CH675457A5 - Hollow cylindrical hub with shaft fastener(s) - has axial, arcuated slot, dividing cylinder into outer, thicker section and inner thinner section - Google Patents

Abstract

The hollow cylindrical hub has releasable shaft fasteners. The hub has axial, arcuated, through slot (2) at a distance from the longitudinal axis (1) of the hollow cylinder to divide the hollow cylinder in the curved area of the slit into an outer, thicker section (3) and an inner thinner one (4). The inner cylinder section can be adjusted radially outwards in the cavity (6) of the slot by a screw, which is supported in a radial bore (5) of the outer hollow cylindrical section. USE/ADVANTAGE - For cutting tools, etc, with precise hub adjustment.

Description

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The invention relates to a hollow cylindrical hub with coupling means for releasable fixation for a while and a cutting tool with such a hub.

Hubs of the type mentioned at the outset must, in addition to a minimal contact pressure of the coupling means and a high degree of precision depending on the area of use, enable the hub to be axially adjusted on the shaft as quickly as possible.

The most widespread, so-called hydraulic hub-shaft couplings, for example according to EP-B1 0 096 126, guarantee a good contact pressure and high precision, but require a considerable amount of time to adjust the hub. The more you have to change the hub position during a day, the more disadvantageous this fact becomes.

The invention seeks to remedy this. The invention has for its object to provide a high-precision, quickly adjustable hub.

The invention solves the problem with a hub having the features of claim 1 and a cutting tool with such a hub having the features of claim 7.

The advantages achieved by the invention are essentially to be seen in the fact that, thanks to the hub according to the invention, problem-free, rapid and precise displacement of the hub on the shaft is only possible by simply actuating a screw. The hub is fixed by reversing the screw principle by loosening the hub from the shaft and fixing it on the shaft by unscrewing it. The deformation of the hub occurs when it is screwed on (the hub is released from the shaft) and is undone when it is unscrewed. The hub is thus completely deformation-free in the fixed state, in contrast to systems in which the hub is pressed onto the shaft by means of a screw and is thereby necessarily deformed.

An embodiment of the invention, which also explains the principle of operation, is shown in the drawing and will be described in more detail below.

1 shows a schematic, radial cross section through the hub according to the invention;

2 shows an axial top view of the hub according to the invention with a preferred slot shape.

As shown in FIG. 1, the hub according to the invention essentially consists of a hollow cylinder with the outside diameter R and the inside diameter r. In the area of the center angle a, an axially continuous, arcuate slot 2 is made in the hollow cylinder at a distance a from the longitudinal axis 1, so that the hub in the area of the slot 2 is divided into an outer, thicker hollow cylinder section 3 and an inner, thinner hollow cylinder section 4, which both are separated from one another by the cavity 6 of the slot 2 with the gap width s. A screw 7 which can be inserted through the borehole 5 is supported on the one hand on the shoulder 8 in the outer hollow cylinder section 3 and on the other hand is connected with its thread 9 to the inner hollow cylinder section 4, which has a corresponding thread 10. By screwing the screw 7 held axially by the shoulder 8, the inner hollow cylinder section 4 can now be drawn into the cavity 6 of the slot 2 by elastic deformation. This increases the inner diameter r of the hub so that it can easily be moved to a new position on the shaft. The inner hollow cylinder section 4 acts like a spring element, which springs back into its original position when the screw 7 is loosened and thus again guarantees a firm seat of the hub on the shaft.

The arcuate shape of the slot already gives acceptable results, but the spring constant of the inner hollow cylinder section 4 is relatively high and the deformation (0.07 mm) achievable with a given screwing force is rather small. The smallest possible spring constant of the inner hollow cylinder section 4 can be determined by computer-aided optimization of the slot shape. Such a possible shape is shown in Fig. 2. It runs essentially in a wave shape, but shows additional characteristic features, all of which serve to cause the greatest possible spring travel in the radial direction at a given force. In the form of the slot 2 shown in FIG. 2, the maximum spring travel is approximately 0.15 mm.

In manufacturing terms, slot 2 is made in the hub by wire erosion.

The other parameters a, a and s are also to be optimized to the criterion of the lowest possible spring constant of the inner hollow cylinder section with sufficient mechanical strength, which in turn can be determined with the aid of a computer. The calculations and tests carried out have shown that the thickness D = R - a of the outer hollow cylinder section 3 should preferably be greater by a factor of 2 to 4 than the thickness d = a - r of the inner hollow cylinder section 4.

The central angle a of the arcuate slot 2 preferably extends over a range of 80 ° <a <110 °, preferably 90 ° <a <100 °.

The gap width s of the slot 2 is expediently between 0.26 and 0.44 mm, preferably between 0.32 and 0.38 mm and is, for example, 0.35 mm.

As shown in FIG. 2, the hub has small elevations 11 on its inner circumference, which guarantee the actual press fit with the shaft. These elevations 11 are expediently evenly distributed over the inner circumferential surface of the hub, e.g. as shown in Fig. 2 shifted by 120 °, these elevations 11 can occur several times in the axial direction.

To keep the spring constant as low as possible and

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in order to achieve the greatest possible spring travel of the inner hollow cylinder section 4, 2 grooves 12 are provided on the inner circumferential surface of the hub near the ends of the slot. In this way, the inner hollow cylinder section 4, with its central section supporting an elevation 11, can be moved radially outward into the cavity 6 of the slot 2 with relatively little effort thanks to its optimally coordinated undulating shape.

The hub according to the invention is particularly well suited as a cutting tool, in particular for a sheet metal shear for the manufacture of cans, the hub having a cutting knife on its periphery.

Claims (8)

Claims 1. Hollow cylindrical hub with coupling means for releasable fixation on a shaft, characterized in that the hub has an axially continuous slot (2) which is essentially arc-shaped at a distance a from the longitudinal axis (1) of the hollow cylinder and which has the hollow cylinder in the arc region of the slot (2) divided into an outer, thicker hollow cylinder section (3) and an inner, thinner hollow cylinder section (4), the inner hollow cylinder section (4) being radially offset by a screw element which can be supported in a radial bore (5) of the outer hollow cylinder section (3) outside in the cavity (6) of the slot (2) can be adjusted. 2. Hub according to claim 1, characterized in that the substantially arcuate slot (3) is wave-shaped. 3. Hub according to claim 1, characterized in that the substantially arcuate slot (3) is designed such that the smallest possible spring constant of the inner hollow cylinder section (4) results. 4. Hub according to one of claims 1 to 3, characterized in that the thickness D = R - a of the outer hollow cylinder section (3) is greater by a factor of 2 to 4 than the thickness d = a - r of the inner hollow cylinder section (4) . 5. Hub according to one of claims 1 to 4, characterized in that the arcuate slot (2) extends over a central angle of 80 ° <a <110 °, preferably 90 ° <a <100 °. 6. Hub according to one of claims 1 to 5, characterized in that the gap width s of the slot (2) is between 0.26 and 0.44 mm, preferably between 0.32 and 0.38 mm. 7. Cutting tool with a hub according to one of claims 1 to 6, characterized in that the hub has a cutting knife on its periphery. 8. Cutting tool according to claim 7, characterized in that it is designed as a sheet metal shear for the manufacture of cans. 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 3rd