CN209379810U - Bearing cage automatical feeding system - Google Patents

Abstract

The utility model relates to a kind of bearing cage automatical feeding systems, and including the feed mechanism with numerically-controlled machine tool cooperation assembly, feed mechanism includes material frame, crossbeam, traversing panel, lifting column；Expect that frame is arranged on the outside of numerically-controlled machine tool, material frame two sides are respectively provided with the material bar of fixed material；Crossbeam is transversely and horizontally distributed in numerically-controlled machine tool top；Lifting column genesis analysis and the surface for being located at chuck axis；Traversing panel includes first panel and second panel, first panel is connected by the guide rail of sliding block and crossbeam, second panel is connected by the guide rail of sliding block and lifting column, and the traversing motor connecting with crossbeam, and the lifting motor connecting with lifting column are further respectively had on traversing panel；The structure design of the utility model is reasonable, can be used for clamping material by pneumatic-finger, while the transport of material is completed by traversing, rotation and lifting action, instead of the status of manual work, synchronous feeding, blanking operation may be implemented, improve work efficiency.

Description

Bearing cage automatical feeding system

Technical field

The utility model relates to technical field of mechanical processing more particularly to a kind of bearing cage automatical feeding systems.

Background technique

In the prior art, cage pin riveted process or its retaining ring in the production process, generally require and be fixed Relevant operation is fixed and completed on the chuck of lathe, this is operated in the process since weight of material is relatively heavy in feeding Inconvenience is caused in the process, influences working efficiency.

Summary of the invention

In order to solve deficiency in the prior art, the utility model provides a kind of bearing cage automatical feeding system.

The technical scheme adopted by the utility model to solve the technical problem is as follows:

A kind of bearing cage automatical feeding system, which is characterized in that including the feeder with numerically-controlled machine tool cooperation assembly Structure, the feed mechanism include material frame, crossbeam, traversing panel, lifting column and support device；

The material frame is arranged on the outside of numerically-controlled machine tool, and expects that frame is located at numerically-controlled machine tool for fixing the center of material On chuck axis, material frame two sides are respectively provided with the material bar of fixed material；

The crossbeam is transversely and horizontally distributed in numerically-controlled machine tool top, and crossbeam both ends pass through support device respectively and are fixed on ground On face, guide rail is equipped on front side of crossbeam, crossbeam top surface is equipped with rack gear；

The lifting column genesis analysis and the surface for being located at chuck axis, set on the side of lifting column genesis analysis There are guide rail and rack gear, lifting column top is equipped with rotating electric machine, and lifting column bottom end is equipped with pneumatic-finger, the rotating electric machine bottom The output shaft in portion is connect by a rotating bar with the pneumatic-finger, and rotating bar Basolateral also passes through axle sleeve and lifting column It is connected and fixed；

The traversing panel includes upper parallel in the first panel of crossbeam top surface setting and before crossbeam positioned at crossbeam Side is parallel to the second panel of side setting on front side of crossbeam, and first panel and second panel are interconnected and fixed, and first panel is logical The guide rail for crossing sliding block and crossbeam is slidably connected, and second panel is slidably connected by the guide rail of sliding block and lifting column, and traversing face The traversing motor for engaging connection with the rack gear of crossbeam is further respectively had on plate, and the lifting of connection is engaged with the rack gear of lifting column Motor.

The fixation cylinder of the chuck setting towards the numerically-controlled machine tool is further comprised, the drive rod front end of fixed cylinder is equipped with One is fixed on an installation seat plate with the matched pressing plate of material shapes, fixed cylinder rear end, installation seat plate bottom by guide rail with The work surface of numerically-controlled machine tool is slidably connected, and the puller bolt being fixed for holding out against work surface is additionally provided on installation seat plate.

The support device includes support column and support base, and the support column bottom end fixes on the ground, supports capital End is equipped with and is connected thereto the fixed support base, and the crossbeam is fixed on support base top surface.

The traversing motor and lifting motor are installed in the first panel of traversing panel, and are equipped on front side of second panel One is connected thereto fixed clump weight.

The beneficial effects of the utility model are: it is reasonable in design, it can be used for clamping material by pneumatic-finger, simultaneously The upper of synchronization may be implemented instead of the status of manual work in the transport that material is completed by traversing, rotation and lifting action Material, blanking operation, improve work efficiency.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 is the structural schematic diagram of embodiment one.

Fig. 2 is the structural schematic diagram of feed mechanism.

Fig. 3 is the structural schematic diagram of pneumatic-finger and material.

Fig. 4 is the structural schematic diagram of embodiment two.

