CN112663114A

CN112663114A - Electrophoresis equipment of aluminum product

Info

Publication number: CN112663114A
Application number: CN202011613125.3A
Authority: CN
Inventors: 杨洋; 杨洪波; 王江文; 舒健; 毕仁红
Original assignee: Hunan Jinniu Aluminum Co ltd
Current assignee: Hunan Jinniu Aluminum Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-04-16
Anticipated expiration: 2040-12-31
Also published as: CN112663114B

Abstract

The invention discloses an electrophoresis device of aluminum materials, which comprises an electrophoresis fixing frame, a clamping mechanism, an automatic feeding mechanism and an automatic discharging mechanism, wherein the electrophoresis fixing frame is a portal frame and is characterized in that two vertical sections of the portal frame are respectively cut into a plurality of connecting rods, the length of each connecting rod is consistent, the plurality of connecting rods are arranged up and down, the distance between every two adjacent connecting rods is consistent, an arch-shaped rod is fixed between every two adjacent connecting rods and protrudes out of the portal frame, the connecting rod positioned at the top is fixed on the transverse section of the portal frame, so that a plurality of equally-spaced gaps are formed on each vertical section of the portal frame, the gaps on the two vertical sections are staggered up and down, and the clamping mechanism is arranged on each gap; the clamping mechanism can automatically clamp aluminum materials with different sizes, so that the clamping speed is higher than that of the aluminum materials.

Description

Electrophoresis equipment of aluminum product

Technical Field

The invention relates to the field of aluminum product processing equipment, in particular to electrophoresis equipment for aluminum products.

Background

The electrophoresis of the aluminum material in the electrophoresis tank is needed during processing, the electrophoresis of the existing aluminum material is needed, the aluminum material is needed to be fixed on the bracket through the clamp, the whole bracket is immersed in the electrophoresis tank for electrophoresis during electrophoresis, and thus, the electrophoresis of a plurality of aluminum plates is realized, but the mode has great defects, namely, when the aluminum material is clamped, the aluminum material is clamped on the bracket one by workers, so that the clamping speed is slow, meanwhile, when the aluminum material is clamped, the aluminum material is clamped by the clamps of different types according to the aluminum material, so that when the aluminum material is clamped, the clamps are searched according to the aluminum material, and when the aluminum material is processed, the operation is complex;

after the aluminum product electrophoresis finishes, need dismantle the aluminum product from the electrophoresis support, need take off the clip with two people simultaneously, otherwise, the aluminum product can use the clip to take place to rotate as the fulcrum, can wear and tear the electrophoresis coating like this, for when the clamping with unload, all need two people simultaneous synchronization operation, the labour in the great degree of this is excessive.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the electrophoresis equipment for the aluminum material, which is convenient for automatically clamping and unloading the aluminum material, reduces the labor intensity of workers and has higher clamping speed.

In order to achieve the purpose, the scheme of the invention is as follows: an electrophoresis device of an aluminum material comprises an electrophoresis fixing frame, a clamping mechanism, an automatic feeding mechanism and an automatic discharging mechanism, wherein the electrophoresis fixing frame is a portal frame, two vertical sections of the portal frame are respectively cut into a plurality of sections of connecting rods, the length of each section of connecting rod is consistent, the plurality of sections of connecting rods are arranged up and down, the distance between every two adjacent sections of connecting rods is consistent, an arch-shaped rod is fixed between every two adjacent sections of connecting rods and protrudes out of the portal frame, the connecting rod positioned at the top is fixed on the transverse section of the portal frame, so that a plurality of equally-spaced notches are formed on each vertical section of the portal frame, the notches on the two vertical sections are staggered up and down, and the clamping mechanism is arranged on each notch; the clamping mechanism comprises two clamping rods, a blocking rod, a sealing rod and a spring, wherein the end parts of the two clamping rods are respectively hinged to the upper end and the lower end of the notch, the other ends of the two clamping rods are respectively connected with the two ends of the blocking rod, the length of the blocking rod is consistent with the width of the notch, the spring is arranged between the clamping rod hinged to the lower end of the notch and a connecting rod at the lower end of the notch, the vertical sealing rod is arranged at the lower end of the notch, vertically arranged sleeves are fixed on the connecting rods at the upper end and the lower end of the notch and are concentric, the sealing rod is inserted into the two sleeves, a transmission system is arranged between the sealing rod and the top of the baffle, and when the blocking rod moves downwards, the sealing rod correspondingly moves downwards and the two notches are sealed; the top of the portal frame is provided with a tension assembly, and the tension assembly connects a plurality of stop rods in series through a rope; an automatic feeding mechanism is arranged at the feeding position of the electrophoresis fixing frame, and an automatic discharging mechanism is arranged at the discharging position of the electrophoresis fixing frame.

