SU1083148A1 - Adjusting device - Google Patents

Abstract

Adjustment device containing a fixed base with a guide, an adapter in the form of a sphere with a seat for the adjusted part, an adjustment element connected to the base and in contact with the adapter, spring elements, fixation elements, differing from the fact that in order to improve the accuracy and reliability adjustment, simplify the design and reduce the size, the fixed base is made of two plates with cantilever sections, fastened in the union "Lt" tshg about -. "TGHNYCHSKAYA" at the end of the libraries:: element fi In the cantilever sections of the plates, the holes are made coaxially along one hole, on the cylindrical ones of which the grooves are made at an angle of 120 °; one to another relative to the vertical axis of the base, with each groove placed on the ball, and the adjustment element consists of two brackets, installed-. on the cantilever section of the bottom base plate, and made with coaxial grooves, an adjustment ball mounted in the grooves between the two brackets and the adapter in contact with the outer surface of the adapter, and a limiter mounted at a height greater than the adapter radius connected to the base and in contact with the outer surface , while the seat for the adjusted part is made so that the working surface of the part is in a plane passing through the center of the adapter.

Description

A device according to claim 1, characterized in that it is limited in the form of a plastic aperture, the diameter of which is less than the diameter of the transition 3. A device according to claim 1, characterized in that the spring element is fixed at one of the bracket and interacts with the alignment ball along the axis passing through the centers of the alignment ball and the adapter.

The invention relates to an optomechanical instrument, namely, devices for aligning optical parts, and can be used, in particular, in the manufacture of optical paths of electronic-optical measuring circuits, such as color kinescopes. A device for adjusting optical elements is known, which contains a fixed base with a guide, an adapter with a response guide and a seat under the adjustable element tl J. The device’s drawbacks are the use of counter springs difficult to manufacture alignment elements in the power circuit, the placement of the working surface element to be adjusted in a plane that does not pass through the axis of the alignment device, which leads to misalignment due to the shrinkage of elastic elements in time and checks the dimensions of the elements of the adjustment, as well as the complexity of their manufacture. Closest to the proposed technical entity is a device for alignment, containing a fixed base with a spherical guide, equipped with tides, an adapter with a response guide and a seat for the adjusted part, forming a closed spherical hinge, the adapter is equipped with protrusions matching with the base tides , moreover, in the tides of the base and protrusions of the adapter holes are made to accommodate fixing elements, the axes of the holes are normally located to the guides, there is a plane through which the spherical hinge is centered on which the adjustment screws with spring elements are supported and placed in two orthogonal planes C 21. A disadvantage of the known device is that the adjustment accuracy is directly dependent on the quality and accuracy of tide manufacturing requiring precision processing along the mating planes. The effect of these tides on the accuracy of the adjustment is due to the fact that when turning the adapter after tightening the nuts that form the fixation mechanism, the end face of the washer due to the inaccurate mutual arrangement of the inner and outer surfaces of the tides causes the occurrence of forces that tend to misalign the adapter. In addition, the spherical surface of a fixed base and cup springs are distinguished by the difficulty of manufacturing. The participation of elastic elements in the transfer of pressure from the elements of the adjustment to the adapter impairs the stability of the adjustment, as the springs age and shrink over time, resulting in an imbalance of the forces acting on the contrived devices. Placing the seat under the adjusted element not in the plane passing through the center of the spherical junction (hinge), during operation, leads to the displacement of optical elements from the optical axis, which requires an increase in the size of the device and degrades its technical characteristics. The purpose of the invention is to improve the accuracy and reliability of the alignment, simplify the design and reduce the size. To achieve this goal, an alignment device containing

fixed base with a guide, an adapter in the form of a sphere with a seat for the adjusted part, an adjustment element connected to the base and in contact with the adapter, spring elements and fixation elements, the fixed base is made of two plates with cantilever sections, fastened with fixing elements at the ends, in the coisol sections of the plates are made coaxially along one hole, on the cylindrical shapes, which are made by grooves at an angle of 120 to one another relative to the vertical axis of the carrier, while each groove is placed along the ball, and the adjustment element consists of two brackets mounted on the console section of the base plate and made with coaxial grooves, an alignment ball installed in the grooves between the two brackets and the adapter in contact with the surface, and the chassis restraint installed at the height, transcending radius of the adapter connected to the base and in contact with the outer surface of the adapter, while the seat under the adjustable part is made so that the working surface if it is in the plane passing through tsentr.perehodnika.

