CN108843692B - Steel ball equal dividing device for clutch bearing - Google Patents

Abstract

The invention discloses a novel clutch bearing steel ball equally dividing device which comprises a positioning table and a steel ball equally dividing mechanism, wherein the steel ball equally dividing mechanism comprises a mounting frame, a lifting cylinder, a rotary cylinder, a rotating shaft and equally dividing components, the cylinder is connected with the mounting frame, a circular moving positioning groove coaxially arranged with the rotating shaft is formed in the mounting frame, the equally dividing components comprise a fixed block, a driving sliding block and a rotating sliding block, the driving sliding block and the rotating sliding block can slide along the circular moving positioning groove, the fixed blocks, the rotating sliding block and the driving sliding block are movably connected through circular arc hooks in sequence, the bottom ends of the fixed blocks are respectively fixed with equally dividing heads, and the rotary cylinder is fixedly connected with the driving sliding block through the rotating shaft. This novel clutch bearing steel ball divides device through rotary cylinder drive each partition subassembly rotation to the partition effect that realizes the steel ball is better, and stability is good, can not cause the damage of steel ball, avoids producing the defective goods, and machining efficiency is higher, has guaranteed the precision of bearing.

Description

Steel ball equal dividing device for clutch bearing

Technical Field

The invention relates to the technical field of bearing processing equipment, in particular to a novel clutch bearing steel ball equally dividing device.

Background

In the bearing manufacturing process, the steel balls are required to be uniformly and evenly distributed in the grooves of the inner ring or the outer ring of the bearing, so that the bearing ball distribution retainer is convenient to install. Most of the existing ball dividing devices adopt a ball dividing device which drives each ball inserting needle to descend through a cylinder, and each ball inserting needle is inserted between two steel balls to divide the two steel balls, so that all the steel balls are equally divided, for example, a ball dividing device of a bearing ball dividing retainer assembly machine disclosed in patent number 200810196332.6, and an equally dividing device for a bearing ball dividing retainer assembly machine disclosed in patent number 201520755450.1. However, the aliquoting mechanism often causes bending or fracture of the ball inserting needle in the use process, and the sharp ball inserting needle can easily scratch the steel ball in the descending process, so that the precision of the bearing is affected. In addition, the aliquoting device is only suitable for deep groove ball bearings, and for clutch bearings, due to the structural specificity, sealing rings are installed before aliquoting, if the aliquoting device is used for aliquoting, the ball inserting needle can damage the sealing rings, and therefore the steel balls of the clutch bearings cannot be aliquoted by using the aliquoting device.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a novel clutch bearing steel ball aliquoting device which has high ball dividing efficiency, high precision, no damage to the steel ball and long service life.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a novel clutch bearing steel ball aliquoting device, includes the locating bench that is used for fixed bearing and corresponds the steel ball aliquoting mechanism that sets up in the locating bench top, steel ball aliquoting mechanism includes mounting bracket and the lift cylinder, revolving cylinder, pivot and the aliquoting subassembly of setting on the mounting bracket, the cylinder is connected with the mounting bracket, the cylinder can drive the mounting bracket and go up and down, set up the annular removal constant head tank that sets up with the pivot is coaxial in the mounting bracket, the aliquoting subassembly includes fixed block, drive slider and a plurality of rotation sliders of setting between fixed block and drive slider, rotation slider can slide along annular removal constant head tank, loop through circular-arc couple swing joint between each fixed block, rotation slider and the drive slider, and accessible circular-arc couple gathers together or the equidistance spreads between fixed block, each fixed block, rotation slider and the drive slider bottom is fixed with the aliquoting head respectively, revolving cylinder is fixed on the mounting bracket top, and the revolving cylinder makes the drive slider revolute axle center rotation of rotation slider, realizes fixed block, rotation slider, drive aliquoting arrangement.

In order to facilitate the realization of the equal division or gathering of each fixed block, the rotating slide block and the driving slide block, the invention designs a special arc-shaped hook as a connecting piece thereof, wherein the arc-shaped hook comprises a fastening part and a hook part, the fastening part is fixedly connected with one end of the fixed block, the rotating slide block or the driving slide block, and the hook part is clamped with the adjacent fixed block, the rotating slide block or the driving slide block.

In order to improve the lubrication effect and prevent the fixed block, the rotating slide block and the driving slide block from being blocked with the circular moving positioning groove, the fixed block, the rotating slide block and the driving slide block are preferably made of copper materials.

