CN105269293A

CN105269293A - Ball grouping mechanism

Info

Publication number: CN105269293A
Application number: CN201510817334.2A
Authority: CN
Inventors: 孙建新
Original assignee: NEWSUN (NINGBO) BEARING MANUFACTURING Co Ltd
Current assignee: NEWSUN (NINGBO) BEARING MANUFACTURING Co Ltd
Priority date: 2015-11-23
Filing date: 2015-11-23
Publication date: 2016-01-27

Abstract

The invention discloses a ball grouping mechanism. The ball grouping mechanism comprises a base (1), a cam (2), a transmission rod (3), a vertical plate (4), a swing rod (5), a push block (6), a material barrel (8) used for accommodating balls (7) and a rotation disk (9) which is used for accommodating the balls (7) rolling out of the material barrel (8); the cam (2) is rotatably connected onto the base (1), and the base (1) is provided with a first motor used for driving the cam (2) to rotate; the middle part of the transmission rod (3) is rotatably connected onto the base (1) through a first hinge point (10); one end of the transmission rod (3) is pressed against the external contour of the cam (2); the other end of the transmission rod (3) is provided with a first arc-shaped rack (23); and a first tension spring (14) used for tightly pulling the transmission rod (3) to ensure one end of the transmission rod (3) is always pressed against the external contour of the cam (2) is arranged between the transmission rod (3) and the base (1). The ball grouping mechanism has the advantages that the balls can be accurately counted, and the labor intensity of operation personnel is small.

Description

Ball grouping mechanism

Technical field

The present invention relates to the group technology field of ball in bearing, particularly relate to a kind of ball grouping mechanism.

Background technology

In the assembling process of rolling bearing, need the ball of constant number to be assembled on the retainer between inner ring and outer ring.In current assembling process, normally the operating personnel of factory manually check ball, ball required in each bearing is checked out from the ball of a pile, due to each ball smooth surface and rule is consistent, so very easily there is the phenomenon of checking mistake, namely easily occur that the ball quantity of checking out is too much or very few, and then have influence on and each bearing occurs ball quantity not or have more the phenomenon of ball; These phenomenons all can have influence on bearing ex factory pass rate, then affect bearing reliability operationally.In addition, the labour intensity that ball also can strengthen the personnel of checking manually is checked, especially to the fatigue strength of eye.In sum, current ball is checked and is easily made mistakes, and namely check inaccurate, and hand labor intensity is large.

Summary of the invention

The technical problem to be solved in the present invention is, overcomes existing technological deficiency, provides a kind of ball to check accurate and that labor intensity of operating staff is little ball grouping mechanism.

Technical solution of the present invention is, a kind of ball grouping mechanism with following structure is provided: comprise pedestal, cam, drive link, riser, fork, pushing block, for the barrel of accommodating ball and the rotating disk for receiving the ball tumbling out in barrel, described cam is rotatably connected on pedestal, and pedestal is provided with the first motor rotated for driving cam; Be rotatably connected on pedestal by the first pin joint in the middle part of drive link, drive link one end and cam gabarit push against, the other end is provided with the first arc-shaped rack, and is provided with for straining drive link to guarantee the first extension spring that drive link one end pushes against with cam gabarit all the time between drive link and pedestal; Described riser is vertically slidably connected on pedestal, and riser is provided with for the first linear gear rack with the first arc-shaped rack engaged transmission, riser deviates from the first linear gear rack side and is provided with projection; Be rotatably connected on pedestal by the second pin joint in the middle part of described fork, the projection on fork lower end and riser pushes against or throws off, and fork upper end is provided with the second arc-shaped rack, and is provided with the second extension spring for pulling fork to reset between fork and pedestal; Described pushing block is slidably connected on pedestal in the horizontal direction, and pushing block is provided with for the second linear gear rack with the second arc-shaped rack engaged transmission; Barrel is fixedly connected on pedestal, and the discharging opening on barrel is positioned at the top of pushing block sliding trace, and pushing block upper surface is greater than zero to barrel top discharge mouth in the distance of vertical direction; Described pushing block is provided with inclined-plane towards ball side in barrel, and pushing block lower end is hinged with flap, the length value of flap is greater than the radius value of ball; Described pedestal is fixedly connected with the back-up block slided for pushing block and flap lower surface, back-up block is positioned at below pushing block; Described dial rotation is connected on pedestal, and pedestal is provided with the second motor for driving dial rotation, and rotating disk is provided with the opening up groove for storage ball, and the opening of groove is positioned at below pushing block; Described pedestal is fixedly connected with the block for guiding the ball tumbled in barrel to fall into rotating disk, block is greater than the diameter value of ball to the horizontal range of back-up block; Discharging opening position on described barrel is provided with turnup structure, and this turnup structure is provided with the first magnet near block side, and flap is provided with the second magnet mutually repelled with the first magnet, the second magnet is positioned at the below of the first magnet.

