CN208731111U - A kind of electric vehicle automatic tire mounting machine auxiliary clamping handling device - Google Patents

Abstract

A kind of electric vehicle automatic tire mounting machine auxiliary clamping handling device, including dress tire machine, dress tire machine is equipped with wheel hub positioning table, loaded on the wheel hub conveying robot component above wheel hub positioning table；The wheel hub conveying robot component is equipped with photoelectric sensor, and position sensor goes up and down module, the handling module for receiving the signal of position sensor sending and controlling the crawl of wheel hub conveying robot component, put down tire；It further include on the right side of dress tire machine, the carriage component below wheel hub conveying robot component；Carriage component is equipped with whether be placed with the signal transducer of tire, the signal for receiving signal transducer sending for detecting carriage component left end top and control the control module that the U-shaped turning rolls of carriage component moves left and right.The utility model can be carried with mechanical automation, save artificial, guarantee efficiency, and bottom production cost is dropped.

Description

A kind of electric vehicle automatic tire mounting machine auxiliary clamping handling device

Technical field

The utility model relates to whole electric vehicle manufacturing field, specifically a kind of electric vehicle automatic tire mounting machine auxiliary clamping is removed Shipping unit.

Background technique

Tire is after automatic tire mounting machine completes assembly by will manually assemble from dress tire machine in whole electric vehicle manufacturing industry Wheel set carry and be placed on lower sequence assembly line.This operation is necessarily required to 1 worker to carry, but this The time of the part single transport operation very short time only less than 4 seconds, and the phase one day total output is also just at 2000, it is single Class only has 2.3 hours pure operation total time.The unusual bottom of personnel's utilization rate.This carrying movement is also a kind of simple and mechanical simultaneously The repetitive operation of formula.Completely manual operation can be replaced with mechanical automatic operation band.To realize that the fund with very little is thrown Enter to save 1 manually.Reduce production cost, about 50,000 yuan of fund can be saved every year on average for company.

Summary of the invention

Utility model aims to solve above-mentioned technological deficiencies, to provide a kind of electric vehicle automatic tire-mounting Machine auxiliary clamping handling device can be carried with mechanical automation, save artificial, guarantee efficiency, drop bottom production cost.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of electric vehicle automatic tire mounting machine auxiliary dress Press from both sides handling device, it is characterised in that: including dress tire machine, wheel hub conveying robot component and the carriage for being set to dress tire machine side Component is provided with wheel hub positioning table on the dress tire machine, and the wheel hub conveying robot component is set by L-type hoisting bracket It being placed in right above wheel hub positioning table on dress tire machine, the L-type hoisting bracket horizontal bracket upper end is arranged in parallel with installation upper plate, L-type hoisting bracket horizontal bracket lower end is arranged in parallel with sliding lower plate, the L-type hoisting bracket, installation upper plate, sliding lower plate It is provided with guide post through-hole on the corresponding position of both sides, is provided with linear bearing guide post in the guide post through-hole, on the installation upper plate First cylinder is vertically housed；The push rod lower end of first cylinder is fixedly connected with plane in sliding lower plate, the sliding lower plate Lower plane is equipped with middle part the second clamping cylinder, third clamping cylinder, is installed on front side of the sliding lower plate lower plane by pin shaft There is H-type front claw, side is equipped with H-type rear claw by pin shaft on rear side of sliding lower plate lower plane, and second clamping cylinder pushes away Bar is fixedly connected with H-type front claw, and the push rod of the third clamping cylinder is fixedly connected with H-type rear claw.

As a preferred embodiment of the present invention, linear bearing guide sleeve is socketed on the linear bearing guide post.

As a preferred embodiment of the present invention, the carriage component includes the fixing and mounting bracket of right low left high, is loaded on The 4th cylinder on fixing and mounting bracket, U-shaped turning rolls pass through cunning by plane on linear guide fixing and mounting bracket, U-shaped turning rolls Block is fixedly connected with the push rod of the 4th cylinder.

As a preferred embodiment of the present invention, the wheel hub conveying robot component is equipped with and removes for detecting wheel hub Whether the photoelectric sensor of tire is placed with immediately below fortune mechanical arm assembly, for detecting the first gas of wheel hub conveying robot component The position sensor of cylinder push rod vertical height, for receive photoelectric sensor sending signal and control the first cylinder rise or under The lifting module of drop, for receive position sensor sending signal and control wheel hub conveying robot component crawl, put down wheel The handling module of tire；The carriage component is equipped with for detecting the signal for whether being placed with tire above carriage component left end Sensor, the signal for receiving signal transducer sending simultaneously control the sliding that the U-shaped turning rolls of carriage component moves left and right Module；The U-shaped turning rolls is equipped with the slide sensor for whether being placed with tire for detecting U-shaped turning rolls.