In order to facilitate the equal head to drive each steel ball to move and prevent the equal head from scratching the steel ball, the bottom end of the equal head is provided with an arc-shaped groove corresponding to the steel ball.

In order to facilitate positioning and installation, the equally dividing head is fixedly connected with each fixed block or each rotary sliding block or each driving sliding block through a positioning screw.

In order to facilitate driving of the driving slide block, the rotating shaft is fixedly connected with the driving slide block through a moving pin.

In order to ensure the stability of the rotary cylinder, the rotary cylinder is connected with the rotating shaft through the diaphragm type coupler, and the rotary cylinder can keep a certain force no matter whether the ball separation starts or ends, so that the ball separation head cannot slide, and the positioning is better, therefore, the rotary cylinder is obviously superior to a motor.

Preferably, the equal dividing assembly comprises a fixed block, a driving sliding block and twelve rotating sliding blocks.

The beneficial effects of the invention are as follows: this novel clutch bearing steel ball divides device through rotary cylinder drive each partition subassembly rotation to the partition effect that realizes the steel ball is better, and stability is good, can not cause the damage of steel ball, avoids producing the defective goods, and machining efficiency is higher, has guaranteed the precision of bearing.

Drawings

FIG. 1 is a schematic diagram of a novel clutch bearing steel ball aliquoting device of the present invention;

FIG. 2 is a schematic view of the structure of the present invention when the bisecting assembly is gathered;

FIG. 3 is a schematic view of the horizontal deployment of the bisecting assembly of the present invention;

FIG. 4 is a schematic view of the arc hook of the present invention;

FIG. 5 is a schematic illustration of the structure of the present invention prior to aliquoting of the aliquoting assembly;

FIG. 6 is a schematic illustration of the structure of the present invention after aliquoting of the aliquoting assembly;

FIG. 7 is a schematic illustration of the structure of the present invention prior to halving;

fig. 8 is a schematic diagram of the structure of the invention after the dividing head is divided equally.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the attached drawings so that the advantages and features of the present invention can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present invention. The directional terms referred to in the present invention, such as "up", "down", "front", "back", "left", "right", "top", "bottom", etc., refer only to the directions of the attached drawings. Accordingly, directional terminology is used to describe and understand the invention and is not limiting of the invention.

As shown in fig. 1-3, the novel clutch bearing steel ball aliquoting device comprises a positioning table 14 for fixing a bearing and a steel ball aliquoting mechanism correspondingly arranged above the positioning table 14, wherein the steel ball aliquoting mechanism comprises a mounting frame 3, a lifting cylinder 1, a rotating cylinder 2, a rotating shaft 5 and an aliquoting component 8 which are arranged on the mounting frame 3, the cylinder 1 is connected with the mounting frame 3, the cylinder 1 can drive the mounting frame 3 to lift, a circular moving positioning groove 7 coaxially arranged with the rotating shaft 5 is arranged at the bottom end of the mounting frame 3, the size of the circular moving positioning groove 7 corresponds to the size of the aliquoting component 8, and the circular moving positioning groove 7 is pressed by an outer cover 10.

The bisection assembly 8 comprises a fixed block 81, a driving sliding block 83 and twelve rotating sliding blocks 82 arranged between the fixed block 81 and the driving sliding block 83, the fixed block 81, the rotating sliding block 82 and the driving sliding block 83 are made of copper materials, the driving sliding block 83 and the rotating sliding block 82 can slide along the circular moving positioning groove 7, the fixed blocks 81, the rotating sliding block 82 and the driving sliding block 83 are sequentially connected through circular arc hooks 84 in a movable mode, the fixed blocks 81, the rotating sliding block 82 and the driving sliding block 83 can be gathered together or are dispersed at equal intervals through the circular arc hooks 84, the bottom ends of the fixed blocks 81, the rotating sliding block 82 and the driving sliding block 83 are respectively fixed with the bisection heads 11, the bisection heads 11 are fixedly connected with the fixed blocks 81 or the rotating sliding block 82 or the driving sliding block 83 through positioning screws 12, arc grooves corresponding to the steel balls 13 are formed in the bottom ends of the bisection heads 11, the rotating cylinder 2 is fixed at the top ends of the mounting frame 3, the rotating cylinder 2 is connected with the rotating shaft 5 through the diaphragm coupling 4, the bearing 6 is connected between the rotating shaft 5 and the rotating shaft 3, the sliding block 5 is fixedly connected with the rotating shaft 83 through the moving pins 9 and the rotating cylinder 83, the rotating shaft 5 can be fixedly arranged through the rotating pins 9 and the rotating cylinder 83, and the rotating shaft 83 can be fixedly arranged through the rotating shaft 83, and the rotating shaft 83.

