large power variable speed drives (VSD, VFD, AC inverter drives): vector control, built-in PID feedback controller, common DC bus, support ProfiBus, CANopen

Cable Protection Conduits.

Metallic flexible tube increases temperature and fire resistance, mechanical, tensile strength, abrasion and impact resistance.

Connectors and boxes can be supplied with cable protection coverage made of steel.

It can be a conduit or an external braid of galvanized steel (stainless steel upon request).

Conduits of polyamide (nylon) are available as well; their dimensions are bigger than conduits of steel, but they have a very good chemical resistance and sometimes they are cheaper.

Halogen free polyester braided sleevings can instead offer flexibility and high temperature resistance, 150°C working temperature, 200°C melting point.

Steel braid. In the case of metal braid, a further option is to put a second external sheath in order to protect the metal for outdoor applications, facilitating cable cleaning and preventing corrosion, but the diameter becomes bigger.

Steel flexible tube, compared to armoured (armored) cable, offers a better protection against crushing and could be even used just for a partial length; on the other hand its external diameter is bigger.

Applications with welding machines, construction equipment, agricultural machinery, food industry machinery, earth moving machines, lifting or air platforms, warehouse and moving goods plants.

Another interesting application is to prevent rodent (rats, mice) and termite attacks. In many areas steel armouring (armoring) is the best way to stop or reduce serious damage.

www.shield.net

Shield produces M12 extension cables for several bus systems:

Profibus DP, Profibus PA, DeviceNet, CanOpen, EtherNet, EtherCat.

- UL/CSA approved cable

- cable lengths according to customer demands

www.shield.net

www.shield.net

The picture shows a distribution point for Can Open or Device Net bus applications. This distribution box can manage up to 12 circuit branches. It is a cost effective patch panel to connect many bus devices. Compact dimensions and easy to install.

The box is available with many connection circuit options, plugs and/or sockets in any position, even for small production lots.

www.shield.net

Shield manufactures wiring systems for motors and sensors: electrovalve connectors, switch connectors, distribution boxes, electronic boxes and Dsub connectors.

Market in the following fields: industrial automation, hydraulic, pneumatic and electrical automation, illumination and conditioning systems, railways, trucks and transportation, construction equipment, food industry and machinery in general.

BUS chain backbone solutions for DeviceNet, CanOpen, Profibus, Interbus, etc.

Besides a complete catalogue for industrial connectors, distribution boxes, electronic boxes and cables with very good quality/price ratio, Shield offers customizable Distribox and Spiderbox, even for very low quantities.

www.shield.net

How to prevent connectivity mistakes.

Shield manufactures distribution boxes with M12 connectors (IEC 61076-2-101 standard) that can have different mating keys; in this way it is not possible to mount connectors in the wrong position. Also, to facilitate the assembly visually, connectors may have different colours as well in addition to the key.

Very useful for maintenance when box is positioned in difficult areas or when a connection mistake could cause delays or damages.

industrial vector control variable speed drives, with built-in DC choke (reactor), support ModBus, ProfiBus, CANopen communication protocol

industrial vector control AC adjustable frequency drives (VSD drives, VVVF drives), with built-in DC choke (DC reactor) , support main communication protocols: ModBus, ProfiBus, CANopen

www.shield.net

Thanks to an innovative lip gasket, JxLF and JxMF series D-sub female connector family guarantees a high degree of protection against water and dust.

Can be mounted on any male Dsub connector already present on the market.

Terminals are crimped to wires, in this way ensure greater reliability compared to soldered or screwed terminals.

The housing may contain resistors or other electronic components, if requested.

PVC or PUR cable, with or without shielding. Standard wires with DIN 47100 colours.

Connection from 9 to 62-pole, reliable and economic.

Angled or straight, forward or backward versions.

www.shield.net

Wiring solutions for encoders, motors and sensors: Dsub connectors, electrovalve connectors, switch round connectors, distribution boxes and electronic boxes.

BUS chain backbone solutions for DeviceNet, CanOpen, Profibus, Interbus, etc.

