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Shock Absorber & Gas Spring07|
1. Shock Absorber
Reference Data [7] - 2
Shock Absorber (Adjustable) / KPA, KUPA [7] - 7
Shock Absorber (Non-adjustable) / KSCA [7] - 12
Costant Speed Controller / KCSC [7] - 16
2. Gas Spring
Reference Data [7] - 18
Gas Spring / KBG-W10, W20 [7] - 21
Gas Spring / KBG-B20, B22 [7] - 24
KCC Co., Ltd.
www.kccpr.com27 -
PNEUMATIC & HYDRAULIC
Operating Principles & Internal ConstructionOn impact by mass material in motion, the piston rod gradually moves into the shock absorber and stops up the orifices (Deceleration of cross section of orifice) and the hydraulic fluid in inner tube spurts out outer tube throughout the orifices and the hydraulic fluid flows in the top end of the inner tube throughout the oil returning hall and the excess hydraulic fluid gets stored in accumulator temporarily. At the end of the impact stroke, the return spring pushes the piston and the hydraulic fluid flow into inner tube rapidly throughout check valve for next cycle. This system absorbs the impact shock gradually and at a constant rate (Deceleration of cross section of orifices and deceleration ratio of the piston back speed) and the piston transfer is smooth and quiet.
Effective WeightThe effective weight is absorbed real impacting quantity of energy during the period between colliding a moving object to shock absorber and stop of a moving object.
The left drawing (A) shows that even if real weight is too small, in case of impacting velocity is sufficiently high (more than 3m/sec), the effective section of orifice needs to be increased because of generating high resisting force at the beginning of motion object collide.
The left drawing (B) shows that even if the colliding velocity is too low (less than 0.5m/sec), effective section of orifice needs to be decreased when the weight is sufficiently weighted or additional driving force occurs as high resist force generates at the end of stroke.
ExampleAs known to see figure ①②③④ even though the motion object has same weight and velocity, the impacted real energy on shock absorbers has big difference in accordance with propelling force and existence shock absorber or not.
At first compare ① to ②, in case of ② which received propelling force is three times bigger than in case of ①
And in case of ③④, even though these have same Kinetic energy, real impact energy of ④ increased sixteen times more than in case of ③, according to location of shock absorber.
As above even though same weight and velocity, it must be considered not only total energy but also effective weight when the model is selected, because real impact energy received from shock absorber is quite different according to cases.
③ Impact without torque
④ Impact with torque
Example
Example
Example
Example
A
m= 50kg
v = 2m/ s
E =100Nm
WE=m
m= 50kg
F = 2000N
v = 2m/ s
s = 0.1m
A
B
C
E =100Nm
E = 200Nm
E = 300Nm
E 2x300W = =150kg
4
E 2x100W = = 50kg
4E 2x20W = =10kg
4
E
2
2x20W = =160kg
0.1
A
m=10kg
v = 2m/ s
E = 20Nm
A
m=10kg
v = 2m/ s
vD= 0.5m/ s
E = 20Nm
WE=m
CE
2
2xEW =
V
① Impact without propelling force
② Impact with propelling force 1E
2
2xEW =
vD
Ec
VD2
0.52
Reference Data
Shock Absorber
KCC Co., Ltd.
www.kccpr.com 37 -
Shock Absorber
& Gas SpringShock
Absorber Reference
data
KPAKUPA
KSCA
KCSC
Gas Spring Reference
data
KBG-W
KBG-B
PNEUMATIC & HYDRAULIC
WE=m
Selection Guide1 The way of impact Horizontal, Vertical, Incline of rotary motion2 Weight m (kg)3 Impact velocity v (m/sec)4 Propelling force F (N)5 Cycle per hour C (cycle / hour)
Formulas1 Step Kinetic Energy EA = m·V2 / 22 Step Work Energy EB = F·S 3 Step Total Energy EC = EA + EB Presumption of 1st model4 Step Total Energy per hour ED = (EA + EB) C Presumption of 2nd model5 Step Effective Weight WE = 2·EC / V2 Selection of final model
SymbolsEA Kinetic energy (Nm) F Propelling force (N) Q Reaction force (N)EB Work energy (Nm) C Cycle/hour (cycle/hr) μ Friction coefficientEC Total energy (Nm) P Motor power (kw) t Deceleration time (sec)
ED Total energy/hour (Nm/hr) ST Stall torque factor 1 to 2.5 (Generally 2.5) gns Deceleration rate (gns)
WE Effective weight (kg) M Propelling torque (Nm) S Stroke (m)m Mass (kg) g Acceleration of gravity (m/s2) p Pressure (bars)V Velocity (m/s) h Actual drop height (m) d Cylinder bore dia. (mm)VD Impact velocity (m/s) L/R/r Radius (m)
Propelling Force(F)1. Motor 2. Pneumatic/Hydraulic Cylinder
F =3000
x PV
F = 0.0785 x d2 x p
1N = 0.102 kgf 1kgf = 9.81 N 1Nm = 0.102 kgf·m 1kgf = 9.81 Nm
1. Horizontal impact without propelling force
2. Horizontal impact with propelling force
Non-Adjustable Shock Absorber
Adjustable Shock AbsorberBased on the Multiple-Orifice principle,KCC made multiple orifices on the fixed inner tube and adjusted the total effective orifice cross section by rotating outer tube to add longer grooves on the outer tube.It can be adjustable along with variable impact energy as well as displays the amount of force from 0 to 8 according to opened grade.
