CN117199969A - Positive and negative terminal processing device - Google Patents

Abstract

The invention belongs to the technical field of terminal processing, in particular to a positive and negative terminal processing device, which comprises a first support frame, a second support frame and a third support frame, wherein the second support frame and the third support frame are positioned on two sides of the first support frame; and the second support frame is provided with a bending and cutting mechanism, the bending and cutting mechanism comprises a bending punch, a cutting gear and a driving wheel disc with a plurality of arc surfaces, and the corresponding bending punch and the corresponding cutting gear are driven to respectively realize bending and cutting of the workpiece through rotation of the driving wheel disc. The device has compact structure, can realize feeding, bending, grinding, cutting and discharging of the anode and cathode terminals at one time, does not need to be continuously carried among processing equipment with a plurality of different processing functions, and has high processing efficiency.

Description

Positive and negative terminal processing device

Technical Field

The invention relates to the technical field of terminal processing, in particular to a positive and negative terminal processing device.

Background

The wiring terminal is one kind of electronic components, and the wiring terminal is mainly used for realizing an accessory product of electrical connection, and the wiring terminal can be divided into European wiring terminal series, plug-in wiring terminal series, ring terminal series and the like.

The production of current binding post mostly divide into multiple process, and every process adopts corresponding mechanical equipment to produce, needs constantly to carry between the processing equipment of a plurality of different processing functions during production, and degree of automation is low, and machining efficiency is low.

Disclosure of Invention

The invention provides a positive and negative terminal machining device, which solves the problems of complex machining procedures and low machining efficiency of the existing positive and negative terminal machining device.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the positive and negative terminal machining device comprises a first support frame, a second support frame and a third support frame, wherein the second support frame and the third support frame are positioned on two sides of the first support frame, a feeding mechanism positioned at one end and a discharging pipeline positioned at the other end are arranged on the first support frame, a baffle plate arranged between the second support frame and the third support frame is arranged on one side of the discharging pipeline, and the baffle plate is used for limiting one end of raw materials fed each time;

the second support frame is provided with a bending and cutting mechanism, the bending and cutting mechanism comprises a bending punch, a cutting gear and a plurality of driving wheel discs with arc surfaces, and the corresponding bending punch and cutting gear are driven to respectively realize bending and cutting of the workpiece through rotation of the driving wheel discs;

and a grinding mechanism for grinding one end of the bent workpiece is arranged on the third support frame.

Preferably, the grinding mechanism comprises a mounting frame mounted on a third support frame, a reciprocating screw rod is rotatably connected inside the mounting frame, a third motor is mounted on the outer side wall of the mounting frame, an output shaft of the third motor is connected with a U-shaped driving rod rotatably connected inside the mounting frame, two ends of the U-shaped driving rod are slidably sleeved with U-shaped sliding rods, sliding holes are formed in two sides of the U-shaped sliding rods, two ends of the U-shaped driving rod are slidably inserted into the sliding holes, one end of the U-shaped sliding rod is provided with a plurality of grinding tool bits through a stabilizing ring, a transmission ring is rotatably sleeved outside the U-shaped sliding rod, a groove for the transmission ring to rotate is formed in the outer side wall of the U-shaped sliding rod, and a sliding block which is spirally connected with the reciprocating screw rod is fixedly connected on the transmission ring;

the output shafts of the reciprocating screw rod and the motor III are respectively provided with a driving roller, a driving belt is connected between the two driving rollers, and the reciprocating screw rod and the motor III can also be driven by a chain wheel and chain driving mode and other driving mechanisms.

Preferably, the bending and cutting mechanism comprises a fixed frame, the inside sliding connection of the fixed frame is provided with a transmission sliding block, a spring is arranged between the transmission sliding block and a side wall of the fixed frame, one end of a sliding rod is kept to be attached to the side wall of a driving wheel disc in the transmission process of the spring, a bending punch and a mounting rod are further arranged on the same side wall of the transmission sliding block, one ends of the bending punch and the mounting rod are all extended to the outside of the fixed frame, a first motor is fixed on the mounting rod, an output shaft of the first motor is connected with a cutting gear, a second motor is arranged on the second support frame, an output shaft of the second motor is connected with the driving wheel disc, and one end of the sliding rod is fixedly connected to the outer side wall of the driving wheel disc in a sliding manner.

