SU928185A1 - System for analytical checking of solid samplers - Google Patents

Description

The invention relates to analytical control of the composition of metal samples and can be used in steelmaking to create automated process control systems.

A device for sampling, comprising a switchgear, a conveyor with a plumb sensor, a control unit, a weighing device of a sample receiver, a receiving container, an additional control unit. Air mail, a receiving station, a container *, a vacuum pump with a drive and an actuator including a light source, a photo relay and air nozzle [1].

There is also a known system of analytical control of solid samples, which contains containers, a sampling subsystem, a sample delivery subsystem with a container unloading device, a sample preparation subsystem, a measuring complex, a digital computing device, a sample packing unit and a sample encryption-decryption subsystem consisting of a container processing unit, a container delivery unit , a sorting unit of the information carrier, a reading device, a delivery line with a receiver, and an encrypted sample generation unit, made in the form a conveyor connected to subsystems for sample delivery and sample preparation [2) ·

Closest to the technical essence of the invention is an analytical control system for solid samples containing sample delivery subsystems with loading and receiving stations, a sample preparation subsystem connected via its conveyor to the sample collection and labeling unit with a sample delivery subsystem and one of the outputs connected to the measuring complex [ 3].

A disadvantage of the known system for analytical control of solid samples is that it is not designed to receive and process samples coming from several sample delivery subsystems from various technological units (steelmaking units, ₅ out-of-furnace treatment plants, continuous casting plants). In steelmaking, encryption of samples using punched tokens is also unacceptable. Samples must be labeled and stored for a specified time at the warehouse in order to repeat the analysis, in case of conflict, for example, receiving a complaint.

The purpose of the invention is to increase ka. quality control and expanding the functionality of the system due to the reception and preparation of samples coming from several subsystems of probation.

This goal is achieved by the fact that the system is equipped with sample information input control panels and a sample processing control subsystem, the first input of which is connected to the corresponding _2S output of the sample preparation subsystem, the receiving station of each sample delivery subsystem additionally contains a sample arrival sensor, a storage hopper with a sample supply device and a logic element And, the first input of which is connected to the information input panel, while the subsystem for controlling the processing of samples by the second inputs is associated with the outputs of all logical elec- , cops And, the third inputs are connected ² to the sensors of arrival of samples, and the first g outputs are connected to the second ·, the input of the logic element And and the input of the sampler, the second output is connected to the drive of the conveyor, and the third output is connected to the measuring complex and the collection unit and labeling of samples, in addition, the sample processing control subsystem is designed as an address decoder, an OR logic element, a command unit connected to its first input with a sample preparation device, a sample order register, which input the sample arrival sensors are connected, and the output is connected to the other input of the command unit, connected by the output to the conveyor drive and through an address decoder with logical elements AND and sample supply devices, and a register of sample information, in which there is a logic element

OR is connected with the output of all logical elements AND, and the output is connected with the measuring complex.

The drawing shows a block diagram of an analytical control system for solid samples.

The system of analytical control of solid samples consists of a sample delivery subsystem 1 (there may be several, more than two), consisting of a loading station 2, connected by a transport pipeline 3 to a receiving station 4, which contains a storage hopper 5, a device for feeding 6 samples, 15 a sensor arrival of 7 samples and a logical element And 8, remotes 9 for entering information about the sample (the number of remotes is equal to the number of subsystems for sample delivery 1), a sample collection and labeling unit 20 made in the form of a conveyor 10 s, a drive (not shown in the drawing), and marking 1 1 device with a control marking unit 12, a sample preparation subsystem 13 associated with the measuring complex 14, a control sample processing subsystem 15 that contains a logical element OR 16, a storage register 17 of information about the sample, a sequence register of 18 samples, a command unit 19 and an address descrambler 20. For long-term storage, marked samples * via auxiliary conveyor 21 enter storage 22.

The system operates as follows. ⁴

Metal samples taken from technological units (steelmaking units * argon purge units, portion vacuum cleaners and others, continuous casting plants) are received at the loading station 2 of the sample delivery subsystem 1. Simultaneously with sending the sample to the • input panel 9, the information necessary for marking the sample is entered (heat number, sample number). Transfer line 3 receives the sample to the receiving stations 4. When a sample in a storage hopper 5 soot sponds receiving station ⁵⁰ April 7 samples stay activated sensor, this signal is supplied to one input queue register 18 arriving samples, ie The register records the order of receipt of samples at the receiving stations. If there are signals, that the sample preparation device 13 is free, and at receiving stations

11. In the register of samples informing reception chronological acquisitions.

there are samples, the command unit 19 generates the following signals: turn on the address decoder 20, which decodes the number of the receiving station, the device 6 for feeding samples from the storage hopper 5 and turn on the conveyor 10, which feeds the sample to the marking device of the queue 18 arriving station recorded in com order as they

In chronological order, commands for processing samples are also issued. However, if it is urgent to receive the analysis data of any sample, information on the sample is entered on the remote control 9 of the priority sign. Then the queue register is 18 arriving samples. provides an extraordinary issuance of this sample from the receiving station 4 to trans. sporter 10. Upon receipt of a signal from the address encoder 20 to the logic element AND 8 of the receiving station 4, the information about the sample coming from the input panel 9, through the logic element OR 16 is recorded in the register storage 17 information about the samples. In this case, the marking control unit 12 issues a command to the marking device 11 to carry out the marking of the sample. The marked sample enters the sample preparation subsystem 13, where we prepare for analysis. After processing, it is transmitted to the measuring complex 14 and at the same time, a signal is sent to the command unit 12 about the readiness of the subsystems for sample preparation for receiving the next sample. After the analysis of the sample in the measuring complex 14, the analysis data and the marking data of the sample are stored on a digital printing machine stored in the storage register 17 · The analyzed sample is transferred to the auxiliary conveyor 21 and delivered to the sample storage 22. In the steelmaking shops, the samples are stored for the purpose of control analysis when finding out the reasons for marriage.

Use of the invention allows avtomatizirovat.protsess acceptance and processing of samples coming from various production units, which reduces prolonged ~ _c of obtaining data on the analysis of 10 seconds. For a modern converter with the existing average melting cycle duration of 40 min, a reduction of _# cycle duration by 20 s provides an increase in unit productivity by 0.41%.

The annual economic effect of the introduction of the invention is 44 thousand rubles.

Claims (3)

1.Indegree certificate of the USSR in accordance with W 2919031 / 23-26, cl. G 01 N 1/28, 01.30.80. 2. USSR author's certificate for application number 2813170 / 23-26, cl. G 01 N 1/20, 1979. 3. USSR author's certificate number 627375, .kl. G 01 N 1/20, 1977