RU189448U1 - LIQUID LEVEL SENSOR - Google Patents

Abstract

The invention relates to float devices for monitoring the level of a liquid and can be used to control the level of various liquids in fixed and mobile vessels. Technical result: reliability and stability of sensor readings during depressurization of the float and dynamic force effects during its operation are ensured. The liquid level sensor includes a modular float, the body of which is made with a cavity in which a magnet is installed, the cavity is bounded below and above by a body made in the form of a flat base and arcuate top, and filled with an insert made of a material with a low density of matter on the side of the cavity has a seat for the magnet, made with the possibility of its fixation. In this case, the seat of the magnet can be made in the form of arcuate guides and stops. 1 hp f-ly, 2 ill.

Description

The invention relates to float devices for monitoring the level of a liquid and can be used to control the level of various liquids in fixed and mobile vessels.

Known liquid level sensor (see patent number 4602, IPC G01F 23/00, "Float level sensor liquid", Orlov, B. B., Efremov B. D., Agapov A. K., publ. 16.07.1997,) in which the float, performing the function of a sensing element, is made in the form of a volumetric body from a porous material, and also has an integral porosity forming a surface crust. The presence of a crust on the surface of the float increases the life of the device by improving its physico-mechanical characteristics. However, this technical solution slightly increases the strength characteristics of the float. In addition, the installation in it, for example, a magnet designed to obtain information about the level of the liquid is excluded.

A liquid level sensor is known (see patent No. 177777, IPC G01F 23/30, “Liquid Level Sensor in a Container”, Kobylyatsky DV, published 12/19/2017, Byul. No. 35), in which the float is made monolithic from foamed material placed in it a magnet. Placing the magnet in the float allows you to increase the sensitivity of the device. However, the implementation of the float of foam material, not protected from exposure to the working environment, leads to the destruction of the sensing element. In addition, since the material of which the float is made has low physical and mechanical characteristics, the reliability of fixing the position of the magnet in the float is low, which reduces the reliability of the device as a whole.

The closest known from the technical essence is the liquid level sensor (see patent No. 2521130 of IPC G01F 23/00, “Liquid Level Sensor”, Ivanov I.A., Kozekaeva E.A., Paveliev N.M., Panteleev AM, published on June 27, 2014, Bull. No. 18), in which the float with an installed magnet is made of an assembly made of a body with a cavity filled with granules with a low density of matter. Housing protection of low-density float material reduces the possibility of destruction of the sensing element. However, filling the cavity with low-density granules does not allow to completely fill the internal volume due to the presence of gaps between spherical granules, and an empty cavity in the cork of the float is also formed. In addition, there is no rigid attachment of the magnet in the float. Thus, this device and all known ones do not ensure the reliability and stability of the sensor readings when it is used in situations of depressurization of the float body and when driving, for example, a vehicle when it is exposed to overloads.

The problem solved by the utility model is to increase the reliability and stability of the sensor readings during its operation.

Technical result: reliability and stability of sensor readings during depressurization of the float and dynamic force effects during its operation are ensured.

The technical result is achieved by the fact that in the liquid level sensor, including a modular float, the body of which is made with a cavity in which a magnet is installed, the cavity is bounded below and above by a body made in the form of a flat base and arcuate top and filled with an insert made of a material low density of the substance, and the body on the side of the cavity has a seat for the magnet, made with the possibility of its fixation.

In order to rigidly fix the magnet in the liquid level sensor, the magnet seat can be made in the form of arcuate guides and stops.

An example of the implementation of the proposed technical solution is shown in FIG. 1, 2. FIG. 1 shows a diagram of a liquid level sensor, and FIG. 2 - general view.

The sensor consists of a sensor housing 1, in which a magnetically controlled sealed contact (reed switch) 2 is installed. A modular float made of a float housing 3 is mounted on the sensor housing, in the cavity of which an insert 4 is installed, made of a material with a low density of matter and filling the entire internal volume of the cavity. The cover 5 of the float is hermetically connected to the housing 3 and is installed with the possibility of fixation from the longitudinal movement of the magnet 6. The float body has an arcuate top 7 a flat base 8 with arcuate guides 9 configured to fix the magnet.

Thus, the device increases the reliability and stability of the sensor when it is used.

Claims (2)

1. Liquid level sensor, including a modular float, the body of which is made with a cavity in which a magnet is installed, characterized in that the cavity is bounded below and above by a body made in the form of a flat base and an arcuate top and filled with a liner made of a material with a low the density of the substance, and the body from the side of the cavity has a seat for the magnet, made with the possibility of its fixation. 2. The liquid level sensor under item 1, characterized in that the seat is made in the form of arcuate guides and stops.

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