CN112621205A - Continuous feeding equipment for bearing machining and using method thereof - Google Patents

Abstract

The invention belongs to the technical field of bearing processing, in particular to continuous feeding equipment for bearing processing and a using method thereof, the continuous feeding equipment comprises two groups of conveying assemblies and bearing accessories, each conveying assembly comprises a driving wheel and a conveying strip, each bearing accessory comprises an outer ring, a retainer, an inner ring and a rolling shaft, the inner side surface of each retainer is provided with a rolling groove, a placing assembly is arranged between the side surfaces of the conveying strips, a first concave frame plate, a second concave frame plate, a third concave frame plate and a fourth concave frame plate are sequentially arranged in the conveying direction of the conveying strips at equal intervals, each first concave frame plate is provided with a retainer placing assembly, each second concave frame plate is provided with an inner ring placing assembly, each third concave frame plate is provided with a rolling shaft placing assembly, the center of the bottom end of the horizontal part of each fourth concave frame plate is provided with a pressing assembly, each pressing assembly comprises an air cylinder, a pressing disc is fixed at, the tail end of the conveying direction of the conveying strip is provided with a collecting box.

Description

Continuous feeding equipment for bearing machining and using method thereof

Technical Field

The invention belongs to the technical field of bearing machining, and particularly relates to continuous feeding equipment for bearing machining and a using method thereof.

Background

The bearing is an important part in the modern mechanical equipment. Its main function is to support the mechanical rotator, reduce the friction coefficient in its motion process and ensure its rotation precision. A rolling bearing is a relatively common bearing. A rolling bearing is a precise mechanical element that reduces friction loss by changing sliding friction between a running shaft and a shaft seat into rolling friction. The rolling bearing generally comprises four parts, namely an inner ring, an outer ring, a rolling body and a retainer, wherein the inner ring is used for being matched with a shaft and rotating together with the shaft; the outer ring is matched with the bearing seat to play a supporting role; the rolling bodies are uniformly distributed between the inner ring and the outer ring by virtue of the retainer, and the shape, size and number of the rolling bodies directly influence the service performance and service life of the rolling bearing; the retainer can enable the rolling bodies to be uniformly distributed and guide the rolling bodies to rotate to play a lubricating role.

When antifriction bearing processing equipment material loading, still adopt traditional artifical material loading under the most circumstances, artifical material loading efficiency is lower, makes mistakes easily, when carrying out the assembly of rolling element and holder moreover, the outer lane easily takes place to remove, influences the assembly precision. Based on the technical scheme, the invention designs continuous feeding equipment for bearing processing and a using method thereof.

Disclosure of Invention

In order to solve the problems in the background art, the invention provides continuous feeding equipment for bearing processing and a using method thereof, and solves the problems that the manual feeding efficiency is low, mistakes are easy to make, and the assembly precision is affected because the outer ring is easy to move when the rolling body and the retainer are assembled.

In order to achieve the purpose, the invention provides the following technical scheme:

a continuous feeding device for bearing processing comprises two groups of conveying assemblies and bearing accessories, wherein each conveying assembly comprises a driving wheel and a conveying strip, each conveying strip is arranged on the outer side of the driving wheel, a supporting rod is arranged at the center of the outer side surface of the driving wheel in a rotating mode, two groups of connecting rods are fixed at the center of the inner side surface of the driving wheel, each bearing accessory comprises an outer ring, a retainer, an inner ring and a rolling shaft, a rolling groove is formed in the inner side surface of the retainer, the outer diameter of the retainer is equal to the inner diameter of the outer ring, a placing assembly is arranged between the side surfaces of the conveying strips and comprises a connecting rod, an L-shaped plate, a sliding groove, an adjusting screw, a sliding block, a movable rod and an L clamping plate, the outer ring is placed on the two groups of L-shaped frame plates, and a first concave frame plate, a second concave frame, the retainer placing assembly is mounted on the first concave frame plate and comprises a first mounting disc, a first bearing, a first rotating disc, a first through groove, a first auxiliary through groove and a first charging barrel, the inner ring placing assembly is mounted on the second concave frame plate and comprises a second mounting disc, a second bearing, a second rotating disc, a second through groove, a second auxiliary through groove and a second charging barrel, the third concave frame plate is provided with a rolling shaft placing assembly, the rolling shaft placing assembly comprises a mounting column, a rectangular cavity, a feeding channel, a discharging column, a double-end motor, a rotating shaft, an upper barrier strip, a lower barrier strip and a discharging channel, the center of the bottom end of the horizontal part of the fourth concave frame plate is provided with a pressing assembly, the pressing assembly comprises a cylinder, the end of a piston rod inside the cylinder is fixed with a pressing disc, and the outer diameter of the pressing disc is equal to the outer diameter of the retainer, and a collecting box is arranged at the tail end of the conveying direction of the conveying strip.

Preferably, the connecting rods are uniformly arranged between the two groups of side surfaces of the conveying strips at equal intervals, the L-shaped plate is fixed at the end part of the connecting rod, the horizontal plane at the top end of the horizontal part of the L-shaped plate is lower than the horizontal plane at the top end of the inner cavity of the conveying strip, the chute is arranged at the center of the top end of the horizontal part of the L-shaped plate, one end of the chute penetrates into the junction of the horizontal part and the vertical part of the L-shaped plate, the adjusting screw is rotatably arranged to penetrate through the two ends of the chute, threads on the adjusting screw are arranged at the part of the adjusting screw in the chute, the sliding block is slidably connected in the chute, the top end of the sliding block is flush with the top end of the chute, the threads of the adjusting screw penetrate through the sliding block, two groups of movable rods are symmetrically, the arrangement distance of the first concave frame plate, the second concave frame plate, the third concave frame plate and the fourth concave frame plate is equal to the arrangement distance of the connecting rods.

