CN210548340U - Automobile plate spring width bilateral edge milling production line - Google Patents

Automobile plate spring width bilateral edge milling production line Download PDF

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Publication number
CN210548340U
CN210548340U CN201921561872.XU CN201921561872U CN210548340U CN 210548340 U CN210548340 U CN 210548340U CN 201921561872 U CN201921561872 U CN 201921561872U CN 210548340 U CN210548340 U CN 210548340U
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CN
China
Prior art keywords
feeding
roller way
plate spring
discharging
edge milling
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Withdrawn - After Issue
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CN201921561872.XU
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Chinese (zh)
Inventor
石学友
王祥洲
步砚杰
魏峰
赵荣猛
杜昆
王颖
白利刚
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Shandong Sendtech Nc Machinery Co ltd
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Shandong Sendtech Nc Machinery Co ltd
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Priority to CN201921561872.XU priority Critical patent/CN210548340U/en
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Publication of CN210548340U publication Critical patent/CN210548340U/en
Withdrawn - After Issue legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a car leaf spring width bilateral edge milling production line, including automatic feeding sign indicating number material device, the feed roller way, material loading shifter, hold in the palm the material roller way, the centering device, leaf spring chip removal machine, the edge milling machine, servo positioner, material unloading shifter, the ejection of compact roller way, automatic material unloading sign indicating number material device, the automatic feeding sign indicating number material device is equipped with a feeding translation device one and installs on a feeding fixed bolster one, a feeding sign indicating number material electromagnet installs on a feeding translation device one, the lower intermediate position of a feeding translation device one is equipped with the feed roller way, feeding roller way one side is equipped with the material loading frame of placing the leaf spring, feeding roller way side is equipped with the feed roller way; the milling cutter seat designed by the utility model adopts different mounting modes to lead the milling cutter head not only to mill a single plate spring, but also to stack a plurality of plate springs and mill simultaneously; the rear material blocking device, the servo positioning device and the centering device are designed to accurately position the plate spring in the length and width directions, the precision of a processed finished product is high, and the product percent of pass is improved.

Description

Automobile plate spring width bilateral edge milling production line
Technical Field
The utility model relates to a leaf spring production technical field, concretely relates to two side edge milling production lines of car leaf spring width.
Background
The traditional double-sided milling machine is adopted for edge milling of the existing plate spring, the double-sided milling machine is general equipment in the machining industry, and the equipment cannot meet part of product requirements aiming at the edge milling process requirement of the middle part of the plate spring in the plate spring industry. The double-sided milling machine adopts the traditional manual feeding and discharging, then manual alignment and positioning, a workpiece is compressed by adopting pneumatic or screw threads, then a working platform feeds, and the milling of the milling cutter head is finished in a downward mode. The existing scheme has the following disadvantages: 1. the machining of partial products in the plate spring industry is inconvenient, such as some special short plate springs of the plate spring and the change of the length of partial milling edges; 2. manual workpiece feeding and discharging are high in labor intensity and low in efficiency; 3. the workpiece positioning is manual positioning, so that the precision of the plate spring workpiece is greatly influenced by human factors, and the consistency of products is poor. For example, patent application No. 201810628614.2 discloses a leaf spring numerical control edge milling equipment and special fixture, adopts special fixture to press from both sides tight location to the leaf spring to only can leaf spring width and upper surface, leaf spring length can not press from both sides tightly, does not have the leaf spring chip removal machine, when trading the leaf spring, needs the workstation to return loading attachment and gets the leaf spring, gets the material and takes time. Patent application No. 201120040350.2 discloses modified car leaf spring edge milling machine adopts can convertible closing device and side positioner to press from both sides tight location to the leaf spring, needs the manual work to go up unloading, only fixes a position and mills the limit function, and once can only mill the limit to the monolithic leaf spring, and it is not high automatic.
SUMMERY OF THE UTILITY MODEL
To the problem that exists among the prior art, the utility model aims to provide a two side edge milling production lines of car leaf spring width.
