Compression Spring - O.D. Referenced Stainless Steel, Extra Light Load [RoHS Compliant]
Brand :
MISUMI
Caution
- This product can be purchased in quantities of 10pcs. Please enter your order quantity in multiples of 10. * Minimum order quantity (10 pcs. or more)
- Since it is an O.D. referenced type spring, it is manufactured with priority given to O.D. tolerances. Please be careful.
- Stainless Steel Spring is magnetic.
Product Description
・ Spring type: Compression Spring, Extra Light Load
・ O.D. Referenced Type is outer diameter prioritized, and the I.D. is a reference value.
・ Spring material: Made of stainless steel SUS304-WPB
・ Model type: E-GUF, E-GUR, E-GUV, E-GUY
・ Outer diameter D (Ø) [mm]: 3, 4, 5, 6, 8
・ Free length range [mm]: 5, 10, 15, 20, 25, 30, 35, 40
・ End face type: No grinding, With grinding
・ RoHS compliant certified
Product Overview
[Product Comparison Information]
♢Economy series compression springs are manufactured overseas, resulting in significant cost reductions.
♢ Since it is an O.D. referenced type spring, it is manufactured with priority given to O.D. tolerances. Please be careful.
♢ Stainless Steel Spring is magnetic. Please be careful.
♢Economy series compression springs are manufactured overseas, resulting in significant cost reductions.
♢ Since it is an O.D. referenced type spring, it is manufactured with priority given to O.D. tolerances. Please be careful.
♢ Stainless Steel Spring is magnetic. Please be careful.
| Item | MISUMI's Similar Products | Economy Series |
| Service Life | 1 million times | 700,000 Times |
| Manufactured | In Japan | Outside of Japan |
Dimensional Drawing
0 -0.5 mm 0 -0.8 mm| O.D. D | ø10 or Less | Free Length L | ±1.5 mm | ||
| ø12 or More | Spring Constant | ±10% |
Specification Table
| Ordering Example | Part Number |
| E-GUR3-15 |
■E-GUV: Fmax. (allowable deflection) = L × 70%
[ ! ] Both ends of * marked springs are not ground.
[ ! ] Using it compressed to the solid length may cause deformation or break after a few uses.
Be sure to use the springs within the range of the allowable deflection F max.(mm).
[ ! ] O.D. Referenced Type is outer diameter prioritized.
·How to Determine the Number of Winding (Reference Value): Total coils = solid length / wire diameter (d) - 1
Number of active coils = total coils - 2
* The values of the number of coils are for reference only. There may be some variations depending on the lot.
| Part Number | d | Solid Length (Reference Value) | F max. | N (kgf) max. | Fa% | ||
| Type | D-L | ||||||
| E-GUV | 3-5* | 0.15 | 1.1 | 3.5 | 0.18{0.018} | 70 | |
| 10* | 0.18 | 2.5 | 7.0 | 0.35{0.036} | |||
| 15* | 10.5 | 0.53{0.054} | |||||
| 20* | 0.20 | 3.3 | 14.0 | 0.7{0.071} | |||
| 4-5* | 0.18 | 1.2 | 3.5 | 0.18{0.018} | |||
| 10* | 0.20 | 1.7 | 7.0 | 0.35{0.036} | |||
| 15* | 0.23 | 3.0 | 10.5 | 0.53{0.054} | |||
| 20* | 14.0 | 0.7{0.071} | |||||
| 5-5* | 0.20 | 1.2 | 3.5 | 0.18{0.018} | |||
| 10* | 0.23 | 1.8 | 7.0 | 0.35{0.036} | |||
| 15* | 0.26 | 2.9 | 10.5 | 0.53{0.054} | |||
| 20* | 0.29 | 4.5 | 14.0 | 0.7{0.071} | |||
| 6-10* | 0.26 | 2.0 | 7.0 | 0.35{0.036} | |||
| 15* | 0.30 | 3.3 | 10.5 | 0.53{0.054} | |||
| 20* | 14.0 | 0.7{0.071} | |||||
| 8-10* | 0.30 | 1.9 | 7.0 | 0.35{0.036} | |||
| 15* | 0.35 | 3.2 | 10.5 | 0.53{0.054} | |||
| 20* | 14.0 | 0.7{0.071} | |||||
| 25* | 0.40 | 5.6 | 17.5 | 0.88{0.089} | |||
| 30* | 21.0 | 1.05{0.107} | |||||
| 40* | 0.45 | 9.3 | 28.0 | 1.4{0.143} | |||
| 50* | 35.0 | 1.75{0.179} | |||||
[ ! ] Using it compressed to the solid length may cause deformation or break after a few uses.
