CH701891A2 - Device for holding of gauges. - Google Patents

Abstract

The invention relates to a device for mounting dial gauges, comprising a base body (2) which has at least one receptacle for a dial gauge, with a connecting part (3) pivotally connected to the base body (2), via which the base body (2) on a Tripod or the like can be attached, and with an adjusting device for adjusting the angle between the base body (2) and the connecting part (3) which has a running through the body and on the connecting part supporting screw (23). The connecting part (3) has in the region in which the adjusting screw (23) is supported on the connecting part, a recess (25) in which a spherical element (26) is arranged, on which the adjusting screw (23) is supported ,

Description

The invention relates to a device for mounting dial gauges with a base body which has at least one receptacle for a dial gauge, according to the closer defined in the preamble of claim 1 Art.

A generic device is known from EP 0 936 437 B1. Although good results can be obtained with this device, in some cases inaccuracies in the measurement can occur.

It is therefore an object of the present invention to develop a generic device for mounting gauges in such a way that it ensures an even higher precision in the measurement.

According to the invention, this object is achieved by the features mentioned in claim 1.

By the inventive recess in the connecting part and located in the recess spherical element, a force is introduced into the screw on the connecting part supporting screw, which deviates from its longitudinal axis, so that the screw with its external thread in the corresponding internal thread of Threaded hole of the body is pressed. In other words, the adjusting screw is acted upon by the spherical element with a lateral force and thus tilts in its threaded bore. This minimizes the otherwise existing clearance between the set screw and the threaded hole. This minimization of the thread clearance results in a better guidance of the connecting part relative to the main body, so that the dial gauge held in the main body is guided considerably more accurately with respect to the stand or the like to which the connecting part is attached.

The guided by the adjusting screw spherical element is in any relative position of the connecting part relative to the body in a position to initiate loss of the force introduced by the adjusting part in the screw force. This is also supported by the good lubricity of such a spherical element.

If it is provided in an advantageous embodiment of the invention that the recess has a depth such that the spherical element projects through less than half of its diameter on the recess, so there is a good guide for the spherical element and it is it also ensures good protection against loss.

In order to enable a better guidance of the spherical element in the adjusting screw, it can further be provided that the adjusting screw has a recess on its side facing the spherical element.

Further advantageous embodiments and modifications of the invention will become apparent from the remaining dependent claims. An embodiment of the invention with reference to the drawing is shown in principle.

It shows: <Tb> FIG. 1 <sep> A plan view of the holding device according to the invention; and <Tb> FIG. 2 <sep> a section along the line II-II of FIG. 1.

Fig. 1 shows a holding device 1 for a dial gauge, not shown. The holding device 1 is composed of an elongated base body 2 and a hingedly connected to the base body 2, also elongated connecting part 3.

The main body 2 is provided with a receptacle in the form of a bore 4 for receiving the dial gauge and with an adjacent to the bore 4 arranged dovetail guide 5 for attaching a holder for another dial gauge. The bore 4 and the dovetail guide 5 preferably produced by milling have parallel longitudinal axes and the bore 4 is connected to the dovetail guide 5 via a continuous slot 6.

The main body 2 has a further, in this case formed as a slot-shaped slot 7 recess, which is also adjacent to the bore 4, but arranged on the dovetail guide 5 opposite side thereof and also in the same direction as the bore 4 and Dovetail guide 5 is oriented. The slot 7 is connected to a further bore 8 in the base body 2 in connection.

In the base body 2 is a perpendicular to the slot 7 arranged threaded bore 10 into which a screw 11 is screwed. By turning the screw 11, which is performed completely through the threaded bore 10 and in turn abuts against the base body 2 on the opposite side of the elongated hole 7, the diameter of the bore 4 can be reduced to a small extent and a recorded in the bore 4 dial gauge can be clamped. At the same time by tightening the screw 11 also in the dovetail guide 5 befindliches element is clamped.

At the dovetail guide 5 opposite side of the base body 2 has a recess 12, which may be made for example by milling. In a region adjacent to the recess 12, the base body 2 has a bore 13, which is aligned with a bore 14 in the connecting part 3 when the connecting part 3 is brought into its corresponding position. The articulated connection between the main body 2 and the connecting part 3 is then formed by a plugged into the two bores 13 and 14 bolts 15. To mount the bolt 15 so the two bores 13 and 14 are arranged in alignment in the base body 2 and in the connecting part 3 and the bolt 15 is first inserted into the bore 13 and then into the bore 14. For receiving the connecting part 3 in the region of the two bores 13 and 14 and the bolt 15, the base body 2 may have a suitable, not shown recess into which a corresponding, provided with the bore 14 projection of the connecting part 3 engages.

Parallel to the connecting part 3 extends above the recess 12 a resulting from the milling of the recess 12 boom 16 of the body 2. The boom 16 and the connecting part 3 are at least approximately parallel to each other when the connecting part 3 assumes its normal position. Of course, in the basic position of the connecting part 3, the same can also approximately touch the boom 16 of the basic body 2, but this is considered to be encompassed by the term "at least approximately parallel".