It is worth to say that, the lateral wall that the ejection of compact pipeline is close to the shutdown mechanism of bending is equipped with the fracture of cutting gear complex.

Preferably, the feeding mechanism comprises two driving rollers which are arranged on the first support frame through a first mounting frame, and the rotating shafts of the driving rollers are connected with the output shaft of a driving motor arranged on the first support frame;

the feeding mechanism further comprises a pinch roller symmetrically arranged above the driving roller, the pinch roller is rotationally connected to the second mounting frame, two spring telescopic rods are fixed to the top end of the vertical section of the first mounting frame through extension rods, the second mounting frame is connected to the output end of each spring telescopic rod, workpiece raw materials are tightly attached to the driving roller through elasticity of the spring telescopic rods, and feeding slipping is prevented.

Further, one side of the driving roller is also provided with a plurality of arc-shaped supporting plates, and the bottom ends of the arc-shaped supporting plates are fixed on the first supporting frame through supporting rods and screws.

It is worth to say that be equipped with first arc portion, second arc portion and the bellying of interengagement on the outer circumference of drive rim plate, first arc portion, second arc portion and bellying increase in proper order apart from the distance of drive rim plate centre of a circle.

Further, a liquid spray nozzle positioned near the grinding tool bit is arranged on the grinding mechanism through a bracket, and the liquid spray nozzle is connected with a cutting liquid outlet mechanism through a guide pipe.

Preferably, the cutting fluid discharging mechanism comprises a cutting fluid storage box arranged on a third support frame through a bracket and a fluid guide cylinder arranged on the grinding mechanism through the bracket;

the cutting fluid storage box is characterized in that a liquid inlet pipe is connected between the bottom end of the cutting fluid storage box and one end side wall of the liquid guide cylinder, a liquid outlet pipe is connected between the same end of the liquid guide cylinder and the liquid spray nozzle, one-way valves are arranged on the liquid inlet pipe and the liquid outlet pipe, a piston block is connected in a sliding sealing mode inside the liquid guide cylinder, a U-shaped transmission rod is connected between the piston block and the sliding block, one-time liquid outlet and one-time liquid inlet inside the liquid guide cylinder are realized when the reciprocating screw rod drives the sliding block to reciprocate for one period, liquid spray is not carried out outwards through the liquid spray nozzle in the process of recovering the grinding tool bit, and loss and waste of cutting fluid are reduced.

It is worth to say that the top of one end of the bending punch, which is close to the discharging pipeline, is provided with an induction block, and the top of the discharging pipeline is provided with a photoelectric sensor matched with the induction block;

and a controller is arranged on the third mounting frame, the input end of the controller is connected with a photoelectric sensor and a power supply, and the output end of the controller is connected with a driving motor, a first motor, a second motor and a third motor.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a positive and negative terminal processing device, which can realize automatic feeding, bending, cutting and discharging of terminal processing raw materials through the cooperation of a feeding mechanism and a bending and cutting mechanism, does not need to process each processing procedure through multi-station conversion, and has high processing efficiency;

after bending, the grinding mechanism is arranged, and the grinding tool bit can rotate, advance and retreat through one motor, so that the grinding processing of the terminal end can be rapidly realized;

meanwhile, in each grinding process, the primary liquid outlet and primary liquid inlet of the cutting liquid in the liquid guide cylinder are automatically realized, liquid is not sprayed outwards through the liquid spray nozzle in the process of recovering the grinding tool bit, and the loss and waste of the cutting liquid are reduced.

The device has compact structure, can realize feeding, bending, grinding, cutting and discharging of the anode and cathode terminals at one time, does not need to be continuously carried among processing equipment with a plurality of different processing functions, and has high processing efficiency.

