CN211756356U - Aluminum profile electrostatic spraying production line - Google Patents

Abstract

The utility model relates to an aluminium alloy electrostatic spraying production line belongs to automated production technical field. The technical scheme is as follows: the automatic production line comprises punching equipment, hooking equipment and unhooking equipment, wherein the hooking equipment comprises a swing arm suction machine, a three-axis linkage grappling machine and a flow hook, and the aluminum profile electrostatic spraying production line is coordinated by all the mechanism equipment, so that the automatic production of punching, hooking, spraying and unhooking of the aluminum profile electrostatic spraying is finally realized. The utility model has the advantages that: compared with the existing production mode, the production efficiency is improved, a large amount of labor expenditure is saved, the occupied space is small, the production method is suitable for large-scale popularization and production, and the labor productivity is improved.

Description

Aluminum profile electrostatic spraying production line

Technical Field

The utility model relates to an aluminium alloy electrostatic spraying production line belongs to spraying technical field.

Background

With the acceleration of the urbanization process, the demand of newly-built communities and old house reconstruction on doors and windows is greatly increased, and particularly, the doors and windows made of firm, durable and attractive aluminum alloy materials are unique. An important process for producing the aluminum profile is electrostatic spraying. One end of the aluminum profile needs to be punched before electrostatic spraying, the aluminum profile is hung on the flowing water hook so as to be sprayed uniformly, and the aluminum profile is picked off from the flowing water hook after spraying.

In the prior art, punching, hooking and unhooking are all manually operated by workers. The efficiency is low, the labor intensity of workers is high, and the work is boring and lack of enthusiasm; meanwhile, the problems of high labor cost, influence on enterprise profits and the like exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an aluminium alloy electrostatic spraying production line compares with prior art, can effectively reduce the labour use amount, practices thrift labour cost, productivity gain by a wide margin.

The technical scheme of the utility model is that:

an aluminum profile electrostatic spraying production line comprises punching equipment, hook equipment arranged on two sides of a flowing water hook and unhooking equipment arranged at the tail end of the flowing water hook, wherein the punching equipment comprises a drilling machine frame, a drilling machine lifting device mounting plate, a drilling machine lifting device, a drilling machine, an aluminum profile conveying line, a punching clamping cylinder, a lifting positioning plate, a photoelectric sensor I, a punching lifting cylinder mounting frame and a punching clamping cylinder mounting frame, and the drilling machine is fixedly mounted on the drilling machine lifting device; the drilling machine lifting device is fixedly connected with the drilling machine lifting device mounting plate; the aluminum profile conveying line is arranged on the right side of the drilling machine frame; the aluminum profile is placed on the aluminum profile conveying line, and the axis of the aluminum profile is perpendicular to the axis of the drilling machine; the cylinder body of the punching clamping cylinder is fixedly arranged on the punching clamping cylinder mounting frame, and the punching clamping cylinder mounting frame is fixed right above the aluminum profile conveying line; the lifting positioning plate is fixed right above the punching lifting cylinder, and a cylinder body of the punching lifting cylinder is fixedly arranged on the punching lifting cylinder mounting frame; the first photoelectric sensor is fixed below the lifting positioning plate; the hook equipment comprises a swing arm suction machine, a three-axis linkage hook grabbing machine and a flowing water hook, the flowing water hook is installed on the left side of the aluminum profile conveying line, and the motion direction of the hook of the flowing water hook is consistent with the direction of conveying the aluminum profile by the aluminum profile conveying line; the swing arm suction machine is arranged between the flow hook and the aluminum profile conveying line; the three-shaft linkage grapple machine is arranged on the left side of the running water hook; the running water hook comprises a hook suspension, a conveying chain, a rotary hook plate, a hook and a guide wheel, wherein the conveying chain is installed at the top end of the hook suspension, and the rotary hook plate is suspended at the lower end of the conveying chain; one end of the hook is hung on the rotary hook plate; one end of the guide wheel is fixed on the hanger suspension, and the wheel is tangent to the rotary hanger plate; the unhooking device comprises an unhooking lifting cylinder mounting frame, an unhooking lifting cylinder, a top block, an unhooking pneumatic finger lifting frame, an unhooking pneumatic finger lifting cylinder and an unhooking pneumatic finger, wherein the top block is fixedly mounted at the rod end of the unhooking lifting cylinder; the cylinder body of the unhooking lifting cylinder is fixedly connected with the unhooking lifting cylinder mounting frame; the unhooking pneumatic finger is arranged at the rod end of the unhooking pneumatic finger lifting cylinder; and the cylinder body of the unhooking pneumatic finger lifting cylinder is fixedly connected with the unhooking pneumatic finger lifting frame.

