CN209036650U - A kind of gasket grooving mechanism - Google Patents

Abstract

The utility model discloses a kind of gasket grooving mechanism, including lower supporting plate, upper backup pad, the two groups of grooving components and splicing component being symmetricly set on upper backup pad；The upper backup pad is horizontally set on above lower supporting plate by column；The grooving mechanism each group part is controlled by external PLC control system, cooperation cooperation.The utility model high degree of automation, the worker operation time is few, reduces the labor intensity of worker, provides working efficiency, and rejection rate is low, improves the performance of enterprises.

Description

A kind of gasket grooving mechanism

Technical field

The utility model relates to automation equipment field, specifically a kind of gasket grooving mechanism.

Background technique

Teflon gasket is sintered after being suppressed with mold by teflon resin powder, has excellent corrosion resistant Corrosion energy, good self-lubrication and adhesion, therefore almost resistance to all chemical mediators, and there is wear-resisting, pressure-resistant, coefficient of friction Low characteristic.It is widely used in the equipment of the strong environment of the corrosivity such as petroleum, chemical industry, metallurgy, machinery, food, electric power.

But after the completion of powder pressing forming uses mold compacting sintering again, it is also necessary to cut off flat shim by respective angles It opens, the production stage of ability finished goods.If the elastic washer that mold is made into final molding is (angled disconnected before powder compacting Mouthful), during the sintering process, because of reasons such as the internal stress of gasket, product will not be the circle of standard, so can only be sintering after again Angle cutting is carried out to gasket.

Now after compression molding, the cutting work of gasket must be accomplished manually.First gasket is inserted in artificial jig, then is used Angle skewed slot of the cutter on jig, gasket is cut off.A little methods are cumbersome and inefficiency, and worker is in long-time operation Under, production efficiency can be made to further decrease, leakage is also easily caused to cut problem, the conjunction of extreme influence gasket production link under fatigue Lattice rate.

Utility model content

The purpose of this utility model is to provide a kind of gasket grooving mechanism, gasket is pushed into cutting station, then automatically Cutting realizes automated production, reduces artificial quantity, improve efficiency, qualification rate, to solve mentioned above in the background art ask Topic.To solve the problems mentioned in the above background technology.

In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model is:

A kind of gasket grooving mechanism, packet include lower supporting plate, upper backup pad, be symmetricly set on upper backup pad two groups cut Bowl assembly and splicing component；

The upper backup pad is horizontally set on above lower supporting plate by column；

The grooving component includes splicing guide groove, X to deflector chute, X to pusher cylinder, Y-direction deflector chute, Y to pusher gas Cylinder, press cylinder, de- material cylinder, grooving cylinder, the splicing guide groove connect with described Y-direction deflector chute one end, the Y-direction The deflector chute other end connects with the X to deflector chute one end, and the X is to pusher cylinder, Y-direction pusher cylinder respectively along X to guide The guiding of slot, the setting of the guiding of Y-direction deflector chute, the Y-direction pusher cylinder are arranged on lower supporting plate by Y-direction cylinder block, Y-direction Pusher cylinder piston-rod end is connected with the Y-direction scraping wings that pusher is slided in Y-direction deflector chute by connecting rod, and the X is to pusher Cylinder is arranged on lower supporting plate, and X is connected with to pusher cylinder piston-rod end slides the X of pusher in X to pushing away into deflector chute Flitch, the press cylinder is arranged on lower supporting plate by Building L, and it is located at the other end of the X to deflector chute, the binder gas Cylinder piston rod end is downward and is connected with pushing positioning seat, and the pushing positioning seat lower end surface is equipped with jacking bar vertically, is located at institute It states and offers blanking port on the upper backup pad of the underface of jacking bar, the de- material cylinder, grooving cylinder axial parallel and set It sets on upper backup pad, the de- material cylinder and grooving cylinder piston rod end are connected separately with bearing seat, cutter seat, the gear Material seat, cutter seat are slidably connected the Y-direction sliding rail being arranged on upper backup pad, and the bearing seat is equipped with skewed slot and is suspended in Blanking jig right above blanking port, and the bottom end of blanking jig offers the material receiving port of indent, the blanking jig is in de- material Under the drive of cylinder, the material receiving port of bottom is connected with X to the discharge end of deflector chute, is additionally provided on the blanking jig and passes through vertically The through hole wearing skewed slot and cooperating with the jacking bar, the jacking bar is equipped with to be tilted with the angle of bevel on blanking jig Consistent angular cutouts, the X are also extended under the positioning for protruding into the material receiving port of blanking jig bottom to the discharge end of deflector chute Flitch is provided tiltedly with the grooving cutter with the skewed slot cooperation on blanking jig on the cutter seat；

