RU2012923C1 - Device for mechanism location - Google Patents

Abstract

FIELD: devices used for stepped location of mechanism members and, namely, for power location by a spring-loaded retaining body. SUBSTANCE: the recesses for a ball retainer in the movable member (slide) to be retained are made in the form of a helical groove in its cylindrical surface and the required retained position is attained by turning of the slide relative to its dog around the longitudinal axis. EFFECT: precise setting of the instant of location in the required position of the members; usually this problem is solved by enhanced precision (rise in price) of manufacture of members, or by introduction of complex adjusting members and processes. 1 dwg

Description

 The invention relates to mechanisms used for fixing in a given position of the links of mechanisms for various purposes, namely, mechanisms in which fixing is carried out through interaction through certain structural elements (recesses, recesses, bevels) at a given relative position of the fixed movable link and the fixing spring-loaded body (ball or other form), the permitted movements of which in the housing do not coincide in direction with the movements of the movable link. Moreover, to remove the movable link (and therefore the entire mechanism) from a fixed position, it is necessary to apply a force greater than for its movement in intermediate positions.

 The need for such mechanisms extends to an extremely wide range of machines, devices and apparatuses. These include, for example, clamps for automobile and tractor gearboxes, transfer gearboxes, manual differential lock mechanisms for automobile bridges, gearbox and speed clamps in metal-cutting machines, directional control valves with fixed spool positions, etc.

 Known devices for fixing the mechanism in which the locking of the movable link (slider) occurs when, when moving the latter, a spring-loaded hinge or fixing body of a different shape is above the recess in the slide having a geometry corresponding to the geometry of the fixing body.

 So in small-scale products with a ball fixing body, this is usually a toroidal annular undercut (groove) on a slider, with a radius of the cross section equal to the radius of the ball.

 In tractor and car boxes, this is usually a cylindrical recess on the cylindrical surface of the slide. Examples of the latest mechanisms are ball locks in the boxes of MTZ-50 and MTZ-52 wheeled tractors, as well as a gear shift lock for a ZIL-130 truck.

 The disadvantage of such mechanisms is that the correspondence of the moment of fixing the slider to the required position of the working link (for example, the gear wheel) is ensured either by high precision manufacturing of all parts of the mechanism (automobile and tractor units), or by complex adjustment (sometimes by joint processing of parts during assembly and adjustments).

 The purpose of the invention is the ability to accurately fix the slider relative to the housing, regardless of deviations in the size of the mechanism elements associated with the possible accuracy of their execution, i.e., increasing the accuracy of the device as a whole.

 To do this, the grooves for the ball retainer are made in the form of a helical groove in the cylindrical surface of the slider, and the leash of the slider is connected with it with the possibility of their mutual rotation during adjustment.

 The drawing shows the proposed device.

 A slider 2 is placed in a cylindrical socket of the device housing 1 through a leash 3 connected to the device control handle or other element defining the position of the slide relative to the housing. In the outer cylindrical surface of the slider 2 there is a helical groove 4. In the housing 1 there is also a drilling extending into the cylindrical socket of the slider 2, in which the ball 5 and the cylindrical compression spring 6 are placed. The radius of the cross-section of the helical groove corresponds to the diameter of the ball 5. The leash 3 and the slider are connected by a small thread and locked with a lock nut 7.

 The device operates as follows.

 When a switching force is applied to the slider 2, the latter, moving in the cylindrical socket of the housing 1, reaches the position where the ball 5 and the groove 4 are combined, and the ball enters the groove under the action of the spring and fixes the slider. To unlock the slider, it is necessary to exert an axial force significantly higher than that which must be applied to the slider when the ball contacts the cylindrical surface of the slider.

, где t - шаг винтовой канавки. Тем самым изменяется момент фиксации ползуна. Поэтому расконтролируя поводок 3, проворачивая ползун относительно поводка и затем законтролируя его, достигают требуемого положения звеньев механизма, связанного с ползуном, в момент фиксации. (56) Авторское свидетельство СССР N 14257317, кл. G 05 G 5/06, 1969.When the slider rotates relative to its longitudinal axis by an angle ± Δφ (in the absence of slide movement along this axis), the position of the groove edge relative to the drilling in which the ball is placed changes: it shifts to the right or left by a distance of ± ΔS in accordance with the dependence ΔS =

where t is the pitch of the helical groove. Thereby, the moment of fixation of the slider changes. Therefore, by controlling the leash 3, turning the slider relative to the leash and then controlling it, the desired position of the links of the mechanism associated with the slider at the moment of fixation is reached. (56) Copyright certificate of the USSR N 14257317, cl. G 05 G 5/06, 1969.

 USSR author's certificate N 1138798, cl. G 05 G 5/06, 1985.

Claims (1)

 DEVICE FOR FIXING THE MECHANISM, comprising a housing with a cylindrical socket, in which a cylindrical slider with a leash and tucks for a ball retainer, consisting of a ball and a coil spring located in the housing socket, is located, characterized in that, in order to increase the accuracy of the device, the undercut under the ball the latch is made in the form of a helical groove in the cylindrical surface of the slider, and the leash of the slider is connected with it with the possibility of their mutual rotation during adjustment.

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