The present invention is ceaselessly had enough to meet the need by the first driven by motor cam, the rotation of cam can periodically drive drive link to swing around the first pin joint, namely drive link is around the intermittently rotating of the first pin joint, and drive link drives the first linear gear rack and riser to move back and forth up and down by the first arc-shaped rack; Move back and forth up and down in process at riser, the projection on riser periodically can promote fork and rotate around the second pin joint, and then drives pushing block to move back and forth in the horizontal direction by the second arc-shaped rack with engaging of the second linear gear rack; Further, pushing block can both promote a ball and rolls in the groove rotating disk from barrel in feeding process each time; Wherein, the second motor regularly can drive dial rotation, is positioned at below pushing block for the different grooves on rotating disk.That is, the work of the first motor can drive pushing block continuous print to move back and forth, and pushing block can ensure the ball in barrel one by one discharged to rotating disk; After in rotating disk, a groove is received into the ball of some, the second motor can drive again dial rotation angle, adjusts to below pushing block by other grooves on rotating disk, and the ball of discharging for pushing block continues to enter on rotating disk.Can accurately and fifty-fifty the ball in barrel is divided into some groups by device of the present invention, namely in each group, the quantity of ball is consistent; And, eliminate and manually check ball grouping, greatly can reduce the labour intensity of operating personnel.In addition, pushing block upper surface is greater than zero to the distance of barrel discharging opening can ensure pushing block smoothly in barrel slid underneath, pushing block can be reciprocatingly slided in the horizontal direction relative to discharging opening, avoid pushing block upper surface in sliding process, to produce frictional force relative to discharging opening; Arranging of inclined-plane can make pushing block when promoting one of them ball discharged to rotating disk, back in barrel, avoid pushing block to release many balls in a reciprocating movement by follow-up ball; Arranging of flap can be played a supporting role when ball drops into pushing block in barrel, also the effect of transport can be played when pushing block moves, top ball being delivered to rotating disk upper groove from the discharging opening of barrel can be ensured, pushed to the end of back-up block by pushing block once flap, flap is subject to the effect of ball gravity and flap self gravitation, flap can rotate relative to pushing block, thus the ball on flap just can drop in the groove on rotating disk; Back-up block mainly plays a supporting role to flap, when flap needs to ensure to maintain an equal level with pushing block lower surface, back-up block can play support to flap lower surface, when above flap is pushed into groove, flap is also just in vacant state, and namely back-up block does not play an effect supported to flap; Arranging of block can prevent ball in the moment departing from flap, to drop on rotating disk in other grooves due to effect of inertia, avoid some ball quantity of the groove on rotating disk many, some ball quantity is few, there is the phenomenon of quantity inequality, and the effect of a guiding can be played to each ball by block, guarantee that each ball drops into the groove be positioned at below pushing block, namely ball can fall to along block the groove be positioned at below pushing block; In addition, the repulsive force of the first magnet and the second magnet flap can be made to remain a kind of trend away from the second magnet, especially, when flap departs from the support of back-up block and is in unsettled state, flap can more promptly rotate relative to pushing block, thus guarantees that ball is from flap comes off and enters on rotating disk groove.Therefore, the invention provides a kind of ball and check accurate and that labor intensity of operating staff is little ball grouping mechanism.

Preferred as one, the center of circle of the first described arc-shaped rack overlaps with the first pin joint; The center of circle of the second described arc-shaped rack overlaps with the second pin joint.Preferred by this, can ensure that the first arc-shaped rack and the first linear gear rack can not move interference in engagement process, make the stable drive of drive link and riser reliable; Can ensure that the second arc-shaped rack and the second linear gear rack can not move interference in engagement process, make the stable drive of fork and pushing block reliable.

Preferred as one, described riser is vertically slidably connected on pedestal and refers to, pedestal is fixedly connected with the first guide pad, and riser is slidably connected on the first guide pad by dovetail groove.Preferred by this, can ensure that riser moves back and forth along vertical direction, and dovetail groove can play spacing effect, riser can not be departed from from the first guide pad in reciprocal process.