The splicing component includes receiving cylinder, receiving hopper, the first pulp-collecting box, the second pulp-collecting box, and the receiving cylinder is set It sets on the upper backup pad bottom surface, axial, the receiving cylinder piston axially parallel to pusher cylinder with the X The bar connection receiving hopper, below the receiving hopper blanking port suitable for reading positioned on upper backup pad, first pulp-collecting box, the Two pulp-collecting box are arranged on lower supporting plate, and are respectively positioned on the lower section of mouth under the receiving hopper, wherein mouth is initial under receiving hopper Position is located at right above first pulp-collecting box, and the number that the grooving cylinder completes grooving movement is equal to the pad of the first pulp-collecting box When the limiting value of piece bearing capacity, under the control of receiving cylinder, lower mouth switches to rapidly right above the second pulp-collecting box receiving hopper, The receiving cylinder, X are equipped with magnetic on pusher cylinder, Y-direction pusher cylinder, press cylinder, de- material cylinder and grooving cylinder Property switch.

Further, in place whether the magnetic switch be used to detect cylinder piston rod under stretching or contraction state.

Further, the splicing guide groove is equipped with cover board, and the cover board and the formation of splicing guide groove can fill in gasket dispensing Mouthful.

Further, two groups of grooving components share a Y-direction sliding rail.

Further, the tilt angle of the grooving cutter is consistent with the skewed slot tilt angle on the blanking jig.

Further, the splicing guide groove, the groove width of X to deflector chute, Y-direction deflector chute is adjustable.

Further, the striker plate being fixed on upper backup pad, institute are equipped with close to the side of grooving cutter positioned at blanking jig It states striker plate and is equipped with the opening skewed slot cooperated with the skewed slot on blanking jig.

Further, each component of the grooving mechanism is controlled by external PLC control system, cooperation cooperation.

The beneficial effects of the utility model are:

The utility model structure provides a kind of gasket grooving mechanism, and high degree of automation, the worker operation time is few, work effect Rate is high, and rejection rate is low.Each component of the grooving mechanism is controlled by external PLC control system, cooperation cooperation.Firstly, will pad Piece is persistently put into splicing guide groove, by the gasket push-in Y-direction deflector chute of front, then drives Y-direction pusher by Y-direction pusher cylinder Plate moves in Y-direction deflector chute, by gasket push-in X into deflector chute, and simultaneously, blanking jig under the drive of de- material cylinder, The material receiving port of its bottom is connected with X to the discharge end of deflector chute, then from X to pusher cylinder drive X to scraping wings in X to guide It is moved in slot, by the material receiving port of gasket push-in blanking jig bottom, then press cylinder pushes pushing positioning seat to move down, and it is fixed to push Jacking bar on the seat of position is inserted into therewith in the through hole on blanking jig, and entangles the pad in the material receiving port of blanking jig bottom Piece, then grooving cylinder drives cutter seat mobile to blanking jig, and grooving cutter is inserted into therewith in the skewed slot in blanking jig, and is made Grooving is formed on gasket, then grooving cylinder, press cylinder are successively retracted, and grooving cutter, jacking bar are successively retracted therewith, finally, De- material cylinder drives blanking jig to retire to the side far from grooving cutter to original position, and during this, the gasket for forming grooving exists Under the action of positioning blanking plate, from the blanking port for falling into upper backup pad in the material receiving port of blanking jig bottom, then from upper branch The blanking port of fagging is fallen into receiving hopper, and then mouth is fallen into the first pulp-collecting box under receiving hopper, completes grooving to grooving cylinder The number of movement be equal to the first pulp-collecting box gasket bearing capacity limiting value when, receiving hopper under the control of receiving cylinder, under Mouth switches to rapidly right above the second pulp-collecting box.In this whole process, any one magnetic switch detects engaged therewith Cylinder piston rod is not extended out or is shunk in place, and external PLC system alarm, each mechanism stops working, and manually checks failure, therefore After barrier releases, then artificial release is alarmed, and each mechanism starts to rework.

Detailed description of the invention

Utility model will be further described in detail below with reference to the attached drawings and specific embodiments.

