DE7333358U - Electronic level controller - Google Patents

Description

Utility model registration Electronic level controller

The innovation relates to an electronic level controller for monitoring liquid levels, consisting of stick electrodes or hanging electrodes as measuring sensors and the associated ones Electronics as a control device.

Such level controllers are used wherever the liquid level of conductive liquids, for example fresh water, To closely monitor waste water, acids, alkalis, all types of moisture and liquids in general. The rod or hanging electrodes are used for level control and dosing, e.g. as limit indicators, dry and overflow protection and as moisture indicators.

With the level controls that have become known so far ^, for liquids or humidity, it is customary to mount the measuring sensors (rod or hanging electrodes) at the appropriate place of use (e.g. container), and to accommodate the control device at any other location, so that a control line between the sensors and the control device is required. Since the measuring circuit has a high resistance, special insulation must be ensured. This is quite problematic because the Electrodes are operated in a room with constantly high humidity.

The innovation has therefore set itself the task of a level controller to monitor liquid levels in such a way that although it has a high-resistance measuring circuit, it is transmitted via terminal points and avoids pipes in damp rooms.

7333358 03.04.7s

According to the innovation, this object is achieved in that the entire Control device is provided with in the housing unt on which the electrodes are attached.

The innovation will be explained in more detail using an exemplary embodiment.

The level controller (1) shown in the drawing consists of his basic structure from the electrodes (2,3,4), which as rod or Suspension electrodes are formed, as well as the housing (5) to which the electrodes (2, 3, 4) are attached and the control device (6), which is housed in the housing interior (7).

The electrodes (2, 3.4) are predetermined resistances, which with the to be monitored form a high-resistance bridge. The electrode (2) is the minimum electrode, the electrode (3) the maximum electrode, while the electrode (4) represents the ground electrode. The electrode is located in the container (10), which is filled, for example, with liquid (9) (4) arranged so that it is at least partially in the liquid at each liquid level. The electrodes (2 and 3) are in one predetermined distance from the electrode (4) arranged in such a way that the same are offset by 120 degrees. At fluid level At the minimum, the maximum electrode (3) is exposed. As the liquid (9) rises steadily, the minimum electrode (2) becomes more and more surrounded by liquid (9) until it reaches the maximum electrode (3). The regulation or control takes place in the Kind that the high-resistance bridge is fed with a low and harmless alternating voltage of the secondary winding of a mains transformer (8) will. If the conductive medium touches the electrodes (4 and 2 or 2, 4 and 3) ,, a weak alternating current flows, which depends on the immersion depth of the electrodes (2,3,4). A suitable amplifier switches a relay in the control circuit as soon as the corresponding adjustment point has been passed. At the same time the measuring bridge is on the other Electrode switched, this creates a so-called two-point controller with defined hysteresis,

7333358 03.0i.7E

The entire control device (6) is accommodated on the printed circuit boards (11, 12). The control device is accommodated in the housing interior (7) in such a way that it is directly connected to the electrodes (sensors) (2,3,4). This connection between the control device (6) and the electrodes (2, 3, 4) takes place via corresponding sockets (19) which are fitted in the electrode holder (20) made of non-conductive material. After assembly, the control unit ₇ is potted so far using potting compound (18) that only the terminals (13) for connecting the external conductors (14) to be connected, for example the mains connection and control line for the pump relay, are accessible. The conductors (14) are inserted into the housing interior (7) through the screw connection (15). A corresponding cover (16) with a seal (17) ensures that, for example, no moisture can penetrate into the housing. By potting the control device, it is protected against all influences that have a negative effect on it, that is, it is no longer possible for any external influences, for example moisture or aggressive media, to penetrate.

The advantages achieved with this innovation are summarized therein to see that no special lines to the control units are required, exact switching points are achieved and a high level of operational reliability is guaranteed.

Claims (3)

Protection claims 1. Electronic level controller for monitoring liquid levels, Consisting of rod or suspension electrodes as measuring sensors and the associated electronics as control equipment, characterized in that the entire control device is also accommodated in the housing on which the electrodes are attached. 2. Electronic level controller according to claim 1, characterized in that that the control device consists of a printed circuit board with the components attached to it is potted in the housing. 3. Electronic level controller according to claim 2, characterized in that that the control device is potted so far that only the terminals for connecting the outer the conductors to be connected are still accessible. 7333358 04/03/75