RU2029325C1 - Adjustment device - Google Patents

Abstract

FIELD: mechanics. SUBSTANCE: adjustment device has movable and motionless bases; both are made to be parts of the same case. The case has to be spatial parallelogram mechanism with levers connected elastic. Unit with movable base of the mechanism is disposed relatively the unit with motionless base for translational motion in two mutual perpendicular planes. EFFECT: improved precision. 4 dwg

Description

 The invention relates to fiber optic devices and can be used to connect a fiber with another fiber or with an optoelectronic element, for example with a gradient lens.

 To accomplish the task of combining the axes of the aligned elements, for example, a fiber and a radiation source, adjustment devices are used in which the fiber and the radiation source are fixed on parts that are given relative rotational or translational movement through mechanical coupling, which is carried out by means of a movable connection of parts (Elion G. , Elion H. Fiber Optics in Communication Systems, Moscow: Mir, 1981).

 A prototype of the invention is a device for docking a fiber with a radiator, allowing rotations of the axis of the fiber relative to the axis of the emitter in two mutually perpendicular planes [1]. In this device, the movement of the fiber relative to the emitter is carried out by means of differential screw mechanisms.

 The relative location of the aligned elements is affected by friction, wear and errors of the movable joints of the parts involved in the transmission of movement between the elements. The movable joints are formed by a connecting rod, three sliders, three screws and a housing.

 The aim of the invention is to improve the accuracy of alignment and the expansion of technological capabilities.

 In the proposed device for the arrangement of the aligned elements and the implementation of the kinematic connection between them, only one part is used, which is a spatial parallelogram mechanism with elastically connected levers, in which the link with a movable base is located relative to the link with a fixed base with the possibility of translational movement and two mutually perpendicular planes.

 Improving the accuracy is achieved by eliminating the movable joints in the mechanical transmission between the adjustable elements and replacing the relative motion of the sliding friction elements by friction elasticity. As a result of this, wear and tear in the transmission and errors of movable joints are eliminated, and energy losses due to overcoming elastic friction are significantly inferior to sliding friction losses. The expansion of technological capabilities is achieved by using only one part to create two independent movements between the adjustable elements.

 In FIG. 1-4 shows the proposed device.

 It contains the adjustable elements 1 and 2, the housing 3, the fixed 4 and the movable 5 bases with a V-shaped platform for mounting the adjustable element, rigid levers 6-9, elastic joints 10-13 with the axes of rotation of the levers in a vertical plane, elastic joints 14- 17 with the axis of rotation of the levers in the horizontal plane, the protrusion 18 on the movable base, which is informed of the movement in the horizontal and vertical plane.

 The fixed base 4 is connected by elastic hinges 10, 12, 14, 16 with levers 6-9 connected by elastic hinges 11, 13, 15, 17 with a movable base 5. The protrusion 18 is part of the movable base 5. Adjustable elements 1 and 2 are fixed on the bases 4 and 5.

 In the process of adjustment to move the movable base relatively stationary in a vertical plane, the protrusion 18 is informed of the movement in the direction of the arrow (Fig. 1). As a result of the deformation of the elastic joints 14-17, the levers 6-9 will rotate in a vertical plane.

 To move the movable base relatively stationary in the horizontal plane, the protrusion 18 is informed of the movement in the direction of the arrow (Fig. 2). As a result of the deformation of the elastic joints 10-13, the levers 6-9 will rotate in the horizontal plane. Moving in the vertical and horizontal planes are independent.

 Thus, by eliminating movable joints in the mechanical transmission between the adjustable elements, an increase in the accuracy of adjustment is achieved, and by using only one part to create two independent movements between the adjustable elements, the expansion of technological capabilities is achieved.

Claims (1)

 ALIGNMENT DEVICE containing a fixed and movable base with places for placing optical elements on them, characterized in that, in order to improve the alignment accuracy while simplifying the manufacturing technology, the fixed and movable bases are made in one piece in the form of a spatial parallelogram mechanism of levers connected between by means of elastic hinges with the possibility of translational movement of levers associated with the movable base in two mutually perpendicular planes s.

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