DE879326C - Tachometer and revolution counter - Google Patents

Description

Tachometer and revolution counter The invention relates to a tachometer and revolution counters, in particular the odometer and speed indicator, designed as a speed recorder or combined with one can be, using one by the rotation of the shaft, its speed is to be measured, modulated current.

It is known the connection between the measuring point and the measuring device to produce in a very simple manner by a flexible shaft. Such However, transmission often causes interference. In addition, such a facility not possible to mount the measuring device further away from the measuring point, because a flexible shaft cannot be made arbitrarily long. Such disturbances also occur when an electrical measuring device is used in a known manner is used in which the movements with the help of an electromagnetic field a pointer in such a way that a permanent magnet is on attached to a shaft and in the immediate vicinity of this magnet one with the pointer connected armature is rotatably mounted, depending on the number of revolutions of the permanent Magnet is more or less taken against the action of a spring and thus causes a pointer deflection, which by means of the counteracting spring on can be calibrated on a scale.

It is also known to have a direct current through the shaft, its speed should be measured, Ztl modulate and measure the frequency. However, the known frequency meters are always very sensitive and expensive instruments, the rash is also not strong enough to z. B. to move a pen, which the frequency, d. H. in the present case the speed, -recribes. aside from that the deflection is very disproportionate to the speed of the Wave.

Furthermore, the current used for the measurement must always have a constant voltage to have. A dynamo machine has also been used on the shaft to be measured and measured the current at the measuring point. These facilities are also unsatisfactory. When using a synchronous motor connected to the measuring point AC generator there is a risk that the synchronous motor out of Kick falls.

According to the invention, these disadvantages are eliminated in that the modulated direct current is not used to directly measure the frequency, but rather used to rotate the motor armature of a motor rotating synchronously with the measuring shaft that drives the tachometer and / or the revolution counter. Such a one Arrangement is largely against fluctuations in the voltage. insensitive and enables the speed to be measured simultaneously in a simple manner Minute and the revolutions within any time. Become useful here through a contact device, which through the shaft, whose speed can be measured is to be controlled, several coils of the field magnets of the motor in sequence in switched on the DC circuit. One that supports or adjusts the speed indicator The shaft is coupled to the motor shaft by means of an eddy current disk or the like and when the motor rotates, it increases the number of revolutions against the action of a spring rotated corresponding angle. Using the speed indicator is useful. a speed registration device tied together.

The object of the invention is in the drawing, for example shown, namely Fig. 1 shows the transmission device from the measuring point to the measuring device, Fig. 2 another embodiment, Fig. 3 Details of the measuring device.

According to Fig. I, a cam disk 2 with a cam is on the shaft I. 20 attached, the z. B. acts on balls 21, 22, 23 mounted in a cage and so one after the other presses the contact springs 6, 7, 8 against the contacts 3, 4, 5, that are connected to a power source. Lines lead from contacts 3, 4, 5 to the coils I6, 17, Ig of the field magnets 9, I0, II of the motor in the measuring device. The others Coil ends are connected to the power return line. The armature 12 of the engine is made expediently from a soft iron core with two sectors 24, 25. Is now drawn in the Position when shaft I starts to turn, contacts 3, 6 closed, so the coil I6 receives current and the sector 24 is attracted by the magnet g, until he is exactly opposite this. It then continues accordingly when closing of contacts 4, 7 and then contacts 5, 8 of sector 24 from magnets LO and II attracted. The anchor then rotated 1800, and when it closed again des .Kontaktes 3, 6, the sector 25 is again attracted by the magnet and so Further. The armature runs synchronously with the shaft I, and that completely independently on the voltage of the current as long as it does not fall below a lower limit. There can also be three more field magnets on the right side of the motor as shown in Fig. I. be arranged, each of which with the opposite magnet g or 10 or

II is connected to the same contact 3 or 4 or 5, so that Both sectors 24, 25 are each attracted by a pair of magnets. The number the field magnets and / or contacts can also be changed.

Fig. 2 shows another circuit for six field magnets. In this In this case, the contacts 3, 6 or 4, 7 or 5, 8 must each be designed as double contacts and the motor armature can be polarized. The coils are connected in series and each have a lead. The lines of opposite coils each come from a double contact. Assume the lines labeled Q and - are z. B. connected by the double contacts 5, 8, the armature is in the drawn Position drawn. If the shaft I continues to rotate, the field of the motor runs accordingly around and takes the anchor synchronously.

According to Fig. 3, the instantaneous speed of shaft I is constant to be able to observe, expediently coaxial with the armature 12, a second armature I3 attached, which is carried along by the armature 12 by eddy current action. On the Shaft of the armature I3 a pointer 14 is arranged, which plays over a scale. At the Rotation of the armature I2 creates a torque on the armature due to the eddy current effect 13 exercised. This torque increases as the number of revolutions increases and decreases as it rotates smaller, and in this way a more or less large pointer deflection is achieved, with the aid of a spring 15 counteracting the torque of the armature I3 can be calibrated on the scale. The spring balancer on the pointer can make the revolutions or to represent speeds graphically, by means of a around the shaft of the pointer 14 coiled thread od. Like. Act, one end of which is attached to the shaft and the other end of which is pulled by the spring 15. The thread then describes at the end that is attached to the spring, a path that is running centrically There is always a linear relationship between the shaft and the torque, and it can therefore be applied to this Place a pen attached, which graphically shows the number of revolutions per unit of time recorded on an evenly moving strip of paper.

Furthermore, from the shaft of the armature I2 with the interposition of a appropriate translation Oil he shaft 26 a revolution counter are driven.

Claims (4)

PATENT CLAIMS: I. Tachometers and revolution counters, in particular Driving odometer and speedometer serving as a driving speed recorder can be formed or combined with such with the use of a through the rotation of the shaft whose speed is to be measured, modulated direct current, characterized in that by the modulated direct current a synchronous with the Measuring shaft rotating motor is fed and through this the speed indicator and / or the revolving counter are driven. 2. Tachometer according to claim I, characterized in that by a contact device which is controlled in a manner known per se by the shaft whose speed is to be measured, several field coils of the motor in sequence be switched into the DC circuit. 3. Tachometer according to claim I or 2, characterized in that that a shaft carrying or adjusting the speed indicator with the motor shaft is coupled by means of an eddy current disk or the like and while the motor is rotating rotated against the action of a spring by an angle corresponding to the speed will. 4. Tachometer according to one of Claims I to 3, characterized in that that a speed registration device is connected to the speed indicator.