DE1222272B - Arrangement for contactless measurement of the edge distance of a moving object - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

GOIb

German class: 42b-5

Number: 1222 272

File number: J 20866IX b / 42 b

Filing date: November 21, 1961

Opening day: August 4, 1966

There are devices for measuring the length of sheet-shaped rolling stock during its conveyance known, which consist in the fact that detectors are equidistant from one another on a part of the conveyor track are provided that trigger control pulses when the sheet metal is in the field in front of such a detector enters or exits from the same, and the pulses supplied by the detectors in a counter can be totaled and thereby indicate the sheet metal length. In the known arrangement for use arriving detectors can be controlled optically, thermally or electromagnetically. While one embodiment of such a known device operates such that the The totalizing device of the counter is switched off when the rear sheet edge crosses the field of the first Detector of the measuring section happens, another embodiment provides that when moving the Sheet metal over the measuring section away the leading edge of adding pulses and the trailing edge of subtracting pulses delivers, so that as long as the sheet moves over the measuring section, the counter a constant value corresponding to the number of detectors covered by the sheet metal.

An arrangement for measuring the edge distance of a moving relative to the measuring arrangement Good in which a plurality of radiation detectors are arranged in the vicinity of the good and each Detector generates electrical impulses when the material enters or leaves the detector's beam path the same exits, and in which a computing device is provided, which by said Detectors added between the edges of the goods generated pulse signals, characterized according to the Invention in that two groups of radiation detectors are provided and the radiation detectors the first group from each other at a relatively wide, regular distance and the radiation detectors the second group arranged at a relatively narrow, regular distance from one another are.

A preferred embodiment of the invention provides that a material moved on a conveyor track first enters the beam path of a radiation detector that effects the main control and thereby prepares the stages of the counter provided for counting and, when its leading edge passes further radiation detectors, triggers counting pulses and, if its trailing edge passes the said main control radiation detector, triggers a counting process in which the radiation detectors released by the trailing edge are arranged for contactless measurement of the
Edge distance of a moving good

Applicant:

Jones & Laughlin Steel Corporation,

Pittsburgh, Pa. (V. St. A.)

Representative:

Dr. phil. G. B. Hagen, patent attorney,

Munich-Solln, Franz-Hals-Str. 21

Named as inventor:

John Axel Lindstrom, Pittsburgh, Pa. (V. St. A.)

trigger a countdown process at a shorter distance, until the leading edge of the goods is in the beam path of a radiation detector which is relatively far from one another Arranged radiation detectors occurs, whereupon the counting process is completed.

To a certain extent, the measuring arrangement according to the invention uses a vernier principle of measurement not the entire length of the conveyor track covered by the item to be measured in one of the desired accuracy corresponding close distance is occupied with detectors; because only that Detectors measuring the end of the item to be measured are arranged at a close distance from one another, while the remaining detectors are relatively far apart have from each other, namely have as large a distance from each other as the linear expansion the distance formed by the closely arranged detectors. Here is the achievable Measurement accuracy due to the distance between the detectors in the second detector group, which is densely populated with detectors certainly. The control circuits used are therefore highly economical the measuring arrangement.

An embodiment of the invention is in the description with reference to the drawing discussed.

The illustrated measuring arrangement according to the invention comprises a conveying device which consists of the im Conveyor rollers 10 arranged at a distance from one another

609 608/153

3 4

consists on which lines 24 or 31; are they switched off,

the hot plate 12 moved from sheet steel. The voltage on lines 24 resp.

the conveyor track and at a close distance from the same 31.

two groups of photocells are provided, of which the multivibrators 22,30 are designed so that

the one photocell group the photocells A to E and 5 them by a positive impulse of the differentiating

the other group of photocells switch photocells V to Z 18,26 from their switched-off state to

includes. It should be noted that the longitudinal expansion is transferred to the switched-on state. Around

the photocell group A to E equals the distance each multivibrator 30 from its switched on

is to switch the photocells of the successive photocells to the switched-off state.

