CN108581407B

CN108581407B - Button transposition and overturning method of button feeding mechanism

Info

Publication number: CN108581407B
Application number: CN201810339618.9A
Authority: CN
Inventors: 不公告发明人
Original assignee: Blue Wave Intelligent Technology Co ltd
Current assignee: Blue wave Intelligent Technology Co.,Ltd.
Priority date: 2016-07-01
Filing date: 2016-07-01
Publication date: 2020-11-17
Anticipated expiration: 2036-07-01
Also published as: CN105957752A; CN108581407A; CN105957752B

Abstract

The invention relates to a button transposition and overturning method of a button feeding mechanism, which aims to solve the technical problems that the assembly period is long and the efficiency is low because the button assembly mode of a microswitch at the present stage is manual operation, and the method comprises the following steps: the button in the button vibration plate is conveyed into the transposition guide block through the button feeder, the button push-pull cylinder drives the button to move to the position below the button discharge hole, the button is sucked by the button sucker of the button overturning assembly, the overturning cylinder drives the overturning installation block to move upwards, the flange shaft in the overturning installation block rotates under the matching of the roller bearing and the guiding opening of the overturning guide plate, and the button on the button sucker is overturned upwards by the flange shaft.

Description

Button transposition and overturning method of button feeding mechanism

The present application is a divisional application of a patent with the application number of 2016105027404, 2016, 07, 01, entitled "push button feeding mechanism of microswitch assembly equipment".

Technical Field

The invention relates to the field of mechanical automation, in particular to a button feeding mechanism of a microswitch assembling device.

Background

The micro switch's relevant part structure is less, micro switch equipment process is comparatively loaded down with trivial details, the manual assembly degree of difficulty is great, the difficult product qualification requirement that reaches, cause production efficiency to be low, the defective rate is high, high in production cost, the equipment of micro switch in present stage is manual work mostly, there is the human factor in the manual assembly, the defective products appears easily, and the assembly cycle is long, inefficiency and with high costs, in view of this, based on prior art's defect and not enough, design a section micro switch equipment's button feeding mechanism.

Disclosure of Invention

The invention mainly solves the technical problem of providing the button feeding mechanism of the micro-switch assembling equipment, which has a compact structure, can replace manual work to automatically, efficiently and tidily complete the transposition work of the button, and saves labor force.

In order to solve the technical problems, the invention adopts a technical scheme that: the button feeding mechanism of the micro switch assembling equipment comprises a button rack, a button vibrating tray, a button feeder, a button vibrating feeder, a button transposition assembly, a button overturning assembly, a cover plate rack, a first support and an installation base plate, wherein the button vibrating tray is installed on a flat plate on the button rack;

preferably, the button transposition assembly comprises a transposition guide die, a transposition guide block, a guide die cover plate, a button installation block, a button push-pull cylinder, a button floating joint, a limit stop block, a limit bolt and a limit nut, the transposition guide die is fixed on the installation base plate, a guide chute is arranged on the transposition guide die, the transposition guide block is arranged in the guide chute, an inverted T-shaped groove is arranged on the transposition guide block, a discharge port of a button feeder penetrates through the transposition guide die and faces the inverted T-shaped groove on the transposition guide block, a button can be arranged on the inverted T-shaped groove, a guide die cover plate is arranged on the upper end face of the transposition guide die, two button chutes are arranged on the lower plane of the guide die cover plate, one end of each button chute is opposite to the button on the inverted T-shaped groove, a button opening is arranged on the guide die cover plate above the inverted T-shaped groove, and a button discharge hole is, a button mounting block is mounted on a first support on the front side of the transposition guide block, a button push-pull cylinder is mounted at the upper end of the button mounting block, a piston rod of the button push-pull cylinder is fixed with the transposition guide block through a button floating joint, a limit stop block is arranged between the button mounting block and the transposition guide block, two parallel limit bolts are mounted on the limit stop block, threaded holes corresponding to the button mounting block are formed in the button mounting block, limit nuts are mounted on the limit bolts, the limit bolts can be screwed into the threaded holes, and the position of the limit stop block can be adjusted by adjusting the limit nuts;