Preferably, a bearing setting is at mounting disc top edge No. one, a carousel rotates at mounting disc top center through a bearing No. one, the height that highly is greater than a bearing of carousel No. one, No. one leads to the groove circumference and evenly sets up at a carousel top edge, the holder is placed at a logical inslot, an supplementary logical groove runs through a mounting disc setting, a feed cylinder is fixed at supplementary logical groove bottom edge No. one, the inner diameter of a feed cylinder, an supplementary logical groove, a logical groove is the same with the outer diameter of holder, the highly perpendicular distance that is greater than a mounting disc bottom to L template top of a feed cylinder.

Preferably, a circular slot has been seted up at the mounting disc center, circular slot inside is provided with an intermittent type motor, an intermittent type motor output is connected with the pivot No. one, a pivot runs through the fixed carousel bottom center of inlaying in a mounting disc top, an installation logical groove has been seted up to concave type frame plate center one side No. one, the holder is placed the subassembly and is set up in an installation logical inslot, an installation logical groove top symmetry has seted up a linking groove, linking groove bottom center has seted up a through screw No. one, be fixed with on the mounting disc lateral wall with linking groove complex linking plate No. one, linking the plate center has seted up a connection screw, a connection screw and a connection screw threaded connection have a connecting bolt.

Preferably, No. two bearings set up at mounting disc top edge No. two, No. two turntables rotate at mounting disc top center through No. two bearings, No. two turntables highly be greater than the height of No. two bearings, No. two lead to the even setting of groove circumference at No. two carousel top edges, the inner circle is placed at No. two logical inslots, No. two supplementary logical grooves run through No. two mounting disc settings, No. two feed cylinders are fixed at No. two supplementary logical groove bottom edges, No. two feed cylinders, No. two supplementary logical grooves, No. two internal diameter that lead to the groove are the same with the external diameter of inner circle, No. two feed cylinders highly be greater than the vertical distance on No. two mounting disc bottom to L template tops.

Preferably, No. two circular slots have been seted up at No. two mounting discs centers, No. two circular slot inside is provided with No. two intermittent type motors, No. two intermittent type motor output is connected with the pivot No. two, No. two pivots run through No. two mounting discs top and fix and inlay and establish at No. two carousel bottom centers, No. two logical grooves of installation have been seted up to No. two concave type frame plate center one sides, the inner circle is placed the subassembly and is set up at logical inslot of No. two installations, No. two even grooves have been seted up to No. two installation logical groove top symmetries, No. two even tank bottom center has been seted up No. two and is run through the screw, be fixed with No. two even boards with No. two groove complex on No. two mounting discs lateral wall, No. two connection screw has been seted up at No. two even board centers, No. two connection screw and.

Preferably, the rectangle cavity sets up and is close to the bottom position at the erection column center, the material loading is said the circumference and is evenly set up at rectangle cavity top center and run through the erection column top, the roller bearing is piled up and is placed in the material loading is said, the material unloading is said the circumference and is evenly set up at rectangle cavity bottom center and run through the erection column bottom, the material unloading post is fixed at erection column bottom center and the material unloading is said the circumference and evenly sets up at the material unloading post center, material discharging is said, material unloading is said and the material loading is said and is just to setting up.

Preferably, double-end motor sets up at rectangle cavity center, double-end motor's pivot is rotated respectively and is inlayed and establish at rectangle cavity top and top center, it evenly sets up the pivot lateral wall at the top to go up the blend stop circumference, the blend stop circumference evenly sets up the pivot lateral wall in the below down, go up blend stop and the crisscross equidistant setting in blend stop space down, go up blend stop top and rectangle cavity top parallel and level, blend stop bottom and rectangle cavity bottom parallel and level down.

Preferably, No. three concave type frame plate top centers have been seted up No. three installation and have been led to the groove, the roller bearing is placed the subassembly and is set up at the logical inslot of No. three installations, No. three installation is led to groove top symmetry and has been seted up No. three and is linked the groove, No. three is linked tank bottom center and has been seted up No. three and run through the screw, be fixed with on the erection column lateral wall and link No. three of groove complex even board, No. three is linked the board center and has been seted up No. three connection screw, No. three connection screw and No. three run through screw threaded connection and have No. three.

The use method of the continuous feeding equipment for bearing processing further comprises the following steps:

s1, placing the outer ring to move along with the conveying assembly: the outer ring is placed between the two groups of L clamping plates, the adjusting screw is matched with the sliding block through threads, the sliding block is driven to move in the sliding groove through rotating the adjusting screw, so that the two groups of L clamping plates move in the opposite direction or in the opposite direction, the distance between the two groups of L clamping plates is adjusted, the outer ring is limited and fixed, and the outer ring is transmitted along with the rotation of the transmission strip driven by the driving wheel under the transmission action of the transmission assembly;

s2, placing a retainer: the outer ring continuously moves forward along with the operation of the transmission assembly, when the transmission assembly moves to a position right below the retainer assembly, the transmission assembly stops working, the first intermittent motor rotates intermittently for one time, the first rotary disc is driven to rotate for one time under the action of the first rotary shaft, so that a group of the first through grooves and the first auxiliary through grooves are aligned, and the retainer in the first through grooves falls into the first material barrel from the first auxiliary through grooves and falls into the lower outer ring through the first material barrel;

s3, placing the inner ring: after the retainer is placed, the transmission assembly continues to operate, the outer ring of the rear side and the outer ring of the front side, into which the retainer is placed, continue to move forwards, when the outer ring, into which the retainer is placed, moves to a position right below the inner ring placement assembly, the outer ring of the rear side moves to a position right below the retainer assembly, the process in the S process is repeated on the outer ring of the rear side, meanwhile, the second intermittent motor rotates intermittently for one time, the second rotary disc is driven to rotate for one time under the action of the second rotary shaft, so that a group of second through grooves and the second auxiliary through grooves are aligned, and the inner ring in the second through groove falls into the second material cylinder from the second auxiliary through groove and falls into the retainer in the outer ring below through the second material cylinder;

s4, putting the roller into: after the inner ring is put in, the transmission assembly continues to operate, the outer ring at the rear side, the outer ring in the middle part of which the retainer is put in and the outer ring at the front part of which the inner ring is put in continue to move forward, when the outer ring with the inner ring placed in the front moves to the position right below the roller placing assembly, the outer ring with the retainer placed in the middle moves to the position right below the inner ring placing assembly, the outer ring with the retainer placed in the middle repeats the process in the S, the outer ring at the rear side moves to the position right below the retainer assembly, and the process in the S is repeated on the outer ring at the rear side;

