CN110315002B

CN110315002B - All-in-one that shears of electric capacity stitch

Info

Publication number: CN110315002B
Application number: CN201810261351.6A
Authority: CN
Inventors: 叶勇
Original assignee: Ruhlamat Automation Technologies Suzhou Co Ltd
Current assignee: Ruhlamat Automation Technologies Suzhou Co Ltd
Priority date: 2018-03-28
Filing date: 2018-03-28
Publication date: 2024-04-30
Anticipated expiration: 2038-03-28
Also published as: CN110315002A

Abstract

The invention provides a capacitor stitch shearing and bending integrated machine which mainly comprises a frame, a capacitor clamping mechanism, a pressing mechanism, a cutting mechanism, a stitch upper bending mechanism and a stitch flattening mechanism, and aims to solve the technical problems of low capacitor stitch forming efficiency and low qualification rate in the prior art. After the pressing mechanism finishes the pressing action, the cutting mechanism firstly cuts, then the stitch bending mechanism bends for the first time, the stitch flattening mechanism bends for the second time, the start and stop of the air cylinders in the four mechanisms are controlled by the control system, the time difference is utilized, the purpose that one machine finishes three working procedures is achieved, and the stitch forming efficiency and the qualification rate of the capacitor are improved.

Description

All-in-one that shears of electric capacity stitch

Technical Field

The invention relates to the technical field of capacitor production and manufacturing, in particular to equipment for processing pins of a capacitor.

Background

The capacitor is one of electronic components widely used in electronic equipment, and is widely applied to the aspects of blocking, coupling, bypass, filtering, tuning loop, energy conversion, control and the like in a circuit. The capacitor is formed by pins at both ends and an insulating dielectric medium in between, and after being energized, the pins are charged to form a voltage (potential difference), but the entire capacitor is not conductive due to the insulating medium in between.

After the sintering of the insulating dielectric medium in the middle of the capacitor is completed, the pins at the two ends are straight and have a length longer than the required length, so that the pins are required to be cut. The capacitor shown in fig. 1 comprises an insulating dielectric medium a in the middle and pins b at two ends, wherein the two pins are made of different materials, and the pins b in the drawing can be formed by bending twice after the blank pin is cut. The general bending sequence is from outside to inside, that is, the first bending to obtain the bending edge c (see fig. 2), and then the bending edge c is bent inwards to obtain the stitch b (see fig. 1), so the stitch processing of the capacitor in fig. 1 requires at least three procedures of shearing, primary bending and secondary bending. At present, one device is arranged for each of the three working procedures, and the capacitor is transmitted among the three devices, so that time is consumed, errors of three positioning precision are accumulated, the bending dimension of the stitch is extremely easy to exceed, and the qualification rate is reduced.

Disclosure of Invention

The invention aims at: the capacitive pin machining equipment integrates the functions of shearing, primary bending and secondary bending.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

the capacitive stitch shearing and bending integrated machine mainly comprises a frame, a capacitive clamping mechanism, a pressing mechanism, a cutting mechanism, a stitch upper bending mechanism and a stitch flattening mechanism;

The rack comprises a carrying platform and a fixing frame positioned above the carrying platform, wherein a lifting mounting platform is arranged at the bottom of the fixing frame, and the carrying platform and the mounting platform are positioned through positioning columns;

The capacitor clamping mechanism is arranged on the carrier and comprises a jig plate for placing a capacitor, and a sensor for detecting whether the capacitor is in place is arranged on the jig plate;

the pressing mechanism is used for pressing the pins, and comprises two groups, wherein each group comprises an upper pressing block and a lower pressing block, the two lower pressing blocks are positioned on two sides of the jig plate, and the upper pressing plate is arranged at the bottom of the mounting table;

The cutting mechanism is used for cutting the stitch, and comprises two groups, wherein each group comprises an upper cutter, a lower cutter and a cutting cylinder, the two lower cutters are positioned on two sides of the jig plate, and the upper cutter is arranged on the mounting table and driven to lift by the cutting cylinder;

the stitch upper bending mechanism is used for first bending of the stitch, and comprises two groups, wherein each group comprises a lower bending cutter, an upper bending cushion block and a bending cylinder, the lower bending cutter is positioned between the lower pressing material block and the jig plate, the bending cylinder drives the upper bending cushion block to lift, and the upper bending cushion block is arranged at the bottom of the mounting table;

The stitch pushes away flat mechanism for the second time of stitch is bent, and is totally two sets of, and every group includes pushing up flat sword, lower supporting shoe and pushes away flat cylinder, it is in to push up flat sword the bottom of mount table, it is by pushing away flat cylinder drive translation, lower supporting shoe install in on the mount table for the support and the spacing of bending this time.

