SU792083A1 - Apparatus for determining weigh netto of moving object - Google Patents

Description

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The invention relates to the field of weighing equipment, in particular to devices for determining the mass of moving objects.

A device is known for determining the mass of a load, containing an encoding device installed on an object whose mass is being measured, coded data on the tare weight, a memory block and a computing unit associated with the gross mass sensor 1.

This device does not provide a determination of the net mass directly in motion, since they first determine the gross mass, then the maize container, and then the net mass is calculated.

The closest in technical essence and achievable result is a device for determining the mass of a not-20 mobile object, containing a code device attached to the object and a tare-weight input unit with a code reader and sync pulses and 25 OR elements, a load-receiving platform with force measuring sensor connected to an analog-c: front-side converter, the outputs of which are connected to the shift register register, connection-30

unworn with a control unit having connections with tare-weight input units, s; analog-digital converter, subtractor and ontrol circuit, 2.

The disadvantage of the prototype lies in the fact that during maneuvers of an object in the zone of the measuring point, the correct reading of the tare mass is not ensured and, thus, the accuracy of the measurement decreases.

The purpose of the invention is to improve the measurement accuracy during object maneuvers in the area of the measurement point.

Claims (2)

The goal is achieved in that the tare mass input unit is equipped with an object direction analyzer, a selector and a reversible shift register, the first input of the motion direction analyzer is connected to a code reader, its second and third inputs and outputs of the selector are connected to the outputs of readers of clock pulses, and the analyzer outputs the directions of motion are connected to opposite inputs of the reverse shift register, to the shift inputs of which two selector outputs are connected, and to the synchronization output The output of the PI element is connected, the first input of which is connected to the third output of the selector, and the second input of the OR element is connected in parallel with the synchronizer input of the subtractor shift register to the output of the control unit, the npHieM control circuit is outputted as a switch with a code comparison circuit and a driver “Control numbers, while the information inputs of the switch are connected respectively to the outputs of the two extreme decades of the reverse shift register and to the lower decade of the subtractor shift register, and the control inputs; the switch is connected to two outputs of the selector and the output of the control unit. In addition, in the described device, the driver of the signals and the control numbers are made in the form of two counters, an error generator with the recorder, a cycle generator, the 2I-OR element and a pulse generator, the counting input of the first 4KLA element, the inputs of one circuit And which are associated respectively with the output of the OR element and with the zero output of the first trigger of the second counter, the inputs of another circuit AND element II-OR are connected to the pulse generator and to the ordinary one: the output of the first trigger of the second account The single output of the first trigger of the second counter is also connected to the zero setting circuit of the first and second counter triggers, the unit outputs of which are connected to the counting input of the second counter, and the parallel outputs of the control numbers of the first counter are connected to the inputs of the error generator and the comparison circuit, the output of which is connected to the input of the zero setting of the first counter and the input of the zero setting of the first three ger of the second counter, the single outputs of the remaining triggers of which are connected to the loop former, output which is connected to the zero setting circuit of these triggers and to the control unit. The drawing shows a block diagram of the proposed device. contains object 1 with fixture 2 fixed on it, unit 3 for inputting tare mass of object 1 with sources 4-6 of light, readers 7 of code, readers 8 and 9 clock pulses, analyzer 10 of direction of movement selector 11, element OR 12 and reversing register 13 shift, load-receiving platform 14 with a force-measuring sensor 15 connected to analog-digital converter 16, subtractor 17 with shift register 18, control unit 19 having communication circuits 20-25, control circuit 26 with switch 27, comparison circuit 28 and driver 29 signals and con GOVERNMENTAL role numbers having 2I-OR element 30, the counter 31 generating a reference number, the counter 32 decades, the generator 33 pulses 34, the error generator 34, the cycle generator 35 and recorder 36. The device operates as follows. When the object 1 moves from the code adaptation 2 attached to it, it is attached. sources 4–6 of the light and readers 7–9 of the block are counted together with values of the tare mass of the object. The reader 7 of the code forms the information signals of the tare mass, and the readers 8 and 9 - the sync pulses. At the same time, signals from reader 7 are sent to the first input of the analyzer 10, no movement, and from readers 8 and 9, respectively, to the second and third inputs of the analyzer 10 and ifla, the corresponding inputs of pulse selector 11. To determine the direction of movement of the object 1, the sync pulses are applied to the inputs of the selector 11 shifted relative to each other. At the output of the selector 11, signals appear only on one of the two controllers or depending on the direction of movement of the object 1. These signals go to the corresponding resolution inputs shift left-right reverse register 13 shift. At the third output of the selector 11, the clock pulses appear regardless of the direction of movement of the object 1 and through one of the inputs of the LII element 12 is fed to the synchronization input of the register 13. At one of the outputs of the analyzer 0, information signals are generated only when the signals are sequentially acquired on its first second or second or first entrances. The signals at the third input set the analyzer 10 to the zero state before or after each pair of signals arrives at its first and second inputs. This ensures the correct determination of the direction of motion of the object during its maneuvers and reliable reading of information signals from the code device. 