s5, roller compacting: after the roller is placed, the outer ring of the rear side, the outer ring with the placed holder, the outer ring with the placed inner ring and the outer ring with the placed roller continue to move forwards, when the outer ring with the placed roller moves to the position right below the pressing assembly, the outer ring with the placed inner ring moves to the position right below the roller placing assembly, the process in the S is repeated, the outer ring with the placed holder moves to the position right below the inner ring placing assembly, the process in the S is repeated, the outer ring of the rear side moves to the position right below the holder assembly, the process in the S is repeated, and meanwhile, the air cylinder works to drive the pressure plate to move downwards to press the roller;

and S6, collecting the blanking, continuously operating the transmission assembly, and when the outer ring moves to the tail end of the conveying strip, rotating the placement assembly to enable the outer ring to fall into the collection box for collection.

Compared with the prior art, the invention has the beneficial effects that:

1. by arranging the transmission assembly, the placing assembly, the retainer placing assembly, the inner ring placing assembly, the rolling shaft placing assembly and the pressing assembly, the placing assembly is used for placing and fixing the outer ring, the transmission is carried out through the transmission component, the retainer is put in through the retainer placing component in sequence, the inner ring is put in through the inner ring placing component, the rolling shaft is put in through the rolling shaft placing component, the intermittent placing of the rolling shaft is realized by arranging the double-head motor, the output shaft, the upper retaining strip and the lower retaining strip, the rolling shaft is pressed by the pressing component, when the bearing is assembled and processed, continuous mechanical feeding is carried out, the processing efficiency is improved, and simultaneously, the matching of the sliding groove, the adjusting screw rod and the sliding block in the placing assembly is utilized, the distance between the L clamp plates can be adjusted, the outer ring is convenient to contact and fix, and the assembly precision is improved.

2. Through the arrangement of the first installation through groove, the first connecting groove, the first penetrating screw hole, the first connecting plate, the first connecting screw hole and the first connecting bolt, the retainer placing assembly can be fixed on the first concave frame plate in a threaded manner by utilizing the insertion fit of the first connecting plate and the first connecting groove under the threaded fit of the first connecting bolt, the first penetrating screw hole and the first connecting screw hole, so that the retainer placing assembly is convenient to install and disassemble; through setting up No. two installation logical grooves, No. two link the groove, No. two run through the screw, No. two link the board, No. two connection screw and No. two connecting bolt, utilize No. two to link the grafting cooperation in groove with No. two, under No. two connecting bolt and No. two screw's that run through screw and No. two connection screw's screw-thread fit, can place subassembly screw thread with the inner circle and fix on No. two concave frame plates, through setting up No. three installation logical grooves, No. three link the groove, No. three runs through the screw, No. three links the board, No. three connection screw and No. three connection screw, utilize No. three to link the grafting cooperation in board and No. three groove, under No. three connecting bolt and No. three screw-thread fit that run through screw and No. three connection screw, can place subassembly screw thread fixation on No. three concave frame plates with the roller bearing, be convenient.

3. The intermittent type of the retainer is put in through the arrangement of the first intermittent motor and the first rotating shaft, the intermittent type of the rolling shaft is put in through the arrangement of the double-head motor, the output shaft, the upper retaining strip and the lower retaining strip, and the intermittent type of the inner ring is put in through the arrangement of the second intermittent motor and the second rotating shaft.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a transfer assembly according to the present invention;

FIG. 3 is an enlarged view of part A of the present invention;

FIG. 4 is a schematic view of a placement module according to the present invention;

FIG. 5 is a schematic view of a concave shelf structure of the present invention;

FIG. 6 is a schematic view of a cage placement assembly of the present invention;

FIG. 7 is a schematic cross-sectional view of FIG. 6 according to the present invention;

FIG. 8 is a schematic view of a second concave shelf structure according to the present invention;

FIG. 9 is a schematic view of the inner race positioning assembly of the present invention;

FIG. 10 is a schematic cross-sectional view of FIG. 9 according to the present invention;

FIG. 11 is a schematic view of a third concave shelf structure according to the present invention;

FIG. 12 is a schematic view of a roller placement assembly in accordance with the present invention;

FIG. 13 is a schematic cross-sectional view of FIG. 12 according to the present invention;

FIG. 14 is an enlarged view of the part B of the present invention;

FIG. 15 is a schematic view of the double-headed motor of the present invention;

FIG. 16 is a schematic view of the hold-down assembly of the present invention;

FIG. 17 is a schematic perspective sectional view of the present invention;

FIG. 18 is an enlarged view of the section C of the present invention;

FIG. 19 is an enlarged view of the D section of the present invention;

FIG. 20 is an enlarged view of section E of the present invention;

FIG. 21 is an enlarged view of part F of the present invention;

in the figure: 1. a driving wheel; 2. a transfer bar; 3. a support bar; 4. a connecting rod; 5. an L-shaped plate; 6. a chute; 7. adjusting the screw rod; 8. a slider; 9. a movable rod; 10. an L-shaped splint; 11. a first concave frame plate; 12. a second concave frame plate; 13. a third concave frame plate; 14. a fourth concave frame plate; 15. a through groove is installed; 16. a first connecting groove; 17. the first hole penetrates through the screw hole; 18. a first mounting plate; 19. a first connecting plate; 20. a first connecting screw hole; 21. a first connecting bolt; 22. a first bearing; 23. a first turntable; 24. a first-order through groove; 25. an auxiliary through groove; 26. a first material barrel; 27. a first circular groove; 28. a first intermittent motor; 29. a first rotating shaft; 30. a through groove is installed; 31. a second connecting groove; 32. the second hole penetrates through the screw hole; 33. a second mounting plate; 34. a second connecting plate; 35. a second connecting screw hole; 36. a second connecting bolt; 37. a second bearing; 38. a second turntable; 39. a second through groove; 40. a second auxiliary through groove; 41. a second charging barrel; 42. a second round groove; 43. a second intermittent motor; 44. a second rotating shaft; 45. a through groove is installed in the third place; 46. a third connecting groove; 47. the third hole penetrates through the screw hole; 48. mounting a column; 49. a third connecting plate; 50. a third connecting screw hole; 51. a third connecting bolt; 52. a rectangular cavity; 53. a feeding channel; 54. a roller; 55. a discharging channel; 56. blanking the column; 57. a double-headed motor; 58. a rotating shaft; 59. an upper barrier strip; 60. a lower barrier strip; 61. a discharging channel; 62. a cylinder; 63. a platen; 64. a collection box; 65. an outer ring; 66. a holder; 67. and an inner ring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 6, fig. 9, fig. 12, fig. 13, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20 and fig. 21, the present invention provides the following technical solutions:

