SU1088913A1 - Self-aligning rest - Google Patents

Abstract

SELF-INSTALLING LUNE in the case of which are installed one inside the other and spring-loaded fZ IM (L 00 00 with oo Pu.-f relative to each other sliders with clamping elements and pushers in contact with the wedge sliding mechanism of sliders, characterized in that ensuring automatic tilting of the clamping elements during their expansion, the steady rest is provided with a plate-like reflector designed to interact with the shanks of the pushers whose surface is spherical, while the clamping elements The cops and the named wedge extension mechanism are shifted from the axis of the sliders.

Description

The invention relates to machine tooling, more specifically, to devices for supporting non-rigid parts during machining. The self-aligning jBOHeT is known, in the casing of which it is established that poluns enter one into the other and are spring-loaded relative to each other with clamping elements and the body of bodies in contact with the wedge sliding mechanism of sliders. is the lack of automation of work, since it is not ensured the automatic tilting of the closed elements in the process of their expansion, which is necessary while maintaining the long non-rotating spindle screws along which the rotating horn moves. The purpose of the invention is to provide an automatic opening of the clamping elements in the process of their separation. This goal is achieved in that the self-aligning rest, in the case of which are installed one-in-one and spring-relative to each other sliders with clamping elements and pushers in contact with the wedge sliding mechanism of sliders, equipped with a plate reflector designed to interact with the tails of the sliders made spherical, with the clamping elements and the named wedge mechanism of sliding are shifted from the axis of the sliders. Such an arrangement of the separation mechanism and clamping elements, as well as the introduction of a reflector, allows to automate the cycle of the steady operation by ensuring that the clamping elements are folded out as they move. In Fig.} Shows the lap, cross section; in Fig. 2, a slider and a spring, prod6ln1 | 1 a cut; Fig. 3 is an example of a wedge and a reflector. A lunette supports a long screw 1 along which the nut 2 moves. When the nut 2 is rotated, it is screwed into the fixed screw 1 and moves the slide 3 along it. elements 4 and 5 of the lunet are located on reciprocally sliding sliders 6 and 7 located in the fixed case B. The sliders 6 and 7 also have the ability to turn in the housing B, sliders 9 and 10 are fixed on the sliders 6 1 2 and 7. The extension mechanism consists of an interacting from the pusher of the wedge 1 I, rigidly connected to it with the sticking 12 and the driving hydraulic cylinder 13. A spring 14 is placed between the ends of the sliders 6 and 7. A plate reflector 15 is attached to the wedge 11. The shafts of the pushers 9 and 10 are spherical. Spreading wedge 11 and, accordingly, the clamping elements 4 and 5 are displaced from the axis of rotation. this slide 6 and 7. The device operates as follows. In the clamped position of the steady, the clamping elements 4) i 5 are pressed against the screw 1 by the action of a strong spring 14. This supports the long span of screw I, eliminating its sagging from the forces of weight and vibration during operation. The force of the spring 14 is closed inside the sliders 6 and 7, while eliminating the displacement of the force on the rest. This arrangement of the spring 14 and the ability to move the sliders. 6 and 7 provide samoustag navolyabemost lunette. The mobility of the sliders after their installation by viita is prevented by pressing them through the clamp 12 to the forming hole of the housing 8 by the force of the hydraulic cylinder 13. When commanding to open the lunet, the hydraulic cylinder pin 13 is withdrawn. 11 pack. Go to the rams 9 and 10, try to turn them along with the sliders 6 and 7 or push them apart. Since the reflector 15 prevents the pushers 9 and 10 from turning, in the first stage of the cycle, the latter are moved apart. Then the reflector 15, moving together with the wedge 11, leaves the zone of restriction of rotation of the pushers 9 and 10. From this moment the second stage 1 of the slide begins - the rotation of the sliders 6 and 7. Since the clamping elements 4 and 5 are also shifted from the axis of the sliders 6 and 7 , they move away from screw I, allowing nut 2 to pass unimpeded past the lunette. After the passage of the nut 2, the rest can again tighten the screw 1. Turning on the steady rest ensures a strict sequence of movement of the clamps: a small opening, then a tilting. Inclusion occurs in reverse order

Such a cycle is provided by the completion of the shafts of the pushers by spherical and by the presence of a plate-like reflector fixed to the wedge.

The advantage of the proposed mechanism is the possibility of

ikkidyvani;) clips on a significant hoist.

the distance from the clamped part, while the clamping spring does not deform beyond the minimum necessary limits, the dimensions of such a device are reduced.

The application of the invention is expedient in machine-tool construction at the clips of long or non-rigid de

ig.2

eleven

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Claims (1)

SELF-INSTALLING LUNET, in the case of which the sliders are inserted one into the other and spring-loaded relative to each other with clamping elements and pushers in contact with the wedge moment of sliding of the sliders, which ensures that the latch is equipped with a plate-shaped latching mechanism during their separation a reflector designed for interaction with shanks of pushers, the surface of which is made spherical, while the clamping elements and the wedge mechanism called apart The lines are shifted from the axis of the sliders. £ 16880G ”OS