Fig. 1 is schematic diagram of the three-dimensional structure.

Fig. 2 is another perspective view structure chart of the present invention.

Fig. 3 is translation trajectory diagram of the gasket on upper backup pad.

Fig. 4 is the cooperation Local map of blanking jig and grooving cutter.

Fig. 5 is the fit structure schematic diagram of blanking jig Yu jacking bar.

Fig. 6 is the front view of structure of the invention.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical Novel protected range.

As shown in figs. 1 to 6, the utility model provides a kind of gasket grooving mechanism, including lower supporting plate 1, upper backup pad 2, Two groups of grooving components and the splicing component being symmetricly set on upper backup pad 2, the upper backup pad 2 are set by 3 level of column It sets above lower supporting plate 1, the grooving component includes splicing guide groove 4, X to deflector chute 5, X to pusher cylinder 6, Y-direction guide Slot 7, Y-direction pusher cylinder 8, press cylinder 9, de- material cylinder 10, grooving cylinder 11, the splicing guide groove 4 are led with the Y-direction 7 one end of hopper connects, and 7 other end of Y-direction deflector chute connects with the X to 5 one end of deflector chute, and the X is to pusher cylinder 6, Y-direction pusher cylinder 8 is arranged along guiding 5 from X to deflector chute, the guiding of Y-direction deflector chute 7 respectively, and the Y-direction pusher cylinder 8 is logical It crosses Y-direction cylinder block 12 to be arranged on lower supporting plate 1,8 piston-rod end of Y-direction pusher cylinder is connected with by connecting rod 13 and is led in Y-direction The Y-direction scraping wings 14 of sliding pusher, the X are arranged on lower supporting plate 1 to pusher cylinder 6 in hopper 7, and X is living to pusher cylinder 6 Stopper rod end is connected with the X for sliding pusher into deflector chute 5 in X to scraping wings 15, and the press cylinder 9 is arranged by Building L 16 On lower supporting plate 1, and it is located at the other end of the X to deflector chute 5, and 9 piston-rod end of press cylinder is downward and is connected with Positioning seat 17 is pushed, 17 lower end surface of pushing positioning seat is equipped with jacking bar 18 vertically, positioned at the underface of the jacking bar 18 Upper backup pad 2 on offer blanking port 19, the de- material cylinder 10, grooving cylinder 11 axial parallel and be arranged in upper support On plate 2, the de- material cylinder 10 is connected separately with bearing seat 20, cutter seat 21, the gear with 11 piston-rod end of grooving cylinder Material seat 20, cutter seat 21 are slidably connected the Y-direction sliding rail 22 being arranged on upper backup pad 2, and the bearing seat 20 is equipped with and has Skewed slot and the blanking jig 23 being suspended in right above blanking port 19, and the bottom end of blanking jig 23 offers the material receiving port 24 of indent, Under the drive of de- material cylinder 10, the material receiving port 24 of bottom is connected with X to the discharge end of deflector chute 5 blanking jig 23, The vertical through hole 25 through skewed slot and with the cooperation of jacking bar 18, the jacking bar are additionally provided on the blanking jig 23 18 equipped with consistent angular cutouts are tilted with the angle of bevel on blanking jig 23, and the X also prolongs to the discharge end of deflector chute 5 The positioning blanking plate 26 for having the material receiving port 24 for protruding into 23 bottom of blanking jig is stretched, is provided tiltedly on the cutter seat 21 and is controlled with blank The grooving cutter 27 of skewed slot cooperation on tool 23；

The splicing component includes receiving cylinder 28, receiving hopper 29, the first pulp-collecting box 30, the second pulp-collecting box 31, described to connect Material cylinder 28 is arranged on 2 bottom surface of upper backup pad, it is axial with the X to 6 parallel, the institute of axial direction of pusher cylinder State 28 piston rod of the receiving cylinder connection receiving hopper 29, the receiving hopper 29 blanking port suitable for reading on upper backup pad 2 19 lower sections, first pulp-collecting box 30, the second pulp-collecting box 31 are arranged on lower supporting plate 1, and are respectively positioned on the receiving hopper 29 The lower section of lower mouth, wherein the initial position of the lower mouth of receiving hopper 29 is located at right above first pulp-collecting box 30, the grooving cylinder When the limiting value for the gasket bearing capacity that 11 numbers for completing grooving movement are equal to the first pulp-collecting box 30, receiving hopper 29 is in splicing gas Under the control of cylinder 28, lower mouth is switched to rapidly right above the second pulp-collecting box 31, and the receiving cylinder 28, X are to pusher cylinder 6, Y Magnetic switch is equipped on pusher cylinder 8, press cylinder 9, de- material cylinder 10 and grooving cylinder 11, the magnetic switch is used In detection cylinder piston rod under stretching or contraction state whether in place.

