Sielco Sistemi offers itself as a partner in development of integrated hardware/software solutions for a wide range of applications, such as supervisory control of industrial plants, production data acquisition and processing, quality control of production and storage process, remote control of peripheral devices or public utility networks.
The specific know-how gained in various industrial sectors (from textile to plastic, from wood processing to food industry, from ceramics to telecommunications) makes of Sielco Sistemi a partner able to cooperate with you in a really effective way, to understand your problems, to find out the best solutions, to give a prompt answer to all your requirements.
Our services and cooperation proposals can be offered directly or (when logistic considerations suggest it) via our network of Solution Providers and Distributors; our services cover all phases of a project development, from consulting in project design to cooperation in project development, from assistance during start-up to a complete post-sale support including technical assistance, training courses and software updates. On the left you can find some examples of typical applications in different industrial fields.
The continuous increase of energy costs together with the possibility to select the most suitable contract among different energy providers make more and more convenient a supervisory system able to ensure a continuous monitoring of power consumption and energy costs of low and medium voltage networks. Thanks to Winlog Pro SCADA software, it has been possible to develop many supervisory applications able to provide both the continuous monitoring of the electrical network and the possibility to increase the overall efficiency. Winlog Pro includes a series of internal objects especially designed to display electrical schemes and cabinets, to monitor power consumption, to calculate energy costs using both real or simulated calendars with different fares according to date and time. Display of electrical schemes with animated switches and lines changing colour according to current path allow highlighting of energy flows, quick spotting of abnormal operation and prevention of possible power overflow. Monitoring of power consumption and energy costs of single user lines and of the overall network in the form of daily, monthly and yearly bar charts provide an ideal report for analysis and optimization of the electrical network; the possibility to program the yearly calendar with different fares according to date and time is an essential tool to prepare a budget plan and select the contract more suitable for anyone's requirements.
The system has been designed to ensure the quality control for heat treatments in a plant division equipped with heterogeneous furnaces (multi-chamber furnaces, pit furnaces, tempering and hardening furnaces), replacing traditional paper recorders and creating production reports.
Furnaces are equipped with their own instrumentation (PLCs, Eroelectronic/Gefran controllers, recorders) and can perform different kind of heat treatments (hardening, tempering, annealing, stabilization, normalization). The system gathers heat treatments measures of all division from a parallel data acquisition network without entering any interference to the existing control instrumentation; collected data (temperatures, carbon percentages) are continuously referred to theoretical curves values set in every production recipe to verify the quality of the process.
At the end of every production process, reports are generated containing load identification data, process variable curves and alarms. All historical data and reports are exported in a Microsoft Office compliant format and extended to the quality control division.
Alarms coming from process and machines are recorded and broadcast to maintenance staff and, in case of not guarded plant, to surveillance staff.
Two PClog client stations and a PClog server TCP/IP provide system HMI, ensure data integrity and maintain plant work continuity. This system is well suited in those cases where it is important to have global vision of several process executed by several machines without local HMI.
The system allows to realize comparative tests on wood stoves working in different environmental conditions; It is built by a SCADA client station and a TCP/IP server linked to a network of data acquisition modules. In the test room a Pt100 temperature sensor matrix measures accurately the spatial thermal diffusion. In the SCADA system, temperatures are shown as thermographic maps in order to give a first view of the thermal situation (see animated demo).
In order to relate temperature distributions with environmental parameters, data acquisition system has been integrated with internal and external humidity measures, atmospheric pressure measure and smoke temperatures measure.
The system records gathered data, allowing successive analysis. It is also possible to analyse every measure group trend in time related charts.
Due to the sophisticated manufacturing process requested by polypropylene yarns, the technology has a decisive weight; the supervisory control of the whole manufacturing process makes it possible to produce any colour and to reproduce it consistently also after many months; the supervisory system guarantees that all product characteristics (torsions, title, tenacity, stabilization, ...) fit perfectly with technical specifications requested by the customer; that allows a product standardization with a consequent reduction of production and delivery times.
All phases of the manufacturing process (dosing of polymer and colour, heating, extrusion, stabilization and final winding with spool automatic change over) are constantly controlled by the supervisory system that, thanks to various serial channels with appropriate protocols, communicates with all control devices (PLCs, temperature and pressure controllers, motor drives, indicators).
The man/machine interface is simple, prompt and effective; it displays plant templates with different levels of detail, gives an immediate signalling of any new alarm or abnormal condition, allows management of working recipes organized by customers or articles, provides quality reports with graphical trends of all significant variables of the process.
T-guard, a system based on SCADA software platform Winlog Pro and realised in partnership with Biomed Consulting, has been installed in many hospitals and research facilities in order to ensure the continuous monitoring of all medical devices providing a steady and controlled temperature (refrigerators, freezers, ..) and to guarantee the conservation for a long time of special tissues and materials; any operational abnormal condition is immediately recognized and filtered according to user settings; in case of persistent anomalies an alarm is created that, depending on its gravity, can be related with a local signal (siren, lamp, ...) or broadcast via SMS to a maintenance technician cellular phone; a TCP/IP network provides all data related to devices functionality and organic material conservation to one or more client analysis stations; at defined time interval or at user request, the system provides periodic report printing that are required to obtain the Certification of Quality according to European rules ISO 9000.
