DE2517429A1 - MAGNETIC SENSOR FOR LIQUID FLOWS - Google Patents

Description

_w HonsmannVDi

Pattnt-Ingenleor 2 Hamburg 50 (Altana) Jvll «f-Ubtr-Stra8 · 21

»MAGNETIC SENSOR FOR LIQUID FLOWS»

This invention relates to perfection systems that control the flow of liquids through pipes, and so.ll mainly at Household appliances that work with liquids or gases are used.

The main function of all these systems is that of mechanical, electrical or magnetic Ways the presence of a certain flow value in the line that is checked in this way it is found that the system reacts when this flow value, the so-called control flow, is reached and a corresponding signal (closing or opening of a circuit, actuation of a valve, operation an optical or acoustic indicator, etc.) actuated,

This invention relates to the conception of a liquid flow control system in which the liquid flow moves a control piece on which a permanent magnet is mounted so that the change in position of the magnet is effected by the value of the flow in the conduit. The walls of this line are in the part in which the piece moves with the magnet, permeable to the magnetic field of the magnet. And near this wall there is a magnetic interrupter of the "reed" type, which is triggered as soon as a magnetic field of the appropriate intensity and polarity is present. When the magnet approaches the "reed" breaker on its way, it is triggered and closes (or opens) a circuit that it operates. When the flow value drops so that it is below the control value, the magnet goes back and its magnetic field no longer acts on the ^M Reed ^M interrupter, which thereby returns to its rest position and switches the circuit off (or on). An extension

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of the circuit is provided in such a way that the system has connections for the supply of the "reed" breaker alternatively with its function.

The advantages of the liquid flow sensor system compared to the other existing conventional systems: on the one hand in the simplicity the mechanics, because there are connections between the Magnet carrier and the contacts of the breaker, and on the other hand in the use of the "reed" breaker, because with this, because its contacts inside an ampoule with inert gas. sphere included are, a long service life of these contacts is guaranteed and it has a quick release. There too cannot form sparks, this system can even work in atmospheres with flammable liquids or gases be used.

This system can be used with all liquid extracts to control a certain flow rate in these lines and is very much due to a shape designed for each special application easy to install in all lines, it can be built into the main line itself as standard, all can also be connected to the same as a by-pass.

The invention, its mode of operation, Applications and benefits are better explained.

In the illustration, the following elements have been marked with the corresponding reference numbers:

1, - liquid inlet

2.- Liquid outlet

3, - body

hm '" permanent magnet

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5.- Magnetic carrier

6.- Magnetic interrupters

7, - utility circuit

8, - slider

9.- Power supply circuit

The liquid enters section 1 and exits section 2, so that the entire sensor system located between these two sections.

The sensor body 3 consists of a conical line piece made of a material _t which is permeable to the magnetic field of the permanent magnet k _t mounted on the magnet carrier 5. The vertical position of this magnet carrier depends on the flow value of the liquid in the line and corresponds exactly to the position in which the weight of the parts h-5 is balanced by the fluid-dynamic resistance which they oppose to the movement of the liquid. Since the line piece 3 is conical, the floating position of the parts 4-5 will increase in the same proportion as the flow strength in the line increases. When this flow becomes stronger, the magnet gets closer and closer to the height at which the magnetic "Reed ^M interrupter 6 is located for the useful current circuit. When a certain flow value is reached, the magnet comes close enough to trigger it The minimum flow rate at which this occurs is the minimum control flow.

If the flow continues to increase, the magnet 4 will also continue to rise and exceed the Position of the "reed" breaker, reducing the effect of the magnetic field stops and the "reed" breaker in the rest position returns.

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The flow rate at which this occurs is the maximum control flow. The system can provide such an output signal while the flow rate flies between the maximum and minimum control flow.

How wide this flow field is between these maximum and minimum values depends on the dimensions of the system and the magnetic characteristics of the magnet and the "reed" interrupter.

If only one cohtr setpoint (maximum or minimum Value) is to be determined, it is sufficient to provide a stop that prevents the magnet from the other release position reached.

With this system, the control flows can also be regulated as required by changing the height of the "reed" breaker 6 in relation to the sensor body 3 »

For this, an example is given in the figure with the retaining lock 8 for the "reed" breaker. This system is completed by the power circuit for the magnetic breaker.

It should be noted that the above list contains information and not a single word and that the inventor reserves the statutory right to make improvements and to this object To make improvements that might be necessary in practice, provided the main characteristics retained v / earth.

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Claims (6)

Claims .) Magnetic sensor for liquid flow that generates a signal when the flow rate is one or more preset ones Values reached, thereby g e k e η η is characterized by the fact that it consists of an inserted into a pipe there is a tubular body (3) which is permeable to magnetic force field lines and in which there is a freely floating! Magnet carrier (5) with a permanent magnet (4) is located, which in certain positions has a magnetic breaker (6) operated, which is adjustable and fixable on the outside of the tubular body, and attached to a Circuit is connected through which the message signal can be controlled. 2. Magnetic sensor according to claim 1, characterized in that both the carrier (5) of the permanent magnet (4) as well as the magnet itself are located in the flowing liquid to be controlled, and not mechanical Elements are connected to the static elements of the sensor. 3. Magnetic sensor according to claim 1 and 2, characterized in that the magnet (4) the magnetic interrupter (6) as soon as it is in a position that corresponds to fluid dynamic equilibrium for displaying a minimum flow rate and during a limited interval for displaying a maximum flow rate actuated. -6-609819 / 0746 4. Magnet sensor according to claim 1 to 3, characterized in that the positions in which the excitation interval of the magnetic breaker (6) begins and ends, constant with respect to this breaker and the values to which they refer, mechanically and automatically by modifying them accordingly the position of this breaker on the permeable piece are changeable. 5. Magnetic sensor according to claim 1 to 4, characterized in that the tubular body (3) is conical is. 6. Magnetic sensor according to claim 1 to 5 »characterized in that it has a stop which the The possibility of locomotion of the permanent magnet (4) within the liquid flow is restricted in order to avoid the from Circuit on a corresponding scale output signals to one of the interval positions at which the Magnet energizes the breaker (6) to restrict. 609819/0746