Drawings

Fig. 1 is a schematic structure of a positive and negative electrode terminal;

FIG. 2 is a schematic structural diagram of embodiment 1 of the present invention;

FIG. 3 is a schematic view of the structures of the first, second and third supporting frames and the baffle plate of the present invention;

FIG. 4 is a schematic view of the structure of the first support frame, the feeding mechanism and the discharge pipeline of the present invention;

FIG. 5 is a schematic structural view of the bending and cutting mechanism of the present invention;

FIG. 6 is a schematic view of the structure of the driving wheel of the present invention;

FIG. 7 is a schematic view of the grinding mechanism of the present invention;

FIG. 8 is a partial schematic view of the structure of FIG. 7;

FIG. 9 is a schematic diagram of the structure of embodiment 2 of the present invention;

FIG. 10 is a partial schematic view of the structure of FIG. 9;

fig. 11 is a partial cross-sectional view of fig. 10.

In the figure:

1. a first supporting frame;

2. a feed mechanism; 201. a support rod; 202. an arc-shaped supporting plate; 203. a first mounting frame; 204. a driving roller; 205. a pinch roller; 206. a second mounting frame; 207. a spring telescoping rod;

3. a second supporting frame;

4. a bending and cutting mechanism; 401. a driving wheel disc; 4011. a first arc-shaped portion; 4012. a second arc-shaped portion; 4013. a boss; 402. a transmission slide block; 403. a fixed frame; 404. bending the punch; 405. an induction block; 406. a spring; 407. cutting the gear; 408. a first motor; 409. a second motor; 410. a slide bar;

5. a baffle;

6. a cutting fluid discharging mechanism; 601. a cutting fluid storage tank; 602. a liquid guide cylinder; 603. a liquid inlet pipe; 604. a liquid outlet pipe; 605. a piston block; 606. a transmission rod;

7. a grinding mechanism; 701. a third motor; 702. a U-shaped driving rod; 703. a drive ring; 704. a U-shaped sliding rod; 705. grinding the tool bit; 706. a liquid spray nozzle; 707. a reciprocating screw rod; 708. a mounting frame; 709. a sliding block; 710. a drive belt;

8. a third supporting frame;

9. a controller;

10. a discharge pipe;

11. cutting off the fracture;

12. a photoelectric sensor.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Example 1: referring to fig. 2-8, a positive and negative terminal processing device comprises a first support frame 1, a second support frame 3 and a third support frame 8 positioned on two sides of the first support frame, wherein the second support frame 3 and the third support frame 8 are positioned at the tail end of the first support frame 1, a feeding mechanism 2 positioned at one end and a discharging pipeline 10 positioned at the other end are arranged on the first support frame 1, the inner dimension of the discharging pipeline 10 is matched with the dimension of an entered raw material, a baffle 5 arranged between the second support frame 3 and the third support frame 8 is arranged on one side of the discharging pipeline 10, and the baffle 5 is used for limiting one end of the raw material fed each time and guaranteeing that the length of the positive and negative terminal processed each time maintains the same length specification;

the second support frame 3 is provided with a bending and cutting mechanism 4, the bending and cutting mechanism 4 comprises a bending punch 404, a cutting gear 407 and a plurality of driving wheel discs 401 with arc surfaces, the outer circumference of the driving wheel discs 401 is provided with a first arc part 4011, a second arc part 4012 and a protruding part 4013 which are mutually connected, the distances between the first arc part 4011, the second arc part 4012 and the protruding part 4013 and the center of the driving wheel discs 401 are sequentially increased, and the corresponding bending punch 404 and the cutting gear 407 are driven by the rotation of the driving wheel discs 401 to respectively realize the bending and cutting of workpieces;

