DE258029C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 258029 CLASS 42 or GROUP

Speedometer. Patented in the German Empire on March 22, 1912.

The present invention extends to those used for locomotives, automobiles, and the like Speedometer of the kind with which the traveled at certain time intervals Distances are measured and registered automatically.

In such speedometers fall pieces or wheels are used, which are from Time to time engaged in or out of engagement with one

ίο screw or brought with other wheels will. This latter circumstance now has significant disadvantages as a result, which the Question the reliability and accuracy of the speedometer.

The purpose of the invention is, on the one hand, to avoid these disadvantages and, on the other hand, a greater one To achieve simplicity of the device, even in the direction that the Speedometer can be manufactured by the means of mass production.

The drawing illustrates an embodiment of the present speedometer in Fig. ι in front view with exposed upper part; FIGS. 2 and 3 show details of the device in plan view and cross-section.

As can be seen from Fig. 1, the spindle ι is coupled by the bevel gears Drive shafts 2 and 3 rotated.

The spindle 1 has the cross section shown in FIG. 3, ie it is provided with four grooves in which four steel balls run, which are mounted in the cage 4. The rotation of the spindle 1 is transmitted through the balls to the cage 4, which through gears with the nut 5 in conjunction 40

45

commitment. When the spindle ι is rotated, the one that also rotates Screw nut 5 on the screw spindle 6 rise in height, provided that the latter does not rotate, but is held. The ball cage 4 has a bead, which engages in the recess of the nut 5, so that when you climb this also the drive body or cage 4 is taken up while the in the grooves the spindle 1 running balls while maintaining the rotation enable easy climbing and falling. As I said, this rise only occurs when the Screw spindle 6 is held. Are the nut 5 and the cage 4 climbed and the screw spindle 6 is now released so that it can rotate freely, so the mother 5 and with her the cage 4 is under the influence of gravity or the Influences of a spring fall back on the starting point or zero point, which is caused by the stop pin 7 is set. Accordingly, if the screw spindle is periodically stopped and released, it will rise and fall parts 4 and 5 at a certain height, depending on that transmitted by shafts 2 and 3 Vehicle speed. It is essential here that the individual parts are always all remain engaged and not seek this intervention or for a new climbing period have to wait for it.

At the end of the spindle 1 is firmly connected to this a gear 8, which through mediation a friction clutch drives the clockwork, which regulates the measuring periods. Head-

65

70

parts of this movement are the escapement o and 10 as well as the wheel 11. The teeth of the Wheel 11 operate in constant periods the lever 12, its to the pawl formed end engages the ratchet wheel 13. This is not immediate the screw spindle 6 arranged. If this were the case, the pawl would have to collapse of lever 12 until the

to screw spindle that continues to rotate under the influence of drive 2, 3, 4 and 5, depending on the collapse of the pawl, a larger or smaller part of the tooth gap of the ratchet wheel 13 are traversed, which leads to inconsistencies in the rise of the Nut 5 would have to lead. To avoid this, between spindle 6 and Ratchet wheel 13 arranged a translation in high speed. This can be chosen, for example be that when the screw spindle 6 makes one turn, the wheel 13 hundred Rotations. If the ratchet wheel now has thirteen hundred teeth, there is one entire tooth gap one ten-thousandth of a turn of the screw spindle 6, d. H. the disadvantageous one The influence of the tooth gap is practically eliminated. In all cases he can rely on this Way to be traced back to any degree.

The end of the movement actuating the pointer engages in the screw nut 5 Lever 14 (Fig. 2) a. The two ratchet wheels of this movement are well known Way by the two levers 15 and 16 with the mediation of the wheel 11 (Fig. 1) alternately triggered. Instead of this mechanism, which is used to move the pointer during the To hold the falling and rising of the falling piece firmly, several pairs of spindles can of course also be used are arranged as 1 and 6 and the measuring periods are set up so that always a falling piece is in the highest position and is only released when another has come to the highest position. In this case the hand lever is located each on the uppermost case piece.

Claims (5)

Patent Claims: 1. Speedometer with positive mechanism, halyard and Screw spindles, characterized in that the case is designed as a complete screw nut (5) and always remains in a fixed connection with the screw spindle and the drive mechanism. 2. Speedometer according to claim i, characterized in that the Connection of the drop piece to the drive mechanism by means of a gear transmission that moves up and down with the drop piece is effected. 3. Speedometer according to claims ι and 2, characterized in that that one of the gears of the gear ratio on the case piece, the other on a drive element (4) serving as a ball cage is fixedly arranged, the balls of which engage in longitudinal grooves of a spindle (1) arranged parallel to the screw spindle (6), which the drive movement is given. 4. Speedometer according to claims ι to 3, characterized in that that the upward movement of the case piece by periodically stopping the screw spindle (6) is effected. 5. Speedometer according to claims ι to 4, characterized in that that the periodic stopping of the screw spindle (6) takes place by means of a locking mechanism, which is connected to the spindle (6) with the interposition of a suitable translation. 1 sheet of drawings