In the boom 16 is a threaded hole 17 which is aligned with a two-stage bore 18 in the connecting part 3. Within the bore 18, a spring assembly 19, preferably consisting of a compression spring or a disc spring assembly, and a screw 20 are arranged. By screwing the screw 20 into the threaded hole 17 and tightening the same, the connecting part 3 can be biased relative to the base body 2. Through the threaded bore 17, the two-stage bore 18, the spring assembly 19 and the screw 20 is given in the present case, a biasing means 21 for connecting the connecting part 3 with the base body 2, whereby a backlash-free measuring is possible.

In the boom 16 is at a remote location from the screw 20, a further threaded bore 22 in which a screw 23 is screwed. The adjusting screw 23 is screwed so far from the connecting part 3 side in the boom 16 that it rests against the connecting part 3 and is used in a further screwing for adjusting the angle between the connecting part 3 and the base body 2, in which case the force of Biasing device 21 must be overcome.

The threaded bore 22 and the adjusting screw 23 are part of an adjusting device 24 for adjusting the angle between the base body 2 and the connecting part 3, which is better seen in Fig. 2. The adjusting device 24 has a recess 25 located inside the connecting part 3, which preferably has a cylindrical shape and in which a spherical element 26 or a ball is accommodated. The recess 25 and the spherical element 26 located therein are located at the point where the set screw 23 would coincide with the connecting part 3, ie immediately in the extension of a longitudinal axis «z» of the adjusting screw 23. In this case, the recess 25 has such a depth in that the spherical element 26 protrudes partially beyond the connecting part 3, but not more than half of its diameter, so that falling of the spherical element 26 from the recess 25 is prevented. For example, in the case of a spherical element 26 having a diameter of 3 mm, the depression 25 may have a depth of 2.5 mm, so that the spherical element protrudes 260.5 mm beyond the upper edge of the connecting part 3.

In the present case, the recess 25 is shown with a flat bottom surface, in the sense of a lower cost, however, the recess 25 may also have a bottom surface produced by a conventional twist drill, ie a tapered bottom surface, in which case the spherical element 26 further penetrates into the recess 25 than in the case of a flat bottom surface. This is to be considered in the choice of the depth of the recess 25. However, since the dimension by which the spherical element 26 protrudes beyond the recess 25, but does not play a decisive role in the function of the holding device 1, this measure in the example of a ball with a diameter of 3 mm between about 0.1 mm and 1.4 mm, that is slightly less than half the diameter of the spherical element 26, fluctuate. As a result, the production can be simplified because no exact tolerances must be met.

In order to guide the screw 23 relative to the spherical element 26, the adjusting screw 23 at its the spherical element 26 and thus the connecting part 3 side facing a recess 27, which in the present case as in the direction of the longitudinal axis z of the adjusting screw 23rd at least over a certain length of the adjusting screw 23 extending bore is formed. The diameter of this hole 27 forming the recess should be slightly smaller than the diameter of the spherical element 26, in the example of a diameter of the spherical element 26 of 3 mm, for example 2.5 mm.

The connecting part 3 is provided at the end remote from the projection 14 with a thread 28. When used, the holding device 1 is attached via the thread 28 to a tripod. In the hole 4, a dial gauge is inserted and clamped by the screw 11. To adjust the dial gauge, the adjusting screw 23 is rotated, whereby the connecting part 3 with respect to the base body 2 and thus the base body 2 is tilted relative to the stand. The center of this tilting movement is in this case the connection between the two bores 13 and 14 and the pin 15 inserted therein. Ultimately, therefore, the dial gauge can be adjusted relative to the stand.

Claims (6)

1. A device for mounting dial gauges, comprising a base body, which has at least one receptacle for a dial gauge, with a hingedly connected to the main body connecting part, via which the base body to a tripod or the like can be attached, and with an adjusting device for adjusting the angle between the base body and the connecting part, which has an adjusting screw extending through the main body and being supported on the connecting part, characterized in that the connecting part (3) is supported in the region in which the adjusting screw (23) bears against the connecting part (3) , a recess (25), in which a spherical element (26) is arranged, on which the adjusting screw (23) is supported. 2. Apparatus according to claim 1, characterized in that the recess (25) has a depth such that the spherical element (26) projects beyond the recess (25) by less than half its diameter. 3. Apparatus according to claim 1 or 2, characterized in that the adjusting screw (23) on its side facing the spherical element has a recess (27). 4. The device according to claim 3, characterized in that the recess (27) as a in the direction of the longitudinal axis (z) of the screw (23) at least over a portion of the length of the adjusting screw (23) extending bore is formed. 5. Device according to one of claims 1 to 4, characterized in that the articulated connection between the base body (2) and the connecting part (3) by respective mutually aligned bores (13, 14) and one in the bores (13, 14 ) inserted bolt (15) is formed. 6. Device according to one of claims 1 to 5, characterized in that the base body (2) by means of a biasing means (21) with the connecting part (3) is connected.