the bending and cutting mechanism 4 comprises a fixed frame 403, a transmission sliding block 402 is slidably connected in the fixed frame 403, a spring 406 is mounted between the transmission sliding block 402 and a side wall of the fixed frame 403, one end of a sliding rod 410 is kept attached to the side wall of the driving wheel disc 401 in the transmission process of the spring 406, a bending punch 404 and a mounting rod are further mounted on the same side wall of the transmission sliding block 402, one ends of the bending punch 404 and the mounting rod extend to the outside of the fixed frame 403, a first motor 408 is fixed on the mounting rod, a cutting gear 407 is connected with an output shaft of the first motor 408, a second motor 409 is mounted on the second support frame 3, a driving wheel disc 401 is connected with an output shaft of the second motor 409, a sliding rod 410 with one end fixedly connected to the transmission sliding block 402 is slidably connected to the outer side wall of the driving wheel disc 401, and one end of the sliding rod 410, close to the driving wheel disc 401, is spherical.

The side wall of the discharging pipeline 10, which is close to the bending and cutting mechanism 4, is provided with a cutting opening 11 matched with the cutting gear 407, so that the cutting gear 407 can conveniently enter the discharging pipeline 10 to cut the raw material metal rod piece into a specific length specification.

The grinding mechanism 7 for grinding one end of the bent workpiece is arranged on the third support frame 8, the grinding mechanism 7 comprises a mounting frame 708 arranged on the third support frame 8, a reciprocating screw rod 707 is rotatably connected inside the mounting frame 708, a motor three 701 is arranged on the outer side wall of the mounting frame 708, an output shaft of the motor three 701 is connected with a U-shaped driving rod 702 rotatably connected inside the mounting frame 708, two ends of the U-shaped driving rod 702 are in sliding sleeve connection with a U-shaped sliding rod 704, two sides of the U-shaped sliding rod 704 are provided with sliding holes, two ends of the U-shaped driving rod 702 are in sliding sleeve connection with the sliding holes, one end of the U-shaped sliding rod 704 is provided with a plurality of grinding cutter heads 705 through a stabilizing ring, a transmission ring 703 is rotatably sleeved on the outer side wall of the U-shaped sliding rod 704, and a sliding block 709 for the transmission ring 703 to rotate is fixedly connected with the transmission ring 703 in a spiral transmission manner;

the output shafts of the reciprocating screw rod 707 and the motor three 701 are respectively provided with a driving roller, a driving belt 710 is connected between the two driving rollers, and the reciprocating screw rod and the motor three 701 can also be driven by other driving mechanisms such as a sprocket and chain driving mode.

The feeding mechanism 2 comprises two driving rollers 204 which are arranged on the first support frame 1 through a first mounting frame 203, the rotating shafts of the driving rollers 204 are connected with the output shaft of a driving motor arranged on the first support frame 1, and when the driving rollers 204 rotate, raw material metal rod pieces on the driving rollers can be driven to feed into the discharging pipeline 10;

the feeding mechanism 2 further comprises pinch rollers 205 symmetrically arranged above the driving roller 204, the pinch rollers 205 are rotationally connected to a second mounting frame 206, two spring telescopic rods 207 are further fixed to the top end of the vertical section of the first mounting frame 203 through extension rods, the second mounting frame 206 is connected to the output end of each spring telescopic rod 207, workpiece raw materials are kept tightly attached to the driving roller 205 through the elasticity of each spring telescopic rod 207, and feeding slipping is prevented.

The feeding mechanism 2 further comprises a plurality of arc-shaped supporting plates 202 arranged on one side of the driving roller 204, the bottom ends of the arc-shaped supporting plates 202 are fixed on the first supporting frame 1 through supporting rods 201 and screws, the arc-shaped supporting plates are used for providing supporting function for the raw material metal rod pieces, a plurality of balls are embedded in the inner walls of the arc-shaped supporting plates 202, and friction force of the raw material metal rod pieces during feeding is reduced.

Meanwhile, an induction block 405 is arranged at the top of one end of the bending punch 404, which is close to the discharge pipeline 10, and a photoelectric sensor 12 matched with the induction block 405 is arranged at the top of the discharge pipeline 10;

the controller 9 is installed on the third installation frame 9, the input end of the controller 9 is connected with the photoelectric sensor 12 and the power supply, and the output end of the controller 9 is connected with the driving motor, the first motor 408, the second motor 409 and the third motor 701.

