DE910230C - Drilling jig with a dial - Google Patents

Description

Drilling jig with a graduated disk The invention relates to a Drilling jig with a graduated disk. It is used to measure small bores. In a housing is a motion transmission rod for a reciprocating Movement appropriate. A piston block is on an elongated sleeve of the housing attached.

A piston for movement across the axis of the sleeve is attached to the rod connected for the transmission of the measuring movement. There is a centering on the sleeve appropriate.

There is a drilling jig known which has a removable yoke piece Has contact projections. The yoke piece cannot easily interfere with other pieces other sizes can be exchanged, as it is secured by two screws and a cross pin is attached in the manner of a dowel. It takes a long time to replace the yoke piece. As a result, the known drilling jig for determining very small bores is impractical. It can only be used to measure fairly large bores. Locked out is to measure small bores with the known measuring tool. This is his Structure too complicated.

A second known type of jig does not have an interchangeable one at all Pieces for the individual sizes of the holes. The flexible housing is used here for centering the measuring piston in the bore. The drilling jig only works in geW know tolerances. If you want to measure other bores with it, the entire volumetric flask must be used be replaced.

The invention consists in that the centering is preferably a disk with a slightly smaller diameter than the Bohv to be measured tion has, which is eccentric to the axis of the sleeve and with its center on the The axis of the piston is so that the correct diameter of a hole through the Piston and the diametrically opposite point of the disc is determined by that the piston in the bore through the cooperation of the peripheral surface of the disc is centered at the opposite point with the hole wall.

With the drilling jig according to the invention, small bores are flawlessly made measured. The Sießkolben transmits a correct result, even if the worker cannot see how the drilling jig is seated in the hole. A mere panning of the Drilling jig enables you to get the correct result on a display instrument receives. The washer centers the drilling jig exactly in the drill hole, even if there are small bumps in the borehole, which are otherwise caused by known measuring devices cannot be determined.

The invention is explained further with reference to the drawings.

Figure I is a top plan view of the jig with a dial according to the invention; Fig. 2 is a cross section of the measuring head of a jig with a Dial along the line 2-2 of FIG. 1; 3 is an enlarged front view of the measuring head of the device, it shows in particular the shape of the size disk and the position of the measuring head in relation to the hole to be measured.

The .existing difference in the diameters of the disc and the Hole is of course exaggerated in the drawing. In reality the disc diameter is only about 0.003 cm less than the minimum, possible diameter of the hole. As a result, the edges are the above Flattened surfaces of the disc to limit the movement of the measuring piston effective inwards when the wall of a hole is touched.

4 is a top plan view of the sizing disk assembly between the Piston block and locking sleeve; Figure 5 is a side view of one of the gauge head removed size disk, it shows in particular how easily it can be removed from the measuring head can be removed and replaced; Figure 6 is a side view of the size dial of Fig. 5; Figure 7 is a top plan view of the piston block of Figure 2; Fig. 8 is Fig. 7 is a side view of the oil block of Fig. 7; Fig. g is an enlarged schematic View of the volumetric flask and the rod transmitting the movement, it shows the Cooperation between the two parts and like the volumetric flask in the gauge head held the rod transmitting the movement without any other fastening means will; In is the housing in which a dial indicator I I of the type is housed is, which is often known as a precision dial; a handle 12 is either attached to the housing Io or consists of one piece with it.

In FIG. 2, the ale piston 13 of the dial indicator is freely movable 1 1 arranged in the central bore 14 of the housing 10. In the bore 14 is adjustable a sleeve I5 attached. which is held by an adjusting screw i6.

It extends through the wall of the bore 14 and presses against it a recess 17 of the sleeve 15. At its left end, the sleeve 15 has an internal thread. A second sleeve I8 is screwed into the sleeve 15, which is in the set Position is held by a locking nut 19.

The sleeve I8 is also internally threaded at its left end 20 provided, in which the tapered, cylindrical part 21 of the piston block 22 is screwed in. The piston block 22 is shown particularly in FIG. 8. He has a horizontally extending bore 23, which is with a vertical to this extending bore 24 intersects. The block 22 is with a to Bore 23 concentric, cylindrical part 25 is provided. He has a grooved Edge 26 on. around a margin for rocking the gauge in the one to be measured To hold the borehole.

