CS243011B1 - Hot material's position scanner - Google Patents

Abstract

The invention relates to a position pick-up (position transmitter) for incandescent material for determining the position of incandescent, chiefly rolled semi-finished products at pull-overs between roll stands. It is the object of the invention to provide with simple means a small, long-lived optical position sensor having a symmetrical visual field and whose signals can be evaluated electronically in a very simple fashion. The essence of the invention consists in that the position pick-up (position transmitter) consists of at least two hollow bodies of identical shape which have a triangular cross-section and are mutually rotated specularly by 180 DEG in such a way that the heights of the cross-sectional triangles of these bodies extend parallel and the two hollow bodies are covered at one end by a common cover, and a radiation pick-up is arranged in each case inside each of the triangular hollow bodies, advantageously in the middle third of the height of the hollow body, while the surfaces of the hollow bodies which are opposite the cover can be freely passed through by light beams.

Description

The object of the invention is a position sensor of hot material for detecting the position of hot, in particular rolling stock, in transformers between individual rolling stands.

So far, for example, position optical sensors have been used for this purpose, such that a lens assembly is placed on the shaft of the synchronous motor, focusing the rays on the photodiode.

The pulses of the resulting pulses are compared to a reference frequency of, for example, one phase supplying the synchronous motor. The output of the phase-to-voltage converter is a two-polarity signal of a linear waveform ·

The disadvantage of this system is mainly wear of moving parts in aggressive environment. Other disadvantages are: high supply voltage of the synchronous motor (3 χ 380 V) and high weight of the sensing device, which requires unnecessarily massive stand.

Other known position sensors are designed such that two radiation sensors located on the lid on one side of the tube are optically separated from each other. The disadvantage of this system is that both fields of view are not symmetrical, which in particular adversely affects the initial course of position sensing of the hot blank.

The disadvantages of the prior art position sensors are completely eliminated by the position sensor of the glowing material according to the invention, which consists of at least two shape-identical triangular hollow bodies, mirror-rotated to each other by 180 ° around one of the legs so that the heights of these hollow triangular bodies they are parallel and one common transverse side surface is formed by a lid on which in each of the triangular hollow bodies one of the radiation sensors is located in the middle third of the height, the surface opposite the lid being free for light rays.

The advantage of the position sensor of the glowing material according to the invention is, in particular, the fact that it does not contain any moving part, thereby extending the service life considerably. Another advantage lies in the small size and weight of the device, which reduces the purchase cost. Another advantage is the symmetrical field of view, which enables - especially at the beginning of sensing the position of the hot blank - to determine the wrong position. Last but not least, the evaluation of sensor signals is completely simple.

An exemplary embodiment of a glow material position sensor according to the invention is shown schematically in the attached drawing, wherein Fig. 1 shows the principle of radiation sensing of the glow blank and Fig. 2 shows the field of view.

The two hollow shaped bodies X, 1 preferably have the shape of an isosceles triangle and are rotated 180 ° to each other. The hollow bodies X, 2 are closed on one side, perpendicular to their axes, with a lid on which one of the radiation sensors is located in each of the hollow bodies χ, θ, preferably in the middle third of the height of the triangular hollow bodies χ. Opposite to the lid 6 is free to pass through the light beams.

In the actual operation, when the position sensor of the glowing material according to the invention is placed above the transducer, the glowing blank 2, for example a wire, illuminates the radiation sensors 6 in a ratio: 1 ^{, while} the proportion of the glowing blank 2 changes.

In case that the hot blank 2 ³ and the second in the middle of the visual field of the two radiation sensors 2 replacing or favoring both radiation sensor £, £ same output voltage.

The output voltage of both radiation sensors is continuously processed by an unlabeled electronic circuit that evaluates the proportion of the two received signals. The resulting stress is a two-polar linear course.

The position sensor of the hot material according to the invention can advantageously be used for monitoring the position of rolled hot blanks, in particular wires, as they pass through the transformers necessary for the transfer between individual rolling stands.

Claims (1)

DIRECT YOU FIND Hot material position sensor, characterized in that it consists of at least two shape-identical triangular hollow bodies (1, 2), mirror-rotated to each other by 180 ° around one of the arms (3), so that the projections of these triangular hollow bodies (1, 2) they are parallel and one common side surface is formed by a cover (6) on which in each of the triangular hollow bodies (1, 2) one of the radiation sensors (4, 5) is located in the middle third height height, the surface (8) opposite The cover (6) is free-flowing for light rays.