CN205151121U - Special automatic identification count system of industrial production assembly line - Google Patents
Special automatic identification count system of industrial production assembly line Download PDFInfo
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- CN205151121U CN205151121U CN201520918033.4U CN201520918033U CN205151121U CN 205151121 U CN205151121 U CN 205151121U CN 201520918033 U CN201520918033 U CN 201520918033U CN 205151121 U CN205151121 U CN 205151121U
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- drive roll
- belt conveyor
- driven voller
- rotating speed
- electrical motor
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Abstract
The utility model discloses a special automatic identification count system of industrial production assembly line, including first conveyer belt, first driven voller, first drive roll, the first electric motors, chute, second conveyer belt, second driven voller, second drive roll, second motor, light emission ware, photoelectric converter, a speed detection appearance, the 2nd speed detection appearance and controller etc. The utility model discloses degree of automation is high, counts more accurately.
Description
Technical field
The utility model belongs to the Special Automatic identification number system of the improvement of industrial production line counting assembly structure, particularly industrial production line.
Background technology
The explanation of nouns of overlapping object, pinpoint target thing and non-counting object: the product on conveyor line, as counting object, occurs that situation that is overlapping, overlap joint is referred to as overlapping object, otherwise is called pinpoint target thing; The object that need not count is called non-counting object, and object is called counting time delay reference value T by the time that photoelectric switch is used.
Current, counting machine universal automation degree on domestic existing conveyor line is low, only be suitable for the counting operation to pinpoint target thing, and the product on some conveyor line be there will be in process of production to the situation of the overlapping object of randomness, torsional deflection irregularity object, will there is error in counting: 1, when counting object and occurring overlapping, counting machine probably counts less; 2, the situation when counting that irregularity appears in object, color and luster differs and swarm into non-counting object between adjacent counting object, counter relative there will be the technical matters by mistake gathered in photosignal, all very possible many countings, finally must cause counting inaccurate.
Utility model content
The purpose of this utility model is to provide a kind of industrial production line Special Automatic identification number system, and its degree of automation is high, counts more accurate.
The purpose of this utility model is achieved in that the Special Automatic identification number system of a kind of industrial production line, first belt conveyor of basic horizontal is to be fitted in first driven voller and first drive roll on the first drive roll with the mode that the first driven voller contacts with the first drive roll phase static friction around the first driven voller, first electrical motor is to drive the mode of the first drive roll rotation and the first drive roll phase matched together by its Power output rotating shaft, first drive roll at time rotational to connect the first driven voller through the mode of the first belt-driven first driven voller rotation by the second belt conveyor, first belt conveyor respective rings is around the geometric centre axes rotation of the first driven voller and the first drive roll time rotational separately, second belt conveyor, second driven voller and the second drive roll are all positioned at the oblique below of the first belt conveyor, second belt conveyor of basic horizontal is to be fitted in second driven voller and second drive roll on the second drive roll with the mode that the second driven voller contacts with the second drive roll phase static friction around the second driven voller, second electrical motor is to drive the mode of the second drive roll rotation to be fitted in two mutually with the second drive roll by its Power output rotating shaft, second drive roll at time rotational to connect the second driven voller through the mode of the second belt-driven second driven voller rotation by the second belt conveyor, second belt conveyor respective rings is around the geometric centre axes rotation of the second driven voller and the second drive roll time rotational separately, first belt conveyor and the second belt conveyor be arranged in parallel relative to each other, this light is converted to the photoelectric commutator of electric signal at the light from process above the second belt conveyor epipelagic zone section of pacifying set light emitters near the position of the second belt conveyor epipelagic zone section both sides respectively and can receive that light emitters sends, the throw-off end of epipelagic zone section corresponding formation on the first drive roll or the first driven voller and the chute upper end inlet point of inclination of the first belt conveyor time rotational cooperatively interact in mode close to each other, the feed end of epipelagic zone section corresponding formation on the second drive roll or the second driven voller of chute lower end discharging opening and the second belt conveyor time rotational cooperatively interacts in mode close to each other, first motor power output revolving shaft is installed with the first Rotating speed measring instrument that can detect the first drive roll rotating speed, second motor power output revolving shaft is installed with the second Rotating speed measring instrument that can detect the second drive roll rotating speed, first Rotating speed measring instrument and the second Rotating speed measring instrument by respective signal output part to carry out the signal input part of the pattern connection control device of one way communication respectively to controller, controller is connected the first electrical motor and the second electrical motor signal input part separately by its signal output part with the pattern of the first electrical motor and the second electrical motor being carried out respectively to unidirectional control simultaneously, the first drive roll rotating speed that controller detects according to the first Rotating speed measring instrument regulates the rotating speed of the first motor power output revolving shaft and the rotating speed of the second motor power output revolving shaft with the second drive roll rotating speed that the second Rotating speed measring instrument detects is corresponding respectively, so that the first electrical motor regulates the linear velocity of the first belt conveyor time rotational indirectly by the first drive roll and the second electrical motor regulates the linear velocity of the second belt conveyor time rotational indirectly by the second drive roll.
