CN108879288B - Insertion double-terminal mechanism of connector assembling equipment - Google Patents

Abstract

The invention discloses an inserting double-terminal mechanism of connector assembly equipment, which comprises a terminal feeding device, a terminal holding and cutting device and double trays, wherein the terminal feeding device is arranged on a feeding support of the terminal holding and cutting device, terminal strips on the double trays are conveyed to the terminal feeding device, and the terminal feeding device comprises a cutting support, a strip guide block, a cover plate, a guide block, a guide plate, a lifting cylinder, a stop block, a claw guide block, a claw connecting block and a brake block. Through the mode, the automatic terminal feeding device is simple in structure, high in working efficiency and cost-saving, and can replace manual and automatic terminal feeding and holding and cutting.

Description

Insertion double-terminal mechanism of connector assembling equipment

Technical Field

The invention relates to the technical field of connector processing, in particular to an insertion two-terminal mechanism of connector assembly equipment.

Background

The existing connectors are mostly assembled by manually placed components and using the traditional hand-operated manual punching machine, the production efficiency is low, a certain risk exists in the work of workers, the assembly process is more, the demand for the workers is more, defective products are easy to occur in the assembly of the workers, the enterprise cost is increased, the traditional assembly is time-consuming and labor-consuming, and the prior art is improved based on the defects and shortcomings, so that the plug-in two-terminal mechanism of the connector assembly equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the double-terminal inserting mechanism of the connector assembling equipment, which has simple structure, high working efficiency and cost saving, and can replace manual and automatic conveying of terminal material strips and holding cutting terminals.

In order to solve the technical problems, the invention adopts a technical scheme that: the utility model provides an inserting double-terminal mechanism of connector assembly equipment, the inserting double-terminal mechanism of this kind of connector assembly equipment includes terminal material feeding unit, terminal armful cutting device and double-charging tray, terminal material feeding unit sets up on the feeding support of terminal armful cutting device, and terminal material area on the double-charging tray carries terminal material feeding unit department, terminal feeding unit includes cuts support, material area guide block, apron, guide block, deflector, lift cylinder, stop dog, claw guide block, claw connecting block and brake block, cut the support and be fixed in on the feeding support, cut the support front side and vertically install the material area guide block, material area guide block both sides face is provided with the material area guide way, encapsulates on the material area guide way and has the apron, cuts the support rear side and vertically is provided with two guide blocks, is provided with the deflector with it between the guide block, a lifting cylinder is fixed on a cutting support above the guide plate, a piston rod of the lifting cylinder is fixedly connected with the guide plate, a stop block is fixed on the cutting support below the guide plate, two claw guide blocks are installed on the front side surface of the guide plate, an avoidance opening is formed in the cutting support, the two claw guide blocks penetrate through the avoidance opening and are positioned on two sides of the material belt guide block, a claw perpendicular to the claw guide blocks is inserted on the claw guide blocks, a claw connecting block is further installed at the outer side end of the claw guide block, the extension end of the claw connecting block is connected with the claw through a spring, a vertical cutting opening is formed in a cover plate, the upper part of the extension end of the claw is an inclined plane, the extension end of the claw penetrates through the cutting opening and the bottom of the inclined plane is positioned at a material belt hole of the terminal material belt, the claw moves downwards to drive the terminal material belt downwards, a brake block is further installed on the two cover plates, the brake block penetrates through the cover plate to be close to the terminal material belt, in the resetting process of the pulling claw, the terminal material belt is fixed under the action of the brake pad.

Preferably, the terminal embracing and cutting device comprises a feeding support, a feeding guide block, a lower slide block, a connecting block, an upper slide block, a floating block, a feeding cylinder and embracing and cutting components, wherein two opposite feeding guide blocks are arranged on the upper plane of the feeding support, a lower slide block is arranged between the feeding guide blocks, a delay groove is arranged on the lower slide block, the connecting block is arranged in the delay groove, the upper slide block is arranged at the upper end of the connecting block, two groups of connecting holes are further arranged on the lower slide block, springs are arranged in the connecting holes, the upper part of each spring is connected with the floating block, the floating block lifts up the upper slide block under the action of the springs, the upper slide block is in a floating state, the feeding cylinder is arranged on the feeding support at the rear side of the upper slide block, a piston rod of the feeding cylinder is fixedly connected with the upper slide block, and the embracing and cutting components are arranged at the front end of the lower slide block.

