30SD10-40 Solenoid Directional Valve

The 30SD10-40 solenoid directional valve is a high-performance industrial component designed to deliver precise and reliable fluid control in a variety of applications. With its advanced features, durable construction, and user-friendly design, this solenoid directional valve offers enhanced efficiency and operational reliability.

The 30SD10-40 solenoid directional valve is a reliable and versatile component that offers precise fluid control in industrial applications. Its robust construction, precision control, and reliable performance enhance efficiency and productivity in fluid control systems. By following the recommended usage methods and maintenance guidelines, you can ensure optimal performance and longevity of the 30SD10-40 solenoid directional valve in your industrial operations.

30SD10-40 Solenoid Directional Valve Characteristics:

• Robust Construction: The 30SD10-40 solenoid directional valve is built with exceptional craftsmanship and high-quality materials, ensuring durability and longevity. Its sturdy construction allows it to withstand demanding industrial environments, providing reliable performance even in harsh conditions.
• Versatile Functionality: This solenoid directional valve offers versatile functionality, making it suitable for a wide range of applications. It effectively controls the direction of fluid flow, enabling precise and efficient operation in various industrial systems.
• Precision Control: The 30SD10-40 solenoid directional valve provides exceptional precision in fluid control. It allows for accurate regulation and adjustment of fluid direction and pressure, ensuring optimal performance and efficiency in industrial processes.
• Reliable Performance: This solenoid directional valve delivers reliable performance, minimizing the risk of system failures or interruptions. It operates with dependability, contributing to increased productivity and reduced downtime in industrial operations.

30SD10-40 Solenoid Directional Valve Parameter:

Pression nominale	207 bars (3000 psi)
Débit de pointe	23 L/min (6 gpm)
Fluide	À base minérale ou synthétique avec propriétés lubrifiantes
Temperature range ℃	-54 à 107 ℃ (Joints en polyuréthane)
	-40 à 100 ℃ (joints Buna N)
	-26 à 204 ℃ (Joints en fluorocarbone)
Plage de viscosité	7,4 à 420 mm2/s
Degré de contamination	Le niveau de pollution minimum est ISO4406 niveau 20/18/14, et le niveau 17/15/13 est recommandé pour prolonger la durée de vie
fuite interne	≤ 82 mL/min à 207 bar
Cavité	VC10-4
Capacité nominale de la bobine	Continu de 85% à 115% de tension nominale
Consommation initiale de courant de la bobine à 20 ℃	Bobine électronique	1,7 A à 12 V CC ; 0,85 A à 24 V CC
	Bobine D	1,67 A à 12 V CC ; 0,83 A à 24 V CC
Tension d'appel minimale	85% de pression nominale à 207 bar

30SD10-40 Solenoid Directional Valve Advantages:

• Bobine nominale à service continu
• Les cartouches sont interchangeables en termes de tension
• Bobines électroniques étanches en option classées IP69K
• Construction efficace à armature humide
• Cavité commune industrielle
• Pièces trempées pour une longue durée de vie

Usage Method Of 30SD10-40 Solenoid Directional Valve :

• Integration into the System: Integrate the 30SD10-40 Solenoid Directional Valve into the fluid control system following the manufacturer’s guidelines and specifications. Ensure proper alignment and connection between the valve and other system components to achieve optimal performance.
• Electrical Connection: Establish a secure electrical connection for the solenoid directional valve. Follow the provided wiring diagram and ensure correct polarity to prevent electrical malfunctions. Adhere to safety guidelines when working with electrical connections.
• Fluid Flow Direction Control: Utilize the solenoid directional valve to control the direction of fluid flow. The valve is typically equipped with a lever or actuator for manual adjustment. Alternatively, it can be integrated into an automated control system for remote operation.
• Pressure Adjustment: Use the solenoid directional valve to regulate fluid pressure within the system. Adjust the valve’s settings to achieve the desired pressure levels for optimal performance and efficiency.

How To Read Hydraulic Valve Schematics?