As a preferred embodiment of the present invention: the wheel hub conveying robot component is equipped with and removes for detecting wheel hub Whether the photoelectric sensor of tire is placed with immediately below fortune mechanical arm assembly, for detecting the first gas of wheel hub conveying robot component The position sensor of cylinder push rod vertical height instructs for receiving PLC master controller and controls what the first cylinder rose or fell Module is gone up and down, the crawl mould for instructing for receiving PLC master controller and controlling the crawl of wheel hub conveying robot component, putting down tire Block；The carriage component is equipped with whether be placed with the signal transducer of tire for detecting carriage component left end top, connect The sliding block that the U-shaped turning rolls of carriage component moves left and right is instructed and controlled by PLC master controller；The U-shaped turning rolls Equipped with the slide sensor for whether being placed with tire for detecting U-shaped turning rolls；Further include one for handle photoelectric sensor, Position sensor, signal transducer, the signal processing module for clamping sensor signal and slide sensor signal；It further include one It receives from signal processing module information and issues the PLC master controller of control instruction and one is used for transmission PLC master controller Signal gives lifting module, handling module, the parallel-expansion I/O module of sliding block.

The beneficial effects of the utility model are: the utility model is compared with prior art, integrally removed using mechanical automation It transports, effectively reduce employee's labour workload, save manually, while effectively raising production efficiency, drop bottom production cost.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the schematic block circuit diagram of the utility model；

Fig. 3 is the right view of wheel hub conveying robot component.

In figure, 1, dress tire machine, 2, L-type hoisting bracket, 3, installation upper plate, the 4, first cylinder, 5, air-operated solenoid valve, 6, straight line Bearing guide sleeve, 7, linear bearing guide post, 8, sliding lower plate, 9, H-type front claw, the 10, second clamping cylinder, 11, third clamping gas Cylinder, 13, U-shaped turning rolls, 14, fixing and mounting bracket, 15, linear guide, 16, sliding block, the 17, the 4th cylinder, 18, wheel hub positioning table.

Specific embodiment

Presently in connection with attached drawing, the technical scheme in the utility model embodiment is clearly and completely described, this attached drawing For simplified schematic diagram, only illustrate the basic structure of the utility model in a schematic way.

As shown in Figure 1, the utility model includes filling tire machine 1, wheel hub conveying robot component and being set to fill 1 side of tire machine Carriage component, be provided with wheel hub positioning table 18 on dress tire machine 1, wheel hub conveying robot component passes through L-type hoisting bracket 2 It is set to right above wheel hub positioning table 18 and fills on tire machine 1, the 2 horizontal bracket upper end of L-type hoisting bracket is arranged in parallel with peace Plate 3 is loaded onto, 2 horizontal bracket lower end of L-type hoisting bracket is arranged in parallel with sliding lower plate 8, and the L-type hoisting bracket 2 is installed It is provided with guide post through-hole on plate 3, sliding 8 both sides corresponding position of lower plate, is provided with linear bearing guide post 7 in the guide post through-hole, It is socketed with linear bearing guide sleeve 6 on linear bearing guide post 7, first cylinder 4 is vertically housed on the installation upper plate 3；Described first The push rod lower end of cylinder 4 is fixedly connected with plane 8 in sliding lower plate, and 8 lower plane of sliding lower plate is equipped with middle part second and presss from both sides Tight cylinder 10, third clamping cylinder 11,8 lower plane of the sliding lower plate front side are equipped with H-type front claw 9 by pin shaft, slide Side is equipped with H-type rear claw by pin shaft on rear side of 8 lower plane of lower plate, and the push rod and H-type front claw 9 of the second clamping cylinder 10 are fixed Connection, the push rod of third clamping cylinder 11 are fixedly connected with H-type rear claw；Carriage component includes the fixed installation of right low left high Frame 14, loaded on the 4th cylinder 17 on fixing and mounting bracket 14, U-shaped turning rolls 13 on 15 fixing and mounting bracket 14 of linear guide by putting down Face, U-shaped turning rolls 13 are fixedly connected by sliding block 16 with the push rod of the 4th cylinder 17.

As shown in Fig. 2, being the utility model schematic block circuit diagram, main includes being set on wheel hub conveying robot component The photoelectric sensor of tire whether is placed with, for detecting wheel hub handling machinery immediately below wheel hub conveying robot component for detecting The position sensor of the 4 push rod vertical height of the first cylinder of hand component instructs for receiving PLC master controller and controls the first gas Lifting module that cylinder 4 rises or falls and receive PLC master controller and instruct and control wheel hub conveying robot component to grab, put down The handling module of tire；It is set on carriage component for detecting the signal for whether being placed with tire above carriage component left end Sensor receives PLC master controller and instructs and control the sliding block that the U-shaped turning rolls of carriage component moves left and right；The U Shape turning rolls is equipped with the slide sensor for whether being placed with tire for detecting U-shaped turning rolls；It further include that can handle photoelectric sensing Device, position sensor, signal transducer, signal processing module, the PLC master control for clamping sensor and slide sensor signal Device processed and one can transmit PLC master controller signal to lifting module, handling module, sliding block parallel-expansion I/O mould Block；Preferred PLC master controller model Siemens S7-300 PLC, signal processing module model S1SD-1AI-1U, extension I/O module model Siemens EM222, lifting module model SM331, handling module model SM331, sliding block model For SM331, preferred photoelectric sensor model Keyemce LR-W, position sensor model Keyemce PR-M/F, signal are passed Sensor model Keyemce LR-T, clamping sensor model number are Keyemce PZ-G, slide sensor model PZ-T.