Preferably, the embracing and cutting assembly comprises embracing and cutting guide blocks, supporting levers, tension springs, roller bearings, embracing and cutting knives, connecting columns, clamping connecting blocks, clamping blocks and upper knife blocks, wherein the embracing and cutting guide blocks are fixed on the upper parts of the extending ends of the lower sliding blocks, the supporting levers are movably connected to the two ends of the embracing and cutting guide blocks through connecting pins, the rear ends of the two supporting levers are connected through the tension springs, the roller bearings are further inserted into the rear ends of the supporting levers, two inward inclined planes are arranged at the front ends of the upper sliding blocks, the inclined planes are matched with the roller bearings, two opposite embracing knives are arranged at the front ends of the embracing and cutting guide blocks, the embracing knives can slide along the front ends of the embracing and cutting guide blocks, the connecting columns are arranged at the tail parts of the embracing knives, the connecting columns extend up and down to clamp the opening parts of the front ends of the supporting levers, the supporting levers rotate to drive the embracing knives to slide along the horizontal directions of the front ends of the embracing and cutting guide blocks, the clamping connecting blocks are fixed on the embracing and cutting guide blocks, the two sides of the clamping connecting blocks extend out of the clamping blocks are connected through springs, the clamping blocks are arranged at the bottom of the embracing and the bottom of the material band guide blocks, the upper knife blocks and the upper embracing and the upper knife blocks are matched with the upper knife blocks.

Compared with the prior art, the invention has the beneficial effects that: simple structure can replace artifical automatic conveying terminal material area and embrace and cut the terminal, and work efficiency is high, practices thrift the cost.

Drawings

Fig. 1 is a schematic structural view of an insertion two-terminal mechanism of a connector assembling apparatus.

Fig. 2 is a schematic diagram of a first structure of a terminal feeding device of a plug-in two-terminal mechanism of a connector assembling device.

Fig. 3 is a second schematic structural view of a terminal feeding device of an insertion two-terminal mechanism of a connector assembling device.

Fig. 4 is a schematic drawing of a claw structure of an insertion two-terminal mechanism of a connector assembling apparatus.

Fig. 5 is a schematic structural view of a terminal clamping and cutting device of a plug-in two-terminal mechanism of a connector assembling device.

Fig. 6 is a schematic structural view of a clamping and cutting assembly of the insertion two-terminal mechanism of the connector assembling device.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present invention can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present invention.

Referring to fig. 1 to 6, an embodiment of the present invention includes:

the plug-in double-terminal mechanism of the connector assembling equipment comprises a terminal feeding device 41, a terminal holding and cutting device 42 and a double-tray 43, wherein the terminal feeding device 41 is arranged on a feeding bracket 421 of the terminal holding and cutting device 42, a terminal material belt on the double-tray 43 is conveyed to the terminal feeding device 41, the terminal feeding device 41 comprises a cutting bracket 411, a material belt guide block 412, a cover plate 413, a guide block 414, a guide plate 415, a lifting cylinder 416, a stop block 417, a pull claw guide block 418, a pull claw 419, a pull claw connecting block 4110 and a brake block 4111, the cutting bracket 411 is fixed on the feeding bracket 421, the front side surface of the cutting bracket 411 is vertically provided with the material belt guide block 412, two side surfaces of the material belt guide block 412 are provided with material belt guide grooves, cover plates 413 are packaged on the material belt guide grooves, the rear side surface of the cutting bracket 411 is vertically provided with the two guide blocks 414, a guide plate 415 matched with the guide block 414 is arranged between the guide blocks 414, a lifting cylinder 416 is fixed on a cutting bracket 411 above the guide plate 415, a piston rod of the lifting cylinder 416 is fixedly connected with the guide plate 415, a stop block 417 is fixed on the cutting bracket 411 below the guide plate 415, two claw guide blocks 418 are arranged on the front side surface of the guide plate 415, an avoidance opening is arranged on the cutting bracket 411, the two claw guide blocks 418 penetrate through the avoidance opening and are positioned on two sides of the material belt guide block 412, a claw 419 perpendicular to the material belt guide block is inserted on the claw guide blocks 418, a claw connecting block 4110 is also arranged at the outer side end of the claw guide blocks 418, the extending end of the claw connecting block 4110 is connected with the claw 419 through a spring, a vertical cutting opening is arranged on the cover plate 413, the extending end upper part of the claw 419 is an inclined plane, the extending end of the claw 419 penetrates through the cutting opening and the bottom of the inclined plane is positioned at a material belt hole of a terminal material belt, the pulling claw 419 moves downwards to drive the terminal material belt downwards, the two cover plates 413 are also provided with the brake pads 4111, the brake pads 4111 penetrate through the cover plates 413 to be close to the terminal material belt, and in the resetting process of the pulling claw 419, the terminal material belt is fixed under the action of the brake pads 4111.

