DE19643413C2 - Bracket for magnetic field sensors - Google Patents

Description

The invention relates to the monitoring of fluid power Systems and devices on an arrangement for axially adjustable Holder for magnetic field sensors with a sleeve-shaped housing within a on the outer circumference of a working cylinder seen and exposed through a narrow gap opening zy cylindrical guide groove (= C-groove).

Such a holder for sensors on a cylinder direction is known from DE 44 35 671 A1. Doing so the in a cylinder groove slotted outwards held sensor over a circular cross-section Ge housing, which is attached to its outer surface with a Longitudinal web is provided to form the same with a Key profile for guidance and for adjustment purposes in the to engage the slot opening of the groove exposed to the outside. As a result, this version is regarding your hand tied to only one of the sensors both ends of the cylinder in the groove in question slide in, position in it and level out of it to be able to remove it again at the end. That is what it stands for In practice, too little assembly space for equipment Available, which may involve the elaborate expansion of the entire cylinder arrangement required.

In view of this, the object of the invention is one with its housing in a cylindrical guide groove trained sensor such that the same from insert it directly into the groove at its place of use, readjust within the same and equally on site and Can be removed from the groove again.

To achieve this object, the invention forms an arrangement for holding a magnetic field sensor within one  known manner slotted cylinder groove to the effect that a sensor with segment-like flattened Housing without a detour through the beginning or the end of the relevant guide groove directly through the gap opening inserted in the same and simply by means of a rotation around the longitudinal axis of its housing form-fitting within the Groove is held. This reduces the flattening of the Ge the dimensions of the same area under the public area opening width of the gap opening and thus enables the full constant insertion of the sensor into the cylinder groove. In connection this is caused by the mere rotation by an angle between 30 ° and 150 ° that the sensor housing with its cross section adapts positively to the stationary cylinder groove, the flat boundary surface of the cylinder segment in the direction of The gap opening points in the opposite direction. In this way holds the sensor housing designed according to the invention as such and radially and axially adjustable within the Cylinder groove without considering its design required volume for housing the sensors to lose. This also enables adjustability of the sensor within the cylinder groove in relation to that of In practice, magnetic fields to be queried on the device side in practice an excellent customization option for monitoring.

Appropriate configurations and advantageous further developments the invention are from the subordinate claims 2 to 5 can be seen and these in terms of their characteristics Expert understandable without additional explanations.

In the accompanying drawing, an embodiment of the invention is shown. Here, FIG. 1 shows the in the Füh a working cylinder magnetic field sensor used rungsnut as shown in Fig. 2 and Fig. 3 shows a cross section through the mounting of the same in the region of a locking screw.

As can be seen from the perspective view in Fig. 2, the sleeve-shaped sensor housing 3 has on its upper side a flattening 4 , which gives it the geometric shape of a cylinder segment. The sensor housing 3 is fixed by means of a locking screw 5 penetrating the same in a bore with an internal thread and acting outwards against the wall of the guide groove 2 , and the supply of the electrical connecting cable 6, for example, from the rear of the housing 3 .

According to the sectional view in Fig. 3 of the drawing which is due to its flattening 4 then from above, that is radially inserted to the longitudinal axis of the working cylinder, through the gap opening 1 in the guide groove 2 on the outer circumference of the cylinder according to Fig. 1 the sensor housing 3 from to an angle of 90 ° has been rotated around its own axis in order to be positively retained in the guide groove 2 . Here, the segment-like flattening 4 of the sensor housing 3 comes to lie below the gap opening 1 and in this way enables the locking screw 5 to be actuated from the outside for the purpose of functionally fixing the sensor within the groove. Conversely, the sensor can be removed after loosening the locking screw 5 and by rotating it just as easily on the spot from the guide groove 2 .

As not particularly shown in the drawing, there is also the possibility of making a signal lamp arranged inside the sensor housing 3 on a printed circuit board of the sensor system through a recess or a plastic window inserted into the flattening 4 to the outside.

Claims (5)

1. Arrangement for the axially adjustable mounting of a magnetic field sensor with a sleeve-shaped housing within a provided on the outer circumference of a working cylinder and via a gap opening ( 1 ) accessible cylindrical guide groove ( 2 ), in which a segment-like flattened sensor housing ( 3 ) of the same diameter radially to the Longitudinal axis of the working cylinder inserted and held in the guide groove ( 2 ) by means of rotation about its own axis. 2. Holder of a magnetic field sensor according to claim 1, marked by a housing on opposite sides with segment-like flats ( 4 ) provided sensor housing ( 3 ). 3. Holder of a magnetic field sensor according to claim 1 or 2, characterized by a locking screw ( 5 ) penetrating the sensor housing ( 3 ) perpendicular to the or the flats ( 4 ) within a bore with an internal thread. 4. Holder of a magnetic field sensor according to claim 1, 2 or 3, characterized by one, one and / or both flats ( 4 ) shining signal lamp. 5. Holder of a magnetic field sensor according to one of claims 1 to 4, characterized by an axially on one of the end faces from the sensor housing ( 3 ) emerging connection cable ( 6 ).