Preferably, the method comprises the following steps: the swing arm material suction machine comprises a support column, a swing arm mounting plate, a swing arm speed reducer, a swing arm servo motor, a material suction cylinder, a cylinder swing motor, a cylinder swing speed reducer, a cylinder support, a cylinder mounting plate, a vacuum chuck, a photoelectric sensor II and mechanical limit; one end of the support column is connected with the ground, and the other end of the support column is connected with the rotary arm mounting plate; the slewing arm speed reducer is fixed on the slewing arm mounting panel, and the input of slewing arm speed reducer with slewing arm servo motor's output shaft, moreover the output of slewing arm speed reducer with the one end of slewing arm links together. The photoelectric sensor and the mechanical limit are fixed on the rotary arm mounting plate; the vacuum sucker is fixedly connected with the rod end of the material sucking cylinder; the material suction cylinder is vertically arranged on the cylinder mounting plate; the cylinder swing motor is connected with the cylinder swing speed reducer; the cylinder swing speed reducer is fixedly installed in the cylinder support, and an output shaft of the cylinder swing speed reducer is connected with the cylinder mounting plate. The cylinder bracket is fixedly connected with the other end of the rotary arm. When the photoelectric sensor II detects that the punched aluminum profile is conveyed to the hook equipment, the revolving arm servo motor drives the revolving arm reducer to move, and the revolving arm is driven to clockwise rotate to a mechanical limit position; simultaneously, the cylinder swing motor drives the cylinder swing reducer to move, drives a cylinder support, adjusts the position of the material suction cylinder relative to the aluminum profile, and the material suction cylinder moves downwards to be matched with a vacuum chuck to move the punched aluminum profile to the hook position.

Preferably, the method comprises the following steps: the three-axis linkage grapple machine comprises a three-axis linkage grapple machine frame, a Z-axis lifting cylinder, a linear bearing, a light bar, an X-axis mounting plate, an X-axis driving cylinder, a linear bearing fixing seat guide rail, a Y-axis mounting plate, a Y-axis driving double-axis cylinder, a hook pneumatic finger and a linear bearing slide block; the pneumatic finger of the hook is fixed at the tail end of a rod of the Y-axis driving double-shaft cylinder; the Y-axis driving double-shaft cylinder is fixed on the Y-axis mounting plate; the Y-axis mounting plate is fixedly connected with the linear bearing sliding block; the linear bearing sliding block is arranged on the guide rail of the linear bearing fixing seat; the linear bearing fixing seat guide rail is arranged on the X-axis mounting plate; the cylinder body of the X-axis driving cylinder is fixed on the X-axis mounting plate, and the rod end of the X-axis driving cylinder is fixedly connected with the Y-axis mounting plate. After the photoelectric sensor II detects the punched aluminum profile, the Y-axis drives the double-shaft cylinder to push out the pneumatic finger of the hook and clamp the hook by the pneumatic finger of the hook; meanwhile, the X-axis driving cylinder pushes the Y-axis mounting plate forwards, so that the pneumatic fingers of the hook keep the same velocity vector as the flowing water hook; the Z-axis lifting cylinder pushes the X-axis mounting plate to move upwards, so that the motion track of the pneumatic finger of the hook is an arc taking the hook as a radius, and the pneumatic finger of the hook is linked together through X, Y, Z three axes to enable the pneumatic finger of the hook to clamp the hook to move towards the oblique front.

