DE721819C - Maximum accelerometer with liquid as inert mass - Google Patents

Description

Maximum accelerometer with liquid as an inert mass object of the invention is a maximum accelerometer with liquid as the inertial mass. Acceleration and deceleration measuring devices operating with liquid have been used already known in various designs. However, all of these devices pointed a more or less complicated and above all expensive pipe system.

In addition, the display fluid soon gave way to these devices the rash back again, so that, for example, when using such devices as a brake meter on vehicles, there is always one person for observation and precise reading of the indication fluid deflection was necessary. With other devices a permanent running liquid jet used. distracted by the acceleration will. Such devices are intricate and cumbersome to use. Even devices that Working with balls as an inert mass is known, but here it is necessary, if it is permanent Display of the respective degree of acceleration is to be achieved, several on different Accelerations responsive gauges are used, each of which is separate must be calibrated.

The object of the invention is to provide an accelerometer or decelerometer to create that avoids the above difficulties. According to the invention this is achieved by using an overflow as a measure of the acceleration outflowing part of the inertial mass or a part directly connected to it special overflow agent is used. Either this vessel or the one with an overflow provided vessel designed as a measuring vessel, on which the overflow amount even after Brake test or the like can be read. More marks. paint the Invention emerge from the claims.

Using the exemplary embodiments shown in the drawing the invention is explained in more detail. In Fig. 1 is a maximum accelerometer reproduced, in which the drive mass itself represents the overflow medium. In Fig. 2, however, an embodiment is shown in which a gaseous substance or an opposite The liquid that is specifically lighter than the rest of the vessel filling is the overflow medium. In both figures, the same parts are provided with the same reference numerals.

I denotes the measuring vessel, which is expediently made of glass tube is and preferably one of the shape of the number nine or six similar training Has. In the bend 2, which is connected to the leg 3 of the pendulum vessel opening overflow pipe 4 represents a communicating pipe, is sluggish Mass 5 housed. The overflow pipe 4, the cross section of which is small compared to that of the bend 2 is melted into the leg 3 at a certain angle. The cross-section of part 4 is reduced in order to give a certain amount of liquid Exercise damping, so that the inertial mass as a result of driving jolts or others Vibrations cannot build up and even without the presence of acceleration and deceleration forces overflow and thereby falsify the measurement. In certain circumstances can also use special throttles (bends, constrictions) for the inertial mass or the adjacent filling medium can be attached. The mouth 6 of the overflow pipe is designed such that the overflow edge 7 acts as a cutting edge. The end 8 of the leg serves as a measuring vessel. Thus the line spacing of the scale attached to the measuring vessel 9, mostly in m / sec. is calibrated, can be made the same size, has the measuring vessel the same cross-section along its entire length.

According to the even distribution of the lines on the scale, the Cross-section of the bow piece 2, as shown, at its various points be dimensioned so that when the acceleration or deceleration is increased by the same Amounts always the same amount of the overflow agent get into the measuring vessel 8. The elbow is expediently given the shape of an annular tube, its center line lies on the circular arc r and its center point in the overflow edge 7.

As soon as the entire Triebmittei 5 by tilting the accordingly The measuring vessel is brought into the bend 2, the device is ready for use. To now For example, to be able to carry out a brake measurement on a vehicle only the device to be attached to the car in question so that the overflow pipe points in the direction of travel. When braking, one of the decelerations that occurred corresponding amount of the shoot mass flow out of the overflow pipe and settle in the measuring vessel where the braking deceleration can be read off the scale afterwards can.

In the embodiment shown in FIG. 2, the effect is similar to the one described above during braking. This device is only instead of the drive mass 5 of FIG. B. a gaseous over running agent zo used, which is adjacent to the entire rest of the vessel filling liquid 1 1. -Here escape z. B. when braking, parts of the gas from the overflow pipe and rise high in the measuring vessel. Using the scale, also calibrated in m / sec. 2, can also the braking effect can be read off here.

The advantage of the invention is mainly in that because of its simplicity extremely cheap in terms of construction of the device and further in its convenient handling see. It is particularly advantageous that the amount of overflow that has flowed out for such a long time is held firmly in the measuring vessel until it is ready for operation again is tilted back. With the device described, it is for example every driver possible to try out the braking effect of your vehicle all by yourself without outside help. The brake tests, which are usually weaker ones, are particularly pleasant Braking tends to increase to the point of emergency, nor the fact that all these braking operations can be carried out and read one after the other without the vessel needs to be tilted.

I N 1ANSIRÜCHE I. Maximum accelerometer with liquid as inert mass, characterized in that as a measure of the acceleration of the over an overflow draining part of the inert mass or a part with it directly in Connected special overflow agent is used.

Claims (1)

2. Apparatus according to claim I, characterized in that the glass tube Manufactured measuring device from one for recording the inert mass or the overflow agent serving bend (2), which is via a to drain the overflow by means (5) Serving tube (4) with a tube designed as a measuring vessel (8) which is bound. 3. Apparatus according to claim 1 Ulld 2, characterized in that the Cross section of the overflow pipe (4) is small compared to the cross section of the bend (2) or that in another way z. B. by throttling (elbow, constrictions) the motion of the inertial mass is dampened. 4- device according to claim 1 to 3, characterized in that the center line of the inertial mass or the overflow medium receiving arc piece on a Arc lies whose center lies in the cutting edge of the overflow pipe.