The utility model provides a technical scheme that its technical problem adopted is: the automobile plate spring width bilateral edge milling production line comprises an automatic feeding and stacking device, a feeding roller way, a feeding and moving machine, a supporting roller way, a centering device, a plate spring chip removal machine, an edge milling machine, a servo positioning device, a discharging and moving machine, a discharging roller way and an automatic discharging and stacking device, wherein a feeding translation device I arranged on the automatic feeding and stacking device is arranged on a feeding fixing support I, a feeding and stacking electromagnetic chuck is arranged on the feeding translation device I, the feeding roller way is arranged at the middle position below the feeding translation device I, a feeding rack for placing a plate spring is arranged on one side of the feeding roller way, the feeding roller way is arranged on the side surface of the feeding roller way, a feeding electromagnetic chuck of the feeding and moving machine is arranged above the feeding roller way and the feeding roller way, and the feeding electromagnetic chuck is fixed on the lower part of a feeding translation device II;
the rear end of the feeding roller way is connected with a material supporting roller way, two sides of the material supporting roller way are symmetrically provided with transverse moving supports of an edge milling machine, the transverse moving supports are connected with a longitudinal moving support in a sliding mode through a sliding block and a square rail, a longitudinal driving servo motor is fixed on the longitudinal moving support and connected with a driving milling cutter seat through a ball screw, the milling cutter seat is provided with milling cutter discs for milling edges on two sides of a plate spring, the side face of the front end of the material supporting roller way is provided with a rear material blocking device for blocking the rear end of the plate spring, the side face of the rear end of the material supporting roller way is provided with a servo positioning device for blocking the front end of the plate spring, and the middle of;
the rear end of the material supporting roller way is connected with the discharging roller way, the side face of the discharging roller way is provided with a discharging roller way of an automatic discharging material stacking device, a first discharging translation device of a discharging material moving machine is arranged above the discharging roller way and the discharging roller way, a first discharging electromagnetic chuck is arranged on the first discharging translation device, the end part of the discharging roller way is provided with a material collecting frame for collecting plate springs, a second discharging material stacking electromagnetic chuck fixed to a second discharging translation device is arranged above the discharging roller way, and the second discharging translation device is fixed to a second discharging fixed support.
Specifically, the second feeding translation device is fixedly connected to a second feeding fixing support, and the second feeding fixing support is fixed on the ground.
Specifically, a first vertical roller of the transmission plate spring is arranged on the feeding roller way, and a second vertical roller of the transmission plate spring is arranged on the supporting roller way.
Specifically, a transverse driving servo motor is connected to the transverse moving support and is connected with and drives the longitudinal moving support through a ball screw.
Specifically, the centering device is arranged on a centering pressing support, and the centering pressing support is fixed on the ground.
Specifically, the centering device is installed above the material supporting roller way, the center lines of the centering device, the material supporting roller way and the milling cutter discs on the two sides are on the same straight line, and the center lines of the milling cutter discs on the two sides are located at the length center of the plate spring.
Specifically, the first blanking translation device is fixedly connected to a first blanking fixing support, and the first blanking fixing support is fixed on the ground.
Specifically, the rear material blocking device adopts a cylinder to drive and block materials, and the servo positioning device adopts a servo motor to drive and position and block materials.
The edge milling machine is characterized in that a plate spring chip removal machine for collecting scrap iron is arranged below the edge milling machine, the plate spring chip removal machine is provided with a driving motor and an external shell, and the driving motor drives a transmission chain plate to transmit through a chain wheel and a chain.
The utility model discloses following beneficial effect has:
the edge milling machine designed by the utility model adopts a vertical edge milling machine to mill two side edges of the middle position of the plate spring; the milling cutter seat adopts different mounting modes, so that the milling cutter can mill a single plate spring and can also mill a plurality of plate springs in a stacking mode; the designed rear material blocking device, the servo positioning device and the centering device enable the length direction and the width direction of the plate spring to be accurately positioned, the precision of a processed finished product is high, and the product percent of pass is improved; when the plate spring is milled, the milling cutter disc can move up and down and back and forth, so that the milling mode is changed; when the plate spring is milled, the functions of collecting scrap iron and removing scrap iron can be automatically completed; a feeding material moving machine is arranged on one side of the feeding roller way and automatically superposes a plurality of leaf springs according to production needs, and the feeding material moving machine automatically discharges the leaf springs, so that the automation is high, and the feeding and discharging time is saved; the feeding and discharging material stacking electromagnetic chuck is additionally arranged to automatically stack materials when the whole row of plate springs are fed and discharged, so that the production working efficiency is accelerated; the designed edge milling production line can uniformly allocate and control the starting, stopping and running speeds of all devices, so that the running actions of all devices are coherent, automatic stacking, automatic feeding, front, back, left and right automatic positioning, automatic milling to plate spring milling and automatic blanking and automatic stacking are completed into a whole, and the production automation is realized; the whole production line has reasonable layout and compact structural design, and reduces the occupied space of a factory building.