the utility model provides a bearing processing is with continuity charging equipment, includes two sets of conveying subassembly and bearing accessory, and the bearing accessory is including outer lane 65, holder 66, inner circle 67 and roller bearing 54, and the slot rolling has been seted up to holder 66 medial surface, and the external diameter of holder 66 equals the internal diameter of outer lane 65, and 2 direction of transfer tails of transfer are provided with collecting box 64

Wherein, as shown in fig. 2, the transmission assembly comprises a driving wheel 1 and transmission strips 2, the transmission strips 2 are arranged outside the driving wheel 1, a support rod 3 is rotated at the center of the outer side surface of the driving wheel 1, connecting rods are fixed at the centers of the inner side surfaces of the two groups of driving wheels 1,

wherein, as shown in fig. 3 and 4, a placing component is arranged between the side surfaces of the conveying strips 2, the placing component comprises a connecting rod 4, an L-shaped plate 5, a chute 6, an adjusting screw 7, a slide block 8, a movable rod 9 and L splints 10, an outer ring 65 is placed on the two groups of L splints 10,

specifically, the connecting rods 4 are uniformly arranged between the two groups of conveying strips 2 at equal intervals, the L-shaped plates 5 are fixed at the end parts of the connecting rods 4, the horizontal planes at the top ends of the horizontal parts of the L-shaped plates 5 are lower than the horizontal planes at the top ends of the inner cavities of the conveying strips 2, the sliding grooves 6 are formed in the centers of the top ends of the horizontal parts of the L-shaped plates 5, one ends of the sliding grooves 6 penetrate into the junctions of the horizontal parts and the vertical parts of the L-shaped plates 5, the adjusting screw rods 7 are rotatably arranged at the two ends of the sliding grooves 6, threads on the adjusting screw rods 7 are arranged at the parts of the adjusting screw rods 7 positioned in the sliding grooves 6, the sliding blocks 8 are slidably connected in the sliding grooves 6, the top ends of the sliding blocks 8 are flush with the top ends of the sliding grooves 6, the,

wherein, as shown in fig. 1 and 17, a first concave frame plate 11, a second concave frame plate 12, a third concave frame plate 13 and a fourth concave frame plate 14 are sequentially arranged at equal intervals in the conveying direction of the conveying strip 2,

specifically, the L-shaped clamp plate 10 is fixed at the top end of the movable rod 9, the arrangement distance of the first concave frame plate 11, the second concave frame plate 12, the third concave frame plate 13 and the fourth concave frame plate 14 is equal to the arrangement distance of the connecting rods 4,

wherein, as shown in fig. 6 and 18, the first concave frame plate 11 is provided with a retainer placing component, the retainer placing component comprises a first mounting plate 18, a first bearing 22, a first rotary disc 23, a first through groove 24, a first auxiliary through groove 25 and a first charging barrel 26,

specifically, a first bearing 22 is arranged at the top end edge of a first mounting plate 18, a first rotary plate 23 rotates at the top end center of the first mounting plate 18 through the first bearing 22, the height of the first rotary plate 23 is larger than that of the first bearing 22, the circumference of a first through groove 24 is uniformly arranged at the top end edge of the first rotary plate 23, a retainer 66 is arranged in the first through groove 24, a first auxiliary through groove 25 penetrates through the first mounting plate 18, a first material cylinder 26 is fixed at the bottom end edge of the first auxiliary through groove 25, the inner diameter of the first material cylinder 26, the first auxiliary through groove 25 and the first through groove 24 is the same as the outer diameter of the retainer 66, the height of the first material cylinder 26 is larger than the vertical distance from the bottom end of the first mounting plate 18 to the top end of the L-shaped plate 5,

wherein, as shown in fig. 9 and fig. 19, the second concave frame plate 12 is provided with an inner ring placing component, the inner ring placing component comprises a second mounting disc 33, a second bearing 37, a second rotary disc 38, a second through groove 39, a second auxiliary through groove 40 and a second charging barrel 41,

specifically, a second bearing 37 is arranged at the top end edge of a second mounting disc 33, a second rotary disc 38 rotates at the top end center of the second mounting disc 33 through the second bearing 37, the height of the second rotary disc 38 is greater than that of the second bearing 37, the circumference of a second through groove 39 is uniformly arranged at the top end edge of the second rotary disc 38, an inner ring 67 is arranged in the second through groove 39, a second auxiliary through groove 40 penetrates through the second mounting disc 33, a second charging barrel 41 is fixed at the bottom end edge of the second auxiliary through groove 40, the inner diameters of the second charging barrel 41, the second auxiliary through groove 40 and the second through groove 39 are the same as the outer diameter of the inner ring 67, the height of the second charging barrel 41 is greater than the vertical distance from the bottom end of the second mounting disc 33 to the top end of the L-shaped plate,

wherein, as shown in fig. 12, 13 and 20, a roller placing component is arranged on the third concave frame plate 13, the roller placing component comprises an installation column 48, a rectangular cavity 52, a feeding channel 53, a discharging channel 55, a discharging column 56, a double-head motor 57, a rotating shaft 58, an upper baffle 59, a lower baffle 60 and a discharging channel 61,