In figure: 1 crossbeam, 2 guide rails, 3 rack gears, 4 traversing motors, 5 traversing panels, 6 rotating electric machines, 7 lifting columns, 8 liftings Motor, 9 axle sleeves, 10 pneumatic-fingers, 11 material bars, 12 material framves, 13 moving guide rails, 14 installation seat plates, 15 fixed cylinders, 16 pressing plates, 17 chucks, 18 numerically-controlled machine tools, 19 support bases, 20 support columns, 21 clump weights, 22 L-type clamping parts, 23 collets, 24 materials.

Specific embodiment

The embodiments of the present invention is illustrated by particular specific embodiment below, those skilled in the art can be by this Content disclosed by specification understands other advantages and effect of the utility model easily.

Embodiment one

According to Fig. 1,2,3: the present embodiment provides a kind of bearing cage automatical feeding systems, including with numerically-controlled machine tool The feed mechanism of 18 cooperation assembly, the feed mechanism include material frame 12, crossbeam 1, traversing panel 5, lifting column 7 and support dress It sets, wherein placement of the material frame 12 for material 24 uses, transverse shifting of the crossbeam 1 with the cooperation of traversing panel 5 for material 24 makes With for moving between material frame 12 and numerically-controlled machine tool 18, lifting column 7 is then used for the lifting moving of material 24, is passed through Rising can take out material 24 in material frame 12 and numerically-controlled machine tool 18, can set 12 sum number of entering bin in material frame 12 by decline It controls inside lathe 18, overall construction design is reasonable, is easy to use.

Wherein, the rightmost outer of numerically-controlled machine tool 18 is arranged in the material frame 12, and material 12 bottom of frame is placed on by its pedestal On ground, and 17 axis of chuck that frame 12 is located at numerically-controlled machine tool 18 for fixing the center of material 24 is expected, for meeting It can be with when traversing 12 top of frame to material of material 24 with the matching of material frame 12 and chuck 17 during 24 transverse shifting of material The feeding and blowing met on material frame 12 can satisfy taking on chuck 17 when traversing 17 top to chuck of material 24 Material and blowing, material 12 two sides of frame are respectively provided with the material bar 11 of fixed material 24, and material bar 11 includes that setting height is identical and flat Two groups of row distribution have ensured putting for material 24 for being supported to the circular opening upper inside wall two sides among material 24 Effect is set, wherein the material bar 11 of side completes processing for placing for placing unprocessed material 24, the material bar 11 of the other side Material 24；

The crossbeam 1 is transversely and horizontally distributed in 18 top of numerically-controlled machine tool, and crossbeam 1 uses aluminum profile, and 1 both ends of crossbeam are distinguished It is fixed on the ground by support device, the guide rail 2 of two groups of parallelly distribute ons is equipped on front side of crossbeam 1, guide rail 2 is located at crossbeam 1 Front side side top and bottom end are simultaneously parallel to the distribution of 1 length direction of crossbeam, and 1 top surface of crossbeam is equipped with rack gear 3, and rack gear 3 is also parallel It is distributed in 1 length direction of crossbeam, what guide rail 2 and rack gear 3 were used to meet traversing panel 5 slides laterally positioning and traversing driving；

Further, the support device includes support column 20 and support base 19, and 20 bottom end of support column is fixed on On ground, 20 top of support column is equipped with and is connected thereto the fixed support base 19, and is fixed on 19 top surface of support base described Crossbeam 1 can meet system job space dress by the aerial setting of crossbeam 1 on 18 top of numerically-controlled machine tool by support device With requirement.

7 genesis analysis of lifting column and the surface for being located at 17 axis of chuck, lifting column 7 are equipped with one group, lifting The side of 7 genesis analysis of column is equipped with guide rail 2 and rack gear 3, and guide rail 2 is equipped with two groups and is located at the back side side of lifting column 7 Two sides, guide rail 2 are parallel to the length direction distribution of lifting column 7, and rack gear 3 is then located on the inner side surface of lifting column 7, rack gear 3 also parallel with lifting column 7 length direction be distributed, guide rail 2 and rack gear 3 are respectively used to meet the lifting carriage of lifting column 7 Positioning and lifting driving；7 top of lifting column is equipped with rotating electric machine 6, and 7 bottom end of lifting column is equipped with pneumatic-finger 10, the rotation The output shaft of 6 bottom of rotating motor is connect by a rotating bar with the pneumatic-finger 10, rotating bar top pass through shaft coupling with it is defeated Axis connection out, rotating bar bottom end then pass through mounting base and are connected and fixed with pneumatic-finger 10, so that 6 shell of rotating electric machine drives the gas It starts to refer to that 10 are rotated；Further, in order to ensure the assembling structure stability of rotating bar, the rotating bar Basolateral is also It is connected and fixed by axle sleeve 9 and lifting column 7, for keeping the fixed effect of rotating bar bottom end, is prevented because rotation pole length is long Cause the beat occurred in use process；