The terminal embracing and cutting device 42 comprises a feeding support 421, feeding guide blocks 422, a lower slider 423, a connecting block 424, an upper slider 425, a floating block 426, feeding cylinders 427 and embracing and cutting components 428, wherein two opposite feeding guide blocks 422 are arranged on the upper plane of the feeding support 421, the lower slider 423 is arranged between the feeding guide blocks 422, a delay groove 4231 is arranged on the lower slider 423, the connecting block 424 is arranged in the delay groove 4231, the upper slider 425 is arranged at the upper end of the connecting block 424, two groups of connecting holes are further arranged on the lower slider 423, springs are arranged in the connecting holes, the upper slider 425 is connected with the floating block 426, the floating block 426 lifts the upper slider 425 under the action of the springs, the upper slider 425 is in a floating state, the feeding cylinders 427 are arranged on the feeding support 421 at the rear side of the upper slider 425, a piston rod of each feeding cylinder 427 is fixedly connected with the upper slider 425, and the embracing and cutting components 428 are arranged at the front end of the lower slider 423.

The clasping and cutting assembly 428 comprises clasping and cutting guide blocks 4281, a supporting lever 4282, tension springs 4283, roller bearings 4284, clasping and cutting knives 4285, connecting columns 4286, clamping connecting blocks 4287, clamping blocks 4288 and upper cutter blocks 4289, the clasping and cutting guide blocks 4281 are fixed on the upper parts of the extending ends of the lower sliding blocks 423, the two ends of the clasping and cutting guide blocks 4281 are movably connected with supporting lever 4282 through connecting pins, the rear ends of the two supporting lever 4282 are connected through the tension springs 4283, the roller bearings 4284 are further inserted into the rear ends of the supporting lever 4282, the front ends of the upper sliding blocks 425 are provided with two inward inclined surfaces, the inclined surfaces are matched with the roller bearings 4284, two opposite clasping and cutting knives 4285 are arranged at the front ends of the clasping and cutting guide blocks 4281, the clasping and cutting knives 4285 can slide along the front ends of the clasping and cutting guide blocks 4281, the tail parts of the clasping and cutting knives 4285 are provided with connecting columns 4286, the upper extending ends of the connecting columns 4286 are clamped at the open grooves of the front ends of the supporting lever 4282, the supporting lever 4282 rotate to drive the supporting lever 4285 to rotate along the horizontal cutting edges of the clasping and cutting blocks 4285, and the clasping and the connecting blocks 4288 are arranged between the upper cutter blocks 4288 and the connecting blocks 4288 are arranged to be matched with the clamping and the upper cutter blocks 4288, and the connecting blocks 4288 are matched with the upper and the connecting blocks which are fixedly arranged on the clamping blocks.

When the plug-in double-end mechanism of the connector assembling equipment works, a piston rod of a lifting cylinder 416 stretches to drive a pulling claw 419 to move downwards, the pulling claw 419 drives a terminal material belt to move downwards, under the action of a brake block 4111, the pulling claw 419 does not drive the terminal material belt to move in the resetting process, under the action of a tension spring 4283, the front ends of two supporting levers 4282 are in an open state, the bottom of the terminal material belt is positioned between a holding cutter 4285 and a clamping connecting block 4287 under the action of a spring, a floating block 426 lifts an upper sliding block 425, the upper sliding block 425 is in a floating state, a piston rod of a feeding cylinder 427 stretches to drive the upper sliding block 425 to move horizontally, an inclined surface of the upper sliding block 425 is matched with a roller bearing 4284, the upper sliding block 425 moves horizontally to drive the supporting lever 4282 to rotate, the supporting lever 4282 rotates to drive the holding cutter 4281 to slide horizontally along the front end of the holding cutter 4281, the bottoms of the two holding cutters 4285 move oppositely, the bottoms of the upper cutter 4289 are matched with the upper parts of the holding cutter 4285 to lift the upper sliding block 425, the upper sliding block 425 is in a floating state is driven to move horizontally, and the upper sliding block 423 is driven to slide down to slide to a designated position.

