CN113059602B

CN113059602B - Gasket auxiliary trimming device for manufacturing high-end equipment

Info

Publication number: CN113059602B
Application number: CN202110434117.0A
Authority: CN
Inventors: 胡飞黄
Original assignee: Hebei Huatong Heavy Machinery Manufacturing Co ltd
Current assignee: Hebei Huatong Heavy Machinery Manufacturing Co ltd
Priority date: 2021-04-22
Filing date: 2021-04-22
Publication date: 2023-06-20
Anticipated expiration: 2041-04-22
Also published as: CN113059602A

Abstract

The invention relates to a trimming device, in particular to a gasket auxiliary trimming device for manufacturing high-end equipment. The invention provides a gasket auxiliary trimming device for manufacturing high-end equipment, which can automatically place and take out gaskets. The invention provides a gasket auxiliary trimming device for manufacturing high-end equipment, which comprises the following components: the base plate is provided with three supporting seats at equal intervals; the three supporting seats are provided with a workbench; the support columns are symmetrically arranged on two sides of the workbench; the first mounting plate is arranged on the four support columns. The feeding mechanism is driven to move rightwards to the lower part of the trimming cutter through the rotation of the driving mechanism, the trimming mechanism is driven to rotate through the rotation of the driving mechanism, and the trimming cutter is driven to move downwards to trim the gasket through the rotation of the trimming mechanism.

Description

Gasket auxiliary trimming device for manufacturing high-end equipment

Technical Field

The invention relates to a trimming device, in particular to a gasket auxiliary trimming device for manufacturing high-end equipment.

Background

The washer refers to the part that is padded between the piece to be connected and the nut. A generally flat metal ring is used to protect the surface of the connected component from being scratched by the nut and to disperse the pressure of the nut on the connected component. During the production of the gasket, it is necessary to trim the gasket.

The general side cut equipment is through the manual work place the packing ring below equipment blade, moves down the packing ring through the side cut equipment and cuts edge, but this kind of mode through the manual work place the packing ring, work efficiency is lower, and the security is lower moreover.

Therefore, it is desirable to design a gasket trimming assisting device for manufacturing high-end equipment, which can automatically place and take out the gasket, so as to solve the above-mentioned problems.

Disclosure of Invention

In order to overcome the defects that the working efficiency is lower and the safety is lower in a mode of manually placing the gasket, the technical problem to be solved is as follows: provided is a gasket auxiliary trimming device for manufacturing high-end equipment, which can automatically place and take out gaskets.

The technical proposal is as follows: a gasket trimming assist device for manufacturing high-end equipment, comprising: the base plate is provided with three supporting seats at equal intervals; the three supporting seats are provided with a workbench; the support columns are symmetrically arranged on two sides of the workbench; the four support columns are provided with first mounting plates; the sliding groove plate is arranged on one side of the first mounting plate; the connecting seat is arranged on the sliding groove plate in a sliding manner; the cutter clamping plate is arranged on the connecting seat; the bottom of the cutter clamping plate is provided with a trimming cutter; the driving mechanism is arranged on one side of the workbench; the driving mechanism is provided with a trimming mechanism; and the workbench is provided with a feeding mechanism, and the driving mechanism is matched with the feeding mechanism.

Further, the driving mechanism includes: a supporting plate is arranged on one side of the workbench; the second mounting plate is arranged on the supporting plate; the base plate is arranged on the second mounting plate; the base plate is provided with a servo motor; the output shaft of the servo motor is provided with a first gear; the first bearing seat is symmetrically arranged on the second mounting plate; the first rotating shafts are rotatably arranged on the two first bearing seats; the second gears are arranged on the two first rotating shafts, and the first gears are meshed with the two second gears; the second mounting plates are symmetrically provided with second bearings; the second rotating shafts are rotatably arranged on the two second bearing shafts; the ratchet wheel assembly is arranged on the two second rotating shafts, the ratchet wheel assembly is composed of two ratchet wheels, one ratchet wheel is arranged at one end of each of the two first rotating shafts, the other ratchet wheel is arranged at one end of each of the two second rotating shafts, and the two similar ratchet wheels are matched with each other.

Further, the trimming mechanism includes: the first guide rods are symmetrically arranged in the chute plate, and the connecting seat is connected with the two first guide rods in a sliding mode; the first springs are arranged between the two sides of the bottom of the connecting seat and the two sides of the bottom of the sliding groove plate; the second mounting plate is provided with a supporting block; the top of the supporting block is symmetrically provided with a third bearing seat; the third rotating shafts are rotatably arranged between the two third bearing seats; the belt pulley assembly comprises a first belt pulley assembly, a second belt pulley and a third belt pulley, wherein the first belt pulley assembly is arranged between one end of a second rotating shaft on one side and one end of a third rotating shaft, the first belt pulley assembly consists of two belt pulleys and a flat belt, one belt pulley is arranged at one end of the second rotating shaft on one side, the other belt pulley is arranged at one end of the third rotating shaft, and the flat belt is arranged between the two belt pulleys; the other end of the third rotating shaft is provided with a crank; the upper part of the crank is provided with a first positioning shaft; the sleeve shaft is rotatably arranged on the first positioning shaft; the lower part of the sleeve shaft is provided with a first connecting rod; the connecting column is arranged at the bottom end of the first connecting rod and is connected with one side of the connecting seat.