specifically, the rectangular cavity 52 is arranged at the center of the mounting column 48 near the bottom end, the circumference of the feeding channel 53 is uniformly arranged at the center of the top end of the rectangular cavity 52 and penetrates through the top end of the mounting column 48, the rollers 54 are stacked in the feeding channel 53, the circumference of the discharging channel 55 is uniformly arranged at the center of the bottom end of the rectangular cavity 52 and penetrates through the bottom end of the mounting column 48, the discharging column 56 is fixed at the center of the bottom end of the mounting column 48, the circumference of the discharging channel 61 is uniformly arranged at the center of the discharging column 56, the discharging channel 61, the discharging channel 55 and the feeding channel 53 are arranged oppositely,

wherein, as shown in fig. 16 and 21, the center of the bottom end of the horizontal part of the fourth concave frame plate 14 is provided with a pressing component, the pressing component comprises an air cylinder 62, a pressure plate 63 is fixed at the end part of a piston rod in the air cylinder 62, the outer diameter of the pressure plate 63 is equal to that of the retainer 66,

the working principle and the using process of the invention are as follows:

s1, placing the outer ring to move along with the conveying assembly: the outer ring 65 is placed between the two groups of L-shaped clamping plates 10, the adjusting screw 7 is matched with the sliding block 8 through threads, the sliding block 8 is driven to move in the sliding groove 6 by rotating the adjusting screw 7, so that the two groups of L-shaped clamping plates 10 move oppositely or oppositely, the distance between the two groups of L-shaped clamping plates 10 is adjusted, the outer ring 65 is limited and fixed, and under the transmission action of the transmission assembly, the outer ring 65 is transmitted along with the rotation of the transmission strip 2 driven by the driving wheel 1;

s2, placing a retainer: with the operation of the transmission assembly, the outer ring 65 continuously moves forwards, when the transmission assembly moves to the position right below the retainer assembly, the transmission assembly stops working, the first intermittent motor 28 rotates intermittently at one time, the first rotary disc 23 is driven to rotate once under the action of the first rotary shaft 29, so that the first through groove 24 and the first auxiliary through groove 25 are aligned, and the retainer 66 in the first through groove 24 falls into the first material barrel 26 from the first auxiliary through groove 25 and falls into the lower outer ring 65 through the first material barrel 26;

s3, placing the inner ring: after the retainer 66 is placed, the transmission assembly continues to operate, the outer ring 65 of the rear side and the outer ring 65 of the front side, in which the retainer 66 is placed, continue to move forward, when the outer ring 65 in which the retainer 66 is placed moves to a position right below the inner ring placement assembly, and at the moment, the outer ring 65 of the rear side moves to a position right below the retainer assembly, the process in the step S2 is repeated on the outer ring 65 of the rear side, meanwhile, the second intermittent motor 43 rotates intermittently once, and the second rotating disc 38 is driven to rotate once under the action of the second rotating shaft 44, so that the group of second through grooves 39 is aligned with the second auxiliary through grooves 40, and at the moment, the inner ring 67 in the second through groove 39 falls into the second material barrel 41 from the second auxiliary through grooves 40 and falls into the retainer 66 in the outer ring 65 below through the second material barrel 41;

s4, putting the roller into: after the inner ring 67 is put in, the transmission assembly continues to operate, the outer ring 65 at the rear side, the outer ring 65 at the middle part where the retainer 66 is put in and the outer ring 65 at the front part where the inner ring 67 is put in continue to move forward, when the outer ring 65 at the front part where the inner ring 67 is put in moves to a position right below the roller placing assembly, the outer ring 65 at the middle part where the retainer 66 is put in moves to a position right below the roller placing assembly, the outer ring 65 at the rear side moves to a position right below the retainer assembly, the process in the S2 is repeated on the outer ring 65 at the rear side, meanwhile, the double-headed motor 57 intermittently rotates once, the upper barrier 59 leaks out the feeding channel 53, the lower barrier 60 seals the feeding channel 55, the roller 54 in the feeding channel 53 falls, the double-headed motor 57 intermittently rotates once again, the lower barrier 60 leaks out the feeding channel 55, the upper barrier 59 seals the feeding channel 53, the roller 54 enters the blanking channel 55 to reach the blanking column 56, and enters the roller groove on the retainer 66 through the discharging channel 61 in the blanking column 56;

s5, roller compacting: after the roller 54 is placed, the outer ring 65 on the rear side, the outer ring 65 with the holder 66 placed therein, the outer ring 65 with the inner ring 67 placed therein and the outer ring 65 with the roller 54 placed therein continue to move forward, when the outer ring 65 with the roller 54 placed therein moves to a position right below the pressing assembly, the outer ring 65 with the inner ring 67 placed therein moves to a position right below the roller placing assembly, the process in S4 is repeated, the outer ring 65 with the holder 66 placed therein moves to a position right below the inner ring placing assembly, the process in S3 is repeated, the outer ring 65 on the rear side moves to a position right below the holder assembly, and the process in S2 is repeated, and at the same time, the cylinder 62 works to drive the pressure plate 63 to move downward to press the roller 54;

s6, collecting the blanking, continuing the operation of the transmission component, and when the outer ring 65 moves to the tail end of the conveying strip 2, rotating the placing component to enable the outer ring 65 to fall into the collection box 64 for collection.

Example 2

Referring to fig. 7, 10, 13, 14 and 15, a continuous feeding device for bearing processing is provided in addition to embodiment 1:

the center of the first mounting disc 18 is provided with a first circular groove 27, the first circular groove 27 is internally provided with a first intermittent motor 28, the output end of the first intermittent motor 28 is connected with a first rotating shaft 29, the first rotating shaft 29 penetrates through the top end of the first mounting disc 18 and is fixedly embedded in the center of the bottom end of the first rotary disc 23, the second mounting disc 33 is centrally provided with a second circular groove 42, the second circular groove 42 is internally provided with a second intermittent motor 43, the output end of the second intermittent motor 43 is connected with a second rotating shaft 44, the second rotating shaft 44 penetrates through the top end of the second mounting disc 33 and is fixedly embedded in the center of the bottom end of the second rotary disc 38, the double-head motor 57 is arranged in the center of the rectangular cavity 52, the rotating shafts 58 of the double-head motor 57 are respectively and rotatably embedded in the top end and the center of the rectangular cavity 52, the circumferences of the upper baffle bars 59 are uniformly arranged on the side wall of the upper rotating shaft 58, the circumferences of the lower baffle, the top end of the upper baffle strip 59 is flush with the top end of the rectangular cavity 52, the bottom end of the lower baffle strip 60 is flush with the bottom end of the rectangular cavity 52,

