SU1063739A1 - Apparatus for monitoring the wear of overhead conveyer chain - Google Patents

Abstract

1. A DEVICE FOR MONITORING THE WEAR OF THE PRICE OF THE SUSPENDED CONVEYOR, containing the idea of light sources, photoelectric sensors and a signal processing unit, characterized in that, in order to increase the control accuracy, the light sources are located at a distance equal to twice the price and a half of the tolerance for wear of two links, the light detector of the first photoelectric sensor is produced in the form of several light transducers, for example, three, whose light-receiving areas are oriented so that their rectangular projections onto the vertical plane passing through the longitudinal axis of the chain is located along the chain, the width of the glow of the light nukhka, the passage w, its chain and the incident on the light beam of the first photoelectric sensor equals the tolerance for wear of two chain links, and the width of the section of the light nukchuk of another light .mnika less tolerance for wear on two chain links, and trees for signaling signals, 1nen n form F1) of the readout of pulses read1) 1vani II reset, dec1fratora, matching 6, i

Description

The invention relate to the lift-trance: horticultural engineering, namely, devices, К011тр () lnruoioi-1m, wear of the overhead conveyor.

A device is known for wear and tear wear and tear of the hopper belt, which is the principle that a wedge-shaped plate, hinged on a slide, can be inserted between two adjacent internal links, but not guided along the conveyor. The depth of the ipine nplus depends on the amount of wear on the neighbors.

However, such a device is characterized by the complexity and low accuracy of the wear control.

It is also known a device for monitoring the wear of a chain of a single conveyor, containing Heee light sources, photoelectric sensors, and a cell. Cap. 1nization 2J.

The disadvantage of the known device in .1 is insufficient accuracy of the counter.

Purpose of the invention

Govovi11e1n with exactingly. T.

11 STAFFLINS A DI (stigmared by the fact that in the device for controlling wear of the suspension chain of the HCH) of the conveyor containing light sources, () from, the conventional sensors and the processing unit of the link, the light sources are equal to each other of the distance lia. m) tag and chain. Tolerance on the wear of two-hour links, light receiving driver (IIC) () {) {) of the electric sensor B1 P1Olnsn in liii.ie iesko, 1k.x svetodreobrazovateley, for example treh, svetonrini.mayup1ie areas .ch to orient so that i.th.pr. mog-olis1e projections onto the vertical plane, and |) go to Without the irodol axis of the circuit, located along the value, the width of the glow of the lights () of the beam, passing through the center and passing to the nerve receiver of the nerve () of the electroelectric sensor, is equal to the pre-start for wear of the two price points, and the Ierin of the cross-section of the light socket of another receiver of the receiver for wear. the chain links, and the signal processing unit is designed as shapers for reading and flushing imiu.ts, for the diffuser, agreeing to Hu-ix blocks, zatomiiai1I1 blocks, intermediate blocks, as well as signaling unit, OR element, and counting units, i.e., the outputs of the light-receivers of the first photoelectric sensor of the nodes; 1to the inputs of the first three eo1.tasuy1tsikh b.tokov, the outputs of which are connected1P 1 to the corresponding inputs of the decoder, and the output of the blue-eye of the other photoelectric sensor is connected to the input of the fourth of the matching unit , the output of which is connected to the inputs of the read and reset pulse shapers, the output of the read impeller is connected to one of the input devices and the form output of the reset pulses Locks, to the other inputs of which the corresponding inputs of the decoder are connected, the output of each storage unit is connected with the corresponding countable-summing unit and one of the inputs of the OR or, whose input is connected to the calculating unit. .uku of the node count of the number of links of the price, and the output of one of the marking units of the node. is assigned to the alarm unit.

A luminaire with a halogen line of light is used as a light source in illumination, and light guides with illuminated squares with a rectangular shape are used in the light receivers.

FIG. 1 shows a functional circuit of the device; in fig. 2 - node construction; on fng. 3 --- section A - A in FIG. 2; Fig 4 is a view B in FIG. 2; on () ig. 5 is a view of B in FIG. 3; in fig. 6 is a view of G lia of FIG. 2; FIG. 7 - view B is turned; on (Fig. 10 is a general layout of the illuminators and light-receivers for a chain with 100 mm niaIOM, top view; Fig. 11 is view AND in Fig. 10; Fig. J2 is view K - K is turned in Fig. ten.