have cell groups V to Z from each other. The abio must lead to a negative impulse from the difference

stand of the photocells of the photocell group A to E decorative stage 26 are fed. This is done in yet

is less than the minimum length to be measured. Will be discussed further when the trailing edge

one assumes that the length between the photocell £ a sheet metal in front of each photocell of the photocell

and the photocell Z covers 1.5 m, the group 1 has moved past.

stood between the photocell. <4 and the photocell £ 15 The photocell 16 is at a differentiation level 32 30 cm. Connected in front of the photocell of photocell group A and furthermore to a gate step 34, which is located in to E , the main control photocell 16 of the figure is also designated as "gate". The arranged that the count in the counter before output pulse of the differentiating stage 32 is in his prepares. When the sheet metal moved on the conveyor track polarity depends on whether the front edge 12 enters the beam path of the photocell 12, or the rear edge of a sheet metal sheet 12 prepares the counting steps of the counter for the counting moves. This pulse is also a bistable development before and, when the front edge of the metal sheet is fed to the multivibrator 36 and a driver stage 38, other photocells A to Z passes, it triggers positive output pulses of the differentiator 32 legs each time a counting pulse; when the rear edge of the effect that the multivibrator 36 of its one sheet 12 passes the main control photocell 16, 25 switched state in its switched off it prepares a counting process in which the from the -stand passes and the driver stage 38 a rear edge released photo cells. 4 ... E low output pulse on line 40 is generated. This greater distance a countdown from the output voltage initially brings all multivibral loops until the front edge of the metal sheet 12 in the gates 22 and 30 in the switched-off state. The beam path of the photocell Y of the relatively far to-30 negative short voltage pulse which is arranged in the Diffeeinander photocells group V to Z renzierstufe 32 occurs when the trailing edge occurs, thereby enteric counting moves past photocell 16 completed a metal plate 12, sen is. brings the multivibrator 36 back into its connected state with regard to the photocell 16, whereby it has a voltage that the same generates in the drawing of the line 42, which is exaggerated for the sake of all gate calls large distance from the 20 and 28 leads and this locks. The output photocell is shown so that the photocell 16 voltage of the photocell 16 also controls a gate closer next to the photocell ^ to think stage 34, which is the output signals of the Differen. The distance should be such that, when the tiation stages 18 are brought forward via the connecting line 44 to the rear edge of the metal sheet 12 on the photocell 16. When the metal sheet 12 is running, the front edge of the metal sheet is half of the photocell Y , that is, when it is positive, it has just passed. The current in each of the photocells increases. These output signals are forwarded to the Multizu when the intensity of the light falling on the cathode of the vibrator 36. If, however, the rear edge of the photocell increases. If 45 sheet metal 12 moves past the photocell 16, so the front edge of the radiating sheet metal 12 at that voltage drops, the voltage of a photocell passes by, resulting in a chip pulse of the differentiation level IS of the next photocell increase. The output of each photocell is a cell of the second group, which is connected to a differentiating stage 18, 26 through the front. If the edge of the sheet metal 12 is triggered, the output voltage of a photocell 50 stage 34 is fed to the multivibrator 36 via the gate, so that when the front edge of a sheet metal moves past it changes from its switched-off state to the sheet 12, so the differentiating stages cause the switched-on state passes and a voltage 18,26 a sharp voltage pulse short-generated on the line 42, which the gate stages 20 duration; this voltage pulse is blocked via a gate u ^ d 28.

stage 20 or 28, marked with "gate" in the figure. 55 The output voltages of the multivibrators 22 are shown, bistable multivibrators 22 and 30 are supplied and 3O ₃ that occur on the lines 24 and 31, the multivibrators 22, 30 can in be a summing stage 46, which consists of two electron tubes, from the multivibrators 22 via .the line 24 acquires one electron tube when the pulses are held and that of the multivibrators the other is blocked, and vice versa . A M-60 30 over the line 31 added pulses, stable multivibrator is known to have two states. The Multiyibratoiem 22 generate a voltage of equilibrium, into which it can be transferred by a rise of 1 volt on the line 24, if it can be converted by a short voltage pulse . are switched; the multivibrators 30 cause the one - equilibrium state is to simplify- a voltage increase of 0.2 volts on the line illustration as the switched-on state 31, ie the fifth part of the voltage network and the, other than, switched off power on & low, generated by the multivibrators 22. It stood. When the multivibrators 22 or 30 are switched on, therefore the output voltage of the multivibrators ■ are switched, there is a voltage increase to 22, a measure of how many photocells V ... Z -von

