DE1912605A1 - Device for holding a measuring element consisting of a measuring probe and measuring head for an internal bore measuring device - Google Patents

Description

Device for holding a measuring probe and measuring head Measuring element for a bore gauge.

The invention relates to a device for holding an off Measuring probe and measuring head existing measuring element for an Eohrungsinnenmeßgerät, in which the workpiece to be measured rests on a height-adjustable Til and at the the measuring element is held by a support body connected to a support column.

In such a known measuring device, the measuring element consists of two Spreading jaws and a conical needle, which is tapped by the spreading jaws The value is transferred to a display device, namely the measuring head. The first measuring organ is in clamped a support body connected to the support column. The ones to be measured Workpieces lie on a lifting table that can be operated by means of a hand lever and are fed to the measuring probe by lifting the latter. In these known devices there is the disadvantage that if there is a misalignment between the central axis of the to measuring bore and the measuring probe axis measuring errors occur. Even with small ones Differences of only a few hundredths of a millimeter result in measurement errors in their Order of magnitude beyond what is permitted. Such measurement errors occur in particular with larger parts, where the low sealing force of the measuring probe does not help Overcoming the friction between Workpiece and table surface are sufficient. To avoid this disadvantage, it is customary to mount the measuring table on balls, in such a way that the measuring table can be moved in a horizontal plane in order to facilitate the alignment between the bore to be measured and the measuring probe to facilitate the mass of the parts to be moved, namely the table, the workpiece and the balls however, a relatively large starting torque. This allows for a sensitive adjustment very difficult.

Workpieces do not remain in their measuring position without aids lie on the table, they must not be pressed down with the hand. Purpose of The invention is to remedy the above disadvantages.

The invention is based on the object of an internal bore measuring device of the above type to create, in which by the type of storage of the Measuring probe and measuring head existing tßorganes in the support body, in an existing one limited misalignment between the measuring probe and the bore to be measured, the result of this related measurement errors is comparatively much lower. This task is carried out according to the invention achieved in that the measuring element is parallel to the measuring table level schtringbeveglich and is mounted in the support body in a vibration-damped manner.

This inventive design of the measuring elements3 can, even with Alignment errors, which are in the order of magnitude of up to one millimeter: the measuring element when inserting the measuring probe into the bore, move slightly out of its central position, without the measurement result being significantly falsified.

According to a further feature of the invention, there is the device for the oscillatory mounting of the measuring element from two arranged in the support body, at right angles to one another, formed in the manner of a parallelogram linkage Spring leaf holders which hold the measuring element. The spring leaf holders allow the neighbors to move slightly on all sides in a horizontal position Level. This means that the spring blade holder vibrates too violently during the eating process is avoided is, according to an additional feature of the invention, the latter holder connected to an oil damping device, so that the measuring probe at a low lateral impact comes to rest quickly.

This storage of the measuring element created according to the invention works practically frictionless, with no change in this state over time entry.

The restoring forces exerted on the measuring element by the leaf springs are minor and cause no or only insignificant falsifications of the Measured value; however, the restoring forces are sufficient, the measuring probe always in the Traced back to zero position. Due to the fact that in the inventive storage of the measuring element of the table is only held adjustable in height, workpieces can be which do not remain in the measuring position on the measuring table without aids, with pressed against the hand. The device created according to the invention for holding of the measuring element, including the damping, is absolutely maintenance-free and exists only from simple, relatively roughly dimensioned parts.

Further details of the invention can be obtained from the drawing, in which an internal measuring device and a device for holding the measuring element are shown are.

According to FIG. 1, the internal bore measuring device consists of a base 1 and a height-adjustable measuring table 3 to be actuated by a handle 2 The base has a guide column 4 in which the support column 5 is displaceable and can be set and locked by means of a handle 6. The carrying column holds the box-shaped one Support body 7 with the measuring element consisting of measuring probe 8 and measuring head 9. Means a clamp 10 can detach the Ileßorgan from the support body 7 and in the direction of the Arrow 11 can be pulled out of the support body.

As can be seen in particular from Figure 2, are in the box-shaped support body 7 two arranged at right angles to one another in the manner of a parallelogram linkage trained spring leaf holders, generally designated 12, 13, arranged. The spring leaf holder 12 consists of a connected to the support body and thus stationary plate 12a, which carries leaf springs 12b on both sides. The latter leaf springs are arranged so that they swing freely over the bottom 7a of the support body can. The leaf springs are at their ends opposite the clamping point connected to the oscillating plate 12c, which can oscillate in the direction of arrow 14 is held. The oscillating plate 12c in turn carries the holding plate 13a of the second Spring leaf holder with the leaf springs 13b and the oscillating plate 13c, which in Direction of arrow 15 held in the aforementioned leaf springs so as to be able to oscillate is. A clamp 16 is connected to the swing plate 13c and has a bore 17 to accommodate the measuring element. In the bottom 7a and in the cover 7b of the support body I am in each case a sufficiently wide recess, such that the measuring element one enough has great leeway. With the swing plate 13c an oil damper 19 is also connected, the abutment of which is the bottom 7a of the support body is.

The leaf springs 12b and 13b are, as can be seen, with platings 20 provided, which prevent twisting of the rods against each other. The effective Fcderlängc is kept so that with the expected disturbance forces, the Amplitude is approximately 1.5 mm and with a relatively low oscillation frequency the oil damper 19 is particularly effective.

7 claims 2 figures

Claims (7)

P a t e n t a n s p r ü c h e 1. Device for holding an off Measuring probe and measuring head existing measuring oranges for an internal bore measuring device, in which the workpiece to be measured rests on a height-adjustable table and with the the measuring element is held by a supporting body connected to a supporting column, in that the measuring element (8, 9) is parallel to the measuring table (3) is mounted in the support body (7) so that it can vibrate and is vibration-damped. 2. Apparatus according to claim 1-, characterized in that g e k e n n -z e i c h n c t that the device for the oscillatory mounting of the measuring element (8, 9) two in the support body (7) arranged at right angles to each other, according to Art a parallelogram linkage formed spring leaf holders (12,13). 3. Device according to claims 1 and 2, characterized in that g e k e nnz e i c h n e t that one of the oscillating plates of the spring leaf holders (12, 13), preferably (13c) is in communication with an oil damper (19) 4. Device according to claims 1 to 3, characterized in that one of the oscillating plates (13c) a clamp (10, 17) for receiving the measuring element (8, 9). 5. Device according to claims 1 to 4, characterized in that g e -k e n n z e i c h n e t that the leaf springs (12b, 13b) are like a parallelogram linkage formed spring leaf holders (12,13) are provided with platings (20). 6. Device according to claims 1 to 5, characterized g e -k e n n z o i c h n o t that the Schwingplattc (12c) of the former spring leaf aging (12) the Holds the base plate (13a) of the second spring leaf holder (13). 7. Device according to claims 1 to 6, characterized g e -k e n n z e i c h n e t that the direction of oscillation (14) of the former spring leaf holder (12) r @@ at two angles to the direction of oscillation (15) of the second spring leaf holder (13). L e r s e i t e