Further, the feeding mechanism includes: the rotating wheel assembly is rotatably arranged on the workbench through a supporting rod; the fourth rotating shaft is rotatably arranged on one side of the second mounting plate; the bevel gear assembly is arranged at the top ends of the second rotating shaft and the fourth rotating shaft at the other side and consists of two bevel gears, one bevel gear is arranged at one end of the second rotating shaft at the other side, the other bevel gear is arranged at the top end of the fourth rotating shaft, and the two bevel gears are meshed with each other; the second belt pulley assembly is arranged between the bottom end of the fourth rotating shaft and the supporting rod of the rotating wheel assembly, the second belt pulley assembly consists of two belt pulleys and a flat belt, one belt pulley is arranged at the bottom end of the fourth rotating shaft, the other belt pulley is arranged on the supporting rod of the rotating wheel assembly, and the flat belt is arranged between the two belt pulleys; the second positioning shaft is arranged on one side of the workbench; the connecting rod is rotatably arranged on the second positioning shaft and is in sliding fit with the rotating wheel assembly; the push rod is arranged at one end of the connecting rod; the sliding rails are symmetrically arranged on the first mounting plate; and a feeding plate is arranged between the two sliding rails in a sliding manner, and the push rod is matched with the feeding plate.

Further, the method further comprises the following steps: the cushion blocks are symmetrically arranged on the first mounting plate; the mounting block is arranged between the two cushion blocks; the mounting block is provided with a feeding cylinder; the lower part of the mounting block is provided with a sliding block in a sliding manner; the stop block is arranged on one side of the sliding block, and the feeding plate is matched with the stop block.

Further, the method further comprises the following steps: the connecting block is symmetrically arranged on the other side of the sliding block; the connecting plates are symmetrically arranged on one side of the mounting block; and the second springs are arranged between the two connecting blocks and the two connecting plates.

Further, the method further comprises the following steps: the two sides of the connecting column are provided with pressure rods; the fixing seats are arranged at one ends of the two compression bars; the fixed shafts are arranged on the two fixed seats; the rotating blocks are rotatably arranged on the two fixed shafts; the fixed blocks are symmetrically arranged on the side wall of one side of the lower part of the chute plate; the fifth rotating shaft is rotatably arranged between the two fixed blocks; the torsion springs are wound at two ends of the fifth rotating shaft, and one ends of the two torsion springs are connected with one side of the two fixed blocks; the two ends of the fifth rotating shaft are provided with wedge blocks, and the other ends of the two torsion springs are connected with one sides of the two wedge blocks; the positioning blocks are symmetrically arranged on one side of the workbench; the second guide rods are arranged on the two positioning blocks; the sliding plates are arranged on the two second guide rods in a sliding manner; the third springs are arranged between one side of the two positioning blocks and one side of the two sliding plates; the special-shaped rods are arranged on one sides of the two sliding plates; the ejector pad, two dysmorphism pole one end all are provided with the ejector pad.

Further, the method further comprises the following steps: the second connecting rods are arranged on one side of the lower parts of the two sliding plates; the pressing blocks are arranged at one ends of the two second connecting rods; the push rod is provided with a flower shaft; the protruding block is arranged on the flower shaft in a sliding mode; a fourth spring is arranged between one side of the flower shaft and one side of the lug; the L-shaped blocks are symmetrically arranged at the bottom of the lug, and the two pressing blocks are matched with the two L-shaped blocks.

The beneficial effects are that: 1. the feeding mechanism is driven to move rightwards to the lower part of the trimming cutter through the rotation of the driving mechanism, the trimming mechanism is driven to rotate through the rotation of the driving mechanism, and the trimming cutter is driven to move downwards to trim the gasket through the rotation of the trimming mechanism.

2. The sliding block slides leftwards and does not block the feeding cylinder any more, so that automatic feeding can be performed on the feeding plate, and the working efficiency is improved.

3. The second spring reset realizes that the sliding block automatically slides and resets to block the bottom of the feeding cylinder.

4. The push block moves forward to push out the washer with the cut edge, so that the washer is prevented from being cut by the edge cutting tool in the manual taking-out process of a worker.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a driving mechanism according to the present invention.

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

Fig. 4 is a schematic perspective view of a feeding mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a first part of the present invention.

Fig. 6 is a schematic perspective view of a second part of the present invention.

Fig. 7 is a schematic perspective view of a third portion of the present invention.

Fig. 8 is a schematic perspective view of a fourth part of the present invention.

