CS239046B1 - flow sensor - Google Patents

Abstract

The purpose of the invention is to simplify the flow sensor while simultaneously increasing the reliability, accuracy and size of the measuring range while being able to indicate one or more flow rates. The stated purpose is achieved by the fact that the measuring space of the flow sensor is cylindrical and that longitudinal grooves of different lengths are made in its wall. The float is also cylindrical and consists of a permanent magnet. The position of the float is indicated by the closing of the appropriate reed contact, which is located along the measuring space, the flow sensor according to the invention is applicable wherever it is necessary to switch or open an electrical circuit at one or more flow rates. It is also applicable as a flow meter with the possibility of remote transmission of information.

Description

(54 'flow sensor

The purpose of the invention is to simplify the flow sensor while increasing the reliability, accuracy and size of the measuring range while allowing the indication of one or more flow rates. This is achieved in that the measuring space of the flow sensor is of cylindrical shape and that longitudinal grooves of different lengths are formed in its wall. Also, the float is of cylindrical shape and consists of a permanent magnet. The position of the float is indicated by closing the respective reed contact, which is located along the measuring space, the flow sensor according to the invention is applicable wherever it is necessary to switch on or off the circuit electrically at one or more flow rates. It is also usable as a flowmeter with remote information transfer.

239 046 Int. Cl?

G 01 F 1/075

239 046

The invention relates to a flow sensor with a permanent magnet and a reed switch operating on the principle _t float měřidla®

The known float flow sensors are solved in two ways. More complicated but more versatile, they have a measuring space of continuously variable cross-section, eg cone shape. For flow sensors with a conical measuring space, the flow rate in the maximum range of 1:10 can be indicated. Since the measuring space is cone-shaped with a small apex angle, the float is easily trapped in the contaminated liquid. In addition, the float position must *

be suitably stabilized in the conical measuring chamber, for example by means of a guide rod. For this reason, the float always has a more complex shape. Due to the high hysteresis of the reed contacts and the low sensitivity of these flow sensors, it is not possible to distinguish small changes in the flow rate. The known flow sensors with cylindrical measuring space are characterized by difficult indication of multiple flow rates and a complicated body shape.

The aforementioned drawbacks are overcome by the flow sensor according to the invention, in which the measuring chamber and the float are cylindrical, with longitudinal grooves of different lengths being provided in the measuring chamber wall.

The flow sensor according to the invention allows the indication of one or more flow rates in a large range (1: 100 or more),

- 2 239 046 makes it possible to distinguish even very small differences in flow rates with a slight hysteresis and is resistant to float entrapment in the measuring chamber due to impurities from the measured fluid; it is simple to manufacture and reliable in operation; the indicated flow rate is given by the transverse dimensions of the measurement space including the longitudinal grooves relative to the float; The float has the shape of a cylinder and is formed directly by a permanent magnet if the characteristics of the measured fluid allow it. The permanent magnet is magnetized in the longitudinal axis.

1 shows an exemplary embodiment of a flow sensor according to the invention in cross-section, and FIG. 2 shows a plan view.

A burst sensor (FIGS. 1 and 2) in which the measuring chamber 1 is provided with a float 2 formed by a permanent magnet, stops 2 and reed contacts 4, characterized in that longitudinal grooves 2 of different lengths are provided in the wall of the measuring chamber 1.

The flow sensor according to the invention operates in such a way that the fluid flowing in the direction of arrow 6 / FIG. 1 and 2 /, a force is applied to the float 2 formed by the permanent magnet, which increases directly in proportion to the flow rate. As soon as this force is greater than the force exerted by the weight of the float 2, the float 2 moves up to the first start of the grooves 2. The respective reed contact 4 closes. As the flow rate increases further, the float 2 moves only slightly until the flow rate increases to such an extent that the force acting on the float 2 moves it to the beginning of the next groove.

The flow sensor according to the invention can be used wherever it is necessary to switch on or off the electric circuit at one or more flow rates, e.g.

The flow sensor according to the invention can also be used as a flowmeter with the possibility of remote transmission of information. The flow rate is indicated discontinuously in stages, for example by lighting up the respective indicator, number, inscription, etc. fuel consumption, temperature, coolant etc.

Claims (1)

OBJECT OF THE INVENTION _2M Flow sensor comprising a cylindrical measuring chamber with a float <formed by a permanent magnet, stops and reed contacts ₍ characterized in that longitudinal grooves (5) are provided in the wall of the measuring chamber (1)