As shown in figure 3, wheel hub conveying robot component includes loaded on the L-type hoisting bracket 2 on dress tire machine 1, L-type lifting branch 2 horizontal bracket upper end of frame is arranged in parallel with installation upper plate 3, and 2 horizontal bracket lower end of L-type hoisting bracket is arranged in parallel with sliding lower plate 8, the L-type hoisting bracket 2, installation upper plate 3, sliding 8 both sides corresponding position of lower plate on be provided with guide post through-hole, the guide post It is provided with linear bearing guide post 7 in through-hole, is socketed with linear bearing guide sleeve 6 on linear bearing guide post 7, on the installation upper plate 3 First cylinder 4 is vertically housed；The push rod lower end of first cylinder 4 is fixedly connected with plane 8 in sliding lower plate, under the sliding 8 lower plane of plate is equipped with middle part the second clamping cylinder 10, third clamping cylinder 11, passes through on front side of 8 lower plane of sliding lower plate Pin shaft is equipped with H-type front claw 9, and side is equipped with H-type rear claw by pin shaft on rear side of sliding 8 lower plane of lower plate, and second clamps gas The push rod of cylinder 10 is fixedly connected with H-type front claw 9, and the push rod of third clamping cylinder 11 is fixedly connected with H-type rear claw；It is installing Be additionally provided on upper plate 3 for control the first cylinder 4, the second clamping cylinder 10, third clamping cylinder 11 and the 4th cylinder 17 into The air-operated solenoid valve 5 of outlet.

Handling process are as follows: the tire assembled is placed on the wheel hub positioning table 18 of the disk shaped of dress tire machine 1, passes through wheel hub Tire is moved to center immediately below wheel hub conveying robot component by the rotation of positioning table 18.Photoelectric transfer on first cylinder 4 Sensor detects to be placed with tire and issues signal immediately below wheel hub conveying robot component, and lifting module receives photoelectric sensor The signal and control 4 push rod of the first cylinder of sending move downward, and it is downward that 4 push rod of the first cylinder moves downward promotion sliding lower plate 8 It moves, the position sensor on the first cylinder 4 detects the change of 4 push rod vertical height of the first cylinder and issues signal, grabs Module receives the signal that position sensor issues and the push rod of the second clamping cylinder 10 of control pushes downwards, forward, and third clamps The push rod of cylinder 11 pushes downwards, backward.And then H-type front claw 9 is driven to open downwards, forward, H-type rear claw is downwards, backward It opens, H-type front claw 9, H-type rear claw are stuck in tire.Lifting module control 4 push rod of the first cylinder rises after delay 2 seconds, the Position sensor on one cylinder 4 detects the change of 4 push rod vertical height of the first cylinder and issues signal, and handling module receives Signal that position sensor issues and the push rod for controlling second clamping cylinder 10 push upwards, backward, third clamping cylinder 11 Push rod upwards, forward push, and then drive H-type front claw 9 upwards, to after-contraction, H-type rear claw upwards, withdrawn forward.Tire H-type front claw 9 be detached from H-type front claw 9 and H-type rear claw under H-type rear claw contraction state after fall.On carriage component Signal transducer detect and be placed with tire and issue signal above carriage component left end, sliding block receives signal transducer The signal and the 4th cylinder 17 of control of sending drive U-shaped turning rolls to move to left, and tire freely falling body is fallen on U-shaped turning rolls 13. Slide sensor loaded on U-shaped turning rolls 13, which detects to be placed with after tire on U-shaped turning rolls 13, issues signal, slides control module Controlling the 4th cylinder 17 drives U-shaped turning rolls to move right.After U-shaped turning rolls 13 moves right in place, the wheel finished is assembled Tire continues to slide to the right under the rotary action of effect of inertia and idler wheel that U-shaped turning rolls 13 moves right to fall under last flow into Process completes a single working cycles.The utility model Design of Mechanical Structure is simple, and the single working time is very short, does not influence The production efficiency for filling tire machine, has obviously advantage compared to existing integral movable type manipulator on the single working time. The top that general integral movable type manipulator is mounted in claw due to moving left and right guide rail, claw will not be first loose after grabbing material It opens, but is being unclamped after moving left to the right side, the left side is being returned in next step, wherein the time returned is lost work.Single work The time long production efficiency that will affect main equipment.And the wheel hub conveying robot component of the utility model is only responsible for crawl, conveying Frame is responsible for tire from moving left the right side.Efficiency is very much higher in this way.The existing equipment of single working time ratio want it is short very much, no It will affect productive temp.