Claims (1)

5 6 to be measured are affected; the output circuit of the differentiation stages 26 is generated, signal of the multivibrators 30 is a measure of which these negative voltage pulses control the Length of the rear end of the plate within the multivibrators 30, so that the same from their one Photocell group A ... E. The output signal from the switched state to the switched off state Summing circuit 46 will be transferred to a playback device 5, device 48 forwarded. As soon as the front edge of the metal sheet 12 is the When the front edge of a fourth photocell Y is reached during operation, the gate steps 20 sheet metal panel 12 are first past the photocell 16 and 28 blocked, and the other signals of the two are moved, the output voltage of these photocell groups does not generate any voltage changes, see above that the differentiating stage 32 one positive ¹⁰ ™ ngen on the lines 24 and 31 more. Man tive impulse of short duration is generated. This positive recognizes that the front edge of the metal sheet 12 after the output pulse switches the multivibrator stage 36 past the photocells V, W, X and Y from their switched-on state to the switched-off state, thereby switching over four voltage rises, so that the reverse voltage for which ^around J ^e * ^volts were generated on line 24. Gates 20 and 28 is lowered to the line 42 and this ¹ S In Similarly, the trailing edge of the Blechein signal from the differentiating stages 18 and 26 into plate at the multivibrators can 22 and 30 refer to the three photoelectric cells A, B and C 12th moved past before the gate steps 20 and 28 ge-Simultaneously the positive voltage pulse of the ^s P were ^errted . Thereby, only two of the M + M Differentiationsstufe32 the driver stage zugelei- 38 vibrators getet in the on state 30, ^ao BSelect the on line 40, such a source, so that generated on line 31, two voltage signal, regardless increases the multivibrators of per 0.2 volts are generated, the condition of the individual Gesamtvom vibrator, 22 and 30 § ^{Lan e of the} metal sheet in portions of 1.5 m from the oN state to the ausgeschal- ^{is that} it § ^{facilitated the} number of voltage rises ended state When the leading edge of the ^voa * ^{volts on} line 24; The additional length of sheet metal 12 has moved past the photocell 16 ² 5 of ^the sheet metal in steps of 30 cm, so all multivibrators with ^the number of voltage increases of 0.2 volts are on the when switched off. If the leading edge of line 31. In the example discussed, the sheet metal plate 12 is moving past the photocells of the group with total voltage, which is fed to the summing stage 46 A ... E , then the output voltage takes, ^{equal to 4} > ^{6 volts} > what ^a total length of the opening of the cells concerned. Correspondingly 3o sheet metal of 6.6 m corresponding. The output voltage generates the differentiating stages 26 positive outputs of the summing stage 46 are the display impulses that are fed via the lowered locking device 48, the length of the sheet metal voltage on 42 open gate steps 28 to the panel 12 in meters with an accuracy of plus multivibrators 30 reach, which is indicated in the out or minus 7.5 cm switched state. It is obvious that when the sheet metal 12 in sequence ^{emits all the multivibrators from the non-itself} light, light sources can be arranged above the switched state to the switched state conveying device, which transfers when the front edge of the metal sheet 12 light at the surface of the metal plate reflected at the respective photo cells of the first ^blank> so that the reflected light passes to each picture group. 4 ° ^ze] ^ ^e comes when the sheet metal moves past. Similarly, the changeover takes place of ^it could on the other hand light sources and below multivibrators 22 and to which ^the conveyor apparatus may be arranged as long, so that the trailing edge of the plate passes 12 ^Eder to the photocell 16 ^to J photocell reaching light interrupted. At this point in time, the ^{output voltage of the photocell 16 decreases when} the conveying edge of the metal sheet decreases, so that the differential 45 moves past and a change in the output return stage 32 results in a negative output pulse voltage of the photocell.
which does not affect the bivibrator. ^It should be noted that if the gate stage 34 to be measured opens so that the workpiece is now immovable, the photo output pulses of the differentiation stages 18 are also moved cells in a corresponding manner can influence the multivibrator 36. The next impulse to carry out a length measurement of the workpiece, which is carried out by one of the differentiation stages 18,