Further, a V-shaped groove for placing pins is formed in the lower pressing block, and a V-shaped pressing block matched with the V-shaped groove is arranged at the bottom of the upper pressing block.

Further, a cam follower shaft and a placing groove for placing pins are arranged at the top of the lower bending knife, and the cam follower shaft protrudes into the placing groove; and a guide groove for guiding the stitch is formed in one side of the lower bending knife corresponding to the lower pressing material block.

Further, a floating plate is arranged below the carrying platform, the floating plate is connected with the carrying platform through a guide post and a guide sleeve, and the floating plate is driven to lift by a bending cylinder; the support is internally provided with a guide hole with a guide angle of 88.5 degrees, the bottom of the lower bending knife is arranged on the floating plate through a rotating shaft, and the top of the lower bending knife passes through the guide hole.

Further, the telescopic rod of the pushing-up air cylinder is connected with the pushing-up flat knife through a floating joint; the bottom of mount table is provided with the slip table that carries out the direction to push up the flat sword.

Further, a bending roller and a bending boss are arranged on the side face of the push-up flat knife, and the bottom of the bending roller is level with the bottom of the bending boss; when the pushing-up flat knife stretches out of the side pushing pin, the pin is bent by 90 degrees from the side face by the bending roller, and the pushed pin is pressed on the top of the lower supporting block by the bending boss.

Further, two electric sliding tables are arranged below the carrying table, the carrying table is mounted on a sliding block of the electric sliding table, and the electric sliding table drives the carrying table to translate from a feeding station to the lower side of the mounting table; the head end and the tail end of the electric sliding table are provided with a buffer and a limiting block.

Further, hexagonal support posts for limiting the lifting height of the floating plate are arranged at the bottom of the carrying platform.

Further, the carrier is provided with a fixing block for fixing the lower cutter on the outer side of the lower cutter, and the fixing block is provided with a strip screw hole for adjusting the position.

Further, a blanking hole is formed in the fixed block; the bottom of the mounting table is provided with a cover plate covering the blanking hole.

The beneficial effects of the invention are as follows: 1. the starting and stopping of the cylinders in the four mechanisms of the all-in-one machine are controlled by the control system, the purpose of completing three procedures by one machine is achieved by utilizing time difference, the transfer time required by traditional equipment is saved, the production efficiency of a capacitor is improved, error accumulation of three positioning precision is avoided, and the product yield is improved; 2. because the stitch materials at two ends of the capacitor are different, the required cutting force is different, so two independent cutting cylinders are designed to complete the cutting of the stitch.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the description of the embodiments will be briefly described below.

FIG. 1 is a schematic diagram of a prior art capacitor;

FIG. 2 is a process diagram of a prior art capacitor pin;

Fig. 3 is a schematic structural diagram of a capacitive pin shearing and bending integrated machine disclosed in the embodiment;

FIG. 4 is a schematic structural view of a fixing frame disclosed in the embodiment;

FIG. 5 is a schematic view of a carrier disclosed in an embodiment;

FIG. 6 is an enlarged schematic view of FIG. 5A;

FIG. 7 is a schematic view of a structure of a stage disclosed in an embodiment;

FIG. 8 is an enlarged schematic view at B in FIG. 7;

FIG. 9 is a schematic view of the structure of the lower bending blade disclosed in the embodiment;

FIG. 10 is a side view of the lower folding knife disclosed in the embodiments;

FIG. 11 is a schematic view in section A-A of FIG. 10;

Fig. 12 is a schematic structural view of the push-up flat knife disclosed in the embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to fig. 3 to 12 in the embodiments of the present invention.

The capacitive stitch shearing and bending integrated machine mainly comprises a frame 1, a capacitive clamping mechanism, a pressing mechanism, a cutting mechanism, a stitch upper bending mechanism and a stitch flattening mechanism.

