DE4216344A1 - Rotation angle sensor for shaft - has cup-shaped housing, rotary shaft enlarged in region of bearing of diameter greater than that of transducer magnet attached to shaft and inductive sensor. - Google Patents

Abstract

A housing (2) for the sensor components has mounting attachments and contains the rotating shaft (10) with its longitudinal axis at least parallel to that of the housing. A transducer (14) is connected to the shaft and a signal detector (6) is attached to the housing. The housing is cup-shaped with the detector arranged on its base. The shaft is widened to form a flange at least in the region of its bearing. The bearing dia. is greater than the maximum radial extent of the signal detector and transducer. USE/ADVANTAGE - E.g. for measuring choke valve settings. Requires only low tolerances on detector and transducer and compact design is achieved.

Description

The invention relates to a rotation angle sensor for Detection of the angle of rotation of a rotary shaft after the upper Concept of claim 1.

From DE 36 18 927 A1 is a rotation angle sensor for Er averaging of the throttle valve position is known, in which the Rotary shaft coupled on the one hand with a throttle valve and on the other hand a rotor with grinding brushes wearing. The grinding brushes form together with an im Housing cover of the rotation angle sensor arranged kerami plate with a resistance track a potentiometer. The rotating shaft is in the cylindrical section of the sensor housing approximately in the middle of a disc-like cross narrowing of the sensor housing.

The axial arrangement of the signal generator (rotor with grinding brushing) and bearing of the rotary shaft requires two assembly directions in the manufacture, which expended accordingly The required assembly facilities and therefore relative causes high manufacturing costs. For example as the pre-assembled unit from the rotating shaft and rotor inserted into the storage from the top of the housing  will; the definition of the rotary shaft in the axial direction but must be done from the bottom of the case. The signal detector (resistance track) is in a late step by installing the housing cover. The mutual dimensional accuracy of the sensor housing and Housing cover and the design of the connection point affects the accuracy of the signal generator and Si gnaldetector formed sensor unit. In any case but due to the tolerant interface between Sensor housing and housing cover the achievable Sensie accuracy reduced.

The invention has for its object a Drehwin kelsensor, in which the signal generator in the axis of rotation Rotary shaft is to be trained so that the assembly of the Angle of rotation sensor only with one installation direction can be made, with small tolerances in the Assignment of the two sensor elements (signal generator and Si gnaldetektor) and a compact design is possible.

This task is characterized by the characteristics of the Claim 1 solved.

The main idea of the invention is to store the To design the rotary shaft so that its diameter is larger than the greatest radial extension of the two sensor elements elements or other components of the rotation angle sensor. This enables assembly from one direction only simplifies the assembly process and reduces the assembly costs. Since the bearing can grip the signal generator radially, a small size of the rotation angle sensor is made possible light. Since both sensor elements on one component, the Sen care housing, are arranged, is eliminated by the Tolerant joint between housing and housing sedeckel enables a higher measuring accuracy. By the  large bearing diameter results in a large support base sis and thus a correspondingly rigid bearing of the rotation wave. The two sensor elements, signal generator and signal detector, are in terms of their arrangement within the Interchangeable angle sensor.

The embodiment of the invention according to claim 2 and 3 re reduces the number of components of the rotation angle sensor, by the inside of the housing and / or the flange-like Extension of the rotating shaft immediately as bearing rings are formed. This means that with little effort advantageously a plain bearing (claim 4) re alize yourself with the appropriate material selection due to low friction, low wear and gün manufacturing costs.

According to the development of the invention according to claim 5 is the storage of the rotary shaft in a simple manner axial direction under preload; the worship Application of the housing cover affects the Sensierungsge not accuracy. The bearing outer ring is too ge stalten that he also the bias in the axial direction can record.

With the advantageous embodiment of the invention Claim 6 stands for wear-free sensing principle available, which also the rotary movement of the Rotary shaft does not provide any significant resistance. For example, a permanent magnet is used as a signal generator and to provide an inductive pickup as a signal detector.

A preferred embodiment of the invention explained in more detail below with reference to the drawing. The only figure shows a longitudinal section through an invent rotation angle sensor according to the invention.  

