CN209036607U - A kind of gasket groover - Google Patents

Abstract

The utility model discloses a kind of gasket groover, including bottom plate, grooving mechanism, vibration feeding disc；The grooving mechanism, vibration feeding disc are arranged at the upper surface of bottom plate, and the grooving mechanism, vibration feeding disc are 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 groover

Technical field

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

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 groover, 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 groover, including bottom plate, grooving mechanism, vibration feeding disc；

The grooving mechanism, vibration feeding disc are arranged at the upper surface of bottom plate；

The grooving mechanism includes lower supporting plate, upper backup pad, two groups of grooving components being symmetricly set on upper backup pad And the upper surface of bottom plate is arranged in sub-material component, the lower supporting plate, the upper backup pad is horizontally set on down by column Above support plate, the grooving component includes splicing guide groove, X to deflector chute, X to pusher cylinder, Y-direction deflector chute, Y-direction pusher Cylinder, press cylinder, de- material cylinder, grooving cylinder, the splicing guide groove connect with described Y-direction deflector chute one end, the Y Connect to the deflector chute other end with the X to deflector chute one end, the X is to pusher cylinder, Y-direction pusher cylinder respectively along guide X The guiding of hopper, 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 The Y-direction scraping wings that pusher is slided in Y-direction deflector chute is connected with by connecting rod to pusher cylinder piston-rod end, the X is to pushing away Expect that cylinder is arranged on lower supporting plate, X be connected with to pusher cylinder piston-rod end slided in X into deflector chute the X of pusher to Scraping wings, 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 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 Offer blanking port on the upper backup pad of the underface of the jacking bar, the de- material cylinder, grooving cylinder axial parallel and It is arranged on upper backup pad, the de- material cylinder and grooving cylinder piston rod end are connected separately with bearing seat, cutter seat, described Bearing 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 outstanding Blanking jig right above blanking port, and the bottom end of blanking jig offers the material receiving port of indent, the blanking jig is de- Under the drive for expecting 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 perpendicular The straight through hole through skewed slot and with the jacking bar cooperation, the jacking bar is equipped with and the angle of bevel on blanking jig Consistent angular cutouts are tilted, the X is also extended with determining for the material receiving port for protruding into blanking jig bottom to the discharge end of deflector chute Position blanking plate, the grooving cutter with the skewed slot cooperation on blanking jig is provided tiltedly on the cutter seat, and the sub-material component includes Material splitting cylinder, separate hopper, non-defective unit box, defective products box, the material splitting cylinder are arranged on the upper backup pad bottom surface, axis To axially parallel to pusher cylinder with the X, the material splitting cylinder piston rod connection separate hopper, in the separate hopper Mouth is located at below the blanking port on upper backup pad, and the non-defective unit box, defective products box are arranged on lower supporting plate, and is respectively positioned on described Separate hopper under mouth lower section, the material splitting cylinder, X to pusher cylinder, Y-direction pusher cylinder, press cylinder, de- material cylinder and Magnetic switch is equipped on grooving cylinder.

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.

