4 thoughts on “What are the parameters of the compressed spring”
Trevor
What are the parameters of the compressed spring? First of all, look at a formula: The meaning in each formula above is: g = shear elastic modulus [MPA, PSI] (G value is: steel wire 8000 8000 , Stainless Steel 7200) D = wire diameter [mm, in] n = effective circle number [-] d = center diameter [mm, in] k = spring coefficient [n/mmm LB/in] This formula is the calculation formula of the spring stiffness. The rigidity multiplied by the work itinerary is equal to the work of this spring. Through the above formula, we can draw that the parameters of the compressed spring must be: material, wire diameter, center diameter, valid number of circles, springs, work height, and demand intensity. If there is no spring that requires special requirements, it can not provide parameters of the work height and demand for the spring. It hope to help you! Thanks!
Firstly, the compression spring company, The compressed spring (pressure spring) is a spiral spring that is affected by pressure. The section of the materials used is mostly round, and it is made of rectangular and multi -steel rolls. The spring is generally equal. The shape of the compressed spring is: cylindrical, conical, medium convex and medium concave, and a small amount of non -circular shape. There is a certain gap between the circle of compressed spring and the circle. Substalliring deformation, storage deformation energy. The compression spring formula: The meaning in each formula above is: g = shear elastic modulus [MPA, PSI] (G value is 8000 steel wire, stainless steel 7200) ) ) r nd = wire diameter [mm, in] n = effective circle [-] d = center diameter [mm, in] k = spring coefficient [n/mm, lb/in] This formula is the calculation formula of the spring stiffness. The rigidity multiplied by the working itinerary is equal to the work of this spring [2]. Through the above formula, we can draw that the parameters of the compressed spring must be: material, wire diameter, center diameter, valid number of circles, springs, work height, and demand intensity. If there is no spring that requires special requirements, it can not provide parameters of the work height and demand for the spring.
Stretching spring size and parameter GB/T1973.3-1989, small cylindrical spiral compressed spring size and parameter GB/T2087-2001, cylindrical spiral stretching size and parameter (semi -circular hook type) GB/T2088-1997. 1. The compressed spring is a spiral spring that is affected by stress. The cross section of the material used is mostly round, and it is made of rectangular and multi -steel rolls. The spring is generally equivalent. : Cylindrical, conical, medium convex and concave, and a small amount of non -circular shape. There is a certain gap between the compressed spring and the circle. When the external load is affected, the spring is shrunk and deforms, and the storage deformation energy is stored. 2, compressed spring on the external load pressure provides resistance. The compressed spring is generally a metal wire equivalent and a fixed line diameter. The compressed spring uses multiple open coils to carry out the external loading pressure (such as gravity to press down the wheels, or the body is pressed on the mattress) to provide resistance. 3, compressed spring is generally metal wire equivalent and fixed wire diameter. In addition, there are conical compressed springs, or cone and straight springs. 4. Depending on different application areas, compressed spring can be used to resist stress and / or) energy storage. Round metal wire is the most commonly used for compressed spring, but also has a compressed spring made by square, rectangular and special -shaped metal wires.
The first parameters to be known to make a compressed spring are the line meridian, outer diameter, length, number of circles, materials, etc. After knowing these parameters, it is best to know if you want to grind your head. If it is the surface of carbon steel materials, whether to do rust -proof treatment, if you have the force value, you need to provide the working length, and the value of the power can make it more suitable for the manufacturer to calculate that material is more suitable for that material is more suitable Your needs. If you have any other people who do n’t understand, you can ask me at any time. It does n’t matter if you do n’t buy a spring. You can communicate with each other. I hope to help you thank you! Shanghai Puppe Hardware Products Co., Ltd.
What are the parameters of the compressed spring? First of all, look at a formula:
The meaning in each formula above is:
g = shear elastic modulus [MPA, PSI] (G value is: steel wire 8000 8000 , Stainless Steel 7200)
D = wire diameter [mm, in]
n = effective circle number [-]
d = center diameter [mm, in]
k = spring coefficient [n/mmm LB/in]
This formula is the calculation formula of the spring stiffness. The rigidity multiplied by the work itinerary is equal to the work of this spring.
Through the above formula, we can draw that the parameters of the compressed spring must be: material, wire diameter, center diameter, valid number of circles, springs, work height, and demand intensity. If there is no spring that requires special requirements, it can not provide parameters of the work height and demand for the spring.
It hope to help you! Thanks!
Firstly, the compression spring company,
The compressed spring (pressure spring) is a spiral spring that is affected by pressure. The section of the materials used is mostly round, and it is made of rectangular and multi -steel rolls. The spring is generally equal. The shape of the compressed spring is: cylindrical, conical, medium convex and medium concave, and a small amount of non -circular shape. There is a certain gap between the circle of compressed spring and the circle. Substalliring deformation, storage deformation energy.
The compression spring formula:
The meaning in each formula above is:
g = shear elastic modulus [MPA, PSI] (G value is 8000 steel wire, stainless steel 7200) ) ) r nd = wire diameter [mm, in]
n = effective circle [-]
d = center diameter [mm, in]
k = spring coefficient [n/mm, lb/in]
This formula is the calculation formula of the spring stiffness. The rigidity multiplied by the working itinerary is equal to the work of this spring [2].
Through the above formula, we can draw that the parameters of the compressed spring must be: material, wire diameter, center diameter, valid number of circles, springs, work height, and demand intensity. If there is no spring that requires special requirements, it can not provide parameters of the work height and demand for the spring.
Stretching spring size and parameter GB/T1973.3-1989, small cylindrical spiral compressed spring size and parameter GB/T2087-2001, cylindrical spiral stretching size and parameter (semi -circular hook type) GB/T2088-1997.
1. The compressed spring is a spiral spring that is affected by stress. The cross section of the material used is mostly round, and it is made of rectangular and multi -steel rolls. The spring is generally equivalent. : Cylindrical, conical, medium convex and concave, and a small amount of non -circular shape. There is a certain gap between the compressed spring and the circle. When the external load is affected, the spring is shrunk and deforms, and the storage deformation energy is stored.
2, compressed spring on the external load pressure provides resistance. The compressed spring is generally a metal wire equivalent and a fixed line diameter. The compressed spring uses multiple open coils to carry out the external loading pressure (such as gravity to press down the wheels, or the body is pressed on the mattress) to provide resistance.
3, compressed spring is generally metal wire equivalent and fixed wire diameter. In addition, there are conical compressed springs, or cone and straight springs.
4. Depending on different application areas, compressed spring can be used to resist stress and / or) energy storage. Round metal wire is the most commonly used for compressed spring, but also has a compressed spring made by square, rectangular and special -shaped metal wires.
The first parameters to be known to make a compressed spring are the line meridian, outer diameter, length, number of circles, materials, etc. After knowing these parameters, it is best to know if you want to grind your head. If it is the surface of carbon steel materials, whether to do rust -proof treatment, if you have the force value, you need to provide the working length, and the value of the power can make it more suitable for the manufacturer to calculate that material is more suitable for that material is more suitable Your needs. If you have any other people who do n’t understand, you can ask me at any time. It does n’t matter if you do n’t buy a spring. You can communicate with each other. I hope to help you thank you! Shanghai Puppe Hardware Products Co., Ltd.