CN114952512B - Ball round pin processingequipment convenient to use - Google Patents

Abstract

The application relates to a ball pin processing device convenient to use, and relates to the field of ball pin processing, comprising a frame, wherein a cutter for grinding an elastic sleeve is arranged on the frame; at least one pair of limiting tables is provided with a limiting groove, a supporting section is arranged in the limiting groove and is matched with the through hole, the supporting section is arranged along the radial direction of the limiting groove, the upper end part of each limiting table is provided with a connecting groove communicated with the limiting groove, the width of each connecting groove is matched with the end part of each ball pin, and when the elastic sleeve is coaxial with the limiting groove, the pin body is abutted against the inner wall of the limiting groove; the first driving piece is arranged on the limiting table and used for driving the supporting section to axially rotate around the limiting groove. The automatic ball pin grinding machine can automatically control the rotation of the ball pin, realizes grinding of the elastic sleeve, does not need manual holding and control of a user, and has the effect of saving manpower, and the operation is convenient.

Description

Ball round pin processingequipment convenient to use

Technical Field

The application relates to the field of ball pin processing, in particular to a ball pin processing device convenient to use.

Background

The ball pin is mainly used for realizing the up-and-down jumping and steering movement of wheels. In order to improve the service life of the ball pin, an elastic sleeve is arranged outside a bearing shell of the pin, and the elastic sleeve is used for enhancing the oil resistance, wear resistance, low temperature resistance, aging resistance and other capacities of the ball pin.

Referring to fig. 1, the bearing housing 200 is located at a middle position of the pin body 100 in a length direction, the elastic sleeve 300 is sleeved outside the bearing housing 200, annular bosses 201 limiting the position of the elastic sleeve 300 are integrally formed at both ends of the bearing housing 200, both ends of the pin body 100 in the length direction are flat, and the through holes 101 are formed. The elastic sleeve 300 is made of rubber or polyurethane, and is molded between the two annular bosses 201 of the bearing housing 200 by injection molding; the injection molding process may result in irregular edges of the elastic sleeve 300, and grinding is required after the elastic sleeve 300 is solidified, and the grinding is generally performed by manually holding the ball pin close to the cutter 2.

In view of the above-mentioned related art, the inventor believes that the present manual processing method always requires manual supporting of the position of the ball pin and control of the rotation of the ball pin, and is labor-consuming especially when the ball pin is heavy.

Disclosure of Invention

In order to save the manpower, the application provides a ball pin processingequipment convenient to use.

The application provides a ball round pin processingequipment convenient to use adopts following technical scheme:

a ball pin processing device for ease of use, comprising:

a frame on which a cutter for grinding the elastic sleeve is arranged;

at least one pair of limiting tables is provided with a limiting groove, a supporting section is arranged in the limiting groove and is matched with the through hole, the supporting section is arranged along the radial direction of the limiting groove, the upper end part of each limiting table is provided with a connecting groove communicated with the limiting groove, the width of each connecting groove is matched with the end part of each ball pin, and when the elastic sleeve is coaxial with the limiting groove, the pin body is abutted against the inner wall of the limiting groove;

the first driving piece is arranged on the limiting table and used for driving the supporting section to axially rotate around the limiting groove.

Through adopting above-mentioned technical scheme, in the through-hole at ball round pin both ends was inserted respectively to two supporting sections of user control, the edge butt of cutter and elastic sleeve, then utilize first driving piece control supporting section to rotate, and then drive the ball round pin and rotate, realize grinding the different positions department of elastic sleeve circumference, need not the manual hand of user, convenient operation uses manpower sparingly.

Optionally, the cutter is equipped with a pair of at least, and a pair of cutter corresponds a pair of spacing platform, and when the ball round pin was located between two axis of rotation, the elastic sleeve was located between a pair of cutter that corresponds, and both ends all with the cutter butt that corresponds.