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, the grooving mechanism, vibration feeding disc are 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 groover, and high degree of automation, the worker operation time is few, work effect Rate is high, and rejection rate is low.Grooving mechanism, vibration feeding disc are controlled by external PLC control system, cooperation cooperation.Pass through outside PLC control system, grooving mechanism, vibration feeding disc cooperation cooperation.Firstly, vibration feeding disc is two groups of groovings by Y shape material path Component feed, gasket first fall into splicing guide groove, since vibration feeding disc is in lasting feed supplement, the gasket of front are pushed to enter Y It into deflector chute, then drives Y-direction scraping wings to move in Y-direction deflector chute by Y-direction pusher cylinder, gasket is pushed into X to guide In slot, and simultaneously, under the drive of de- material cylinder, the material receiving port of bottom is connected with X to the discharge end of deflector chute blanking jig, Then X is driven to be moved to scraping wings in X into deflector chute from X to pusher cylinder, by the splicing of gasket push-in blanking jig bottom Mouthful, then press cylinder pushes pushing positioning seat to move down, and the jacking bar pushed on positioning seat is inserted into passing through on blanking jig therewith In perforation, and the gasket in the material receiving port of blanking jig bottom is entangled, then grooving cylinder drives cutter seat to move to blanking jig Dynamic, grooving cutter is inserted into therewith in the skewed slot in blanking jig, and makes to form grooving on gasket, then grooving cylinder, press cylinder It successively retracts, grooving cutter, jacking bar are successively retracted therewith, finally, de- material cylinder drives blanking jig to one far from grooving cutter Side is retired to original position, during this, the gasket of grooving is formed under the action of positioning blanking plate, from connecing for blanking jig bottom It falls into material mouth in the blanking port of upper backup pad, is then fallen into separate hopper from the blanking port of upper backup pad, then from separate hopper Lower mouth is fallen into non-defective unit box.In this whole process, if the magnetic switch on grooving cylinder detect its piston rod do not extend out or It shrinks in place, system alarm, it is defective products that PLC control system, which then judges automatically this gasket, meanwhile, vibration feeding disc, Y-direction pusher Cylinder, X stop working to pusher cylinder, and material splitting cylinder controls under separate hopper right above mouth misregistration product box, this is unqualified Gasket is fallen into defective products box, then artificial release is alarmed, and each mechanism starts to rework；If Y-direction pusher cylinder or X are to pusher gas Magnetic switch on cylinder detects that its piston rod is not extended out or shunk in place, and system alarm, PLC control system then judges automatically this Criticizing gasket is defective products, meanwhile, vibration feeding disc stops working, and press cylinder, de- material cylinder and grooving cylinder return Original position simultaneously stops working, and Y-direction pusher cylinder and X work on to pusher cylinder or individually X works on to pusher cylinder, will This batch of gasket is all sent into the blanking port on upper backup pad, and falls into separate hopper, and material splitting cylinder controls under separate hopper always Right above mouth misregistration product box, until this batch of defective products gasket of PLC control system judgement is each fallen in defective products box, then people Work releases alarm, and each mechanism starts to rework；If the magnetic switch in de- material cylinder or material splitting cylinder detects its piston rod It not extending out or shrinks in place, system alarm, each mechanism stops working, failure is manually checked, after trouble shooting, then artificial releasing Alarm, each mechanism start 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 the structural perspective of grooving mechanism.

Fig. 3 is another perspective view structure chart of grooving mechanism.

Fig. 4 is the gasket translation trajectory diagram in grooving mechanism.

Fig. 5 is the cooperation Local map of blanking jig and grooving cutter.

Fig. 6 is the fit structure schematic diagram of blanking jig Yu jacking bar.

Fig. 7 is the front view of grooving mechanism.

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 Fig. 1~7, the utility model provides a kind of gasket groover, including bottom plate 1, grooving mechanism 2, vibration Feed table 3；

The grooving mechanism 2, vibration feeding disc 3 are arranged at the upper surface of bottom plate 1；