In the figure: 1. a base plate, 2, a support base, 3, a work table, 4, a support column, 41, a first mounting plate, 5, a runner plate, 6, a connecting seat, 7, a tool clamping plate, 8, a tool, 9, a mechanism, 901, a support plate, 902, a second mounting plate, 903, a backing plate, 904, a servo motor, 905, a first gear, 906, a first bearing seat, 907, a first rotating shaft, 908, a second gear, 909, a second bearing seat, 910, a second rotating shaft, 911, a ratchet assembly, 10, a trimming mechanism, 1001, a first guide rod, 1002, a first spring, 1003, a support block, 1004, a third bearing seat, 1005, a third rotating shaft, 1006, a first pulley assembly, 1007, a crank, 1008, a first shaft, 1009, a sleeve, 1010, a first connecting rod, 1011, a connecting column, 11, a feeding mechanism, 1101, a rotating wheel assembly, 1102, a fourth rotating shaft, 1103, a bevel gear assembly, 1104, a second pulley assembly, 1105, a second positioning shaft, 1106, a connecting rod, 1107, a push rod, 1108, a slide rail, 1109, a feed plate, 12, a cushion block, 13, a mounting block, 14, a feed cylinder, 15, a slide block, 16, a stopper, 17, a connecting block, 18, a connecting plate, 19, a second spring, 20, a pressing rod, 21, a fixed seat, 22, a fixed shaft, 23, a rotating block, 24, a fixed block, 25, a fifth rotating shaft, 26, a torsion spring, 27, a wedge block, 28, a sliding plate, 29, a positioning block, 30, a second guide rod, 31, a third spring, 32, a profile rod, 33, a push block, 34, a second connecting rod, 35, a pressing block, 36, a spline shaft, 37, a fourth spring, 38, a bump, 39, an L-shaped block.

Detailed Description

The invention will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the invention thereto.

Example 1

As shown in fig. 1, the gasket auxiliary trimming device for manufacturing high-end equipment comprises a bottom plate 1, supporting seats 2, a workbench 3, supporting columns 4, a first mounting plate 41, a chute plate 5, a connecting seat 6, a cutter clamping plate 7, trimming cutters 8, a driving mechanism 9, trimming mechanisms 10 and a feeding mechanism 11, wherein three supporting seats 2 are uniformly arranged on the bottom plate 1 at intervals, the workbench 3 is arranged on the three supporting seats 2, the supporting columns 4 are symmetrically arranged on the left side and the right side of the workbench 3, the first mounting plates 41 are arranged on the four supporting columns 4, the chute plate 5 is arranged on the rear right side of the first mounting plate 41, the connecting seat 6 is arranged on the chute plate 5 in a sliding mode, the cutter clamping plate 7 is arranged on the bottom of the cutter clamping plate 7, the driving mechanism 9 is arranged on the rear side of the workbench 3, the trimming mechanisms 10 are arranged on the driving mechanism 9, the feeding mechanism 11 is arranged on the workbench 3, and the driving mechanism 9 is matched with the feeding mechanism 11.

When the gasket needs to be trimmed, a worker places the gasket needing to be trimmed on the feeding mechanism 11, then drives the feeding mechanism 11 to move rightwards to the lower part of the trimming cutter 8 through the rotation of the driving mechanism 9, drives the trimming mechanism 10 to rotate through the rotation of the driving mechanism 9, and drives the connecting seat 6 to slide downwards in the sliding groove plate 5, and the connecting seat 6 slides downwards to drive the trimming cutter 8 to move downwards through the cutter clamping plate 7 so as to trim the gasket. The device has simple structure and is convenient to operate.

Example 2

As shown in fig. 2, fig. 3 and fig. 4, on the basis of embodiment 1, the driving mechanism 9 includes a supporting plate 901, a second mounting plate 902, a base plate 903, a servo motor 904, a first gear 905, a first bearing seat 906, a first rotating shaft 907, a second gear 908, a second bearing seat 909, a second rotating shaft 910 and a ratchet wheel assembly 911, the rear side of the workbench 3 is provided with the supporting plate 901, the supporting plate 901 is provided with the second mounting plate 902, the second mounting plate 902 is provided with the base plate 903, the base plate 903 is provided with the servo motor 904, the output shaft of the servo motor 904 is provided with the first gear 905, the second mounting plate 902 is symmetrically provided with the first bearing seat 906, the two first bearing seats 906 are respectively provided with the first rotating shaft 907, the two first rotating shafts 908 are respectively meshed with the two second rotating shafts 908, the second mounting plate 902 is symmetrically provided with the second bearing seat 909, the two second bearing seats 909 are respectively provided with the second rotating shafts 902, the two ratchet wheels 910 are respectively meshed with the two rotating shafts 910, the two ratchet wheels are respectively meshed with the two rotating shafts 910, and two ratchet wheels are respectively arranged at two ends of the two ratchet wheels are respectively meshed with each other.

