DE864921C - Inside measuring device, in particular for measuring blind holes - Google Patents

Description

Internal measuring device, especially for measuring blind bores There are Inside measuring devices known in which unsprung unsprung ones arranged at right angles to the head axis cylindrical probe pin by the axial displacement of a conical needle be driven outside. With such measuring heads, the distance between the probe pins cannot be made below a certain minimum from the front face of the head. Since, in addition, the feeler pins are not spring-loaded, they are out of their extreme rest position does not go back by itself with the receding needle, so its outer edge must be beveled. so that they are driven back so far when they hit the edge of the hole so that the head can be moved into the bore. Through this bevel Thus, the distance between the bolt surface used for clamping and the head end surface increases further. This situation goes when measuring blind holes in depth lost because the head face hits the biodiene of the hole without the edge of the bole can reach the bottom of the hole. This makes z. B. when measuring the frequently occurring ones and right down to the ground with great accuracy Separate ball bearing seats to be processed and the like noticeable disturbing.

This nuisance is thereby eliminated in accordance with the present invention. that one gives the bolt a forward inclined position so that its front edge up to the level of the face of the face or even beyond it, and thus Blind holes and stepped bores down to the bottom measured without the frontal plane of the head coming to a standstill. Simultaneously you get a longer support of their inner surfaces by the misalignment of the bolts on the needle in the rearmost position of the latter.

So that with this device you can drill holes down to the bottom can measure, so it is also necessary that the front edge of the plunger is not beveled, but sharp. But then the I (opf can only go into the hole be inserted when the bolts with the receding needle also recede. For this a suspension of the same is necessary, under whose effect they always also on stay in contact with the receding needle. This suspension can be carried out expediently that one puts a common ring feather around all bolts.

The drawing shows an example embodiment of the subject matter of the invention shown schematically.

Fig. I is a longitudinal section through a complete device, Fig. 2 a Top view; Fig. 3 shows the head with the cover removed in a front view.

A head 2 is screwed onto the front end of a shovel sleeve 1, in which three cylindrical bolts 3 are embedded in such a way that their axes so are inclined far forward that their front edge 4 over the front plane 5 of the head reaches out. The bolts lie on the inside on a conical needle 61, which in a slide 7 is screwed on. whose shoulder S engages a compression spring 9, which, on the other hand, is supported on a ring 10 projecting into the bore of the shaft is. A pin 11, which also supports the shaft sleeve 1, goes transversely through the slide 7. and a protective sleeve 12 penetrates and into which finger grips 13 are screwed on both sides are. Longitudinal slots 14 made in the shaft sleeve I allow axial displacement of the slide 7 and thus also the needle 6 in the shaft sleeve.

The bolts 3 are on the side facing the head end provided slots 15, in which a common ring spring I6 is inserted, which in an annular shape that locally penetrates the walls of the pin bores Recess 17 of the head finds space. An ini the face 5 of the kopes let in Cover 17 'protects the needle and the inner pin ends from contamination. In the head Embedded screws 18 extend into small longitudinal slots 19 of the bolts and leave the bolts the freedom of movement necessary to measure holes of different sizes in the direction of their axes, while on the one hand they allow the bolts to penetrate too deeply in the head body and on the other hand, a falling out of the bolts when the ring spring is removed impede.

At the rear end of the shaft sleeve is a measuring device for the needle shift attached which z. B. from one in an internal thread 20 the micrometer screw 21 rotatable with the shaft sleeve, one with this by a screw 22 connected scalar drum 23 and a ring 24 fixed on the shaft, on which a fixed mark 25 is arranged. The micrometer 21 has a stop 26, against which the rear, which is also designed as a stop The end 27 of the slide 7 is inactive when the slide is pulled back on the handles 13 will.

When the device is at rest (Fig. 2), the spring 9 pushes the slide and the needle so far forward that the cross pin 11 at the front end of the shaft slot 14 comes to the plant. So that this is possible, the starting from the spring 9, multiplied by the needle cone, the bolts are larger in terms of the external driving force than the force of the annular spring 16 driving the bolts inward.

If you now want to measure the diameter of the bore 28, you screw first the scaling drum 23 far to the rear that the stop 26 is far enough protrudes from the stop 27. Pull on it with the rear end resting on the heel of your hand of the shaft 22 the slide with two fingers placed around the handles 13 so far back until 27 meets 26. The needle and the ring spring also go back i6 pulls the bolts inward as far as the tapered needle cone does allows, and you can enter the hole with the device. Is one with the bolts reached the bottom of the hole (Fig. II), let go of the finger grips, whereupon the needle moves forward under the action of the slide spring g until the bolts come to rest on the cylindrical bore wall. The pit of the needle displacement obviously depends on the diameter of the hole. The measurement of this shift from a certain point, which can be obtained by measuring a borehole from known Diameter has previously determined, is now done by turning the micrometer with the device hanging freely in the hole, turns it forward until 26 opens again 27 pushes open, whereupon with a suitable division of the scale the diameter of the to be measured Bore to be read directly came.

The arrangement shown with three bolts in a row can can also be modified so that i one z. B. for two-pole measurement only two opposing probe pins attaches. Likewise, more than three bolts could be in one or more for certain purposes be arranged in several rows. Another measuring device could of course also be used used to measure needle displacement than the one shown.

Claims (4)

PATENT CLAIMS: Ii. For measuring: blind holes specific Internal measuring device, in which probe pins are pushed through a conical needle against the wall of the bore are pressed, characterized in that the guides for the probe bolt at an angle to the needle axis are directed so far to vonl that the front edges of the bolts until to the end face of the measuring head or beyond it. 2. Internal measuring device according to claim 1, characterized in that obliquely arranged by inclined cylindrical probe pins in an exchangeable measuring head are, whose outer end faces after the bore cylinder and their inner end faces are worked according to the needle cone. 3. Internal measuring device according to claims 1 and 2, characterized in that that the feeler pin is always pressed against the measuring needle by springs acting inwards and the force of these springs is smaller than that acting outwards, from the force resulting from the needle slide spring. 4. Internal measuring device according to claims 1 to 3, characterized in that that the feeler pins are pulled inwards by a common ring spring engages in slots in the felt and in one on the front attached to the head, the walls of the bolt holes piercing, annular Recess finds space.