The grooving mechanism 2 include lower supporting plate 2-1, upper backup pad 2-2, be symmetricly set on upper backup pad 2-2 two The upper surface of bottom plate 1 is arranged in group grooving component and sub-material component, the lower supporting plate 2-1, and the upper backup pad 2-2 passes through Column 2-3 is horizontally set on above lower supporting plate 2-1, the grooving component include splicing guide groove 2-4, X to deflector chute 2-5, X to Pusher cylinder 2-6, Y-direction deflector chute 2-7, Y-direction pusher cylinder 2-8, press cylinder 2-9, de- material cylinder 2-10, grooving cylinder 2- 11, the splicing guide groove 2-4 connect with described one end Y-direction deflector chute 2-7, the Y-direction deflector chute 2-7 other end and institute It states X to connect to the one end deflector chute 2-5, the X is to pusher cylinder 2-6, Y-direction pusher cylinder 2-8 the leading to deflector chute along X respectively It is arranged to the guiding of 2-5, Y-direction deflector chute 2-7, the Y-direction pusher cylinder 2-8 is arranged to cylinder block 2-12 in lower support by Y On plate 2-1, Y-direction pusher cylinder 2-8 piston-rod end is connected in Y-direction deflector chute 2-7 by connecting rod 2-13 and slides pusher Y-direction scraping wings 2-14, the X are arranged on lower supporting plate 2-1 to pusher cylinder 2-6, and X is to pusher cylinder 2-6 piston-rod end It is connected with and slides the X of pusher into deflector chute 2-5 in X and be arranged to scraping wings 2-15, the press cylinder 2-9 by Building L 2-16 On lower supporting plate 2-1, and it is located at the other end of the X to deflector chute 2-5, the press cylinder 2-9 piston-rod end downwards and It is connected with and pushes positioning seat 2-17, the lower end surface the pushing positioning seat 2-17 is equipped with jacking bar 2-18 vertically, is located at the jacking Blanking port 2-19, the de- material cylinder 2-10, grooving cylinder 2-11 are offered on the upper backup pad 2-2 of the underface of bar 2-18 It is axial parallel and be arranged on upper backup pad 2-2, the de- material cylinder 2-10 and grooving cylinder 2-11 piston-rod end are distinguished It is connected with bearing seat 2-20, cutter seat 2-21, the bearing seat 2-20, cutter seat 2-21, which are slidably connected, to be arranged in upper support Y-direction sliding rail 2-22, the bearing seat 2-20 on plate 2-2 are equipped with the blank for having skewed slot and being suspended in right above blanking port 2-19 Jig 2-23, and the bottom end of blanking jig 2-23 offers the material receiving port 2-24 of indent, the blanking jig 2-23 is in de- material gas Under the drive of cylinder 2-10, the material receiving port 2-24 and X of bottom are connected to the discharge end of deflector chute 2-5, the blanking jig 2-23 On be additionally provided with and vertical set on skewed slot and the through hole 2-25, the jacking bar 2-18 that cooperate with the jacking bar 2-18 Have and tilt consistent angular cutouts with the angle of bevel on blanking jig 2-23, the X also extends to the discharge end of deflector chute 2-5 It is provided tiltedly on positioning the blanking plate 2-26, the cutter seat 2-21 for having the material receiving port 2-24 for protruding into the bottom blanking jig 2-23 With the grooving cutter 2-27 of the skewed slot cooperation on blanking jig 2-23, the sub-material component includes material splitting cylinder 2-28, separate hopper 2- 29, non-defective unit box 2-30, defective products box 2-31, the material splitting cylinder 2-28 are arranged on the upper backup pad 2-2 bottom surface, It is axial axially parallel to pusher cylinder 2-6 with the X, the material splitting cylinder 2-28 piston rod connection separate hopper 2- Below 29, the separate hopper 2-29 blanking port 2-19 suitable for reading on upper backup pad 2-2, the non-defective unit box 2-30, defective products Box 2-31 is arranged on lower supporting plate 2-1, and is respectively positioned on the lower section of mouth under the separate hopper 2-29, the material splitting cylinder 2- 28, X is on pusher cylinder 2-6, Y-direction pusher cylinder 2-8, press cylinder 2-9, de- material cylinder 2-10 and grooving cylinder 2-11 It is equipped with magnetic switch；

The vibration feeding disc 3 is that two groups of grooving components are fed by Y shape material path 4, the two of the Y shape material path 4 A discharge end is connected with the splicing guide groove 2-4 of two groups of grooving components respectively.

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

The splicing guide groove 2-4 is equipped with cover board 2-32.

Two groups of grooving components share a Y-direction sliding rail 2-22.

The tilt angle of the grooving cutter 2-27 is consistent with the skewed slot tilt angle on the blanking jig 2-23.

The groove width of described splicing guide groove 2-4, X to deflector chute 2-5, Y-direction deflector chute 2-7 are adjustable, applicable other sizes Gasket.