A non-adjustable shock absorber includes fixed orifices is made by choosing only advantages of each Hydro Shock and Adjustable Shock Absorber so that it can absorb a more wide range of effective weight. Also it can exhale heat energy changed from absorbed impact energy within a short time.The non-adjustable shock absorber that is specially designed for non-adjustable brings the impacting object to a stop smoothly and quietly for maintaining a constant discharge, weight, velocity, temperature and hydraulic status.
①Lowest impacting force in ideal deceleration status②Non-Adjustable shock absorber with low effective status③Non-Adjustable shock absorber with high effective status④Shown in case of dashpot status
Reference Data
Shock Absorber
■KUPA 4250
Formulas
■KUPA 4250
Formulas
KCC Co., Ltd.
www.kccpr.com47 -
PNEUMATIC & HYDRAULIC
Reference Data
Shock Absorber
3. Horizontal Impact with Motor Power
4. Horizontal Impact with Power Roller Free
5. Swinging with Propelling Torque
6. Free Fall Impact
7. Vertical Impact at Controlled Speed
■KUPA 64100
■KUPA 3035
■KUPA 3035
■KUPA 4275
■KUPA 64100
Formulas
Formulas
Formulas
Formulas
Formulas
KCC Co., Ltd.
www.kccpr.com 57 -
Shock Absorber
& Gas SpringShock
Absorber Reference
data
KPAKUPA
KSCA
KCSC
Gas Spring Reference
data
KBG-W
KBG-B
PNEUMATIC & HYDRAULIC
Reference Data
Shock Absorber
8. Vertical Impact with Propelling Force
9. Vertical Impact with Propelling Force
10. Inclined Impact
11. Rotary Index Table with Propelling Torque
12. Horizontal Rotating Impact with Propelling Torque
■KUPA 64100
■KUPA 64100
■KUPA 64100
■KUPA 4275
■KUPA 64050
Formulas
Formulas
Formulas
Formulas
Formulas
KCC Co., Ltd.
www.kccpr.com67 -
PNEUMATIC & HYDRAULIC
1. Finding out satisfied mode with Ec value, Ed value and We value in capacity chart after result out.2. Even though it is small weight and the impact cycle per hour is high, it seems that the Ed value is too high and the We value is too low, relatively. Even in such a case must choose the model which Ed value and We value within range simultaneously.3. Durability of shock absorber remarkably can debase if it depends on only We value without consideration of number of impact times per hour.4. Choose one of 40~80% the capacity chart for safety.5. It must be designed perpendicular to the collided object and shock absorber (In case the angle of declination is more than 1.5 degree, that can cause oil leakage as seal overload.)6. Design to be perpendicular to the weighed direction of object and an axial of shock absorber in case of shaking impact. (Make allowance angle to end of stroke θ2 <1.5°, in such a case, minimum installation radius shown in the following table. In case of more than 1.5 degree might cause oil leakage.)
* Installation condition of shanking condition
Model Stroke Acceptance angle θ2
KSCA 1006 6
1.5°
KUPA 1410 10
KUPA 1415 15
KUPA 2015 15
KSCA 1420 20
KSCA 2020 20
KSCA 2525 25
A. Precaution of Selection
B. Precaution of Circumstance1. Don’t use with pressure, vacuum, or any circumstance different from the pressure of the atmosphere.2. Do not use in clean room. It might cause air pollution.3. Do not use over the allowed temperature, because oil leakage may occur as the result of harden, soften and wear of the seal.4. It can not return smoothly in initial as working oil viscosity rise at temperature below zero in winter. It can work smoothly after working more than 20 times repetition. So Keep that in mind in use.5. Don’t use in the circumstance of solvent, as it will corrode the metal and possibly compromise the seal.6. If possible, avoid using in conditions that have influence on the piston rod directly, or spray, such as cutting near oil, water, various solvents, etc.
C. Precaution of Installation1. Make protector when the impact object vibrates.2. Make the contact point in a straight line and allow slide angle to be less than 1.5 degrees.3. Avoid damage to the piston rod or threads. Damaged piston rod can cause oil leakage and damaged threads can cause the inner component to deform and loose shock absorption.4. Replace the shock absorber with a new one when strange colliding noises and vibration occur.5. When tightening nut, use K portion with a spanner. Take care avoid damaging outer tube and threads.
Unit:mm
Model K Model K
KUPA 14○○ 12 KUPA 27○○ 23
KUPA 20○○ 18 KSCA 36○○ 33
KSCA 25○○ 23
D. Maintenance1. Check tightening nut and tighten periodically, because the shock absorber may be damaged when using with loose nut.2. The lifespan of the shock absorber is limited. Replace shock absorber if you hear strange colliding noises or vibration. Continued use of a worn shock absorber can cause equipment damage.3. Confirm that the cap is not damaged. Sometimes the cap damage comes first in case of cap attachment type. Change the cap as soon as possible in order to prevent damage.