As can be seen from Fig. 7, the piston block 22 has on the two opposite, vertical side surfaces grooves 27. These flattened surfaces serve to arrange the size discs, as will be described below.

Free through the inner bore of the sleeve IS and through the bore of the Sleeve Ij extends the movement transmitting rod 28. It is on her left end through a sliding fitting in a tapered portion of the bore 23 of the block 22 and at its right end by a sliding fitting in one Bore 30 of a bushing 3I, which is screwed into the right end of the sleeve 15 is.

The rod 28 is pushed to the left by a compression spring 32, which extends between the inner surface of the bushing 31 and a collar 33 of the rod 28 extends.

The left end of the rod 28 is wedge-shaped at 34 (Fig. 4. The wedge shape 34 preferably forms an included angle of 900 (450 to the center line). It is slightly rounded at the top and extends into a similar neckline of the measuring piston 35. This ensures that any movement of the measuring piston transferred through the rod 28 and the piston 30 to the dial indicator II will. Rotation of the piston 35 is also prevented. He gets in the hole 24 of the block 22 held.

Size washers centralize the gauge head in a hole and work simultaneously with the volumetric flask 35 to make a measurement of the diameter to get a hole. The size discs consist of a cylindrical part 36 (Fig. 5) which with respect to a longitudinally extending cylindrical rim 37 is eccentric. Also, each size disk has a rectangular one Cutout 38 which fits over the rectangular part 27 of the piston block.

As can be seen in particular from FIG. 6, the part 37 is hot 40 provided with a recess.

The outer surface of the disk part 36 is ground and rounded, so that the gauge head can be easily pivoted in the bore to get the exact Reading of the bore diameter.

In addition, the upper surface of the table of sizes at 4I is ground flat. The edges of the surface form a stop to prevent excessive depression of the volumetric flask 35 durc. the wall of a hole.

As can be seen in particular from FIG. 3, the eccentric part is used 36, d. H. the part which is eccentric with respect to the gauge axis, for centering of the gauge head or the block 22 in the bore at 42. Working at the same time the point of the disk 36 directly opposite the measuring piston 35 with the Pistons to determine the diameter of the bore to be measured.

The edge portion 37 of the size disk is used to hold the disk in place on the block 22 and for easy and quick removal of one size disk and replacing it with another.

The edge 37 cooperates with an outer sleeve 43 which is slidable fits onto the sleeve 18. At the right end of the sleeve I8 a flange 44 is provided, which rests on the right end of the sleeve 43. Connected to the flange 44 is a Cylinder piece with internal thread, which on the left, enlarged part 46 of the Sleeve 15 is screwed on. By rotating the cylinder 45, its surface at 47 is roughened. in one direction the cylinder 45 is removed from the flange 44. This allows the sleeve 43 to slide to the right. This will make the end of the sleeve 43 away from the edge 37. If the sleeve 43 is moved to the right in this way, the size disk be removed from block 22. A new size scale is used. On that the sleeve 43 is moved to the left to lock the new disc. The sleeve i13 is then in its left position by turning the cylinder 45 in the opposite direction Direction held. The flange 44 comes into abutment with the right end of the Sleeve 43 and locks it.

According to the invention, different sizes of disks can be attached to the gauge head Size can be attached quickly and exchanged with great ease. Simultaneously the construction is extremely simple. The parts can be made easily and economically getting produced.

Claims (2)

PATENT CLAIMS 1. Drilling jig with a graduated disk for measuring of small bores, in which a motion transmission rod in a housing mounted for reciprocating motion, a piston block attached to an elongated l sleeve is attached to the housing, a piston for movement transverse to the axis of the Sleeve is connected to the rod for the transmission of the measuring movement and a Centering is attached to the sleeve, characterized in that the centering a disc (36) preferably only slightly smaller in diameter than that has to be measured bore which is eccentric to the axis of the sleeve (43) and with its center point lies on the axis of the piston (35), so that the correct diameter a bore through the piston and the diametrically opposite point of the disc is determined by the fact that the piston in the bore by the cooperation of the Circumferential surface of the disc centered at the opposite point with the wall of the bore will. 2. Drilling jig according to claim I, characterized in that the disc (36) al, nehml> ar on the sleeve (43) with the help of concentric to the axis of the sleeve Locking device (o) is attached and clamping connections (45, 16) the disc hold in the locked position with the sleeve. Cited reference: U.S. Patents No. 2,239,981,2 587 099.