The splicing guide groove 4 is equipped with cover board 32, and the cover board 32 can fill in gasket dispensing port with the formation of splicing guide groove 4.

Two groups of grooving components share a Y-direction sliding rail 22.

The tilt angle of the grooving cutter 27 is consistent with the skewed slot tilt angle on the blanking jig 23.

The splicing guide groove 4, the groove width of X to deflector chute 5, Y-direction deflector chute 7 is adjustable, the gasket of applicable other sizes.

The striker plate 33 being fixed on upper backup pad 2 is equipped with close to the side of grooving cutter 27 positioned at blanking jig 23, it is described Striker plate 33 is equipped with the opening skewed slot with the skewed slot cooperation on blanking jig 23, it is therefore an objective to which it is oblique to pass through opening convenient for grooving cutter 27 Slot protrudes into the skewed slot on blanking jig 23, meanwhile, striker plate 33 is when blanking jig 23 is mobile to grooving cutter 27, with its side Fitting, prevents the gasket in 23 bottom end material receiving port 24 of blanking jig from falling.

The course of work: each component of grooving mechanism is controlled by external PLC control system, cooperation cooperation.Firstly, by gasket It is persistently put into splicing guide groove 4, by the gasket push-in Y-direction deflector chute 7 of front, then drives Y-direction to push away by Y-direction pusher cylinder 8 Flitch 14 moves in Y-direction deflector chute 7, and by gasket push-in X into deflector chute 5, and simultaneously, blanking jig 23 is in de- material cylinder 10 Drive under, the material receiving port 24 of bottom is connected with X to the discharge end of deflector chute 5, then from X to pusher cylinder 6 drive X to Scraping wings 15 is moved in X into deflector chute 5, gasket is pushed into the material receiving port 24 of 23 bottom of blanking jig, then press cylinder 9 Pushing positioning seat 17 is pushed to move down, the jacking bar 18 pushed on positioning seat 17 is inserted into the through hole 25 on blanking jig 23 therewith It is interior, and the gasket in the material receiving port 24 of 23 bottom of blanking jig is entangled, then grooving cylinder 11 drives cutter seat 21 to control to blank Tool 23 is mobile, and grooving cutter 27 is inserted into the skewed slot in blanking jig 23 therewith, and makes to form grooving on gasket, then grooving cylinder 11, press cylinder 9 is successively retracted, and grooving cutter 27, jacking bar 18 are successively retracted therewith, finally, de- material cylinder 10 drives blank to control Tool 23 is retired to the side far from grooving cutter 27 to original position, during this, forms the gasket of grooving in positioning blanking plate 26 Under effect, from the blanking port 19 for falling into upper backup pad 2 in the material receiving port 24 of 23 bottom of blanking jig, then from upper backup pad 2 Blanking port 19 fall into receiving hopper 29, then fallen into the first pulp-collecting box 30 from the lower mouth of receiving hopper 29, it is complete to grooving cylinder 11 At grooving movement number be equal to the first pulp-collecting box 30 gasket bearing capacity limiting value when, receiving hopper 29 is in receiving cylinder 28 Under control, lower mouth is switched to rapidly right above the second pulp-collecting box 31.In this whole process, the detection of any one magnetic switch It does not extend out or is shunk in place to cylinder piston rod engaged therewith, external PLC system alarm, each mechanism stops working, people Work checks failure, and after trouble shooting, then artificial release is alarmed, and each mechanism starts to rework.

Above-described the utility model embodiment does not constitute the restriction to scope of protection of the utility model, any Modifications, equivalent substitutions and improvements made within spirit of the present utility model and principle etc., should be included in the utility model Claims within.

