DD205108A1 - MULTI-DIMENSIONAL, GAME-FREE ACCURACY FIXING UNIT FOR MOVING COMPONENTS - Google Patents

Abstract

The invention is applicable where moving components must be fixed exactly. The invention has the object to provide a Präzigkeitsfixiereinheit for movable components, which without additional facilities a fast, simultaneously taking place in all necessary directions, repeated exact, level or spatial fixation allows, with the Fixierkraefte independently constantly increasing to the necessary height and build until the solution has been kept unchanged. This is achieved in that the fixing elements are arranged in pairs on the base element, that in the respective fixing a very large and in the other directions only a very small spring stiffness is present. At the base element Fixierklemmeinheiten are arranged, in which the fixing elements are clearly positioned, whereby a both positive and non-positive fixation of the movable component is gewaehrleistet. As fixing elements clamping levers are used, which are slightly sprung at right angles to the fixing, wherein at both ends of a clamping lever and a respective roll is arranged.

Description

Title of the invention

Multidimensional, backlash-free precision fixing unit for movable components.

Field of application of the invention

The invention is applicable everywhere where movable components have to be fixed exactly.

Characteristic of the known technical solutions

There are a variety of fixators in use. Thus, for example, in DD PS 122 336 discloses an indexing device for fixing the position of workpiece carriers on machine tools, in which the workpiece carrier two index pins are arranged, which are used in each case a fixing bushing on the work table. Here, the free end of the index pin is spherical and engages with its largest diameter in the tolerances of a movement seat of the respective Fixierbuchse. Since it must be worked with additional coarse positioning, but it is a relatively large effort to drive.

In DD PS 88 874 · a locking device for workpiece carrier units is disclosed on machine tools, in which the index pin is formed at its one end as a thin-walled hollow body in which a pressure medium is arranged. This causes when pressure is applied in the end position of the index pin in the opposite direction, a concern of the lateral surface of the index pin in the counter guide. The index pin itself is connected by means of a pressure booster piston directly to the pressure chamber for the bolt movement. Although this device avoids the intermediate stage of coarse positioning since the fit can be kept coarser, it also requires a relatively high cost.

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In DD PS 122 934 · a device for fixing the position of workpiece carriers is disclosed, which works offset by 90, horizontally arranged, roller-shaped fitting bodies.

Although this device does not require hydraulic, but again requires a high mechanical effort.

Object of the invention

The invention has the goal to use a multi-dimensional, play-free accuracy fixing unit for movable components, which allows relatively simple mechanical means a repeated, exact planar or spatial fixation of movable components to a base member.

Essence of the invention

The deficiencies described in the characteristic of the known technical solutions can be attributed to the fact that a fixation can be done either with the aid of additional elements, such as hydraulics or the like, or only with an increased mechanical effort.

To overcome this deficiency, the invention has for its object to provide a multi-dimensional, play-free accuracy fixing unit for movable components, wherein the fixing elements are arranged offset by 90 to each other, the repeated without additional facilities a fast, simultaneously taking place in all necessary directions allows exact, level or spatial fixation, with the fixation forces independently steadily increasing build up to the necessary height and are preserved unchanged until the solution.

According to the invention the object is achieved in that the fixing elements are arranged in pairs on the base element, that in the respective fixing a very large and in the other directions only a very small spring stiffness is present.

At Brundelement Fixierklemmeinheiten are arranged, in which the ..Fixierelemente are clearly positioned, whereby both a positive and non-positive fixation of the movable component is ensured.

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Advantageously, in this case clamping lever are used as fixing elements which are slightly sprung at right angles to the fixing, wherein at both ends of a clamping lever and a respective roll is arranged.

The fixing device is also designed so that the holding force for fixing solely by the lowering movement of the movable member can be applied, and at the end of the lowering the maximum holding force is reached.

The fixing device is further designed so that even during the fixing process within a fixing a small correction movement in the direction orthogonal to the respective unit directions by a correspondingly elastic design of Fixieranschläge is possible. However, it is also possible, in cases where a lowering movement of the movable member from the required height is not feasible, closing the fixing either by lifting the entire clamping unit, or, which is much cheaper, only by lifting a lifting plate.

This movement can also be carried out proportionately, in such a way that the smaller way the component and the larger the clamping unit or the lifting plate travels.

The great advantage of the fixing unit is also that the operating force in relation to the holding force is very small, this ratio is dependent on the dimensions of the clamping lever. This relationship is from the relationship

derivable.

F _B s (2 sin oL + 4, u - ~ -) F

In this case: F = holding force during fixing

Fg β actuation force

φ = opening angle of the clamping lever

R s cocking lever radius

Ls tension lever effective length

/ ^u s friction coefficient

The invention will be explained in more detail below in embodiments. In the drawings show:

1 shows a basic arrangement of Fixierklemmeinheiten on the base element,

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Fig. 2 - a section along line A-A of Fig. 1 and Fig. 3 - a sketch of the solution with a lifting plate.