is generated, thus causes the multivibrator 36 from its switched-off state in the one-patent claims:
switched state passes and thereby the gate steps 20 and 28 locks. In the illustrated arrangement for measuring the edge guide example, it is assumed that the rear distance of an item moving past the photocell 16 relative to the measuring arrangement edge of the metal sheet 12, in which a plurality is moved after the front edge of the Panel radiation detectors in the vicinity of the goods themselves are arranged past a photocell of group V .. .Z and each detector has moved electrical impulses, but before the fourth photocell generates Y pulses when the goods have been reached into the beam path. The bivibrator 36 is thus not yet entering the detector or leaving it in the switched-on state, and the gate steps 20 occur, and a computing device is in front and 28 are still open. After the rear edge has been seen, which has passed the photocell 16 through the above-mentioned sheet metal sheet, detectors move between the edges of the goods before the front edge adds the pulse signals generated by the photocell Y and has passed on some photocells the first group indicates that two groups have passed. The voltage of these photocells is therefore reduced by radiation detectors (F, W, X, Y, Z or A, B, C , and a negative voltage pulse in D, E) is provided and the radiation Detectors of the first group (V .. .Z) are arranged at a relatively wide, regular distance from one another and the radiation detectors of the second group (A ... E) are arranged at a relatively narrow, regular distance from one another. 2. Arrangement according to claim 1, characterized in that a material moved on a conveyor track first enters the beam path of a radiation detector (16) causing the main control and thereby prepares the stages (22, 30) of the counter provided for counting and, if its The front edge passes further radiation detectors (A ... E, V ... Z) , triggers counting pulses and, when its rear edge passes the above-mentioned main control radiation detector (16), prepares a counting process in which the radiation detectors released by the rear edge (A. ..E) trigger a backward counting process at a shorter distance until the front edge of the goods enters the beam path of a radiation detector of the radiation detectors arranged relatively far from one another, whereupon the counting process is completed. 3. Arrangement according to claim 2, characterized in that the radiation detectors (V ... Z, A ... E) of both groups via differentiating stages (18, 26) and gate stages (20, 28) and multivibrators (22,30) Control adder (46) and another radiation detector (16) in parallel. a differentiating stage (32), which is followed by a multivibrator (36) and a driver stage (38), and a gate stage (34) controls which the latter also generates from the differentiating stages (18) of the first radiation detector group (V ... Z) Signals are supplied, and that the last-mentioned radiation detector (16), when a workpiece enters its beam path (front edge), which follow the differentiation stages (18, 26) of the radiation detectors (V ... Z, A ... E) of both groups Deletes the multivibrators (22, 30) and, by deleting the multivibrator (36) assigned to the last-mentioned radiation detector (16), opens the gate steps (20, 28) upstream of these multivibrators (22, 30) and when the workpiece runs out of its beam path (rear edge) the gate stage (34) arranged parallel to the differentiation stage (32) assigned to it for the forwarding of an impulse triggered by the differentiation stages (18) of the first radiation detector group (V ... Z) ulses opens so that such a pulse then excites the multivibrator (36) connected downstream of the last-mentioned gate stage (34) and thereby the gate stages (20, 28) of both radiation detector groups (V ... Z, A .. .E) are blocked, whereby In the period between the supply of the opening signals to the gate stage (34) assigned to the additional radiation detector (16), the radiation detectors (A ... ) emerges from the beam path of one of the mentioned radiation detectors (A ... E) . Considered publications:
German patent specification No. 915 155. 1 sheet of drawings 609 608/153 7.66 © Bundesdruckerei Berlin