Market in the following fields: industrial automation, hydraulic, pneumatic and electrical automation, illumination and conditioning systems, railways, trucks and transportation, construction equipment, food industry and machinery in general.

Besides a complete catalogue for industrial connectors, distribution boxes, electronic boxes and cables with very good quality/price ratio, Shield offers customizable Distribox and Spiderbox, even for very low quantities.

www.shield.net

J series D-sub female connectors with IP67 protection degree, example of applications:

- two, three or more cables may be

overmoulded on the connector

- BUS extensions

- BUS backbone chain

- 9-pole, 15-pole, 25-pole, 37-pole,

Profibus, Interbus,

DeviceNet and CanOpen applications

- stepping motor driver

- small motors

- servo motor controller

- video camera

- industrial switch

- fieldbus gateway

- PLC, programmable logic controller

- etc.

www.shield.net

Thanks to an innovative lip gasket, J series D-sub female connector family guarantees a high degree of protection against water and dust.

Can be mounted on any male connector already present on the market.

Applications:

- servo motor controller

- industrial switch

- small motors

- BUS extensions

- BUS backbone chain

- 9-pole, 15-pole, 25-pole, 37-pole,

Profibus, Interbus,

DeviceNet and CanOpen applications

- PLC, programmable logic controller- stepping motor

driver

- video camera

- fieldbus gateway

- etc.

Thanks to an innovative lip gasket, J series D-sub female connector family guarantees a high degree of protection against water and dust.

Can be mounted on any male connector already present on the market.

9-pole, 15-pole, 25-pole, 37-pole, Profibus, Interbus, DeviceNet and CanOpen applications.

www.shield.net

www.shield.net

shield's logo 800 x 800 px

www.shield.net

Windlass monitoring control panel. Monitor Systems Engineering.

Anchor Windlass Monitoring System

www.monitor-systems-engineering.com/anchor_monitoring_eng...

Monitor Systems computerised Anchor Windlass Monitoring System (AWS M2000) facilitates and adds real value to operator control. Using a uniquely simplified menu structure, the system provides increased accuracy and totally reliable measurement of anchor winch parameters with both central control room and local windlass monitoring displays. Speed and distance are measured through proximity sensors whilst tension is determined by sub-sea rated load cells or pins. Using stainless steel wall mounted cabinets, data is gathered using PLC DAQ, Profibus DP or fibre optic high-speed networks and shown in graphical and tabular formats. This flexible system can also be expanded to include other control functions required by the client.

Case Study

Anchor Windlass Monitoring System

Overview: The Anchor Winch Monitoring System installed onboard Dolphin Byford by Monitor Systems is designed to monitor anchor tension, chain length, payout speed and motor current in addition to providing control outputs for overspeed on all twelve winches holding the rig. Utilising a fibre optic network for communicating between winches and the control room, the system uses a Siemens PLC with remote HMI's in each windlass cab and two IPC's in the control room and pilot-house.

Two 300 tonnes load pins on the Brattvagg windlasses and hydraulic load cells with pressure transducers on the National windlasses measure anchor tension. Chain length and speed is verified by proximity sensors picking up targets on the main gypsy wheel.The system graphically displays tensions, speeds and chain lengths as well as providing trending of anchor tensions and built in alarm functions via colour touch screens in all winch cabs and the main control room. It also allows viewing of data from all winches at any station. Customer: Dolphin Drilling.

Control Alarm Panel. Monitor Systems Engineering.

Anchor Windlass Monitoring System

www.monitor-systems-engineering.com/anchor_monitoring_eng...

Monitor Systems computerised Anchor Windlass Monitoring System (AWS M2000) facilitates and adds real value to operator control. Using a uniquely simplified menu structure, the system provides increased accuracy and totally reliable measurement of anchor winch parameters with both central control room and local windlass monitoring displays. Speed and distance are measured through proximity sensors whilst tension is determined by sub-sea rated load cells or pins. Using stainless steel wall mounted cabinets, data is gathered using PLC DAQ, Profibus DP or fibre optic high-speed networks and shown in graphical and tabular formats. This flexible system can also be expanded to include other control functions required by the client.

