SU284312A1 - DEVICE FOR NON-CONTACT MEASUREMENT OF THE HOT WIDTH WIDTH IN THE MILL LINE - Google Patents

Description

The invention relates to the field of contactless photo-pulse control of the geometrical dimensions of the bodies E of an adallurgic right-handed surface.

Devices are known for contactless measuring the geometrical dimensions of hot-rolled with the help of two photo-pulse heads with spreading systems located above the metal being measured.

These devices have complex and bulky supporting structures, the use of which is caused by the need to protect measuring devices from radiated heat.

In order to remove the measuring heads from the zone of intense radiation of hot-rolled and reduce the size of the device in the proposed device, the measuring heads are located on the sides of the mill. Each head is equipped with two photo sensors and two optical channels, the axes of which are parallel to the axis of the measured size. One of the channels with the usual beam path measures the deviation of the width from the nominal, and the second one with the telecentric beam path compensates for the error of changing the thickness of the car.

A conventional beam path consists of lens 1, diaphragm 2, condenser lens 5, and photo sensor 4.

This channel is sensitive to the movement of the body along and across the light flux, i.e. the duration of the pulse in it depends on the thickness and width of the hot rolled product 5.

The telecentric channel has two mirrors 6, lens 7, aperture 5, condenser lens 9, photosensor 10.

The presence of lens 9 at the focus of the lens 7 makes this channel telecentric and due to the parallel course of the rays, which is not sensitive to movements of the body being measured along the light flux, but sensitive to movements across the light flux. Thus, the pulse duration in this channel depends only on the thickness and position of the upper hot rolled plane.

Deploying device 11 is 0: common to both channels.

The device works as follows.

From red-hot rolled 5 light streams go to two measuring channels. 5 In a channel with a normal beam path, the luminous flux passes through the lens 1, the diaphragm 2, the lens 3 and enters the photosensor 4. A pulse proportional to the width of the hot rolled is removed from the photosensor through the sweep system //. When the width of the hire changes, the pulse duration changes. From the known value of the sweep speed and the change in the pulse duration, it is determined how much the hire width has changed. Due to the fact that the channel With the usual course of rays is sensitive and to the movement of the measured body across the light flux, a change in the thickness of the car also causes a change in the length of the pulse, and therefore a distortion of the result of the measurement of the car.

To correct the result of measuring the width of the rolled metal, a channel with a telecentric beam path is used.

In a channel with a telecentric ray path, the luminous flux from hot rolled products, reflected from mirrors 6, passes through lens 7, diaphragm 8, condenser lip 9, and enters a photo sensor 1K 10. From the photo sensor due to the scanning system // removes the | with pulse , for which is proportional only to the volume of hot rolled 5.

Thus, a change in the thickness of the rolled metal along with a change in the duration of the pulse in the channel with the usual course of rays causes

accordingly, the change of the pulse duration in the channel with a telecentric course of rays. By comparing the results, Kqprektsi is entered and the Commnbsunciating error from the change in the thickness of the rolled products.

Subject invention

A device for contactless measurement of the width of hot rolled products in the mill line, containing two of one measure, full photopulse HEADS with spreading systems, characterized in that, in order to remove measuring heads from the zone of intense radiation of hot rolled products and reducing the dimensions of the device, the measuring heads are spread across the sides a mill each of the BOIKs is equipped with two photo sensors and two optical channels, the axes of which are parallel to the axis of the measured time; a measure, one of the channels with a normal beam path measures the deviations the width of the rated | IEala, and the second - a telecentric ray path komyensiruet error by varying the thickness of rolled.

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