Preferably, automatic feeding mechanism includes conveyer belt and slide bar, and wherein the conveyer belt is a plurality of and a plurality of conveyer belt is equidistant from top to bottom setting, and the interval between per two adjacent conveyer belts is the space of placing of aluminum product, is provided with many slide bars at the end of conveyer belt, and the both sides of many slide bars are provided with the baffle, and the slide bar that is located both sides is terminal with the high parallel and level that corresponds the breach lower extreme, on the terminal line of both sides slide bar of the terminal position of many slide bars in the middle of.

Preferably, the automatic discharging mechanism comprises a moving frame, wherein a plurality of rows of support rods are arranged on the moving frame, the plurality of rows of support rods are arranged at equal intervals from top to bottom, the position of each row of support rods corresponds to the position of the notch, and a telescopic assembly is arranged on the moving frame.

Preferably, a baffle is fixed on each arch frame, the baffle is positioned outside the notch and corresponds to the notch, and the baffle can be placed on the aluminum material to slide on the notch.

Preferably, the transmission system comprises two pulleys and a pull rope, wherein the two pulleys are respectively fixed at the upper end and the lower end of the sleeve positioned at the upper end of the gap, the pull rope is fixed at the top of the sealing rod, the pull rope is firstly wound on the pulley positioned at the lower end of the sleeve, then wound on the pulley positioned at the upper end of the sleeve, and finally the pull rope and the stop rod are fixed together.

Compared with the prior art, the invention has the advantages that: 1. the arranged clamping mechanism can automatically clamp various aluminum materials with different sizes, so that the clamping speed is higher than that of the aluminum materials; 2. the aluminum material is fed in a sliding mode, so that manual feeding is not needed; 3. the aluminum material sliding unloading is realized by the upward swinging of the clamping rod, so that the manual operation is not needed in the unloading process.

Drawings

FIG. 1 is a left side view of the present invention

Fig. 2 is a schematic view of an electrophoresis fixing frame of the present invention.

Fig. 3 is a schematic view of the clamping mechanism of the present invention.

FIG. 4 is a schematic view of the unclamped aluminum material of the clamping mechanism of the invention.

Fig. 5 is a schematic view of the aluminum clamping mechanism of the clamping mechanism.

FIG. 6 is a schematic view of the clamping mechanism for pouring aluminum material.

The electrophoresis device comprises an electrophoresis fixing frame 1, an electrophoresis fixing frame 1.1, a portal frame 1.2, a connecting rod 1.3, an arch rod 1.31, a baffle plate 1.4, a notch 2, a clamping mechanism 2.1, a clamping rod 2.2, a stop rod 2.3, a sealing rod 2.4, a spring 2.5, a sleeve 2.6, a transmission system 2.7, a pulley 2.8, a pull rope 2.9, a tension assembly 2.10, a rope 3, an automatic feeding mechanism 3.1, a conveying belt 3.2, a sliding rod 4, an automatic discharging mechanism 4.1, a moving frame 4.2, a supporting rod 4.3 and a telescopic assembly.

Detailed Description

The invention will now be further elucidated with reference to the drawing.