Through adopting above-mentioned technical scheme, when the axis of rotation drove the ball round pin and rotated, a pair of cutter grind the both ends of elastic sleeve simultaneously, need not the manual upset ball round pin of user and can process simultaneously the elastic sleeve both ends, is favorable to using manpower sparingly.

Optionally, the length of the supporting section is the same as the diameter of the limiting groove.

Through adopting above-mentioned technical scheme, the both ends of supporting section all with the cell wall butt of spacing groove, and then make the ball round pin give the pressure conduction of supporting section to the locating part on, be difficult for making the axis of rotation bear great pressure, be favorable to prolonging the life of axis of rotation.

Optionally, the first driving piece includes the go-between, go-between and spacing groove coaxial and with the inner wall rotation of spacing groove be connected, the go-between has offered the opening with the spread groove adaptation, the one end and the go-between fixed connection of support section.

Through adopting above-mentioned technical scheme, ball round pin and go-between butt, the go-between drives the synchronous rotation of support section, does not have relative rotation between go-between and the ball round pin, and the ball round pin rotates and is difficult for causing wearing and tearing to the surface of ball round pin, is difficult for influencing ball round pin quality.

Optionally, the frame upper end is equipped with two mutually parallel feed bars, and the frame is equipped with and is used for promoting the gliding second driving piece of ball round pin along feed bar length direction, and the feed opening with ball round pin tip width adaptation has all been seted up to the part that the feed bar is located the axis of rotation top, and swing joint has and is used for the blind layer board of feed opening, and the frame is equipped with the third driving piece that is used for controlling the layer board and goes up and down.

By adopting the technical scheme, the second driving piece drives the ball pin to slide along the length direction of the feeding rod, and when the ball pin moves to the feeding hole, the ball pin is supported by the supporting plate; the third driving piece drives the supporting plate to descend, so that the ball pin can be driven to descend between a pair of rotating shafts for processing; after the processing is finished, the supporting plate supports the ball pin to rise, so that the ball pin can return to the feeding rod, the second driving piece continues to push the ball pin to move, the processes are repeated, the ball pins are automatically processed one by one, and the manual operation of a user is less in the process, so that the labor is saved.

Optionally, two the material loading pole is close to each other one side all offered with the last silo of ball round pin tip adaptation, the upper and lower both sides of ball round pin tip all with the cell wall butt of last silo.

Through adopting above-mentioned technical scheme, the material loading groove can play spacing effect to the tip of ball round pin, makes the autumn ball round pin when moving on the stock pole, and then ensures when the ball round pin gets into the spacing inslot, and the axis of through-hole keeps vertical, and then makes the supporting segment insert in the through-hole that corresponds smoothly, simple structure is effectual.

Optionally, two support plates are respectively and fixedly provided with a vertical plate at one side deviating from each other.

Through adopting above-mentioned technical scheme, the riser can play limiting displacement to the ball round pin, and the ball round pin is difficult for removing along self length direction, is difficult for causing the skew of through-hole and supporting segment, is favorable to reducing the fault rate.

Optionally, the limit table upper end has set firmly two at least groups limiting plate, and a set of limiting plate corresponds a limit table, and the upper end and the feed rod fixed connection of limiting plate are equipped with the perpendicular groove with layer board width adaptation between two limiting plates of same group, and the upper end and the feed opening intercommunication of perpendicular groove, lower tip and spread groove intercommunication.

Through adopting above-mentioned technical scheme, the layer board drives the tip of ball round pin and descends in erecting the inslot, erects the groove and can play spacing effect to the ball round pin, and then makes the support section insert in the through-hole smoothly, is favorable to reducing the fault rate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the user controls the two supporting sections to be respectively inserted into the through holes at the two ends of the ball pin, the cutter is abutted with the edge of the elastic sleeve, then the first driving piece is used for controlling the supporting sections to rotate, and further the ball pin is driven to rotate, so that grinding is carried out at different positions in the circumferential direction of the elastic sleeve, the user does not need to manually hold the elastic sleeve, and the operation is convenient and labor is saved;