The device for monitoring the wear of the price of one conveyor line consists of two illuminators 2 and 3 and two photoelectric light detectors of 4 and o, and a connection with them .5 electrical circuits enclosed in a corner corus 6. The illuminators are distributed on one side of price 1 , and the light receiver is on the other side of the price in the horizontal plane, the passage passes through the irodol axis of the chain. A distance of 11 not between the axes of the dewclaws is equal to twice the value of 21 p. Plus half a half of the reduction in wear on the double Hjara A / 2. The light receiver includes, for example, three light converters (photodiode) 7 and, accordingly, three light guides 8, the illuminated nonstandings of which 9 are biased towards svetonri.mnika 4, facing to (Kvetitel 3. Svetonrii.mnik 5 contains one svetonreobrazovatellei and o.aan light guide. The number of light converters in light-refractory 4 depends on the desired amount of gradations but conditional wear degree (small, medium, large, marginal, and so on |, for which it is necessary to sort out the links that are co-controlled by the environment m. Ec .pc Wear is divided into three units kate1ch Rei - .maly, medium, prede.lN1 minutes, then it is sufficient to set two cBCTOiipnemnike svetonreobrazovatel, which would be sufficient under the control circuits with maioM 80 mm.

If sorting is required for four wear categories (small, medium, large, limiting), then it is necessary to have three light converters in the light receiver, and this number is optimal when testing circuits with iiiaiTjM 100 mm, the most common.

It is possible that in some special cases even greater accuracy may be required, for example, when using critical conveyors with a chain of 160 mm pitch, then the number of light transducers can be increased to four.

The device contains an electrical circuit in which the outputs of the light transducers 7 of the light-receivers 4 and 5 are connected respectively to the inputs of matching devices, for example, amplifiers 10-13. The outputs of the amplifiers are connected to the corresponding inputs of the decoder 14, and the output of the amplifier 13 is connected to the inputs of the pulse formers, Read 15 and Reset 16. The output of the pulse shaper, Read 15 is connected to one of the inputs of the decoder 14, and the output of the pulse shaper, Reset 16 is connected to the inputs “Reset storage devices 17-20, the other inputs of which are connected respectively to the outputs of the decoder 14, and the outputs of the storage devices are connected to the corresponding inputs of the preamplifiers 21-24, the outputs of which are connected to input Odes showing counting devices 25-

28. Memory outputs are also connected to the inputs of a logic circuit OR

29, the output of which is connected via the preamplifier 30 to the input of the indicating counting-summing device 31, counting the total number of chain links passing through the device. You move the storage device 20, which registers extremely worn chain links, is connected through preamplifiers 32 and 33 with sound 34 and light 35 signaling devices.

In the electrical circuit, photodiodes FD-155K are used as light converters as matching devices (usi; 1 locators) of K140UD1A microcircuit; K155LAZ and K155LA1 microcircuits are used as decimator. K155TM5 microcircuits are used as memory devices, and K155TL1 microcircuits are used as read and reset pulse shapers. The OR circuit is performed on a K155LRZ chip. Electric meters and pulses of type SI-15, for example, with preliminary amplification of input signals, were used as indicating counters. The buzzer is made on the signal type C34, and light - on the lamp type PH, similar to that used in illuminators 2 and 3.

The lighters 2 and 3 and the light-receivers 4 and 5 are fixed on the bracket 36, which is mounted on the running path of the conveyor 37 (Fig. 2-4). The electronic unit 6 is fixed on the same bracket, on the front panel of which are electric meters of the number of chain links with low wear 25, average wear 26, heavy wear 27, marginal (emergency) wear 28 and a meter

31, Grossing general co.) I ;;;; walking through the device links luriin. The front panel ll.i is also audible 34 and the light 35 of the alarm indicators of the operation of the counter 28.

