9, an automatic continuous stamping device of railway signal relay part, including laying platform 1, whereabouts mouth 101, seat I2, winding up roller 201 and base 9, lay platform 1 and seat I2 all rigid coupling on base 9, the right side of laying platform 1 upper end is equipped with down mouth 101, and seat I2 sets up on the right side of laying platform 1, and winding up roller 201 rotates the upside of connecting at seat I2, and the up end tangent plane of winding up roller 201 coincides with the up end of laying platform 1. Place long copper sheet on laying platform 1, will the right-hand member of long copper sheet carries out the rolling through rotating winding up roller 201, and then long copper sheet can move right on laying platform 1, and then carries out the punching press to long copper sheet when the stop motion, and the punching press position is whereabouts mouth 101 department, makes long copper sheet continue to move right after the punching press finishes, and the stamping workpiece is then convenient for retrieve through whereabouts mouth 101 whereabouts.

The second embodiment is as follows:

as shown in fig. 1-9, the automatic continuous stamping device for railway signal relay parts further comprises a position opening 102 and a roller i 103, the position opening 102 is arranged on the right side of the laying platform 1, the roller i 103 is rotatably connected to the laying platform 1, the roller i 103 is located in the position opening 102, and the tangent plane of the upper end of the roller i 103 is higher than the upper end face of the laying platform 1. Roller I103 lifts the position apart from laying platform 1 right-hand member edge of long copper sheet, avoids long copper sheet and laying platform 1 to carry out serious friction when carrying out the rolling to make long copper sheet be convenient for carry out the quick rolling of low noise after the punching press once.

The third concrete implementation mode:

as shown in fig. 1-9, the automatic continuous stamping device for railway signal relay parts further comprises a base 5, a motor ii 501, a lead screw 502, a displacement base 503, a guide rod 504 and a press roller 505, wherein the upper end of the base 5 is fixedly connected with the motor ii 501, an output shaft of the motor ii 501 is rotatably connected with the base 5, the lead screw 502 is fixedly connected with an output shaft of the motor ii 501, the lead screw 502 is in threaded connection with the displacement base 503, the guide rod 504 is fixedly connected with the lower end of the base 5, the displacement base 503 is slidably connected with the guide rod 504, the press roller 505 is rotatably connected with the lower side of the displacement base 503, the base 5 is fixedly connected on the laying table 1, and the press roller 505 is located right above the roller i 103. The second 501 of starter motor, the output shaft of the second 501 of motor drive lead screw 502 and rotate, and lead screw 502 drives displacement base 503 and goes up and down, and displacement base 503 drives compression roller 505 and goes up and down, utilizes compression roller 505 to press and paste the up end of long copper sheet, and then makes long copper sheet can fix when the punching press, keeps the level when removing and can not lead to the fact punching press position perk because of the rolling, increases the yield of guarantee stamping workpiece.

The fourth concrete implementation mode:

as shown in fig. 1-9, the automatic continuous stamping device for railway signal relay parts further comprises a reciprocating base 3, a connecting rod i 301, a connecting rod ii 302, a shaft i 303, a vertical base ii 305, a stamping head i 306, a stamping head ii 307, a sliding block i 308 and a grooved vertical base 309, wherein the rear end of the reciprocating base 3 is hinged with one end of the connecting rod i 301, the other end of the connecting rod i 301 is hinged with one end of the connecting rod ii 302, the other end of the connecting rod ii 302 is fixedly connected with the front end of the shaft i 303, the middle part of the shaft i 303 is fixedly connected with the vertical base ii 305, the stamping head ii 307 is fixedly connected with the lower end of the reciprocating base 3, the stamping head ii 307 is fixedly connected in the stamping head i 306, the lower end face of the stamping head ii 307 is lower than the lower end face of the stamping head i 306, the sliding block i 308 is fixedly connected with the front end of the reciprocating base 3, the sliding block i 308 is slidably connected in the grooved vertical base 309, the vertical base ii 305 is fixedly connected with the base 9, the grooved vertical base 309 is fixedly connected on the laying table 1, the punch head i 306 is located directly above the drop opening 101. Axis of rotation I303, I303 of axle drives II 302 rotations of connecting rod, II 302 drive I301 swings of connecting rod, I301 of connecting rod drives 3 circulation up-and-down motion of reciprocal seat, and then, but stamping head I306 and stamping head II 307 up-and-down motion, stamping head II 307 contacts long copper sheet in advance and punches the system hole to it, the waste material because of punching the production then discharges through whereabouts mouth 101, stamping head I306 punches to long copper sheet afterwards and makes required stamping workpiece, the stamping workpiece is also discharged through whereabouts mouth 101.