After the operator places the gasket to be cut on the feeding mechanism 11, the operator starts the servo motor 904, the servo motor 904 rotates to drive the first gear 905 to rotate and mesh with the second gear 908, the second gear 908 rotates to drive the first rotating shaft 907 to rotate, the first rotating shaft 907 rotates to drive the ratchet wheel component 911 to rotate, the ratchet wheel component 911 rotates to drive the second rotating shaft 910 to rotate, the second rotating shaft 910 on the right side rotates to drive the edge cutting mechanism 10 to rotate, the second rotating shaft 910 on the left side rotates to drive the feeding mechanism 11 to move rightwards to the lower part of the edge cutting mechanism 10, the edge cutting mechanism 10 rotates to drive the connecting seat 6 to slide downwards in the chute plate 5, the connecting seat 6 slides downwards to drive the edge cutting tool 8 to move downwards through the tool clamping plate 7 to cut the gasket, after the edge cutting of the gasket is finished, the operator controls the servo motor 904 to rotate reversely, the servo motor 904 rotates to drive the first gear 905 to rotate and mesh with the second gear 908, the second gear 908 rotates to drive the first rotating shaft 907 to rotate, the first rotating shaft 907 rotates to drive the ratchet component 911 to rotate, the ratchet component 911 rotates to drive the second rotating shaft 910 to rotate, the second rotating shaft 910 on the right side rotates to drive the edge cutting mechanism 10 to rotate, the edge cutting mechanism 10 rotates to drive the connecting seat 6 to slide upwards and reset in the chute plate 5, the connecting seat 6 slides upwards to drive the edge cutting tool 8 to move upwards and reset through the tool clamping plate 7, at the moment, a worker removes the gasket with the edge cut from the feeding mechanism 11 to collect, the second rotating shaft 910 on the left side rotates to drive the feeding mechanism 11 to move leftwards and reset, when the use is completed, the worker closes the servo motor 904, the servo motor 904 stops rotating to drive the first gear 905 to stop rotating to be meshed with the second gear 908, the second gear 908 stops rotating to drive the first rotating shaft 907 to stop rotating, the first rotating shaft 907 stops rotating to drive the ratchet wheel assembly 911 to stop rotating, the ratchet wheel assembly 911 stops rotating to drive the second rotating shaft 910 to stop rotating, the second rotating shaft 910 on the right stops rotating to drive the trimming mechanism 10 to stop rotating, the trimming mechanism 10 stops rotating to drive the connecting seat 6 to stop sliding in the chute plate 5, and the second rotating shaft 910 on the left stops rotating to drive the feeding mechanism 11 to stop moving. The device has a simple structure, and can enable the edge cutting mechanism 10 to rotate so as to realize that the edge cutting tool 8 moves downwards to cut edges of the gasket.

The trimming mechanism 10 comprises a first guide rod 1001, a first spring 1002, a supporting block 1003, a third bearing seat 1004, a third rotating shaft 1005, a first belt pulley assembly 1006, a crank 1007, a first positioning shaft 1008, a sleeve shaft 1009, a first connecting rod 1010 and a connecting column 1011, wherein the first guide rod 1001 is symmetrically arranged in the chute plate 5, and the connecting seat 6 is slidably connected with the two first guide rods 1001; the first spring 1002, all be provided with first spring 1002 between the left and right sides of connecting seat 6 bottom and the draw runner 5 bottom, be provided with supporting shoe 1003 on the second mounting panel 902, supporting shoe 1003 top symmetry is provided with third bearing frame 1004, it is provided with third pivot 1005 to rotate between two third bearing frames 1004, be provided with first belt pulley assembly 1006 between second pivot 910 front end on right side and the third pivot 1005 rear end, first belt pulley assembly 1006 comprises two belt pulleys and a flat belt, the second pivot 910 front end on right side is provided with a belt pulley, and third pivot 1005 rear end is provided with another belt pulley, is provided with the flat belt between two belt pulleys, third pivot 1005 front end is provided with crank 1007, crank upper portion 1007 is provided with first locating shaft 1008, the last rotation of first locating shaft 1008 is provided with the sleeve shaft 1009, the lower part of sleeve shaft is provided with first connecting rod 1010, the head rod bottom 1010 is provided with the spliced pole 1011, and spliced pole 1011 is connected with 6 rear side 1009.

The second rotating shaft 910 on the right side rotates to drive the third rotating shaft 1005 to rotate through the first pulley assembly 1006, the third rotating shaft 1005 rotates to drive the crank 1007 to rotate, the crank 1007 rotates downwards to drive the first positioning shaft 1008 to rotate downwards, the first positioning shaft 1008 moves downwards to drive the first connecting rod 1010 to rotate downwards through the sleeve shaft 1009, the first connecting rod 1010 rotates downwards to drive the connecting seat 6 to slide downwards in the sliding groove plate 5 through the connecting post 1011, the connecting seat 6 slides downwards to drive the trimming cutter 8 to move downwards to trim a gasket, after the trimming of the gasket is completed, the staff controls the servo motor 904 to rotate reversely, the second rotating shaft 910 on the right side rotates to drive the third rotating shaft 1005 to rotate through the first pulley assembly 1006, the third rotating shaft rotates to drive the crank 1007 to rotate, the crank 1005 rotates upwards to drive the first positioning shaft 1008 to rotate upwards, the first connecting rod 1010 moves upwards through the sleeve shaft 1009, the first connecting rod 1010 rotates upwards to drive the connecting seat 6 to slide upwards in the sliding groove plate 5 through the connecting post 1011, the connecting seat 6 slides upwards to reset, the connecting seat 6 slides upwards through the cutter clamping plate 7 to drive the trimming cutter 8 to move downwards to the gasket to stop rotating through the first pulley assembly 1008, the second rotating shaft 1008 stops rotating through the first pulley assembly 1006, and the first rotating shaft 1008 stops rotating through the first pulley assembly 1008 stops rotating, the first rotating through the first pulley assembly 1008 stops rotating, and stops rotating. The device has simple structure and can cut edges of the gasket.