During utility model works, controller all the time according to the rotating speed of the first drive roll and the second drive roll in real time respectively corresponding regulate and control the rotating speed of the first electrical motor and the second electrical motor, make the rotating speed of the second electrical motor higher than the rotating speed of the first electrical motor, then guarantee second belt conveyor running time linear velocity corresponding be greater than first belt conveyor running time linear velocity (generally, the twice of linear velocity when linear velocity during the second belt conveyor running is the first belt conveyor running substantially), when by the count enable product of the first conveyor belt carrying through chute to when slipping down on the second driving band, originally will be ordered about by the moment of inertia of the second belt conveyor after falling on the second belt conveyor and before close to light emitters towards the partially or completely overlapping each other count enable product of the projection perpendicular to the first belt conveyor linear velocity direction and arrange successively along the second belt conveyor linear velocity direction one by one, when count enable product, by the second conveyor belt carrying, close to during light emitters, it also just obviously separately can not overlap each other naturally completely towards the projection perpendicular to the second belt conveyor linear velocity direction.Therefore, the utility model degree of automation is high, counts more accurate.
Accompanying drawing explanation
Fig. 1 be the utility model local look squarely (perspective) structural representation;
Fig. 2 is the plan structure schematic diagram of the utility model local.
Detailed description of the invention
The Special Automatic identification number system of a kind of industrial production line, as Fig. 1, shown in Fig. 2, first belt conveyor 1 of basic horizontal is to be fitted in first driven voller and first drive roll 4 on the first drive roll 4 with the mode that the first driven voller contacts with the first drive roll 4 phase static friction around the first driven voller (not shown), first electrical motor 2 is to drive the mode of the first drive roll 4 rotation and the first drive roll 4 phase matched together by its Power output rotating shaft, first drive roll 4 at time rotational to drive the mode of the first driven voller rotation to connect the first driven voller by the second belt conveyor 1 through the first belt conveyor 1, first belt conveyor 1 respective rings is around the geometric centre axes rotation of the first driven voller and the first drive roll 4 time rotational separately, second belt conveyor 10, second driven voller 12 and the second drive roll 9 are all positioned at the oblique below of the first belt conveyor 1, second belt conveyor 10 of basic horizontal is to be fitted in second driven voller 12 and second drive roll 9 on the second drive roll 9 with the mode that the second driven voller 12 contacts with the second drive roll 9 phase static friction around the second driven voller 12, second electrical motor 7 is fitted in two to be driven the mode of the second drive roll 9 rotation by its Power output rotating shaft mutually with the second drive roll 9, second drive roll 9 connects second driven voller 12 to drive the mode of the second driven voller 12 rotation through the second belt conveyor 10 by the second belt conveyor 10 at time rotational, second belt conveyor 10 respective rings is around the geometric centre axes rotation of the second driven voller 12 and the second drive roll 9 time rotational separately, first belt conveyor 1 and the second belt conveyor 10 be arranged in parallel relative to each other, this light is converted to the photoelectric commutator 13 of electric signal at the light from process above the second belt conveyor 10 epipelagic zone section of pacifying set light emitters 11 near the position of the second belt conveyor 10 epipelagic zone section both sides respectively and can receive that light emitters 11 sends, the throw-off end of epipelagic zone section corresponding formation on the first drive roll 4 or the first driven voller and the chute 5 upper end inlet point of inclination of the first belt conveyor 1 time rotational cooperatively interact in mode close to each other, the feed end of epipelagic zone section corresponding formation on the second drive roll 9 or the second driven voller 12 of chute 5 lower end discharging opening and the second belt conveyor 10 time rotational cooperatively interacts in mode close to each other, first electrical motor 2 Power output rotating shaft is installed with the first Rotating speed measring instrument 3 that can detect the first drive roll 4 rotating speed, second electrical motor 7 Power output rotating shaft is installed with the second Rotating speed measring instrument 8 that can detect the second drive roll 9 rotating speed, first Rotating speed measring instrument 3 and the second Rotating speed measring instrument 8 by respective signal output part to carry out the signal input part of the pattern connection control device 6 of one way communication respectively to controller 6, controller 6 is connected the first electrical motor 2 and the respective signal input part of the second electrical motor 7 by its signal output part with the pattern of the first electrical motor 2 and the second electrical motor 7 being carried out respectively to unidirectional control simultaneously, the first drive roll 4 rotating speed that controller 6 detects according to the first Rotating speed measring instrument 3 regulates the rotating speed of the first electrical motor 2 Power output rotating shaft and the rotating speed of the second electrical motor 7 Power output rotating shaft with the second drive roll 9 rotating speed that the second Rotating speed measring instrument 8 detects is corresponding respectively, so that the first electrical motor 2 regulates the linear velocity of the first belt conveyor 1 time rotational indirectly by the first drive roll 4 and the second electrical motor 7 regulates the linear velocity of the second belt conveyor 10 time rotational indirectly by the second drive roll 9.
