DE29511190U1 - Device for monitoring liquid levels - Google Patents

Description

10.07.1995 HC/br 53494G B

WILO-GmbH

Nortkirchenstrasse 100
D-44263 Dortmund

Device for monitoring liquid levels

The invention relates to a device for monitoring liquid levels with a bellows that detects the respective liquid level. Devices of this type are used to automatically control electrical consumers depending on the level of a liquid in basins, sewage canals, etc. or are used as monitoring devices. For example, it is common to switch on additional pumps if the liquid level in the canal exceeds predetermined height levels.

A large number of such devices are known from practice, each of which is equipped with different sensors. For example, the liquid levels in a known monitoring device are recorded using an ultrasonic signal that is sent to the surface of the liquid. Although this device works particularly precisely, it has the disadvantage that it is expensive to manufacture due to the complex sensors required. Another disadvantage of such

The disadvantage of ultrasonic systems is that their measurement results can be distorted by foam layers that can form on the surface of the liquid.

In addition to ultrasonic measurement, it is known to use resistors or electrodes arranged at different heights to measure the height of a liquid column, which then change their resistance or are switched through when the liquid level has reached the corresponding level. Such sensors are cheaper than ultrasonic measurement, but have the disadvantage that they cannot be used in an explosive environment, such as the possibility of methane gas formation in the area of sewage canals, due to the risk of sparking. In addition, the electrodes can become dirty and then have to be cleaned by additional personnel.

It is also known to use floating bodies as measuring sensors, which can be attached to pivoting arms or cables and arranged at different heights, for example in a basin. When the liquid level reaches the appropriate height, the arm is pivoted by the floating body resting on the liquid and thereby activates an electrical switch. The advantage of these so-called float switches is their simple design, which enables the device equipped with them to be manufactured inexpensively. This low price has led to the widespread use of devices equipped with float switches.

A disadvantage of float switches is that, in addition to their complex installation, they prove to be unreliable over long periods of use because the swivel movement of the arm or the movement of the cable is hindered by deposits. In addition, due to their design, a float switch can only detect large changes in height, as a certain minimum stroke is always required to achieve a stroke of the float sufficient to trigger the switch. Finally, the design of the float switches means that their sensitivity cannot be adjusted with the accuracy often required, and float switches also cannot be used in potentially explosive environments due to the risk of sparks when the switches are operated.

Finally, there are so-called membrane switches, whose membrane is displaced by the static pressure of the liquid. This displacement is used to actuate mechanical switches or to move an air column, which in turn actuates an electrical component. Membrane switches are expensive, must be vented, are not suitable for continuous measurement within a large water height and, above all, must be temperature compensated.

The object of the invention is to create a cost-effective device of the type mentioned at the outset which, with a very simple design and with only a single bellows, enables the changes in the liquid level to be detected with high accuracy, is suitable for use in potentially explosive environments, is remotely controllable and can be used to control two or more pumps.

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This object is achieved according to the invention in that the bellows and/or a sensor connected to the bellows is connected to two or more control devices of the same type, which emit signals for controlling one or more submersible motor pumps when predeterminable threshold values are exceeded.

This means that simple control devices of the same design can be placed next to one another in a modular fashion, away from the pump or pumps, depending on how many levels are to be recorded. At the lowest level or lowest liquid level, the first pump is switched on, at a level above that, the second pump, etc. This means that optimal control is achieved with the least amount of effort. The threshold values can be set by using a first controller to set a first threshold value and a second controller to set the difference between the first and a second threshold value. In this way, for example, by adjusting the lower, first threshold value, the upper, second threshold value can also be adjusted at the same time, as long as the difference between the two threshold values remains unchanged. In this way, the electrical consumer connected to the device according to the invention can be remotely controlled without any problem. In addition, the control unit can emit an alarm signal when a maximum threshold value is exceeded, which can, for example, trigger the switching on of auxiliary units or the switching off of the liquid supply.

It is essential for the function of the bellows used as a measuring sensor according to the invention that it is not filled to capacity with the filling medium, but that its elastic, i.e. in the direction of the pressure load by

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the fluid-compliant walls sag loosely without tension. This ensures that the material properties of the bellows walls have no influence on the pressure change of the medium contained in the bellows that accompanies a change in the fluid level.

Elastic plastic films, rubber or waterproof fabrics can be used as the material for the bellows. The force-free flexibility of the bellows ensures that the bellows walls do not offer any resistance to the expansion of the medium contained in the bellows caused by the heating of the medium. In this way, the sensor acted upon by the filling medium can detect a change in the fluid pressure acting evenly on the outer surface of the bellows directly and without being distorted by temperature or the effect of the bellows material. Since no electrical switching processes take place in the area of the bellows, i.e. in the area in which the change in the fluid level is detected, the device according to the invention is suitable for direct use in an environment at risk of explosion. The bellows can be connected to a sensor located outside the area at risk of explosion via a connecting line, which is also filled with the filling medium.

