Hjem > Blog > Fælles problem > Traditionelle kraftfjedre og forspændte fjedre

Traditionelle kraftfjedre og forspændte fjedre

kilde:Qianye præcision tid:2022-9-14

   Traditional power springs and preloaded power springs are fabricated from spring steel bars to provide torque. Spring steel is a low alloy, medium carbon steel or high carbon steel with a very high yield strength. Objects made of spring steel can return to their original shape despite significant bending or twisting. Power springs use flat (unstressed) steel windings, while pre-stressed power springs use pre-stressed steel to produce a larger range of usable torque than conventional power springs.

       During the manufacturing process, the spring is wound into the retaining ring or the customer’s housing (the retaining ring is pictured below). When ready for final installation, carefully install the spring into its housing with the outer end attached to the outer edge and the inner end attached to the mandrel (see photo below). During operation, the housing or mandrel will be fixed while the other component is free to rotate. Depending on the requirements of your specific design, it may be beneficial to use a fixed mandrel/free box or free box/fixed mandrel arrangement.
       These springs are typically used to retract the cord or cable of the spool. You might see it in lawn mowers, retractable lanyards, or dog leashes. This is also the type of spring used to drive many mechanical clocks and timers, which is why they are sometimes called “clock springs”. The load provided by the spring increases with the cross-sectional area of ​​the material. The number of turns the spring can provide depends on the space available between the mandrel and the housing and the overall length of the spring. All preloaded power springs need to be preloaded from their free state to reach their effective operating range.
       We already know the basics of power springs. Here are the issues to avoid in power spring design:
       1. Mandrel and housing
       A common problem we see from customer requests is undersized housing and oversized mandrel designs. Small boxes and large mandrels will not result in a qualified power spring design. This can cause various problems. Each time the mandrel and housing rotate relative to each other, the spring material moves. As the spring is wound, the outer coil moves toward the middle, engaging the spring more to provide torque in the opposite direction. As spring unfolds, the outer coil returns to its natural state. The travel of the spring material from outside to inside is critical to delivering torque. If this space is limited, performance suffers.
       2. Underestimate weight.
       If you plan to use a spring to push, pull, or otherwise push a component that contains a spring, you need to consider the weight of that spring. When you increase the torque and turns required for a power spring, you will inevitably increase the size of the spring. By increasing the size of the spring, you will also design a heavier spring. A heavier spring will require more torque to overcome the added weight. Heavy power springs or very strong springs with limited range of motion due to fewer turns available.
3. Maximum constant torque of the power spring.
       A common misconception is that the maximum torque that can be specified for a spring is seen throughout its entire range of rotation (number of turns). The preloaded power spring spring needs several turns, called the acceleration period, to reach the useful range, which we call the “useful turns”. When winding a small number of turns, the spring will provide less torque than the maximum. When discussing your spring design with Qianye Precision, be sure to pay attention to the torque value required within your working range so that we can design a torque curve that suits your needs. The final maximum torque specification may exceed the torque required for the application.
       4. Forgetting about installation
       When designing spring boxes and mandrels, it can be critical to avoid situations that require “blind” assembly or complex fits between springs and assembled components. This has the potential to slow down the final assembly of the product.
       Whether you need standard power springs or customized power springs, you can contact Shenzhen Qianye Precision Metal Co., Ltd. to use professional technology to meet your specified requirements, and design, develop, and proof products according to your needs, so that your products can be found The best solution to meet your application needs.

Seneste nyt

 China High Cycle Torsion Springs: The Key to Long-lasting and Efficient Performance
China High Cycle Torsion Springs: The Key to Long-lasting and Efficient Performance

Time:2023-7-22

Torsion springs are an essential component in many mechanical systems, providing the necessary torque to create rotational motion. They are commonly found in a wide range of applications, including automotive, aerospace, industrial machinery, and even everyday household items. However, not all torsion springs are created equal. High cycle torsion springs, in particular, offer distinct advantages in terms of durability, longevity,...

 Advantages of Qianye power spring in electrical take-up
Advantages of Qianye power spring in electrical take-up

Tid: 2022-9-14

As we all know, take-up spring can help take-up. It is used in many electrical products, and hair dryer is no exception. However, all such household appliances have a common feature, that is, they need a wire group to connect the power supply. However, this power line will bring some trouble to our sorting. The function of winding up lies...

 Constant Force Linear Spring: The Science Behind Its Functionality
Constant Force Linear Spring: The Science Behind Its Functionality

Time:2023-6-3

Springs are an essential component in many mechanical systems, from the suspension systems in vehicles to the hinges on doors. In particular, constant force linear springs are widely used in a variety of applications where a constant force is required over a long distance. In this article, we will explore the science behind the functionality of constant force linear springs....

 Constant Torque Spring: A High-Performance Solution for Precision Applications
Constant Torque Spring: A High-Performance Solution for Precision Applications

Time:2023-6-4

Precision applications often require high-performance solutions that can deliver consistent and reliable results. Constant torque springs are one such solution that can provide the required level of accuracy and precision for a wide range of applications. A constant torque spring is a type of mechanical spring that delivers a constant torque output over a defined range of motion. It achieves...

 Spiral Wound Torsion Spring: A Complete Guide
Spiral Wound Torsion Spring: A Complete Guide

Time:2023-6-6

Spiral wound torsion springs are a type of spring that operates by twisting around its axis. These springs are commonly used in a variety of applications, including automotive, aerospace, medical, and industrial machinery. In this article, we will provide a complete guide to spiral wound torsion springs, including their design, materials, and applications. Design of Spiral Wound Torsion Springs Spiral...

 Buy Variable Force Spring: The Perfect Solution for Adjustable Tension
Buy Variable Force Spring: The Perfect Solution for Adjustable Tension

Time:2023-7-30

Introduction In various industries and applications, the need for adjustable tension arises frequently. Whether it is in the field of manufacturing, automotive, or even medical devices, being able to regulate tension is crucial for achieving desired results. One of the most efficient and reliable solutions for adjustable tension is the variable force spring. This article aims to explore the benefits...

Product