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SHOWA SPRING Tension Springs(Allowable Load (Configurable Range):110.01~)

SHOWA SPRING offers products Tension Springs specified by Allowable Load (Configurable Range) 110.01~ from Automation Components product category. There are a total of 1 items. Search and select detailed specifications of parts for your machine with free CAD downloads. SHOWA SPRING products are available to order through MISUMI online 24 hours a day. Free shipping, no minimum order.

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    Extension Coil Spring (SWP-A)
    Extension Coil Spring (SWP-A)
    Extension Coil Spring (SWP-A)

    Extension Coil Spring (SWP-A)【3 Pieces Per Package】

    SHOWA SPRING

    Standardized product made of piano wire or stainless steel wire for general-purpose cold moldingbr>
    [Features]
    · Standardized tensile coil spring made of piano wire (φ 0.32 mm to φ 2.3 mm in diameter) or stainless steel wire (φ 0.32 mm to φ 2.3 mm in diameter) for cold molding in general use.
    · Piano wire: 180°C to 250°C Low temperature annealing, Black oxide finish surface.
    · Stainless steel wire for spring: 250°C to 450°C Low temperature annealing. No surface treatment

    Free Length Lf(mm) Coil Outer Dia. OD(Ø) Allowable Load (Configurable Range)(N) Wire Dia. d(Ø) Material Length L2 at Allowable Load(mm) Hook Opposing Angle Spring Constant k(N/mm) Type Allowable Load P2(N) Initial Tension Pi(N) Total Number of Winding N Max. Deflection(mm)
    65 ~ 150 16 ~ 20 110.01~ 2.3 Stainless Steel Wire / Piano Wire - 180° (Standard) 1.041 ~ 6.464 Standard Type 118.98 ~ 158.02 27.14 ~ 45.3 - 15.4 ~ 88.2
    From: ₹ 345.26
    Days to Ship: 5 Day(s) or more
    day to ship 5 Day(s) or more
Brand
Product Series
From
Days to Ship
Free Length Lf(mm)
Coil Outer Dia. OD(Ø)
Allowable Load (Configurable Range)(N)
Wire Dia. d(Ø)
Material
Length L2 at Allowable Load(mm)
Hook Opposing Angle
Spring Constant k(N/mm)
Type
Allowable Load P2(N)
Initial Tension Pi(N)
Total Number of Winding N
Max. Deflection(mm)

You can add up to 6 items per a category to the compare list.

Extension Coil Spring (SWP-A)
    Extension Coil Spring (SWP-A)
    Extension Coil Spring (SWP-A)
    Brand

    SHOWA SPRING

    Product Series

    Extension Coil Spring (SWP-A)【3 Pieces Per Package】

    From

    ₹ 1,035.78-

    Days to Ship 5 Day(s) or more
    Free Length Lf(mm)65 ~ 150
    Coil Outer Dia. OD(Ø)16 ~ 20
    Allowable Load (Configurable Range)(N)110.01~
    Wire Dia. d(Ø)2.3
    MaterialStainless Steel Wire / Piano Wire
    Length L2 at Allowable Load(mm)-
    Hook Opposing Angle180° (Standard)
    Spring Constant k(N/mm)1.041 ~ 6.464
    TypeStandard Type
    Allowable Load P2(N)118.98 ~ 158.02
    Initial Tension Pi(N)27.14 ~ 45.3
    Total Number of Winding N-
    Max. Deflection(mm)15.4 ~ 88.2

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    1. 1

    Related Categories to Tension Springs

    FAQ Tension Springs

    Question: For what purpose are tension springs utilized?
    Answer: Tension springs are widely utilized in factory automation for various purposes, including maintaining tension and control in conveyor systems, balancing robotic arms for precise movements, ensuring the proper functioning of safety devices, providing force in assembly and packaging equipment, and enabling secure gripping in industrial tools. These springs play a crucial role in ensuring smooth operation, precise movement, and reliable performance in automated systems and equipment used in factory automation processes.
    Question: What distinguishes tension springs from torsion springs?
    Answer: Tension springs are designed to resist stretching forces, whereas torsion springs resist twisting or rotational forces. Tension springs extend when a force is applied, while torsion springs exert torque when twisted. Their distinct designs enable them to serve different purposes in different mechanical systems.
    Question: How do you measure the strength of a tension spring?
    Answer: Measuring the strength of a tension spring involves using a force gauge or a load cell. These tools help in gradually applying weights or loads to the suspended spring while measuring its extension. The spring rate, which represents the spring's strength, is calculated by dividing the change in force by the change in length when the spring is extended.
    Question: What are the common materials used to make tension springs?
    Answer: Tension springs are commonly made from materials like stainless steel, music wire (high-carbon steel), or various alloys. Stainless steel offers corrosion resistance, while music wire provides high strength. Alloy materials offer specific properties like heat resistance or conductivity, depending on the application requirements.
    Question: Can a tension spring be adjusted or calibrated for a specific application?
    Answer: Yes, tension springs can be adjusted or calibrated for specific applications. By altering factors like the wire diameter, numbers of turns, or length, the spring's characteristics such as force, tension, or extension can be modified. This allows for customization to match the requirements of a particular application. However, adjusting tension springs should be done carefully, considering the intended function and safety considerations.
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