As shown in fig. 1-6, an electrophoresis apparatus for aluminum material comprises an electrophoresis fixing frame 1, a clamping mechanism 2, an automatic feeding mechanism 3 and an automatic discharging mechanism 4, wherein the electrophoresis fixing frame 1 is a portal frame 1.1, two vertical sections of the portal frame 1.1 are respectively cut into a plurality of sections of connecting rods 1.2, the length of each section of connecting rod 1.2 is consistent, the plurality of sections of connecting rods 1.2 are arranged up and down, the distance between every two adjacent sections of connecting rods 1.2 is consistent, an arch bar 1.3 is fixed between every two adjacent sections of connecting rods 1.2, the arch bar 1.3 protrudes out of the portal frame 1.1, the connecting rod 1.2 at the top is fixed on the transverse section of the portal frame 1.1, thus a plurality of equally spaced notches 1.4 are formed on each vertical section of the portal frame 1.1, the notches 1.4 on the two vertical sections are staggered up and down, the clamping mechanism 2 is arranged on each notch 1.4, when the aluminum material is placed on two notches 1.1, the left and right ends of the portal frame, and two notches 1.4 are staggered, so that the electrophoretic liquid can flow down on the aluminum material conveniently; the clamping mechanism 2 comprises two clamping rods 2.1, a baffle rod 2.2, a sealing rod 2.3 and a spring 2.4, wherein the two clamping rods 2.1 are respectively hinged on the upper end and the lower end of a gap 1.4 (one end of one clamping rod 2.1 is hinged on the bottom of a connecting rod 1.2 at the upper end of the gap 1.4, one end of the other clamping rod 2.1 is hinged on the top of a connecting rod 1.2 at the lower end of the gap 1.4), the other ends of the two clamping rods 2.1 are respectively connected with the two ends of the baffle rod, the length of the baffle rod 2.2 is consistent with the width of the gap 1.4, the spring 2.4 is arranged between the clamping rod 2.1 hinged at the lower end of the gap 1.4 and the connecting rod 1.2 at the lower end of the gap 1.4, when no aluminum material is placed in the gap 1.4, the spring 2.4 supports the clamping rod 2.1 and the baffle rod to enable the clamping rod 2.1 to be in a horizontal gap, when the aluminum material is placed in the gap, the aluminum material is broken, and the aluminum material swings downwards under the, therefore, the aluminum material is clamped by the two clamping rods 2.1 and the stop lever, the lower end of the notch 1.4 is provided with a vertical sealing rod 2.3, the connecting rods 1.2 at the upper end and the lower end of the notch 1.4 are respectively fixed with a vertically arranged sleeve 2.5, the two sleeves 2.5 are concentric, the sealing rod 2.3 is inserted into the two sleeves 2.5, a transmission system 2.6 is arranged between the sealing rod 2.3 and the top of the baffle 1.31, when the stop lever moves downwards, the sealing rod 2.3 correspondingly moves downwards and the two notches 1.4 are sealed, and thus the sealing rod 2.3 can prevent the aluminum material from escaping from the notch 1.4; a tension assembly 2.9 is arranged at the top of a portal frame 1.1, the tension assembly 2.9 connects a plurality of stop rods 2.2 in series through a rope 2.10, the tension assembly 2.9 is a cylinder with a piston rod facing downwards, the rope 2.10 is fixed on the piston rod, the stop rods rise through pulling the rope 2.10, the clamping rod 2.1 loses the compression on the aluminum material, and meanwhile, a sealing rod 2.3 leaves a gap 1.4, so that the aluminum material slides out of the gap 1.4; an automatic feeding mechanism 3 is arranged at the feeding position of the electrophoresis fixing frame 1, the automatic feeding mechanism 3 comprises a conveying belt 3.1 and a sliding rod 3.2, wherein a plurality of conveyor belts 3.1 are arranged at equal intervals, the interval between every two adjacent conveyor belts 3.1 is the aluminum placement space, a plurality of aluminum materials are placed between the conveyor belts 3.1, the aluminum materials are moved to the electrophoresis fixing frame 1 through the conveyor belts 3.1, a plurality of sliding rods 3.2 are arranged at the tail end of the conveyer belt 3.1, baffle plates 1.31 are arranged at two sides of the sliding rods 3.2, the tail ends of the sliding rods 3.2 at two sides are flush with the height of the lower end of the corresponding notch 1.4, the tail end of the sliding rod 3.2 at the middle part is arranged on the connecting line of the tail ends of the sliding rods 3.2 at two sides, when the aluminum material slides on the sliding rod 3.2, the aluminum material slides along the sliding rod 3.2 to the notch 1.4, thus, automatic feeding is realized, manual operation is not needed, and the aluminum material is only needed to be placed between the cracks of the conveying belt 3.1 at one time; an automatic discharging mechanism 4 is arranged at the discharging position of the electrophoresis fixing frame 1, the automatic discharging mechanism 4 comprises a moving frame 4.1, a plurality of rows of support rods 4.2 are arranged on the moving frame 4.1, the plurality of rows of support rods 4.2 are arranged at equal intervals up and down, the position of each row of support rods 4.2 corresponds to the position of a notch 1.4, when a pulling force component 2.9 pulls a stop rod 2.2 upwards, a baffle plate 1.31 drives a clamping rod 2.1 to swing upwards, at the moment, the clamping rod 2.1 loses the compaction on the aluminum material, a sealing rod 2.3 leaves the notch 1.4, when the clamping rod 2.1 is positioned horizontally, the clamping rod continues to swing upwards, so that one end, close to the notch 1.4, of the clamping rod 2.1 inclines downwards, so that the aluminum material slides from the notch 1.4 to the support rods 4.2 in the aluminum material, a telescopic component 4.3 is arranged on the moving frame 4.1, a rope 2.10 component is a guide rail and a lead screw, the guide rail and the lead screw both pass through, the lead screw passes through motor drive, and the rotation through the lead screw realizes removing moving frame 4.1 and removes, and flexible subassembly 4.3 removes left and leaves electrophoresis equipment, realizes automatic feeding like this, compresses tightly automatically and automatic discharge, has guaranteed the speed of green grass electrophoresis.