Claims (5)

1. a kind of electric vehicle automatic tire mounting machine auxiliary clamping handling device, it is characterised in that: carried including dress tire machine (1), wheel hub Mechanical arm assembly fills the carriage component of tire machine (1) side with being set to, and is provided with wheel hub positioning table on the dress tire machine (1) (18), the wheel hub conveying robot component is set to right above wheel hub positioning table (18) by L-type hoisting bracket (2) and fills tire On machine (1), described L-type hoisting bracket (2) the horizontal bracket upper end is arranged in parallel with installation upper plate (3), L-type hoisting bracket (2) Horizontal bracket lower end is arranged in parallel with sliding lower plate (8), the L-type hoisting bracket (2), installation upper plate (3), sliding lower plate (8) it is provided with guide post through-hole on the corresponding position of both sides, linear bearing guide post (7), the installation are provided in the guide post through-hole The first cylinder (4) vertically are housed on upper plate (3)；The push rod lower end of first cylinder (4) is fixed with plane in sliding lower plate (8) Connection, sliding lower plate (8) lower plane are equipped with the second clamping cylinder of middle part (10), third clamping cylinder (11), the cunning It is equipped with H-type front claw (9) on front side of dynamic lower plate (8) lower plane by pin shaft, side passes through pin shaft on rear side of sliding lower plate (8) lower plane H-type rear claw is installed, the push rod of second clamping cylinder (10) is fixedly connected with H-type front claw (9), and the third clamps The push rod of cylinder (11) is fixedly connected with H-type rear claw.

2. a kind of electric vehicle automatic tire mounting machine auxiliary clamping handling device according to claim 1, it is characterised in that: described Linear bearing guide post (7) on be socketed with linear bearing guide sleeve (6).

3. a kind of electric vehicle automatic tire mounting machine auxiliary clamping handling device according to claim 1, it is characterised in that: described Carriage component includes the fixing and mounting bracket (14) of right low left high, loaded on the 4th cylinder (17) on fixing and mounting bracket (14), U-shaped For turning rolls (13) by plane on linear guide (15) fixing and mounting bracket (14), U-shaped turning rolls (13) passes through sliding block (16) and the The push rod of four cylinders (17) is fixedly connected.

4. a kind of electric vehicle automatic tire mounting machine auxiliary clamping handling device according to claim 1, it is characterised in that: described Wheel hub conveying robot component be equipped with for detecting the photoelectricity for whether being placed with tire immediately below wheel hub conveying robot component Sensor, the position sensor of the first cylinder (4) push rod vertical height for detecting wheel hub conveying robot component, for connecing It receives the signal that photoelectric sensor issues and controls the lifting module that the first cylinder (4) rise or fall, for receiving position sensing The signal of device sending and the handling module for controlling the crawl of wheel hub conveying robot component, putting down tire；On the carriage component Equipped with whether being placed with the signal transducer of tire above carriage component left end for detecting, issued for receiving signal transducer Signal and control the sliding block that the U-shaped turning rolls of carriage component moves left and right；The U-shaped turning rolls is equipped with for detecting Whether U-shaped turning rolls is placed with the slide sensor of tire.

5. a kind of electric vehicle automatic tire mounting machine auxiliary clamping handling device according to claim 1, it is characterised in that: described Wheel hub conveying robot component be equipped with for detecting the photoelectricity for whether being placed with tire immediately below wheel hub conveying robot component Sensor, the position sensor of the first cylinder (4) push rod vertical height for detecting wheel hub conveying robot component, for connecing The lifting module that the first cylinder (4) rises or falls is instructed and controlled by PLC master controller, is referred to for receiving PLC master controller The handling module for enabling and controlling the crawl of wheel hub conveying robot component, putting down tire；The carriage component is equipped with for examining It surveys above carriage component left end and whether is placed with the signal transducer of tire, receive PLC master controller and instruct and control carriage The sliding block that the U-shaped turning rolls of component moves left and right；The U-shaped turning rolls is equipped with for detecting whether U-shaped turning rolls is placed with The slide sensor of tire；It further include one for handling photoelectric sensor, position sensor, signal transducer, clamping sensing The signal processing module of device signal and slide sensor signal；Further include one to receive from signal processing module information and issue The PLC master controller of control instruction and one are used for transmission PLC master controller signal and give lifting module, handling module, sliding die The parallel-expansion I/O module of block.