The utility model has the advantages that: compared with the existing production mode, the production efficiency is improved, a large amount of labor expenditure is saved, the occupied space is small, the production method is suitable for large-scale popularization and production, and the labor productivity is improved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is an isometric view of a punching apparatus and hooking apparatus of the present invention;

fig. 2 is an isometric view of the unhooking apparatus of the present invention;

fig. 3 is a schematic isometric view of the punching apparatus of the present invention;

FIG. 4 is a front view of the punching apparatus of the present invention;

FIG. 5 is an enlarged view of the portion E of FIG. 4;

FIG. 6 is a schematic structural view of the hooking device of the present invention;

FIG. 7 is a schematic structural view of a swing arm suction machine in the hook device of the present invention;

FIG. 8 is a schematic structural view of a three-axis linkage hook grabber in the hook apparatus of the present invention;

FIG. 9 is a schematic view of the structure of the water hook of the hook device of the present invention;

FIG. 10 is an enlarged view of section I of FIG. 9;

fig. 11 is a schematic view of the structure of the hook removing device of the present invention;

in the figure: 100 is punching equipment, 101 is a drilling machine frame, 102 is a drilling machine lifting device mounting plate, 103 is a drilling machine lifting device, 104 is a drilling machine, 105 is an aluminum profile conveying line, 106 is an aluminum profile, 107 is a punching clamping cylinder, 108 is a lifting positioning plate, 109 is a photoelectric sensor I, 110 is a punching lifting cylinder, 111 is a punching lifting cylinder mounting frame, and 112 is a punching clamping cylinder mounting frame; 200 is a hook device, 210 is a swing arm suction machine, 211 is a support column, 212 is a swing arm mounting plate, 213 is a swing arm, 214 is a swing arm reducer, 215 is a swing arm servo motor, 216 is a suction cylinder, 217 is a cylinder swing motor, 218 is a cylinder swing reducer, 219 is a cylinder support, 220 is a cylinder mounting plate, 221 is a vacuum chuck, 222 is a second photoelectric sensor, and 223 is mechanical limit; 230 is a three-axis linkage grappling machine, 231 is a three-axis linkage grappling machine frame, 232 is a Z-axis lifting cylinder, 233 is a linear bearing, 234 is a light bar, 235 is an X-axis mounting plate, 236 is an X-axis driving cylinder, 237 is a linear bearing fixing seat guide rail, 238 is a Y-axis mounting plate, 239 is a Y-axis driving double-axis cylinder, 240 is a hook pneumatic finger, and 241 is a linear bearing slider; 250 is a water flow hook, 251 is a hook suspension, 252 is a conveying chain, 253 is a rotary hook plate, 254 is a hook, and 256 is a guide wheel; 300 is unhooking equipment, 301 is an unhooking lifting cylinder mounting frame, 302 is an unhooking lifting cylinder, 303 is a top block, 304 is an unhooking pneumatic finger lifting frame, 305 is an unhooking pneumatic finger lifting cylinder, and 306 is an unhooking pneumatic finger.

Detailed Description

The invention will be further described by way of example with reference to the accompanying drawings.