Claims (1)
1. the Special Automatic identification number system of industrial production line, first belt conveyor (1) of basic horizontal is to be fitted in first driven voller and first drive roll (4) on the first drive roll (4) with the mode that the first driven voller contacts with the first drive roll (4) phase static friction around the first driven voller, first electrical motor (2) is to drive the mode of the first drive roll (4) rotation and the first drive roll (4) phase matched together by its Power output rotating shaft, first drive roll (4) at time rotational to drive the mode of the first driven voller rotation to connect the first driven voller by the second belt conveyor (1) through the first belt conveyor (1), first belt conveyor (1) respective rings is around the geometric centre axes rotation of the first driven voller and the first drive roll (4) time rotational separately, second belt conveyor (10), second driven voller (12) and the second drive roll (9) are all positioned at the oblique below of the first belt conveyor (1), second belt conveyor (10) of basic horizontal is to be fitted in second driven voller (12) with second drive roll (9) on the second drive roll (9) with the mode that the second driven voller (12) contacts with the second drive roll (9) phase static friction around the second driven voller (12), second electrical motor (7) is to drive the mode of the second drive roll (9) rotation to be fitted in two mutually with the second drive roll (9) by its Power output rotating shaft, second drive roll (9) connects second driven voller (12) to drive the mode of the second driven voller (12) rotation through the second belt conveyor (10) by the second belt conveyor (10) at time rotational, second belt conveyor (10) respective rings is around the geometric centre axes rotation of the respective time rotational of the second driven voller (12) and the second drive roll (9), first belt conveyor (1) and the second belt conveyor (10) be arranged in parallel relative to each other, this light is converted to the photoelectric commutator (13) of electric signal at the light from process above the second belt conveyor (10) epipelagic zone section of pacifying set light emitters (11) respectively near the position of the second belt conveyor (10) epipelagic zone section both sides and can receive that light emitters (11) sends, the throw-off end of epipelagic zone section corresponding formation on the first drive roll (4) or the first driven voller of the first belt conveyor (1) time rotational and chute (5) the upper end inlet point of inclination cooperatively interact in mode close to each other, the epipelagic zone section of chute (5) lower end discharging opening and the second belt conveyor (10) time rotational cooperatively interacts in mode close to each other at the feed end of the second drive roll (9) or the upper corresponding formation of the second driven voller (12), it is characterized in that: the first Rotating speed measring instrument (3) that can detect the first drive roll (4) rotating speed is installed in the first electrical motor (2) Power output rotating shaft, second electrical motor (7) Power output rotating shaft is installed with the second Rotating speed measring instrument (8) that can detect the second drive roll (9) rotating speed, first Rotating speed measring instrument (3) and the second Rotating speed measring instrument (8) by respective signal output part to carry out the signal input part of the pattern connection control device (6) of one way communication respectively to controller (6), controller (6) is connected the first electrical motor (2) signal input part respective with the second electrical motor (7) by its signal output part with the pattern of the first electrical motor (2) and the second electrical motor (7) being carried out respectively to unidirectional control simultaneously, controller (6) regulates the rotating speed of the first electrical motor (2) Power output rotating shaft and the rotating speed of the second electrical motor (7) Power output rotating shaft according to the first Rotating speed measring instrument (3) the first drive roll (4) rotating speed detected and the second drive roll (9) rotating speed that the second Rotating speed measring instrument (8) detects are corresponding respectively, so that the first electrical motor (2) regulates the linear velocity of the first belt conveyor (1) time rotational indirectly by the first drive roll (4) and the second electrical motor (7) regulates the linear velocity of the second belt conveyor (10) time rotational indirectly by the second drive roll (9).
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CN201520918033.4U CN205151121U (en) | 2015-11-17 | 2015-11-17 | Special automatic identification count system of industrial production assembly line |
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CN201520918033.4U CN205151121U (en) | 2015-11-17 | 2015-11-17 | Special automatic identification count system of industrial production assembly line |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109399068A (en) * | 2018-10-26 | 2019-03-01 | 绵阳市伯夏科技有限公司 | Fluorescent tube automation arranges conveying device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109399068A (en) * | 2018-10-26 | 2019-03-01 | 绵阳市伯夏科技有限公司 | Fluorescent tube automation arranges conveying device |
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