DE1974270U - DEVICE FOR DETERMINATION AND CONTROL OF LIGHT MASSES. - Google Patents

Description

RA. 534 32 Mt 9.67

Applicant:

Ernst Maucher

7οβ3 Welzheim

Am Rehfeld Welzheim, March 20th, 1967

Description: Device for the determination and control of light masses.

The invention relates to a device for determining and controlling light masses, for measuring bores, parallel hats, internal gears, as well as for the adjustment of snap gauges, i.e. parts that are to a prescribed size are to be produced, with a view to interchangeability A measurement accuracy of 0.001 mm is required of spare parts.

The known devices for measuring or checking light masses correspond in part to the requirements ¹ } given above, but the construction of the known devices is in part complicated and expensive and their handling is cumbersome for quick work. Their use is often made more difficult by the lack of necessary operating resources that are subject to consumption, such as compressed air, or the devices are temperature-sensitive and therefore prone to failure.

Optical devices in particular require careful storage and vibration-free installation; they tend to show signs of fatigue and thus incorrect measurements. Such devices are also coming for larger productions, such as roughly machined inner surfaces, not embossed. The measuring ranges of most known facilities are relatively small and generally do not extend beyond +0.50. With a larger scope of manufacture "" with numerous different light masses, is therefore a corresponding number of measuring devices and consequently a corresponding one Investment required. Most known measuring devices require separate, expensive ring gauges that too cannot be used for any purpose other than setting and comparing the device in question. Pneumatic devices require nozzle mandrels which only cover the smallest measuring ranges and which are separate for the measuring range must be held on Yorrat, therefore also require considerable capital.

The invention is based on the object of creating the devices required for this purpose for determining and controlling light masses, by means of which the described deficiencies and disadvantages are eliminated. The measuring method should be easy to carry out, the measuring device should be easy to handle and allow a relatively large measuring range to be covered. The devices should be inexpensive to purchase and use, take up little space and, above all , reduce the overall effort required for ongoing measurement and control as much as possible. Furthermore, the invention is intended to create the possibility of quickly and reliably determining any out-of-roundness or conical configuration, parallelism or non-parallelism of the boundary wall of light masses. The device according to the invention should optionally be able to be used as an adjustable fixed gauge and be applicable to depths of the light mass to be measured which are a multiple of the diameter. The invention is also based on the assumption that any commercially available measuring stand for external dimensions and any dial gauge, regardless of the division, can be used directly as the actual measuring or reading device by setting it with commercially available gauge blocks.

According to the invention, all of these objects are achieved by in which one of two coaxial, protruding from a common guide, under homopolar magnets in the direction mutually movable and resiliently lockable using a further magnet, possibly unyielding lockable bolt existing scanning device inserted into the light measure to be measured in an inclined position to the axis will.

For this purpose the "movable bolt" is made by simultaneous pressing the lifter brought to the starting position. The lifter is released, causing the moving bolt is braked. The device is in an inclined position (handle about 15 ° down) inserted into the object to be measured, the Lifters printed, whereby the movable bolt pops out up to the wall. The lifter is released and thus the moving bolt braked.

The device is then pivoted about the perpendicular to the axis of the light to be measured once dimension in the opposite inclined position (handle approximately 15 ° upward), whereby the movable bolt assumes its size over the highest part of the light measurement.

The device is now, if possible under a dial gauge, the same Gate swiveled through and so the value of the device and thus the clearance of the test object is determined. (Mechanically indicating reading).

To determine clear dimensions, i.e. to determine the actual clear width in absolute dimensions, see Introduction of the scanning device, the resilient locking by hand against the magnetic hold until the start of the Bolt from wall to wall of the clear dimension lifted and released again before pivoting. When swiveling the Scanning device through the perpendicular of the axis of the light measure to be measured in the opposite inclination is the moveable bolts longitudinally changed up to the actual value of the clearance and remains as a result of the inevitably yielding Lock stand on this value. All that is then required is a measurement of the distance between the bolt ends with a suitable reading device, preferably equipped with a dial gauge.

For the ongoing, operational control of clearances, e.g. for the ongoing detection of rejects, it is advisable Proceed so that two with a rigid locking device for fixing a certain measuring range provided scanning devices used as adjustable plug gauges one side of which is set to the extreme negative, the other side to the extreme positive tolerance. The scanning devices are swiveled one after the other in the clearance to be checked from one angular position to the other, or the second stylus built into the measuring button allows it to be set to the plus tolerance (reject side) assigned to any desired size of fit second stylus can also be fixed immovably.

It is also possible to leave the front stylus movable and to lock only the scrap side firmly. In this case, on the one hand, a variable, i.e. indicative, test of the hole to be made is an attributive one Examination of the committee side possible. For this purpose, the device is swiveled further using the movable front stylus, until the reject stylus engages and states that the part to be measured is not - or at least - scrap.