The double-terminal inserting mechanism of the connector assembling equipment has a simple structure, can replace manual and automatic assembling of the connector, has high assembling efficiency, saves cost and ensures working environment of workers.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.

Claims (3)

1. An insertion two-terminal mechanism of a connector assembly apparatus, characterized in that: the plugging double-terminal mechanism of the connector assembly equipment comprises a terminal feeding device, a terminal holding and cutting device and a double-material tray, wherein the terminal feeding device is arranged on a feeding bracket of the terminal holding and cutting device, a terminal material belt on the double-material tray is conveyed to the terminal feeding device, the terminal feeding device comprises a cutting bracket, a material belt guide block, a cover plate, a guide block, a guide plate, a lifting cylinder, a stop block, a claw guide block, a claw connecting block and a brake block, the cutting bracket is fixed on the feeding bracket, a material belt guide block is vertically arranged on the front side surface of the cutting bracket, material belt guide grooves are formed on two side surfaces of the material belt guide block, the cover plate is packaged on the material belt guide grooves, two guide blocks are vertically arranged on the rear side surface of the cutting bracket, a guide plate matched with the guide block is arranged between the guide blocks, the cutting support of deflector top is fixed with the lift cylinder on, and the piston rod and the deflector fixed connection of lift cylinder, is fixed with the stop dog on the cutting support of deflector below, and deflector front side installs two and pulls out claw guide blocks, is provided with on the cutting support and dodges the mouth, and two pull out claw guide blocks pass dodges mouthful and be located the material and take the guide block both sides, and the cartridge has the pull out claw with it on the pull out claw guide block, and pull out claw connecting block outside end still installs pull out claw connecting block, and pull out claw connecting block stretch out the end and pull out claw and pass through spring coupling, be provided with vertical cutting opening on the apron, pull out claw stretches out end and passes and cuts opening and inclined plane bottom and be located the material area hole department in terminal material area, still installs the brake block on two apron, and the brake block passes the apron and is close to the terminal material area.

2. The plug-in two-terminal mechanism of a connector assembly apparatus according to claim 1, wherein: the terminal embracing and cutting device comprises a feeding support, feeding guide blocks, a lower slider, a connecting block, an upper slider, a floating block, feeding cylinders and embracing and cutting components, wherein two opposite feeding guide blocks are arranged on the upper plane of the feeding support, the lower slider is arranged between the feeding guide blocks, a delay groove is formed in the lower slider, the connecting block is arranged in the delay groove, the upper slider is arranged at the upper end of the connecting block, two groups of connecting holes are further formed in the lower slider, springs are arranged in the connecting holes, the upper portion of each spring is connected with the floating block, the feeding cylinders are arranged on the feeding support at the rear side of each upper slider, piston rods of the feeding cylinders are fixedly connected with the upper slider, and the embracing and cutting components are arranged at the front ends of the lower slider.

3. The plug-in two-terminal mechanism of a connector assembly apparatus according to claim 2, wherein: the holding and cutting assembly comprises a holding and cutting guide block, a supporting lever, a tension spring, a roller bearing, a holding and cutting knife, a connecting column, a clamping connecting block, a clamping block and an upper knife block, wherein the holding and cutting guide block is fixed at the upper part of the extending end of the lower slide block, the two ends of the holding and cutting guide block are movably connected with the supporting lever through a connecting pin, the rear ends of the two supporting levers are connected through the tension spring, the rear end of the supporting lever is also inserted with the roller bearing, the front end of the upper slide block is provided with two inward inclined planes which are matched with the roller bearing, the front end of the clasping and cutting guide block is provided with two opposite clasping and cutting cutters, the tail of the clasping and cutting cutter is provided with a connecting column, the upper and lower extending ends of the connecting column are clamped at the opening groove of the front end of the supporting lever, a clamping connecting block is fixed on the clasping and cutting guide block between the clasping and cutting cutters, two sides of the extending end of the clamping connecting block are provided with clamping blocks, the clamping connecting block, the clamping blocks and the clasping and cutting cutters are connected through springs, the bottom of the material belt guide block is provided with an upper cutter block, and the bottom of the upper cutter block and the upper part of the clasping and cutting cutters are provided with a cutter edge and are matched for use.