SU252502A1 - - Google Patents

Description

This invention relates to ion-optical devices of accelerator systems.

Collimators for charged particle beams are known, consisting of a vacuum chamber, cheeks, independent remote drives connected to the cheeks.

The cheeks are placed in a rectangular vacuum chamber and are moved by four cylindrical guides with special ball gaps using independent drives. The guides are fixed on the walls of the vacuum chamber. The size of a collimated beam can be from hundreds of millimeters to tenths of a millimeter. The work of collimators should ensure strict parallelism of the working surfaces of the cheeks when moving them in a given limit.

The purpose of the invention is to simplify the design, reduce its weight and improve the accuracy of collimation.

This is achieved by the fact that the mechanism for moving the cheeks consists of two guiding rails arranged parallel to each other, with guide rails parallel to each other with four axles placed between the tubes and through the lugs through the lugs connected to the rods, the other ends which pivotally connected with the ears located on the cheeks of the collimator.

FIG. 1 and 2 shows the proposed collimator.

The main elements of the collimator are camera 1, suspension 2, cheeks 3, actuators 4. The collimator cheeks are attached to flange 5 by means of suspension 2, made in the form of two double hinged parallelograms. The earrings b of the pendant are connected in pairs by shafts /, ensuring simultaneous movement of both ends of the cheek. All pivot joints are made with standard angular contact bearings, and bushing bushings are gland bearings. Thus, the backlash in the hinged joints is minimized. Earrings 6 are subjected to a tensile force in a vertical collimator and a tensile compressive (in pairs) —in a horizontal collimator and with a small length, they have a small cross section. The reciprocating movement of the cheeks is replaced by oscillatory. Movement of the cheek collimator is reported

from the electric mechanism 8 through the screw 9. To provide a linear reference for moving the cheek, screw 9 is connected to the cheek 3 by means of a ball bearing 10, rolling the slot 11 along the groove. Spring couplings 12

when the thread of the screw screw 9 and the nut 13 is worn out. The contact strips 14 disconnect the drive motors at a given gap between the cheeks, excluding their impact. The indication of the movement of the cheeks is carried out with the aid of selsyns-sensors 15 and selsyns-receivers with rev counters. Display accuracy 0.1 mm.

The described collimator is simple and easy to manufacture, reliable in operation. Fixing the collimator's cheeks to a rigid flange using a suspension, made in the form of two double hinged parallelograms, allows a thin-walled cylindrical (light) chamber, since deformation of the chamber wall does not affect the accuracy of the position of the cheeks. The accuracy of the position of the cheeks depends on ensuring the accuracy of the center-to-center distances and the mounting holes for the bearings of the hinged suspension elements, which is easily ensured when machining these parts on the jig boring machine. Details for such a collimator design are interchangeable.

a) m invention

A collimator for charged particle beams, consisting of a vacuum chamber, cheeks, independent remote drives connected to the cheeks, characterized in that, in order to increase the accuracy of collimation and reduce the weight of the structure, the cheeks-moving mechanism consists of fixed on the cover of the vacuum chamber

two guide ears arranged parallel to each other with four axles placed between them, but passing through the ravines, which are connected to the rods through the hinges, other

the ends of which are pivotally connected to the ears located on the cheeks of the collimator.