Preferred as one, first described extension spring one end is connected with pedestal, and the other end is connected near first arc-shaped rack one end with on drive link; Second described extension spring one end is connected with pedestal, and the other end is connected near second arc-shaped rack one end with on fork.Preferred by this, the first extension spring can ensure that drive link end pushes against with cam gabarit all the time, ensures the reliability of transmission; Second extension spring can ensure that fork can automatically reset after swing once, also can ensure the reliability of transmission.

Preferred as one, described drive link is rotatably connected to the first roller for pushing against one end with cam; Fork is rotatably connected to the second roller for pushing against one end with projection.Preferred by this, the first roller can reduce frictional force time slip relative to cam gabarit in drive link end; Second roller can reduce frictional force time slip relative to projection in fork lower end.

Preferred as one, described pushing block is slidably connected in the horizontal direction on pedestal and refers to, pedestal is fixedly connected with the second guide pad, and pushing block is slidably connected on the second guide pad by dovetail groove.Preferred by this, can ensure that pushing block moves back and forth along horizontal direction, and dovetail groove can play spacing effect, pushing block can not be departed from from the second guide pad in reciprocal process.

Preferred as one, the groove on described rotating disk has multiple, the dish even circumferential distribution and multiple groove rotates.Preferred by this, a rotating disk can be made more simultaneously accommodatingly can to organize ball, improve operating efficiency of the present invention.

Preferred as one, described block is positioned at the top of rotating disk, and in the horizontal clearance of block between rotating disk axis and back-up block.Preferred by this, can ensure that block can play guide effect to ball effectively.

Preferred as one, described back-up block is provided with chamfering towards the position of flap and pushing block pin joint.Preferred by this, can ensure flap when unsettled relative to pushing block rotate with by ball discharged in the groove on rotating disk, namely this chamfering can avoid flap to occur stuck phenomenon relative to pushing block.

Accompanying drawing explanation

Fig. 1 is the structural representation in the present invention.

Fig. 2 is the structural representation of turntable of the present invention.

Shown in figure: 1, pedestal, 2, cam, 3, drive link, 4, riser, 5, fork, 6, pushing block, 7, ball, 8, barrel, 9, rotating disk, 10, first pin joint, 11, second pin joint, 12, projection, 13, inclined-plane, 14, first extension spring, 15, second extension spring, 16, flap, 17, back-up block, 18, groove, 19, first roller, 20, second roller, 21, turnup structure, 22, block, 23, first arc-shaped rack, 24, first linear gear rack, 25, second arc-shaped rack, 26, second linear gear rack, 27, first guide pad, 28, second guide pad, 29, first magnet, 30, second magnet.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the invention will be further described.

As shown in the figure, operation principle of the present invention: the first motor driving cam rotates continuously, the reciprocating rotation that the rotation of cam can drive drive link clockwise and counterclockwise, and then drive riser to move back and forth up and down, then by projection and fork lower end against promoting the clockwise and counterclockwise reciprocating rotation of fork, the final left and right of pushing block that drives moves back and forth; Pushing block is moving left and right in process each time, can be pushed into rotating disk in one of them groove by a ball from barrel; When after the ball of some accommodating in this groove on rotating disk, the second motor can drive dial rotation that the next groove on rotating disk is aimed at pushing block position.

For example, a bearing needs 16 balls, and so the first driven by motor pushing block moves back and forth 16 times and just can transfer in the groove on rotating disk by the ball of 16 in barrel; When after 16 balls accommodating in this groove on rotating disk, the second motor drives dial rotation certain angle, is adjusted to below pushing block, continues to fall into the ball in material feed drum, realize continuous grouping of the present invention by the next groove on rotating disk.