The device according to the invention allows with the appropriate Design of the associated devices a simple, quick and safe handling via a »? Relatively large measuring range. Therefore, only a relatively small number of devices is required, the number of which is still required Can be further reduced if the scanning devices with extensions up to a certain size for the purpose of changing the Measuring range are equipped. The proposed design of the scanning devices also means that they are practically not subject to wear and tear, or that any Wear does not affect the utility value, since only the distance between the pin ends is measured regardless of their wear will. Since the ends of the bolts are made of hard metal, the durability is almost unlimited.

While in known devices serving the same purpose with built-in dial gauges or the like that have to be adjusted. must be worked, with the risk of damage, adjustment of the set measured value, contamination and so are exposed to premature wear and tear and must be observed during the work process, that is The scanning device according to the invention is functionally reliable and not prone to failure due to its simple design. A special advantage The experience has shown that the device is also that it requires no maintenance and does not need to be readjusted or checked despite possible wear and tear. The whole Maintenance can be limited to keeping the moving, guided parts accessible by oiling them in good time and also to provide corrosion protection.

The device according to the invention and the manner in which it is used Handling is explained below with reference to the accompanying drawing for easier understanding, from which further Details and features of the subject matter of the invention result. The drawing shows:

Fig. 1 shows a scanning device for light widths up to 250 mm in diameter.

The scanning device shown in Figure 1 + 2 consists of a head piece (l) cylindrical shaft (2) is designed in diameter and length so that even light mass in depths of at least twice the diameter can be cut. On the cylindrical shaft (2) is a handle (3) pushed on, with which the scanning device is held in the hand during the measuring process. In the head piece (1) there is the permanently inserted measuring pin (4) against which the measuring pin (5) is interposed two special permanent magnets (6 + 7)> is movable.

Due to the magnets (6) (stuck) and the magnet loosening (7), the stylus (5) is constantly pushed outwards under the influence of the magnetic forces that want to be displaced, and by means of the pin (9) engaging in the groove (8) is limited to an outermost ^{stroke corresponding to the value M} a "compared to the value" b "(measuring range). An alignment device (lo), which can be displaced in the longitudinal direction and serves to control the scanning device itself, is attached to the fixed measuring pin (4) to be secured against tilting towards the sides in the bore to be measured.This part (10) is secured against falling out with the pin (11).

In the measuring bolt (4) there is a hat (12) which allows the part (10) to slide in the longitudinal direction. On the pin (ll) there is a spring plate (13) behind which the spring (14) is located. This spring (14) always transports the part (10) downwards into the contact position and is supported against the fixed magnet (6). When measuring, the part (10) centers the scanning device and is pushed upwards at the same time by its weight and with the help of the pressure with the hand on the handle (3) so that the measuring pin (4) lies on one measuring wall.

The tips of the probe pins (4 »5 +15) are made of hard metal (l6) equipped. A special permanent magnet (17) acts axially on the feeler pin (5) through the rod (18) the guide (19) is connected. The lifter l? 2o) is open the pin (2l) stored, this pin (21) at the same time prevents the handle (3) from being changed in all directions.

By pressing the lifter (2o) the influence

of the magnet (17) is canceled and the forces occur

the magnets (6 + 7) in action, which the feeler pin (5) move outwards.

In order to lock the scanning device to a certain value, the feeler pin (5) is mechanically firmly locked using the hexagon (22) of the screw (23) located in the English bearing (24). The scanning device can then be used as an adjustable plug gauge in this type of handling.

In the head piece (l) is located at a certain distance, the, in the longitudinal direction adjustable, stylus (15) over the measuring pin (4) to the size of the reject tolerance any fit and tightened immovably with the screw (25). The head of the stylus (I5) is also like the stylus (5) to expand to a certain measuring range, interchangeable. It is also equipped with hard metal (l6) at its tip.

Claims (8)

P.A. 534 327 * 9/16/67 patent claims 1) Device for determining and checking clear dimensions of bores and the like, characterized in that a coaxial from a common guide popping bolt, which under the influence of homopolar opposing magnets after outside, is ordered on a certain measuring path. 2) Device according to claim 1, characterized in that that on the bolt described in claim 1, another magnet acts perpendicularly and thus this Brakes the bolt on its measuring path, i.e. arrests resiliently. 3) Device according to claim 1 and 2, characterized in that the magnet from claim 2 via a rod is connected to a guide in which there is a lifter which, by pressing it, causes that this magnet is lifted off and therefore ineffective, thus the magnetic force of the magnets is off Claim 1 can come into effect. 4) Device according to claim 1-3, characterized in that by an end face on the in claim 3 The guide described a clamping element acts so firmly that thereby the bolt from claim 1 immovable held wi £ d + and thereby the scanning device for Festlehre is. 5) Device according to claim 1 - 4> characterized in that the bolt from claim 1, a second, mechanically adjustable in the longitudinal direction, immovable with a clamping element, bolt is attached, which together with the locked bolt from claim 4 ² ^ r scrap side of a fixed gauge will. 6) Device according to claim 1 - 5j characterized in that that the device becomes a variable, i.e. mechanically readable, via its movable bolt (from claim l) Device will. 7) Device according to claims 1-6, characterized in that the measuring pins are interchangeable and different Can have shapes. 8) Device according to claim 1 - f, characterized in that the measuring pins from claim 7 are equipped with hard metal.