Mimaki JV33 JV5 Cap Spring Kit

$15.74

Mimaki JV33 JV5 Cap Spring Kit compression spring

2 Springs: big one’s length compressed is 65 mm and outside diameter is 27.5 mm.

 

Categories: ,

Description

Mimaki JV33 JV5 Cap Spring Kit

This Mimaki JV33 JV5 Cap Spring Kit’s length compressed is 25 mm and it’s outside diameter is 4.8 mm. Especially relevant parameters are Mimaki JV33 JV5 Cap Spring Kit’s length compressed and outside diameter.

Mimaki JV33 JV5 Cap Spring Kit is compatible to the following Roland printers:

Mimaki JV33-130 / JV33-160 / JV33-260 / JV33-130BS / JV33-160BS / JV3-260BS / JV5-130S / JV5-160S / JV5-260S / JV5-320S / JV5-320DS / CJV30-60 / CJV30-100 / CJV30-130 / CJV30-160 / CJV30-60BS / CJV30-100BS / CJV30-130BS / CJV30-160BS / TPC-1000 / TS3-1600 / TS5-1600AMF.

This Mimaki JV33 JV5 Cap Spring Kit is not only compatible to the above roland printers but also compatible to Roland VS-300 / VS-420 / VS-540 / VS-640 / VS-300i / VS-540i / VS-640i / RA-640 / XF-640.

Lavaink provides not only Mimaki JV33 JV5 Cap Spring Kit but also customized springs for any machine.

We can produce most of springs if you can not find your non-standard spring here thence we require at the least the following parameters:

  1.  D (springs wire diameter): This parameter describes the diameter of the springs wire.
  2. L0 (natural length): the spring in the pressure and once, the natural state of the length, tolerance ± 2%.
  3. H (minimum aperture): This is the diameter of the minimum space required for normal operation of the springs
  4. Number of turns: The total number of springs.

Mimaki JV3 JV4 Cap Spring Kit’s parameters describes 0.8*27.5*65*5.  As a result 0.8mm means D (springs wire diameter) and so 27.5mm means H (minimum aperture), 65 means L0 (natural length), 5 means Number of turns.

Email us your spring photo with ruler as the following photos:

How to buy spring 1
How to buy spring 1
How to buy spring 2
How to buy spring 2

 

 

 

 

 

Spring Diagram describes the above parameters:

Spring Diagram
Spring Diagram

The physical parameters 1

  1. D (springs wire diameter): This parameter describes the diameter of the springs wire.
  2. S (maximum diameter of the mandrel): This parameter describes the maximum diameter of the springs axis in industrial applications with a tolerance of ± 2%.
  3. Di: The inner diameter of the springs is equal to the outside diameter of the springs minus twice the wire diameter. The tolerance is ± 2%.
  4. De: The outside diameter of the spring is equal to the inside diameter of the spring plus twice the diameter, with a tolerance of ± 2%.
  5. H (minimum aperture): This is the diameter of the minimum space required for normal operation of the springs, with a tolerance of ± 2%.
  6. P (pitch): the axial distance of the centerline of the two adjacent effective ring sections of the coil spring, with a tolerance of ± 2%.

    The physical parameters 2

  7. Lc (compression and length): the compression spring to the coil contact the theoretical height. Please refer to the photo on the right with a tolerance of ± 15% in addition you want to know it in diagram.
  8. Ln (permissible length): The allowable length of the spring at maximum load. If the torsion is too large, the spring is easily deformed (by external force generated irreversible deformation). But for most springs, there is no possibility of deformation. In this case Ln = Lc + Sa. For example, Sa is the sum of the minimum allowable distances between the effective number of turns.
  9. L0 (natural length): the spring in the pressure and once, the natural state of the length, tolerance ± 2%.
  10. Number of turns: The total number of springs (the number of springs in the photo above is 6). Therefore, the total number of turns of the springs minus the number of turns at both ends is the effective number of turns of the springs.

    The physical parameters 3

  11. R Spring Stiffness: This parameter represents the change in load per unit deformation of the spring. So unit of calculation: 1 DaN / mm = 10 N / mm (Newton / mm) with a tolerance of ± 15%.
  12. F1 and length L1 can be calculated by the formula: F1 = (L0-L1) * R, and then calculate the length of L1: L1 = L0 – F1 / R (the length of the springs under the load F1).
  13. Smooth: it is polished springs steel wire end.
  14. Springs part number: Each springs has a unique number such as Category. (De * 10). (D * 100). (L0 * 10). For compression springs, the relevant symbol is C. The material is indicated by the letters: A, I, N, and S. For example: C.063.090.0100. A part that the compression spring diameter 6.3mm, piano wire diameter 0.9mm.

Material

  1. A (steel wire): This parameter describes steel wire according to EN 10270-1 SH grade.
  2. I (stainless steel): This parameter describes 18/8 stainless steel, for example: marked Z10 CN 18.09.
  3. N (galvanized wire): This parameter describes galvanized steel wire for the production of springs.

Characteristic

  1. Spring ends: The ends of the various compression springs.
  2. Spring Stiffness: The tolerance for spring stiffness is ± 15%.

Mimaki JV33 JV5 Cap Spring Kit JV33-130 JV33-160 JV33-260

Mimaki JV33 JV5 Cap Spring Kit JV33-130BS JV33-160BS JV3-260BS JV5-130S JV5-160S JV5-260S JV5-320S JV5-320DS CJV30-60 CJV30-100 CJV30-130 CJV30-160

Reviews

There are no reviews yet.

Be the first to review “Mimaki JV33 JV5 Cap Spring Kit”