Claims (8)

1. a kind of gasket grooving mechanism, which is characterized in that including lower supporting plate, upper backup pad, be symmetricly set on upper backup pad Two groups of grooving components and splicing component；

The upper backup pad is horizontally set on above lower supporting plate by column；

The grooving component includes splicing guide groove, X to deflector chute, X to pusher cylinder, Y-direction deflector chute, Y-direction pusher cylinder, binder Cylinder, de- material cylinder, grooving cylinder, the splicing guide groove connect with described Y-direction deflector chute one end, the Y-direction deflector chute The other end connects with the X to deflector chute one end, and the X is to pusher cylinder, Y-direction pusher cylinder the leading to deflector chute along X respectively Guiding setting to, Y-direction deflector chute, the Y-direction pusher cylinder are arranged on lower supporting plate by Y-direction cylinder block, Y-direction pusher gas Cylinder piston rod end is connected with the Y-direction scraping wings that pusher is slided in Y-direction deflector chute by connecting rod, and the X is set to pusher cylinder It sets on lower supporting plate, X is connected with to pusher cylinder piston-rod end slides the X of pusher in X to scraping wings, institute into deflector chute It states press cylinder to be arranged on lower supporting plate by Building L, and it is located at the other end of the X to deflector chute, the press cylinder piston Bar end is downward and is connected with pushing positioning seat, and the pushing positioning seat lower end surface is equipped with jacking bar vertically, is located at the jacking Blanking port is offered on the upper backup pad of the underface of bar, the axial parallel and setting of the de- material cylinder, grooving cylinder is upper In support plate, the de- material cylinder and grooving cylinder piston rod end are connected separately with bearing seat, cutter seat, the bearing seat, Cutter seat is slidably connected the Y-direction sliding rail being arranged on upper backup pad, and the bearing seat is equipped with skewed slot and is suspended in blanking Blanking jig right above mouthful, and the bottom end of blanking jig offers the material receiving port of indent, the blanking jig is in de- material cylinder Drive under, the material receiving port of bottom is connected with X to the discharge end of deflector chute, and it is vertical through oblique to be additionally provided on the blanking jig Slot and the through hole cooperated with the jacking bar, the jacking bar are equipped with consistent with the angle of bevel inclination on blanking jig Angular cutouts, the X is also extended with the positioning blanking plate for protruding into the material receiving port of blanking jig bottom to the discharge end of deflector chute, The grooving cutter with the skewed slot cooperation on blanking jig is provided tiltedly on the cutter seat；

The splicing component includes receiving cylinder, receiving hopper, the first pulp-collecting box, the second pulp-collecting box, and the receiving cylinder setting exists On the upper backup pad bottom surface, axial axially parallel to pusher cylinder with the X, the receiving cylinder piston rod connects The receiving hopper is connect, the receiving hopper blanking port lower section suitable for reading on upper backup pad, first pulp-collecting box, second connect Magazine is arranged on lower supporting plate, and is respectively positioned on the lower section of mouth under the receiving hopper, wherein the initial position of mouth under receiving hopper Right above first pulp-collecting box, the gasket that the number that the grooving cylinder completes grooving movement is equal to the first pulp-collecting box is held When the limiting value of carrying capacity, under the control of receiving cylinder, lower mouth switches to rapidly right above the second pulp-collecting box receiving hopper, described Receiving cylinder, X are all provided on pusher cylinder, Y-direction pusher cylinder, press cylinder, de- material cylinder and grooving cylinder and are magnetic out It closes.

2. gasket grooving according to claim 1 mechanism, which is characterized in that the magnetic switch is for detecting cylinder piston Bar under stretching or contraction state whether in place.

3. gasket grooving according to claim 1 mechanism, which is characterized in that the splicing guide groove is equipped with cover board, described Cover board and the formation of splicing guide groove can fill in gasket dispensing port.

4. gasket grooving according to claim 1 mechanism, which is characterized in that two groups of grooving components share a Y-direction Sliding rail.

5. gasket grooving according to claim 1 mechanism, which is characterized in that the tilt angle of the grooving cutter is cut with described Expect that the skewed slot tilt angle on jig is consistent.

6. gasket grooving according to claim 1 mechanism, which is characterized in that the splicing guide groove, X are led to deflector chute, Y-direction The groove width of hopper is adjustable.

7. gasket grooving according to claim 1 mechanism, which is characterized in that positioned at blanking jig close to the side of grooving cutter Equipped with the striker plate being fixed on upper backup pad, the striker plate is equipped with oblique with the opening of the skewed slot cooperation on blanking jig Slot.

8. gasket grooving according to claim 1 mechanism, which is characterized in that each component of the grooving mechanism passes through outside PLC control system control, cooperation cooperation.