preferably, the button overturning assembly comprises a mounting plate connecting block, an overturning cylinder mounting plate, an overturning cylinder, an overturning floating joint, an overturning mounting block, a flange shaft, an overturning bearing, a sucking disc mounting block, a button sucking disc, a roller bearing mounting plate, a roller bearing, an overturning mounting plate, an overturning guide plate, a buffer mounting plate, an overturning buffer and an overturning limiting bolt, wherein two mounting plate connecting blocks are mounted on the lower plane of the mounting backing plate, a rectangular through groove is formed in the upper flat plate of the first bracket, the mounting plate connecting blocks penetrate through the rectangular through groove, the overturning cylinder mounting plate is mounted on the lower end faces of the two mounting plate connecting blocks, the overturning cylinder is mounted on the overturning cylinder mounting plate, a piston rod of the overturning cylinder is fixed with the overturning mounting block through the overturning floating joint, the flange shaft transversely penetrates through the overturning mounting block, two overturning bearings are, the flange end of flange axle installs sucking disc installation piece, two button sucking discs are installed to sucking disc installation piece lower extreme, the button sucking disc is located button discharge opening top, the rear end that the flange axle passed upset installation piece is installed the gyro wheel bearing mounting panel, install gyro wheel bearing on the gyro wheel bearing mounting panel, install vertical upset mounting panel on the installation backing plate of gyro wheel bearing rear side, upset mounting panel right-hand member is installed and is had perpendicular upset deflector with it, gyro wheel bearing's gyro wheel is hugged closely with the preceding terminal surface of upset deflector, upset deflector front end is equipped with the direction opening, the buffer mounting panel is installed to the upset mounting panel up end, all install upset buffer and the spacing bolt of upset on the installation backing plate of the end that stretches out of buffer mounting panel and its below, upset buffer and the spacing bolt of upset are all facing to upset installation.

The invention has the beneficial effects that: the button feeding mechanism of the micro-switch assembling equipment is compact in structure, can replace manual work to automatically, efficiently and tidily complete the transposition work of the buttons, and saves labor force.

Drawings

FIG. 1 is a schematic view of the construction of a push button feed mechanism of the microswitch assembly apparatus of the invention; FIG. 2 is a schematic view of the button indexing assembly of the button feeding mechanism of the microswitch assembly apparatus of the present invention; FIG. 3 is a schematic diagram of a cover plate structure of a guide mold of a button feeding mechanism of the microswitch assembly equipment of the invention; fig. 4 is a schematic view of the button flipping module of the button feeding mechanism of the microswitch assembling apparatus according to the invention.

Detailed Description

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

Referring to fig. 1 to 4, an embodiment of the present invention includes:

a button feeding mechanism of a micro-switch assembling device comprises a button frame 71, a button vibrating tray 72, a button feeder 73, a button vibrating tray 74, a button transposition assembly 75, a button overturning assembly 76, a cover plate frame 77, a first bracket 78 and a mounting base plate 79, a button vibrating tray 72 is mounted on a flat plate on the button rack 71, a button feeder 73 is arranged at a discharge port of the button vibrating tray 72, a cover plate rack 77 is arranged on the left side of the button rack 71, the button vibrating tray 74 is fixed on the cover plate rack 77, the button feeder 73 is mounted on the button vibrating tray 74, a first support 78 is further mounted on the cover plate rack 77, a mounting base plate 79 is mounted on the flat plate on the first support 78, a button transposition assembly 75 and a button overturning assembly 76 are arranged on the mounting base plate 79, and the discharge port of the button feeder 73 faces the button transposition assembly 75;