The fifth concrete implementation mode:

as shown in fig. 1-9, the automatic continuous stamping device for railway signal relay parts further comprises a pulley i 202, a pulley ii 304, an upright seat iii 4, a motor i 401, a half-tooth gear 402, a shaft ii 403, a gear i 404, a pulley iii 405, a shaft iii 406, a gear ii 407 and a pulley iv 408, wherein the front end of the upright seat iii 4 is fixedly connected with the motor i 401, an output shaft of the motor i 401 is rotatably connected to the upright seat iii 4, the half-tooth gear 402 is fixedly connected to the output shaft of the motor i 401, the shaft ii 403 is rotatably connected to the upright seat iii 4, the shaft ii 403 is fixedly connected with the gear i 404 and the pulley iii 405, the gear i 404 is used for meshing transmission with the half-tooth gear 402, the shaft iii 406 is rotatably connected to the upright seat iii 4, the gear ii 407 and the pulley iv 408 are fixedly connected to the shaft iii 406, and the gear ii 407 is used for meshing transmission with the half-tooth gear 402. The half-tooth gear 402 is a half-circle gear with teeth, and the transmission ratio of the half-tooth gear 402 to the gear I404 is 1: 2, refer to fig. 5, start motor I401, motor I401 drives half-tooth gear 402 anticlockwise rotation, half-tooth gear 402 rotates the half-turn time and drives I404 clockwise rotation round of gear, I404 of gear drives II 403 of axle clockwise rotation round, axle II 403 drives III 405 of band pulley clockwise rotation round, band pulley III 405 drives II 304 clockwise rotation round of band pulley, II 304 of band pulley drives I303 of axle clockwise rotation round, and then I306 of punching press head and II 307 reciprocating lift once carry out a punching press operation with the punching press head. Then the half-tooth gear 402 continuously rotates for half a circle to be disengaged from the gear I404, the half-tooth gear 402 is in meshing transmission with the gear II 407, the half-tooth gear 402 drives the gear II 407 to rotate clockwise, the gear II 407 drives the shaft III 406 to rotate, the shaft III 406 drives the belt pulley IV 408 to rotate, the belt pulley IV 408 drives the belt pulley I202 to rotate clockwise, the winding roller 201 further rotates clockwise, long copper sheets are wound from the upper side of the winding roller 201, the copper sheets are wound on the winding roller 201, the vertical seat I2 is only provided with one long copper sheet convenient to be wound on the rear side and can be detached, and if two vertical seats I2 are arranged as shown in figure 3, the front vertical seat I2 can be detached. And then, the long copper sheet is automatically and continuously punched, the long copper sheet stops moving when being punched, and after the punching is finished, the long copper sheet automatically moves to the right to move the left side of the complete long copper sheet to the right to move to the falling opening 101 for punching again.

The sixth specific implementation mode:

as shown in fig. 1 to 9, the automatic continuous stamping device for railway signal relay parts further comprises a collecting hopper 6, wherein the collecting hopper 6 is fixedly connected to the base 9, and the collecting hopper 6 is positioned right below the falling port 101. The collection hopper 6 is used for collecting waste materials.

The seventh embodiment:

as shown in fig. 1-9, the automatic continuous stamping device for railway signal relay parts further comprises a pipe seat 601, an inserted link 602, a motor iii 603, a vertical seat iv 604, a poking shovel 605, a wall plate 606 and a long opening 607, wherein the pipe seat 601 is fixedly connected in the collection hopper box 6, the inserted link 602 is slidably connected in the pipe seat 601, the front end and the rear end of the upper end of the poking shovel 605 are fixedly connected with the wall plate 606, the long opening 607 is arranged on the poking shovel 605, the inserted link 602 is slidably connected in the long opening 607, the left end of the poking shovel 605 is fixedly connected with an output shaft of the motor iii 603, the poking shovel 605 is positioned under the falling opening 101, the inserted link 602 is positioned under the stamping head ii 307, and the vertical seat iv 604 is fixedly connected on the laying platform 1. Because the stamping part has holes, the stamping part is hung on the insertion rod 602 by the holes to be collected, and the waste material directly falls into the collection hopper box 6 to finish classification operation. The motor III 603 is started, the motor III 603 is used for repeatedly rotating forwards and backwards to drive the stirring shovel 605 to repeatedly swing, and the stirring shovel 605 drives the stamping part on the insertion rod 602 to repeatedly vibrate up and down to shake the slag and the sundries into the collecting hopper box 6. If the stamping parts collected on the insertion rod 602 are deviated, the insertion rod 602 can be pulled upwards and taken out, and the stamping parts are separated from the insertion rod 602 in the gradually upward movement process of the insertion rod 602 and fall onto the poking shovel 605, so that the right end of the poking shovel 605 is inclined downwards to guide the stamping parts out of the upper part of the collecting hopper box 6 so as to be convenient for collection.