Be sure to use the springs within the range of the allowable deflection F max.(mm).
[ ! ] O.D. Referenced Type is outer diameter prioritized.
·How to Determine the Number of Winding (Reference Value): Total coils = solid length / wire diameter (d) - 1
Number of active coils = total coils - 2
* The values of the number of coils are for reference only. There may be some variations depending on the lot.
■E-GUY: Fmax. (allowable deflection) = L × Fa%
[ ! ] Both ends of * marked springs are not ground.
[ ! ] Using it compressed to the solid length may cause deformation or break after a few uses.
Be sure to use the springs within the range of the allowable deflection F max.(mm).
[ ! ] O.D. Referenced Type is outer diameter prioritized.
·How to Determine the Number of Winding (Reference Value): Total coils = solid length / wire diameter (d) - 1
Number of active coils = total coils - 2
* The values of the number of coils are for reference only. There may be some variations depending on the lot.
| Part Number | d | Solid Length (Reference Value) | F max. | N (kgf) max. | Fa% | ||
| Type | D-L | ||||||
| E-GUY | 2-5* | 0.13 | 1.50 | 3.00 | 0.15{0.0150} | 60 | |
| 10* | 6.00 | 0.29{0.0300} | |||||
| 15* | 0.15 | 2.70 | 9.00 | 0.44{0.0450} | |||
| 20* | 12.00 | 0.59{0.0600} | |||||
| 3-5* | 0.16 | 0.92 | 3.75 | 0.37{0.0378} | 75 | ||
| 10* | 0.20 | 2.00 | 7.50 | 0.74{0.0750} | |||
| 15* | 0.23 | 3.45 | 11.25 | 1.1{0.1125} | |||
| 20* | 15.00 | 1.47{0.1500} | |||||
| 4-5* | 0.20 | 1.05 | 3.75 | 0.37{0.0375} | |||
| 10* | 0.23 | 1.84 | 7.50 | 0.74{0.0750} | |||
| 15* | 0.26 | 2.86 | 11.25 | 1.1{0.1125} | |||
| 20* | 0.29 | 4.64 | 15.00 | 1.47{0.1500} | |||
| 25* | 0.30 | 5.40 | 18.75 | 1.84{0.1875} | |||
| 30* | 22.50 | 2.26{0.2300} | |||||
| 5-5* | 0.23 | 1.15 | 3.75 | 0.37{0.0378} | |||
| 10* | 0.26 | 1.82 | 7.50 | 0.74{0.0750} | |||
| 15* | 0.30 | 3.15 | 11.25 | 1.1{0.1125} | |||
| 20* | 15.00 | 1.47{0.1500} | |||||
| 25* | 0.32 | 4.16 | 18.75 | 1.84{0.1875} | |||
| 6-5* | 0.26 | 1.24 | 3.50 | 0.34{0.0350} | 70 | ||
| 10* | 0.30 | 2.10 | 7.50 | 0.74{0.0750} | 75 | ||
| 15* | 0.32 | 2.64 | 11.25 | 1.1{0.1125} | |||
| 20* | 0.35 | 3.85 | 15.00 | 1.47{0.1500} | |||
| 25* | 0.38 | 5.32 | 18.75 | 1.84{0.1875} | |||
| 30* | 0.40 | 6.80 | 22.50 | 2.21{0.2250} | |||
| 8-10* | 0.35 | 2.19 | 7.50 | 0.74{0.0750} | |||
| 15* | 0.40 | 3.40 | 11.25 | 1.1{0.1125} | |||
| 20* | 15.00 | 1.47{0.1500} | |||||
| 25* | 0.45 | 5.40 | 18.75 | 1.84{0.1875} | |||
| 30* | 22.50 | 2.21{0.2250} | |||||
| 10-10* | 0.50 | 3.25 | 6.00 | 1.18{0.1204} | 60 | ||
| 15* | 11.25 | 2.21{0.2250} | 75 | ||||
| 20* | 0.55 | 4.40 | 15.00 | 2.94{0.3000} | |||
| 25* | 18.75 | 3.68{0.3750} | |||||
| 30* | 0.60 | 6.15 | 22.50 | 4.41{0.4500} | |||
| 35* | 6.30 | 26.25 | 5.1{0.5200} | ||||
| 12-15* | 0.55 | 3.30 | 11.25 | 2.206{0.2250} | |||
[ ! ] Using it compressed to the solid length may cause deformation or break after a few uses.