Reference Data
Shock Absorber
KCC Co., Ltd.
www.kccpr.com 77 -www.kccpr.com 77 -
Shock Absorber
& Gas SpringShock
Absorber Reference
data
KPAKUPA
KSCA
KCSC
Gas Spring Reference
data
KBG-W
KBG-B
KPA/KUPA seriesPNEUMATIC & HYDRAULIC
KPA/KUPA series
② Outer diameter & Stroke1210 M12XP1.0 10mm 4225
M42XP1.525mm
1410 M14XP1.5 10mm 4250 50mm1612 M16XP1.5 12mm 4275 75mm2015 M20XP1.5 15mm 64050 M64XP2.0 50mm 2525 M25XP1.5 25mm 64100
M64XP2.0100mm
2725 M27XP3.0 25mm 64150 150mm3035 M30XP1.5 35mm 85050
M85XP2.0
50mm3625
M36XP1.525mm 85090 90mm
3650 50mm 85125 125mm85165 165mm
Specifi cations
ModelTotal
energy[Max] (Nm)
Total energy
per hour[Max]
(Nm/h)
Effective weight
[Max~Min](kg)
Shock force
[Max] (N)
Return force[Min
~Max] (N)
Weight (g)
KPA1210 13 19,000 0.3~70 600 4~10 45
KUPA1210 13 19,000 0.3~70 600 4~10 50
KPA1410 15 24,500 0.3~90 680 5~11 55
KUPA1410 15 24,500 0.3~90 680 5~11 65
KPA1612 20 30,000 1.3~200 1,000 7~14 110
KUPA1612 20 30,000 1.3~200 1,000 7~14 125
KPA2015 25 35,000 1.3~220 1,160 8~15 135
KUPA2015 25 35,000 1.3~220 1,160 8~15 150
KPA2525 70 70,000 9.8~1,300 3,800 15~45 340
KUPA2525 70 70,000 9.8~1,300 3,800 15~45 390
KPA2725 70 70,000 9.8~1,300 3,800 15~45 340
KUPA2725 70 70,000 9.8~1,300 3,800 15~45 390
KUPA3035 170 80,000 15~1,950 5,000 30~60 600
KUPA3625 180 90,000 17~2,450 6,000 40~75 680
ModelTotal
energy[Max] (Nm)
Total energy
per hour[Max]
(Nm/h)
Effective weight
[Max~Min](kg)
Shock force
[Max] (N)
Return force[Min
~Max] (N)Weight (g)
KUPA3650 350 110,000 34~4,900 6,000 25~60 780
KUPA4225 250 130,000 25~7,000 2,400 50~85 1,000
KUPA4250 500 157,500 45~10,000 2,400 35~75 1,300
KUPA4275 750 195,000 55~10,500 2,400 35~100 1,600
KUPA64050 1,250 245,000 70~16,000 3,300 80~165 3,500
KUPA64100 2,550 335,000 115~19,000 3,300 75~210 4,700
KUPA64150 3,750 370,000 130~26,500 3,300 95~360 6,100
KUPA85050 2,400 384,000 180~34,000 66,000 140~200 6,300
KUPA85090 4,100 656,000 210~40,000 66,000 100~210 7,300
KUPA85125 5,800 945,000 220~45,000 66,000 90~210 8,900
KUPA85165 7,100 1,150,000 290~50,000 66,000 90~400 10,900
Max. impact velocity ≤ 3.5 m/sec
Ambient temperature -10~60℃
※ Includes lock nut (2pcs).
Features
● User can adjust impact absorbed range with dampening adjustable dial(360°) according to impact velocity.● Rapid returning piston rod by specially designed spring for next cycle.● Surface of outer tube and piston rod plate with chrome that prohibits corrosion and scratches for a longer life.● Available attachment to any position.● Shock Absorber allows higher productivity by increasing accelerated velocity.● Saves production costs by extending the equipment life.● Improves working efficiency by decreasing noise in factory.● Maintains better quality to prevent damage of goods.
KUPA 1210 -
① ② ③ ④
① Cap
KPA Without cap(Only M12, M14, M16, M20, M25, M27)
KUPA
With cap(M12, M14, M16, M20, M25, M27 Standard have urethane cap.)(M36, M42, M64, M85 Standard have a steel cap. Urethane cap is option part.)
③ FinishingArial Black oxide coating
N Nickel plating
④ Option
Nil Lock nut M08~M36 (Basic : include 2ea)Lock nut M42~M85 (Basic : include 1ea)
S Stop collar (Only M14~M85)F Square flange (Only M36,M42,M64,M85)R Rectangular flange (Only M36, M42, M64)U Urethane cap (Only M36,M42,M64,M85)
How to Order
Adjustable(Standard)
Adjustable(Medium)
Adjustable(Large)
Industrial Shock Absorber (Adjustable)
KCC Co., Ltd.
www.kccpr.com87 - www.kccpr.com87 -
KPA/KUPA seriesPNEUMATIC & HYDRAULIC
Structure (Small)
Structure (Large)
Part no. Parts Material
1 Adjustment dial Carbon steel tube, SM45C
2 Inner tube Carbon steel tube,STKM13C
3 Check valve -
4 Orifice hole -
5 Return spring HSWR72A
6 Piston Brass extruding tube, C2700BE
7 Oil return hole -
8 Accumulator -
9 Outer tube Carbon steel tube,STKM13C
Part no. Parts Material
1 Outer tube Carbon steel tube,STKM13C
2 Accumulator` -
3 Adjustment dial Carbon steel tube, SM45C
4 Inner tube Carbon steel tube,STKM13C
5 Oil return hole -
6 Piston Brass extruding tube, C2700BE
7 Return spring HSWR72A
Adjustment Dial of Shock Absorber
- To achieve the optimal shock absorber range1. Mount the Shock Absorber.2. Set adjustment to "0". If this is too soft, adjust to the next number in sequence until the desired shock absorber range is obtained.3. Tighten the dial with provided wrench.