The limiter is made in the form of a plate with a hole whose diameter is less than the diameter of the spherical adapter.

The spring element is fixed on one of the brackets and interacts with the alignment ball along s passing through the centers of the alignment ball and the adapter.

FIG. 1 shows a device for adjustment, a general view, a section in FIG. 2 is a view along arrow A in FIG. one.

The device contains a fixed base, made in the form of two plates 1 and 2 with cantilever sections, fastened together by means of bolts 3 and nuts 4. In the middle part of the said plates 1 and 2 are provided for coaxial holes 5 and 6 along the cylindrical forming of which at an angle of 120 ° to each other, relative to the vertical axis of the base, grooves 7 and 8 are made. In the indicated slots 7 and 8, balls 9-11 are placed.

In holes 6 and 5, an adapter 12 is installed with a convex spherical loading guide surface that contacts the balls 9-11 and forms a spherical Shcharnir. The cantilevered sections 1 and 2 at the ends have smooth and threaded holes for installing the fixing screw 13 in them. In the plate t there are threaded holes for screws 14, by means of which the brackets 15 and 1 are mounted with a gap between the side surfaces and having coaxially arranged grooves, forming a slot for the adjustment ball 17, which contacts the outer surface of the adapter through the friction gasket 18 ( for example, made of leather), pressed by a spring element 19, for example a flat spring, and contr. with a screw 20. The brackets 15 and 16, together with the ball 1.7), erect the adjustment element.

: Spring 19 is supported by pin ends: you are 2t, which are rigidly fixed to bracket 15 on one side, and freely pass through holes 16 made in bracket 16 on the other. Adapter 12 is enclosed from the outer side at a height exceeding the radius. 22, made, for example, in the form of a plate with a hole, dia-. the meter is smaller than the diameter of the adapter, which is rigidly fixed on the cantilever portion 1 of the fixed base. The adapter 12 has a seat in the form of a stepped cavity for accommodating an adjustable element 23 (e.g., a mirror) in it so that the working surface of the specified element 23 is in a plane passing through the center of the adapter, which is simultaneously the center of the spherical hinge.

The balls 9-11, placed in the grooves of the plate 2, are pressed to the spherical surface of the adapter 12 by the screw 13.

The device works as follows.

Before starting the adjustment, unscrew the screw 13, thereby removing the pressure of the balls 9-11 to the spherical surface of the adapter 12, and then unscrew the adjustment ball 17 with the screw 20. Rotate the ball 17 (for example, manually) in the slots of the bracket

Claims (3)

A device for adjustment, comprising a fixed base with a guide, an adapter in the form of a sphere with a seat for an adjustable part, an adjustment element connected to the base and in contact with the adapter, spring elements, fixation elements, characterized in that in order to increase the accuracy and reliability of walking, simplifying the design and reducing the dimensions, the fixed base is made of two plates with cantilever sections fastened at the ends by a fixing element, in the cantilever sections of the plates coax about one hole, on the cylindrical generators of which grooves are made at an angle of 120 ° to one another relative to the vertical axis of the base, while each groove is placed on a ball, and the adjustment element consists of two brackets installed on the console section of the bottom base plate, and made with coaxial grooves, an alignment ball installed in the grooves between the two brackets and in contact with the outer surface of the adapter, and a limiter installed at a height exceeding the radius of the adapter connected with the base and in contact with the outer surface of the adapter, while the seat under the adjustable part is made so that the working surface of the part is in a plane passing SU „„ 1083148 through the center of the adapter. 2. The device according to π. 1, characterized in that the limiter is made in the form of a plate with a hole whose diameter is less than the diameter of the adapter. 3. The device pop. 1, characterized in that the spring element is fixed on one of the brackets and interacts with the alignment ball along an axis passing through the centers. adjustment ball and adapter.