In practice, particularly pressure-sensitive piezo-resistance sensors have proven to be particularly effective in detecting pressure changes in the filling medium caused by a change in the liquid level. Sparking is thereby excluded, so that the device according to the invention designed in this way is particularly suitable for use in potentially explosive environments.

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In addition, despite its simple construction, the device according to the invention enables continuous detection of the change in the liquid level, since every change in the liquid level immediately causes a change in the state of the medium contained in the bellows, which in turn immediately leads to a change in the measurement signal emitted by the sensor. Any liquid level can therefore be monitored with a single sensor. A single sensor is therefore sufficient to detect even large changes in the level of the liquid. In addition to low manufacturing costs, this also means that the device is easy to install. In addition, the device can easily be adjusted remotely. Calibration of the device when it is put into operation is also simplified and can be carried out with high precision, since mechanical influences on the measurement result are excluded.

If the sensor is not to be located in the immediate vicinity of the bellows, the opening of the bellows can be connected via a connecting line filled with the filling medium, at the other end of which the sensor is located. In this case, the walls of the connecting lines should be rigid, unless it cannot be ruled out that the measurement result could be influenced by compression of the hose.

In practice, it has proven to be useful to use air as the filling medium because this allows the sensor to be connected to the bellows or the connecting line in a particularly simple manner.

In an advantageous embodiment of the invention, which enables a comfortable and explosion-proof arrangement of the control device, the control device is located in a control unit which is arranged remotely from the electrical consumer, wherein the control unit is connected to the electrical consumer via electrical lines and the sensor is connected to the bellows or the first connecting line via an additional connecting line for the filling medium.

The device according to the invention is particularly suitable for controlling and monitoring a submersible motor pump and in particular as a level controller. The bellows can be seated in a pocket that is formed in an area of the housing that is immersed in the liquid pumped by the submersible motor pump and is in direct contact with the liquid. In addition, the housing can serve as protection for the connecting line attached in or to it, whereby the assembly of the pump in connection with the device according to the invention can be made easier by the fact that the connecting line between the control unit located remotely from the submersible motor pump and the submersible motor pump can be coupled to the connecting line located on or in the submersible motor pump via a coupling piece. Finally, it is possible to lay the connecting hose between the device according to the invention and the control device in a common protective sheath with the lines for controlling the pump.

It is particularly advantageous if the bellows has the shape of an elongated tube. Preferably, it is suggested that the walls of the bellows have sufficient flexibility so that if there is no pressure difference between the outside and inside of the bellows, a bellows wall does not lie in front of the opening.

The invention is explained below using two drawings. They show:

Figure 1: A side view of a submersible motor pump equipped with the device according to the invention and

Figure 2: a section through a housing surrounding a bellows.

The submersible motor pump 1, used for example as a sewage pump in a sewer, has a base 2, a rotary chamber 3 made of synthetic material and a housing 4 surrounding the pump motor and acting as a cooling jacket. A pocket 5 is cast onto the side of the rotary chamber 3, which is located in the liquid pumped by the submersible motor pump 1, the base 5a of which is open in such a way that the liquid pumped by the submersible motor pump can penetrate into it unhindered. A bag 6 is located in the pocket 5, the walls 6a of which sag loosely without being stretched. The bellows 6 has an opening 6b, via which the bellows 6 is connected to one end 7a of a flexible or rigid connecting line 7. The connecting line 7 is laid inside the submersible motor pump housing 4 and is thus protected against damage and effects from the liquid. Its other end 7b opens into a coupling piece 8 arranged on the top side la of the submersible motor pump 1, to which a further connecting line 9 can be connected, via which the bellows 6 or the connecting line 7 is detachably connected to a control unit 10. At the end of the connecting line 9, a piezo-resistance sensor 11 is arranged within the control unit 10, which supplies electrical measuring signals to a control device (not shown) contained in the control unit 10. The control device is connected via a

Connecting line 9 connects control lines 12 to the motor of the submersible pump 1.

The bellows 6, the connecting line 7 and the second connecting line 9 are filled with air and sealed against the environment. If the liquid level F in the sewer rises, the bellows 6 is compressed due to the associated increase in the liquid pressure acting on it. This in turn leads to an increase in the pressure of the air trapped in the bellows 6 and the connecting lines 7, 9, which is detected by the sensor 11. If the sensor 11 then delivers a measurement signal that is above a first threshold value, the control device triggers the switching on of the submersible motor pump 1. Accordingly, the control device switches the submersible motor pump 1 off again when the pressure within the bellows 6 and the connecting lines 7» 9 decreases due to a drop in the liquid level F. If, however, the measurement signal supplied by the sensor 11 exceeds a maximum threshold value, the control device triggers an alarm, by means of which, for example, a second submersible motor pump is connected to the first submersible motor pump 1.