Ball grouping mechanism of the present invention comprise pedestal 1, cam 2, drive link 3, riser 4, fork 5, pushing block 6, for the barrel 8 of accommodating ball 7 and the rotating disk 9 for receiving the ball 7 tumbling out in barrel 8, described cam 2 is rotatably connected on pedestal 1, and pedestal 1 is provided with the first motor rotated for driving cam 2; Be rotatably connected on pedestal 1 by the first pin joint 10 in the middle part of drive link 3, drive link 3 one end and cam 2 gabarit push against, the other end is provided with the first arc-shaped rack 23, and is provided with for straining drive link 3 to guarantee the first extension spring 14 that drive link 3 one end pushes against with cam 2 gabarit all the time between drive link 3 and pedestal 1; Described riser 4 is vertically slidably connected on pedestal 1, and riser 4 is provided with for the first linear gear rack 24 with the first arc-shaped rack 23 engaged transmission, riser 4 deviates from the first linear gear rack 24 side and is provided with projection 12; Be rotatably connected on pedestal 1 by the second pin joint 11 in the middle part of described fork 5, projection 12 on fork 5 lower end and riser 4 pushes against or throws off, fork 5 upper end is provided with the second arc-shaped rack 25, and is provided with the second extension spring 15 for pulling fork 5 to reset between fork 5 and pedestal 1; Described pushing block 6 is slidably connected on pedestal 1 in the horizontal direction, and pushing block 6 is provided with for the second linear gear rack 26 with the second arc-shaped rack 25 engaged transmission; Barrel 8 is fixedly connected on pedestal 1, and the discharging opening on barrel 8 is positioned at the top of pushing block 6 sliding trace, and pushing block 6 upper surface is greater than zero to barrel 8 top discharge mouth in the distance of vertical direction; Described pushing block 6 is provided with inclined-plane 13 towards ball 7 side in barrel 8, and pushing block 6 lower end is hinged with flap 16, the length value of flap 16 is greater than the radius value of ball 7; Described pedestal 1 is fixedly connected with the back-up block 17 slided for pushing block 6 and flap 16 lower surface, back-up block 17 is positioned at below pushing block 6; Described rotating disk 9 is rotatably connected on pedestal 1, and pedestal 1 is provided with the second motor for driving rotating disk 9 to rotate, and rotating disk 9 is provided with the opening up groove 18 for storage ball 7, and the opening of groove 18 is positioned at below pushing block 6; Described pedestal 1 is fixedly connected with the block 22 for guiding the ball 7 tumbled in barrel 8 to fall into rotating disk 9, block 22 is greater than the diameter value of ball 7 to the horizontal range of back-up block 17; Discharging opening position on described barrel 8 is provided with turnup structure 21, this turnup structure 21 is provided with the first magnet 29 near block 22 side, and flap 16 is provided with the below that the second magnet 30, second magnet 30 mutually repelled with the first magnet 29 is positioned at the first magnet 29.Described block 22 just can also set up rubber layer to the side of pushing block 5, in order to cushion ball 7 depart from flap 16 and inclined-plane 13 moment time produce impulsive force.Wherein, ball 7 is spacing by turnup structure 21 in propelling movement process, prevents ball 7 from occurring vertically to beat.

The center of circle of the first described arc-shaped rack 23 overlaps with the first pin joint 10; The center of circle of the second described arc-shaped rack 25 overlaps with the second pin joint 11.

Described riser 4 is vertically slidably connected on pedestal 1 and refers to, pedestal 1 is fixedly connected with the first guide pad 27, and riser 4 is slidably connected on the first guide pad 27 by dovetail groove.

First described extension spring 14 one end is connected with pedestal 1, and the other end is connected near first arc-shaped rack 23 one end with on drive link 3; Second described extension spring 15 one end is connected with pedestal 1, and the other end is connected near second arc-shaped rack 25 one end with on fork 5.

Described drive link 3 is rotatably connected to the first roller 19 for pushing against one end with cam 2; Fork 5 is rotatably connected to the second roller 20 for pushing against one end with projection 12.

Described pushing block 6 is slidably connected in the horizontal direction on pedestal 1 and refers to, pedestal 1 is fixedly connected with the second guide pad 28, and pushing block 6 is slidably connected on the second guide pad 28 by dovetail groove.

Groove 18 on described rotating disk 9 has multiple, the dish 9 even circumferential distribution and multiple groove 18 rotates, as shown in Figure 2.

Described block 22 is positioned at the top of rotating disk 9, and in the horizontal clearance of block 22 between rotating disk 9 axis and back-up block 17.

Described back-up block 17 is provided with chamfering towards flap 16 and the position of pushing block 6 pin joint.