How to Use
● Tighten the dial for dampening adjustment with wrench after optimal value is selected.● Confirm whether the effective weight is in optimal range.● Can decrease the noise 3~7dB by inserting Urethane cap to rod end button.● Total energy per hour made out based on atmosphere temperature of 20℃
Impact
Impact
Industrial Shock Absorber (Adjustable)
KCC Co., Ltd.
www.kccpr.com 97 -www.kccpr.com 97 -
Shock Absorber
& Gas SpringShock
Absorber Reference
data
KPAKUPA
KSCA
KCSC
Gas Spring Reference
data
KBG-W
KBG-B
KPA/KUPA seriesPNEUMATIC & HYDRAULIC
Dimensions-Adjustable Type (Medium)
Unit:mm
Model Stroke A B C ØD E F ØG M
KUPA3035 35 198 148 35 10 24 10 28 M30XP1.5
KUPA3625 25 182 133 25 10 26 10 34 M36XP1.5
KUPA3650 50 232 158 50 10 26 10 34 M36XP1.5
Dimensions-Adjustable Type(Standard)
Unit:mm
Model Stroke A B C ØD E F ØG M
KPA1210 10 82.5 72.5 10 4 18.5 4 - M12XP1.0
KUPA1210 10 95.5 72.5 10 4 18.5 4 11 M12XP1.0
KPA1410 10 80.5 70.5 10 4 20 4 - M14XP1.5
KUPA1410 10 93.5 70.5 10 4 20 4 11 M14XP1.5
KPA1612 12 103 91 12 4 22 6 - M16XP1.5
KUPA1612 12 116 91 12 4 22 6 14 M16XP1.5
KPA2015 15 116 98 15 6 22 6 - M20XP1.5
KUPA2015 15 128.5 98 15 6 22 6 18 M20XP1.5
KPA2525 25 152 127 25 8 24 8 - M25XP1.5
KUPA2525 25 168 127 25 8 24 8 22 M25XP1.5
KPA2725 25 152 127 25 8 24 8 - M27XP3.0
KUPA2725 25 168 127 25 8 24 8 22 M27XP3.0
Industrial Shock Absorber (Adjustable)
KCC Co., Ltd.
www.kccpr.com107 - www.kccpr.com107 -
KPA/KUPA seriesPNEUMATIC & HYDRAULIC KPA/KUPA series
Dimensions-Adjustable Type (Large)
Unit:mm
Model Stroke A B C D E ØF G ØH ØI M
KUPA4225 25 167 152 94 32 29 14 49 45 38 M42XP1.5
KUPA4250 50 217 202 119 44 42 14 61.5 45 38 M42XP1.5
KUPA4275 75 267 252 144 56 55 14 74 45 38 M42XP1.5
KUPA64050 50 241 224 138 50 49 20 67.5 58 50 M64XP2.0
KUPA64100 100 341 324 188 74 74 20 95 58 50 M64XP2.0
KUPA64150 150 471 454 238 75 75 20 141 58 50 M65XP2.0
KUPA85050 50 270 240 143 45 45 22 75 78 70 M85XP2.0
KUPA85090 90 350 320 183 65 65 22 91.5 78 70 M85XP2.0
KUPA85125 125 425 395 218 65 65 22 116 78 70 M85XP2.0
KUPA85165 165 520 490 258 65 65 22 136 78 70 M85XP2.0
Industrial Shock Absorber (Adjustable)
KCC Co., Ltd.
www.kccpr.com 117 -www.kccpr.com 117 -
Shock Absorber
& Gas SpringShock
Absorber Reference
data
KPAKUPA
KSCA
KCSC
Gas Spring Reference
data
KBG-W
KBG-B
KPA/KUPA seriesPNEUMATIC & HYDRAULIC KPA/KUPA series
Unit:mm
Part no. a b c d
S/F 36 32 45 9 6
S/F 42 41.5 60 12 9
S/F 64 70 90 14 10
S/F 85 76 102 19 14
Unit:mm
Part no. a b c d e f
R/F 36 32 45 9 6 41.3 58.8
R/F 42 41.5 60 12 9 60.5 80
R/F 64 70 90 14 10 83.5 105
Dimensions-Accessories
Lock Nut (Standard)
Standard & Medium(M12~M36)
Material: Carbon steel
Material: Carbon steel
Material: Carbon steel
Material: Carbon steel
Standard & Medium(M14~M27)
Large(M42~M85)
Large(M36~M85)
Square Flange Rectangular Flange
Stop Collar
Unit:mm
Part no. H I J K
LOCK NUT 12 4 14 16 M12XP1.0
LOCK NUT 14 4 17 19.6 M14XP1.5
LOCK NUT 16 6 22 25.4 M16XP1.5
LOCK NUT 20 6 24 27.7 M20XP1.5
LOCK NUT 25 8 32 37 M25XP1.5
LOCK NUT 27 8 32 37 M27XP3.0
LOCK NUT 30 10 36 41.1 M30XP1.5
LOCK NUT 36 10 46 53.1 M36XP1.5
LOCK NUT 42 10 - 54 M42XP1.5
LOCK NUT 64 13 - 74 M64XP2.0
LOCK NUT 85 18 - 100 M85XP2.0
Unit:mm
Part no. H M N ØD1 ØD2 L K
STOP COLLAR 14 4 17 19.6 15 18 26 M14XP1.5
STOP COLLAR 16 6 22 25.4 17 19 25.4 M16XP1.5
STOP COLLAR 20 6 24 27.7 21 23 35 M20XP1.5
STOP COLLAR 25 8 32 37 26 31 40 M25XP1.5
STOP COLLAR 27 8 32 37 28 31 40 M27XP1.5
STOP COLLAR 36 10 - - 37 45 60 M36XP1.5
STOP COLLAR 42 10 - - 44 58 48 M42XP1.5
STOP COLLAR 64 13 - - 66 75 60 M64XP2.0
STOP COLLAR 85 18 - - 88 100 80 M85XP2.0
※ M08~M36 include Lock Nut(2pcs)※M42~M85 include Lock Nut(1pc)
※ Only for M36, M42, M64, M85. ※ Only for M36, M42, M64.