Drawings
FIG. 1 is a schematic structural diagram of a width double-side edge milling production line of an automobile plate spring.
FIG. 2 is a schematic structural diagram of an automatic feeding and stacking device of an automobile plate spring width double-side edge milling production line.
FIG. 3 is a schematic structural diagram of a feeding and material-moving machine of an automobile plate spring width double-side edge milling production line.
Fig. 4 is an enlarged view of the feed table 2 in fig. 3.
FIG. 5 is a schematic structural diagram of an edge milling machine of an automobile leaf spring width double-side edge milling production line.
FIG. 6 is a top view of an edge milling machine of the automotive leaf spring width double-sided edge milling production line.
Fig. 7 is a structural schematic diagram of a plate spring chip removal machine of an automobile plate spring width double-side edge milling production line.
FIG. 8 is a schematic structural diagram of a blanking and feeding machine of an automobile plate spring width double-side edge milling production line.
FIG. 9 is a schematic structural diagram of an automatic blanking and stacking device of an automobile plate spring width double-side edge milling production line.
In the figure: 1-automatic feeding and stacking device; 2-feeding roller way; 3-feeding and moving machine; 4-supporting a material roller way; 5-a centering device; 6-plate spring chip removal machine; 7-an edge milling machine; 8-servo positioning means; 9-blanking and material moving machine; 10-a discharge roller bed; 11-automatic blanking and stacking device; 12-a leaf spring; 1.1-a first feeding fixing support; 1.2-a feeding roller way; 1.3-feeding and stacking electromagnetic chuck; 1.4-a first feeding translation device; 1.5-feeding frame; 2.1-vertical roller I; 3.1-feeding and fixing support II; 3.2-feeding electromagnetic chuck; 3.3-a second feeding translation device; 4.1-vertical roller II; 5.1-centering the compression bracket; 6.1-speed reducer; 6.2-conveying chain plate; 6.3-machine shell; 7.1-rear material blocking device; 7.2-longitudinally driving the servo motor; 7.3-longitudinally moving the support; 7.4-transverse driving servo motor; 7.5-milling cutter seat; 7.6-transversely moving the support; 7.7-milling cutter disc; 9.1-blanking fixed support I; 9.2-blanking electromagnetic chuck; 9.3-a first blanking translation device; 11.1-blanking fixed support II; 11.2-a blanking roller bed; 11.3-blanking and stacking electromagnetic chuck; 11.4-a second blanking translation device; 11.5-material collecting frame.
Detailed Description
The technical solution in the embodiments of the present invention will be described in further detail in the following clearly and completely with reference to the accompanying drawings in the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
As shown in figures 1-9, the automobile plate spring width bilateral edge milling production line comprises an automatic feeding and stacking device 1, a feeding roller way 2, a feeding and moving machine 3, a material supporting roller way 4, a centering device 5, a plate spring chip removal machine 6, an edge milling machine 7, a servo positioning device 8, a blanking and moving machine 9, a discharging roller way 10 and an automatic blanking and stacking device 11, wherein a feeding and stacking electromagnetic chuck 1.3 on the automatic feeding and stacking device 1 stacks un-milled plate springs 12, the feeding and moving machine 3 moves the plate springs 12 from the automatic feeding and stacking device 1 to the feeding roller way 2, the plate springs 12 are conveyed to the material supporting roller way 4 by the feeding roller way 2, the material supporting roller way 4 is positioned in the middle of the edge milling machine 7, the servo positioning device 8 positions the plate springs 12 in the length direction, the centering device 5 performs centering and clamping on the plate springs 12, the edge milling machine 7 performs bilateral edge milling on the middle position of the plate springs, the scrap iron generated during edge milling is automatically collected and chip removed by the plate spring milling machine 6, the centering device 5 loosens the plate spring after the two sides of the plate spring are milled, the plate spring is conveyed to the discharging roller way 10 through the material supporting roller way 4, the plate spring is moved to the automatic discharging and material stacking device 11 from the discharging roller way 10 through the discharging material moving machine 9, and the discharging and material stacking electromagnetic chuck 11.3 on the automatic discharging and material stacking device 11 performs material stacking on the plate spring after milling.
