Avoiding design errors in wire bending parts and wire formed parts

Various errors can occur when designing bent wire parts and formed wire parts.
The most common errors and problems can be avoided by:

Incorrect material selection
A common error is the use of an unsuitable material.
Choosing the right material is crucial for the function and service life of the part.

To avoid this:
- Use material databases and special software for material selection
- Contact specialists such as manufacturers of wire bending parts and wire formed parts
- Consider factors such as technical properties, environmental compatibility and availability
- Choose a material that has the required strength, elasticity and resilience

Insufficient consideration of the loads
The actual loads to which the part will be exposed are often underestimated or incorrectly estimated.
This can lead to premature failure.

To avoid this:
- Conduct a detailed analysis of the expected forces and stresses
- Contact specialists such as manufacturers of wire bending parts and wire formed parts
- Consider dynamic loads and fatigue
- Use finite element analysis (FEA) for complex 3D shapes

Neglecting manufacturing aspects
Manufacturability and feasibility are often not sufficiently considered, which leads to problems or increased costs in production.

To avoid this:
- Consider the possibilities and limitations of the bending machines
- Contact specialists such as manufacturers of wire bending parts and Wire forming parts
- Avoid bending radii that are too tight, which could overload the material
- Plan sufficient tolerances for production

Incomplete specifications and inaccurate description of the application
Inaccurate or incomplete specifications can lead to misunderstandings and errors.

To avoid this:
- Precise information on shape, size, material and tolerances
- Contact specialists such as manufacturers of wire forming parts and wire forming parts
- Clear definition of functional requirements
- Consideration of surface properties and post-treatment
- Precise information on external influences and environmental conditions such as resistance to salt water, acids, alkalis or load peaks

Neglect of Overall design
Bent wire parts are often viewed in isolation, without considering their interaction with other components
To avoid this:
- Consider the bent wire part in conjunction with the overall design and especially the connection points to the surrounding structure
- Contact specialists such as manufacturers of bent wire parts and wire moldings
- Consider the possibility of easy assembly and maintenance

By carefully planning and considering important aspects, many of the most common errors in the design of bent wire parts and wire moldings can be avoided.
With a holistic view that includes material, loads, environmental influences, production and function and other aspects, creates the basis for an efficient, durable and successful design of bent wire parts and wire moldings.


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Reiner Schmid Produktions GmbH Specialist and expert for the manufacture, production, production, development and sample production of torsion springs, double torsion springs and bent wire parts.

Abstract:
The manufacture, production and production of torsion springs, double torsion springs and bent wire parts is carried out in small series, large series and variant production.
The calculation, development and testing of torsion springs, double torsion springs and bent wire parts takes place before each production.
We offer customers a comprehensive application-related service such as advice, calculation, development and sample production for torsion springs, double torsion springs and bent wire parts.

Keywords:
torsion spring, torsion springs, double torsion spring, double torsion springs, bent wire part, bent wire parts

The torsion spring:
Cylindrical torsion springs or also known as torsion springs, helical torsion springs are widely used and versatile machine elements components in the world of mechanics and spring technology.
The structure of a cylindrical torsion spring consists of a wire that is wound in a helical shape around a central axis in even turns.

torsion springs are used to absorb and release a rotating movement, a torque or a force and to guide the movement of the legs.
torsion springs are characterized by the ability to absorb and release deflections, forces or torques around a rotation axis and to guide the rotational movement.
torsion springs usually have a cylindrical spring body on which two legs are arranged.
The legs can be arranged tangentially, radially or axially, whereby each leg can have a different arrangement. Different spring end shapes can be attached to the end of the two legs, e.g. straight leg, hook shape, eyelet shape, round or square.
The terms "torsion spring", "torsion spring" and "torsion spring" refer to the same component.
More detailed information about torsion springs, torsion springs, torsion springs - torsionally resilient wound metal spring ...

The double torsion spring:
Double torsion springs, double torsion springs and double torsion springs are widely used and versatile machine elements in the world of mechanics and spring technology.
The structure of a double torsion spring consists of a wire that is wound in a helical shape in even turns to form two separate spring bodies. The two spring bodies are connected by a wire, which is usually designed as a U-shaped web.
The legs or spring ends of the double torsion springs are usually attached to the outside of the respective spring body. The force or torque is introduced either via the U-shaped web or via the legs. The double torsion spring is usually guided via a mandrel, axle or bolt.
Double torsion springs, double torsion springs and double torsion springs are used to absorb or release a rotating movement, torque or force. Double torsion springs are characterized by the ability to absorb or release deflections, forces or torques around a rotation axis. The legs can be arranged tangentially, radially or axially, whereby each leg can have a different arrangement. Different spring end shapes can be attached to the end of the two legs, e.g. straight leg, hook shape, eyelet shape, round or square.
More detailed information on double torsion springs, double torsion springs and double torsion springs ...

The wire bent part:
In practical use, standardized wire bent parts such as spring rings, snap rings, retaining rings, clips, pins, etc. are found. A paper clip or a staple clip also belongs to the wire bent parts, wire form springs and bent parts.
However, in practical use, non-standardized, individual, application-specific designed wire bent parts are mostly used. Wire form springs and bent parts are used.
The focus is on the function of the component: e.g. securing, protecting, holding, positioning, clamping or springing.
Wire form springs, wire form springs and bent parts made of spring steel wire are important components in various industries and applications. Bent wire parts are special machine elements that usually have springy properties.
They are made into a specific shape by bending wire and offer a variety of advantages in terms of flexibility, cost-effectiveness and functionality.
More detailed information on bent wire parts, wire form springs and bent parts ...