DE3413627A1 - Device for detecting the circumferential speed of a toothed disc that can be set rotating - Google Patents

Abstract

The invention proceeds from a device for detecting the circumferential speed of a toothed disc (11) that can be set rotating, in which a ferromagnetic member (10) is magnetically coupled to a permanent magnet (7) and an electric coil (2), one end of the member (10) being opposite the toothed rim of the toothed disc (11). The invention proposes with a view to cost-effective production of such a device that a single pin-shaped element (10) is used as the ferromagnetic member. By comparison with known solutions, in addition to reducing the production costs such a configuration yields a saving in weight. <IMAGE>

Description

Device for detecting the total speed of a

toothed disc which can be set in rotation.

The invention relates to a device for detecting the peripheral speed a toothed pulley that can be set in rotation, with a ferromagnetic body is magnetically coupled to a permanent magnet and an electrical coil and one end of the body faces the ring gear of the toothed pulley.

A device with the above features is from the OE-PS 20 19 801 known. In the known arrangement are within a solenoid two pole pieces stored, being within the pole pieces in the area of the magnet coil a permanent magnet is mounted. This arrangement is called a paramagnetic Housing added. In the known arrangement, the ends of the substantially pole shoes arranged parallel to one another opposite the toothed ring of a toothed pulley, so that when the toothed disc moves, the magnetic flux within the Poische changes, so that an electrical voltage is induced in the magnetic coil, which are fed to an electronic slip monitoring system via appropriate lines.

In the arrangement described above, the overall is relative Complicated structure to be viewed as disadvantageous.

The present invention has therefore gcht an object Vorrichtunrj r aaaJigs mentioned genus to create the without measurable loss of function is much cheaper to manufacture.

According to the invention, this object is achieved in that as a ferromagnetic Body a single pin-shaped element is used. The subject of the registration is based on the idea that a voltage is then also induced in the magnet coil becomes, when the magnetic flux evoked by the gastrointestinal tract is exclusively is bundled by a single pin-shaped element. The lines of force of the permanent magnet close via the paramagnetic housing of the sensor. At a Such a configuration is basically saved a pole piece, whereby the Manufacturing costs are directly influenced positively.

In an advantageous embodiment of the subject of the application Provision is made that the stift.iform body is essentially perpendicular to the plane of magnetization of the permanent agent is arranged, which experience shows that the best utilization the magnetic force of the permanent magnet results. The pen-shaped one is more practical Body brought to bear on the outer contour of the permanent magnet, so that the pin-shaped body clamped between the magnetic coil and the permanent magnet is.

Alternatively, it can be provided that the pin-shaped body is stored within the Perfltanentmagneten, so that in any case on special fixing agents can be dispensed with.

Exemplary embodiments of the invention are given below with reference to FIG. J to Fig. 3 of the drawing explained in more detail. Show it: Fig. 1 a Sensor arrangement in partial section, FIG. 2 a cross section through the sensor arrangement in the area of the magnet coil and FIG. 3 a further partial section through a sensor arrangement.

Corresponding parts are provided with the same reference symbols.

In Fig. 1, 1 designates a sensor housing in which a solenoid 2 is stored. The magnetic coil 2 is wound onto a bobbin 3, with the bobbin 3 is clamped in the sensor housing l. The two ends of the magnet coils are connected to a connecting cable 6 via electrical lines 4, 5.

The coil body 3 or the magnetic coil 2 surrounds a permanent magnet 7, the direction of magnetization of which is indicated by the arrows emanating from the center line 8 9 is indicated.

A pole piece is located between the permanent magnet 7 and the coil body 3 10 clamped, which is formed essentially pin-shaped uiid made of a ferromagnetic Material. One end of the pole piece 10 is the ring gear of a toothed disk 11 arranged opposite one another, so that when the toothed disc moves li the magnetic flux, ^ changes in the pole piece 10, whereby a electrical Voltage is induced in the solenoid coil 2, which is via the electrical lines 4,5 or the connection cable 6 of a slip monitoring electronics, not shown are fed.

A cross section through the sensor according to Fig. 1 is shown in Fig. 2, where the selected cutting plane is perpendicular to the plane of the drawing and in the area of the Solenoid 2 is located.

From Fig. 2 it can be seen that the permanent magnet 7 and the Po3schuh 10 have rectangular cross-sections, which essentially form a square put together.

Those composed of the permanent magnet 7 and the pole piece 10 Ouerschnitte form a square in the selected representation and are from the magnet coil 2 surrounded.

In Fig. 3 is an opposite of the embodiment shown in FIG slightly modified embodiment shown, wherein the permanent magnet 7 has a central opening in which the pole piece 10 is mounted. the Working; the embodiment shown in Fig. 3 corresponds completely to that Sensor arrangement according to FIG. 1.

Finally, it should be pointed out that the sensor housing 1 consists of a param; 1ytletischen material is manufactured, so that by the termanentmagneten 7 field lines generated in the pole piece 7 penetrate unhindered into the sensor housing 1 can.

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Claims (4)

P a t e n t a n s p r ü c h e 1. Device for detecting the peripheral speed ~ a toothed pulley that can be set in rotation, with a ferromagnetic body is magnetically coupled to a permanent magnet and an electrical coil and one end of the body is opposed to the ring gear of the toothed pulley, thereby not a single pin-shaped body is shown as a ferromagnetic body Element (10) is inserted. 2. Apparatus according to claim 1, characterized in that g e k e n n -z e i c h n e t that the body (10) is essentially perpendicular to the magnetization plane (9) of the permanent magnet (7) is arranged 3. Apparatus according to claim 1 and 2, characterized It is noted that the body (10) on the outer contour of the Permanetmage, -iten (7) is brought to the facility. 4. Apparatus according to claim 1 and 2, characterized in that g e -k e n n z C i c It does not mean that the body (10) is stored within the permanent agent (7).