Case Study

Anchor Windlass Monitoring System

Overview: The Anchor Winch Monitoring System installed onboard Dolphin Byford by Monitor Systems is designed to monitor anchor tension, chain length, payout speed and motor current in addition to providing control outputs for overspeed on all twelve winches holding the rig. Utilising a fibre optic network for communicating between winches and the control room, the system uses a Siemens PLC with remote HMI's in each windlass cab and two IPC's in the control room and pilot-house.

Two 300 tonnes load pins on the Brattvagg windlasses and hydraulic load cells with pressure transducers on the National windlasses measure anchor tension. Chain length and speed is verified by proximity sensors picking up targets on the main gypsy wheel.The system graphically displays tensions, speeds and chain lengths as well as providing trending of anchor tensions and built in alarm functions via colour touch screens in all winch cabs and the main control room. It also allows viewing of data from all winches at any station. Customer: Dolphin Drilling.

Installation of new anchor windlass load pin. Monitor Systems Engineering.

Anchor Windlass Monitoring System

www.monitor-systems-engineering.com/anchor_monitoring_eng...

Monitor Systems computerised Anchor Windlass Monitoring System (AWS M2000) facilitates and adds real value to operator control. Using a uniquely simplified menu structure, the system provides increased accuracy and totally reliable measurement of anchor winch parameters with both central control room and local windlass monitoring displays. Speed and distance are measured through proximity sensors whilst tension is determined by sub-sea rated load cells or pins. Using stainless steel wall mounted cabinets, data is gathered using PLC DAQ, Profibus DP or fibre optic high-speed networks and shown in graphical and tabular formats. This flexible system can also be expanded to include other control functions required by the client.

Case Study

Anchor Windlass Monitoring System

Overview: The Anchor Winch Monitoring System installed onboard Dolphin Byford by Monitor Systems is designed to monitor anchor tension, chain length, payout speed and motor current in addition to providing control outputs for overspeed on all twelve winches holding the rig. Utilising a fibre optic network for communicating between winches and the control room, the system uses a Siemens PLC with remote HMI's in each windlass cab and two IPC's in the control room and pilot-house.

Two 300 tonnes load pins on the Brattvagg windlasses and hydraulic load cells with pressure transducers on the National windlasses measure anchor tension. Chain length and speed is verified by proximity sensors picking up targets on the main gypsy wheel.The system graphically displays tensions, speeds and chain lengths as well as providing trending of anchor tensions and built in alarm functions via colour touch screens in all winch cabs and the main control room. It also allows viewing of data from all winches at any station. Customer: Dolphin Drilling.

Anchor Windlass Monitoring - PLC Cabinets and local Displays. Monitor Systems Engineering.

Anchor Windlass Monitoring System

www.monitor-systems-engineering.com/anchor_monitoring_eng...

Monitor Systems computerised Anchor Windlass Monitoring System (AWS M2000) facilitates and adds real value to operator control. Using a uniquely simplified menu structure, the system provides increased accuracy and totally reliable measurement of anchor winch parameters with both central control room and local windlass monitoring displays. Speed and distance are measured through proximity sensors whilst tension is determined by sub-sea rated load cells or pins. Using stainless steel wall mounted cabinets, data is gathered using PLC DAQ, Profibus DP or fibre optic high-speed networks and shown in graphical and tabular formats. This flexible system can also be expanded to include other control functions required by the client.

Case Study

Anchor Windlass Monitoring System

Overview: The Anchor Winch Monitoring System installed onboard Dolphin Byford by Monitor Systems is designed to monitor anchor tension, chain length, payout speed and motor current in addition to providing control outputs for overspeed on all twelve winches holding the rig. Utilising a fibre optic network for communicating between winches and the control room, the system uses a Siemens PLC with remote HMI's in each windlass cab and two IPC's in the control room and pilot-house.

Two 300 tonnes load pins on the Brattvagg windlasses and hydraulic load cells with pressure transducers on the National windlasses measure anchor tension. Chain length and speed is verified by proximity sensors picking up targets on the main gypsy wheel.The system graphically displays tensions, speeds and chain lengths as well as providing trending of anchor tensions and built in alarm functions via colour touch screens in all winch cabs and the main control room. It also allows viewing of data from all winches at any station. Customer: Dolphin Drilling.