The traversing panel 5 includes upper parallel in the first panel of 1 top surface of crossbeam setting and positioned at crossbeam positioned at crossbeam 1 1 front side is parallel to the second panel of 1 front side side of crossbeam setting, and first panel and second panel are interconnected and fixed composition T-type Structure or L-type structure, first panel are slidably connected by the guide rail 2 of sliding block and crossbeam 1, allow traversing panel 5 crossbeam 1 to Traversing sliding, second panel are slidably connected by the guide rail 2 of sliding block and lifting column 7, allow lifting column 7 in traversing panel 5 front sides carry out lifting carriage, and the traversing motor 4 that connection is engaged with the rack gear 3 of crossbeam 1 is further respectively had on traversing panel 5, with And the lifting motor 8 of connection is engaged with the rack gear 3 of lifting column 7, on the driving output shaft of traversing motor 4 and lifting motor 8 It is linked with output gear, realizes walking movement for cooperating with corresponding rack gear 3；

Further, the traversing motor 4 and lifting motor 8 are installed in the first panel of traversing panel 5, are made traversing Motor 4 and lifting motor 8 are located at traversing 5 rear side of panel, in order to ensure traversing panel 5 stressed effect balance, the second face It is equipped with one on front side of plate and is connected thereto fixed clump weight 21,21 weight of clump weight and first panel side weight-matched, makes second Panel two sides weight-matched, the center of gravity of traversing panel 5 can be fallen on the guide rail 2 of 1 front side of crossbeam, prevent deviation of gravity center from leading to cross Panel 5 is moved to deform in long-time use process；

A kind of bearing cage automatical feeding system further comprises consolidating for the setting of chuck 17 towards the numerically-controlled machine tool 18 Determine cylinder 15, the drive rod front end of fixed cylinder 15 is equipped with one and the matched pressing plate 16 of 24 shape of material, and pressing plate 16 sets for inside There is cavity, pressing plate 16 is matched in the end face of cavity edge with 24 side view of material, in use, 16 end face of pressing plate is used for material 24 are pressed in 17 outside of chuck, while are located at chuck 17 in the cavity of pressing plate 16, in the case where material 24 obtains fixed, make card Disk 17 carries out clamping fixed to the intermediate openings inner wall of material 24, has ensured the operability of fixed effect, after fixing cylinder 15 End is fixed on an installation seat plate 14, and 14 bottom of installation seat plate is slided by the work surface of moving guide rail 13 and numerically-controlled machine tool 18 to be connected It connects, and is additionally provided with the puller bolt being fixed for holding out against work surface on installation seat plate 14, slided by moving guide rail 13 It is dynamic, can ensure that pressing plate 16, fixed cylinder 15 keep concentricity not deviate in moving process with chuck 17, ensure pressing plate 16 with The locating effect of chuck 17, while can also be adjusted according to 24 thickness of material, ensure that the drive length of fixed cylinder 15 is suitable The fixed operation for closing material 24 can rotate puller bolt, hold out against puller bolt when passing through slidable adjustment to designated position Work surface where moving guide rail 13, so that the position of installation seat plate 14 be made to be fixed.

The working principle of the bearing cage automatical feeding system of the present embodiment are as follows:

Feeding process: traversing 5 initial position of panel is located at material 12 top of frame, and when movement, lifting column 7 declines, pneumatic hand Refer to 10 collets 23 that material 24 is clamped by being mounted on the L-type clamping part 22 of its output end, then lifting column 7 rises 3-5cm, And it is mobile far from material frame 12 by traversing panel 5, it is detached from material 24 and material bar 11, lifting column 7, which continues thereafter with, to be risen to just Then material 24 is transferred to 17 top of chuck by traversing panel 5 is mobile by beginning position, subsequent lifting column 7 drops to card again 17 outside of disk, keeps chuck 17 and the coaxial distribution of material 24, and then material 24 is moved to outside chuck 17 by traversing panel 5 is mobile Side makes 24 shift position of material in place；

Fixation procedure: driving pressing plate 16 to clamp material 24 by fixed cylinder 15, and the chuck 17 of numerically-controlled machine tool 18 acts at this time, By 24 clamping of material, then pneumatic-finger 10 unclamps, and lifting column 7, which rises, to be resetted, and fixed cylinder 15 drives, and pressing plate 16 is withdrawn, Processing work is completed by numerically-controlled machine tool 18；

Discharge process: being declined by lifting column 7, and the collet 23 for having pneumatic-finger 10 to clamp material 24, then reverse weight Material 24 can be placed on the material bar 11 of material 12 other side of frame by the movement of multiple feeding process.

