DE1801923U - CLAMPING DEVICE FOR OPTICAL DEVICES AND TRIPODS. - Google Patents

Description

Clamping device for optical devices and tripods.

The innovation relates to a precision clamping device for optical Devices and tripod in which a hollow cylindrical part is longitudinally displaceable on a column and / or rotatable.

For the jamming of such parts, the hollow-cylindrical one has mostly been used up to now Part completely or partially slit in the longitudinal direction and through one on both sides of the slot tangentially engaging clamping screw or a corresponding clamping means drawn together. Other clamping devices use one in a recess in The pressure piece made of metal or plastic is arranged to be radially displaceable on the hollow cylinder, which is pressed against the column by a screw or eccentric arrangement.

Clamping devices of this type have the disadvantage that when Tighten the clamping screw or the clamping eccentric the hollow cylinder and with it the device attached to it can still change its position. This works are very annoying in the case of enlargement devices, for example, since then the before the clamping was carried out with a precise definition of the image section and the focus may no longer be correct. In order to keep these sources of error as low as possible, the parts must be coordinated very precisely, which complicates production and makes it expensive. A complete elimination of the error is hardly possible in this way possible.

An actuating device for the clamping should only be low Way of the clamping elements enable the setting of any speedy gear and with further, even slight tightening, cause a firm clamping, whereby distribute the clamping pressure as evenly as possible over the entire circumference of the column should, otherwise deformations and damage to the same can easily occur. These requirements are also not met by the known clamping devices.

The new precision clamping device, which is characterized is that between the inner surface of the hollow cylindrical part and the outer surface the column is provided at least one annular space, which over its entire periphery is filled with clamping elements, and that between two of the clamping elements wedge-like actuating element engages, which upon radial advance of the clamping elements alternately on the inner surface of the hollow cylindrical part or on the outer surface the column presses, has the above Disadvantages do not arise. Said clamping elements can preferably be rollers or balls, the diameter of which smaller than the width of the annular space, but preferably larger than half is the width of the annulus. In the case of balls as clamping elements, it is advisable to that two spaced apart annular spaces are provided for the balls and that a single wedge-shaped one extending over both annular spaces Actuating element is used tiltably. Because every pressure on the actuator practically evenly distributed over all rollers or balls, results from the entire circumference a completely uniform centric clamping, with which every change in position of the hollow cylindrical part is excluded when clamping. The parts can with a lot of air can be produced.

Nevertheless, even with a relatively low pressure, a absolutely tight jamming without the risk of deformation of the column as a result a strong one-sided pressure, as in the known clamping devices, arises. By tightening the actuating element less vigorously, any one can be Adjust the coefficient of friction.

The drawings show an embodiment of the innovation. In figure 1 is such a clamping device with rollers as clamping elements in a perspective View, partly in section, shown. Figure 2 gives a plan view, in part cut, on the same clamping device again, but with balls as clamping elements. FIG. 3 is a vertical section through the device according to FIG.

On a column 1 is a hollow cylindrical part 2, the inner diameter of which is slightly larger than the outer diameter of the column 1, can be moved longitudinally and rotated arranged. The hollow cylinder 2 can be used as a carrier for any optical device be trained.

However, it could also be 1 the center column or a leg of a tripod and 2 or the tripod head or part of a tripod leg that can be moved to 1 be. The hollow cylinder 2 is inside with a running over the entire circumference Recess 3 provided so that between column 1 and the bottom of the recess 3 of the hollow cylinder 2 a free annular space is created. In the embodiment according to FIG 1 this is densely filled with rollers 4, the diameter of which is smaller than the width of the annular space 3 and larger than half the width of the annular space and their Length corresponds to the height of the annulus. At one point of the hollow cylinder 2 is contain inside a recess 5 running parallel to the longitudinal axis of the column 1, which extends over the entire height of the annular space 3.

In it is a wedge-shaped actuator on its end face 6 arranged, on which a clamping screw inserted radially into the hollow cylinder 7 acts, which of course can also be replaced by an equivalent agent. At the Tightening the same pushes the wedge-shaped face of the actuating element 6 between two of the rollers 4 and presses them against the column 1 and at the same time to the side. The pressure exerted in this way is applied to everyone on both sides Roll on. These are alternately on the outer surface of the column 1 and on the The inner surface of the hollow cylinder 2 is pressed against it.

In the embodiment according to FIGS. 2 and 3, the clamping elements 8 balls used. In this case, the height of the annular space 3 corresponds to the diameter of the balls. In order to prevent the hollow cylinder 2 from tilting, in this case two spaced apart annular spaces 3 with balls 8 are provided. in the the rest are the arrangement and the effect as in the embodiment according to FIG 1.

Instead of rollers and balls, other equivalent clamping elements could also be used be used, e.g. B. ring segments with inclined contact surfaces that alternate be pushed in and out.

Claims (4)

Protection claims 1) Precision clamping device for optical devices and Tripods, in which a hollow cylindrical part on a column is longitudinally displaceable and / or rotatable, characterized in that at least one annular space (3) is provided between the inner surface of the hollow cylindrical part (2) and the outer surface of the column (1), which is provided over its entire periphery with clamping elements (4 or 8) is filled, and that a wedge-like actuating element (6) engages between two of the clamping elements, which presses the clamping elements alternately against the inner surface of the hollow-cylindrical part or the outer surface of the column during radial advance. 2) precision clamping device according to claim 1) characterized in that that the clamping elements are rollers (4) whose diameter is smaller than the width of the annular space (3), but preferably greater than half the width of the annular space is. 3) precision clamping device according to claim 2), characterized in that that the clamping elements are balls (8) whose diameter is smaller than the width of the annular space (3), but preferably greater than half the width of the annular space is. 4) precision clamping device according to claim 3) characterized in that two spaced apart Annular spaces (3) for the balls (8) are provided and that a single one extending over both annular spaces wedge-shaped actuating element (6) is inserted tiltably.