The striker plate 2- being fixed on upper backup pad 2-2 is equipped with close to the side of grooving cutter 2-27 positioned at blanking jig 2-23 33, the striker plate 2-33 are equipped with the opening skewed slot with the skewed slot cooperation on blanking jig 2-23, it is therefore an objective to be convenient for grooving cutter 2-27 passes through opening skewed slot and protrudes into the skewed slot on blanking jig 2-23, meanwhile, striker plate 2-33 is in blanking jig 2-23 to cutting When slot knife 2-27 is mobile, it is bonded with its side, prevents the gasket in the material receiving port 2-24 of the bottom end blanking jig 2-23 from falling.

The course of work: pass through external PLC control system, grooving mechanism 2, the cooperation cooperation of vibration feeding disc 3.Firstly, vibration Dynamic feed table 3 is two groups of grooving component feed by Y shape material path 4, and gasket first falls into splicing guide groove 2-4, due to vibration feeding disc 3 In lasting feed supplement, therefore the gasket of front is pushed to enter in Y-direction deflector chute 2-7, Y-direction is then driven by Y-direction pusher cylinder 2-8 Scraping wings 2-14 is moved in Y-direction deflector chute 2-7, and by gasket push-in X into deflector chute 2-5, and simultaneously, blanking jig 2-23 exists Under the drive of de- material cylinder 2-10, the material receiving port 2-24 and X of bottom are connected to the discharge end of deflector chute 2-5, then from X to Pusher cylinder 2-6 drives X to be moved to scraping wings 2-15 in X into deflector chute 2-5, by the gasket push-in bottom blanking jig 2-23 Material receiving port 2-24, then press cylinder 2-9 pushes pushing positioning seat 2-17 to move down, and pushes the jacking bar 2-18 on positioning seat 2-17 It is inserted into the through hole 2-25 on blanking jig 2-23 therewith, and entangles the pad in the material receiving port 2-24 of the bottom blanking jig 2-23 Piece, then grooving cylinder 2-11 drives cutter seat 2-21 mobile to blanking jig 2-23, and grooving cutter 2-27 is inserted into blank therewith and controls Have in the skewed slot in 2-23, and make to form grooving on gasket, then grooving cylinder 2-11, press cylinder 2-9 are successively retracted, grooving Knife 2-27, jacking bar 2-18 are successively retracted therewith, finally, de- material cylinder 2-10 drives blanking jig 2-23 to far from grooving cutter The side of 2-27 is retired to original position, during this, the gasket of grooving is formed under the action of positioning blanking plate 2-26, from blank It is fallen into the blanking port 2-19 of upper backup pad 2-2 in the material receiving port 2-24 of the bottom jig 2-23, then from upper backup pad 2-2's Blanking port 2-19 is fallen into separate hopper 2-29, and for separate hopper 2-29 under the control of material splitting cylinder 2-28, lower mouth is located at non-defective unit box Right above 2-30, fall into the gasket to form grooving in non-defective unit box 2-30 from mouth under separate hopper 2-29.In this whole process, if Magnetic switch on grooving cylinder 2-11 detects that its piston rod is not extended out or shunk in place, system alarm, and PLC control system is then Judging automatically this gasket is defective products, meanwhile, vibration feeding disc 3, Y-direction pusher cylinder 2-8, X stop to pusher cylinder 2-6 Work, material splitting cylinder 2-28 are controlled under separate hopper 2-29 right above mouth misregistration product box 2-31, this unqualified gasket is fallen into not After in non-defective unit box 2-31, then artificial release is alarmed, and each mechanism starts to rework；If Y-direction pusher cylinder 2-8 or X is to pusher gas Magnetic switch on cylinder 2-6 detects that its piston rod is not extended out or shunk in place, system alarm, and PLC control system is then sentenced automatically This batch of gasket that break is defective products, meanwhile, vibration feeding disc 3 stops working, and press cylinder 2-9, de- material cylinder 2-10 and cuts Slot cylinder 2-11 returns to original position and stops working, and Y-direction pusher cylinder 2-8 and X works on to pusher cylinder 2-6 or independent X It works on to pusher cylinder 2-6, the blanking port 2-19 this batch of gasket being all sent on upper backup pad 2-2, and fall into sub-material In bucket 2-29, and material splitting cylinder 2-28 is controlled always under separate hopper 2-29 right above mouth misregistration product box 2-31, until PLC This batch of defective products gasket of control system judgement is each fallen in defective products box 2-31, then artificial release is alarmed, and each mechanism starts weight New work；If the magnetic switch on de- material cylinder 2-10 or material splitting cylinder 2-28 detects that its piston rod is not extended out or is retracted to Position, system alarm, each mechanism stop working, and manually check failure, and after trouble shooting, then artificial release is alarmed, and each mechanism opens Beginning reworks.

