DE1042905B - Length measuring device - Google Patents

Description

The invention relates to a longitudinal measuring device for marking or determining length or height dimensions, in its hollow shaft a number of precision-made, block-like elements with circular Cross-section are arranged, which points of engagement for the adjusting member of a sliding on the shaft Form sled.

Such longitudinal measuring devices are already known. They show a in the slide perpendicular to the row of elements slidable nose part which is in engagement with the balls, whereby different coarse measuring stages are formed. This nose part is designed as a semicircular cam on the engagement side and engages in each case between two adjacent balls. However, this known cam training has the Disadvantage that it can only be made by turning or milling, which is relatively expensive manufacturing costs caused. Another disadvantage of the known cam design is the fact that the entire length of the row of elements cannot be used as a measuring range, because in both of them End positions, when the cam is in engagement with adjacent balls, one on each side Part of the length of the shaft, which corresponds to at least half the ball diameter, remains unused.

The purpose of the invention is to avoid these disadvantages in that the nose part of the adjustment member is forked, so that it is with the adjacent sides of a single Element is engaged. This inventive design of the nose part of the latching device With a length measuring device, it is possible to use the entire length of the row of elements as an adjustment range to take advantage of the adjusting member and the adjusting cam with the help of very simple and cheap drilling to manufacture.

An exemplary embodiment of the invention is explained below with reference to drawings. It shows Fig. 1 is a side elevation of a thickness or height gauge with scriber according to the invention partially on average,

Fig. 2 is a section through the transmission member along the line 2-2 of Fig. 1,

Fig. 3 is a partial section along the line 3-3 of Fig. 2 and

Fig. 4 is a side view of a micrometer shear gauge according to the invention.

The device according to FIGS. 1 to 3 consists of a base part 10 to which a shaft 11 is attached, whose longitudinal axis 12 is exactly perpendicular to the lower surface 13 of the base part. The shaft has a longitudinal bore 14 which extends over its entire length. Both ends of the hole are with an upper screw plug 15 or a length measuring device

Applicant:

All Precision Engineering Limited,
Horsham, Sussex (Great Britain)

Representative: Dipl.-Ing. K.-A. Brose, patent attorney,
Pullach near Munich, Wiener Str. 1/2

Claimed priority:
Great Britain from -21. March 1956

Guy Lury, Horsham, Sussex. (Great Britain),
has been named as the inventor

lower screw plug 16 tightly closed. The shaft has a narrow slot 17 with parallel Pages, which extends without interruption almost over the entire length of the shaft 11 and the short ends before the upper or lower end of the shaft. In the bore 14 a number of are the same large, hardened, ground and lapped steel balls 18 arranged with the greatest accuracy are made and by suitably tightening the screw plug 16 against the lowermost ball 18 in be held tight engagement with each other, the top ball against the screw plug 15 rests. Since the steel balls are fitted with a tight sliding fit in the bore 14 ", the balls are through the bore held firmly and in a straight line. The shaft with the row of balls arranged in it thus forms a straight-line scale or series of steps, which is the highest despite its very robust construction Has accuracy, since the locking surfaces 19 of the balls 18, which appear in the slot 17, a mutual Have a distance from one another, the accuracy of which is just the degree of accuracy with which the diameter and the roundness of the individual balls are made, depends.

The shaft also has a transmission member 20 which is arranged and designed such that it can be locked at each ball 18. It consists of a sleeve part 21 on the outside of the Shank 11 is guided in a fixed sliding fit, the sleeve part made in one piece with him has tubular button 22, which extends perpendicular to the shaft on the opposite side of the measurement

809 677/196

Claims (5)