the button transposition assembly 75 comprises a transposition guide die 751, a transposition guide block 752, a guide die cover plate 753, a button installation block 754, a button push-pull cylinder 755, a button floating joint 756, a limit stop 757, a limit bolt 758 and a limit nut 759, the transposition guide die 751 is fixed on the installation backing plate 79, the transposition guide die 751 is provided with a guide chute 7511, the transposition guide block 752 is arranged in the guide chute 7511, the transposition guide block 752 is provided with a reverse T-shaped groove 7521, a discharge hole of a button feeder 73 penetrates through the transposition guide die 751 to face the reverse T-shaped groove 7521 on the transposition guide block 752, a button can be arranged on the reverse T-shaped groove 7521, the upper end face of the transposition guide die 751 is provided with the guide die cover plate 753, the lower plane of the guide die cover plate 753 is provided with two button chutes 7531, one end of each button chute 753 is opposite to a button on the reverse T-shaped groove 7521, a button opening 7532 is arranged on the guide die 753 above the reverse, a guide die cover plate 753 at the other end of the button chute 7531 is provided with a button discharge hole 7533, a button mounting block 754 is mounted on a first support 78 at the front side of the transposition guide block 752, a button push-pull cylinder 755 is mounted at the upper end of the button mounting block 754, a piston rod of the button push-pull cylinder 755 is fixed with the transposition guide block 752 through a button floating joint 756, a limit stop 757 is arranged between the button mounting block 754 and the transposition guide block 752, two limit bolts 758 which are parallel to each other are mounted on the limit stop 757, a threaded hole corresponding to the button mounting block 754 is formed in the limit bolt 758, limit nuts 759 are mounted on the limit bolts 758, the limit bolts 758 can be screwed into the threaded hole, and the position of the limit stop 757 can be adjusted by adjusting;

the button turning assembly 76 comprises a mounting plate connecting block 761, a turning cylinder mounting plate 762, a turning cylinder 763, a turning floating joint 764, a turning mounting block 765, a flange shaft 766, a turning bearing 767, a sucker mounting block 768, a button sucker 769, a roller bearing mounting plate 7610, a roller bearing 7611, a turning mounting plate 7612, a turning guide plate 7613, a buffer mounting plate 7614, a turning buffer 7615 and a turning limit bolt 7616, wherein the lower plane of the mounting plate 79 is provided with two mounting plate connecting blocks 761, the upper plane of the first support 78 is provided with a rectangular through groove, the mounting plate connecting blocks 761 pass through the rectangular through groove, the lower end surfaces of the two mounting plate connecting blocks 761 are provided with the turning cylinder mounting plate 762, the turning cylinder mounting plate 762 is provided with the turning cylinder 763, a piston rod of the turning cylinder 763 is fixed with the turning mounting block 765 through the turning floating joint 764, the flange shaft 766, two overturning bearings 767 are mounted on a flange shaft 766, the overturning bearings 767 are all fixed in an overturning mounting block 765, a sucker mounting block 768 is mounted at the flange end of the flange shaft 766, two button suckers 769 are mounted at the lower end of the sucker mounting block 768, the button suckers 769 are located above a button discharge hole 7533, a roller bearing mounting plate 7610 is mounted at the rear end of the flange shaft 766 penetrating through the overturning mounting block 765, a roller bearing 7611 is mounted on the roller bearing mounting plate 7610, a vertical overturning mounting plate 7612 is mounted on a mounting plate 79 on the rear side of the roller bearing 7611, an overturning guide plate 7613 perpendicular to the right end of the overturning mounting plate 7612 is mounted at the right end of the overturning mounting plate 7612, rollers of the roller bearing 7611 are tightly attached to the front end face of the overturning guide plate 7613, a guide opening 76131 is arranged at the front end of the overturning guide plate 7613, a buffer mounting plate 7614 is mounted on the upper end face of the overturning mounting plate 7612, an extending end of, the roll-over bumper 7615 and the roll-over limit bolt 7616 are each directed toward the roll-over mounting block 765.

When the button feeding mechanism of the microswitch assembling equipment works, a button in the button vibration disc 72 is conveyed into the inverted T-shaped groove 7521 on the transposition guide block 752 through the button feeder 73, a piston rod of the button push-pull air cylinder 755 extends to drive the button to move below the button discharge hole 7533 through the button chute 7531, the button is sucked by the button sucking disc 769 of the button overturning assembly 76, the piston rod of the overturning air cylinder 763 extends to drive the overturning mounting block 765 to move upwards, the flange shaft 766 in the overturning mounting block 765 rotates under the matching of a roller of the roller bearing 7611, the front end face of the overturning guide plate 7613 and the guide opening 76131, the flange shaft 766 overturns the button on the button sucking disc 769 upwards, and the machine repeats the working steps.