The automatic feeding and stacking device 1 shown in fig. 2 is a device for automatically feeding a plate spring 12 on a feeding roller way 1.2 by a feeding frame 1.5, a feeding fixing support 1.1 is fixed on the ground, a feeding translation device 1.4 is installed on the feeding fixing support 1.1, a feeding stacking electromagnetic chuck 1.3 is installed on the feeding translation device 1.4, the feeding roller way 1.2 is installed at the middle position below the feeding translation device 1.4, the feeding frame 1.5 is placed on the right side of the feeding fixing support 1.1, the feeding stacking electromagnetic chuck 1.3 sucks a row of flat swinging plate springs from the feeding frame 1.5 and places the plate springs on the feeding roller way 1.2 through the movement of the feeding translation device 1.4, and the automatic feeding and stacking device 1 finishes the automatic stacking work before the plate springs are fed by milling.
The feeding and material-moving machine 3 shown in fig. 3-4 comprises a feeding fixing bracket II 3.1 and a feeding electromagnetic chuck 3.2, the feeding translation device II 3.3 is formed, the fixed support II 3.1 is fixed on the ground, the feeding translation device II 3.3 is installed on the fixed support II 3.1, the feeding electromagnetic chuck 3.2 is installed below the feeding translation device II 3.3, the feeding electromagnetic chuck 3.2 sucks the plate spring 12 from the feeding roller way 1.2, then the plate spring rises and stops moving to the upper side of the feeding roller way 2 through the feeding translation device II 3.3, the feeding electromagnetic chuck 3.2 descends to a corresponding position to place the plate spring on the feeding roller way 2 to complete automatic feeding, the feeding electromagnetic chuck 3.2 can repeatedly feed the plate spring to be superposed on the plate spring placed on the feeding roller way 2 to complete plate spring superposition, the vertical roller way 2.1 is installed on the feeding roller way 2, and a single plate spring or a plurality of superposed plate springs can be conveyed through the vertical roller way 2.1.
The edge milling machine shown in fig. 5-6 is a device for milling the transverse edges at the middle position of a plate spring 12, a transverse moving support 7.6 is fixed on the ground, a transverse driving servo motor 7.4 is fixed on the transverse moving support 7.6, the transverse driving servo motor 7.4 is connected with a longitudinal moving support 7.3 through a ball screw, the longitudinal moving support 7.3 is connected with the transverse moving support 7.6 through a slide block and a square rail, the two longitudinal moving supports 7.3 are symmetrically arranged on the transverse moving support 7.6, a longitudinal driving servo motor 7.2 is fixed on the longitudinal moving support 7.3, a longitudinal driving servo motor 7.2 is connected with a milling cutter seat 7.5 through the ball screw, a milling cutter seat 7.7 is arranged on the milling cutter seat 7.5, a material supporting roller bed 4 is fixed between the two transverse moving supports 7.6, a centering pressing support 5.1 is fixed on the ground, a centering device 5 is arranged on the centering pressing support 5.1, the supporting material supporting roller bed 4 is arranged below the centering device 5 and the edge milling machine at the two sides, a rear material blocking device 7.1 is installed on one side, close to the front end, of the material supporting roller way 4, the rear material blocking device 7.1 adopts an air cylinder to push a material blocking plate to block the rear end of a plate spring, a screw rod is installed on the material blocking plate, the relative position of the material blocking plate can be adjusted according to the length of the plate spring, a servo positioning device 8 is installed on one side, close to the rear end, of the material supporting roller way 4, and the servo positioning device 8 is driven by a servo motor to adjust and block the front end of the plate spring according to the length requirement of the plate. The centering device 5 is used for centering the plate spring in the width direction and pressing the upper surface of the plate spring, and the central line of the milling cutter is located