The specific implementation mode is eight:

as shown in fig. 1-9, the automatic continuous stamping device for railway signal relay parts further comprises a sliding hopper 7, wherein the sliding hopper 7 is arranged at the lower right of the poking shovel 605, and the sliding hopper 7 is fixedly connected to the laying platform 1. The sliding bucket 7 prolongs the falling distance of the stamping part so as to be convenient for recovering or moving to the next processing position.

The specific implementation method nine:

as shown in fig. 1 to 9, the automatic continuous stamping device for railway signal relay parts further comprises a clamping groove 203, a follow-up seat 204, a pressing plate 8 and bolts 801, wherein the clamping groove 203 is arranged on the winding roller 201, the front end and the rear end of the winding roller 201 are fixedly connected with the follow-up seat 204 respectively, the front end and the rear end of the pressing plate 8 are inserted with one bolt 801, the two bolts 801 are in threaded connection with the two follow-up seats 204 respectively, and the pressing plate 8 is located in the clamping groove 203. The rotating bolt 801 is close to the clamping groove 203 through the pressing plate 8, the long copper sheet is clamped on the winding roller 201 in a fastening mode, winding operation is facilitated, manual auxiliary winding is avoided, and operators are prevented from being scratched during winding.

The detailed implementation mode is ten:

as shown in fig. 1 to 9, the automatic continuous stamping device for railway signal relay parts further comprises a hanging part 802, and the lower end of the bolt 801 is fixedly connected with the hanging part 802. The hanging part 802 can keep the hanging part 802 in contact with the follow-up seat 204 when the pressure plate 8 moves upwards, and the operation is convenient without being completely pulled out.

The invention relates to an automatic continuous stamping device for railway signal relay parts, which has the working principle that:

place long copper sheet on laying platform 1, will the right-hand member of long copper sheet carries out the rolling through rotating winding up roller 201, and then long copper sheet can move right on laying platform 1, and then carries out the punching press to long copper sheet when the stop motion, and the punching press position is whereabouts mouth 101 department, makes long copper sheet continue to move right after the punching press finishes, and the stamping workpiece is then convenient for retrieve through whereabouts mouth 101 whereabouts. Roller I103 lifts the position apart from laying platform 1 right-hand member edge of long copper sheet, avoids long copper sheet and laying platform 1 to carry out serious friction when carrying out the rolling to make long copper sheet be convenient for carry out the quick rolling of low noise after the punching press once. The second 501 of starter motor, the output shaft of the second 501 of motor drive lead screw 502 and rotate, and lead screw 502 drives displacement base 503 and goes up and down, and displacement base 503 drives compression roller 505 and goes up and down, utilizes compression roller 505 to press and paste the up end of long copper sheet, and then makes long copper sheet can fix when the punching press, keeps the level when removing and can not lead to the fact punching press position perk because of the rolling, increases the yield of guarantee stamping workpiece. Axis of rotation I303, I303 of axle drives II 302 rotations of connecting rod, II 302 drive I301 swings of connecting rod, I301 of connecting rod drives 3 circulation up-and-down motion of reciprocal seat, and then, but stamping head I306 and stamping head II 307 up-and-down motion, stamping head II 307 contacts long copper sheet in advance and punches the system hole to it, the waste material because of punching the production then discharges through whereabouts mouth 101, stamping head I306 punches to long copper sheet afterwards and makes required stamping workpiece, the stamping workpiece is also discharged through whereabouts mouth 101. The half-tooth gear 402 is a half-circle gear with teeth, and the transmission ratio of the half-tooth gear 402 to the gear I404 is 1: 2, refer to fig. 5, start motor I401, motor I401 drives half-tooth gear 402 anticlockwise rotation, half-tooth gear 402 rotates the half-turn time and drives I404 clockwise rotation round of gear, I404 of gear drives II 403 of axle clockwise rotation round, axle II 403 drives III 405 of band pulley clockwise rotation round, band pulley III 405 drives II 304 clockwise rotation round of band pulley, II 304 of band pulley drives I303 of axle clockwise rotation round, and then I306 of punching press head and II 307 reciprocating lift once carry out a punching press operation with the punching press head. Then, the half-tooth gear 402 continuously rotates for half a circle to be disengaged from the gear I404, the half-tooth gear 402 is in meshing transmission with the gear II 407, the half-tooth gear 402 drives the gear II 407 to rotate clockwise, the gear II 407 drives the shaft III 406 to rotate, the shaft III 406 drives the belt pulley IV 408 to rotate, the belt pulley IV 408 drives the belt pulley I202 to rotate clockwise, the winding roller 201 further rotates clockwise, long copper sheets are wound from the winding roller 201, the copper sheets are wound on the winding roller 201, the vertical seat I2 is only provided with one long copper sheet convenient to be wound on the rear side and can be detached, and if two vertical seats I2 are arranged in the vertical seat I2 as shown in the figure 3, the front side vertical seat I2 can be detached. And then, the long copper sheet is automatically and continuously punched, the long copper sheet stops moving when being punched, and after the punching is finished, the long copper sheet automatically moves to the right to move the left side of the complete long copper sheet to the right to move to the falling opening 101 for punching again. The collection hopper 6 is used for collecting waste materials. Because the stamping part has holes, the stamping part is hung on the insertion rod 602 by the holes to be collected, and the waste material directly falls into the collection hopper box 6 to finish classification operation. The motor III 603 is started, the motor III 603 is used for repeatedly rotating forwards and backwards to drive the stirring shovel 605 to repeatedly swing, and the stirring shovel 605 drives the stamping part on the insertion rod 602 to repeatedly vibrate up and down to shake the slag and the sundries into the collecting hopper box 6. If the stamping parts collected on the insertion rod 602 are deviated, the insertion rod 602 can be pulled upwards and taken out, and the stamping parts are separated from the insertion rod 602 in the gradually upward movement process of the insertion rod 602 and fall onto the poking shovel 605, so that the right end of the poking shovel 605 is inclined downwards to guide the stamping parts out of the upper part of the collecting hopper box 6 so as to be convenient for collection. The sliding bucket 7 prolongs the falling distance of the stamping part so as to be convenient for recovering or moving to the next processing position. The rotating bolt 801 is close to the clamping groove 203 through the pressing plate 8, the long copper sheet is clamped on the winding roller 201 in a fastening mode, winding operation is facilitated, manual auxiliary winding is avoided, and operators are prevented from being scratched during winding. The hanging part 802 can keep the hanging part 802 in contact with the follow-up seat 204 when the pressure plate 8 moves upwards, and the operation is convenient without being completely pulled out.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (7)

1. The utility model provides an automatic continuous stamping device of railway signal relay part, is including laying platform (1), whereabouts mouth (101), founding seat I (2), winding up roller (201) and base (9), lays platform (1) and founds the equal rigid coupling of seat I (2) on base (9), its characterized in that: a drop opening (101) is formed in the right side of the upper end of the laying platform (1), the vertical seat I (2) is arranged on the right side of the laying platform (1), the winding roller (201) is rotatably connected to the upper side of the vertical seat I (2), and the upper end tangent plane of the winding roller (201) is overlapped with the upper end face of the laying platform (1);

the automatic continuous stamping device for the railway signal relay parts further comprises a position opening (102) and a roller I (103), wherein the position opening (102) is formed in the right side of the laying platform (1), the roller I (103) is rotatably connected to the laying platform (1), the roller I (103) is located in the position opening (102), and the tangent plane of the upper end of the roller I (103) is higher than the upper end face of the laying platform (1);

the automatic continuous stamping device for the railway signal relay part further comprises a base (5), a motor II (501), a lead screw (502), a displacement base (503), a guide rod (504) and a press roller (505), wherein the upper end of the base (5) is fixedly connected with the motor II (501), an output shaft of the motor II (501) is rotatably connected with the base (5), the lead screw (502) is fixedly connected with an output shaft of the motor II (501), the lead screw (502) is in threaded connection with the displacement base (503), the guide rod (504) is fixedly connected with the lower end of the base (5), the displacement base (503) is slidably connected onto the guide rod (504), the press roller (505) is rotatably connected to the lower side of the displacement base (503), the base (5) is fixedly connected onto the laying platform (1), and the press roller (505) is positioned right above the roller I (103);