the working principle and the using process of the invention are as follows:

in S2, S3, and S4 in example 1:

the first intermittent motor 28 intermittently rotates once, the first rotary disc 23 is driven to rotate once under the action of the first rotary shaft 29, so that a group of first through grooves 24 and first auxiliary through grooves 25 are aligned, at the moment, the retainer 66 in the first through groove 24 falls into the first material cylinder 26 from the first auxiliary through groove 25 and falls into the lower outer ring 65 through the first material cylinder 26, the second intermittent motor 43 intermittently rotates once, the second rotary disc 38 is driven to rotate once under the action of the second rotary shaft 44, so that a group of second through grooves 39 and second auxiliary through grooves 40 are aligned, at the moment, the inner ring 67 in the second through groove 39 falls into the second material cylinder 41 from the second auxiliary through groove 40 and falls into the retainer 66 in the lower outer ring 65 through the second material cylinder 41, the double-head motor 57 intermittently rotates once, the upper baffle strip 59 leaks the feeding channel 53, the lower baffle strip 60 seals the feeding channel 55, and at the moment, the roller 54 in the feeding channel 53 falls down, the double-end motor 57 intermittently rotates again, the blanking channel 55 is leaked out by the lower barrier strip 60, the feeding channel 53 is sealed by the upper barrier strip 59, the roller 54 enters the blanking channel 55 to reach the blanking column 56, and enters the roller groove on the retainer 66 through the discharging channel 61 in the blanking column 56, and the electrical equipment adopted by the device is subjected to programming control through an external PLC intelligent controller.

Example 3

In addition to embodiment 2, referring to fig. 5, 6, 8, 9, 11 and 12, a continuous feeding device for bearing processing is provided:

a first mounting through groove 15 is formed in one side of the center of a first concave frame plate 11, a retainer placing component is arranged in the first mounting through groove 15, a first connecting groove 16 is symmetrically formed in the top end of the first mounting through groove 15, a first through screw hole 17 is formed in the center of the bottom end of the first connecting groove 16, a first connecting plate 19 matched with the first connecting groove 16 is fixed on the side wall of a first mounting plate 18, a first connecting screw hole 20 is formed in the center of the first connecting plate 19, the first connecting screw hole 20 and the first through screw hole 17 are in threaded connection with a first connecting bolt 21, a second mounting through groove 30 is formed in one side of the center of a second concave frame plate 12, an inner ring placing component is arranged in the second mounting through groove 30, a second connecting groove 31 is symmetrically formed in the top end of the second mounting through groove 30, a second through screw hole 32 is formed in the center of the bottom end of the second connecting groove 31, a second connecting plate 34 matched with the second connecting groove 31 is, a second connecting screw hole 35 is arranged at the center of the second connecting plate 34, a second connecting screw hole 35 and a second through screw hole 32 are in threaded connection with a second connecting bolt 36, a third mounting through groove 45 is arranged at the center of the top end of the third concave frame plate 13, the roller placing component is arranged in the third mounting through groove 45, a third connecting groove 46 is symmetrically arranged at the top end of the third mounting through groove 45, a third through screw hole 47 is arranged at the center of the bottom end of the third connecting groove 46, a third connecting plate 49 matched with the third connecting groove 46 is fixed on the side wall of the mounting column 48, a third connecting screw hole 50 is arranged at the center of the third connecting plate 49, the third connecting screw hole 50 and the third through screw hole 47 are in threaded connection with a third connecting screw hole 50,

the working principle and the using process of the invention are as follows:

by utilizing the insertion fit of the first connecting plate 19 and the first connecting groove 16, the retainer placing component can be fixed on the first concave frame plate 11 in a threaded manner under the threaded fit of the first connecting bolt 21, the first through screw hole 17 and the first connecting screw hole 20, so that the retainer placing component is convenient to mount and dismount; by utilizing the insertion fit of the second connecting plate 34 and the second connecting groove 31, the inner ring placing assembly can be fixed on the second concave frame plate 12 in a threaded manner under the threaded fit of the second connecting bolt 36, the second through screw hole 32 and the second connecting screw hole 35; by utilizing the insertion fit of the third connecting plate 49 and the third connecting groove 46, the roller bearing placing component can be fixed on the third concave frame plate 13 through threads under the screw thread fit of the third connecting bolt 51, the third through screw hole 47 and the third connecting screw hole 50, so that the roller bearing placing component is convenient to mount and dismount.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a continuity charging equipment is used in bearing processing which characterized in that: including two sets of conveying assembly and bearing accessory, conveying assembly is including driving wheel (1) and conveying strip (2), conveying strip (2) set up in driving wheel (1) outside, driving wheel (1) lateral surface center rotates there is bracing piece (3), and is two sets of driving wheel (1) medial surface center is fixed with the connecting rod, the bearing accessory is including outer lane (65), holder (66), inner circle (67) and roller bearing (54), the rolling groove has been seted up to holder (66) medial surface, the outer diameter of holder (66) equals the inner diameter of outer lane (65), be provided with between conveying strip (2) the side and place the subassembly, it includes connecting rod (4), L template (5), spout (6), adjusting screw (7), slider (8), movable rod (9) and L splint (10) to place the subassembly, outer lane (65) are placed on two sets of L splint (10), conveying strip (2) direction of transfer is equidistant in proper order and is provided with concave frame plate (11), No. two concave frame plates (12), No. three concave frame plates (13) and No. four concave frame plates (14), install the holder on concave frame plate (11) and place the subassembly, the holder is placed the subassembly and is placed the subassembly including mounting disc (18), bearing (22), carousel (23), logical groove (24), supplementary logical groove (25) and feed cylinder (26) No. one, install the inner circle on No. two concave frame plates (12) and place the subassembly, the subassembly is placed including No. two mounting disc (33), No. two bearing (37), No. two carousel (38), No. two logical groove (39), supplementary logical groove (40) and No. two feed cylinder (41), be provided with the roller bearing on No. three concave frame plates (13) and place the subassembly, place the roller bearing subassembly including erection column (48), Rectangle cavity (52), material loading way (53), unloading way (55), unloading post (56), double-end motor (57), pivot (58), go up blend stop (59), blend stop (60) and material discharging way (61), No. four concave frame board (14) horizontal part bottom center is provided with compresses tightly the subassembly, compress tightly the subassembly including cylinder (62), the inside piston rod end of cylinder (62) is fixed with pressure disk (63), the external diameter of pressure disk (63) equals the external diameter of holder (66), conveying strip (2) direction of transfer tail end is provided with collecting box (64).