Be sure to use the springs within the range of the allowable deflection F max.(mm).
[ ! ] O.D. Referenced Type is outer diameter prioritized.
·How to Determine the Number of Winding (Reference Value): Total coils = solid length / wire diameter (d) - 1
Number of active coils = total coils - 2
* The values of the number of coils are for reference only. There may be some variations depending on the lot.
■E-GUR: Fmax. (allowable deflection) = L × Fa%
[ ! ] Both ends of * marked springs are not ground.
[ ! ] Using it compressed to the solid length may cause deformation or break after a few uses.
Be sure to use the springs within the range of the allowable deflection F max.(mm).
[ ! ] O.D. Referenced Type is outer diameter prioritized.
·How to Determine the Number of Winding (Reference Value): Total coils = solid length / wire diameter (d) - 1
Number of active coils = total coils - 2
* The values of the number of coils are for reference only. There may be some variations depending on the lot.
| Part Number | d | Solid Length (Reference Value) | F max. | N (kgf) max. | Fa% | ||
| Type | D-L | ||||||
| E-GUR | 2-5* | 0.18 | 2.00 | 2.5 | 0.49{0.05} | 50 | |
| 10* | 5.0 | 0.98{0.10} | |||||
| 15* | 0.23 | 6.00 | 7.5 | 1.5{0.15} | |||
| 3-5* | 0.23 | 1.60 | 3.0 | 0.9{0.09} | 60 | ||
| 10* | 0.25 | 2.10 | 6.0 | 1.8{0.18} | |||
| 15* | 0.30 | 4.50 | 9.0 | 2.6{0.27} | |||
| 20* | 12.0 | 3.5{0.36} | |||||
| 25* | 0.32 | 6.40 | 15.0 | 4.4{0.45} | |||
| 4-5* | 0.26 | 1.40 | 3.0 | 0.9{0.09} | |||
| 10* | 0.29 | 2.00 | 6.0 | 1.8{0.18} | |||
| 15* | 0.32 | 3.00 | 9.0 | 2.6{0.27} | |||
| 20* | 0.38 | 6.10 | 12.0 | 3.5{0.36} | |||
| 25* | 15.0 | 4.4{0.45} | |||||
| 30* | 0.40 | 8.00 | 18.0 | 5.3{0.54} | |||
| 5-10* | 0.35 | 2.71 | 6.0 | 1.8{0.18} | |||
| 15* | 0.38 | 3.61 | 9.0 | 2.6{0.27} | |||
| 20* | 12.0 | 3.5{0.36} | |||||
| 25* | 0.45 | 7.43 | 15.0 | 4.4{0.45} | |||
| 30* | 18.0 | 5.3{0.54} | |||||
| 35* | 0.50 | 12.25 | 21.0 | 6.2{0.63} | |||
| 6-5* | 0.32 | 1.50 | 3.0 | 0.9{0.09} | |||
| 10* | 0.40 | 3.00 | 6.0 | 1.8{0.18} | |||
| 15* | 9.0 | 2.6{0.27} | |||||
| 20* | 0.50 | 7.00 | 12.0 | 3.5{0.36} | |||
| 25* | 15.0 | 4.4{0.45} | |||||
| 30* | 18.0 | 5.3{0.54} | |||||
| 8-10* | 0.45 | 2.60 | 6.0 | 1.8{0.18} | |||
| 15* | 0.50 | 3.60 | 9.0 | 2.6{0.27} | |||
| 20* | 12.0 | 3.5{0.36} | |||||
| 25* | 0.55 | 5.90 | 15.0 | 4.4{0.45} | |||
| 30* | 0.65 | 10.40 | 18.0 | 5.3{0.54} | |||
| 35* | 21.0 | 6.2{0.63} | |||||
| 40* | 0.70 | 15.40 | 24.0 | 7.1{0.72} | |||
| 10-10* | 0.55 | 3.30 | 6.0 | 1.8{0.18} | |||
| 15* | 0.60 | 4.20 | 9.0 | 2.6{0.27} | |||
| 20* | 0.65 | 6.20 | 12.0 | 3.5{0.36} | |||
| 25* | 15.0 | 4.4{0.45} | |||||
| 30* | 0.70 | 8.40 | 18.0 | 5.3{0.54} | |||
[ ! ] Using it compressed to the solid length may cause deformation or break after a few uses.