The Mitsubishi A500 Inverter achieves high precision and fast response that exceeds the performance of conventional general-purpose inverters. The VFD's can be used in specialized applications such as line control and elevators. By incorporating our original all-digital vector control, high starting torque and high speed response have been made possible for both velocity and torque control modes.

* 2 to 75 Horsepower at 240V

* 100% continuous torque at Zero speed

* Auto Tuning to other manufacturer’s constant torque motor with encoder

* Easy to use Parameter Unit

* 4-Quadrant torque control standard

* Multiple parameters for tailoring to a wide variety of applications

* Simple positioning included as standard

* DC Link Reactor standard (V500L)

* Peripheral devices such as power regenerative converter (FR-CV, FR-RC, MT-RC) available

* Communications options: DeviceNet, Profibus DP, CC-Link, Modbus Plus, SSCNet

* UL, cUL, CE 

* Control Panel standard. Stores settings in non-volatile memory for copying to other drives.

* Low cost optional upgrade Parameter Unit, with 8 languages, back-light, 24 keys for direct numeric entry, non-volatile memory of all settings.

* RS-485 Multi-drop serial communication standard.

* Ease of maintenance: Removable control circuit terminal block, Quick fan change-out

* Open loop magnetic flux vector control.

* Closed loop flux—vector speed control, including 0 RPM holding torque, with encoder feedback option.

* Sink / Source selectable control logic.

mitsubishi-inverters.mrostop.com/a500-inverter/

Anchor Windlass Monitoring - prior to FAT. Monitor Systems Engineering.

Anchor Windlass Monitoring System

www.monitor-systems-engineering.com/anchor_monitoring_eng...

Monitor Systems computerised Anchor Windlass Monitoring System (AWS M2000) facilitates and adds real value to operator control. Using a uniquely simplified menu structure, the system provides increased accuracy and totally reliable measurement of anchor winch parameters with both central control room and local windlass monitoring displays. Speed and distance are measured through proximity sensors whilst tension is determined by sub-sea rated load cells or pins. Using stainless steel wall mounted cabinets, data is gathered using PLC DAQ, Profibus DP or fibre optic high-speed networks and shown in graphical and tabular formats. This flexible system can also be expanded to include other control functions required by the client.

Case Study

Anchor Windlass Monitoring System

Overview: The Anchor Winch Monitoring System installed onboard Dolphin Byford by Monitor Systems is designed to monitor anchor tension, chain length, payout speed and motor current in addition to providing control outputs for overspeed on all twelve winches holding the rig. Utilising a fibre optic network for communicating between winches and the control room, the system uses a Siemens PLC with remote HMI's in each windlass cab and two IPC's in the control room and pilot-house.

Two 300 tonnes load pins on the Brattvagg windlasses and hydraulic load cells with pressure transducers on the National windlasses measure anchor tension. Chain length and speed is verified by proximity sensors picking up targets on the main gypsy wheel.The system graphically displays tensions, speeds and chain lengths as well as providing trending of anchor tensions and built in alarm functions via colour touch screens in all winch cabs and the main control room. It also allows viewing of data from all winches at any station. Customer: Dolphin Drilling.

VALVE AUTOMATION CENTRE (ON/OFF & CONTROL) orientado al servicio en planta.

- Válvulas actuadas MOV/ON-OFF. Montaje, regulación y puesta en servicio de actuadores (eléctricos, neumáticos, hidráulicos). Mecanizado de piezas de acoplamiento. "Off-the-shelf delivery".

- Válvulas de Control. Regulaciónk, prueba y puesta en servicio de válvulas de control. Mecanizado de trims especiales para la corrección de problemas relacionados con las características de flujo tales como cavitación, flashing, choked flow o ruido.

- Valve Lab: Test de protocolos de comunicación y buses de campo (Device Net, Modbus, Hart, Profibus, Fieldbus, Rotork Pakscan...). Banco para el tarado de válvulas de seguridad. Cursos de formación SAIDI University

[ENG]

VALVE AUTOMATION CENTRE (ON/OFF & CONTROL) focused on plant service.