Embodiment two

According to Fig.4: the present embodiment provides a kind of bearing cage automatical feeding systems, including match with numerically-controlled machine tool 18 The feed mechanism matched is attached together, the feed mechanism includes expecting frame 12, crossbeam 1, traversing panel 5, lifting column 7 and support device, It is with the difference of embodiment one:

The lifting column 7 is equipped with two groups of parallelly distribute on, and is assemblied on the left of the second panel of traversing panel 5 and right Side is respectively equipped with the lifting motor 8 being arranged in a one-to-one correspondence with two groups of lifting columns 7 on traversing panel 5, so that two groups of lifting columns 7 can be implemented separately the lifting action of itself.

The difference of the working principle and embodiment one of the bearing cage automatical feeding system of the present embodiment is: two groups of liters Drop column 7, which can cooperate, realizes feeding and discharging, i.e., in bearing cage automatical feeding system operational process, expects frame when being located at When 12 top, feeding can be carried out by one group of lifting column 7, another group of lifting column 7 carries out discharging, then whole lateral moving to card 17 top of disk, one group of lifting column 7 for not clamping material 24 first carry out the discharging of chuck 17, clamp one group of lifting of material 24 Feeding of the column 7 for chuck 17 improves operating efficiency so that whole process saves the time.

The foregoing is merely the preferred embodiments of the utility model, as long as realizing the utility model with essentially identical means Purpose technical solution, belong within the protection scope of the utility model.

Claims (4)

1. a kind of bearing cage automatical feeding system, which is characterized in that the feed mechanism including cooperating assembly with numerically-controlled machine tool, The feed mechanism includes material frame, crossbeam, traversing panel, lifting column and support device；

The material frame is arranged on the outside of numerically-controlled machine tool, and expects the chuck that frame is located at numerically-controlled machine tool for fixing the center of material On axis, material frame two sides are respectively provided with the material bar of fixed material；

The crossbeam is transversely and horizontally distributed in numerically-controlled machine tool top, and crossbeam both ends pass through support device respectively and are fixed on ground On, guide rail is equipped on front side of crossbeam, crossbeam top surface is equipped with rack gear；

The lifting column genesis analysis and the surface for being located at chuck axis, the side of lifting column genesis analysis, which is equipped with, leads Rail and rack gear, lifting column top are equipped with rotating electric machine, and lifting column bottom end is equipped with pneumatic-finger, the rotating electric machine bottom Output shaft is connect by a rotating bar with the pneumatic-finger, and rotating bar Basolateral also passes through axle sleeve and connect with lifting column It is fixed；

The traversing panel includes positioned at the upper parallel first panel being arranged in crossbeam top surface of crossbeam and being located at flat on front side of crossbeam The second panel of row side setting on front side of crossbeam, first panel and second panel are interconnected and fixed, and first panel passes through cunning The guide rail of block and crossbeam is slidably connected, and second panel is slidably connected by the guide rail of sliding block and lifting column, and on traversing panel The traversing motor for engaging connection with the rack gear of crossbeam is further respectively had, and engages the lifting electricity of connection with the rack gear of lifting column Machine.

2. bearing cage automatical feeding system according to claim 1, it is characterised in that: further comprise towards the number The fixation cylinder of the chuck setting of lathe is controlled, the drive rod front end of fixed cylinder is equipped with one and the matched pressing plate of material shapes, Gu To determine cylinder rear end to be fixed on an installation seat plate, installation seat plate bottom is slidably connected by the work surface of guide rail and numerically-controlled machine tool, And the puller bolt being fixed for holding out against work surface is additionally provided on installation seat plate.

3. bearing cage automatical feeding system according to claim 1, it is characterised in that: the support device includes Support column and support base, the support column bottom end fix on the ground, and support top end, which is equipped with, is connected thereto the fixed branch Seat is supportted, and is fixed with the crossbeam on support base top surface.

4. bearing cage automatical feeding system according to claim 1, it is characterised in that: the traversing motor and lifting Motor is installed in the first panel of traversing panel, and is equipped with one on front side of second panel and is connected thereto fixed clump weight.