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Suzhou Hengxie Machinery Co., Ltd.

We are an enterprise specializing in the research, development, production and sales of cable equipment series products.

Suzhou Hengxie is China Electrical Cabinet Manufacturers. Our main products of company are as following: 9, 13 dies rod breakdown machine and 17 dies medium drawing machine (chain or ground gear transmission type), medium and large drawing machine with continuous annealer, 14 dies medium and fine wire drawing machine, 22 or 24 dies fine wire drawing machine, 20 or 24 dies super fine wire drawing machine, annealing and tinning machine, medium wire drawing machine with double spooler, and hing speed auto stranding machine, etc.Our products include both domestic market and oversea market such as India, Brazil,Egypt, Malaysia, Korea, Vietnam, Syria, Kenya, Argentina, South Africa and Iran. With the concept of stable quality and mutual development, Hengxie welcomes all customers from the world to create a sincere cooperation and win-win benefit in the future.

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Industry knowledge

How can electrical cabinets be effectively ventilated to save you from overheating and shield touchy additives?
There are numerous techniques for successfully ventilating electric shelves to save you from overheating and guard sensitive components:
1. Natural Ventilation: Ensure that the cupboard is placed in a nicely ventilated area with proper air movement. Leave enough space across the cabinet for air to go with the flow freely.
2. Forced Convection: Install fanatics or blowers within the cabinet to create air movement. These fanatics may be either AC-powered or DC-powered based totally on the cabinet's strength source.
3. Air Filters: Use air filters to prevent dust, debris, or overseas particles from entering the cupboard. Regularly smooth or update those filters to maintain the right airflow.
4. Heat Exchangers: Install warmth exchangers to get rid of warmth from the cabinet and preserve a cool operating temperature. These can be of numerous kinds, which include air-to-air, air-to-water, or liquid-to-liquid warmness exchangers.
5. Additional Cooling Equipment: In a few cases, it may be important to incorporate additional cooling gadgets, together with air conditioners or liquid cooling systems, to ensure the right temperature manipulation.
6. Thermal Management System: Use a thermal management system that monitors the temperature inside the cabinet and adjusts the cooling mechanisms for this reason. These structures may additionally encompass sensors, thermostats, and manipulate units for automated temperature law.
7. Proper Cable Management: Ensure that cables in the cupboard are well organized to reduce warmness generation and allow for better airflow.
8. Ventilation Openings: Incorporate air flow openings or perforated panels on the edges, top, or returned of the cabinet to permit hot air to escape and funky air to enter.
Nine. Regular Maintenance: Regularly inspect and smooth the cupboard, along with all cooling devices, filters, and enthusiasts, to ensure top-rated performance.
It is essential to consult electrical and cooling experts whilst designing and enforcing air flow systems to ensure compliance with protection standards and the particular necessities of the touchy components within the electric cupboard.
What are the key issues for integrating electrical shelves into automation or manipulating structures?
When integrating electric-powered cabinets into automation or manipulation systems, there are numerous key issues to keep in thoughts:
1. Cabinet Design: Ensure that the cabinet is designed to satisfy the unique requirements of the automation or control device. This consists of elements such as length, layout, and compatibility with the equipment and components as a way to be housed in the cabinet.
2. Cable Management: Implement effective cable control solutions to set up and path the diverse cables and wires in the cupboard. This facilitates less interference, improves accessibility, and simplifies maintenance and troubleshooting.
3. Environmental Factors: Consider the environmental conditions where the cupboard may be located. This includes temperature, humidity, vibration, and dust levels. Take suitable measures to protect the cabinet and its components from these elements, together with the use of sealed shelves, cooling systems, or dust filters.
4. Electrical Safety: Ensure that the cabinet meets all applicable electric safety requirements and pointers. This consists of the right grounding and insulation, safety in the direction of electric surprise, and suitable circuit breakers and fuses.
5. Accessibility and Maintenance: Design the cupboard in a way that allows for clean accessibility to the components for protection, preservation, and upgrades. Consider features along with detachable panels, modular introduction, and clear labeling of additives.
6. Integration with Control System: Ensure that the cabinet is properly proper and properly blanketed with the automation or manipulation tool. This consists of considerations that encompass communique protocols, input/output connections, and compatibility with the general system structure.
7. Documentation and Labeling: Properly file and label all additives, connections, and wiring within the cabinet. This enables destiny preservation, troubleshooting, and gadget increase.
By retaining these problems in mind, electric-powered cabinets may be efficiently integrated into automation or control structures to ensure sure highest quality performance, reliability, and protection.