- Actuated valves MOV & ON-OFF. Mounting, regulation and start up of actuators (electric, pneumatic, hydraulic). Manchining of mounting kits. "Off-the-shelf delivery".

- Control Valves. Assembly, regulation, testing and start up of control valves. Machining of special trims for troubleshooting of the issues related to flow characteristics such as cavitation, flashing, choked flow or noise.

- Valve Lab. Communication test protocols and field buses (Device Net, Modbus, Hart, Profibus, Fieldbus, Rotork Pakscan...). Safety valve Test Bench. SAIDI University training courses.

Invergordon. Monitor Systems Engineering.

Anchor Windlass Monitoring System

www.monitor-systems-engineering.com/anchor_monitoring_eng...

Monitor Systems computerised Anchor Windlass Monitoring System (AWS M2000) facilitates and adds real value to operator control. Using a uniquely simplified menu structure, the system provides increased accuracy and totally reliable measurement of anchor winch parameters with both central control room and local windlass monitoring displays. Speed and distance are measured through proximity sensors whilst tension is determined by sub-sea rated load cells or pins. Using stainless steel wall mounted cabinets, data is gathered using PLC DAQ, Profibus DP or fibre optic high-speed networks and shown in graphical and tabular formats. This flexible system can also be expanded to include other control functions required by the client.

Case Study

Anchor Windlass Monitoring System

Overview: The Anchor Winch Monitoring System installed onboard Dolphin Byford by Monitor Systems is designed to monitor anchor tension, chain length, payout speed and motor current in addition to providing control outputs for overspeed on all twelve winches holding the rig. Utilising a fibre optic network for communicating between winches and the control room, the system uses a Siemens PLC with remote HMI's in each windlass cab and two IPC's in the control room and pilot-house.

Two 300 tonnes load pins on the Brattvagg windlasses and hydraulic load cells with pressure transducers on the National windlasses measure anchor tension. Chain length and speed is verified by proximity sensors picking up targets on the main gypsy wheel.The system graphically displays tensions, speeds and chain lengths as well as providing trending of anchor tensions and built in alarm functions via colour touch screens in all winch cabs and the main control room. It also allows viewing of data from all winches at any station. Customer: Dolphin Drilling.

Anchor windlass control cabin display. Monitor Systems Engineering.

Anchor Windlass Monitoring System

www.monitor-systems-engineering.com/anchor_monitoring_eng...

Monitor Systems computerised Anchor Windlass Monitoring System (AWS M2000) facilitates and adds real value to operator control. Using a uniquely simplified menu structure, the system provides increased accuracy and totally reliable measurement of anchor winch parameters with both central control room and local windlass monitoring displays. Speed and distance are measured through proximity sensors whilst tension is determined by sub-sea rated load cells or pins. Using stainless steel wall mounted cabinets, data is gathered using PLC DAQ, Profibus DP or fibre optic high-speed networks and shown in graphical and tabular formats. This flexible system can also be expanded to include other control functions required by the client.

Case Study

Anchor Windlass Monitoring System

Overview: The Anchor Winch Monitoring System installed onboard Dolphin Byford by Monitor Systems is designed to monitor anchor tension, chain length, payout speed and motor current in addition to providing control outputs for overspeed on all twelve winches holding the rig. Utilising a fibre optic network for communicating between winches and the control room, the system uses a Siemens PLC with remote HMI's in each windlass cab and two IPC's in the control room and pilot-house.

Two 300 tonnes load pins on the Brattvagg windlasses and hydraulic load cells with pressure transducers on the National windlasses measure anchor tension. Chain length and speed is verified by proximity sensors picking up targets on the main gypsy wheel.The system graphically displays tensions, speeds and chain lengths as well as providing trending of anchor tensions and built in alarm functions via colour touch screens in all winch cabs and the main control room. It also allows viewing of data from all winches at any station. Customer: Dolphin Drilling.