The circular arc hook 84 shown in fig. 4 comprises a fastening portion 841 and a hook portion 842, wherein the fastening portion 841 is fixedly connected with one of the rotating sliders 82, and the hook portion 842 is engaged with the adjacent rotating slider 82, so that when one of the rotating sliders 82 rotates, the other rotating slider 82 can be driven to rotate.

During processing, the bearing is placed on the positioning table 14, the steel balls 13 are placed in the bearing, the steel balls 13 are gathered together, at the moment, the equal-dividing assemblies are gathered together, the state of the equal-dividing assemblies is shown in fig. 5, and the states of the equal-dividing heads 11 and the steel balls 13 are shown in fig. 7; the control switch is turned on, the lifting cylinder 1 drives the whole mounting frame 3 to descend, the steel balls 13 are positioned in the arc-shaped grooves at the bottom end by the halving heads 11 of the halving assemblies, at the moment, the rotary cylinder 2 starts to rotate, the driving sliding block 83 is driven to rotate through the rotating shaft 5, the driving sliding block 83 drives the rotating sliding blocks 82 to rotate around the center of the rotating shaft 5, the fixed block 81 is fixed, the driving sliding block 83 finally rotates to the end point, the state of the driving sliding block is shown in fig. 6, the states of the halving heads 11 and the steel balls 13 are shown in fig. 8, and 14 halving assemblies equally divide 14 steel balls 13, so that processing is completed.

The technical problems, technical solutions and advantageous effects solved by the present invention have been further described in detail in the above-described embodiments, and it should be understood that the above-described embodiments are only illustrative of the present invention and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the scope of protection of the present invention.

Claims (6)

1. The utility model provides a clutch bearing steel ball halving device, includes the locating platform that is used for fixed bearing and corresponds the steel ball halving mechanism that sets up in the locating platform top, its characterized in that: the steel ball dividing mechanism comprises a mounting frame, a lifting cylinder, a rotary cylinder, a rotating shaft and an dividing assembly, wherein the lifting cylinder, the rotary cylinder, the rotating shaft and the dividing assembly are arranged on the mounting frame, the cylinder is connected with the mounting frame and can drive the mounting frame to lift, a circular moving positioning groove which is coaxially arranged with the rotating shaft is formed in the mounting frame, the dividing assembly comprises a fixed block, a driving sliding block and a plurality of rotating sliding blocks which are arranged between the fixed block and the driving sliding block, the rotating shaft is fixedly connected with the driving sliding block through a moving pin, the driving sliding block and the rotating sliding block can slide along the circular moving positioning groove, the fixed block, the rotating sliding block and the driving sliding block are movably connected through circular arc hooks in sequence, the circular arc hooks can gather or are equidistantly dispersed among the fixed block, the rotating sliding block and the driving sliding block, the bottom ends of the fixed block and the driving sliding block are respectively fixed with dividing heads, the rotary cylinder is fixed at the top end of the mounting frame, and the rotating cylinder is fixedly connected with the driving sliding block through the rotating shaft, and the driving sliding block can drive the driving sliding block to rotate around the center of the rotating shaft through the rotating shaft, so that the driving sliding block and the rotating sliding blocks rotate around the center of the rotating shaft;

the circular arc-shaped hook comprises a fastening part and a hook part, wherein the fastening part is fixedly connected with one end of a fixed block or a rotating sliding block or a driving sliding block, and the hook part is clamped with the adjacent fixed block or the rotating sliding block or the driving sliding block.

2. The clutch bearing steel ball aliquoting device of claim 1, wherein: the fixed block, the rotary slide block and the driving slide block are made of copper materials.

3. The clutch bearing steel ball aliquoting device of claim 1, wherein: and the bottom end of the equal dividing head is provided with an arc-shaped groove corresponding to the steel ball.

4. The clutch bearing steel ball aliquoting device of claim 1, wherein: the equal dividing heads are fixedly connected with each fixed block or the rotating sliding block or the driving sliding block through positioning screws.

5. The clutch bearing steel ball aliquoting device of claim 1, wherein: the rotary cylinder is connected with the rotating shaft through a diaphragm type coupler.

6. The clutch bearing steel ball aliquoting device of claim 1, wherein: the equal dividing assembly comprises a fixed block, a driving sliding block and twelve rotating sliding blocks.