前苏联专利SU1642961A3 Device for the weight feed of granulated or powdered material

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专利摘要:
Apparatus for the weighted dosing in line and continuously of a granular or pulverulent product. It comprises continuous separated bands for the extraction and the dosing, wherein all of the dosing band is weighted and the rate of the extraction apparatus is servo-controlled to the instant measurement value of the charge of the product distributed on the dosing band, and comprises: a) a storage hopper (2) for the product to be dosed (1) under which there is arranged a continuous extraction band (3) of which one of the support drums (5A, 5B) is susceptible of being driven at variable speed by a motor reducing assembly (4), b) a dosing unit (8) arranged under and in line with the extraction band to receive the extracted product, and comprised of a tee-shaped fixed support frame (9) provided at its extremities with posts (10A - 10B - 10C) supporting three strain gauge flexion balances (11A - 11B - 11C) to which is entirely suspended by means of flexible cables (12A - 12B - 12C), an extra light tubular structure (13) and of an endless belt (15) of which the rollers (14A - 14B) are supported by the structure and of which one of the rollers (14A) is acceptable of being driven at variable speed by a motor reducing unit (16). The dosing apparatus also comprises an electronic regulation chain F1-F2 between the motor reducing unit driving the belt of the doser and the motor reducing unit of the extraction apparatus which is such that the drive speed of the extraction belt is servo-controlled to the instant load of the doser belt. Application to the industry of fertilizers.
公开号:SU1642961A3
申请号:SU874202070
申请日:1987-02-19
公开日:1991-04-15
发明作者:Сише Жан-Люк
申请人:Сосьете Шимик Де Шарбонаж С.А. (Фирма)；
IPC主号:

专利说明:

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(21) 4202070/10
(86) PCT / FR 86/00211 (06/19/86)
(22) .87 (31) 8509406 Ј.32) 06/20/85
(33) FR (46) 04/15/91. Bul Number 14
(71) Societe Simick de Sharbonazh S.A. (FR)
(72) Jean-Luc Sichet (FR)
(53) 681.269 (088.8)
(56) USSR Copyright Certificate No. 792081, EL G 01 G 11/14, 1979.
(54) DEVICE FOR WEIGHT DOSAGE OF GRANULAR OR POWDERED MATERIAL
(57) The invention relates to devices for continuous weight dosing of granular or powdered material and allows for improved / dosing accuracy. The device contains continuous separate tapes for extraction and for dosing, while the tape dispenser 14 is weighed and the speed of the extractor 2 tape is automatically adjusted depending on from the instantaneous result of measuring the load of the material distributed on the dispenser tape 14 by means of an electronic adjustment circuit between the engine-reducer unit 15 of the dispenser and the bl the eye of the engine-reducer 3 extractor. 4 yl
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The invention relates to an improved device capable of providing with high precision continuous and continuous weight dosage or mixing of several granulated or powdered materials, such as potassium chloride, sugar, cement, phosphate, granules and
T.D.
The purpose of the invention is to improve the dosage accuracy.
Figure 1 shows the mechanical portion of the weight dosage, side view; 2 and 3, the dispenser itself, respectively, front and top views in FIG. 4 is a block diagram of a control device for a weight continuous dosage device.
The device for weighing dosing contains a storage bin 1 with a dosing material, under which a belt extractor 2 is located, the endless band of which is driven by a motor with a DC gearbox 3 with a multilayer winding equipped with a speed sensor FOR speed. Tape extractor 2 is supported on the drive and tension drums 4A, 4B. The drum 4A is connected to the engine gearbox 3. At the end of the belt extractor 2 there is a manual or automatic control cap 5 for adjusting the height of the layer of material carried out of the storage bin 1 by the tape extractor 2.
There is a row of chains 6 across the tape, just before the material falls from the extractor 2. These chains 6, which form a kind of cross curtain, are designed to average the consumption and shredding of the material in order to reduce the effect of falling on the unit of its own tape dispenser 7, which is located under tape extractor 2 and in line with it.
The tape metering device 7 (Figures 2 and 3) consists of a fixed support frame 8 in the shape of T, equipped at its ends with three racks 9A, 9B, 9C, on which three flexion weights 10A, 10B, JC with voltage sensors are located, 1 1A, 11B, PS equipped with flexible mounts, to which a light tubular frame 12 is fastened on top. The latter serves as a support for
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reels 13A, 13B of an endless conveyor belt 14, which drives a variable speed using a gear motor 15 of another current with a multilayer winding and equipped with a speed sensor 15A. Drum 13A is associated with a gearmotor 15.
In order to precisely limit the weight measuring section, the discharge plate 16 is mounted on the rear of the tubular frame 12, which is under the extractor tape 2, to receive the material dropped by this tape, and at the outlet of the tape 14 of the dispenser 7 a transverse curtain of chains 17 is installed for grinding material in the same place and dumping it along arrow G to collecting conveyor I8 for further processing. In addition, the tape 14 of the dispenser 7 slides along a series of supporting self-sliding links 19, inclined upward, which lifts the edges of the tape 14 of the dispenser along the entire part where weighing takes place.
The speed at which the extractor ribbon 2 is driven is automatically controlled by its gearing motor 3 depending on the instantaneous result of measuring the load of the material using the Ff-Fg adjustment circuit shown in Fig. 1 so that if the instantaneous measurement of the load of the material distributed on the tape 14 of the dispenser 7, does not correspond to the predetermined value, the speed of the tape of the extractor 2 is automatically changed up or down to maintain a constant load of the material, regardless of the programmed mmirovannoy value of the flow meter.
The Fj-Fg с ° adjustment circuit holds the following blocks: two blocks 20A, 20B of speed change, four digital indicators 21A, 21B, 21C, 2 ID, keyboard 22, weight sensor 23, first digital computing device 24, weight controller 25 with second the digital computing device and the mechanism 16 for giving commands and the alarm control circuit 27. At that, the support frame 8 is connected to the weight sensor 23, the sensors FOR the engine speed of the reducer 3 are connected to the extractor speed adjustment unit 20A, the first KOI output
Secondly, it is connected to the engine inlet of the reducer 3 of the extractor 2, and the sensor 15A of the engine speed of the gearbox 15 of the dispenser 7 is connected to the first input of the block 20B of the speed regulator of the dispenser 7, the output of which is connected to the input of the engine of the gearbox 15 of the dispenser 7. Sensor 23 weights made in the form of three flexion weights
10А, 10В, JUS with voltage sensors
The first computing device 24 is connected respectively with its first and second inputs with the keyboard 22 and the first indicator 21A, and the output with the second input of the speed control unit 20B of the dispenser 7 and the second indicator 21B, and the weight controller 25 with its first input with a weight sensor 23, a second input with a speed sensor 15A, and with its three outputs, respectively, with a second input of the speed regulator block 20A of the extractor 2, the third 21C and the fourth 2 ID and the indicator
The device works as follows.
The tape 14 of the dispenser 7, which receives material from the tape extractor 2, carries this material to the output, continuously providing instant total weighing by the weight sensor 23 using weights 10A 10B, 1 OC and at a strictly defined length.
The dispenser belt 14 is driven by the gearmotor 15 at a certain speed corresponding to the programmed 4th flow rate.
Referring to Fig. 4, a Fi-F adjustment circuit for automatically adjusting the speed of the extractor 2 tape, depending on the result of instantaneous measurement of the load on the dispenser tape 14, is adjusted so that the material load on the tape remains constant regardless of the programmed dispenser flow. the part is formed from three adjustment circuits connected in a loop with feedback between them, and from two digital calculating devices with auxiliary equipment
The adjustment unit contains: a belt speed regulating circuit 14 of the tape metering device 7, a chain of regulators
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ki weights and chain of adjustment of the speed tape belt extractor 2
The first circuit allows you to adjust (with an accuracy of 1/1000} the linear t speed of the tape 14 of the tape dispenser 7 depending on the reference value of the programmed dispenser flow. This reference value of the programmed flow of the dispenser is displayed (t / h) on the digital indicator 21B and is the result of counting produced on the basis of two signals, namely: the signal of the total reference value of the metering unit block, this digital signal (t / h) coming from the keypad 22; the signal coming from the metering device in question, which is the coefficient of proportionality and constitutes the actual reference value of this last, expressed in kg / t of the final product, and this signal is produced by the coding wheels and is displayed on the 21A switch.
These two signals are fed to the inputs of the first digital computing device 24 that performs the operation: total reference value (t / h) x x proportionality coefficient corresponding to the given dosing unit (kg / t) reference value of the programmed flow rate (kg / h).
An exemplary dosage unit was used with a total reference value of 32 t / h and with a reference value for a dispenser of 110 kg / t, which corresponds to a reference value of the programmed flow rate of 3520 kg / h
This reference value of the programmed flow, on the one hand, is displayed on the digital indicator 21B, and on the other hand, controls the device 20B for changing the speed of the gearmotor 15 of the tape metering device 7.
The regulator of this speed change device continuously maintains the stability of the speed of the motor-reducer 15 and of the drum 1 of the belt metering device 7, comparing the reference value of the programmed flow rate on the 21 V indicator with the actual speed measurement result produced by the speed reducer 15 ,
The second weight adjustment circuit allows you to adjust and precisely maintain the constant load of the material on the metering unit regardless of the programmed flow rate, i.e. regardless of the speed of the dispenser tape. For this purpose, a weight regulator 25 is provided, which has a pre-programmed internal reference value. In addition, an instantaneous actual result of measuring the weight on the dispenser coming from the signal of three voltage sensors 10A, 10B and JC connected in parallel, is amplified and filtered by a weight sensor 23 and fed to a weight regulator 25 with a preprogrammed but programmed reference value.
When the deviation between this reference value and the actual instantaneous result of measuring the weight on the metering unit coming from the weight sensor 23 is not zero, the regulator sends a positive or negative correction signal to the gearbox speed change device 20A 3 and drum 4A of the tape extractor tape 2, which increases or decreases the flow of material to the dispenser to reduce to zero the weight deviation
Note that when the dispenser is empty, when started, the output of this regulator is suppressed by a signal from the generator of a linearly varying function, which results in a consistent and uniform loading of the dispenser, and when the weight on the dispenser corresponds to the preprogrammed internal reference value, the regulator the torus returns to operation and maintains a constant weight on the dispenser
The third circuit for adjusting the speed of the extractor belt allows the linear speed of the extractor 2 tape to be adjusted with great precision, depending on the correction signal given by the weight regulator 25. To this end, the weight regulator 25 generates positive or negative corrective single impulses at the output is mixed with the reference signal of the programmed metering flow rate of the first circuit. The signal received as a result of mixing serves as a reference
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the value for the device 20A of changing the speed of the engine block of the reducer 3 of the tape extractor 2,
The controller for this speed change device continuously adjusts the speed of the extractor engine, comparing this reference correction value with the actual speed measurement coming from the speed sensor installed in the engine-reducer unit 3.
The second computing device, built into the weight controller 25, aims to calculate such a function: the actual instantaneous consumption of deist-1diennaic instantaneous weight on the dispenser is the actual instantaneous value of the speed of the dispenser tape. For this purpose, the weight data comes from the weight sensor 23 and is fed to one of the inputs of the computing device of the controller 25, while the speed data coming from the speed sensor J5A installed on the motor-reducer 15 of the tape drive 14 of the dispenser 7 comes in digitally coded form and fed to another input of the computing device
The result of calculating the instantaneous actual flow rate is directly indicated on the digital indicator 21C. Next, it is possible to immediately check the good operation of the metering unit by comparing the readings of the two devices: the reference flow rate indicator 21 and the actual instantaneous flow indicator 21C (these readings must be identical during normal operation).
This computing device in the weight controller 25 also allows for the calculation and control of alarms using two electronic controllers.
To calculate, the output linear signal of the actual instantaneous flow rate is converted into a pulse proportional signal, which allows to obtain a signal that meets the requirements, i.e. one impulse per unit of material processed, such as one impulse per 100 g or an impulse per 1 kg, etc. The resulting adapted signal is then computed and stored in digital indicator 2 ID, which makes it possible to know the amount of past material.
For alarm control, the actual instantaneous flow rate signal is compared with the flow rate signal 6 on the meter indicator 21B. If the signal exceeds one of these thresholds, the control circuit 27 turns on the light and / or sound alarms for a predetermined period of time and, after a longer period of time, another interrupt control relay for the common reference value of the metering unit

