CS257667B1 - Moisture mechanism, especially for devices - Google Patents

Abstract

A sliding mechanism, especially for a sliding mechanism, is provided with a differential screw, which is mounted both in the sliding part and in the anchoring material, which is mounted in the frame of the sliding mechanism, with increased friction. On the same threaded part of the differential screw as the anchoring nut, there are stops on both of its front sides, which, when they come into contact with the anchoring material, cause it to be carried along with the differential screw and thus convert the function of the differential screw β with fine feed into the function of an ordinary screw with coarse feed. After changing the direction of rotation, the anchoring material is unlocked and the coarse feed is thus changed back to fine. The device is used, for example, in a microscope, with a single controller used to control both feeds.

Description

The invention relates to a feed mechanism, in particular for apparatuses, which facilitates the control of coarse and fine feed by a single control element while simultaneously simplifying the construction of the feed mechanism.

Various displacement mechanisms are now known which allow instruments such as microscopes to achieve a sufficiently fine displacement for sharpening, fine-tuning and the like, and also allow rapid approach to the desired area by coarse displacement. with coarse and fine feed resolution by motor speed control. However, the motor drive is not used in simpler devices for economic reasons * In the case of a manual drive, this problem is usually solved by two controllers, each of which is connected to a different location in the transmission chain of the feed mechanism. · The disadvantages of the described two-hand manual feeds are that the operator has both hands bound by adjustment and cannot simultaneously perform other activities. The disadvantage of manual control with concentric controllers is the necessity to re-grip from one control to another when changing the type of feed. Moreover, all the mechanisms described are relatively complex because they contain complex gears. Another known feed mechanism has only one actuator. It uses a lever gear, which fine adjusts the rotation of the shaft with the pinion. The feed is caused by a rack. Shaft rotation is only possible within a limited angular range. The device is complex to manufacture because it includes shaped levers and a knob with a recess.

According to the invention, the above-mentioned disadvantages are solved by a feed mechanism comprising a differential screw with an actuating head, a feed nut on one threaded part of a differential screw connected to a displaced part of the feed mechanism, an anchor nut on a second threaded part

- 2 differential screw, where the anchor nut is rotatably mounted in the frame of the feed mechanism by its outer circumference, in a bearing with increased friction, and a stop is formed at both ends of the threaded part of the differential screw on which the anchor nut is mounted » the second stop can be a differential head screw head and furthermore an adjustment screw can be mounted in the differential head screw head. The bearing with increased friction may consist of a pair of inclined surfaces formed on the outer circumference of the anchor nut and the frame of the feed mechanism. The pressure is applied by a prestressed foil.

The feed mechanism according to the invention has a simple transmission design. It is controlled by a single control for coarse and fine feed in a range depending on the length of the two threaded parts of the differential screw.

1 is a longitudinal cross-sectional view of the displacement mechanism in an exemplary embodiment; FIG. 2 is a cross-sectional view of the center of the anchor nut of the displacement mechanism anchor nut in the frame thereof; FIG.

The differential screw 1 is mounted in the anchor nut 4 by a threaded connection, the nut being rotatably mounted with increased friction in the frame 3 of the feed mechanism. The sliding part 2 of the feed mechanism is supported by a threaded connection on one threaded portion of the differential screw 1, the anchor nut 4 is mounted on a second threaded portion of the differential screw 1 having a thread of the same sense and a different pitch than the first threaded portion. The first stop J and the second stop 10 are fixedly mounted on the differential screw 1 on the threaded part with the anchor nut 8. The first arresting pin J, the second arresting pin 8 and the anchor nut 8 are mounted in the same stop. the first pin 6 and the second pin J. The second stop 10 here constitutes the control head 1 of the differential screw 1, is screwed onto the differential screw 1 and secured by a fastening screw 12 with a pair of washers 11. The second stop 10 also contains an adjusting screw 13 or to disable the fine feed. The rotatable mounting of the anchor nut 4 in the frame 3 of the increased friction feed mechanism is in the form of pairs of inclined surfaces. The first frame inclined surface 16 and the second frame inclined surface 17 are supported by a first nut inclined surface 14 and a second nut inclined surface 15 ' wherein the pressure on the anchor nut 6 is exerted by biasing the foil 18.

The feed mechanism according to the invention operates as follows: When rotating the differential screw X ee, it rotates simultaneously in the anchor nut 6 and in the feed part 2 of the feed mechanism. The screw acts as differential and results in a fine feed of magnitude given by the number of revolutions multiplied by the difference threaded parts of differential screw χ. Upon approaching the first pin 6 and the first arresting pin or reversing after approaching the second pin 8 and the second arresting pin 8, the anchor nut 6 begins to be carried along with the differential screw 1, which then no longer acts as a differential bolt, resulting in a coarse displacement of the number of revolutions of the differential screw násob multiplied by the pitch of its threaded portion housed in the displaced portion 2 of the feed mechanism. After the desired point has been traversed by the feed part 2 of the feed mechanism by coarse feed, the differential screw X starts to rotate in the opposite direction, the anchor nut 8 on the corresponding thread of the differential screw χ is unlocked and the differential starts. The screw 4 is rotated simultaneously with respect to the anchoring nut 4 and to the sliding part 2 of the feed mechanism, a fine feed is again obtained, which moves the sliding part 6 of the feed mechanism more precisely to the desired location.

The device according to the invention is used, for example, in a microscope feed, but also in other devices or devices where the coarse and fine feeds need to be alternated in a single actuator to drive the feed mechanism. It would also be possible to connect the device to the drive by an electric motor and a control system, thereby achieving a particularly large range of controlled feed speed.

Claims (6)

SUBJECT V Ϊ Ni Lt £ tt 1 «Feed mechanism, in particular for apparatus, comprising a differential screw with a control head, feed nut per drive. a threaded portion of the differential bolt connected to the displaced portion of the feed mechanism, an anchor nut on the second threaded portion of the differential bolt, characterized in that:. the anchor nut (4) is rotatably mounted in its outer circumference in the frame (3) of the sliding mechanism, in a bearing with increased friction, and at both ends of the threaded part of the differential screw (1) on which the anchor nut (4) is mounted first stop (9) and second stop (10) are formed · 2o Feed mechanism according to claim 1, characterized in that a first pin (6) on one side and a second pin (7) on the other side are provided on the front sides of the anchor nut (4) and at the same time a first arresting device (9) is provided. a pin (5) and a second arresting pin (8) is provided at the second stop (10) « 3 ₀ Feed mechanism according to items 1 and 2, characterized in that the second stop (10) simultaneously forms the viewing head of the differential screw (1) · The feed mechanism according to Claims 1, 2 and 3, characterized in that an adjusting screw (13) is arranged parallel to the longitudinal axis of the differential screw (1) in the actuating head formed by the second stop (10). 5 »The displacement mechanism according to claim 1, 2, 3 and 4, characterized in that the bearing of the anchor nut (4) with increased friction consists of at least two pairs of inclined surfaces (14, 15, 16, 17). 6. The feed mechanism according to claim 5, characterized in that the bearing of the anchor nut (4) with increased friction is formed by a first nut inclined surface (14), a second nut inclined surface (15), a first frame inclined surface (16) and a second frame inclined flat (17).