※ Only for M14~M27, M36~M85
K
H I
J
L
ØD
1
ØD
2
K
M
N
K
JH
L
ØD
1Ø
D2
K
c
4-Ød
ab
c
4-Ød
ef
b a
Industrial Shock Absorber (Adjustable)
KCC Co., Ltd.
www.kccpr.com127 -
PNEUMATIC & HYDRAULIC
KSCA series
KSCA series
③ Cap
Nil With out cap(Only M08, M10, M12, M14, M20)
BWith cap
(KSCA2030~KSCA3680 : Standard have urethane cap basically)
⑤ FinishingNil Black oxide coatingN Nickel plating
※ M08~M12 : Basic nickel plating
④ Damping constant 1 Soft2 Standard3 Hard
How to Order
Specifi cations
Max. impact velocity ≤ 4 m/secAmbient temperature -10~60℃
※ Includes lock nut(2pcs).
Non-adjustable(Small)
Non-adjustable(Medium)
Non-adjustable(Long stroke)
KSCA 08 06 -
① ② ③ ④ ⑤
Industrial Shock Absorber (Non-Adjustable)
ModelTotal
energy[Max] (Nm)
Total energy
per hour[Max]
(Nm/h)
Effective weight
[Max~Min](kg)
Shock force[Max] (N)
Return force[Min
~Max] (N)
Weight (g)
KSCA2050B-175 40,000
≤101,900 10~30 300KSCA2050B-2 ≤16
KSCA2050B-3 ≤32KSCA2525B-1
80 72,000≤20
4,000 20~40 270KSCA2525B-2 ≤30KSCA2525B-3 ≤110KSCA2530B-1
100 75,000≤30
4,000 10~35 300KSCA2530B-2 ≤50KSCA2530B-3 ≤110KSCA2550B-1
130 76,000≤30
4,000 20~50 410KSCA2550B-2 ≤50KSCA2550B-3 ≤110KSCA2580B-1
210 86,500≤30
4,000 20~45 530KSCA2580B-2 ≤50KSCA2580B-3 ≤110KSCA3680B-1
320 128,000 ≤1,000 5,000 25~50 800KSCA3680B-2KSCA3680B-3
ModelTotal
energy[Max] (Nm)
Total energy
per hour[Max]
(Nm/h)
Effective weight
[Max~Min](kg)
Shock force[Max] (N)
Return force[Min
~Max] (N)
Weight (g)
KSCA0806-12.8 6,000
≤8250 1~4 15
KSCA0806-2 ≤10KSCA1006-1
4 10,000≤5
630 4~6 25KSCA1006-2 ≤8KSCA1006-3 ≤13KSCA1210-1
8 14,000≤8
1,050 5~10 40KSCA1210-2 ≤16KSCA1415-1
15 27,000≤ 7
1,300 7~11 65KSCA1415-2 ≤17KSCA1415-3 ≤32KSCA1420-1
19 29,000≤7
1,300 7~12 80KSCA1420-2 ≤17KSCA1420-3 ≤32KSCA2020-1
30 35,000≤10
1,900 10~30 130KSCA2020-2 ≤16KSCA2020-3 ≤32
KSCA2030B-145 37,000
≤101,900 10~30 230KSCA2030B-2 ≤16
KSCA2030B-3 ≤32
Features
● Shock absorber made to stop smooth and quiet using a unique design for multiple orifice structure. When injection mold inject as well as collide against robot with high speed.● Non-adjustable shock absorber makes impact energy exhale to heat energy in a short time.● Shock Absorber allows higher productivity by increasing accelerated velocity.● Saves production costs by extending the equipment life.● Improves working efficiency by decreasing noise in factory.● Maintains better quality to prevent damage of goods.
① Outer diameter ② Stroke08 M8XP1.0 06 06 mm10 M10XP1.0 06 06 mm12 M12XP1.0 10 10 mm
14 M14XP1.0(M14XP1.5※)
15 15 mm20 20 mm
20 M20XP1.520 20 mm30 30 mm50 50 mm
25 M25XP2.0
25 25 mm30 30 mm50 50 mm80 80 mm
36 M36XP1.5 80 80 mm※ Order made : outer diameter M14XP1.5
KCC Co., Ltd.
www.kccpr.com 137 -
PNEUMATIC & HYDRAULIC
Shock Absorber
& Gas SpringShock
Absorber Reference
data
KPAKUPA
KSCA
KCSC
Gas Spring Reference
data
KBG-W
KBG-B
Impact Velocity
Structure
Industrial Shock Absorber (Non-Adjustable)
KSCA series
10
Part no. Parts Material Part no. Parts Material
1 Outer tube Free-cutting steel,SHN24L 6 Accumulator ECO
2 Inner tube Brass extruding tube, C2700BE 7 U-packing Nitrile rubber, NBR
3 Piston Brass extruding tube, C2700BE 8 Spring HSWR72A
4 Head Brass extruding tube, C2700BE 9 Dust cap AL2104
5 Piston rod Carbon steel tube, SM54C 10 Urethane cap Urethane, TPU
※ Impact velocity range: ≤1.4m/sec ※ Impact velocity range: ≤2m/sec
KSCA 1210-1, 1210-2 KSCA 1415-1, 1415-2, 1415-3
KSCA 1210-1KSCA 1415-3
KSCA 1415-2
KSCA 1415-1KSCA 1210-2
※ Impact velocity range: ≤1.7m/sec
KSCA 1006-1, 1006-2, 1006-3KSCA 0806
※ Impact velocity range: ≤1.6m/sec
KSCA 0806
KSCA 1006-3
KSCA 1006-2
KSCA 1006-1
Colliding object weight
(kg)
Colliding object weight
(kg)
Colliding object weight
(kg)
Colliding object weight
(kg)
Velocity V(m/s) Velocity V(m/s)
Velocity V(m/s) Velocity V(m/s)
KCC Co., Ltd.