An aluminum profile electrostatic spraying production line comprises a drilling machine 100, a hook device 200 and a hook stripping device 300, wherein the drilling machine 100 comprises a drilling machine rack 101, a drilling machine lifting device mounting plate 102, a drilling machine lifting device 103, a drilling machine 104, an aluminum profile conveying line 105, a drilling clamping cylinder 107, a lifting positioning plate 108, a first photoelectric sensor 109, a drilling lifting cylinder 110, a drilling lifting cylinder mounting frame 111 and a drilling clamping cylinder mounting frame 112, and the drilling machine 104 is fixedly mounted on the drilling machine lifting device 103; the drilling machine lifting device 103 is fixedly connected with the drilling machine lifting device mounting plate 102; the drilling machine lifting device mounting plate 102 is fixedly connected with a drilling machine rack 101, and the aluminum profile conveying line 105 is arranged on the right side of the drilling machine rack 101; the aluminum profile 106 is placed on the aluminum profile conveying line 105, the axis of the aluminum profile 106 is perpendicular to the axis of the drilling machine 104, the cylinder body of the punching clamping cylinder 107 is fixedly installed on a punching clamping cylinder installation frame 112, and the punching clamping cylinder installation frame 112 is fixed right above the aluminum profile conveying line 105; the lifting positioning plate 108 is fixed right above the punching lifting cylinder 110, and the cylinder body of the punching lifting cylinder 110 is fixedly arranged on the punching lifting cylinder mounting frame 111; the first photoelectric sensor 109 is fixed below the lifting positioning plate 108, the hook device 200 comprises a swing arm suction machine 210, a three-axis linkage hook grabbing machine 230 and a flowing water hook 250, the flowing water hook 250 is installed on the left side of the aluminum profile conveying line 105, and the moving direction of the flowing water hook is consistent with the direction of the aluminum profile conveying line 105 conveying the aluminum profile 106; the swing arm suction machine 210 is arranged between the flow hook 250 and the aluminum profile conveying line 105; the three-axis linkage grappling machine 230 is installed at the left side of the running water hook 250. When the punched aluminum profile 106 is transported to a hooking device by the aluminum profile conveying line 105, the swing arm suction machine 210 sucks the punched aluminum profile 106 to a hooking position, meanwhile, the three-shaft linkage hook grabbing machine 230 clamps the hook 254 and pushes the hook 254 to the hooking position to realize hooking action of the aluminum profile, the swing arm suction machine 210 moves the punched aluminum profile 106 to the hooking position, and the three-shaft linkage hook grabbing machine 230 pushes the hook 254 to the oblique front to finish hooking of the aluminum profile 106; the flow hook 250 is an auxiliary device penetrating through an electrostatic spraying production line, and the length of the flow hook is different according to different production line scales. The running water hook 250 comprises a hook suspension 251, a conveying chain 252, a rotary hook plate 253, a hook 254 and a guide wheel 256; the conveying chain 252 is arranged at the top end of a hook suspension 251; the rotary hook plate 253 is hung at the lower end of the conveying chain 252; one end of the hook is hung on the rotary hook plate 253; one end of the guide wheel 256 is fixed to the hanger bracket 251, and the wheel is tangent to the rotating hanger plate 253. The conveying chain 252 drives the rotary hook plate 253 and the hook 254 to move towards the electrostatic spraying room at a constant speed, when the conveying chain is conveyed to a hook device, the three-axis linkage hook grabbing machine 230 pushes out one of the hooks 254, the swing arm suction machine 210 hangs the punched aluminum profile 106 on the hook 254, the aluminum profile moves along the moving direction of the conveying chain 252 under the dragging of the hook, the rotary hook plate 235 is stressed to rotate, and when the conveying chain 252 moves to the guide wheel 256, the rotary hook plate 253 is straightened. The unhooking device 300 comprises an unhooking lifting cylinder mounting rack 301, an unhooking lifting cylinder 302, a top block 303, an unhooking pneumatic finger lifting rack 304, an unhooking pneumatic finger lifting cylinder 305 and an unhooking pneumatic finger 306; the jacking block 303 is fixedly arranged at the rod end of the unhooking lifting cylinder 302; the cylinder body of the unhooking lifting cylinder 302 is fixedly connected with the unhooking lifting cylinder mounting frame 301; the unhooking pneumatic finger 306 is arranged at the rod end of the unhooking pneumatic finger lifting cylinder 305; the cylinder body of the unhooking pneumatic finger lifting cylinder 305 is fixedly connected with the unhooking pneumatic finger lifting frame 304. Because the conveying chain 252 moves at a constant speed, and the hooks 254 are spaced at equal intervals, when the hook 254 hanging the aluminum profile 106 which is subjected to electrostatic spraying moves to the unhooking device, the unhooking pneumatic finger lifting cylinder 305 moves upwards to push the unhooking pneumatic finger 306 to clamp the hook 254; meanwhile, the unhooking lifting cylinder 302 moves upwards rapidly, and the aluminum profile is ejected out of the hook by the ejection block 303, so that unhooking is realized.