2. when the rotating shaft drives the ball pin to rotate, a pair of cutters grind the two ends of the elastic sleeve at the same time, and the two ends of the elastic sleeve can be processed at the same time without manually turning the ball pin by a user, so that the labor is saved;

3. the second driving piece drives the ball pin to slide along the length direction of the feeding rod, and when the ball pin moves to the feeding opening, the ball pin is supported by the supporting plate; the third driving piece drives the supporting plate to descend, so that the ball pin can be driven to descend between a pair of rotating shafts for processing; after the processing is finished, the supporting plate supports the ball pin to rise, so that the ball pin can return to the feeding rod, the second driving piece continues to push the ball pin to move, the processes are repeated, the ball pins are automatically processed one by one, and the manual operation of a user is less in the process, so that the labor is saved.

Drawings

FIG. 1 is a schematic view of a ball pin in the background of the invention section of the present application.

Fig. 2 is a schematic overall structure of embodiment 1 of the present application.

Fig. 3 is a schematic view of a structure aimed at highlighting the limit table.

Fig. 4 is a schematic cross-sectional structure of the stopper.

Fig. 5 is a schematic overall structure of embodiment 2 of the present application.

Reference numerals illustrate: 100. a pin body; 101. a through hole; 200. a bearing housing; 201. an annular boss; 300. an elastic sleeve; 1. a frame; 2. a cutter; 3. a limiting table; 31. a limit groove; 32. a connecting groove; 4. a support section; 5. a first driving member; 51. a connecting ring; 511. tooth-like projections; 52. a gear; 53. a motor; 6. a feeding frame; 61. a feeding rod; 611. feeding a trough; 612. a feed opening; 62. a second driving member; 7. a lifting member; 71. a supporting plate; 711. a riser; 72. a third driving member; 73. a limiting plate; 74. vertical grooves.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses a ball pin processingequipment convenient to use.

Example 1:

referring to fig. 2 and 3, a ball pin processing device convenient to use comprises a frame 1, wherein a loading frame 6 is arranged at the upper end part of the frame 1, a user places a ball pin to be processed on the loading frame 6, and the loading frame 6 conveys the ball pin; the cutter 2 is installed to material loading frame 6 below, and lifting part 7 is installed to cutter 2 top, and lifting part 7 control material loading frame 6 goes up to the ball round pin of cutter 2 top and descends to cutter 2 department and process, then control the ball round pin that the processing was accomplished to rise back to material loading frame 6 and transport out.

Referring to fig. 1, at the start of the process, the user controls the movement of the pins to be processed into the upper magazine 6. The feeding frame 6 comprises two feeding rods 61 which are parallel to each other, and the two feeding rods 61 are horizontally arranged along the length direction of the frame 1, so that the whole processing device is slender and occupies a small space; a space with the length of the ball pin being matched is reserved between the two feeding rods 61, and the ball pin moves between the two feeding rods 61.

The feeding groove 611 matched with the end part of the ball pin is arranged on one side, close to each other, of the two feeding rods 61, two ends of the ball pin are respectively embedded into the feeding groove 611 on the corresponding side, and the upper end face and the lower end face of the end part of the ball pin are respectively abutted with the groove wall of the feeding groove 611, so that the ball pin is limited by the feeding groove 611, and cannot rotate and can only slide along the length direction of the feeding frame 6.

Referring to fig. 1, the frame 1 is mounted with a second driving member 62 for pushing the ball pin to slide along the length direction of the feeding rod 61. The second driving member 62 may be a cylinder or a cam mechanism (not shown), and in this embodiment, a cylinder is selected; the second driving member 62 is mounted on one end of the frame 1, which is close to the ball pin and enters the feeding frame 6, and the output end of the cylinder is close to the feeding frame 6 and periodically contracts.