The frame 1 comprises a carrying platform 1a and a fixing frame 1b positioned above the carrying platform 1a, wherein a lifting installation platform 1c is installed at the bottom of the fixing frame 1b, and the carrying platform 1a and the installation platform 1c are positioned through a positioning column 1 d. Two electric sliding tables 1e are arranged below the carrying table 1a, the carrying table 1a is mounted on a sliding block of the electric sliding table 1e, and the electric sliding table 1e drives the carrying table 1a to translate to the lower side of the mounting table 1c from the feeding station. The electric sliding table 1e is provided with a buffer 1f and a stopper 1k at the head and the tail. The electric sliding table 1e drives the carrying platform 1a to come under the mounting platform 1c, the mounting platform 1c descends to a designated position, and the positioning column 1d on the carrying platform 1a is inserted into the positioning hole of the mounting platform 1c for guiding and positioning.

The capacitor clamping mechanism is arranged on the carrier 1a and comprises a jig plate for placing the capacitor in fig. 1, and a sensor 2b for detecting whether the capacitor is in place or not is arranged on the jig plate 2 a. When the sensor detects that the capacitor is in place, the electric slipway 1e drives the carrier 1a to go below the mounting table 1 c.

The pressing mechanism is used for pressing the pins, and comprises two groups, wherein each group comprises an upper pressing block 3a and a lower pressing block 3b, the two lower pressing blocks 3b are positioned on two sides of the jig plate, and the upper pressing plate is arranged at the bottom of the mounting table 1 c. The lower presser block 3b is provided with a V-shaped groove 3c for placing pins, and the bottom of the upper presser block 3a is provided with a V-shaped pressing block 3d matched with the V-shaped groove 3 c. After the electric sliding table 1e finishes the action, the lifting cylinder 1w drives the mounting table 1c to descend to a designated position, and at the moment, the tip of the V-shaped pressing block 3d presses on the pin to realize the pressing action. When pressing the material, the point portion of V-arrangement briquetting is formed out the line ball on the stitch to prevent that follow-up first time from bending and kick-backing.

The cutting mechanism is used for cutting the stitch, and two groups of cutting mechanisms are provided, each group comprises an upper cutter 4a, a lower cutter 4b and a cutting cylinder 4c, the two lower cutters 4b are positioned on two sides of the jig plate, and the upper cutter 4a is arranged on the mounting table 1c and driven to lift by the cutting cylinder 4c. The bottom of the upper cutter 4a is provided with a junk slot. The carrier 1a is provided with a fixing block 4d for fixing the lower cutter 4b on the outer side of the lower cutter 4b, and the fixing block 4d is provided with a bar screw hole 4e for adjusting the position. A blanking hole 4f is arranged in the fixed block 4 d; the bottom of the mounting table 1c is provided with a cover plate 4k covering the blanking hole 4f to prevent the scrap from bouncing up to destroy the components. After the lifting cylinder finishes the action, the cutting cylinder 4c starts to act, the upper cutter 4a descends to cut off the stitch, and the cut waste falls into the blanking hole 4f of the fixed block 4 d.

The stitch upper bending mechanism is used for first bending of the stitch, and comprises two groups, wherein each group comprises a lower bending cutter 5a, an upper bending cushion block 5b and a bending cylinder 5c, the lower bending cutter 5a is positioned between the lower pressing material block 3b and the jig plate, and the upper bending cushion block 5b is arranged at the bottom of the mounting table 1 c. The top of the lower bending knife 5a is provided with a cam follower shaft 5d and a placing groove 5e for placing pins, and the cam follower shaft 5d protrudes into the placing groove; a guide groove 5f for guiding the stitch is arranged on one side of the lower bending knife 5a corresponding to the lower pressing block 3 b. A floating plate 5k is arranged below the carrying platform 1a, the floating plate is connected with the carrying platform 1a through a guide post and guide sleeve 5p, and the floating plate is driven to lift by a bending cylinder 5 c; a hexagonal support 5t for limiting the lifting height of the floating plate is mounted at the bottom of the carrier 1 a. A guide hole with a guide angle of 88.5 degrees is arranged in the carrying platform 1a, the bottom of the lower bending cutter is arranged on the floating plate through a rotating shaft 5x, and the top of the lower bending cutter passes through the guide hole. After the cutting cylinder 4c finishes the action, the bending cylinder 5c drives the floating plate to ascend, the lower bending knife 5a ascends along with the floating plate, the cam follower shaft 5d bends the stitch upwards and rolls upwards along the pressing stitch, and the first 88.5-degree bending is finished.

