Ressorts ondulés imbriqués de haute précision personnalisés avec fabricants de tampons ondulés Shim Ends

Description du produit

Ressorts ondulés imbriqués de haute précision personnalisés avec fabricants de tampons ondulés Shim Ends

Description:

  1. A wave spring, also known as a coiled wave washer spring or microwave spring, is a spring made up of pre-hardened flat wire in a process called on-edge coiling (also known as edge-winding). During this process, waves are added to give it a spring effect.
  2. Les ressorts MultiWave doivent être utilisés pour toutes les applications nécessitant des spécifications de déviation de charge serrées où l'espace axial est critique.
  3. Capacités : Épaisseur du ressort de 0,15 mm à 0,7 mm (0,006 ¡± à 0,0276 ¡±)
  4. Spring outside dia. from 12mm to 60mm(0.472¡±to 2.36¡±)

Please offer me your drawing or sample, so we can produce it according to your request.

Principe anti-desserrage de la rondelle élastique

Le principe anti-desserrage du ressort rondelle ondulée est qu'après avoir été aplatie, la rondelle élastique va générer une force élastique continue, de sorte que la paire de connexion filetée entre l'écrou et le boulon continuera à maintenir une force de frottement, générant un couple de résistance pour empêcher l'écrou de se desserrer. Dans le même temps, les angles vifs à l'ouverture de la rondelle élastique sont respectivement encastrés dans la surface du boulon et de la partie connectée, empêchant ainsi le boulon de tourner par rapport à la partie connectée.

La fonction principale de la rondelle élastique est de protéger la surface du connecteur et d'empêcher la surface de la pièce d'être rayée lorsque le boulon et l'écrou sont serrés ; la rondelle élastique est anti-desserrée. Cependant, pour certaines connexions importantes, telles que les endroits qui reposent principalement sur la compression pour générer une force de frottement pour transmettre la puissance, les coussinets à ressort ne peuvent pas être utilisés et la rigidité de la connexion est réduite, ce qui est sujet aux accidents.

La fonction de base de la rondelle élastique est de donner une force après le serrage de la vis et du boulon pour empêcher le desserrage. Augmentez la force de friction entre le boulon à vis et le matériau, de sorte que le matériau serre le matériau dans la vibration et empêche le desserrage entre le boulon à vis et le matériau. En termes simples, le rôle de la rondelle élastique est de jouer le rôle d'une mesure de protection.

La différence entre les rondelles plates et les rondelles élastiques

The elasticity of the ordinary spring washer is relatively large, and the anti-loosening effect is obvious and reliable by virtue of its large elastic force and the frictional force of the oblique opening. It is used for the anti-loosening occasion of the mechanical structure of the channel. The wave spring washer presses the connected parts by its elastic deformation to prevent loosening, The wave washer has a small elastic force, and the force is uniform, and the surface of the connected parts is not damaged. It is usually dedicated to occasions where general anti-loosening is required. For example, this type of washer is used to prevent the link between the two blades of hair clippers from loosening.

Les rondelles plates sont généralement utilisées pour augmenter la contact area between parts. Its principle is not only to reduce the damage of parts by increasing the contact area between parts but also to reduce the pressure between the nut and the equipment. It is an umbrella-like existence. Since the flat washer has no buffer, it cannot act as a shock absorber. In addition, compared with the spring washer, the flat washer has no anti-loosening function. The spring wave washer is different. The spring washer can play a good anti-loosening and anti-seismic effect according to its own elastic advantages.

When the strength of the connected parts is low, use flat washers or flange bolts to increase the contact area. When there is vibration, pulse, and large fluctuations in the temperature of the medium, spring wave washers must be used. The spring wave washer can increase the preload and prevent loosening, while the flat washer does not. However, due to the influence of material processes and other factors, the spring wave washer will break. Even so, some important connections, such as places that rely mainly on compression to generate frictional force to transmit power, cannot use spring pads, which reduce the rigidity of the connection and are prone to accidents.

Facteurs à prendre en compte lors du choix d'une rondelle ondulée

Les rondelles ondulées sont des dispositifs mécaniques utilisés pour fournir une précharge sur une fixation ou pour maintenir la position d'un composant. Lors du choix d'une rondelle ondulée, les facteurs suivants doivent être pris en compte :

  1. Matériau : les rondelles ondulées sont généralement fabriquées en acier à ressort, en acier inoxydable ou en d'autres matériaux durables. Vous devez choisir un matériau compatible avec l'application et capable de résister aux conditions environnementales dans lesquelles la laveuse sera utilisée.
  2. Capacité de charge : La laveuse doit pouvoir supporter les forces qui s'exerceront sur elle lors d'un fonctionnement normal.
  3. Corrosion resistance: If the washer is used in an environment where corrosion is a concern, it should be made of a material that is resistant to rust and other forms of corrosion.
  4. Plage de température : La laveuse doit pouvoir fonctionner dans la plage de température de l'application.
  5. Diamètre intérieur et extérieur : Les diamètres intérieur et extérieur de la rondelle doivent correspondre aux dimensions de la fixation ou du composant sur lequel elle sera utilisée.
  6. Hauteur et nombre de vagues : La hauteur et le nombre de vagues affecteront la force produite par la rondelle. Choisissez celui qui correspond aux besoins de votre application
  7. Réputation de la marque : C'est toujours une bonne idée de tenir compte de la réputation du fabricant lors du choix d'une laveuse à vagues, afin d'être sûr d'obtenir un produit de qualité qui répond à vos besoins.
  8. Conformité : Il est important de vérifier si la laveuse à vagues est conforme aux normes ou réglementations pertinentes de l'industrie, telles que celles établies par l'ASTM, l'ASME ou l'ANSI.