The output end of the air cylinder pushes the ball pins between the two feeding rods 61 when being extended, the ball pins push each other, and the distance that all the ball pins between the two feeding rods 61 push one ball pin to the other end of the frame 1 is realized; and a distance between the ball pin and the ball pin is reserved during shrinkage, so that the ball pin to be processed is convenient to be supplemented later.

Referring to fig. 2 and 3, the cutter 2 is fixedly installed on the frame 1 below the upper material frame 6, and when one ball pin moves right above the cutter 2, the lowering of the ball pin is controlled by the lifter 7. The lifting piece 7 is provided with two groups corresponding to the feeding rods 61 and is positioned below the corresponding feeding rods 61, so that when the ball pin descends, the two ends of the ball pin are supported simultaneously, and the ball pin is kept to descend horizontally.

Referring to fig. 2, the elevating member 7 includes a pallet 71 and a third driving member 72, the third driving member 72 is a cylinder, the cylinder of the third driving member 72 is fixed to the frame 1 with an output end directed vertically upward, and the pallet 71 is fixed to the output end of the third driving member 72. When the ball pin moves, the output end of the third driving piece 72 is in an extension state, the positions of the two feeding rods 61 right above the third driving piece 72 are provided with the discharging openings 612 matched with the supporting plates 71, at the moment, the supporting plates 71 are embedded into the corresponding discharging openings 612, the width of the discharging openings 612 is matched with the end parts of the ball pin, the supporting plates 71 seal the discharging openings 612, and the ball pin can be prevented from falling from the discharging openings 612 accidentally.

Referring to fig. 2 and 3, the ball pin directly above the cutter 2 is supported by the supporting plate 71, and the output end of the third driving member 72 contracts to drive the supporting plate 71 to descend, that is, to drive the corresponding ball pin to descend from the blanking port 612 to the position below the feeding rod 61, so that the ball pin gradually approaches the cutter 2.

Referring to fig. 2, the lifter 7 further includes a riser 711 for limiting the ball pin on the pallet 71. The riser 711 integrated into one piece is in the one end that the layer board 71 of two lifters 7 deviate from each other, and the interval between two risers 711 and the length adaptation of ball round pin, the riser 711 of the corresponding side of butt respectively in the both ends of ball round pin, and then the ball round pin on the restriction layer board 71 can not take place to remove along self length direction.

Referring to fig. 2, the lifting member 7 further includes two limiting plates 73 for limiting the ball pins on the supporting plate 71, the two limiting plates 73 are all vertically arranged, the upper ends of the two limiting plates 73 are fixedly connected with the corresponding feeding rods 61, and vertical grooves 74 adapted to the discharging openings 612 and the end parts of the ball pins are reserved between the two limiting plates 73, so that the ball pins on the supporting plate 71 are limited from two sides; the limiting plate 73 cooperates with the vertical plate 711 to limit the ball pin on the supporting plate 71 from different directions, so as to limit the supporting plate 71 to drive the ball pin to vertically descend.

Referring to fig. 2 and 3, the positions of the frame 1 below the two lifting members 7 are fixedly provided with limiting tables 3, the lower end parts of the limiting plates 73 are fixedly connected with the corresponding limiting tables 3, and the supporting plates 71 drive ball pins thereon to gradually approach the limiting tables 3. The upper end of the limiting table 3 is provided with a connecting groove 32, the connecting groove 32 is communicated with the vertical groove 74 and is matched with the end of the ball pin, and the ball pin gradually descends into the connecting groove 32.

Referring to fig. 2 and 3, the limiting table 3 is provided with a limiting groove 31 communicated with the connecting groove 32, the limiting groove 31 is in an arc shape with a horizontal axis, and the supporting plate 71 drives the ball pin to gradually fall into the limiting groove 31. The support section 4 is installed in the limit groove 31, the support section 4 is arranged along the radial direction of the limit groove 31, when the ball pin enters the limit groove 31, the support section 4 is in a vertical state, and along with the falling of the ball pin, the support section 4 is inserted into the through hole 101 at the end part of the ball pin.