The implementation process is as follows: the aluminum profile conveying line 105 conveys the aluminum profiles 106 which are not punched forwards at a constant speed until the aluminum profiles touch the photoelectric sensor I109, the punching lifting cylinder 110 rapidly acts, and the aluminum profiles 106 which are not punched are vertically jacked upwards by the punching lifting cylinder 110 and are separated from the aluminum profile conveying line 105; then the punching clamping cylinder 107 moves downwards, and the aluminum profile 106 which is not punched is pressed on the lifting positioning plate 108; the drilling machine lifting device 103 rapidly drives the drilling machine 104 to move downwards to realize the drilling action; after the punching is finished, the drilling machine lifting device 103 rapidly drives the drilling machine 104 to move upwards, and the drilling machine 104 resets; and then the punching clamping cylinder 107 contracts upwards, the punching lifting cylinder 110 descends simultaneously, the punched aluminum profile 106 is placed on the aluminum profile conveying line 105 and conveyed to the hook equipment 200, the actions are repeated, the positioning, punching and resetting of the aluminum profile are realized, the hook equipment 200 finishes hanging and mounting of the aluminum profile, the flowing water hook 250 is an auxiliary equipment which runs through an electrostatic spraying production line, the length of the flowing water hook is different according to the scale of the production line, the flowing water hook 250 moves to drive the hung and mounted aluminum profile to enter an electrostatic spraying area to finish spraying, then the hook picking is finished by the hook picking equipment 300, and finally the whole electrostatic spraying punching, hooking, spraying and hook picking work is realized.

Claims (3)

1. The utility model provides an aluminium alloy electrostatic spraying production line which characterized in that: comprises a punching device (100), a hook device (200) and a unhooking device (300), wherein the punching device (100) comprises a drilling machine frame (101), a drilling machine lifting device mounting plate (102), a drilling machine lifting device (103), a drilling machine (104), an aluminum profile conveying line (105), a punching clamping cylinder (107), a lifting positioning plate (108), a photoelectric sensor I (109), a punching lifting cylinder (110), a punching lifting cylinder mounting frame (111) and a punching clamping cylinder mounting frame (112), the drilling machine (104) is fixedly mounted on the drilling machine lifting device (103), the drilling machine lifting device (103) is fixedly connected with the drilling machine lifting device mounting plate (102), the drilling machine lifting device mounting plate (102) is fixedly connected with the drilling machine frame (101), the aluminum profile conveying line (105) is arranged on the right side of the drilling machine frame (101), the cylinder body of the punching clamping cylinder (107) is fixedly installed on the punching clamping cylinder installation frame (112), the punching clamping cylinder installation frame (112) is fixed right above the aluminum profile conveying line (105), the lifting positioning plate (108) is fixed right above the punching lifting cylinder (110), the cylinder body of the punching lifting cylinder (110) is fixedly installed on the punching lifting cylinder installation frame (111), and the photoelectric sensor I (109) is fixed below the lifting positioning plate (108); the hook equipment (200) comprises a swing arm suction machine (210), a three-axis linkage grabbing hook machine (230) and a flowing water hook (250), wherein the flowing water hook (250) is installed on the left side of the aluminum profile conveying line (105), the swing arm suction machine (210) is installed between the flowing water hook (250) and the aluminum profile conveying line (105), and the three-axis linkage grabbing hook machine (230) is installed on the left side of the flowing water hook (250); the running water hook (250) comprises a hook suspension (251), a conveying chain (252), a rotary hook plate (253), a hook (254) and a guide wheel (256), wherein the conveying chain (252) is installed at the top end of the hook suspension (251), the rotary hook plate (253) is hung at the lower end of the conveying chain (252), one end of the hook is hung on the rotary hook plate (253), one end of the guide wheel (256) is fixed on the hook suspension (251), and the wheel is tangent to the rotary hook plate (253); unhooking equipment (300) contain unhooking lift cylinder mounting bracket (301), unhooking lift cylinder (302), kicking block (303), the pneumatic finger crane of unhooking (304), the pneumatic finger lift cylinder of unhooking (305) and the pneumatic finger of unhooking (306), kicking block (303) fixed mounting is at the rod end of unhooking lift cylinder (302), the cylinder body and the unhooking lift cylinder mounting bracket (301) fixed connection of unhooking lift cylinder (302), the rod end at the pneumatic finger lift cylinder of unhooking (305) is installed to the pneumatic finger of unhooking (306), the cylinder body and the pneumatic finger crane of unhooking (304) fixed connection of the pneumatic finger lift cylinder of unhooking (305) of unhooking.