With the RFID controller BIS-V, Balluff fulfils the needs of the market for a compact processing unit that permits the simultaneous connection of up to four read/write heads. Both HF (13.56 MHz) in accordance with ISO 15693 and ISO 14443 as well as LF (125 kHz) read/write heads can be connected on the front with plug-in connectors and are automatically recognized; in addition, the RFID controller is the only device on the market to offer the possibility to connect IO-link-capable sensors or actuators directly as well. This results in considerable hardware and installation savings. The controller meets all requirements for an industrially suitable design (IP65, metal housing) and is equipped with a Profibus interface as well as USB as a service interface to the PC. There are many typical application areas for the intelligent combination of RFID controller and sensor technology. Users can profit from the use of less hardware and lower installation costs in identification tasks for material flow control in production facilities as well as for conveyor systems in machine construction, assembly lines, electric overhead rails or the entire intralogistics realm.

ProfiBus adapter, ProfiBus comminication card

I Askalons flödeslaboratorium används DeltaV styrsystem från Emerson Process Management för att reglera flödestesten av reglerventiler.

Testen utförs med tryckluft komprimerad till 5 bar tryck med upp till 300g/sek flöde.

Styrsystemet bygger på CHARacterization ModuleS (CHARMS) för att enkelt kunna byta I/O för HART, Foundation Fieldbus, Profibus eller WirelessHART enligt PlantWeb® tekniken.

The WAGO-I/O-SYSTEM 750/753 is characterised by its scope for universal application and extensive product portfolio. With more than 500 different modules, the versatility and flexibility is so great that virtually every requirement within the broadest range of industries is covered. Whether it’s industrial, process or building automation, sensitive safety applications, telecontrol or in hazardous areas: The WAGO-I/O-SYSTEM 750 provides the decentralised periphery required. International certifications such as IECEx, UL61010 or ABS, as well as several additional marine approvals mean that the WAGO-I/O-SYSTEM can be used worldwide for virtually any industry.

The WAGO-I/O-SYSTEM 750 XTR is instantly recognisable by its dark grey housing. Extremely temperature resistant, immune to interference, as well as unfazed by vibrations and impulse voltages — the WAGO-I/O-SYSTEM 750 XTR’s unique features make it ideal for extreme environments. WAGO meets all relevant guidelines in the area of IT security. The PFC100 and PFC200 are characterised by cross-platform real-time Linux. The PFC controllers use an open-source operating system that can be scaled, updated and support tools such as Rsync. The Linux foundation supports essential security protocols and is constantly being enhanced.

Other advantages include the support for CODESYS PLC runtime. Interface and fieldbus diversity: CANopen, PROFIBUS DP, DeviceNet, MODBUS TCP, RTU, IEC 60870, IEC 61850 and DNP 3.0. Maximum security requirements per ISO 27000 series. On-board VPN tunnel is also possible via IPsec/OpenVPN directly.

Furthermore, the controller encodes data directly via SSL/TLS 1.2 and support parallel data access via OPC UA or Cloud via MQTT.

Case study: WAGO technology increases efficiency in wastewater treatment

Using the WAGO Telecontrol RTUs, a controller module can be developed that gives operators of wastewater treatment plants need-based control of the blowers in their aeration tanks, depending on the degree of contamination in the wastewater. This type of control saves electricity, lowers nitrogen concentration in the discharge and increases operational reliability. Practical experience shows that in many cases, plant operators can recoup the investment through the waiver of the wastewater discharge fees alone.

Case study: Hydropower — forces firmly under control

Renewable energy from hydroelectric plants is an important part of the global energy transition. A high level of automation is required to operate hydroelectric plants economically. Among other things, WAGO solutions can be found in turbine controls that are connected to a higher-level SCADA system for monitoring and power station control.

Case study: Water resource management — intelligently networking measurement values

Using the right measurements is vital when optimising processes. This may sound easy, but usually it is anything but. Using the right measurements means determining that the data are actually relevant for the process analysis, evaluating the data using suitable mathematical models and bringing it into a targeted context. If this succeeds, then measures can be derived that have the potential to sustainably increase the efficiency of the process.