2. Depending on the direction of movement of the object 1, signals from one of the outputs of the analyzer 10 flow from the corresponding information input of the reversing register 13. Consequently, the readable tare mass code enters the register 13 or the younger or the same bits. Therefore, regardless of the direction of movement of object 1 in register 13, information is always stored in a specific order, which is necessary for its further processing. During object maneuvers 1 in the installation zone of block 3, the number in register 13 shifts according to the direction of movement. Further, the impact of the object 1 through a gruespriem platform 14 on the measurement and measuring sensor 15 causes at its output an electrical signal proportional to the gross mass. This signal B = E) is created by an analog-to-digital converter 16 to a digital code, which is transmitted to a subtractor, 17 in series and stored in shift register 18. The transfer of the code of the number and control of the process of calculating the net mass is carried out by the commands of the control unit 19 along the following lines: the circuit 20 of transmitting the code number to the shift register 18, the circuit 21 of the clock pulses, the receiving circuit 22 of the net mass number code by the subtractor 17, the decade transfer circuit 24 of the decade code from the lower bits of register 18, the circuit 25 at the signal of the end of the measurement cycle. The process of subtracting the tare mass from the gross mass is carried out by the arrival of signals from the control unit 19. The code for the net mass number is entered in the register 18. The process of calculating the command receipt via the circuit 25 from the control circuit 26 as well as the transfer of the net mass number code from the register 18 is completed. control block 19. The verification of the readability of the tare mass number and the number of read sync pulses from code 2, as well as the accuracy of the net mass calculation, is performed by the control circuit 26 as follows: During the reading of information from the code 2, the signal from the corresponding output of the selector 11 allows the decade of register 13 through the switch 27 to the corresponding information inputs of the comparison circuit 28. At the same time, in the imaging unit 29, through one of the inputs of the prepared first circuit AND element 2 and OR 30, the clock pulses from the output of the element OR 12 are fed to the input of the first counter 31 (counter for the formation of a core number). At the same time, the third sync pulse from the counter 31 in the second counter 32 changes the state of its first trigger, which thereby changes the preparation of the circuits AND element 2 and OR 30, sets to zero zero the first two triggers of the counter 31 sat down in it, forbidding the passage of a signal to its input, after which the signals of the generator 33 pulses through the preparation of the second circuit AND the element 2I OR.30 arrive at the input of the counter 31 Next, at the parallel outputs of the counter 31, a set of control numbers codes from O to 9 sign TGotoryh ly fed to the bottom of inputs wo vetstvuk comparing circuit 28 with the code information signals and error odds irovatel 34. If the resolved decade code arrives at the inputs of one of the switching element groups of switch 27, the comparison circuit 28 compares it with the control number code and, if they coincide, produces a zero state signal of the counter 31 and the first trigger of the counter 32. In this case, the first trigger prepares 1 | Plots the first circuit AND element 2I-OR 30 and changes the state of the second trigger. Thus, the counter 32 counts the number of pulses by the number of decades, or taking into account the conversion factor from counter 31 (by the number of clock pulses per decade), counts the number of clock pulses read from the code device or received from the control unit 19. When encoding information in three binary-decimal decades, the process of reading information from the code tool or calculating the mass. The net continues until the receipt of | Number 3 in counter 32, which also corresponds to the nine received clock pulses. Next, the cycle generator 35 generates a signal for setting the zero state of the counter 32 and the end of the cycle of this process. The presence of this signal is also the certainty of the received number of clock pulses in the cycle. If the monitored code of a decade goes into a forbidden combination, then its comparison with the codes of control numbers from 1 to 9 will fail. Therefore, from the control number 10 by the error generator 34, a pulse is generated, which will go to the recorder 36, where the error is recorded. Claim 1. Device for determining the net mass of a moving object, containing a code device attached to the object and a tare mass input unit installed at the measuring point with code and synchro pulse readers and an OR element, a platform with a force measuring sensor connected to analog 1 digitizer, outputs which are connected to the shift register of the subtractor, connected to the control unit, which is connected with the tare mass input unit, with the analog-digital converter, subtract it and monitoring circuit, characterized in that, in order to increase the accuracy of the measurement when maneuvering object & the area of the measurement point, the tare weight input is equipped with an object directional analyzer, object, selector, and reverse shift register, with the first input of the analyzer