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 groover, which is characterized in that including bottom plate, grooving mechanism, vibration feeding disc；

The grooving mechanism, vibration feeding disc are arranged at the upper surface of bottom plate；

The grooving mechanism include lower supporting plate, upper backup pad, two groups of grooving components being symmetricly set on upper backup pad and The upper surface of bottom plate is arranged in sub-material component, the lower supporting plate, and the upper backup pad is horizontally set on lower support by column Above plate, the grooving component include splicing guide groove, X to deflector chute, X to pusher cylinder, Y-direction deflector chute, Y-direction pusher cylinder, Press cylinder, de- material cylinder, grooving cylinder, the splicing guide groove connect with described Y-direction deflector chute one end, and the Y-direction is led The hopper 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 deflector chute Guiding, the guiding of Y-direction deflector chute setting, the Y-direction pusher cylinder by Y-direction cylinder block be arranged on lower supporting plate, Y-direction pushes away Material cylinder piston rod end is connected in Y-direction deflector chute the Y-direction scraping wings of sliding pusher by connecting rod, and the X is to pusher gas 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 pusher into deflector chute Plate, 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 press 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 described Blanking port, the axial parallel and setting of the de- material cylinder, grooving cylinder are offered on the upper backup pad of the underface of jacking bar On upper backup pad, the de- material cylinder and grooving cylinder piston rod end are connected separately with bearing seat, cutter seat, the backgauge Seat, cutter seat are slidably connected the Y-direction sliding rail being arranged on upper backup pad, and the bearing seat is equipped with to be fallen with skewed slot and being suspended in Blanking jig right above material mouth, and the bottom end of blanking jig offers the material receiving port of indent, the blanking jig is in de- material gas 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 runs through vertically Skewed slot and the through hole cooperated with the jacking bar, the jacking bar are equipped with and the angle of bevel inclination one on blanking jig The angular cutouts of cause, the X are also extended with the positioning blanking for protruding into the material receiving port of blanking jig bottom to the discharge end of deflector chute Plate is provided tiltedly with the grooving cutter with the skewed slot cooperation on blanking jig on the cutter seat, and the sub-material component includes sub-material gas Cylinder, separate hopper, non-defective unit box, defective products box, the material splitting cylinder are arranged on the upper backup pad bottom surface, axial direction and institute The X stated is axially parallel to pusher cylinder, and the material splitting cylinder piston rod connection separate hopper, the separate hopper is suitable for reading to be located at Below blanking port on upper backup pad, the non-defective unit box, defective products box are arranged on lower supporting plate, and are respectively positioned on the sub-material It struggles against the lower section of lower mouth, the material splitting cylinder, X are to pusher cylinder, Y-direction pusher cylinder, press cylinder, de- material cylinder and grooving gas Magnetic switch is equipped on cylinder；

The vibration feeding disc is that two groups of grooving components are fed by Y shape material path, two discharge ends of the Y shape material path It is connected respectively with the splicing guide groove of two groups of grooving components.

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

3. gasket groover according to claim 1, which is characterized in that the splicing guide groove is equipped with cover board.

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

5. gasket groover according to claim 1, 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 groover according to claim 1, 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 groover according to claim 1, 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 groover according to claim 1, which is characterized in that the grooving mechanism, vibration feeding disc pass through External PLC control system control, cooperation cooperation.