When the feeding machine is used, a raw material metal rod piece is placed on an arc-shaped supporting plate 202 on a feeding machine 2, one end of the metal rod piece passes through a position between a driving roller 204 and a compression roller 205 and enters a discharge pipeline 10, a driving motor, a first motor 408 and a second motor 409 are started through a controller, an output shaft of the driving motor drives the driving roller 204 to rotate, so that one end of the metal rod piece is driven to continuously move to one side until being limited and blocked by a baffle 5, at the moment, sliding friction is generated between the driving roller 204 and the metal rod piece, the first motor 408 rotates, meanwhile, an output end of the second motor 409 drives a driving wheel disc 401 to rotate, one end of a sliding rod 410 slides on a first arc-shaped part 4011, and a bending punch 404 and a cutting gear 407 are not driven to move to one side, so that the feeding time of the metal rod piece is;

the output end of the second motor 409 continuously drives the driving wheel disc 401 to rotate, one end of the sliding rod 410 moves from the first arc-shaped part 4011 to the second arc-shaped part 4012, at the moment of moving to the second arc-shaped part 4012, the sliding rod 410 drives the transmission sliding block 402 to compress the spring 406 to drive the cutting gear 407 and the bending punch 404 to move, at the moment, the cutting gear 407 is close to the cut-off 12, the bending punch 404 punches and bends one end of the metal rod extending out of the discharging pipeline 10, meanwhile, in the moving process of the second arc-shaped part 4012, the sensing block 405 is close to the photoelectric sensor 12 under the driving of the bending punch 404, the photoelectric sensor 12 detects signals and transmits the signals to the controller 9, the controller controls the grinding mechanism 7 to work, the output shaft of the third motor 701 drives the U-shaped driving rod 702 to rotate, the U-shaped driving rod 702 drives the grinding tool bit 705 to rotate through the U-shaped sliding rod 704, meanwhile, the output shaft of the motor III 701 drives the reciprocating screw rod 707 to rotate through a driving roller and a driving belt 710, the reciprocating screw rod 707 is in spiral transmission connection with the sliding block 709, the driving ring 703 drives the U-shaped sliding rod 704 to move to one side at the same time, thereby driving the grinding tool bit 705 to rotate and move to one side at the same time, grinding one end of the rod piece after bending is realized, after grinding, the grinding mechanism 7 is restored to original position due to the continuous rotation of the reciprocating screw rod 707, the grinding time is just similar to the time of one movement period of the sliding rod 410 on the second arc-shaped part 4012, one end of the sliding rod 410 moves from the second arc-shaped part 4012 to the third arc-shaped part 4013, at the moment of moving to the third arc-shaped part 4013, the sliding rod 410 drives the driving sliding block 402 to compress the spring 406 to drive the cutting gear 407 and the bending punch 404 to move, at this time, the cutting gear 407 enters the cut-off 12 to cut the raw metal rod piece;

the output end of the second motor 409 continuously drives the driving wheel disc 401 to rotate, one end of the sliding rod 410 moves from the third arc-shaped part 4013 to the first arc-shaped part 4011 to realize the discharge of the processed terminal, and meanwhile, under the elastic force of the spring 406, the sliding rod 410 drives the transmission sliding block 402 to compress the spring 406 to drive the cutting gear 407 and the bending punch 404 to return to the original position and then continuously realize the feeding of the metal rod piece of the subsequent raw material, so that the continuous repeated work can be realized, and the uninterrupted work of the feeding, bending, grinding, cutting and discharging of the positive and negative terminals can be realized.

Example 2: referring to fig. 9 to 11, unlike in embodiment 1, a liquid jet nozzle 706 is mounted on the grinding mechanism 7 by a bracket in the vicinity of the grinding bit 705, and the liquid jet nozzle 706 is connected to the cutting liquid discharging mechanism 6 by a pipe.