The lighters 2 and 3 (fig. 5) contain .laMpu 38 with a straight filament 39, a lens 40 and a light signal. 41. The distance between the filament filament 39 and volume |;: 40 more than its focal length — which ensures getting for a piece: i .:, .i, of a valid image of a filament on a sheet. The distance between the lamp and the lens can be adjusted with the help of the threaded sleeve 42.

The light fixtures 4 and 5 are shown in fig. 6-9. The light receiver 5 (Fig. 9) contains one light transducer (photodiode) 7, a light guide 8 and a light filter 43. The light receiver 4 (Fig. 6) contains three light transducers (photodiode) 7, the same light guide 8 and the light filter 44. Reflector surfaces of light guides 9 run; in the form of elongated rectangles (Fig. 7), oriented with the long side napa. Externally to the longitudinal axis of the filament 39 of the illuminator lamp. Filaments in illuminators are mounted vertically. Such a mutual orientation of illuminated areas of light guides and filaments of lamps of illuminators improves the accuracy of measuring the amount of wear on the circuit and makes it possible to reduce mopshch, incandescent chips. The illuminated surfaces of the light guides 9, which are derived on the working platform of the electronic receiver 4, are closer and are separated by gaskets 45 (Fig. 6 and 7), and the total area of the ends of the gaskets and the illuminated areas of the optical fibers is approximately equal to the area of the projection of the glow wire on the working platform of the light receiving element. The light guides 8 have a shape that provides the concentration of light on a photoconverter (Fig. 8).

In the general layout of the illuminators and light detectors in the device (Figs. 10-12), the dimensions in mm are given for the most common circuit with a pitch of 100 mm, an I-50-2 lens with a focal length of 50 mm n of the height of the filament in an electric lamp PH type equal to 10 mm. The lighter 2 is positioned so that the actual image in the filament 39 of the lamp entering it is located in the vertical plane passing through the longitudinal axis of the conveyor chain, which gives

this plane is the minimum possible NP1rina of the light beam, equal to 0.5-1 mm (Fig. 12). The illuminator 3 is positioned so that the actual image from the filament of the lamp is located behind the axis of the chain 1. The width of the projection of the filament D (Fig. 10 and 12) is equal to the tolerance on the wear of two chain links. The distance between the axes of the illuminators 2 and 3 is a 2t + - | -, i.e. 204 mm in the case of using a device for measuring the wear of a chain with a step of 100 mm. When the conveyor operates, the chain moves, while its hinges wear out under relative rotations under load and its double pitch gradually increases to a certain value, limited by a predetermined tolerance, which is usually 4% of the double pitch of the chain. To assess the state of the chain and predict its future behavior, service personnel need information about the quantities of links with low, medium, large, and extreme (emergency) wear. The links with maximum wear must, according to the rules of operation of conveyors, be removed from the chain and replaced with new ones. The device is installed on the conveyor section where the chain tension is not less than 2000 N (200 kg), it is desirable that this section be horizontal. The device is switched on periodically, as a rule, for the time during which the chain makes one revolution on the conveyor. When the conveyor chain 1 moves, its internal links, which are located one behind the other, interact with light beams emanating from illuminators 2 and 3. At the moment when the head of the internal link crosses the actual image in the filament of the illuminator lamp 2, which has small widths (0.5-1 mm), the electrical signal from the light transducer 7 located in the light receiver 5 almost instantly disappears, and the narrow vertically located working surface of the light also facilitates the fast disappearance of the signal oestrus 8. At the same time the light beam crossing, outgoing from the illuminating head end 3 ahead going disposed adjacent inner chain link differs depending on the kind of wear units have chain extending currently through the device. The projection D of the filament of the lamp of the illuminator 3 to the vertical plane passing through the axis of the chain has a width equal to the wear tolerance of the double pin, which for the circuit we are considering with a step of 100 mm has a width of 8 mm, and for other common sizes of chains within 6.4-12.8 mm. The more wear and tear of the links controlled by the device, the greater the light spot with a width d with the end of the inner link closed and, accordingly, the greater the number of light guides of the light-receiving device 4 darkened. At the moment of disappearance of the signal coming from the light-transducer located in the light-receiver 5, the electrical circuit, located in housing 6, checks for signals from light converters located in light receiver 4. Unworn chain links or links with low wear m corresponds to receipt of signals from all the light-svetopreobrazovateley 4 (FIG. 12), the overlap (darkening) of one svetopreobrazovatel (FIG. 1) receives signals from the two remaining lit svetopreobrazovateley that corresponds to the average wear. If two light converters turned out to be darkened, and only one were illuminated, this would correspond to great wear. And if all three light converters turned out to be darkened, then the wiring diagram would generate a signal corresponding to the extremely worn links passing through the device. When the light transducer 7, located in the light receiver 5, darkens, its electrical signal is amplified by amplifier 13, the output of which triggers the pulse generator "Reset 16, which, with its output pulse, resets the outputs of the storage devices 17-20 to the" O "state, thereby preparing the circuits storage devices to receive information. The output signal of the amplifier 13 also starts with a certain delay determined by the design parameters of the applied electronic devices, the read pulse driver 15. In a particular device, the delay lies within 0.5-1 µs and practically does not affect the measurement accuracy of the moving circuit. The output pulse is read from the driver 15 to the control input of the decoder 14, which results in decryption of the input signals of the decoder coming from amplifiers 10-12, whose inputs are connected to the outputs of the light transducers 7 of the light-receiver 4. When a decoder 14 arrives at the Matching pulse at one of its four outputs, a signal appears depending on the combination of signals received from amplifiers 10-12 at the inputs of the decoder at that time. The pulse duration is chosen to be small so that the conveyor chain during the duration of this pulse passes as little as possible. In this case, the pulse duration is chosen equal to 1 ISS, which introduces an error in the measurement. equal to a few hundredths of a millimeter mm with a scoop „„ - .. -, „„ l „- л.,„ „.,„ „„., „;, os.,; .. ,,, growth of a conveyor chain, equal to 25. m / min, i.e., a fairly large l with - Yu -Tk-Uk jC2il5.-n A-). UDgg gpU, 4Z-1U MM, where US is the path traveled by the conveyor chain, mm; pulse duration "Read, µs; VK-speed conveyor chain,. M /. Min.

