DE311434C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

In the production of pressed and drawn, internally cylindrical hollow bodies than occurs more frequently Error that the diameter of the cavity towards the bottom is too larger than

at the top. Such a hollow body is illustrated in Fig. Ι of the drawing in section. If one denotes the inner diameter at the level of the edge with D, near the bottom with D ₁ , it often happens that D ₁ > D. If such hollow bodies are turned on the outside except for a thin wall, the unevenness of the inside diameter impairs the strength of the hollow body to a great extent.

¹ S The error cannot be determined in a simple way with ordinary gauges, individual measurement by means of a probe is hardly considered for mass-produced articles with regard to costs.

The invention relates to a hollow tolerance gauge to determine the presence of bulges, consisting of a measuring beam with a small axially expansion and a projection perpendicular to this measuring beam with a length equal to the distance between the inside diameter to be measured corresponds to the bottom of the hollow body. The length of the measuring beam is equal to the largest permissible inside diameter. The doctrine is inserted obliquely over the narrowest point of the hollow body in its depth as far as the approach allows, and in this position straight if possible in the plane passing through the handle and measuring beam posed. If this succeeds so far that the axis of the gauge is parallel to the axis of the hollow body stands, the inside diameter is too wide in the same way, such as B. a hole in which goes in the plus side of a tolerance gauge. If the new teaching in the hollow body cannot be set parallel to its axis, the point on the hollow body is that prevented, not too far. The hollow body, which is bulging too far, makes itself felt when teaching through remarkable in that the doctrine extends not only up to axis parallelism, but also in can continue to move in the same direction until the stem touches the upper edge of the hollow body touched.

In the drawing, the subject of the invention is in FIG. 2 in view, in FIG. 3 in plan view shown, while Fig. 4 illustrates the position of the teaching in a hollow body, the inside diameter of which has no impermissible expansion, and FIG. 5 shows the teaching shows in a hollow body with an impermissibly large diameter.

The tolerance gauge consists of a measuring beam whose ends 2, 2 ^{1 form} a spherical surface with the diameter of the largest permissible inner dimension of the hollow body. A projection 3 is perpendicular to the measuring beam and has a height which corresponds to the distance of the point to be measured from the bottom of the hollow body. A handle 4 is used to introduce the tolerance gauge into the hollow body or to fasten the same on a holding plate 5.

Fig. 4 shows the position of the teaching in the hollow

body if the inside diameter does not exceed the permissible dimension. Then lets the diagonally introduced teaching in the hollow body is not exactly in contrast to Fig. 5, in which the inner diameter of the hollow body exceeds the permissible dimension and as a result '! the teaching in the hollow body can be set straight.

The tolerance gauge is used to re-measure large quantities of hollow bodies expediently in the manner illustrated in FIG. Here the gauge is attached to a board with the handle. The ones to be controlled Hollow bodies are placed obliquely towards the auditor on the gauge, the measuring bar of which points to the auditor. Let the hollow bodies straight from this position and, moreover, in the opposite direction If the direction is inclined again, they are too far and will be deducted in the new inclined direction and thrown into a container facing the same direction. Let the On the other hand, do not put hollow bodies straight on the tolerance gauge, they will be in the Turned back the attachment direction and thrown into a box standing in this direction. The control work is therefore a purely mechanical one, and it also becomes the direction in which the revised capsules are to be thrown by the resistance encountered in teaching instructed.

If you turn the gauge in the axial direction around you if the capsule is too wide itself, this shows whether the capsule is evenly bulged or perhaps on one Place too narrow where the other is too wide.

Claims (1)

Patent claim: Hollow tolerance gauge for determining the presence of bulges, marked by means of a measuring beam of small axial extension, the length of which is • equal to the permissible inside diameter of the hollow body is at a certain distance from the ground, and an approach of standing perpendicular to this measuring beam a length which corresponds to the distance of the inner diameter to be assessed from Corresponds to the bottom of the hollow body, the teaching being inclined over a narrowest point of the hollow body introduced into the same and through the possible or non-executable Straightening the presence of an impermissible expansion of the diameter can be determined. 1 sheet of drawings.