The system, based on Winlog Pro software platform and realized in cooperation with Tribotecna srl, ensures a continuous monitoring of the dust pollution level; compared to periodical controls, the continuous control offers the advantage of a prompt signalling that gives the possibility to operate on the plant before reaching the limit values of dust concentration. The operation principle of the triboelectric sensor, designed and manufactured by Tribotecna Srl, is based on the energy produced by the impact of the particles with the probe and on the electrical field generated by the contiguous particles; values read by the sensors are collected by data acquisition modules that are linked, via a RS485 network with a Modbus protocol, to a supervisory server PC equipped with Winlog Pro software; the system calculates and records, for each sensor, the values of instantaneous and mean concentration and of mass flow; these values are continuously compared with acceptable reference values, in order to recognize and signal any alarm condition; furthermore collected data are processed and used to produce daily reports that are available on display, print or on a database; a TCP/IP network makes available on one or more Client stations all information produced by the Server.
The plant is made of a multi-stage line for the production of gas barrier films, that combines the "cast film technology" with the "extrusion coating technology"; this special technology allows both a higher line output and an optimum product quality (no "curl" effect, optimum film transparence, perfect gauge control, maximum rate of edge trims reintegration in the line).
In a such a complex plant, equipped with a variety of control devices (PLCs, controllers, motor drives, indicators, ...), the supervisory system has a decisive role for the best plant operation: a series of templates with different levels of detail give the possibility to control from a unique point the operation of every part of the plant; prompt signalling of every new alarm or abnormal operation condition together with the possibility to investigate the cause by analysing the alarm story and the graphical trends of all the related variables allow a quick and effective maintenance and reduce the risk of production waste; the recipe management guarantees that all product characteristics can be perfectly reproduced, with a consequent customer satisfaction and reduction of production and delivery times; automatic printing of quality reports after each "end of production" gives the certification that the product is compliant with the specifications requested by the customer.
Production and storage process in food industry are subjected to specific laws related to quality control; the quality control system based on the Winlog Pro software SCADA platform has been successfully applied in many sectors of food industry; actually it gives the possibility to comply with requested quality control criteria limiting both the investment cost and the production loss due to the installation of the system.
The system provides a continuous monitoring of all the significant variables of the process and generates quality control reports with graphical trends that certify the compliance of the production lot; the system also certifies that the storage process doesn't affect the quality of the stored product and doesn't cause any modification of the original characteristics. Any abnormal condition in the production or storage process is promptly detected and signalled with a local alarm; in case of unattended environment, a SMS can be sent to the cellular phone of a maintenance staff operator.
All information generated can be made available to one or more Client stations (local or remote) linked via a TCP/IP protocol.
In order to guarantee the hygiene and the safety of food products, new rules for the consumer safeguard have been introduced in the food industry, both established by international control organizations and autonomously decided by the manufacturers.
The system presented has been realized for a company that produces ice-creams and other by-products of milk in order to control and certify the production process and to reduce the possibility of human errors; the system guarantees the quality of the pasteurization process, provides a systematic control on the working status of the mixtures contained in the repining tanks, ensures the effectiveness of tanks cleaning and sterilization.
One or more Client stations, linked together via a TCP/IP network, make available to every department all the information necessary for the coordination of a manufacturing process distributed in a wide area.
All variables that have been acquired from the field are processed to generate a series of reports with graphical trends that certificate both the quality of the final product and the whole manufacturing process. The system also provides reports that give information about general plant productivity and raw materials consumption.
Sielco Sistemi realised a family of applications for supervision and control of brick and ceramics kilns. The systems allow to control process variables (temperature, pressure, dilution, ...) and to analyse them in time related charts.
Repeatability and production quality are ensured by production recipes management and batch reports. In continuous kilns applications, it is possible to display current and theoretical product temperature curve in order to verify immediately the quality of the running process.
In intermittent kilns applications, it is possible to build the temperature and air dilution curve that the kiln will execute with screen preview.
The systems optionally control burners gas and electrical energy consumption, reporting them for each production or part of plant.
All systems can be integrated in a TCP/IP protocol network with client/server structure.
The system manages a continuous line for carburizing, tempering, hardening heat treatments. The SCADA application communicates with a PLC Siemens SIMATIC S7 network using MPI protocol (server Applicom).
Batch materials are linked to their treatment recipes and positioned on parking platforms. An asynchronous process logic verifies furnaces and washers availability to receive the materials. The system allows accessing the recipes database that contains batch identification and process data. The main template shows position and progress status of each process and provides a detailed view of each heat treatment element. At the end of any batch production, the application generates quality control reports containing batch identification data and temperature and carbon percentage charts for each phase of the treatment; in each report it is available a section in which it is possible to insert the measure of mechanical characteristics of produced material.
Optionally, Sielco Sistemi offers a scheduling and optimizing batch system that allows sending of many consecutive recipes to the treatment line and obtaining the best sequence to use all the heat treatment elements in a rational and economic way.
Sielco Sistemi and Save Impianti offer themselves as a partner in design and development of industrial plants for production of wine according to most up to date technologies, in order to achieve a high and certified quality standard in both production and storage processes. The offered technologies apply to the production process from grapes squeezing to wine bottling (control of fermentation temperature, vacuum concentration, desulphurization, MCR production, tartaric stabilization, must enrichment by osmosis, etc.). All main variables of production process are continuously monitored and displayed to the operator as templates or graphical trends; any malfunctioning is promptly recognized and can be reported to assistance staff by sending a proper SMS. At the end of the process the system generates quality reports that certify compliance with production requirements; the system also generates production reports usable to evaluate performance of production facilities and consumption of raw materials. General information on plant operation and production process status can be made available to operators in various departments through Client stations linked to the LAN or, thanks to the Web Server option, to any Internet Client with a standard browser.