25 26 27 28 31 35

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View 5

3 rzr / 42 38

сrig.5 / 39 (rig. 6 View D C5 5 View E rotated FIG. 7 View) To rotated

FIG. ten

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11

Claims (2)

1. DEVICE FOR CONTROL OF WEAR OF A CHAIN OF A SUSPENDED CONVEYOR, comprising light sources, photoelectric sensors and a signal processing unit, characterized in that, in order to increase the accuracy of control, the light sources are spaced from each other at a distance equal to a double pitch of the chain and half the allowance for wear of two links, the light detector of the first photoelectric sensor is made in the form of several light converters, for example three, whose light-receiving platforms are oriented so that their rectangular projections on the vertical the plane passing through the longitudinal axis of the chain is located along the chain, the width of the light beam passing through the chain and incident on the light detector of the first photoelectric sensor is equal to the tolerance for wear of two links of the chain, and the width of the cross section of the light beam of the other light receiver is less than the tolerance of the nose of two links of the chain, and the signal processing unit is made in the form of pulse formers of read and reset pulses, a decoder, matching blocks, memory blocks, blocks of intermediate amplifiers, signaling block, element and OR of counting-emitting units, while the outputs of the light detectors of the first photoelectric sensor are connected to the inputs of the first three matching (units whose outputs are connected to the corresponding inputs of the decoder, and the output of the light receiver of another photoelectric sensor is connected to the input of the fourth matching unit, the output of which is connected to the inputs pulse shapers counting 1! 1 n reset, the output of the pulse shaper read is connected. to one of the inputs of the decoder, those output of the shaper and "pulse pulses - the “Reset” inputs of memory blocks, to the other inputs of which the corresponding outputs of the decoder are connected, the output of each memory block is connected to a corresponding counting-and-emitting block and one of the inputs of the OR element, the output of which is connected to a counting-emitting block of counting the total number circuit, and the output of one of the storage units is connected to the alarm unit. 2. The device according to π. 1. characterized in that. that a straight filament lamp is used as a light source in illuminators, and light guides and illuminated rectangular areas are used in light receivers.