权利要求:
Claims (1)
[1]
Corresponding commands may be submitted as a second computing device of the weight regulator 22 to the command sending mechanism 26 Formula of the invention
A device for weighing granular or powdered material that contains a storage bin for the material being dispensed, a belt extractor located beneath it, one of the supporting drums of which is connected to a single motor ™ gearbox, a tape metering device, one of the drums of which connected to another gearbox engine, located under the belt extr ™ of the ractor in one line with it and made with a fixed support frame connected to the weight sensor, the speed sensor of the engine reducer is extra torus, connected with its output to the extractor belt speed adjustment unit, the first output of which is connected to the engine inlet of the extractor gearbox, and the motor speed sensor
64296110
a gate-reducer a metering device, connected by its output to the first input of a tape speed regulator block, the output of which is connected to the motor input of the metering gear, is so that, in order to improve the accuracy, the first digital computing device
JQ unit, a weight controller with a second computing device and an alarm control circuit, four digital indicators and a keyboard, a weight sensor in the form of three
t5 flexion scales with voltage sensors, and the frame is made T-shaped with stands at the ends and an ultra-light tubular frame on which the drums of the tape metering device are fixed,
20 wherein the tubular frame is suspended by means of flexible cables to the weight sensors with voltage sensors mounted on racks, the first computing device is associated with
2S is responsible for its first and second inputs with a keyboard and the first indicator, and the output with the second input of the tape speed regulator and the second indicator, and the
The weight drum 30 is connected to the weight sensor by its first input, the second input is connected to the metering speed sensor, and its three outputs are connected respectively to the second input of the extractor belt speed adjustment unit, the third indicator and the fourth indicator
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类似技术:

公开号 | 公开日 | 专利标题

SU1642961A3|1991-04-15|Device for the weight feed of granulated or powdered material

US4320855A|1982-03-23|Weigh feeding apparatus

US4418773A|1983-12-06|Conveyor calibration technique

US4111272A|1978-09-05|Weigh feeding apparatus

USRE32101E|1986-04-01|Weigh feeding apparatus

RU2086931C1|1997-08-10|Method for recording product flow and device for effecting the same

US3679010A|1972-07-25|Digitally controlled mass flow feeder and weight integrator

US3494507A|1970-02-10|Metering apparatus

USRE32102E|1986-04-01|Weigh feeding apparatus

US4301510A|1981-11-17|Weigh feeder system

US4475669A|1984-10-09|Non-flooding belt feeder

US2100315A|1937-11-30|Weighing feeder

US4368165A|1983-01-11|Roll press and method of regulation of the throughput of a roll press

US3786961A|1974-01-22|Set rate gravimetric feeder

JP3083861B2|2000-09-04|Method and apparatus for controlling distributed supply device

DE1549291B2|1972-09-07|DEVICE FOR ADJUSTING A WEIGHING DEVICE THAT DISPLAYS THE FEEDING CAPACITY OF A EXHAUST DEVICE

CN2090051U|1991-12-04|Bulk freight weighting weighing device

SU979875A1|1982-12-07|Weigher batcher

RU2260775C2|2005-09-20|Continuous-weight scale

SU1640183A1|1991-04-07|Device for mixture charge to agglobelt control

DE3137291A1|1983-04-14|Device for measuring the conveying capacity of a bucket elevator

SU1672220A1|1991-08-23|Apparatus for continuous volume bulk materials measurement

JPS5648331A|1981-05-01|Controlling device for quantitative delivery from hopper receiving bulk cargo

US3405842A|1968-10-15|Gravimetric belt feeder

SU723385A2|1980-03-25|Conveyer belt weigher

同族专利:

公开号 | 公开日

FI83818B|1991-05-15|

BR8602870A|1987-03-17|

GR861589B|1986-10-14|

FR2583874B1|1990-12-14|

IN166775B|1990-07-14|

CA1273493A|1990-09-04|

TR22473A|1987-07-22|

FI870701A0|1987-02-19|

DE3668240D1|1990-02-15|

FR2583874A1|1986-12-26|

FI870701A|1987-02-19|

WO1986007629A1|1986-12-31|

PT82791A|1986-07-01|

ZA864642B|1987-02-25|

YU107186A|1990-08-31|

TNSN86093A1|1990-01-01|

ES8706953A1|1987-07-01|

PT82791B|1992-07-31|

US4729442A|1988-03-08|

FI83818C|1991-08-26|

MA20714A1|1986-12-31|

EP0227724B1|1990-01-10|

EP0227724A1|1987-07-08|

JPS63500823A|1988-03-24|

ES556165A0|1987-07-01|

YU45016B|1991-06-30|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

FR787757A|1934-04-16|1935-09-28|Improvements to continuous bulk material distribution devices|

GB436658A|1934-04-16|1935-10-16|Mikael Vogel Jorgensen|Improvements relating to apparatus for continuously delivering materials in bulk|

US2637434A|1946-07-03|1953-05-05|Omega Machine Company|Belt type gravimetric feeder|