at the length center of the plate spring. The transverse driving servo motor 7.4 drives the longitudinal moving support to move backwards to enable the milling cutter 7.7 to move to the initial position of a plate spring to be processed, the milling cutter seat 7.5 moves the milling cutter seat 7.7 towards the center of the plate spring to feed to mill two side edges of the plate spring, the transverse driving servo motor 7.4 drives the longitudinal moving support 7.3 to move forwards to enable the milling cutter 7.7 to move to the tail end position of the plate spring to be processed, the longitudinal driving servo motor 7.2 drives the milling cutter seat 7.5 to move downwards, the transverse driving servo motor 7.4 drives the longitudinal moving support 7.3 to move backwards to enable the milling cutter 7.7 to move to the initial position of the plate spring to be processed, the milling cutter seat 7.7 stops milling, the milling cutter seat 7.5 drives the milling cutter seat 7.7 to return to the original position to complete milling of the middle part of the plate spring, the milling cutter seat 7.5 moves to the original position through the transverse moving support 7.6 and the longitudinal moving support 7.3, the centering, and the plate spring is guided and conveyed to a plate spring discharging roller way 10 from the material supporting roller way 4 through a vertical roller II 4.1.
The plate spring chip removal machine 6 shown in fig. 7 is a device for automatically removing chips by milling generated by edge milling processing of the plate spring 12, and the plate spring chip removal machine 6 mainly comprises a speed reducer 6.1, a transmission chain plate 6.2 and a shell 6.3, wherein when scrap iron falls on the transmission chain plate 6.2, the speed reducer 6.1 drives a chain wheel and a chain to drive the transmission chain plate 6.2, the scrap iron is conveyed through the transmission chain plate 6.2, and the scrap iron falls into a chip collection box to finish chip removal.
As shown in fig. 8, the blanking moving machine 9 is composed of a first blanking fixing support 9.1, a first blanking electromagnetic chuck 9.2, and a first blanking translation device 9.3, wherein the first blanking fixing support 9.1 is fixed on the ground, the first blanking translation device 9.3 is installed on the first blanking fixing support 9.1, the first blanking electromagnetic chuck 9.2 is installed below the first blanking translation device 9.3, the first blanking electromagnetic chuck 9.2 sucks the plate spring 12 from the discharging roller way 10, then ascends and stops moving to the upper side of the blanking roller way 11.2 through the first blanking translation device 9.3, the second blanking electromagnetic chuck 9.2 descends to a corresponding position to place the milled plate spring on the first blanking roller way 11.2 to complete automatic blanking, and the first blanking electromagnetic chuck 9.2 can place the flat pendulum of one plate spring overlapped on the discharging roller way 10 on the first blanking roller way 11.2.
As shown in fig. 9, the automatic blanking stacking device 11 is a device for automatically blanking and stacking a milled plate spring 12 from a blanking roller way 11.2 to a material collecting rack 11.5, a blanking fixing support second 11.1 is fixed on the ground, a blanking translation device second 11.4 is installed on the blanking fixing support second 11.1, a blanking stacking electromagnetic chuck 11.3 is installed on the blanking translation device second 11.4, a blanking roller way 11.2 is installed at the middle position below the blanking translation device second 11.4, the material collecting rack 11.5 is arranged at the right side of the blanking fixing support second 11.1, the blanking stacking electromagnetic chuck 11.3 sucks a row of flat-pendulum plate springs from the blanking roller way 11.2 to stop lifting, the blanking translation device second 11.4 moves to stop moving the plate springs to the upper side of the material collecting rack 11.5, the blanking stacking electromagnetic chuck 11.3 descends to place the plate springs on the material collecting rack 11.5, and the automatic loading stacking device 11 finishes the automatic plate spring stacking work.