Reading hydraulic valve schematics requires a basic understanding of hydraulic symbols and their meanings. Here are the steps to help you read hydraulic valve schematics:

1. Familiarize Yourself With Hydraulic Symbols: Hydraulic schematics use graphical symbols to represent various components and functions. Common symbols include squares for valves, lines for pipes or hoses, arrows for flow direction, and circles for pressure or flow control devices. Make sure you understand the meaning of these symbols before proceeding.
2. Identify The Valve Types: Look for the valve symbols in the schematic. Valves can be represented by squares with different shapes and orientations. For example, a square with a diagonal line represents a check valve, while a square with an arrow inside denotes a directional control valve.
3. Determine The Valve Function: Each valve symbol indicates its specific function. Directional control valves determine the flow direction of hydraulic fluid, while pressure control valves regulate pressure levels. Flow control valves manage the rate of fluid flow, and check valves allow flow in one direction only.
4. Observe The Valve Connections: Pay attention to the lines or arrows entering and exiting the valve symbol. These lines represent the hydraulic fluid flow paths. Arrows indicate the flow direction, and lines connecting valves and other components indicate the connections.
5. Analyze The Valve Ositions: Some hydraulic valve schematics include symbols to illustrate the valve positions. These symbols typically depict the valve spool or lever in different positions, such as open, closed, or partially open. Understanding the valve positions helps you determine the flow paths and the state of the hydraulic system.
6. Consider Additional Symbols And Annotations: Hydraulic schematics may include additional symbols and annotations to indicate pressure gauges, flow meters, filters, accumulators, or other components. Familiarize yourself with these symbols and their meanings to gain a comprehensive understanding of the system.
7. Follow The Flow Paths: Trace the flow paths from the hydraulic power source through the various valves and components to the actuator or desired output. Understand how the valves interact with one another and how they control fluid flow, pressure, and direction to achieve the desired system operation.
8. Refer To The Legend Or Key: The schematic should have a legend or key that explains the meaning of each symbol used in the diagram. If you encounter unfamiliar symbols or have doubts about their meaning, refer to the legend for clarification.
9. Seek Additional Resources If Needed: If you need a more in-depth understanding of hydraulic valve schematics, consider referring to hydraulic textbooks, online resources, or consulting with hydraulic experts who can provide guidance and explanations tailored to your specific needs.

Capacité de l'usine :

(1) Assemblage

Nous disposons d'une plateforme d'assemblage indépendante de recherche et développement de premier ordre. Notre atelier de production de vérins hydrauliques dispose de quatre lignes d'assemblage semi-automatiques de vérins de levage et d'une ligne d'assemblage automatique de vérins d'inclinaison, pour une capacité de production annuelle prévue d'un million de pièces. L'atelier de vérins spéciaux est équipé d'un système d'assemblage de nettoyage semi-automatique de diverses spécifications, d'une capacité de production annuelle prévue de 200 000 pièces et dispose d'équipements d'usinage CNC de pointe, d'un centre d'usinage, d'équipements spéciaux d'usinage de haute précision, d'une machine de soudage robotisée, d'une machine de nettoyage automatique, d'une machine d'assemblage automatique de vérins et d'une ligne de peinture automatique. Nous disposons de plus de 300 équipements critiques. L'allocation optimale et l'utilisation efficace des ressources garantissent la précision et la qualité des produits.

(2) Usinage

L'atelier d'usinage est équipé d'un centre de tournage sur rail incliné personnalisé, d'un centre d'usinage, d'une machine à honer à grande vitesse, d'un robot de soudage et d'autres équipements connexes, qui peuvent traiter des tubes cylindriques d'un diamètre intérieur maximal de 400 mm et d'une longueur maximale de 6 mètres.

(3) Soudage

(4) Peinture et revêtement

Avec des lignes de revêtement de peinture à base d'eau automatiques à cylindre de petite et moyenne taille, pour réaliser le chargement et le déchargement automatiques par robot et la pulvérisation automatique, la capacité de conception est de 4 000 pièces par équipe ;
Nous disposons également d'une ligne de production de peinture semi-automatique pour gros cylindres, alimentée par une chaîne de traction, d'une capacité de conception de 60 caisses par équipe.

(5) Essais

Nous disposons d'installations d'inspection et de bancs d'essai de premier ordre pour garantir que les performances de la bouteille sont conformes aux exigences.

 

 

Nous sommes l'un des meilleurs fabricants de vérins hydrauliques. Nous proposons une gamme complète de vérins hydrauliques. Nous fournissons également les vérins correspondants. boîtes de vitesses agricolesNous exportons nos produits dans le monde entier et nous avons acquis une excellente réputation grâce à la qualité supérieure de nos produits et à notre service après-vente. Nous invitons nos clients, nationaux et internationaux, à nous contacter pour négocier, échanger des informations et… coopérer avec nous!