Referring to fig. 3 and 4, a connecting ring 51 is coaxially and rotatably connected in the limiting groove 31, and the lower end of the supporting section 4 is fixedly connected with the connecting ring 51. The length of the supporting section 4 is the same as the diameter of the limiting groove 31, the connecting ring 51 is provided with an opening matched with the connecting groove 32, the ball pin enters the connecting ring 51 through the opening, when the elastic sleeve 300 of the ball pin is overlapped with the axis of the limiting groove 31, the end part of the ball pin is abutted with the inner wall of the connecting ring 51, at the moment, the connecting ring 51 is overlapped with the circumcircle of the end part of the ball pin, and the ball pin can not move downwards any more.

Referring to fig. 3, the cutter 2 is located at a position between the two limiting tables 3, the cutter 2 is provided with a pair, when the elastic sleeve 300 of the ball pin is overlapped with the axis of the limiting groove 31, the elastic sleeve 300 is located between the corresponding pair of cutters 2, and both ends of the elastic sleeve are abutted with the corresponding cutters 2; the frame 1 is provided with a first driving piece 5 for driving the supporting section 4 to rotate around the axial direction of the limiting groove 31, at this time, a user controls the supporting section 4 to rotate by using the first driving piece 5, and the ball pin is driven to rotate, so that the two ends of the elastic sleeve 300 can be ground simultaneously.

Referring to fig. 3 and 4, the first driving member 5 includes two motors 53, the two motors 53 are fixedly mounted on the corresponding limiting tables 3, the output ends of the two motors 53 are fixedly mounted with gears 52, a plurality of toothed protrusions 511 meshed with the two gears 52 simultaneously are fixed on the outer wall of the connecting ring 51, and the two motors 53 drive the two gears 52 to synchronously rotate in the same direction, so as to drive the connecting ring 51 and the limiting tables 3 to rotate relatively; the connecting ring 51 drives the supporting section 4 to rotate, so that the ball pin is driven to rotate, and different positions of the elastic sleeve 300 in the circumferential direction are contacted with the cutter 2 to realize processing.

Referring to fig. 4, a line between two gears 52 intersects with an axis of the limiting groove 31, that is, the connection ring 51 is rotated to any angle, at least one gear 52 is engaged with the toothed protrusion 511 of the connection ring 51, thereby securing the rotation of the connection ring 51.

Referring to fig. 2 and 4, after the machining is completed, the connection ring 51 is rotated to a state in which the opening is upward, at this time, the support section 4 is returned to the vertical state, at this time, the third driving member 72 controls the supporting plate 71 to rise to lift the machined ball pin between the two feeding rods 61, and the supporting plate 71 closes the discharging opening 612; and then the second driving piece 62 drives the ball pins to push in the direction away from the second driving piece 62, and the above steps are repeated to realize automatic processing of the ball pins one by one. Because the ball pin is not required to be manually supported by a user in the processing process, the ball pin is not required to be manually rotated by the user, and even the ball pin is not required to be manually replaced by the user, the labor-saving effect is better.

The implementation principle of embodiment 1 of the present application is: the user controls the ball pin to be processed to move into the upper material rack 6, the second driving piece 62 pushes the ball pin to move between the two material loading rods 61, and when the ball pin moves to the position right above the cutter 2, the third driving piece 72 controls the supporting plate 71 to drive the ball pin to descend; along with the falling of the ball pin, the supporting section 4 is inserted into the through hole 101 at the end part of the ball pin, the connecting ring 51 is overlapped with the circumcircle at the end part of the ball pin, the ball pin can not move downwards any more, at the moment, the first driving piece 5 drives the connecting ring 51 to rotate, and then drives the ball pin to rotate, so that different circumferential positions of the elastic sleeve 300 are contacted with the cutter 2 to realize processing, after the processing is finished, the second driving piece 62 pushes the ball pin back onto the feeding rod 61, and the steps are repeated to realize automatic processing of the ball pins one by one. Because the ball pin is not required to be manually supported by a user in the processing process, the ball pin is not required to be manually rotated by the user, and even the ball pin is not required to be manually replaced by the user, the labor-saving effect is better.

