DE1226318B - Device for monitoring floating bodies and swimmers - Google Patents

Description

Device for monitoring floats and floats Die The invention relates to a device for monitoring the predetermined variable minimum and maximum deviations of the corresponding medium to be monitored Status of floats or floats, when triggering a display device Magnets arranged in the float or float can be used. Such devices are used in the art for displaying flow changes in flow meters.

It is already known to make magnetic contact one in one Housing housed microswitches to use high switching capacity, its Switch insert consists of a follower magnet, which is balanced by a weight Switching segment moves with a limit stop and actuates the switch. The switching process is triggered in this device when the in a conical measuring tube housed floats or

Float with its built-in coupling magnet on the slave magnet of the microswitch passes, attracting the slave magnet and rotating of the switching segment up to the stop pin.

The well-known facility has especially in the case of sudden occurrences Changes in height with spontaneous initiation of the switching process by the float the disadvantage that the switching segment accumulates, which limits the switching process causes the switching segment to snap back against the stop pin and this endangers exact tX monitoring.

Further disadvantages are the sensitivity to vibrations and the need to arrange a suitable housing as explosion-proof Execution.

The purpose of the invention is to precisely monitor the state of a medium or of (to achieve float bodies and floats.

The invention is therefore based on the object of a device to create in which the switching process is limited bounce-free.

According to the invention carries an adjustable along the measuring tube Base plate a rotatably mounted, provided on its circumference with a pair of permanent magnets Switching shaft, which is influenced by the permanent magnet of the float of the measuring tube.

The selector shaft has an offset at one end and an offset at the other End preferably in the same plane a bend. The offset of the shift shaft engages in an inevitable guide of a rocker on which a switching element, for example, a switching tube is located. At the end of the bend in the selector shaft a stop pin is arranged transversely to this, which when the shift shaft is rotated rests against a stop located on the base plate. This consists of a permanent magnet, which is flexibly mounted by means of a compression spring.

An embodiment of the invention is based on drawings explained in more detail. It shows F i g. 1 is a front view of the monitoring device with a flow meter shown in simplified form, FIG. 2 is a plan view of FIG Device when triggering the switching process, F i g. 3 the float position Triggering of the switching process, Fig. 4 and 5 the float position after connecting the Switching process when falling below or exceeding the monitoring devices.

In the conical measuring tube 1 moves in a corresponding direction of the medium flowing through the arrow, the float 2 with its axial magnetization embedded permanent magnet 3. One outside of the measuring tube 1 is axially adjustable arranged base plate 4 carries a rotatably mounted selector shaft 5 with opposite Dauermagne-'tenpaar 6. The switching shaft 5 engages with a bend 5 a in a Guide 7 a of a rocker 7, which receives a switching tube 8. Instead of the interrupter 8 is also the use of, for example, a baffle plate, a contact set or other electrical switching elements possible without departing from the inventive concept. In the same form with the bend 5 a, the control shaft 5 has at its other end a bend 5 b, the transverse to the shaft 5 with a protruding on both sides At- striking pin9 is connected. In height. of the stop pin9 contains the base plate 4 has a stop magnet 10, which is flexibly mounted by means of a Compression spring 11 in a bearing block 12.

If the float 2 with its permanent magnet 3 enters the force field of the pair of magnets 6, the switching shaft 5 rotates and causes its offset 5 a over the inevitable guide 7 a of the rocker 7 tilting the switch tube 8, with which an acoustic or optical signal is triggered.

At the same time, the stop pin 9 made of soft iron strikes against the stop magnet 10, which fixes the switching shaft 5. The stop magnet 10 at the same time prevents an adjustment of the switching shaft 5 when the float 2 has been removed from the magnetic field of the pair of permanent magnets and vibrations appear. The recoil of the selector shaft 5 when the stop pin 9 and Stop magnets 10 catch the compression spring 11.

The position of the float 2 is preferably monitored with two height-adjustable arranged monitoring devices, of which the The lower one can be used for the minimum and the upper one for the maximum display.

The monitoring devices can use a common Axis, as well as on different axes, axially adjustable to measuring tube 1 and float 2 should be attached.

Claims (1)

Claim: Device for monitoring the position of floats and floats, in which to trigger an indicator in the float or magnets housed in floats are used, characterized in that to the measuring tube (1) and its float (2) with embedded permanent magnet (3) an axially adjustable base plate (4) is arranged, which has a rotatably mounted, carries on its circumference with a pair of permanent magnets (6) provided switching shaft (5) whose Abkröplfung (5 a) in an inevitable guide (7 a) one with a switching tube (8) connected rocker (7) engages and its angled (5b) a stop pin (9) receives, at its height on the base plate (4) designed as a stop (10) The permanent magnet is flexibly mounted by means of a compression spring (12).