SU1073631A1 - Device for registering sedimentation curves - Google Patents

Abstract

1. A DEVICE FOR REGISTRATION OF SEDIMENTATION CURVES, containing a precipitation cylinder with a mass sensor, a memory device and a timer, characterized in that, in order to improve the accuracy and automation of the measurement, it is equipped with a sensor measuring the mass of the sediment, the output of which is connected to the first input memory device, the first input is connected with the sediment mass sensor, and the second with the output of the coincidence circuit and the input of the delay line, whose output is connected to the second memory input, while the memory the device is connected to a numerical differentiation unit, the output of which is connected to the primary input, a coincidence circuit, and the control input is connected to the second input of the coincidence circuit, and the second input of the coincidence circuit and the control input of the numerical differentiation unit are connected to a timer. 2. The device according to claim 1, from which, in order to carry out measurement continuity, a sampling device is introduced into it, connected through an actuator to an actuator control unit, while the latter is adapted to be connected to -4 to the first input of the matching circuit. SO and so

Description

The invention relates to a measurement technique, is intended to determine the particle size distribution of dispersed media, and can be applied in the microbiological, food and chemical industries. A hydrostatic granule meter for sedimentation analysis for suspensions is known, which contains a precipitation vertical cylinder, a collecting tube connected to it and a level gauge, the upper part of which is made of transparent glass and has a scale for visual reading of the level of a disperse medium characterizing the sedimentation rate of solid particles of suspensions 1. The disadvantages of this device are the low accuracy of measurements associated with visual readings, as well as the inability to automatically measure the readings of sedimentation curves. It is known that a device for determining the granulometric composition, having a radioactive sensor for the amount of settled solid phase, a compressed air source, a water seal and a measuring unit 2. The disadvantage of such a device is the need for special training of service personnel, the adoption of various protective measures when working with radioactive sources. Closest to the present invention is a device for recording sedimentation curves, comprising a seed cylinder with a sediment mass sensor / memory device and a timer, as well as a division unit, two switching keys and a registration unit. Sediment sensor, made in the form of a level gauge, produces a signal characterizing the number of precipitating particles. In this case, the value corresponding to the total amount of the substance in the sample is entered into the memory using the switching keys. Then, at certain time intervals specified by the timer, the current value of the number of particles settled is compared with the division unit with the total number of particles in the sample and recorded. 3 The disadvantages of the known device are low measurement accuracy and the inability to automatically record the readings mode. The purpose of the invention is to improve the accuracy and automate the measurement. The goal is achieved by the fact that in the device for recording sedimentation curves containing a precipitation cylinder with a sensor. sediment mass sensor, and the second - with the output of the coincidence schemes and the LIVII input of the delay, the output of which is connected to the second input of the storage device, while the storage device is connected to the numerical differential unit The differentiation, the output of which is associated with the first input of the coincidence pattern, and the control input, with the second input of the coincidence circuit, wherein the second input of the coincidence circuit and the control input of the differentiation strength unit are connected to a timer. In addition, for the purpose of implementation. the measurement continuity, the device is equipped with a sampling device connected via an actuator to an actuator control unit, wherein the input of the control unit is adapted to be connected to the first input of the coincidence circuit. The drawing shows a diagram of the proposed device. The device contains a device 1 for automatic sampling from the object under study 2, a connecting cylinder 3, where sedimentation takes place directly, a sediment mass sensor 4 connected to meter 5, the output of which is connected to memory 6, where information on the obtained sedimentation curve values a numerical differentiation unit 7, an actuator control device 8, a coincidence circuit 10, a timer 11 and a delay line 12. The input of the control device 8 is arranged to be connected to a circuit coinciding with each other of the key 13. The device operates as follows. Timer 11 outputs a clock pulse, which through comparison circuit 10 permits the registration of the next reading of the sensor 4 of the sediment mass by the meter 5. The numerical value of the sensor’s indication 4 of the deposit is entered into the memory 6, which is a shift register, which makes it possible to create a multiplexed mode during the exchange of information with a control computer. The signal from timer 11 through the delay delay line 12 relative to the Phonot of the initial pulse enters memory 6, thereby shifting the stored knowledge and preparing the place for the next recording of information. In addition, at the signal

The timer 11, the numerical differentiation unit 7 determines the value of the derived sedimentation curve, in case the derivative differs slightly from zero, from the numerical differentiation unit 7, a signal to prohibit the issuance of clock pulses to the circuit 10 does not occur and information is not read. If the key 13 at the input of the control device 8 is closed, an autonomous mode of operation is set, in which the Sampling signal comes not from an external device, but from the numerical differentiation unit 7. In this case, after a kahad of recording the readings, an automatic sampling takes place and further measurement .

The technical advantage of the invention in comparison with the basic object — the laboratory analysis of the particle size distribution of the suspension — is an increase in the measurement accuracy by eliminating subjective errors that occur when the laboratory personnel read the readings. In addition, the use of the device makes it possible to realize continuous measurement and output of the results of estimation of the distribution parameters of the dispersed phase of the studied media at the input of the technological stage in the automatic mode.

Claims (2)

(5 7) 1. DEVICE FOR RECORDING CURVED SEDIMENTATION, containing a precipitation cylinder with a sediment mass sensor, a storage device and a timer, characterized in that, in order to improve the accuracy and automation of measurement, it is equipped with a sediment mass sensor readings, the output of which is connected to the first input of the storage device, the first input is connected to the sensor of the mass of sediment, and the second with the output of the coincidence circuit and the input of the delay line, the output of which is connected to the second input of the storage device, while oystvo connected with the block of numerical differentiation, the output of which is connected to a first input of the coincidence circuit, and a control input - to a second input of the coincidence circuit, the second input of the coincidence circuit and the control input of numerical differentiation soedi- £ yen timer. 2. The device according to claim 1, characterized in that, in order to ensure the continuity of measurement, a sampling device is introduced into it, connected through an actuator to an actuator control unit, while the input of the latter is connected to the first input of the match circuit.