2. The aluminum profile electrostatic spraying production line of claim 1, characterized in that: the swing arm material suction machine (210) comprises a support column (211), a swing arm mounting plate (212), a swing arm (213), a swing arm reducer (214), a swing arm servo motor (215), a material suction cylinder (216), a cylinder swing motor (217), a cylinder swing reducer (218), a cylinder support (219), a cylinder mounting plate (220), a vacuum chuck (221), a photoelectric sensor II (222) and a mechanical limit (223), wherein one end of the support column (211) is connected with the ground, the other end of the support column (211) is connected with the swing arm mounting plate (212), the swing arm reducer (214) is fixed on the swing arm mounting plate (212), the input end of the swing arm reducer (214) is connected with the output shaft of the swing arm servo motor (215), the output end of the swing arm reducer (214) is connected with one end of the swing arm (213), the photoelectric sensor II (222) and the mechanical limit (223) are fixed on the swing arm mounting plate (212), vacuum chuck (221) with inhale material cylinder (216) rod end fixed connection, inhale material cylinder (216) and install perpendicularly on cylinder mounting panel (220), cylinder swing motor (217) are connected with cylinder swing reducer (218), cylinder swing reducer (218) fixed mounting is in cylinder support (219), the output shaft of cylinder swing reducer (218) with cylinder mounting panel (220) are connected, and cylinder support (219) are in the same place with the other end fixed connection of slewing arm (213).

3. The aluminum profile electrostatic spraying production line of claim 1, characterized in that: the three-axis linkage grappler (230) comprises a three-axis linkage grappler frame (231), a Z-axis lifting cylinder (232), a linear bearing (233), a light bar (234), an X-axis mounting plate (235), an X-axis driving cylinder (236), a linear bearing fixing seat guide rail (237), a Y-axis mounting plate (238), a Y-axis driving double-shaft cylinder (239), a hook pneumatic finger (240) and a linear bearing slider (241), wherein the hook pneumatic finger (240) is fixed at the tail end of a rod of the Y-axis driving double-shaft cylinder (239), the Y-axis driving double-shaft cylinder (239) is fixed on the Y-axis mounting plate (238), the Y-axis mounting plate (238) is fixedly connected with the linear bearing slider (241), the linear bearing slider (241) is installed on the linear bearing fixing seat guide rail (237), and the linear bearing fixing seat guide rail (237) is installed on the X-axis mounting plate (235), the X-axis driving cylinder (236) body is fixed on the X-axis mounting plate (235), the rod end of the X-axis driving cylinder is fixedly connected with the Y-axis mounting plate (238), the optical lever (234) body is in fit contact with the linear bearing (233), one end of the optical lever (234) is fixedly connected with the X-axis mounting plate (235), the Z-axis lifting cylinder (232) body is fixedly connected with the top of the three-axis linkage grapple machine frame (231), and the Z-axis lifting cylinder (232) piston rod is fixedly connected with the X-axis mounting plate (235).

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