DE859369C - Device for checking or measuring deviations on vertically or at a small angle to the vertical angle - Google Patents

Description

Device for checking or measuring deviations on vertical or Angled surfaces running at a small angle to the vertical The invention relates to a device for checking or measuring deviations vertically or under small Angular surfaces running at an angle to the vertical, especially in cut-out plate openings or on other angled surfaces, the hebeispielswei se because of their small dimensions cannot be tested or only insufficiently tested with normal test equipment. According to the invention A guide system, which can be adjusted to the respective target angle, serves as the carrier a tactile organ that is applied to the angular surface to be tested under the same measuring pressure is arranged movably along, wherein the tactile organ by a transmission member with a fine feeler, e.g. B: a dial gauge, on which the deviations can be read from the setpoint. This arrangement can in particular be implemented in this way be that the deviation of each point of the surface to be tested from the target angle plane can be read in hundredths of a millimeter. As a tactile organ one can am adjustable guide system supported arm, which is vertical in the zero position use an isosceles, right-angled angle lever, the one at the bottom protruding touch point and the fine feeler is on its horizontal arm lays. The mentioned tactile organ will be stored in a caliper, for example and train the arrangement in such a way that that it is with a hand lever in a vertical position Direction up and down is. At the fixed leadership stwick one becomes the Vernier calipers, preferably using a spring, hold the caliper when releasing the hand lever leads to the upper end position. The measuring device represents so in the rest position always inevitably so that the tactile organ is its largest Distance from the supporting surface of the piece to be tested. The guiding piece he mentioned the .ASleSschiebers is made adjustable to the target angle in the invention.

In order to also be able to measure structural parts, the proportionally have large dimensions in the horizontal direction, one will according to the further invention the guide system that can be adjusted to the target angle on a suitably dimensioned Fasten the bracket to the support table of the device via a guide column is firmly connected. Another option for adapting to the subject to be examined Workpiece results when you place the boom in a horizontal position in this construction Swiveling direction and adjustable in height.

In Figs. I and 2 is in a front view and in a side view illustrated an embodiment of the invention. I is assigned to the device Support table denotes on which the workpieces to be examined are placed.

A guide pillar 2 rises on one side of this table, on which a boom 3 is placed so that it can be pivoted in the horizontal direction. On the outside At the end of the boom carries a plate rigidly connected to it. Relative to this plate a holder designed as a pointer 6 is attached so that it can pivot about the pin 5, so that the holder for the tactile organ is set to the desired angle that has grown in each case can adjust. The holder for the feeler element is designed as a sleeve 7 in the front part, which receives a holding tube 8. This holding tube has an isosceles at the lower end right-angled angle lever, whose thin arm, which is vertical in the zero position carries a laterally protruding tactile pin. On the horizontal arm 1 1 of the angle lever If the sensor 12 is supported by a dial gauge I3, the pointer shows the deviation of every point of the area to be tested from the target level in hundredths of a millimeter can read. For bringing the touch point 10 up and down on the surface to be tested a manually operated lever 14 which can be pivoted about the axis 15 is used and the holding tube 8 against the tension of the spring I6 inserted into the tube interior presses down. With the help of the conical holder 17, the spring is in the top cap IS of the sleeve 7 fastened, while the lower end of the spring around a pin 19 is looped, inserted in the tube 8 in the manner shown in FIG is. When the lever I is released, the spring I6 therefore pulls the touch point 10 again back to the upper end position.

A locking screw is used to change the target angular position 20, the plate 21 of which is guided back and forth in a corresponding slot in the part 6 can be solved. When the desired angular position is set on the graduations is, the screw 20 is tightened again with the aid of the knurled nut 22. To the Pivoting the boom 3 in the horizontal direction is the associated locking screw solved with the help of a handle 23.

Deviating from the embodiment shown in the figures, which is only a relatively rough setting of the target angle via the Pointer 6 and the angle scale assigned to part 4 can be used for this Set angle adjustment also includes an adjusting spigot with a center distance of 100 mm from the pivot point of the swivel system so that the target angle can be achieved with the help of gauge blocks set in the manner of a sine ruler to a vertically arranged measuring surface can be.

Claims (8)

PATENT CLAIMS: 1. Device for checking or measuring deviations on angled surfaces that run vertically or at a small angle to the vertical, in particular in cut-plate openings, characterized in that an on the respective target angle adjustable guide system as a support of a tactile organ this serves to move along the angular surface to be tested under the same measuring pressure is arranged, and that the tactile organ by a transmission element with a fine button, z. B. a dial gauge, on which the deviations from the target value are read can be. 2. Arrangement according to claim 1, characterized in that the tactile organ one held on the adjustable guide system and standing vertically in the zero position is the thin arm of an isosceles, right-angled angle lever that has a laterally protruding touch point and on whose horizontal arm the Fine feeler sets. 3. Arrangement according to claim I or 2, characterized in that the tactile organ is mounted in a Mefischieber and with a hand lever in a vertical position Direction up and down is. 4. Arrangement according to claim 3, characterized in that the caliper is supported on the fixed guide piece using a spring, the the slide when releasing the; Hand lever leads to the upper end position. 5. Arrangement according to claim I or one of the following, characterized in that that the guide piece of the measuring slide is adjustable to the target angle. 6. Arrangement according to claim I or one of the following, characterized in that that the guide system, which can be adjusted to the desired angle, is attached to a boom which is firmly connected to the support table of the device via a guide column is. 7. Arrangement according to claim 6, characterized in that the boom is pivotable in the horizontal direction and adjustable in height. 8. Arrangement according to claim I, characterized in that for adjustment of the target angle, an adjusting spigot with a center distance of 100 mm from the pivot point of the swivel system is used and that the target angle with the help of gauge blocks in the manner of a sine ruler is set to a vertically arranged measuring surface.