The foregoing is only preferred embodiment of the present invention, not for limiting the scope of the invention.All within the claims in the present invention, any amendment done, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims

1. a ball grouping mechanism, it is characterized in that: it comprise pedestal (1), cam (2), drive link (3), riser (4), fork (5), pushing block (6), for the barrel (8) of accommodating ball (7) with for receiving the rotating disk (9) of ball (7) tumbling out in barrel (8), described cam (2) is rotatably connected on pedestal (1), and pedestal (1) is provided with the first motor rotated for driving cam (2); Drive link (3) middle part is rotatably connected on pedestal (1) by the first pin joint (10), drive link (3) one end and cam (2) gabarit push against, the other end is provided with the first arc-shaped rack (23), and is provided with for straining drive link (3) to guarantee the first extension spring (14) that drive link (3) one end pushes against with cam (2) gabarit all the time between drive link (3) and pedestal (1); Described riser (4) is vertically slidably connected on pedestal (1), and riser (4) is provided with for the first linear gear rack (24) with the first arc-shaped rack (23) engaged transmission, riser (4) deviates from the first linear gear rack (24) side and be provided with projection (12); Described fork (5) middle part is rotatably connected on pedestal (1) by the second pin joint (11), projection (12) on fork (5) lower end and riser (4) pushes against or throws off, fork (5) upper end is provided with the second arc-shaped rack (25), and is provided with the second extension spring (15) for pulling fork (5) to reset between fork (5) and pedestal (1); Described pushing block (6) is slidably connected on pedestal (1) in the horizontal direction, and pushing block (6) is provided with for the second linear gear rack (26) with the second arc-shaped rack (25) engaged transmission; Barrel (8) is fixedly connected on pedestal (1), and the discharging opening on barrel (8) is positioned at the top of pushing block (6) sliding trace, pushing block (6) upper surface is greater than zero to barrel (8) top discharge mouth in the distance of vertical direction; Described pushing block (6) is provided with inclined-plane (13) towards barrel (8) interior ball (7) side, and pushing block (6) lower end is hinged with flap (16), the length value of flap (16) is greater than the radius value of ball (7); Described pedestal (1) is fixedly connected with the back-up block (17) slided for pushing block (6) and flap (16) lower surface, back-up block (17) is positioned at pushing block (6) below; Described rotating disk (9) is rotatably connected on pedestal (1), pedestal (1) is provided with the second motor for driving rotating disk (9) to rotate, rotating disk (9) is provided with the opening up groove (18) for storage ball (7), and the opening of groove (18) is positioned at pushing block (6) below; Described pedestal (1) is fixedly connected with the block (22) for guiding the ball (7) tumbled in barrel (8) to fall into rotating disk (9), block (22) is greater than the diameter value of ball (7) to the horizontal range of back-up block (17); Discharging opening position on described barrel (8) is provided with turnup structure (21), this turnup structure (21) is upper is provided with the first magnet (29) near block (22) side, and flap (16) is provided with the second magnet (30) mutually repelled with the first magnet (29), the second magnet (30) is positioned at the below of the first magnet (29).

2. ball grouping mechanism according to claim 1, is characterized in that: the center of circle of described the first arc-shaped rack (23) overlaps with the first pin joint (10); The center of circle of described the second arc-shaped rack (25) overlaps with the second pin joint (11).

3. ball grouping mechanism according to claim 1, it is characterized in that: described riser (4) is vertically slidably connected on pedestal (1) and refers to, pedestal (1) is fixedly connected with the first guide pad (27), riser (4) is slidably connected on the first guide pad (27) by dovetail groove.

4. ball grouping mechanism according to claim 1, it is characterized in that: described the first extension spring (14) one end is connected with pedestal (1), the other end is connected near the first arc-shaped rack (23) one end with drive link (3) is upper; Described the second extension spring (15) one end is connected with pedestal (1), and the other end is connected near the second arc-shaped rack (25) one end with fork (5) is upper.

5. ball grouping mechanism according to claim 1, is characterized in that: described drive link (3) is rotatably connected to the first roller (19) for pushing against one end with cam (2); Fork (5) is rotatably connected to the second roller (20) for pushing against one end with projection (12).

6. ball grouping mechanism according to claim 1, it is characterized in that: described pushing block (6) is slidably connected in the horizontal direction on pedestal (1) and refers to, pedestal (1) is fixedly connected with the second guide pad (28), pushing block (6) is slidably connected on the second guide pad (28) by dovetail groove.

7. ball grouping mechanism according to claim 1, is characterized in that: the groove (18) on described rotating disk (9) has multiple, dish (9) the even circumferential distribution and multiple groove (18) rotates.

8. ball grouping mechanism according to claim 1, it is characterized in that: described block (22) is positioned at the top of rotating disk (9), and block (22) is positioned at the horizontal clearance between rotating disk (9) axis and back-up block (17).

9. ball grouping mechanism according to claim 1, is characterized in that: described back-up block (17) is provided with chamfering towards flap (16) and the position of pushing block (6) pin joint.