the automatic continuous stamping device for the railway signal relay part further comprises a reciprocating seat (3), a connecting rod I (301), a connecting rod II (302), a shaft I (303), a vertical seat II (305), a stamping head I (306), a stamping head II (307), a sliding block I (308) and a grooved vertical seat (309), wherein the rear end of the reciprocating seat (3) is hinged with one end of the connecting rod I (301), the other end of the connecting rod I (301) is hinged with one end of the connecting rod II (302), the other end of the connecting rod II (302) is fixedly connected with the front end of the shaft I (303), the middle part of the shaft I (303) is fixedly connected with the vertical seat II (305), the stamping head II (307) is fixedly connected with the lower end of the reciprocating seat (3), the stamping head II (307) is fixedly connected in the stamping head I (306), the lower end face of the stamping head II (307) is lower than the lower end face of the grooved head I (306), the sliding block I (308) is fixedly connected with the front end of the reciprocating seat (3), and the sliding block (308) is connected in the vertical seat (309), the vertical seat II (305) is fixedly connected to the base (9), the grooved vertical seat (309) is fixedly connected to the laying platform (1), and the stamping head I (306) is located right above the falling opening (101).

2. The automatic continuous stamping device of railway signal relay part of claim 1, characterized in that: the automatic continuous stamping device for the railway signal relay part further comprises a belt wheel I (202), a belt wheel II (304), a vertical seat III (4), a motor I (401), a half-tooth gear (402), a shaft II (403), a gear I (404), a belt wheel III (405), a shaft III (406), a gear II (407) and a belt wheel IV (408), wherein the front end of the vertical seat III (4) is fixedly connected with the motor I (401), an output shaft of the motor I (401) is rotatably connected to the vertical seat III (4), the half-tooth gear (402) is fixedly connected to an output shaft of the motor I (401), the shaft II (403) is rotatably connected to the vertical seat III (4), the shaft II (403) is fixedly connected with the gear I (404) and the belt wheel III (405), the gear I (404) is used for meshing transmission with the half-tooth gear (402), the shaft III (406) is rotatably connected to the vertical seat III (4), and the gear II (407) and the belt wheel IV (408) are fixedly connected to the shaft (406), and the gear II (407) is used for meshing transmission with the half-tooth gear (402).

3. The automatic continuous stamping device of railway signal relay part of claim 2, characterized in that: the automatic continuous stamping device of this railway signal relay part still includes collection hopper box (6), collection hopper box (6) rigid coupling is on base (9), and collection hopper box (6) are located whereabouts mouth (101) under.

4. The automatic continuous stamping device of railway signal relay part of claim 3, characterized in that: the automatic continuous stamping device of this railway signal relay part still includes tube socket (601), inserted bar (602), motor III (603), stands seat IV (604), dials shovel (605), wallboard (606) and longshout (607), tube socket (601) rigid coupling is in collecting hopper case (6), inserted bar (602) sliding connection is in tube socket (601), wallboard (606) of equal rigid coupling in both ends around dialling shovel (605) upper end, longshout (607) set up on dialling shovel (605), inserted bar (602) sliding connection is in longshout (607), the left end of dialling shovel (605) and the output shaft rigid coupling of motor III (603), dial shovel (605) and be located under whereabouts mouth (101), inserted bar (602) are located under punching press head II (307), stand seat IV (604) rigid coupling is put platform (1) at shop.

5. The automatic continuous stamping device of railway signal relay part of claim 4, characterized in that: the automatic continuous stamping device of railway signal relay part still includes sliding hopper (7), sliding hopper (7) set up in the right side below of dialling shovel (605), and sliding hopper (7) rigid coupling is on base (9).

6. The automatic continuous stamping device of railway signal relay part of claim 5, characterized in that: the automatic continuous stamping device of this railway signal relay part still includes draw-in groove (203), follow-up seat (204), clamp plate (8) and bolt (801), draw-in groove (203) sets up on winding up roller (201), and follow-up seat (204) of both ends rigid coupling respectively around winding up roller (201), and bolt (801) of sliding are all inserted to both ends around clamp plate (8), and two bolt (801) are respectively with two follow-up seat (204) threaded connection, and clamp plate (8) are located draw-in groove (203).

7. The automatic continuous stamping device of railway signal relay part of claim 6, characterized in that: the automatic continuous stamping device of railway signal relay part still includes and hangs portion (802), the lower extreme rigid coupling of bolt (801) hangs portion (802).

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