US2662665A|1946-07-03|1953-12-15|Omega Machine Company|Controlling apparatus|

CH358244A|1960-03-29|1961-11-15|Grenobloise Etude Appl|Process for feeding pulverulent or granular materials and installation for the implementation of this process|

US3162325A|1961-04-12|1964-12-22|Toledo Scale Corp|Constant rate feeder|

US3139217A|1961-07-31|1964-06-30|Trans Weigh Company|Automatic control of the flow of bulk materials on conveyors|

FR1364706A|1963-05-14|1964-06-26|S I R E L E C Soc De Rech S Et|Device for the continuous dosing of powdery or granular products|

FR2080239A5|1970-02-27|1971-11-12|Mussy|Distributor for resin impregnated ligno-cellulose particles|

US3897868A|1974-07-01|1975-08-05|Smitherm Industries|Constant rate feeder|

EP0139060A1|1983-07-29|1985-05-02|Vibra Screw Incorporated|Material feeding apparatus|US4907720A|1987-05-13|1990-03-13|Frito-Lay, Inc.|Method and apparatus for uniformly dispensing a seasoning material|

US5156224A|1990-03-10|1992-10-20|Trutzschler Gmbh & Co. Kg|Scale for continuously weighing a running fiber layer|

US5074435A|1990-06-01|1991-12-24|Don Suverkrop, Inc.|System for controlling the feed rate of a vibrating feeder|

US5184754A|1990-10-18|1993-02-09|Hansen Thomas N|Weight-controlled particulate matter feed system|

EP0556804B1|1992-02-18|1997-05-07|Japan Tobacco Inc.|An apparatus for controlling the filling amount of shredded tobacco in cigarettes|

US5547034A|1994-01-10|1996-08-20|Accu-Sort Systems, Inc.|Conveyor friction scale|

DE19536871B4|1995-10-03|2004-09-30|Maschinenfabrik Besta Gmbh & Co|Bunker discharge and feed plate conveyor with automatic weighing and dosing device for bulk goods|

DE19606601C2|1996-02-22|2000-01-27|Franz Kleine Agrartechnik Gmbh|Device for picking up root crops with at least one conveyor|

US5880407A|1996-03-29|1999-03-09|Flammang; John D.|Apparatus for dispensing materials|

US5959257A|1998-04-15|1999-09-28|Harvestmaster, Inc.|System for weighing material on a conveyor|

US6313414B1|2000-01-31|2001-11-06|Harvestmaster, Inc.|Slope and motion compensator for weighing on a dynamic platform|

US6472615B1|2000-09-08|2002-10-29|Gustafson, Llc|Bulk flow measurement system|

US6848568B1|2002-08-06|2005-02-01|Lawrence Gene Nibler|Bulk material distribution system|

CN100506399C|2006-12-30|2009-07-01|郑卫星|Speed-regulating sorting apparatus|

US9095144B1|2010-09-02|2015-08-04|General Mills, Inc.|Weighing apparatus and conveyors systems incorporating a weighing apparatus|

CN102514906B|2011-12-22|2012-11-21|江阴大地装备股份有限公司|Freight space detecting device of semi-portal type scraper|

CN103508167A|2012-06-26|2014-01-15|贵阳铝镁设计研究院有限公司|Material conveying system device|

DE102012016332B4|2012-08-20|2016-11-03|Steinert Elektromagnetbau Gmbh|Method for controlling and / or regulating a volume flow, a bulk material or bulk goods, in particular mineral bulk materials, waste materials, raw materials or materials or apparatus for carrying out the aforementioned method|

CN103727765B|2013-12-20|2016-09-14|广西地源之本肥业有限公司|Compound fertilizer granules charging drying system|

CN103727766B|2013-12-20|2016-09-14|广西地源之本肥业有限公司|Compound fertilizer granules classifying charge material drying system|

CN104541759B|2014-12-29|2016-07-27|石河子大学|Load-sensing separation conveyer belt|

CA3052235C|2017-07-21|2021-10-26|Komatsu Ltd.|Conveyance system, control apparatus, and conveyance method|

CN110207796A|2019-03-14|2019-09-06|红塔烟草有限责任公司|A kind of online metering type belted electronic balance flow control methods|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

FR8509406A|FR2583874B1|1985-06-20|1985-06-20|PROCESS FOR CONTINUOUSLY WEIGHING GRANULATED OR POWDERY PRODUCTS AND APPARATUS FOR IMPLEMENTING SAME|

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