CS199790B1 - Sensing unit of the level - Google Patents

Description

(54) Level sensor

BACKGROUND OF THE INVENTION The invention relates to a level sensor for sensing the level of, for example, semi-loose, loose or liquid substances in a container, for example for sensing the level of sand, or foundry mixture in movable or dispenser containers.

When sensing the level of molding material in the reservoir, level sensors are used, which work on the principle of tuning the level sensor oscillator due to the change in the capacity of the level probe measuring probe after filling it below the level of the sensed substance in the reservoir ·

The disadvantage of these level sensors JS, MS can only be used in an environment that is not exposed to shocks and impacts · In the gross production processes 3 shocks and impacts, for example, in the dosing cartridges in the molds do not fulfill their funcoi and effect on forming lines performance ·

The above-mentioned disadvantages are eliminated by the level sensor according to the invention, which consists in that it consists of an electric motor of the sensor, to the shaft of which the rotary switch and the propeller with blades are connected, the sensor motor and the rotary switch are provided with propeller hubs not melted at negative lead angle ·

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Advantages of the level sensor according to the invention are its reliability when working in an environment where vibrations, shocks and shocks occur · Level sensing is not functionally influenced by the flow of feed substance into the reservoir · Level sensor according to the invention ensures reliability of dosing height of measured level in storage tank ·

FIG. 1 shows the overall arrangement and location of the level sensor in a side view, FIG. 2 shows an explanatory diagram of the function of connecting the level sensor of FIG. 1 to the filling control circuit.

The level sensor consists of an electric motor 6 of the sensor, to whose shaft £ X the rotary switch 6 is connected and the propeller 5 with the blades 5 V. In an exemplary embodiment, the electric motor 6 is provided with a double-sided output shaft. Preferably, the sliding speed on the blades X X in the direction of the propeller hub axis is the same as the drop speed of the Friday, for example, sand, into the magazine X. The sensor motor and the rotary switch 6 are provided with terminals for connection to the charge control circuit 6. The torque exerted by the electric motor H of the sensor is less than the resistance imposed by the propeller 5 in its contact with the level of the measured substance in the reservoir X. In the exemplary embodiment, the filling circuit 5 is connected to the pulse source 3 ¾. In the exemplary embodiment, the contact of the rotary switch 6 is connected in the charge control circuit 6 via a timing member. The secondary charge circuit 6 is further connected to the charge signaling member Xg. The charge control circuit 6 and the switching device Xg of the allocator are connected to power

The sensor electric motor 4 is positioned with respect to the reservoir χ so that the propeller £ with the blades £ X extends into the reservoir X. The sensor electrometer £ with adjustable level A sensing in the reservoir X is mounted on the bracket. allocator g, against which the storage tank χ is fixed or slidable ·

When the container X is emptied and after it has been moved under the allocator g, the charge control circuit 6 is given an impulse from the source XX to start the electric motor 6 of the allocator g via the switching device 12 and simultaneously to start the electric motor 6 of the sensor. By rotating the encoder electric motor 6, a rotary switch 6 with a propeller 6 located on the shaft of the encoder electric motor 6 is shown. The action of the output contact of the totalization switch 6, which is closed in the idle state of the electric motor 6 of the sensor, is blocked during the start-up of the electric motor 6 of the charge control circuit. After the start of the sensor electric motor 8 has elapsed, the output corner * of the switch 8 is connected to the function for controlling the filling control circuit 6. The rotating propeller s with the blades X X flows as a level sensing element f1 in the reservoir χ. Since the blades XX are aligned with the propeller hub axis θg at an angle of negative pitch, the propeller není is not braked by the falling substance into the reservoir X. When filling the reservoir X when the filling level fl reaches the propeller level se magazine X, whose braking effect on the propeller 6 is greater than the torque

199 790 of the electric motor of the sensor, stops the rotation of the propeller g and tim and of the rotary switch g. Tim will close the contacts of the rotary switch g, giving the control circuit g fulfilling the command to switch off the electric motor g of the allocator.

This completes the filling of the container 1 and the filling level of the container 1 is signaled from the control circuit 2 to the operator by the filling signaling member 12.

The impulse source IX for switching on the filling function can be activated either manually by the operator or automatically. By terminating the filling of the cartridge X, the filling control circuit g can be commanded for further operation in an automated cycle.

The level sensor according to the invention can also be used, for example, to determine the highest and lowest permissible level level in a container. In this case two level sensors are used ·

The level sensor according to the invention can be used in an environment where vibrations, shocks and impacts occur.

Claims (2)

object of the invention Level sensor, characterized in that it consists of an electric motor (4) of a sensor, to whose shaft (41) a rotary switch (6) and a propeller (5) are connected with blades (51), the electric motor (4) of the encoder and rotary the switches (6) are provided with terminals for connection to the charge control circuit. Device according to claim 1, characterized in that the blades (51) are positioned at an angle of negative pitch relative to the propeller hub (52).