2. The continuous feeding device for bearing processing according to claim 1, wherein: the connecting rod (4) is uniformly arranged between the two groups of side surfaces of the conveying strips (2) at equal intervals, the L-shaped plate (5) is fixed at the end part of the connecting rod (4), the horizontal plane at the top end of the horizontal part of the L-shaped plate (5) is lower than the horizontal plane at the top end of the inner cavity of the conveying strips (2), the sliding chute (6) is arranged at the center of the top end of the horizontal part of the L-shaped plate (5), one end of the sliding chute (6) goes deep into the junction of the horizontal part and the vertical part of the L-shaped plate (5), the adjusting screw (7) is rotatably arranged through the two ends of the sliding chute (6), the thread on the adjusting screw (7) is arranged at the part of the adjusting screw positioned in the sliding chute (6), the sliding block (8) is slidably connected in the sliding chute (6), the top end of the sliding block (8) is parallel and level with the top end of the sliding chute (6), the, the utility model discloses a movable rod (9) end activity runs through spout (6) setting, the length of movable rod (9) slightly is greater than the length of spout (6), L splint (10) are fixed on movable rod (9) top, the interval that a concave type frame plate (11), No. two concave type frame plates (12), No. three concave type frame plates (13) and No. four concave type frame plates (14) were arranged equals the interval that connecting rod (4) were arranged.

3. The continuous feeding device for bearing processing according to claim 1, wherein: the first bearing (22) is arranged at the edge of the top end of the first mounting plate (18), the first rotary plate (23) rotates at the center of the top end of the first mounting plate (18) through the first bearing (22), the height of the first rotary table (23) is greater than that of the first bearing (22), the first through grooves (24) are uniformly arranged on the edge of the top end of the first rotary table (23) in the circumferential direction, the retainer (66) is placed in the first through groove (24), the first auxiliary through groove (25) penetrates through the first mounting plate (18), the first charging barrel (26) is fixed at the edge of the bottom end of the first auxiliary through groove (25), the inner diameters of the first charging barrel (26), the first auxiliary through groove (25) and the first through groove (24) are the same as the outer diameter of the retainer (66), the height of the first charging barrel (26) is larger than the vertical distance from the bottom end of the first mounting disc (18) to the top end of the L-shaped plate (5).

4. The continuous feeding device for bearing processing according to claim 1, wherein: the center of the first mounting disc (18) is provided with a first circular groove (27), a first intermittent motor (28) is arranged in the first circular groove (27), the output end of the first intermittent motor (28) is connected with a first rotating shaft (29), the first rotating shaft (29) penetrates through the top end of the first mounting disc (18) and is fixedly embedded in the bottom center of the first rotary disc (23), one mounting through groove (15) is formed in one side of the center of the first concave frame plate (11), the holder placing assembly is arranged in the one mounting through groove (15), one connecting groove (16) is symmetrically formed in the top end of the one mounting through groove (15), one penetrating screw hole (17) is formed in the bottom center of the one connecting groove (16), one connecting plate (19) matched with the one connecting groove (16) is fixed on the side wall of the first mounting disc (18), one connecting screw hole (20) is formed in the center of the one connecting plate (19), the first connecting screw hole (20) and the first penetrating screw hole (17) are in threaded connection with a first connecting bolt (21).

5. The continuous feeding device for bearing processing according to claim 1, wherein: the second bearing (37) is arranged at the edge of the top end of the second mounting disc (33), the second turntable (38) rotates at the center of the top end of the second mounting disc (33) through the second bearing (37), the height of the second turntable (38) is greater than that of the second bearing (37), the second through grooves (39) are uniformly arranged on the edge of the top end of the second turntable (38) in the circumferential direction, the inner ring (67) is placed in the second through groove (39), the second auxiliary through groove (40) penetrates through the second mounting disc (33), the second charging barrel (41) is fixed at the edge of the bottom end of the second auxiliary through groove (40), the inner diameter of the second charging barrel (41), the second auxiliary through groove (40) and the second through groove (39) is the same as the outer diameter of the inner ring (67), the height of the second charging barrel (41) is larger than the vertical distance from the bottom end of the second mounting disc (33) to the top end of the L-shaped plate (5).

6. The continuous feeding device for bearing processing according to claim 1, wherein: a second circular groove (42) is formed in the center of the second mounting disc (33), a second intermittent motor (43) is arranged inside the second circular groove (42), the output end of the second intermittent motor (43) is connected with a second rotating shaft (44), the second rotating shaft (44) penetrates through the top end of the second mounting disc (33) and is fixedly embedded in the bottom center of the second turntable (38), a second mounting through groove (30) is formed in one side of the center of the second concave frame plate (12), the inner ring placing assembly is arranged in the second mounting through groove (30), a second connecting groove (31) is symmetrically formed in the top end of the second mounting through groove (30), a second penetrating screw hole (32) is formed in the bottom center of the second connecting groove (31), a second connecting plate (34) matched with the second connecting groove (31) is fixed on the side wall of the second mounting disc (33), a second connecting screw hole (35) is formed in the center of the second connecting plate (34), and the second connecting screw hole (35) and the second penetrating screw hole (32) are in threaded connection with a second connecting bolt (36).