The feeding mechanism 11 comprises a rotating wheel assembly 1101, a fourth rotating shaft 1102, a bevel gear assembly 1103, a second belt pulley assembly 1104, a second positioning shaft 1105, a connecting rod 1106, a push rod 1107, a sliding rail 1108 and a feeding plate 1109, wherein the rotating wheel assembly 1101 is rotatably arranged on the workbench 3 through a supporting rod, the fourth rotating shaft 1102 is rotatably arranged on the front left side of the second mounting plate 902, the bevel gear assembly 1103 is arranged on the front end of the second rotating shaft 910 and the top end of the fourth rotating shaft 1102, the bevel gear assembly 1103 is composed of two bevel gears, the front end of the second rotating shaft 910 on the left side is provided with one bevel gear, the top end of the fourth rotating shaft 1102 is provided with another bevel gear, the two bevel gears are meshed with each other, a second belt pulley assembly 1104 is arranged between the bottom end of the fourth rotating shaft 1102 and the supporting rod of the rotating wheel assembly 1101, the second belt pulley 1106 is formed by two belt pulleys, a flat belt is arranged between the two belt pulleys, the rear side of the workbench 3 is provided with a second positioning shaft 1105, the second positioning shaft 1106 is arranged on the top end of the rotating shaft 1102 is in sliding fit with the connecting rod 1107, and the sliding rail 1109 is arranged between the two sliding rail 1109 and the feeding plate 1109.

When the second rotating shaft 910 on the left side rotates to drive the bevel gear component 1103 to be meshed, the bevel gear component 1103 rotates to drive the fourth rotating shaft 1102 to rotate, the fourth rotating shaft 1102 rotates to drive the runner component 1101 to rotate through the second belt pulley component 1104, the runner component 1101 rotates to drive the connecting rod 1106 to rotate rightwards on the second positioning shaft 1105, the connecting rod 1106 rotates to drive the push rod 1107 to move rightwards, the push rod 1107 moves rightwards to drive the feeding plate 1109 to slide rightwards on the sliding rail 1108 to the lower part of the trimming cutter 8, after the trimming of the gasket is completed, the operator takes down the trimmed gasket from the feeding plate 1109 to collect, when the operator controls the servo motor 904 to rotate to drive the bevel gear component 1103 to be meshed, the bevel gear component 1103 rotates to drive the fourth rotating shaft 1102 to rotate, the fourth rotating shaft 1104 rotates to drive the runner component 1101 to rotate through the second belt pulley component 1104, the runner component 1103 rotates to drive the connecting rod 1106 rotates leftwards on the second positioning shaft 1106 to drive the push rod 1107 to move leftwards, the push rod 1107 moves leftwards on the sliding rail 1108, after the trimming of the gasket is completed, the gasket is taken down from the feeding plate 1109 to collect, when the second rotating shaft 1106 stops rotating the second rotating shaft 1106 rotates to stop rotating the fourth rotating shaft 1106 rotates to drive the bevel gear component 1101 to stop rotating, and the rotating shaft 1107 stops rotating when the second rotating shaft is stopped to rotate, the rotating shaft 1107 stops rotating, and the rotating shaft is stopped to slide on the second rotating shaft, the second rotating shaft is stopped by the connecting rod component 1106, the rotating by the connecting rod component 1107, the connecting rod is driven to slide. The device has a simple structure and can convey the gasket.

Example 3

As shown in fig. 5, 6, 7 and 8, the feeding device further comprises a cushion block 12, a mounting block 13, a feeding barrel 14, a sliding block 15 and a stop block 16, wherein the cushion block 12 is symmetrically arranged on the first mounting plate 41, the mounting block 13 is arranged between the two cushion blocks 12, the feeding barrel 14 is arranged on the mounting block 13, the sliding block 15 is arranged at the lower part of the mounting block 13 in a sliding manner, the stop block 16 is arranged at the right side of the sliding block 15, and the feeding plate 1109 is matched with the stop block 16.

When the gasket needs to be trimmed, a worker places the gasket needing to be trimmed in the feeding barrel 14, the feeding plate 1109 slides leftwards on the sliding rail 1108 to extrude the stop block 16 to move leftwards, the stop block 16 moves leftwards to drive the sliding block 15 to slide leftwards on the mounting block 13 so as not to block the bottom of the feeding barrel 14, the gasket in the feeding barrel 14 falls onto the feeding plate 1109, when the push rod 1107 moves rightwards to drive the feeding plate 1109 to slide rightwards on the sliding rail 1108, the gasket is conveyed to the position below the trimming cutter 8 to be trimmed, then the worker pushes the sliding block 15 to slide rightwards on the mounting block 13 so as not to block the bottom of the feeding barrel 14, and the gasket in the feeding barrel 14 does not fall. The device has a simple structure, can automatically feed the feeding plate 1109, and improves the working efficiency.