The production process of the automobile plate spring width bilateral edge milling production line comprises the following steps:
1) when the edge milling machine is used, a feeding and stacking electronic sucker 1.3 of an automatic feeding and stacking device 1 sucks a plate spring 12 placed in a feeding rack 1.5 and moves the plate spring to a feeding roller way 1.2 through a feeding translation device I1.4, a feeding electromagnetic sucker 3.2 sucks the plate spring on the feeding roller way 1.2 and moves the plate spring to a feeding roller way 2 through a feeding translation device II 3.3, the feeding electromagnetic sucker 3.2 can repeatedly feed and stack the plate spring on the plate spring placed on the feeding roller way 2, and a plurality of plate springs 12 are stacked and simultaneously edge milling is carried out;
2) the plate spring 12 is conveyed to the material supporting roller way 4 by the feeding roller way 2, the material supporting roller way 4 stops conveying the plate spring to the position of the edge milling machine 7, at the moment, the servo positioning device 8 positions the front end of the plate spring 12 and blocks the plate spring under the driving of a servo motor, the rear material blocking device 7.1 forms material blocking clamping on the rear end of the plate spring 12 under the driving of an air cylinder, the centering device 5 centers the plate spring in the width direction and compresses the upper surface of the plate spring, and the center line of the milling cutter head 7.7 is located at the length center position of the plate spring;
3) the transverse driving servo motor 7.4 drives the longitudinal moving support to move backwards to enable the milling cutter 7.7 to move to the initial position of the plate spring to be machined, the milling cutter seat 7.5 moves the milling cutter 7.7 towards the center of the plate spring to perform milling on two side edges of the plate spring, the transverse driving servo motor 7.4 drives the longitudinal moving support 7.3 to move forwards to enable the milling cutter 7.7 to move to the tail end position of the plate spring to be machined, the longitudinal driving servo motor 7.2 drives the milling cutter seat 7.5 to move downwards, the transverse driving servo motor 7.4 drives the longitudinal moving support 7.3 to move backwards to enable the milling cutter 7.7 to move to the initial position of the plate spring to be machined, the milling cutter 7.7 stops milling, the milling cutter seat 7.5 drives the milling cutter seat 7.7 to return to the original position to complete milling of the middle part of the plate spring, the milling cutter seat 7.5 moves to the original position through the transverse moving support 7.6 and the longitudinal moving support 7.3, scrap iron chips generated by milling, the scrap iron falls into the scrap collecting box through the transmission of the speed reducer 6.1;
4) the centering device 5 loosens materials, the rear material blocking device 7.1 and the servo positioning device 8 are controlled to be lifted by the air cylinder, and the plate spring 12 is guided and conveyed to the discharging roller way 10 from the material supporting roller way 4 through the vertical roller II 4.1;
5) the blanking electromagnetic chuck 9.2 sucks the milled plate springs 12 one by one from the discharging roller way 10, moves the milled plate springs through the first blanking translation device 9.3 and horizontally swings to the blanking roller way 11.2, and the blanking stacking electromagnetic chuck 11.3 sucks the plate springs from the blanking roller way 11.2 and moves the plate springs to the material collecting frame 11.5 through the second blanking translation device 11.4.
The utility model discloses not be limited to above-mentioned embodiment, anybody should learn the structural change who makes under the teaching of the utility model, all with the utility model discloses have the same or close technical scheme, all fall into the utility model discloses an within the protection scope.
The technology, shape and construction parts which are not described in detail in the present invention are all known technology.