Be sure to use the springs within the range of the allowable deflection F max.(mm).
[ ! ] O.D. Referenced Type is outer diameter prioritized.
·How to Determine the Number of Winding (Reference Value): Total coils = solid length / wire diameter (d) - 1
Number of active coils = total coils - 2
* The values of the number of coils are for reference only. There may be some variations depending on the lot.
■E-GUF: Fmax. (allowable deflection) = L × 45%
kgf (load) = N⋅mm (spring constant) × 0.101972 × F (Deflection)
[kgf] = N × 0.101972
[ ! ] Both ends of * marked springs are not ground.
[ ! ] Using it compressed to the solid length may cause deformation or break after a few uses.
Be sure to use the springs within the range of the allowable deflection F max.(mm).
[ ! ] O.D. Referenced Type is outer diameter prioritized.
·How to Determine the Number of Winding (Reference Value): Total coils = solid length / wire diameter (d) - 1
Number of active coils = total coils - 2
* The values of the number of coils are for reference only. There may be some variations depending on the lot.
| Part Number | d | Solid Length (Reference Value) | F max. | N (kgf) max. | Fa% | ||
| Type | D-L | ||||||
| E-GUF | 2-5* | 0.20 | 2.35 | 2.25 | 0.66{0.068} | 45 | |
| 10* | 4.50 | 1.3{0.140} | |||||
| 3-5* | 0.26 | 1.80 | 2.25 | 1.1{0.110} | |||
| 10* | 0.32 | 4.50 | 4.50 | 2.2{0.220} | |||
| 15* | 6.70 | 3.2{0.330} | |||||
| 20* | 0.35 | 6.30 | 9.00 | 4.4{0.450} | |||
| 25* | 11.20 | 5.5{0.560} | |||||
| 4-5* | 0.32 | 2.00 | 2.25 | 1.1{0.110} | |||
| 10* | 0.35 | 3.00 | 4.50 | 2.2{0.220} | |||
| 15* | 0.40 | 5.20 | 6.70 | 3.2{0.330} | |||
| 20* | 9.00 | 4.4{0.450} | |||||
| 25* | 0.45 | 9.50 | 11.20 | 5.5{0.560} | |||
| 30* | 13.50 | 6.6{0.670} | |||||
| 5-10* | 0.40 | 3.20 | 4.50 | 2.2{0.230} | |||
| 15* | 6.75 | 3.3{0.340} | |||||
| 20* | 0.45 | 4.95 | 9.00 | 4.4{0.450} | |||
| 25* | 11.25 | 5.5{0.560} | |||||
| 30* | 0.50 | 7.75 | 13.50 | 6.7{0.680} | |||
| 35* | 15.75 | 7.7{0.790} | |||||
| 6-10* | 0.50 | 5.00 | 4.50 | 2.2{0.220} | |||
| 15* | 0.55 | 7.70 | 6.70 | 3.2{0.330} | |||
| 20* | 9.00 | 4.4{0.450} | |||||
| 25 | 0.60 | 10.80 | 11.20 | 5.5{0.560} | |||
| 30 | 0.65 | 15.60 | 13.50 | 6.6{0.670} | |||
| 8-10 | 0.60 | 5.40 | 4.50 | 2.2{0.220} | |||
| 15 | 0.65 | 7.20 | 6.70 | 3.2{0.330} | |||
| 20 | 0.70 | 10.50 | 9.00 | 4.4{0.450} | |||
| 25 | 11.20 | 5.5{0.560} | |||||
| 30 | 0.75 | 13.50 | 13.50 | 6.6{0.670} | |||
| 35 | 15.70 | 7.6{0.780} | |||||
| 40 | 0.80 | 18.40 | 18.00 | 8.8{0.890} | |||
| 10-15 | 0.65 | 4.60 | 6.70 | 3.2{0.330} | |||
| 20 | 0.80 | 9.60 | 9.00 | 4.4{0.450} | |||
| 25 | 11.20 | 5.5{0.560} | |||||
| 30 | 0.85 | 12.80 | 13.50 | 6.6{0.670} | |||
| 12-15 | 0.80 | 6.80 | 6.70 | 3.2{0.330} | |||
| 20 | 9.00 | 4.4{0.450} | |||||
| 25 | 11.20 | 5.5{0.560} | |||||
| 16-35 | 1.10 | 12.10 | 15.70 | 7.6{0.780} | |||
| 20-20 | 1.20 | 7.20 | 9.00 | 8.8{0.890} | |||
| 25 | 1.30 | 9.10 | 11.30 | 11.1{1.130} | |||
[kgf] = N × 0.101972
[ ! ] Both ends of * marked springs are not ground.