3 ₄ stretches. In the bore 23 of this button a KoI- is arranged firmly at the upper end of the leg 41, ben 24 is arranged, which is cylindrical over a substantial part so that the indicator member is always pushed upward along its length so that it becomes. The base part 47 of a micrometer screw slidably fits into the bore, with its front part head 46 is fixedly arranged in the block 39, for. B. by means of a narrow nose part 25 with flat sides 26 and 27 5 of a locking bolt 48, in such a way that the (Fig. 2), which is guided in the fixed sliding fit between piston 49 a movable stop for the upper walls of the slot 17 . From the part of the leg 41 forms. In this way, viewed from the side, this nose part is possible as a V-shaped cam that can be formed by rotating the measuring drum 50 of the ken 28 (FIG. 1), so that it is within the micrometer head the display element 42 in the longitudinal measuring range of the instrument with each of the balls 18 io device can be displaced, whereby this can come into engagement, so that the exercise can be fixed in a known manner by the merging part 20 with the greatest accuracy at the location of the micrometer scales 51 and 52 of the shaft that the location of _w j _r d. Of course, it is essential that the measuring range corresponds to the chosen sphere. The V-shaped cam 28 of the micrometer head 46, which is equal to the diameter, exercises such an effective centering and locking effect on the ball 18 that the block-like elements also form the action for engaging the piston. For example, the balls may have a diameter of one centimeter used resiliently by the corresponding ball so that they can be used. In the illustrated embodiment micrometer head normally between zero and example, this force will have to indicate a centimeter by a compression spring. The balls generated 29, which with their front end against ao speaking measuring stages are expediently applied to the piston 24 and at their rear end on the side of the shaft 11, as shown at 53, is held on by means of a ring 30 which is in the ordered, the corresponding digit of the with the opening of the button 22 is arranged. For the optional piston 24, the position of the transmission part 21 on the shaft 11 is visible by a retraction of the piston 24 when the opening 24 formed on the side of the sleeve part 21 changes. By this measurement, the height of a tubular sleeve 31 (Fig. 2) is rotatably positioned within the underside of the surface 55 of the indicator member of the ring 30. The sleeve communicates with the advance ring established above the plane of the base part 13 via a thread arrangement which sets the micrometer head 46 to zero, ie in from a spiral groove in the outside of its lowest position. When the micro-bushing and a pin 33 that engages in it, the measuring drum 50 is rotated in order to raise the indicator, which is located on a grub screw 34, the exact value of the displacement and radially inwardly from the back 30 is increased. exercise indicated by the scales 51, 52. When this stretches. The sleeve 31 has a larger ring value than the number-shaped head 35 appearing in the opening 54, with the aid of which it is added by hand, the sum gives the new height that can be rotated. It is connected to the piston 24 by 35 measuring surface 55. In the block 39 (Fig. 2) an axially extending head screw 36 is connected, screw 56 expediently on the side which is stuck in the piston and on which the bushing fc _{en is} arranged for the purpose to come with the member 41 arranged in freely rotatable engagement with substantial axial play and the indicator member 52 is in each. In order to withdraw the piston 24, the desired position is set. Bushing 31 unscrewed backwards so that 40 Fig. 4 shows an embodiment of the invention the screw 36 the piston against the force of the Fe- j _n shape of a precision caliper. The principle of 29 withdraws. When the sleeve 31 is back, it is the same as it was turned before, in order to again apply a locking effect. The shaft 11 carries a sliding on it to exercise, the head 35 rests against the ring 30, where transmission part 20, on which a movable yoke is arranged at 37 (Fig. 2), however, an axial play between 45 42 a, which the indicator member 42 of the sleeve 31 and the piston 24 is present. The Fig. 1 corresponds. The shaft 11 contains a number of parts, however, can also be designed and one of balls 18 or other block-like EIegellung that the bush 31 directly against the elements, which by means of the end plug 16 a pushes in a piston 24 to put him in his locked straight row can be held. Absolutely hold onto the movable lung. In this case, the yoke can be dispensed with by engaging the transmission member spring 29, although it is preferable to keep the corresponding ball 18 larger, since in this way an approximately very precise step can be set, while the mere and faster actuation is possible. One of the micrometer head 46 can be effected for a fixed, precise fine adjustment between the stages with the aid of holding the piston in the blocking position. An adjusting screw 38 on one side of the knob 22 55 on the shaft 11 attached yoke serves as a fixed point (Fig. 2) to be screwed. for the measurement. The sleeve part 21 is thickened at the front, those parts of the description that are not unmitso that a trained in one piece with him directly to the claims contained in the claims Block 39 arises, referring to a narrow groove with parallel proposals, do not contain any part of the ErSeiten which extend in the longitudinal direction of the sheep, but are only of an explanatory nature, tes extends and serves the parallel to the shaft extending legs 41 of an L-shaped scriber Claims:
or another display member 42 to receive. 1. Length measuring device with a shaft designed as a tube. The groove is depicted by a front cover plate 43, in which the shaft is firmly locked in its position. The block 39 has cavities which 65 laid, block-like elements with circular serve to accommodate a pair of weak spiral pressure cross-sections which receive engagements for springs 44 which along the leg 41 form the adjusting member of a slide on opposite sides the same arranged slidable and lockable on the shaft angeordsind (Fig. 3) and soft is net with their upper ends, characterized in that the adjustment against a transverse pin 45 abut the 7 ° member (21) has a forked nose part (28) , which engages the side surfaces of a single element. 2. Length measuring device according to claim 1, characterized in that the nose part (28) as a V-shaped Cam is formed. 3. Length measuring device according to claim 1 and 2, characterized in that the nose part (28) in a sleeve (22) of the adjusting member rotatably and longitudinally displaceably guided and by means of a Spiral guide (33., 34) is designed to be operable. 4. Length measuring device according to claim 1 to 3, characterized in that the block-like elements (18) are cylindrical. 5. Length measuring device according to claim 1 to 3, characterized in that the block-like elements are designed as balls. Documents considered: German Patent No. 928 201; U.S. Patent No. 2,617,199. 1 sheet of drawings ® 809 677/196 10 ·.