The sliding block is characterized by further comprising connecting blocks 17, connecting plates 18 and second springs 19, wherein the connecting blocks 17 are symmetrically arranged on the left side of the sliding block 15, the connecting plates 18 are symmetrically arranged on the left side of the mounting block 13, and the second springs 19 are arranged between the two connecting blocks 17 and the two connecting plates 18.

The feeding plate 1109 slides leftwards on the sliding rail 1108 to press the stop block 16 to move leftwards, the stop block 16 moves leftwards to drive the sliding block 15 to slide leftwards on the mounting block 13, the sliding block 15 slides leftwards to drive the connecting plate 18 to move leftwards, the second spring 19 is stretched, when the push rod 1107 moves rightwards to drive the feeding plate 1109 to slide rightwards on the sliding rail 1108 to not press the stop block 16 any more, and the second spring 19 resets to drive the sliding block 15 to slide rightwards on the mounting block 13 to reset to block the bottom of the feeding cylinder 14. The device has simple structure, and realizes that the sliding block 15 automatically slides and resets to block the bottom of the feeding cylinder 14.

Still including depression bar 20, fixing base 21, fixed axle 22, turning block 23, fixed block 24, fifth pivot 25, torsion spring 26, wedge 27, sliding plate 28, locating piece 29, second guide bar 30, third spring 31, dysmorphism pole 32 and ejector pad 33, the spliced pole 1011 both sides all are provided with depression bar 20, two depression bar 20 bottom all are provided with fixing base 21, all be provided with fixed axle 22 on two fixing bases 21, all be provided with turning block 23 on two fixed axles 22, symmetry is provided with fixed block 24 on the lateral wall of sliding plate 5 lower part rear side, the rotation is provided with fifth pivot 25 between two fixed blocks 24, both ends all are winded around in fifth pivot 25 have torsion spring 26, and two torsion spring 26 one end are connected with two fixed block 24 one side, both ends all are provided with wedge 27 about fifth pivot 25, and two torsion spring 26 other ends are connected with two wedge 27 one side, workstation 3 rear side symmetry is provided with fixed axle 22, 29 on both sides are provided with two guide bar 32, both sides are provided with two front and are provided with two guide bar 32 between the special-shaped plate 28, two guide bar 32 are all provided with two side 32.

When the connecting column 1011 moves upwards to drive the rotating block 23 to contact the wedge-shaped block 27 through the pressure rod 20, the rotating block 23 rotates upwards on the fixed shaft 22, when the connecting column 1011 moves upwards to drive the rotating block 23 to contact the wedge-shaped block 27 again through the pressure rod 20, the rotating block 23 moves upwards to press the wedge-shaped block 27 to rotate upwards on the fifth rotating shaft 25, the torsion spring 26 deforms, the wedge-shaped block 27 rotates upwards to press the sliding plate 28 to slide forwards on the second guide rod 30, the third spring 31 is compressed, the sliding plate 28 slides forwards to drive the pushing block 33 to move forwards through the special-shaped rod 32, the pushing block 33 moves forwards to push the trimming gasket, then workers collect the trimming gasket, when the rotating block 23 moves upwards to be out of contact with the wedge-shaped block 27, the torsion spring 26 resets to drive the wedge-shaped block 27 to rotate downwards to reset on the fifth rotating shaft 25, the wedge-shaped block 27 does not press the sliding plate 28 any more, the third spring 31 resets to drive the sliding plate 28 to slide backwards on the second guide rod 30 to reset, and the sliding plate 28 slides backwards to drive the pushing block 33 to move backwards to reset. The device has a simple structure, can push out the washer with the edge cut, and prevents the worker from being cut by the edge cutting tool 8 in the manual taking-out process.

The novel multifunctional sliding plate comprises a first connecting rod 34, a pressing block 35, a spline shaft 36, a fourth spring 37, a protruding block 38 and an L-shaped block 39, wherein the front sides of the lower parts of the two sliding plates 28 are respectively provided with the first connecting rod 34, the front ends of the two second connecting rods 34 are respectively provided with the pressing block 35, the spline shaft 36 is arranged on a push rod 1107, the protruding block 38 is arranged on the spline shaft 36 in a sliding mode, the fourth spring 37 is arranged between one side of the spline shaft 36 and one side of the protruding block 38, the L-shaped blocks 39 are symmetrically arranged at the bottoms of the protruding blocks 38, and the two pressing blocks 35 are matched with the two L-shaped blocks 39.

The feeding plate 1109 slides leftwards on the sliding rail 1108 to drive the protruding block 38 to contact with the mounting block 13, the protruding block 38 slides downwards on the spline shaft 36, the fourth spring 37 is compressed, when the protruding block 38 moves leftwards to be separated from contact with the mounting block 13, the fourth spring 37 resets to drive the protruding block 38 to slide upwards on the spline shaft 36, the protruding block 38 slides upwards to jack up a gasket in the feeding cylinder 14, the gasket drops on the feeding plate 1109 more accurately, when the gasket is cut, the sliding plate 28 slides forwards to drive the pressing block 35 to press the L-shaped block 39 through the second connecting rod 34, the L-shaped block 39 moves downwards to drive the protruding block 38 to slide downwards on the spline shaft 36, the fourth spring 37 is compressed, the sliding plate 28 slides forwards to drive the pushing block 33 to move forwards through the special-shaped rod 32, the pushing block 33 moves forwards to push the cut gasket, then workers collect the gasket, the sliding plate 28 slides backwards to reset through the second connecting rod 34 to drive the pressing block 35 to not press the L-shaped block 39 any more, and the fourth spring 37 resets to drive the protruding block 38 to slide upwards on the spline shaft 36 to reset. The device is simple in structure, and the lug 38 slides upwards to jack up the gasket in the feeding barrel 14, so that the gasket drops onto the feeding plate 1109 more accurately.