The rotation angle sensor designated in its entirety with 1 is inserted into a substantially hat-shaped cylindrical housing 2 , which is closed by a housing cover 3 . Inside, the rotation angle sensor 1 is constructed as follows: At the bottom 4 of the housing 2 , a signal detector 6 is arranged on a circuit board 7 , zen trically to the longitudinal axis 5 of the rotation angle sensor 1 . A lead-out in a neck 8 of the housing 2 electric connection line 9, the measuring signal is abgelei tet. Above the signal detector 6 , a rotary shaft 10 is inserted concentrically into the housing 2 via an outer bearing ring 11 . The bearing outer ring 11 is a part of egg nes radial sliding bearing, the inner bearing ring 12 of which is formed by the flange-like extended rotary shaft 10 itself. The bearing outer ring 11 also absorbs axial forces due to its L-shaped cross section. The flange 13 of the rotary shaft radially encloses a signal generator 14 formed as a permanent magnet. The signal generator 14 is fitted into a receiving opening 15 of the rotary shaft 10 and glued to the rotary shaft 10, for example. A frusto-conical coil spring 16 , which is supported on the housing cover 3 , biases the rotary shaft 10 in the axial direction via an intermediate ring 17 . The rotary shaft 10 is passed through an opening 18 in the housing cover 3 to the outside and carries a lever 19 at its upper end. The housing 3 is sealed off from the outside by a seal 20 arranged below the opening 18 . About molded mounting bracket 21 , the Drehwin kelsensor 1 can be attached to its location.

By arranging both the signal detector and the signal generator 14 in a one-piece housing 2 , an exact assignment of the two sensor elements is possible. In addition, the following design measures increase the accuracy and reproducibility of the Sensormeßsi gnals: metallic bushings 22 in the mounting brackets 21 ; Storage level is in the mounting level; Bonding of the signal generator 14 in the receiving opening 15 of the rotary shaft 10 ; one-piece rotary shaft 10 made of plastic or non-magnetic metal; wide-based storage of the rotary shaft 10 with a correspondingly wide bearing outer and inner bearing ring 11 or 12 ; positive, possibly additional non-positive connection between lever 19 and shaft 10 to prevent angular misalignment; Screw benfeder 16 with a correspondingly dimensioned axial spring force.

The housing cover 3 can be clipped onto the housing 2 (snap connection 23 ) and sealed with an inner O-ring or an outer layer 24 made of sealing material. Alternatively, welding the housing cover 3 (weld seam 25 ) is possible.

The bearing outer ring 11 is in the above-described embodiment approximately as a separate component. In accordingly selected plastic material, the bearing outer ring 11 can also be incorporated directly into the side wall of the housing 2 .

The lever 19 enables the conversion of a predominantly translatory movement into a rotational movement. With the structure of the rotation angle sensor 1 unchanged, however, direct initiation of a rotary movement is also possible.

Claims (6)

1. Angle of rotation sensor for detecting the angle of rotation of a rotary shaft, consisting of

• a housing for accommodating the components of the angle of rotation sensor and with devices for fastening the angle of rotation sensor,
• the rotating shaft mounted in the housing, the longitudinal axis of which extends at least approximately parallel to the longitudinal axis of the housing,
• - A signal generator connected to the rotary shaft and
• - a signal detector fixed in the housing,
  characterized in that
• - The housing ( 2 ) is essentially hat-shaped,
• - The signal detector ( 6 ) is arranged on the bottom ( 4 ) of the housing ( 2 ),
• - The at least in the region of its mounting, a flared rotary shaft ( 10 ) is mounted on the inside of the housing ( 2 ) and
• - The diameter of the bearing is larger than the largest radial extent of the signal detector ( 6 ) and signal transmitter ( 14 ).

2. Angle of rotation sensor according to claim 1, characterized in that the bearing of the rotary shaft ( 10 ) from an annular, through the housing ( 2 ) itself or in the housing ( 2 ) inserted bearing outer ring ( 11 ) and one on the flange-like extension of Rotary shaft ( 10 ) provided bearing inner ring ( 12 ). 3. Angle of rotation sensor according to claim 2, characterized in that the bearing inner ring ( 12 ) is integrally formed on the rotary shaft ( 10 ). 4. Angle of rotation sensor according to at least one of the pre-mentioned claims, characterized in that the bearing of the rotary shaft ( 10 ) is designed as a plain bearing. 5. Angle of rotation sensor according to at least one of the pre-named claims, characterized in that the rotary shaft ( 10 ) is supported axially via a spring on a housing ( 2 ) ver closing housing cover ( 3 ). 6. Rotation angle sensor according to at least one of the pre-cited claims, characterized in that the signal transmitter ( 14 ) and signal detector ( 6 ) work without contact.