Each arch frame is fixed with a baffle 1.31, the baffle 1.31 is positioned at the left side of the left notch 1.4 and the right side of the right notch 1.4, the position of the baffle 1.31 corresponds to that of the notch 1.4, and the baffle 1.31 can be placed on an aluminum material to slide on the notch 1.4.

The transmission system 2.6 comprises two pulleys 2.7 and two pull ropes 2.8, the two pulleys 2.7 are respectively fixed at the upper end and the lower end of the sleeve 2.5 positioned at the upper end of the gap 1.4, the pull ropes 2.8 are fixed at the top of the sealing rod 2.3, the pull ropes 2.8 are firstly wound on the pulleys 2.7 positioned at the lower end of the sleeve 2.5, then wound on the pulleys 2.7 positioned at the upper end of the sleeve 2.5, and finally the pull ropes 2.8 are fixed with the stop rod 2.2.

Claims

1. An electrophoresis device of aluminum materials comprises an electrophoresis fixing frame, a clamping mechanism, an automatic feeding mechanism and an automatic discharging mechanism, wherein the electrophoresis fixing frame is a portal frame and is characterized in that two vertical sections of the portal frame are respectively cut into a plurality of sections of connecting rods, the length of each section of connecting rod is consistent, the plurality of sections of connecting rods are arranged up and down, the distance between every two adjacent sections of connecting rods is consistent, an arch-shaped rod is fixed between every two adjacent sections of connecting rods and protrudes out of the portal frame, the connecting rod positioned at the top is fixed on a transverse section of the portal frame, so that a plurality of equally-spaced gaps are formed on each vertical section of the portal frame, the gaps on the two vertical sections are staggered up and down, and the clamping mechanism is arranged on each gap; the clamping mechanism comprises two clamping rods, a blocking rod, a sealing rod and a spring, wherein the end parts of the two clamping rods are respectively hinged to the upper end and the lower end of the notch, the other ends of the two clamping rods are respectively connected with the two ends of the blocking rod, the length of the blocking rod is consistent with the width of the notch, the spring is arranged between the clamping rod hinged to the lower end of the notch and a connecting rod at the lower end of the notch, the vertical sealing rod is arranged at the lower end of the notch, vertically arranged sleeves are fixed on the connecting rods at the upper end and the lower end of the notch and are concentric, the sealing rod is inserted into the two sleeves, a transmission system is arranged between the sealing rod and the top of the baffle, and when the blocking rod moves downwards, the sealing rod correspondingly moves downwards and the two notches are sealed; the top of the portal frame is provided with a tension assembly, and the tension assembly connects a plurality of stop rods in series through a rope; an automatic feeding mechanism is arranged at the feeding position of the electrophoresis fixing frame, and an automatic discharging mechanism is arranged at the discharging position of the electrophoresis fixing frame.

2. The electrophoresis apparatus of an aluminum material as recited in claim 1, wherein the automatic feeding mechanism comprises a plurality of conveyor belts and a plurality of slide bars, wherein the plurality of conveyor belts are arranged at equal intervals from top to bottom, the interval between every two adjacent conveyor belts is a space for placing the aluminum material, the plurality of slide bars are arranged at the ends of the conveyor belts, the plurality of slide bars are provided with baffles at both sides, the ends of the slide bars at both sides are level with the height of the lower end of the corresponding notch, and the ends of the plurality of slide bars in the middle are located on the connecting line of the ends of the slide bars at both sides.

3. An electrophoresis apparatus for aluminum material as recited in claim 2 wherein the automatic discharge mechanism includes a movable frame, a plurality of rows of support rods are disposed on the movable frame and are spaced apart from each other, each row of support rods is disposed at a position corresponding to the position of the gap, and a telescopic assembly is disposed on the movable frame.

4. An aluminum product electrophoresis device as recited in claim 3 wherein a baffle plate is fixed to each arch, the baffle plate is located outside the notch and corresponds to the notch, and the aluminum product can be placed on the notch to slide through the baffle plate.

5. An aluminum material electrophoresis apparatus as recited in claim 4, wherein the power train includes two pulleys and a pulling rope, the two pulleys are fixed to the upper and lower ends of the sleeve at the upper end of the notch, respectively, wherein the pulling rope is fixed to the top of the sealing rod, the pulling rope is wound around the pulley at the lower end of the sleeve, then the pulling rope is wound around the pulley at the upper end of the sleeve, and finally the pulling rope is fixed to the stopper rod.