The stitch pushes away flat mechanism for the second time of stitch is bent, and is totally two sets of, and every group includes pushing up flat sword 6a, lower supporting shoe 6b and pushes away flat cylinder 6c, and the bottom at mount table 1c is installed to pushing up flat sword 6a, and it is by pushing up flat cylinder 6c drive translation, and lower supporting shoe 6b is installed on carrier table 1a for the support and the spacing of bending this time. The telescopic rod of the pushing-up cylinder 6c is connected with the pushing-up flat knife 6a through a floating joint 6 d; a slide table 6e for guiding the push-up flat knife 6a is provided at the bottom of the mounting table 1 c. The side of the push-up flat knife 6a is provided with a bending roller 6f and a bending boss 6k, and the bottom of the bending roller 6f is flush with the bottom of the bending boss 6 k. After the bending cylinder 5c is operated, the pushing cylinder 6c drives the pushing-up flat knife 6a to extend out of the side pushing pin, the bending roller 6f bends the pin by 90 degrees from the side, the flattened pin is pressed on the top of the lower supporting block 6b by the bending boss 6k, and the second bending of 90 degrees is completed.

Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The capacitive stitch shearing and bending integrated machine is characterized by mainly comprising a frame, a capacitive clamping mechanism, a pressing mechanism, a cutting mechanism, a stitch upper bending mechanism and a stitch flattening mechanism;

The pressing mechanism is used for pressing the pins, and comprises two groups, wherein each group comprises an upper pressing block and a lower pressing block, the two lower pressing blocks are positioned on two sides of the jig plate, and the upper pressing blocks are arranged at the bottom of the mounting table;

2. The capacitive stitch shearing and bending integrated machine according to claim 1, wherein a V-shaped groove for placing stitches is formed in the lower pressing block, and a V-shaped pressing block matched with the V-shaped groove is arranged at the bottom of the upper pressing block.

3. The capacitive pin shearing and bending integrated machine according to claim 2, wherein a cam follower shaft is mounted on the top of the lower bending blade, and a placing groove for placing pins is formed in the cam follower shaft; and a guide groove for guiding the stitch is formed in one side of the lower bending knife, which corresponds to the lower pressing block.

4. The capacitive pin shearing and bending integrated machine according to claim 3, wherein a floating plate is arranged below the carrying platform, the floating plate is connected with the carrying platform through a guide post and a guide sleeve, and the floating plate is driven to lift by a bending cylinder; the support is internally provided with a guide hole with a guide angle of 88.5 degrees, the bottom of the lower bending knife is arranged on the floating plate through a rotating shaft, and the top of the lower bending knife passes through the guide hole.

5. The capacitive pin shearing and bending integrated machine according to claim 4, wherein the telescopic rod of the pushing cylinder is connected with the pushing-up flat knife through a floating joint; the bottom of mount table is provided with the slip table that carries out the direction to push up the flat sword.

6. The capacitive pin shearing and bending integrated machine according to claim 5, wherein a bending roller and a bending boss are arranged on the side surface of the push-up flat knife, and the bottom of the bending roller is level with the bottom of the bending boss; when the pushing-up flat knife stretches out of the side pushing pin, the pin is bent by 90 degrees from the side face by the bending roller, and the pushed pin is pressed on the top of the lower supporting block by the bending boss.

7. The capacitive pin shearing and bending integrated machine according to claim 6, wherein two electric sliding tables are arranged below the carrying table, the carrying table is installed on a sliding block of the electric sliding tables, and the electric sliding tables drive the carrying table to translate from a feeding station to the lower side of the installation table; the head end and the tail end of the electric sliding table are provided with a buffer and a limiting block.

8. The capacitive pin shearing and bending integrated machine according to claim 7, wherein a hexagonal support for limiting the lifting height of the floating plate is mounted at the bottom of the carrier.

9. The capacitive pin shearing and bending integrated machine according to claim 8, wherein the carrier is provided with a fixing block for fixing the lower cutter on the outer side of the lower cutter, and the fixing block is provided with a strip screw hole for adjusting the position.

10. The capacitive pin shearing and bending integrated machine according to claim 9, wherein a blanking hole is formed in the fixed block; the bottom of the mounting table is provided with a cover plate covering the blanking hole.