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PNEUMATIC & HYDRAULIC
Impact Velocity
Industrial Shock Absorber (Non-Adjustable)
KSCA series
※ Impact velocity range: ≤3.8m /sec ※ Impact velocity range: ≤2m/sec
KSCA 2050-1, 2050-2, 2050-3 KSCA 2525-1, 2525-2, 2525-3
KSCA 2050-3KSCA 2525-3
KSCA 2050-2
KSCA 2525-2KSCA 2050-1
KSCA 2525-1
※ Impact velocity range: ≤2.2m/sec ※ Impact velocity range: ≤2.5m/sec
KSCA 2530-1, 2530-2, 2530-3 KSCA 2550-1, 2550-2, 2550-3
KSCA 2550-3KSCA 2530-3
KSCA 2550-2KSCA 2530-2
KSCA 2550-1KSCA 2530-1
※ Impact velocity range: ≤3m/sec ※ Impact velocity range: ≤3m/sec
KSCA 2580-1, 2580-2, 2580-3 KSCA 3680
KSCA 2580-3
KSCA 2580-2
KSCA 3680
KSCA 2580-1
※ Impact velocity range: ≤2.7m/sec ※ Impact velocity range: ≤3.3m/sec
KSCA 2020-1, 2020-2, 2020-3 KSCA 2030-1, 2030-2, 2030-3
KSCA 2020-3
KSCA 2030-3
KSCA 2020-2 KSCA 2030-2
KSCA 2020-1KSCA 2030-1
Colliding object weight
(kg)
Colliding object weight
(kg)
Colliding object weight
(kg)
Colliding object weight
(kg)
Colliding object weight
(kg)
Colliding object weight
(kg)
Colliding object weight
(kg)
Colliding object weight
(kg)
Velocity V(m/s) Velocity V(m/s)
Velocity V(m/s) Velocity V(m/s)
Velocity V(m/s) Velocity V(m/s)
Velocity V(m/s) Velocity V(m/s)
KCC Co., Ltd.
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PNEUMATIC & HYDRAULIC
Shock Absorber
& Gas SpringShock
Absorber Reference
data
KPAKUPA
KSCA
KCSC
Gas Spring Reference
data
KBG-W
KBG-B
KSCA seriesIndustrial Shock Absorber (Non-Adjustable)
Dimensions-Non-adjustable (Medium, Long Stroke)
Unit:mm
Model Stroke A B C øD E F øG M/K
KSCA2030B 30 149 103.5 30 6 13 6 18 M20XP1.5
KSCA2525B 25 132.5 91.5 25 8 13 8 22 M25XP2.0
KSCA2530B 30 161.5 115.5 30 8 13 8 22 M25XP2.0
KSCA2550B 50 236.5 170.5 50 8 61 8 22 M25XP2.0
KSCA2580B 80 331.5 235.5 80 8 126 8 22 M25XP2.0
KSCA3680B 80 343 241 80 10 131 10 34 M36XP1.5
Dimensions-Non-adjustable (Small)
※ Model withou cap: M8, M10, M12, M14, M20
※KSCA2030~KSCA3680 basic include urethane cap.
Unit:mm
Model Stroke A1 A2 B C øD E F øG M/K
KSCA0806 6 47 - 41 6 3 5 3 - M8XP1.0
KSCA0806-B 6 - 55 41 6 3 5 3 7 M8XP1.0
KSCA1006 6 47 - 41 6 3 5 3 - M10XP1.0
KSCA1006-B 6 - 57 41 6 3 5 3 9 M10XP1.0
KSCA1210 10 63 - 53 10 4 5 3 - M12XP1.0
KSCA1210-B 10 - 73 53 10 4 5 3 9 M12XP1.0
Unit:mm
Model Stroke A1 A2 B C øD E F øG M/K
KSCA1415 15 88.5 - 73.5 15 4 11 4 - M14XP1.0M14XP1.5
KSCA1415-B 15 - 101.5 73.5 15 4 11 4 11 M14XP1.0M14XP1.5
KSCA1420 20 93.5 - 73.5 20 4 11 4 - M14XP1.0
KSCA1420-B 20 - 106.5 73.5 20 4 11 4 11 M14XP1.0
KSCA2020 20 108.5 - 88.5 20 6 13 6 - M20XP1.5
KSCA2020-B 20 - 124 88.5 20 6 13 6 18 M20XP1.5
KCC Co., Ltd.