En tenant compte de ces facteurs, vous pouvez être sûr de sélectionner une laveuse à vagues bien adaptée à votre application et qui fournira des performances fiables dans le temps.

Pourquoi nous choisir?

  1. Expérience industrielle

Nous nous sommes spécialisés dans le domaine des ressorts ondulés depuis l'année 2009.

  1. Disponibilité des échantillons

We can send samples for your approval within 7 days; Free of charge if we have an available tool.

  1. Livraison rapide

Comme d'habitude dans les 7 jours.

  1. Bien service et meilleure qualité

Our business belief is “best competitive price, good service, and best quality”

Bon service:

Nous vous répondrons dans les 24 heures. Nous pouvons fabriquer des pièces non standard selon vos dessins. En tant que professionnel China wave washer company, nous vous fournirons le meilleur service après-vente.

Bas prix:

Le prix de notre des produits is reasonable and competitive than other manufacturers.

Expérience riche :

We have been engaged in the wave washer springs for 11 years. Our company has a good reputation with customers from America, Europe and Australia, etc. We also have a good team for sales and quality control.

 

rondelle ondulée

 

In the world of engineering and mechanical assemblies, achieving precision, reliability, and longevity is paramount. One often-overlooked component that plays a critical role in these aspects is the humble yet indispensable wave washer. This unassuming yet highly functional hardware device has found its way into a multitude of applications across various industries, from automotive and aerospace to electronics and manufacturing.

In this comprehensive product description, we will explore the myriad benefits and applications of wave washers, shedding light on how this unassuming component can make a significant difference in your engineering endeavors.

Understanding Wave Washers

Wave spring washers, also known as wave spring washers, exhibit a distinctive design characterized by their wave-like or corrugated shape. This design imparts them with unique mechanical properties, making them indispensable for various tasks where flexibility, preload, shock absorption, or vibration damping are essential.

The Science Behind the Wave Washer

Wave washers derive their exceptional functionality from their inherent spring-like action. When compressed axially, their wave-like structure allows them to flex and deform, generating a force that can be harnessed for specific purposes. This force can provide preload to maintain tightness in an assembly, compensate for thermal expansion, or absorb shocks and vibrations.

Applications of Wave Spring Washers

Wave spring washers find themselves at home in a wide array of applications across multiple industries. Below, we delve into some of the key sectors where wave washers play a pivotal role:

  1. Industrie automobile : In the automotive sector, wave washers are frequently used in suspensions, braking systems, and transmissions. Their ability to absorb shocks and reduce vibrations ensures a smoother and safer ride. Wave washers also help maintain the integrity of critical components in harsh automotive environments.
  2. Electronics and Electrical Engineering: In the electronics industry, wave washers are crucial for ensuring reliable electrical connections. They are often employed in connectors, switches, and circuit boards, where their spring-like action guarantees consistent electrical contact, even in high-vibration environments.
  3. Machinery and Manufacturing: Wave washers are indispensable in machinery and manufacturing assemblies, where precision and tightness are paramount. They are found in gearboxes, couplings, and various other mechanical systems, ensuring the integrity of critical components and reducing the risk of loosening due to vibrations.
  4. Aerospace and Defense: In the aerospace and defense sectors, reliability and performance are non-negotiable. Wave washers are used in a wide range of applications, from aircraft landing gear to missile systems. Their ability to withstand extreme conditions and maintain structural integrity makes them a staple in these industries.
  5. Dispositifs médicaux : The medical industry relies on wave washers for applications where precise preload and shock absorption are essential. From surgical instruments to diagnostic equipment, wave washers ensure the reliability and longevity of critical medical devices.

Types of Wave Washers

Wave washers come in various types, each tailored to specific applications and performance requirements:

  1. Single Wave Spring Washers: These are the most common type of wave washers, featuring a single wave-like structure. They provide a moderate amount of axial flexibility and are suitable for a wide range of applications.
  2. Multi-Wave Washers: Multi-wave spring washers feature multiple waves, offering increased axial deflection and higher spring rates. This makes them ideal for applications requiring greater preload or shock absorption capabilities.
  3. Curved Washers: Curved washers, as the name suggests, have a curved shape that allows them to distribute loads more evenly. They are often used in applications where flat washers would not suffice.

Materials and Customization

Wave washers are typically manufactured from materials such as spring steel, stainless steel, and even plastics. The choice of material depends on the specific application’s requirements and the environmental conditions in which the wave washer will operate.

Manufacturers often offer customization options, allowing engineers to tailor wave washers to their precise needs. Customization can include adjustments to the number of waves, wave height, material thickness, and outer diameter, ensuring that the wave spring washer perfectly complements the intended application.

Installation and Maintenance

Proper installation of wave washers is crucial to maximize their effectiveness. Manufacturers provide guidelines on installation procedures and torque values to ensure that the wave spring washer functions as intended. Regular maintenance involves inspecting wave washers for wear, damage, or deformation and replacing them promptly if any issues are detected.

Conclusion

In the intricate world of engineering and mechanical design, every component plays a vital role in achieving optimal performance, reliability, and longevity. Wave washers, with their unique wave-like design and spring-like action, stand as silent sentinels in countless applications across diverse industries. From absorbing shocks and vibrations in automotive suspensions to maintaining electrical connections in advanced electronics, wave spring washers are the unsung heroes of engineering assemblies.

Whether you are a seasoned engineer seeking to enhance the performance of your machinery or a designer aiming to ensure the reliability of your medical device, wave washers have a role to play. Their versatility, coupled with the ability to customize them to precise requirements, makes them an invaluable asset in achieving engineering excellence.

In your quest for precision, reliability, and performance, don’t underestimate the power of the wave washer. Embrace this unassuming yet indispensable component, and watch as it transforms your engineering endeavors into feats of ingenuity and dependability.

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