The cutting fluid discharging mechanism 6 comprises a cutting fluid storage tank 601 which is arranged on a third support frame 8 through a bracket and a fluid guide cylinder 602 which is arranged on a grinding mechanism 7 through a bracket;

a liquid inlet pipe 603 is connected between the bottom end of the cutting liquid storage tank 601 and the side wall of one end of the liquid guide cylinder 602, a liquid outlet pipe 604 is connected between the same end of the liquid guide cylinder 602 and the liquid spray nozzle 706, one-way valves are arranged on the liquid inlet pipe 603 and the liquid outlet pipe 604, a piston block 605 is connected in a sliding and sealing manner in the liquid guide cylinder 602, and a U-shaped transmission rod 606 is connected between the piston block 605 and a sliding block 709;

the reciprocating screw rod 707 rotates and is in spiral transmission connection with the sliding block 709, the sliding block 709 can only move radially on the reciprocating screw rod 707 due to the limit of other connecting components, when moving to one side, the driving rod 606 drives the piston block 605 to move to one side in the liquid guide cylinder 602, cutting liquid in the liquid guide cylinder 602 is sprayed out of the liquid spray nozzle 706 through the liquid outlet pipe 604 due to the action of the one-way valve on the liquid inlet pipe 603 and the liquid outlet pipe 604, lubrication, cleaning and cooling of the cutting position are realized, when the reciprocating screw rod 707 drives the sliding block 709 to move back, the driving rod 606 drives the piston block 605 to move to the other side in the liquid guide cylinder 602, and at the moment, cutting liquid in the cutting liquid storage box 601 can only be guided into the liquid guide cylinder 602 through the liquid inlet pipe 603 due to the action of the one-way valve on the liquid outlet pipe 604 so as to prepare for next liquid outlet;

so when reciprocating lead screw 707 drives sliding block 709 reciprocating motion one cycle, realize the inside liquid that once goes out of drain cylinder 602 and once feed liquor, the outside hydrojet of hydrojet nozzle 706 is not in the process of grinding tool bit 705 restoring to the normal position, reduces the loss waste of cutting fluid.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (10)

1. The positive and negative terminal machining device comprises a first support frame (1), a second support frame (3) and a third support frame (8) which are positioned on two sides of the first support frame, and is characterized in that a feeding mechanism (2) positioned at one end and a discharging pipeline (10) positioned at the other end are arranged on the first support frame (1), and a baffle plate (5) arranged between the second support frame (3) and the third support frame (8) is arranged on one side of the discharging pipeline (10);

a bending and cutting mechanism (4) is arranged on the second support frame (3), the bending and cutting mechanism (4) comprises a bending punch (404), a cutting gear (407) and a plurality of driving wheel discs (401) with arc surfaces, and the corresponding bending punch (404) and the cutting gear (407) are driven to respectively realize bending and cutting of a workpiece through rotation of the driving wheel discs (401);

and a grinding mechanism (7) for grinding one end of the bent workpiece is arranged on the third support frame (8).

2. The positive and negative terminal machining device according to claim 1, wherein the grinding mechanism (7) comprises a mounting frame (708) mounted on a third support frame (8), a reciprocating screw rod (707) is rotatably connected inside the mounting frame (708), a third motor (701) is mounted on the outer side wall of the mounting frame (708), an output shaft of the third motor (701) is connected with a U-shaped driving rod (702) rotatably connected inside the mounting frame (708), two ends of the U-shaped driving rod (702) are slidably sleeved with U-shaped sliding rods (704), one end of each U-shaped sliding rod (704) is provided with a plurality of grinding tool bits (705) through a stabilizing ring, a transmission ring (703) is rotatably sleeved outside each U-shaped sliding rod (704), and a sliding block (709) which is spirally connected with the reciprocating screw rod (707) is fixedly connected to the transmission ring (703);

the output shafts of the reciprocating screw rod (707) and the motor III (701) are respectively provided with a driving roller, and a driving belt (710) is connected between the two driving rollers.