7. The continuous feeding device for bearing processing according to claim 1, wherein: rectangle cavity (52) set up and are close to the bottom position at erection column (48) center, material loading says (53) circumference and evenly sets up at rectangle cavity (52) top center and runs through erection column (48) top, roller bearing (54) are piled up and are placed in material loading says (53), material unloading says (55) circumference and evenly sets up at rectangle cavity (52) bottom center and runs through erection column (48) bottom, material unloading post (56) are fixed at erection column (48) bottom center and material unloading says (61) circumference and evenly sets up at material unloading post (56) center, material unloading says (61), material unloading and says (53) and just to setting up.

8. The continuous feeding device for bearing processing according to claim 7, wherein: double-end motor (57) set up at rectangle cavity (52) center, pivot (58) of double-end motor (57) rotate respectively and inlay and establish at rectangle cavity (52) top and top center, go up blend stop (59) circumference and evenly set up pivot (58) lateral wall in the top, blend stop (60) circumference evenly sets up pivot (58) lateral wall in the below down, go up blend stop (59) and lower blend stop (60) space staggered equidistant setting, go up blend stop (59) top and rectangle cavity (52) top parallel and level, blend stop (60) bottom and rectangle cavity (52) bottom parallel and level down.

9. The continuous feeding device for bearing processing according to claim 1, wherein: no. three concave type frame plate (13) top center has been seted up No. three installations and has been led to groove (45), the roller bearing is placed the subassembly and is set up in No. three installations and lead to groove (45), No. three installations lead to groove (45) top symmetry and have been seted up No. three and link groove (46), No. three link groove (46) bottom center has been seted up No. three and has been run through screw (47), be fixed with on erection column (48) lateral wall and link groove (46) complex No. three even board (49) with No. three, No. three is even board (49) center and has been seted up No. three connection screw (50), No. three connection screw (50) and No. three connection screw (47) threaded connection have No. three connecting bolt (51).

10. The use method of any one of the continuous feeding equipment for bearing processing according to claims 1 to 9, characterized in that: also comprises the following steps:

s1, placing the outer ring to move along with the conveying assembly: the outer ring (65) is placed between the two groups of L clamping plates (10), the sliding blocks (8) are driven to move in the sliding grooves (6) by rotating the adjusting screw rods (7) through the threaded matching of the adjusting screw rods (7) and the sliding blocks (8), so that the two groups of L clamping plates (10) move in the opposite direction or in the opposite direction, the distance between the two groups of L clamping plates (10) is adjusted, the outer ring (65) is limited and fixed, and under the transmission action of the transmission assembly, the outer ring (65) is transmitted along with the rotation of the transmission strip (2) driven by the driving wheel (1);

s2, placing a retainer: the outer ring (65) continuously moves forward along with the operation of the transmission assembly, when the transmission assembly moves to the position right below the retainer assembly, the transmission assembly stops working, the first intermittent motor (28) rotates intermittently for one time, the first rotary disc (23) is driven to rotate for one time under the action of the first rotary shaft (29), so that a group of the first through grooves (24) and the first auxiliary through grooves (25) are aligned, and the retainer (66) in the first through groove (24) falls into the first material barrel (26) from the first auxiliary through groove (25) and falls into the lower outer ring (65) through the first material barrel (26);

s3, placing the inner ring: after the retainer (66) is put in, the transmission assembly continues to operate, the outer ring (65) at the rear side and the outer ring (65) at the front side in which the retainer (66) is put continue to move forward, when the outer ring (65) of the placed cage (66) moves to the position right below the inner ring placing component, when the rear outer ring (65) moves to the position right below the holder assembly, the process in S2 is repeated on the rear outer ring (65), and meanwhile, the second intermittent motor (43) rotates intermittently once, under the action of the second rotating shaft (44), the second rotating disc (38) is driven to rotate once, a group of the second through grooves (39) and the second auxiliary through grooves (40) are aligned, and at the moment, the inner ring (67) in the second through grooves (39) falls into the second charging barrel (41) from the second auxiliary through grooves (40) and falls into a retainer (66) in the lower outer ring (65) through the second charging barrel (41);

s4, putting the roller into: after the inner ring (67) is put in, the transmission assembly continues to run, the outer ring (65) at the rear side, the outer ring (65) with the middle holder (66) and the outer ring (65) with the front inner ring (67) continue to move forward, when the outer ring (65) with the front inner ring (67) moves to the position right below the roller placing assembly, the outer ring (65) with the middle holder (66) moves to the position right below the inner ring placing assembly, the outer ring (65) with the middle holder (66) repeats the process in S3, the outer ring (65) at the rear side moves to the position right below the holder assembly, the process in S2 repeats on the outer ring (65) at the rear side, meanwhile, the double-head motor (57) rotates intermittently at one time, the upper blocking strip (59) leaks out the feeding channel (53), the lower blocking strip (60) seals the discharging channel (55), and the roller (54) in the feeding channel (53) drops down, the double-end motor (57) rotates intermittently again, the lower barrier strip (60) leaks the blanking channel (55), the upper barrier strip (59) seals the feeding channel (53), the roller (54) enters the blanking channel (55) to reach the blanking column (56), and enters the rolling groove on the retainer (66) through the discharging channel (61) in the blanking column (56);

s5, roller compacting: after the roller (54) is placed, the outer ring (65) on the rear side, the outer ring (65) with the placed holder (66), the outer ring (65) with the placed inner ring (67) and the outer ring (65) with the placed roller (54) continue to move forward, when the outer ring (65) with the placed roller (54) moves to the position right below the pressing component, the outer ring (65) with the placed inner ring (67) moves to the position right below the roller placing component, the process in S4 is repeated, the outer ring (65) with the placed holder (66) moves to the position right below the inner ring placing component, the process in S3 is repeated, the outer ring (65) on the rear side moves to the position right below the holder component, the process in S2 is repeated, and meanwhile, the air cylinder (62) works to drive the pressure plate (63) to move downwards to press the roller (54);

and S6, collecting the blanking, continuously operating the transmission assembly, and rotating the placement assembly when the outer ring (65) moves to the tail end of the conveying strip (2), so that the outer ring (65) falls into the collection box (64) for collection.

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