The embodiments described above are intended to provide those skilled in the art with a full range of modifications and variations to the embodiments described above without departing from the inventive concept thereof, and therefore the scope of the invention is not limited by the embodiments described above, but is to be accorded the broadest scope consistent with the innovative features recited in the claims.

Claims

1. Gasket auxiliary trimming device for manufacturing high-end equipment, characterized by comprising:

the device comprises a bottom plate (1), wherein three supporting seats (2) are uniformly arranged on the bottom plate (1) at intervals;

the workbench (3) is arranged on the three supporting seats (2);

the support columns (4) are symmetrically arranged on two sides of the workbench (3);

the first mounting plates (41) are arranged on the four support columns (4);

a chute plate (5), wherein one side of the first mounting plate (41) is provided with the chute plate (5);

the connecting seat (6) is arranged on the sliding groove plate (5) in a sliding manner, and the connecting seat (6) is arranged on the sliding groove plate;

the cutter clamping plate (7) is arranged on the connecting seat (6);

the trimming cutter (8) is arranged at the bottom of the cutter clamping plate (7);

a driving mechanism (9), wherein one side of the workbench (3) is provided with the driving mechanism (9);

the trimming mechanism (10) is arranged on the driving mechanism (9), and the trimming mechanism (10) is arranged on the driving mechanism;

the feeding mechanism (11) is arranged on the workbench (3), the feeding mechanism (11) is arranged on the workbench, and the driving mechanism (9) is matched with the feeding mechanism (11);

the drive mechanism (9) comprises:

a support plate (901), wherein one side of the workbench (3) is provided with the support plate (901);

a second mounting plate (902), wherein the second mounting plate (902) is arranged on the supporting plate (901);

a backing plate (903), wherein the backing plate (903) is arranged on the second mounting plate (902);

a servo motor (904), wherein the base plate (903) is provided with the servo motor (904);

a first gear (905), wherein the output shaft of the servo motor (904) is provided with the first gear (905);

the first bearing seat (906) is symmetrically arranged on the second mounting plate (902);

the first rotating shafts (907) are rotatably arranged on the two first bearing seats (906);

the second gears (908) are arranged on the two first rotating shafts (907), the second gears (908) are arranged on the two first rotating shafts, and the first gears (905) are meshed with the two second gears (908);

the second mounting plate (902) is symmetrically provided with a second bearing seat (909);

a second rotating shaft (910), wherein the second rotating shafts (910) are rotatably arranged on the two second bearing shafts (909);

the ratchet wheel assembly (911) is arranged on the two second rotating shafts (910), the ratchet wheel assembly (911) is composed of two ratchet wheels, one ratchet wheel is arranged at one end of each of the two first rotating shafts (907), the other ratchet wheel is arranged at one end of each of the two second rotating shafts (910), and the two similar ratchet wheels are matched with each other;

the trimming mechanism (10) comprises:

the first guide rods (1001) are symmetrically arranged in the chute plates (5), and the connecting seat (6) is connected with the two first guide rods (1001) in a sliding mode;

the first springs (1002) are arranged between the two sides of the bottom of the connecting seat (6) and the two sides of the bottom of the chute plate (5);

a support block (1003), wherein the second mounting plate (902) is provided with the support block (1003);

the top of the supporting block (1003) is symmetrically provided with a third bearing seat (1004);

a third rotating shaft (1005), wherein a third rotating shaft (1005) is rotatably arranged between the two third bearing seats (1004);

the belt pulley device comprises a first belt pulley assembly (1006), wherein the first belt pulley assembly (1006) is arranged between one end of a second rotating shaft (910) and one end of a third rotating shaft (1005), the first belt pulley assembly (1006) consists of two belt pulleys and a flat belt, one end of the second rotating shaft (910) on one side is provided with one belt pulley, one end of the third rotating shaft (1005) is provided with the other belt pulley, and the flat belt is arranged between the two belt pulleys;

a crank (1007), wherein the crank (1007) is arranged at the other end of the third rotating shaft (1005);

a first positioning shaft (1008), wherein the upper part of the crank (1007) is provided with the first positioning shaft (1008);

the sleeve shaft (1009) is rotatably arranged on the first positioning shaft (1008);

a first connecting rod (1010), wherein the lower part of the sleeve shaft (1009) is provided with the first connecting rod (1010);

the connecting column (1011) is arranged at the bottom end of the first connecting rod (1010), and the connecting column (1011) is connected with one side of the connecting seat (6);

the feeding mechanism (11) comprises:

the rotating wheel assembly (1101) is rotatably arranged on the workbench (3) through a supporting rod;

a fourth rotating shaft (1102), wherein one side of the second mounting plate (902) is rotatably provided with the fourth rotating shaft (1102);

the bevel gear assembly (1103) is arranged on the top ends of the second rotating shaft (910) and the fourth rotating shaft (1102) at the other side, the bevel gear assembly (1103) is composed of two bevel gears, one bevel gear is arranged at one end of the second rotating shaft (910) at the other side, the other bevel gear is arranged at the top end of the fourth rotating shaft (1102), and the two bevel gears are meshed with each other;

the second belt pulley assembly (1104) is arranged between the bottom end of the fourth rotating shaft (1102) and the supporting rod of the rotating wheel assembly (1101), the second belt pulley assembly (1104) consists of two belt pulleys and a flat belt, one belt pulley is arranged at the bottom end of the fourth rotating shaft (1102), the other belt pulley is arranged on the supporting rod of the rotating wheel assembly (1101), and the flat belt is arranged between the two belt pulleys;

a second positioning shaft (1105), wherein one side of the workbench (3) is provided with the second positioning shaft (1105);

the connecting rod (1106) is rotatably arranged on the second positioning shaft (1105), and the connecting rod (1106) is in sliding fit with the rotating wheel assembly (1101);

a push rod (1107), wherein one end of the connecting rod (1106) is provided with the push rod (1107);

the sliding rails (1108) are symmetrically arranged on the first mounting plate (41);

and a feeding plate (1109), wherein the feeding plate (1109) is arranged between the two sliding rails (1108) in a sliding mode, and the push rod (1107) is matched with the feeding plate (1109).

2. A gasket-assisted trimming device for manufacturing high-end equipment as claimed in claim 1, further comprising:

the cushion blocks (12) are symmetrically arranged on the first mounting plate (41);

the mounting block (13) is arranged between the two cushion blocks (12), and the mounting block (13) is arranged between the two cushion blocks;

a feeding cylinder (14), wherein the mounting block (13) is provided with the feeding cylinder (14);

the sliding block (15) is arranged at the lower part of the mounting block (13) in a sliding manner, and the sliding block (15) is arranged at the lower part of the mounting block;

the stop block (16), one side of the sliding block (15) is provided with the stop block (16), and the feeding plate (1109) is matched with the stop block (16).

3. A gasket-assisted trimming device for manufacturing high-end equipment according to claim 2, further comprising:

the connecting block (17) is symmetrically arranged on the other side of the sliding block (15);

the connecting plate (18) is symmetrically arranged on one side of the mounting block (13);

and a second spring (19) is arranged between the two connecting blocks (17) and the two connecting plates (18).

4. A gasket-assisted trimming device for manufacturing high-end equipment as claimed in claim 3, further comprising:

the compression bar (20) is arranged on two sides of the connecting column (1011);

the fixing seat (21), one end of each of the two compression bars (20) is provided with the fixing seat (21);

the fixed shafts (22) are arranged on the two fixed seats (21);

the rotating blocks (23) are rotatably arranged on the two fixed shafts (22);

the fixed blocks (24) are symmetrically arranged on the side wall of one side of the lower part of the chute plate (5);

a fifth rotating shaft (25), wherein the fifth rotating shaft (25) is rotatably arranged between the two fixed blocks (24);

the torsion springs (26) are wound at two ends of the fifth rotating shaft (25), the torsion springs (26) are connected with one ends of the two torsion springs (26) and one sides of the two fixed blocks (24);

the two ends of the fifth rotating shaft (25) are provided with wedge blocks (27), and the other ends of the two torsion springs (26) are connected with one sides of the two wedge blocks (27);

the positioning block (29) is symmetrically arranged on one side of the workbench (3);

the second guide rods (30) are arranged on the two positioning blocks (29);

the sliding plates (28) are arranged on the two second guide rods (30) in a sliding mode, and the sliding plates (28) are arranged on the two second guide rods in a sliding mode;

a third spring (31), wherein the third spring (31) is arranged between one side of the two positioning blocks (29) and one side of the two sliding plates (28);

the special-shaped rods (32) are arranged on one sides of the two sliding plates (28);

the pushing blocks (33) are arranged at one ends of the two special-shaped rods (32), and the pushing blocks (33) are arranged at one ends of the two special-shaped rods.

5. The gasket trimming assisting device for manufacturing high-end equipment according to claim 4, further comprising:

the second connecting rods (34) are arranged on one side of the lower parts of the two sliding plates (28);

the pressing blocks (35) are arranged at one ends of the two second connecting rods (34);

the flower shaft (36), the push rod (1107) is provided with the flower shaft (36);

a protruding block (38), wherein the flower shaft (36) is provided with the protruding block (38) in a sliding manner;

a fourth spring (37), wherein the fourth spring (37) is arranged between one side of the flower shaft (36) and one side of the lug (38);

the L-shaped blocks (39), the L-shaped blocks (39) are symmetrically arranged at the bottoms of the protruding blocks (38), and the two pressing blocks (35) are matched with the two L-shaped blocks (39).