Claims (9)

1. The automobile plate spring width bilateral edge milling production line is characterized by comprising an automatic feeding and stacking device, a feeding roller way, a feeding and moving machine, a material supporting roller way, a centering device, a plate spring chip removal machine, an edge milling machine, a servo positioning device, a discharging and moving machine, a discharging roller way and an automatic discharging and stacking device, wherein a feeding translation device I arranged on the automatic feeding and stacking device is arranged on a feeding fixing support I, a feeding and stacking electromagnetic chuck is arranged on the feeding translation device I, the feeding roller way is arranged in the middle position below the feeding translation device I, a feeding rack for placing a plate spring is arranged on one side of the feeding roller way, the feeding roller way is arranged on the side surface of the feeding roller way, a feeding electromagnetic chuck of the feeding translation machine is arranged above the feeding roller way and the feeding roller way, and the feeding electromagnetic chuck is fixed on the lower part of a feeding translation device II;
the rear end of the feeding roller way is connected with a material supporting roller way, two sides of the material supporting roller way are symmetrically provided with transverse moving supports of an edge milling machine, the transverse moving supports are connected with a longitudinal moving support in a sliding mode through a sliding block and a square rail, a longitudinal driving servo motor is fixed on the longitudinal moving support and connected with a driving milling cutter seat through a ball screw, the milling cutter seat is provided with milling cutter discs for milling edges on two sides of a plate spring, the side face of the front end of the material supporting roller way is provided with a rear material blocking device for blocking the rear end of the plate spring, the side face of the rear end of the material supporting roller way is provided with a servo positioning device for blocking the front end of the plate spring, and the middle of;
the rear end of the material supporting roller way is connected with the discharging roller way, the side face of the discharging roller way is provided with a discharging roller way of an automatic discharging material stacking device, a first discharging translation device of a discharging material moving machine is arranged above the discharging roller way and the discharging roller way, a first discharging electromagnetic chuck is arranged on the first discharging translation device, the end part of the discharging roller way is provided with a material collecting frame for collecting plate springs, a second discharging material stacking electromagnetic chuck fixed to a second discharging translation device is arranged above the discharging roller way, and the second discharging translation device is fixed to a second discharging fixed support.
2. The automobile plate spring width bilateral edge milling production line according to claim 1, wherein the second feeding translation device is fixedly connected to a second feeding fixing support, and the second feeding fixing support is fixed on the ground.
3. The automobile plate spring width bilateral edge milling production line according to claim 1, wherein a first vertical roller of a transmission plate spring is arranged on the feeding roller way, and a second vertical roller of the transmission plate spring is arranged on the material supporting roller way.
4. The automobile plate spring width double-side edge milling production line according to claim 1, wherein a transverse driving servo motor is connected to the transverse moving support and drives the longitudinal moving support through a ball screw connection.
5. The automotive leaf spring width double-sided edge milling production line of claim 1, wherein the centering device is mounted on a centering pressing bracket, and the centering pressing bracket is fixed on the ground.
6. The automobile plate spring width double-side edge milling production line according to claim 5, wherein the centering device is installed above the material supporting roller way, the center lines of the centering device, the material supporting roller way and the double-side milling cutter discs are on the same straight line, and the center lines of the double-side milling cutter discs are located at the length center position of the plate spring.
7. The automobile plate spring width double-side edge milling production line as claimed in claim 1, wherein the first blanking translation device is fixedly connected to a first blanking fixing support, and the first blanking fixing support is fixed on the ground.
8. The automobile plate spring width bilateral edge milling production line according to claim 1, wherein the rear material blocking device is driven by an air cylinder to block materials, and the servo positioning device is driven by a servo motor to position and block materials.
9. The bilateral milling production line of the width of the automobile plate spring according to claim 1, wherein a plate spring scrap discharging machine for collecting scrap iron is arranged below the edge milling machine, the plate spring scrap discharging machine is provided with a driving motor and an external shell, and the driving motor drives a transmission chain plate to transmit through a chain wheel and a chain.
CN201921561872.XU 2019-09-19 2019-09-19 Automobile plate spring width bilateral edge milling production line Withdrawn - After Issue CN210548340U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921561872.XU CN210548340U (en) 2019-09-19 2019-09-19 Automobile plate spring width bilateral edge milling production line

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921561872.XU CN210548340U (en) 2019-09-19 2019-09-19 Automobile plate spring width bilateral edge milling production line

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Publication Number Publication Date
CN210548340U true CN210548340U (en) 2020-05-19

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CN201921561872.XU Withdrawn - After Issue CN210548340U (en) 2019-09-19 2019-09-19 Automobile plate spring width bilateral edge milling production line

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110508851A (en) * 2019-09-19 2019-11-29 山东森德数控机械有限公司 Leaf springs of car width bilateral mills side production line and production procedure

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110508851A (en) * 2019-09-19 2019-11-29 山东森德数控机械有限公司 Leaf springs of car width bilateral mills side production line and production procedure
CN110508851B (en) * 2019-09-19 2024-01-26 山东森德数控机械有限公司 Automobile leaf spring width double-side edge milling production line and production process

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