In wastewater treatment, data is primarily recorded in the sanitary sewer network or at wastewater treatment plants. Using WAGO RTUs, a solution that links data from geographically distant stations into a network can be established in a comparatively easy way.

Advantages of the above also include convenient measurement and monitoring of generation or consumption rates (eg, voltage, reactive power, active power, current, cos ᶲ, frequency and energy flow direction).

Cybersecurity: PFC100/PFC200 Controllers comply with current IT security regulations for grid operators and can be hardened as described in the BDEW white paper. Communication via telecontrol protocols per IEC 60870-5-101/-103/-104, 61400-25, 61850-7-420, MODBUS, DNP3. Separate ETHERNET interfaces permit the creation of parallel networks.

Cybersecurity: Encryption that follows Europe’s most stringent energy and security guidelines per BDEW and BSI. Cloud connectivity: Connection to the cloud thanks to an MQTT software upgrade. Password-protected web-based management prevents unauthorised users from changing system settings.

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1. Wet Drawing Machine Specifications:

1.1. Product material is high carbon steel

1.2. Wire-in diameter is 1.5mm

1.3. Wire-out diamet is 0.15mm

2. Equipment performance of Wet Drawing Machine:

2.1 Reliability: For electric control system, the international fashion PROFIBUS on site technology, controlled by whole digital control. All electric elements are international famous brands. The operation of electric control system runs stable and reliable.

2.2 Energy saving: AC frequency speed adjustable drive is adopted to reduce the impact to mechanical stroke. Meanwhile, it can reduce the energy cost by over 30%.

2.3 High efficiency: reduce the trouble taking place rate, improve the average working speed, improve production effectiveness largely.

2.4 Environmental protection: The wet drawing machine is whole enclosing design. The negative pressure principle is used to collect the dust produced when the steel wire is pull up draw and gather dust into the dedust equipment through air pipe. It improves the working environment when the steel wire pull and draw and remove the dust powder pollution during steel wire drawing course.

2.5 Outer visual: the outline of equipment is optimization for its structure, designed according to platform, meet to the international fashion, the same as or better than the imported equipment.

2.6 Safety: with multiply protection function, when the equipment runs in high speed so that the protection shell is opened and other trouble takes place, the equipment speed is reduced till stop.

2.7 Convenient: For each set, there are functions such as positive and negative inching, front linkage, rear linkage function. There are length preset display at main operational pulpit man-machine interface, speed preset display, trouble inquiry, equipment status display, computer die arrangement.

2.8 Low noise: for main drive, we adopt the hard gear surface speed reducing box + narrow V combination belt or two steps narrow V combination drive, reduce the driving noise effectively.

Shanghai Lishang International Trading Co.,Ltd. is a professional wire drawing machine manufacturer and wire drawing machine supplier in China.

www.chinacablemachinery.com

red-y smart series

mass flow controller

aluminium

gas connection G1/4

option profibus

vögtlin logo

red-y industrial series

mass flow meter

stainless steel

gas connection G1/4

M12 connector

ATEX/IP67

profibus

vögtlin logo

red-y industrial series

mass flow meter

stainless steel

gas connection G1/2

M12 connector

ATEX/IP67

profibus

vögtlin logo

red-y industrial series

mass flow meter

stainless steel

gas connection G1/4

cable gland

ATEX/IP67

profibus

vögtlin logo

red-y industrial series

mass flow meter

stainless steel

gas connection G1/2

cable gland

ATEX/IP67

profibus

vögtlin logo

Four manifolds can be controlled on one EtherNet/IP master and the manifolds can be distributed up to 20 meters from the master device.

Balluff valve manifold connectors are compatible with most major valve brands including: MAC, SMC, Festo, Parker, Bosch Rexroth, Norgren and Numatics. Balluff valve control solutions are compatible with EtherNet/IP, PROFINET, DeviceNet, Profibus, and CC-Link networks. By utilizing the vendor neutral communication standard, IO-Link (www.io-link.com), virtually any combination of networks and valve brands can be specified by the customer regardless of what is offered from the valve manufacturer alone.