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PNEUMATIC & HYDRAULIC
KCSC series
KCSC series
② Stroke15 15mm30 30mm50 50mm
① SeriesKCSC Constant speed controller
Dimensions
How to Order
Unit:mm
Model Stroke A B C øD E F øG H øI øJ Weight
KCSC15 15 166.5 20 130.5
8 16 25.4 23.8 20 8 16
340
KCSC30 30 209 35 158 350
KCSC50 50 276 55 205 460
Model KCSC15 KCSC30 KCSC50
Stroke 15 30 50
Propellingforce (N)
Min. 30 30 35Max. 3,500 3,500 3,500
Return force (N)Min. 20 20 20Max. 30 30 35
Return force (Sec) 0.8 1.2 1.8Max. acceptance angle (○) 1.5 1.5 1.0
MaterialBody Steel(Nickel plating)
Piston rod Special steel(Chrominum plating)
Range of Impact Velocity 0.01m/s~0.65m/s
Ambient Temperature -10~60℃
Adjustment Adjustment knob located at rear.“0”is soft and “30”is hard.
KCSC 15
① ②
Costant Speed Controller
Specifi cations
Features
● KCC has 3 kinds of KCSC models which control the
speed of both, light and heavy loads with smooth and
consistent capacities. They are available in stroke
lengths of 15mm, 30mm and 50mm with capacities
from 2.5Kg to 255Kg force.KCC KCSC models are
hermetically sealed and can be operated in any
position for a long time operation without any leakage
and can control the moving devices with easy and
diverse by using adjustable dial.
1. Don’t turn piston rod. The seal will be damaged if turned.2. Piston rod and colliding object must be perpendicular
Precaustions
Mounting BlockConstant speed controller
KCC Co., Ltd.
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PNEUMATIC & HYDRAULIC
Shock Absorber
& Gas SpringShock
Absorber Reference
data
KPAKUPA
KSCA
KCSC
Gas Spring Reference
data
KBG-W
KBG-B
KCSC seriesCostant Speed Controller
Applications
KCSC as drilling and cutting fi xturePrevent damage when the drill pierce with exactadjustment of feed rate of drilling machine.
KCSC as sawing and milling fi xtureAdjust feed rate of milling machine exactly whendoing milling, honing and polishing work with fi xture
KCSC as drilling press and lathe workAdjust feed rate exactly while doing drilling,pressing and piercing work.
KCC Co., Ltd.
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PNEUMATIC & HYDRAULIC
Reference Data
Gas Spring
What is Gas Spring?
-Inside the closed cylinder of gas spring, compressed nitrogen gas and little volume of oil are injected, and the structure of it is that the pressure of nitrogen gas exerts to the section of the piston rod, and thus repulsive force can be acquired. Due to this structure, it has following features, and thus it may widely be used for various industrial machines, furniture, home appliance, OA machine, and athletic equipment as well as automobile.
Precautions
• Do not dismantle the product or do not put it into a fi re.• For use, attach it with the cylinder upward direction.• Do not paint at the piston rod, or do not put a foreign object into it, and do not make a scar on the surface of it.• Use it within the range of 0℃~ 40℃.• Do not use it at a place where corrosion may be expedited, and rain / water is contacted, or humidity is high.• When you discard it, wear protective goggles, make a hole with a drilling tool about 3mm size at the position of 25mm from the end of cylinder like the fi gure. After gas is discharged then discard it.
Features
● It can absorb impact and vibration, and can open, close and move an object such as a cover with little force.● Comparing to a coil spring or a plate spring, it is small and light, but has a big repulsive force.● In a section between all strokes of it, relatively constant repulsive force can be acquired.● Setting-up of working speed combined with extension is possible.● Attachment and detachment of the gas spring are easy.● Designing in accordance with use and widely ranged application are possible.
KCC Co., Ltd.
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Shock Absorber
& Gas SpringShock
Absorber Reference
data
KPAKUPA
KSCA
KCSC
Gas Spring Reference
data
KBG-W
KBG-B
PNEUMATIC & HYDRAULIC Gas SpringReference Data
Decision of Repulsive Force (F1)
�)
A
m= 50kg
v = 2m/ s
E =100Nm
E 2x100W = = 50kg
4
■ Setting-up repulsive force can be sought by following formula, and it can be decided with consideration of temperature and other conditions.
L1 = Horizontal distance parallel with the earth surface from the hinge to the central point of the weight of the doorL2 = Vertical distance from hinge to the central line of the gas springW = Weight of the doorN = Quantity of the gas spring to be attached
■ Please make the really repulsive force of the product to be higher than F1x1.2 (safety factor).■ For the life span and the safety of the hinge, etc., please apply more than two.
A = Repulsive force of position where piston rod is compressed 10mm
B = Repulsive force of 10mm position right before expanding a piston rod fully
C = Repulsive force of 10mm position right before compressing a piston rod fully
D = Repulsive force of position where piston rod is expanded 10mm again after
compressing it 10mm
Graph of Repulsive Force
1
A +BF =
2 2
C+DF =
2
Variation Ratio of Compression vs Variation Volume of Temperature
In accordance with abnormal gas equation, the repulsive force for every 10℃ temperature of the variation changes by 3.4% each. In accordance with this, considering the constant temperature of product applied to the gas spring, the repulsive force is determined. However, with small quantity of oil injected inside and the change of viscosity of grease, etc,. the real value may be changed differently.
F1 = W×L1L2×N
KCC Co., Ltd.
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PNEUMATIC & HYDRAULIC Gas SpringReference Data
Structure
Part no. Parts Material
1 Piston rod S45C
2 Rod guide Acetal
3 Seal H-NBR
4 Stopper Acetal
5 Washer SCP
6 O-Ring H-NBR
7 Piston Acetal
8 Piston H-NBR
9 Washer SCP
10 Cylinder STKM12B
11 Lower cap S20C
Gas Spring, Damper
Step Spring
KCC Co., Ltd.