At the bottom of a movable component 1 at least three Fixieränschläge 2; 2 '; 2 ¹¹ with one arm 3 fixed. At the free end of the arm 3, an area A- is provided on the underside of the arm 3, from which protrudes a cam 5 with contact surfaces 6. The device 1 is in the directions? 8th; 9 each back and forth movable. On the base member 10 are corresponding to the Fixieranschläge 2; 2 ¹ ; 2 ^f also fixation clamping units 11; 11 '; 11 "fixed, of which two are provided for the adjustment 8 and one for the adjustment 7.

The fixing clamping units 11; 11 '; 11 "consist of a base plate 12 with a raised edge, which is equipped on two inner opposite sides with stop surfaces 13. Within the edge, two fixing elements designed as tensioning levers 14 are arranged, which have an effective length L and a radius R. Between the base plate 12 and the clamping levers 14 compression springs 15 are arranged so that the clamping lever 1A- are supported on a rotational movement on the inner surface and the stop surfaces 13 and between the inner surface and the clamping levers 1A-while the angle cH is included.

Fig. 3 shows a modified embodiment of a Fixierklemmeinheit. It is likewise fixedly arranged on the base element 10 and consists of a base body 20, in which two opposite inner surfaces of the edge are also formed as stop surfaces 21. In a central bore of the base surface, a lifting plate 22 is guided with a piston-shaped projection 23. On this Lifting plate 22 are arranged according to the first-mentioned embodiment of Fixierklemmeinheiten two clamping lever 1A- with compression springs 13.

The effect of the device is:

If a moving component 1 is to be fixed in a multidimensional manner on a base element 10, then a plurality of fixing clamping units are to be provided.

The component 1 is moved in the direction 9, d. H. lowered. Initially, a contact of the two tensioning levers 1A- which are opened via the springs 15 with the surface A- of the arm 3 of a fixing stopper 2 takes place.

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Upon further lowering, the clamping lever 14- begin to close and tighten over the contact surfaces 6 of the cam 5 and the abutment surfaces 6 of the cam 5 and the abutment surfaces 13 of the base plate 12 Fixieranschlag 2 with a Fixierklemmeinheit 11, and thus the movable member 1 with the Basic element 10.

Since at least three units are required for multi-dimensional fixation, the relatively long arms 3 of the fixing stops 2; 2 ¹ ; Shortening of the arms 3 of the fixing stops 2, 2 ¹ , 2 ' ¹ is possible if, during the lowering movement on the base element 10, a certain sequential control of the insertion of the fixing operation on the individual fixing clamping units is constructive is provided.

The fixing is completed at the latest when the clamping lever 14 have taken their extended position at c = 0. In this position, the holding force F of the fixation reaches its maximum value. A shift in the direction? is now no longer possible, whereas a small transverse displacement in the direction 8 even after closing by a certain bending movement of the arm 3 is still possible. When releasing the fixation, the component 1 only needs to be raised. As a result, the tensioning levers 14 release from the contact surfaces 6 of the cam 5 and release the component 1.

In an embodiment according to FIG. 3, instead of the component 1, the lifting plate 22 is raised in the direction 9 within the basic body 20. Here, too, a first contact of the two open on the springs 15 tensioning lever 14 with the surface 4 of the arm 3 of a Fixieranschlages 2. Upon further lifting of the lifting plate 22 close the clamping lever 14 and brace according to the embodiment of FIG. 2, the component 1 with the main body 20.

When releasing the fixation, only the lifting plate 22 needs to be lowered. As a result, the tension levers 14 likewise detach from the contact surfaces 6 of the cam 5 and release the component 1.

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Claims (6)

invention claim 1. Multidimensional, backlash-free Präzisionsfixiereihheit for movable components, wherein fixing elements are arranged offset by 90 to each other, characterized in that the fixing elements are arranged in pairs on the base element that in the respective fixing a very large and in the other directions only a very small spring stiffness is present, and fixing elements are arranged on the base element, in which the fixing elements are clearly positioned, whereby a positive and non-positive fixation of the movable component is ensured. 2. Fixing unit according to item 1, characterized in that clamping elements are used as fixing elements, which are slightly sprung at right angles to the fixing direction, wherein at both clamping lever ends and a respective roll is arranged. 3. fixing unit according to item 1 and 2, characterized in that the holding force for fixing exclusively by the lowering movement of the movable member can be applied, wherein at the end of the lowering movement, the maximum holding force is reached. 4. Fuser according to item 1 to 3, characterized in that even during the fixing in the Fixierklemmeinheit even a small correction movement in the direction orthogonal to the respective unit directions by a correspondingly elastic design of Fixieranschläge is possible. -7- 235337 1 5. Fuser according to item 1 and 3, characterized in that the actuating force in relation to the holding force is very small, the ratio of the dimensions of the clamping lever depending on the relationship and F _B s (2 sin oC + _{/ U} I) F is formed. 6. fixing unit according to item 1 and 3, characterized in that the approach path from the movable member and Fixierklemmeinheit in a smaller path of the component and a larger path of Fixierklemmeinheit, or lifting plate is divisible. Here »JLside drawings