DE691093C - - Google Patents

Description

Heavy knife consisting of a lever system For the execution of gravity measurements and in particular those that lead to under-. search for the subsoil are determined, it requires the training of measuring devices of the highest sensitivity. Do these heavy knives consist, for example, of one resting on a cutting edge Lever system at one end of which a mass is attached and the other end is connected to a helical spring, so it is necessary to attach the device to adjust each measurement as precisely as possible. Otherwise it would be very low Changes in the inclination of the bar falsify the measurement result.

It has been suggested that due to inaccurate adjustment of the inclination Compensate for the error caused by using two measuring devices of the same type to measure I800 offset, attached to a common base.

A combined device of this type is proportionate to changes in incline insensitive, as the change affects the individual devices in opposite directions Direction acts.

The invention relates to a heavy knife in which the masses are balanced in such a way that small changes in inclination do not require any compensation Disturb the measurement result. According to the invention, gravity knives which consists of a spring, a single or multi-armed lever system and one of gravity underlying bodies exist, all firmly or movably connected to the lever system Mass elements arranged so that their point of application of the resulting gravity (cf. Planck, Allgemeine Mechanik, I9I6, page 1 1 1) approximately at the height of the pivot point of the lever system. Are all mass elements rigidly connected to the lever system so the point of application of the resulting gravity coincides with the center of gravity. If movable bodies (e.g. via a joint) also attack the lever system, see above you can see the moving masses in their point of application (suspension point or

Attachment point) on the rigid lever system and then think about it determine the center of gravity of this mass arrangement in a known manner.

The device according to the invention has the property of its torque practically unchangeable at low inclinations.

A simple embodiment of the invention is shown in Fig. I.

The rigid two-armed lever H carries on an end the spring F and at the other end the masses. The system swings around the cutting edge S, which rests on the bearing, which is firmly connected to the housing. The focus Such a system is evidently higher than the D @@@@ point (cutting edge of the Edge S). To now the condition according to the invention, according to which the focus in The height of the pivot point should be able to meet, are those with screw thread provided rod set and St2 attached to the lever each.

The trained as a mother and connected to the counter nut Gm Balance mass end and Ge2 are lower than the pivot point and serve to move by adjusting its height, the center of gravity is at the same height as the pivot point to relocate.

The correct setting is easy by tilting the device with the foot screwsFu, e.g. B. with the help of a dragonfly to check. The reading of the setting of the device can be done, for example, by setting the scale Sk using the lever system H attached mirror bp is observed through the eyepiece 0.

Fig. 2 shows an embodiment in which not only the springs, but also the mass 11! rigidly connected to the two-armed lever system II are and via an elastic joint, e.g. B. hair wire, at points AM and Ap attack. The cutting edge 5 and the lever are connected to each other by the socket Fa. The effect of the masses of the cutting edge, the setting, which are higher than the pivot point and the lever is compensated by the fact that the mass kl over the hair wire lid at AM below the horizontal plane laid by the fulcrum on the lever H attacks. The point of application of the resulting gravity is therefore approximate at the same height as the pivot point of the whole system. For fine adjustment purposes the adjustment weight J has been attached to the lever.

Here, too, as in Fig. I and 2, foot screws and Dragonfly attached for testing.

In this embodiment occurs through the arrangement of the point of attack derFederAF above the pivot point thereby an increase in sensitivity, that when the acceleration of gravity increases, the lever arm of the spring becomes smaller and as a result, the stop is enlarged.

The adjustment weights given above have a different function than the well-known adjustment weights in scales, e.g. B. in the German patents 7 I47 and 306 893.

In the case of scales - the center of gravity must be lower than the pivot point and lie below the pivot point. It is true that you can use the Center of gravity largely approach the fulcrum, but errde one both coincide let the scales become unstable. Whereas the center of gravity of a lever scale must lie vertically below the pivot point, it must be to the side with a lever gravimeter from the fulcrum, e.g. B. also higher than the pivot point.

Is the lifting gravimeter insensitive to inclination because it is according to the invention due to the adjustment weights, the center of gravity is at the same height as the pivot point has been brought, the sensitivity of the lever gravimeter changes small changes in the center of gravity vanishingly little because the center of gravity is located is in a stable area with the IIebelgravtmeter if the center of gravity and pivot point have the same height.

With the lever balance, the center of gravity is unstable Range when approaching the pivot point height therefore determines the adjustment weight the sensitivity of the lever balance, and the adjustment weight also has the task of to keep the center of gravity lower than the pivot point: because small changes in the The height of the center of gravity changes the sensitivity of the lever balance in contrast to the lever gravimeter.

Lever balance and behave towards tilt sensitivity Lever gravimeters also differ when the center of gravity changes due to the adjustment weight. The lever balance is insensitive to inclination, even if it is due to the adjustment weight the center of gravity is raised or lowered. The lever gravimeter, on the other hand, is only Insensitive to inclination if, according to the invention, the center of gravity is controlled by the adjustment weight is brought at the height of the pivot point. The adjustment factor thus determines the lever gravimeter the insensitivity to tilting and not the sensitivity to the gravity measurement.

In the execution of a graviineter according to the invention the possibility of not having the influence of setting up the measuring device in the field to make inclination errors to be avoided practically ineffective and therefore the measurement accuracy to increase significantly.

Claims (3)

PATENT CLAIMS: 1. From a lever system on which the gravitational effect attack underlying masses and one or more springs, existing gravity knife, characterized in that all masses are arranged so that the point of application the resulting gravity approximately in the horizontal plane laid through the pivot point lies. 2. Heavy knife according to claim I, characterized in that the Adjustment with the help of a leveling mass takes place lower or higher than the Pivot point is attached. 3 - tilt-insensitive gravimeter according to claim 1, characterized in that, that the balancing mass is adjustably attached for the purpose of fine adjustment.