The button feeding mechanism of the microswitch assembly equipment has a compact structure, can replace manual work to automatically, efficiently and tidily complete the transposition work of the buttons, and saves labor force.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a button transposition upset method of button feeding mechanism, this button feeding mechanism include button shake charging tray, button feeder, button transposition subassembly and button upset subassembly, the button transposition subassembly is including transposition guide block, install button push-and-pull cylinder on the transposition guide block, button upset subassembly is including upset cylinder, upset deflector, upset installation piece, gyro wheel bearing, its characterized in that, its method includes: the button in the button vibration disc is conveyed into the inverted T-shaped groove on the transposition guide block through the button feeder, the piston rod of the button push-pull cylinder extends to drive the button to move below a button discharge hole of the button feeder through a button chute, the button is sucked by a button sucker of the button overturning assembly, the piston rod of the overturning cylinder extends to drive the overturning installation block to move upwards, a flange shaft in the overturning installation block rotates under the matching of a roller of the roller bearing, the front end surface of the overturning guide plate and the guide opening, and the button on the button sucker is overturned upwards by the flange shaft;

the button feeding mechanism further comprises a button rack, the button vibration disc is mounted on an upper flat plate of the button rack, the button feeder is arranged at a discharge port of the button vibration disc, a cover plate rack is arranged on the left side of the button rack, a first support is further mounted on the cover plate rack, and a mounting base plate is mounted on the upper flat plate of the first support; the button transposition assembly further comprises a guide sliding groove, the transposition guide block is arranged in the guide sliding groove, and the inverted T-shaped groove is arranged on the transposition guide block; the button transposition assembly further comprises a transposition guide die, the transposition guide die is fixed on the installation base plate, a guide sliding groove is formed in the transposition guide die, a discharge port of the button feeder penetrates through the transposition guide die and faces to the inverted T-shaped groove in the transposition guide block, a button can be arranged on the inverted T-shaped groove, a guide die cover plate is arranged on the upper end face of the transposition guide die, two button sliding grooves are formed in the lower plane of the guide die cover plate, and a button discharge hole is formed in one end of the button sliding groove and the guide die cover plate, opposite to the other end of the button sliding groove, of the button on the inverted T-shaped groove.

2. The method for changing the button position of the button feeding mechanism according to claim 1, wherein the button changing assembly and the button turning assembly are disposed on a mounting base plate, and the discharge port of the button feeder faces the button changing assembly.

3. The method for interchanging and turning the buttons of a button feeding mechanism according to any one of claims 1 to 2, wherein a button mounting block is mounted on the first bracket at the front side of the interchanging guide block, and the button push-pull cylinder is mounted at the upper end of the button mounting block.

4. The method for changing the position and turning the button of the button feeding mechanism according to claim 1, wherein the button turning assembly further comprises a turning cylinder mounting plate and a turning floating joint, the turning cylinder is arranged on the turning cylinder mounting plate, the turning mounting block is fixed with a piston rod of the turning cylinder through the turning floating joint, and the flange axially transversely penetrates through the turning mounting block.

5. The method for changing the position and turning the button of the button feeding mechanism according to claim 4, wherein the button turning assembly further comprises two sucker mounting blocks, and the two button suckers are arranged at the lower end of each sucker mounting block and above the button discharging hole.

6. The method of claim 4, wherein the button flipping unit further comprises a roller bearing mounting plate and a flipping mounting plate, the roller bearing is disposed on the roller bearing mounting plate, the flipping guide plate is disposed at a right end of the flipping mounting plate perpendicular to the roller bearing mounting plate, the roller of the roller bearing is closely attached to a front end surface of the flipping guide plate, and a guide opening is disposed at a front end of the flipping guide plate.

7. The method as claimed in claim 6, wherein two mounting plate connecting blocks are mounted on the lower surface of the mounting plate, a rectangular through groove is formed in the upper plate of the first bracket, the mounting plate connecting blocks pass through the rectangular through groove, a turnover cylinder mounting plate is mounted on the lower end surface of each of the two mounting plate connecting blocks, the suction cup mounting block is mounted on the flange end of the flange shaft, the flange shaft passes through the rear end of the turnover mounting block and is mounted on the roller bearing mounting plate, and the turnover mounting plate is vertically mounted on the mounting plate on the rear side of the roller bearing.