The submersible motor pump 1 can also be switched on and off or the alarm can be triggered by operating the controllers 13a, b, c, by adjusting which the threshold values of the control device can be changed. The first controller 13a sets a lower threshold value, the second controller 13b sets a difference between the lower and an upper threshold value and the controller 13c sets the maximum threshold value. The threshold values can be freely changed within the control device, whereby before the first

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Before commissioning the submersible motor pump 1, a first calibration of the device according to the invention is carried out depending on the given operating conditions.

Two or more control units or control devices 10a, 10b, 10c, which are identical in construction, are electronically connected to the bellows 6 or the sensor connected to the bellows, in particular via T-pieces 20. The number of control devices depends on how many liquid levels are to be recorded by the entire control device. In the exemplary embodiment, three control devices 10 are shown, so that three levels are monitored and controlled, with each control device switching a different submersible motor pump on and off or switching different speeds for a single submersible motor pump.

In the second embodiment shown in Figure 2, the bellows 6 is located in a housing formed by a tube 15 that is vertical, i.e. its axis is arranged vertically and which is closed at its top by a cover 16. The underside of the tube 15 is open, so that the liquid can penetrate unhindered into the interior 14 of the tube 15 through this lower opening 15a.

The cover 16 has a coaxial threaded bore 18 into which a connecting part 19 is screwed, to which the connecting line 7 is attached.

The bellows 6 has the shape of an elongated tube, whereby the walls of the bellows 6 have a low inherent rigidity while being sufficiently flexible, so that if there is no pressure difference between the outside and

Inside of the bellows a bellows wall does not lie in front of the opening 6b.

In the uppermost area of the tube 15, at least one vent opening 17 is provided in the wall of the tube, through which gases accumulating in the interior 14, in particular air, can escape.

Claims (1)

&id; i &id; ! * 10.07.1995 HC/br Expectations 1. Device for monitoring liquid levels with a sensor that detects the respective liquid level, which has a single bellows (6) filled with gaseous filling medium, the walls (6a) of which are wetted by the liquid and consist of material that is flexible in the direction of the liquid pressure and are not stressed after the bellows (6) have been filled, characterized in that the bellows and/or a sensor connected to the bellows is connected to two or more control devices (10a, 10b, 10c) of the same type, which emit signals for controlling one or more submersible motor pumps when predeterminable threshold values are exceeded. 2. Device according to claim 1, characterized in that the threshold values are variable. 3. Device according to claim 1 or 2, characterized in that the control devices (10a, 10b, 10c) emit an alarm signal when a maximum threshold value is exceeded. J &idigr; . * * · i * im, 4. Device according to one of the preceding claims, characterized in that the bellows (6) has an opening (6b) sealed against the liquid, to which at least one sensor (11) is connected, which detects the change in state of the medium contained in the bellows (6) that accompanies a change in the liquid level, and wherein the bellows is surrounded by a housing that has at least one connecting opening (15a) through which the liquid to be monitored penetrates and in the upper interior of which, in particular in the container wall, there is a vent opening (17). 5. Device according to claim 4, characterized in that the opening (6b) of the bellows (6) is connected to one end (7a) of a connecting line (7) filled with the filling medium, at the other end (7b) of which the sensor (11) is arranged. 6. Device according to claim 5» characterized in that the walls of the connecting line (7) are flexible. 7. Device according to one of the preceding claims, characterized in that the filling medium is air or another gas. 8. Device according to one of the preceding claims, characterized in that the sensor (11) is designed as a pressure-sensitive piezo resistor. 9. Device according to one of claims 6 to 8, characterized in that the sensor and the control device are arranged in a control unit (10) and the control unit (10) is arranged remotely from the electrical consumer, the control unit (10) being connected to the electrical consumer via electrical control lines (12) and the sensor (11) being connected to the bellows (6) via an additional connecting line (9) for the filling medium. 10. Device according to one of claims 6 to 9, characterized in that the threshold values can be freely changed by controllers (13a, b, c), whereby a first threshold value can be set by a first controller (13a) and a difference between the first and a second threshold value can be set by a second controller (13b). 11. Device according to one of the preceding claims, characterized in that it serves to control and monitor a pump, in particular a submersible motor pump (1). 12. Device according to one of the preceding claims, characterized in that it serves as a level controller. 13· Device according to claim 11, characterized in that the bellows (6) is seated in a pocket (5) forming the container, which is formed on the pump and which is open to the liquid conveyed by the pump (1). I^. Device according to one of the preceding claims, characterized in that at least part of the connecting line (7, 9) is arranged inside the submersible motor pump housing (4). 15. Device according to one of claims 11 to 14, characterized in that the connecting line (9) between the evaluation device arranged remotely from the submersible motor pump (1) and the submersible motor pump (1) can be coupled via a coupling piece (8) to the connecting line (7) arranged in or on the submersible motor pump (1). 16. Device according to one of the preceding claims, characterized in that the bellows (6) has the shape of an elongated tube. 17· Device according to one of the preceding claims, characterized in that the walls of the bellows (6) have a low inherent rigidity while being sufficiently flexible, so that if there is no pressure difference between the outside and inside of the bellows, a bellows wall does not lie in front of the opening (6b).