[ ! ] Using it compressed to the solid length may cause deformation or break after a few uses.
Be sure to use the springs within the range of the allowable deflection F max.(mm).
[ ! ] O.D. Referenced Type is outer diameter prioritized.
·How to Determine the Number of Winding (Reference Value): Total coils = solid length / wire diameter (d) - 1
Number of active coils = total coils - 2
* The values of the number of coils are for reference only. There may be some variations depending on the lot.
■Spring Constant (N/mm) [kgf/mm]
| O.D. D | O.D. Referenced | ||||||||
| E-GUV | E-GUY | E-GUR | E-GUF | E-GUL | E-GUTT | E-GUM | E-GUH | E-GUBB | |
| 2 | 0.05 {0.005} | 0.20 {0.02} | 0.30 {0.03} | 0.50 {0.05} | |||||
| 3 | 0.05 {0.005} | 0.098 {0.010} | 0.29 {0.03} | 0.49 {0.05} | 0.98 {0.1} | 1.5 {0.15} | |||
| 4 | 2.0 {0.2} | 2.9 {0.3} | 4.9 {0.5} | ||||||
| 5 | 2.0 {0.2} | ||||||||
| 6 | 2.9 {0.3} | 5.9 {0.6} | 9.8 {1.0} | ||||||
| 8 | |||||||||
| 10 | 0.200 {0.020} | ||||||||
| 12 | |||||||||
| 13 | 2.0 {0.2} | 2.9 {0.3} | 9.8 {1.0} | 19.6 {2.0} | |||||
| 16 | 0.49 {0.05} | ||||||||
| 20 | 0.98 {0.10} | 2.90 {0.3} | 4.9 {0.5} | 14.7 {1.5} | 29.4 {3.0} | ||||
| Fmax. | F = L × 70% | F = L × Fa% | F = L × Fa% | F = L × 45% | F = L × 40% | F = L × Fa% | F = L × 35% | F = L × 30% | F = L × 25% |
| I.D. D | I.D. Referenced | |||
| E-GVUR | E-GVUF | E-GVUL | E-GVUM | |
| 5 | 0.29 {0.03} | 0.49 {0.05} | 0.98 {0.10} | 2.94 {0.30} |
| 6 | ||||
| 8 | ||||
| 10 | ||||
| 12 | ||||
| 16 | ||||
| Fmax. | F= L × 60% | F= L × 45% | F= L × 40% | F= L × 35% |
Related Products
| [Economy Series]Compression Spring - O.D. Referenced Stainless Steel, Extra Light Load | [Economy Series]Compression Spring - O.D. Referenced Stainless Steel, Light Load | [Economy Series]Compression Spring - O.D. Referenced Stainless Steel, Heavy Load | ||
 |  |  | ||
| Type: E-GUF, E-GUR, E-GUV, E-GUY | Type: E-GUL, E-GUTT | Type: E-GUH, E-GUM |
Note
Cautions on UseOperating Temperature
Stainless Steel:: -10 to 100°C
* Load value attenuates when tension springs are used in temperature higher than above, although it depends on other conditions.
Stainless Steel Spring is magnetic.