RU55154U1 - DEVICE FOR ADJUSTING OPTICAL ELEMENTS - Google Patents

Abstract

The proposed technical solution relates to the field of instrumentation and can be used in the design of optical-mechanical paths for aligning the resonators of quantum generators. The device for aligning optical elements contains a substrate for attaching an optical element and adjusting screws located in the housing, and the substrate is made with a spherical support protrusion, spring-loaded in the direction of the hole provided in the housing, and it is also equipped with L-shaped inserts and fingers for the number of inserts and the spherical support protrusion of the substrate is made with an axial cylindrical groove, while the fingers are fixed in the housing, the liners are mounted on the fingers with the possibility of rotation and interaction the ends of their smaller sides interact with the lateral surface of the axial cylindrical groove of the spherical support protrusion of the substrate, and the ends of the adjustment screws are brought into contact with the side surface of the large sides of the liners. In addition, the ends of the liners interacting with the lateral surface of the axial cylindrical groove of the spherical support protrusion, made rounded. The technical result from the use of the proposed technical solution is to increase the accuracy characteristics of the device.

Description

The proposed technical solution relates to the field of instrumentation and can be used in the design of optical-mechanical paths for aligning the resonators of quantum generators.

A device for aligning optical elements is known, comprising a base with a ball located in the socket, a spring-loaded flange and an adjustment mechanism, see.with. USSR No. 514260, IPC G 02 B 7/18, 06.22.76.

The disadvantage of this device is the reduced accuracy when aligning optical elements.

A device for aligning optical elements is known, which comprises a movable substrate, in the center of which there is a spherical support interacting with the base hole and adjusting screws, see AM Bardin, “Assembly and alignment of optical instruments”, M., “Higher School”, 1968, p. 178, Fig. 90.

The disadvantage of this scheme is the increased complexity of the alignment process due to the presence of backlash in the threaded pairs.

The closest technical solution (prototype) to the proposed utility model is a device for aligning optical elements, comprising a substrate for attaching an optical element and adjusting screws located in the housing, the substrate being made with a spherical support protrusion spring-loaded towards the hole provided in the housing, see A.S. USSR No. 723475, IPC G 02 B 7/18, publ. 03/25/80.

The disadvantage of this design is its reduced accuracy characteristics associated with reduced stiffness of the substrate, the specific location of the adjustment screws (which leads to distortion of the working surface of the optical element) and significant angular displacements of the aligned element in one revolution of the adjustment screw.

The technical result from the use of the proposed technical solution is to increase the accuracy characteristics of the device.

In accordance with the proposed utility model, the indicated technical result is achieved in that the device for aligning the optical elements, comprising a substrate for attaching an optical element and adjusting screws located in the housing, the substrate being made with a spherical support protrusion spring-loaded towards the hole provided in the housing additionally contains G-shaped liners and fingers according to the number of liners, and the spherical support protrusion of the substrate is made with an axial cylindrical groove Coy, while the fingers are fixed in the body,

the liners are mounted on the fingers with the possibility of turning and interacting with the ends of their smaller sides with the lateral surface of the axial cylindrical groove of the spherical support protrusion of the substrate, and the ends of the adjusting screws are brought into contact with the side surface of the large sides of the liners.

In addition, the ends of the liners interacting with the lateral surface of the axial cylindrical groove of the spherical support ledge are rounded.

The figure shows the proposed device for aligning optical elements.

The device contains a substrate-1 for mounting an optical element-2. The substrate-1, is made with a spherical support ledge-3 (on the back for attaching the optical element-2), which is located in the hole-4 (conical or spherical shape) of the housing-5. The protrusion-3 is spring-loaded to the surface of the hole-4 using a cylindrical spring-6 (the axis of the spring-6 coincides with the optical axis of the alignment device), one end of which is connected to the substrate-1 via pin-7, and the other is located in the earring-8, installed in the housing-5, screw-9 to adjust the preload force of the protrusion-3.

The device also contains inserts-10 L-shaped and adjustment (adjusting) differential screws-11 (in the amount of three or four), fixed in the housing-5. The liners-10 are mounted with the possibility of rotation on the fingers-12 fixed in the housing-5 (fingers-12 are threaded through the holes provided in the region of the ends of the large sides of the L-shaped liners-10). The ends-13 of the smaller sides of the L-shaped liners-10 are rounded (to reduce friction and

avoid jamming) and have the ability to interact with the lateral surface of the cylindrical axial groove-14 made on the protrusion-3, while the substrate is turned using screws-11, the ends of which are brought into contact with the side surface of the large sides of the inserts-10.

Adjustment of the optical element-2 is carried out using screws-11 (when screwing in and out the corresponding adjusting elements), the ends of which, acting on the inserts-10, rotate them around the fingers-12. In this case, the ends of the smaller sides of the inserts-10 create a radial force on the side surface of the groove-1, thereby achieving an angular turn of the substrate-1 together with the optical element-2.

From the above it follows that the proposed technical solution has advantages over the known one, namely, due to the high stiffness of the substrate and the location of the spring element along the optical axis of the product, the deformation of the working surface of the optical element is excluded. In addition, due to the "reduction" of the movement of the end of the adjusting screws provided by the L-shaped inserts, the sensitivity of the device and, as a consequence, the accuracy of the adjustment are increased.

Therefore, the proposed device for the alignment of optical elements when used gives a positive technical result - increases the accuracy characteristics of the product.

Claims (2)

1. A device for aligning optical elements, comprising a substrate for attaching an optical element and adjusting screws located in the housing, the substrate being made with a spherical support protrusion spring-loaded towards the opening provided in the housing, characterized in that it is provided with L-shaped inserts shapes and fingers according to the number of inserts, and the spherical bearing protrusion of the substrate is made with an axial cylindrical groove, while the fingers are fixed in the housing, the inserts are mounted on the fingers with possible by turning and interacting with the ends of their smaller sides with the lateral surface of the axial cylindrical groove of the spherical support protrusion of the substrate, and the ends of the adjusting screws are brought into contact with the lateral surface of the large sides of the liners. 2. The device according to claim 1, characterized in that the ends of the liners interacting with the lateral surface of the axial cylindrical groove of the spherical support protrusion are rounded.