3. The positive and negative terminal machining device according to claim 1, wherein the bending and cutting mechanism (4) comprises a fixed frame (403), a transmission slide block (402) is slidably connected in the fixed frame (403), a spring (406) is installed between the transmission slide block (402) and a side wall of the fixed frame (403), a bending punch (404) and a mounting rod are further installed on the same side wall of the transmission slide block (402), one ends of the bending punch (404) and the mounting rod extend to the outside of the fixed frame (403), a first motor (408) is fixed on the mounting rod, a cutting gear (407) is connected to an output shaft of the first motor (408), a second motor (409) is installed on the second support frame (3), a driving wheel disc (401) is connected to an output shaft of the second motor (409), and a sliding rod (410) with one end fixedly connected to the transmission slide block (402) is slidably connected to an outer side wall of the driving wheel disc (401).

4. A positive and negative terminal processing device according to claim 3, characterized in that the side wall of the discharge pipe (10) close to the bending and cutting mechanism (4) is provided with a cutting opening (11) matched with the cutting gear (407).

5. The positive and negative terminal machining device according to claim 1, wherein the feeding mechanism (2) comprises two driving rollers (204) mounted on the first support frame (1) through a first mounting frame (203), and the rotating shafts of the driving rollers (204) are connected with the output shaft of a driving motor mounted on the first support frame (1);

the feeding mechanism (2) further comprises compression rollers (205) symmetrically arranged above the driving rollers (204), the compression rollers (205) are rotationally connected to the second installation frame (206), two spring telescopic rods (207) are further fixed to the top end of the vertical section of the first installation frame (203) through extension rods, and the output end of each spring telescopic rod (207) is connected with the second installation frame (206).

6. The positive and negative terminal machining device according to claim 1, wherein one side of the driving roller (204) is further provided with a plurality of arc-shaped supporting plates (202), and the bottom ends of the arc-shaped supporting plates (202) are fixed on the first supporting frame (1) through supporting rods (201) and screws.

7. The positive and negative terminal machining device according to claim 3, wherein the outer circumference of the driving wheel disc (401) is provided with a first arc-shaped portion (4011), a second arc-shaped portion (4012) and a protruding portion (4013) which are mutually connected, and distances between the first arc-shaped portion (4011), the second arc-shaped portion (4012) and the protruding portion (4013) and the center of the driving wheel disc (401) are sequentially increased.

8. The positive and negative terminal machining device according to claim 2, wherein the grinding mechanism (7) is provided with a liquid spraying nozzle (706) positioned near the grinding tool bit (705) through a bracket, and the liquid spraying nozzle (706) is connected with the cutting liquid discharging mechanism (6) through a conduit.

9. The positive and negative terminal machining device according to claim 8, wherein the cutting fluid outlet mechanism (6) comprises a cutting fluid storage tank (601) mounted on a third support frame (8) through a bracket and a fluid guide cylinder (602) mounted on a grinding mechanism (7) through a bracket;

a liquid inlet pipe (603) is connected between the bottom end of the cutting liquid storage tank (601) and one end side wall of the liquid guide cylinder (602), a liquid outlet pipe (604) is connected between the same end of the liquid guide cylinder (602) and the liquid spray nozzle (706), one-way valves are arranged on the liquid inlet pipe (603) and the liquid outlet pipe (604), a piston block (605) is connected in a sliding sealing mode inside the liquid guide cylinder (602), and a U-shaped transmission rod (606) is connected between the piston block (605) and the sliding block (709).

10. The positive and negative terminal machining device according to claim 1, wherein an induction block (405) is installed at the top of one end of the bending punch (404) close to the discharging pipeline (10), and a photoelectric sensor (12) matched with the induction block (405) is installed at the top of the discharging pipeline (10);

and a controller (9) is arranged on the third mounting frame (9), the input end of the controller (9) is connected with a photoelectric sensor (12) and a power supply, and the output end of the controller (9) is connected with a driving motor, a first motor (408), a second motor (409) and a third motor (701).