Example 2:

referring to fig. 5, the present embodiment is mainly different from embodiment 1 in that: a plurality of pairs of cutters 2 can be arranged on the frame 1, each pair of cutters 2 corresponds to a pair of limiting tables 3 and corresponds to a pair of lifting pieces 7, the number and the positions of the feed openings 612 correspond to the cutters 2, the second driving piece 62 controls the ball pins to feed the corresponding number of the ball pins each time to occupy the length, and then all the lifting pieces 7 simultaneously drive the ball pins to descend to the corresponding cutters 2 for processing, so that the processing efficiency is higher and the labor is saved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (4)

1. Ball round pin processingequipment convenient to use, characterized by, include:

a frame (1) on which a cutter (2) for grinding the elastic sleeve (300) is arranged;

at least one pair of limiting tables (3) provided with limiting grooves (31), wherein a supporting section (4) is arranged in each limiting groove (31), each supporting section (4) is matched with a through hole (101), each supporting section (4) is arranged along the radial direction of each limiting groove (31), a connecting groove (32) communicated with each limiting groove (31) is formed in the upper end part of each limiting table (3), the width of each connecting groove (32) is matched with the end part of each ball pin, and when an elastic sleeve (300) is coaxial with each limiting groove (31), a pin body (100) is abutted against the inner wall of each limiting groove (31);

the first driving piece (5) is arranged on the limiting table (3) and is used for driving the supporting section (4) to axially rotate around the limiting groove (31);

two mutually parallel feeding rods (61) are arranged at the upper end part of the frame (1), the frame (1) is provided with a second driving piece (62) for pushing the ball pins to slide along the length direction of the feeding rods (61), a blanking opening (612) which is matched with the width of the end part of the ball pins is formed in the part of the feeding rods (61) above the rotating shaft, the blanking opening (612) is movably connected with a supporting plate (71) for sealing the blanking opening (612), and the frame (1) is provided with a third driving piece (72) for controlling the supporting plate (71) to lift;

one side of each feeding rod (61) close to each other is provided with a feeding groove (611) matched with the end part of the ball pin, and the upper side and the lower side of the end part of the ball pin are abutted with the groove wall of the feeding groove (611);

one side, away from each other, of the two supporting plates (71) is fixedly provided with a vertical plate (711);

the upper end of the limiting table (3) is fixedly provided with at least two groups of limiting plates (73), one group of limiting plates (73) corresponds to one limiting table (3), the upper ends of the limiting plates (73) are fixedly connected with the feeding rod (61), vertical grooves (74) which are matched with the widths of the supporting plates (71) are formed between the two limiting plates (73) in the same group, the upper ends of the vertical grooves (74) are communicated with the discharging opening (612), and the lower ends of the vertical grooves are communicated with the connecting grooves (32).

2. A pin processing apparatus for easy-to-use as defined in claim 1, wherein: the cutting tools (2) are at least provided with a pair, the pair of cutting tools (2) corresponds to the pair of limiting tables (3), when the ball pin is positioned between the two rotating shafts, the elastic sleeve (300) is positioned between the corresponding pair of cutting tools (2), and two ends of the elastic sleeve are in butt joint with the corresponding cutting tools (2).

3. A pin processing apparatus for easy-to-use as defined in claim 1, wherein: the length of the supporting section (4) is the same as the diameter of the limiting groove (31).

4. A pin processing apparatus for easy to use as defined in claim 3, wherein: the first driving piece (5) comprises a connecting ring (51), the connecting ring (51) is coaxial with the limiting groove (31) and is rotationally connected with the inner wall of the limiting groove (31), an opening matched with the connecting groove (32) is formed in the connecting ring (51), and one end of the supporting section (4) is fixedly connected with the connecting ring (51).