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Shock Absorber
& Gas SpringShock
Absorber Reference
data
KPAKUPA
KSCA
KCSC
Gas Spring Reference
data
KBG-W
KBG-B
KBG-W10~W50 seriesGas Spring
PNEUMATIC & HYDRAULIC
KBG-W10~ W20 series
KBG - W10 15 -
① ② ③ ④
① End fitting typeW10 Straight (ø6 X 3T)W20 Straight (ø8 X 3T)W30 Straight (ø6 X 5T)W40 U Type (ø10)W50 L Type (ø8 X10T)
④ ForceRefer to specifi cations according to end
fi tting
② Cylinder outer diameter15 Ø1518 Ø1822 Ø22
27.4 Ø27.4
③ Max. lengthRefer to specifi cations according to end
fi tting
Unit:mmCylinder dia.
ØAPiston rod dia.
ØB L-Max (C) Stroke (D) Forcekgf Calculation method
Ø15 Ø6 160~500 52~222 3~30 Max. length = (Stroke+28) X2~500Stroke = 52~Max. length/2-28
Ø18 Ø8 160~800 46~366 5~30 Max. length = (Stroke+34) X2~800Stroke = 46~Max. length/2-34
Dimensions-W10 (Straight Bracket(Ø6×3T))
How to Order
W10 W20
W30
W40
W50
KCC Co., Ltd.
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KBG-W10~W50 seriesGas Spring
PNEUMATIC & HYDRAULIC
Dimensions-W30 (Straight Bracket(Ø8×5T))
Dimensions-W20 (Straight Bracket(Ø8×3T))
Unit:mmCylinder dia.
ØAPiston rod dia.
ØB L-Max (C) Stroke (D) Forcekgf Calculation method
Ø18 Ø8
180~800 51~361
5~50 Max. length = (Stroke+39) X2~800
Stroke = 51~Max. length/2-39Ø22 Ø10 10~80
Ø27.4 Ø12.5 10~100
Unit:mmCylinder dia.
ØAPiston rod dia.
ØB L-Max (C) Stroke (D) Forcekgf Calculation method
Ø15 Ø6 180~510 57~222 3~30 Max. length = (Stroke+33) X2~510Stroke = 57~Max. length/2-33
Ø18 Ø8 180~800 51~361 5~30 Max. length = (Stroke+39) X2~800Stroke = 51~Max. length/2-39
KCC Co., Ltd.
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Shock Absorber
& Gas SpringShock
Absorber Reference
data
KPAKUPA
KSCA
KCSC
Gas Spring Reference
data
KBG-W
KBG-B
KBG-W10~W50 seriesGas Spring
PNEUMATIC & HYDRAULIC
Dimensions-W50 (L Type Bracket (Ø8×5T))
Unit:mmCylinder dia.
ØAPiston rod dia.
ØB L-Max (C) Stroke (D) Forcekgf Calculation method
Ø18 Ø8
200~800 54~354
5~50Max. length = (Stroke+46) X2~800
Stroke = 54~Max. length/2-46Ø22 Ø10 10~100
Ø27.4 Ø12.5 10~120
Unit:mmCylinder dia.
ØAPiston rod dia.
ØB L-Max (C) Stroke (D) Forcekgf Calculation method
Ø22 Ø10180~800 52~362
10~100 Max. length = (Stroke+38) X2~800Stroke = 52~Max. length/2-38 Ø27.4 Ø12.5 10~120
Dimensions-W40 (U Type Bracket (Ø10))
KCC Co., Ltd.
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KBG-B20~ B22 seriesGas Spring
PNEUMATIC & HYDRAULIC
Dimensions-B20 (Metal Ball Socket)
KBG - B20 18 -
① ② ③ ④
① End fitting typeB20 Metal ball socketB21 Penetration hinge (ø8X10T)B22 Plastic ball socket
② Cylinder outer diameter15 ø1518 ø1822 ø22
27.4 ø27.4
Unit:mmCylinder dia.
ØAPiston rod dia.
ØB L-Max (C) Stroke (D) Forcekgf Calculation method
ø18 ø8180~800 48~358
5~50Max. length = (Stroke+42) X2~800
Stroke = 48~Max. length/2-42ø22 ø10 10~100ø27.4 ø12.5 10~120
KBG-B20~ B22 series
How to Order
B20 B21 B23
④ ForceRefer to specifi cations according to end
fi tting
③ Max. lengthRefer to specifi cations according to end
fi tting
KCC Co., Ltd.
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KBG-B20~ B22 seriesGas Spring
PNEUMATIC & HYDRAULIC
Shock Absorber
& Gas SpringShock
Absorber Reference
data
KPAKUPA
KSCA
KCSC
Gas Spring Reference
data
KBG-W
KBG-B
Dimensions-B21 (Penetration Hinge (Ø8×10T))
Dimensions-B22 (Plastic Ball Socket)
Unit:mmCylinder dia.
ØAPiston rod dia.
ØB L-Max (C) Stroke (D) Forcekgf Calculation method
ø18 ø8180~800 46~356
5~50Max. length = (Stroke+44) X2~800
Stroke = 46~Max. length/2-44ø22 ø10 10~100ø27.4 ø12.5 10~120
Unit:mmCylinder dia.
ØAPiston rod dia.
ØB L-Max (C) Stroke (D) Forcekgf Calculation method
ø18 ø8180~800 50~360
5~50Max. length = (Stroke+40) X2~800
Stroke = 50~Max. length/2-40ø22 ø10 10~80ø27.4 ø12.5 10~80
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