SU1256879A1 - Two-jaw swivel chuck - Google Patents

Description

The invention relates to a machine tool industry, in particular, to devices for securing parts to a machine spindle in multilateral machining.

The aim of the invention is to improve the reliability of the clamp due to the accuracy of rotation.

FIG. 1 shows a two-cam rotary chuck, axial section; in fig. 2 - the same, left view; in fig. 3 is a section A-A in FIG. 2 (the position of the elements of the mechanism of rotation after a preliminary rotation of the axle); in fig. 4 - the same, the position of the elements of the mechanism of rotation upon contact of the working surface of the element of the final rotation with the axle polygon; in fig. 5 - the same, the position of the elements of the mechanism of rotation after the final rotation of the axle.

The cartridge includes a housing made of two parts: the main 1 and insert 2, with the housing connector being parallel to the axis of the chuck, axis Vras. In the main part 1 of the housing there is an internal cavity 3 for accommodating the workpiece, and perpendicular to the axis of rotation of the cartridge there is a through hole 4 for accommodating a clamping mechanism and a mechanism for rotating the part. The clamping mechanism comprises a quill 5 with a clamping cam 6 placed in the hole 4, and a rod 7 mounted parallel to the axis of rotation of the chuck and connected with a finger 8 with a pull 9 located in the central bore of the main part 1 of the housing parallel to the axis of rotation of the cartridge. In this case, the rod 7 is made with a wedge surface 10 entering the T-shaped groove of the quill 5. The rotation mechanism comprises a trunnion 11 of a polygon 12 with an adjusting cam 13 placed in the hole 4, and a slider made in the form of a plate 14 mounted parallel to the axis of the pile the cartridge in the case insert 2 and the associated strap 15 with a thrust 16 located in the central bore of the main part 1 of the case parallel to the axis of rotation of the cartridge.

The plate 14 is made with a pre-turn stop 17, a fixing bevel 18, a final turn element in the form of a projection 19 with a working surface 20. The latter is angled to the surface of the fixing bevel 18, equal to the angle between the sides of the polygon 12 of the cross-section of the trunnion 11, and is placed from the axis rotation of the axle 11 at a distance of not more than half of the said polygon 12, i.e., where ii is the distance from the axis of rotation of the axle to the working surface of the element of the final rotation; B - the side of the polygon, and the stop 17 of the preliminary rotation

is placed from the axis of rotation of the trunnion 11 at a distance not less than the radius inscribed in the polygon 12 of the circle, i.e. f Rj, where f is the distance from the axis of the trunnion to the stop of the pre-turn; R-radius inscribed in a polygon

circle.

Hydraulic cylinders (not shown) are mounted on the end face of the machine spindle, providing reciprocating movement of r 9 and 16.

The cartridge works as follows. Work piece 2 is based on an adjusting cam 13 or clamping

the cam 6, after which the piston ha 9 starts moving from the hydraulic cylinder and through the finger 8 - a rod 7 acting on the quill 5. Occurs after pressing the processing part of my piece 21. The polygon 12 of the cross-section of the trunnion 11 is fixed from

twisting the plate 14, the locking bevel 18 of which is in contact with one of its sides.

After finishing one of the sides of the part 21, it is necessary to rotate the trunnion 11 at a given angle, for which the hydraulic cylinder begins to move the rod 16 and through the bar 15 - the plate 14, the fixing bevel 18 of which comes out of contact with the side of the polygon 12. At this, the stop 17 of the preliminary turning

acts on the adjacent side of the polygon 12 and the trunnion 11 begins to rotate counterclockwise until the plate 14 reaches the extreme position. When the plate 14 returns to its original position, the protrusion 19 of the final rotation element with its working surface 20 comes into contact with the fixed side of the polygon 12 and continues to rotate the trunnion 11 in the indicated direction until the fixing bevel

18 will not come into contact with the fixed side of the polygon 12, after which the fixing bevel 18 produces the final fixation of the side of the polygon 12. The turning cycle is over.

After completing the processing of the next

side of the part 21, the operation cycle of the cartridge is repeated.

Compared with the basic object adopted as a prototype, the slider g is designed as a plate, the final turn element is formed as a protrusion on a plate, the working surface of which is at an angle to the surface of the fixing bevel corresponding to the angle between the sides of the axial cross-section polygon and placed from the axis of rotation

 at a distance of not more than half of the side of the said polygon, as well as the placement of the stop of the preliminary rotation from the axis of rotation of the trunnion at a distance

The scientific research institute, not less than the radius inscribed in a polygon of a circle, allows for reciprocating movement of the plate to rotate the trunnion to one side without additional kinematic connections, and placing the stop surfaces on the fixed sides improves the accuracy of part installation, which as a result increases the reliability of the cartridge and the accuracy of the installation details.

The economic effect from the introduction of a two-cam cartridge rotation will be 5750 rubles.

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FIG.

Phage L

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Claims (1)

TWO-CAM SWIVEL CARTRIDGE, in the case of which the rotation mechanism is located, made in the form of a trunnion with a polygonal section in the middle part, a slider with a locking bevel and a preliminary rotation stop contacting the final rotation element with the working surface, characterized in that, in order to increase reliability clamp, the slider is made in the form of a plate, and the final rotation element is placed on it in the form of a protrusion, the working surface of which is located at an angle to the surface of the fixing bevel, equal to Glu between the sides of the polygon of the journal. FIG. 1 (L 1256879 A1