ACE缓冲器有效重量计算方法指导。
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Provides some of the flexibility of an adjustable shock absorber Also provides tamperproof feature of the hydroshock
• •
SelfSelf-Compensation and Efficiency
Dash - 4
Effective Weight kg
10
35
115
375
1,200
World leader in deceleration technology
SelfSelf-Compensating
Stroke
SC2 Shock Performance
(Force vs. Stroke) Soft Contact
Soft contact performance at minimum effective weight
Stroke
Soft Contact
Self-compensating units generally have:
• •
Higher reaction forces Lower peak energy per cycle ratings.
Shock Performance
(Force vs. Stroke) Hydroshock
Force Adjustable shock absorber properly tuned, or hydro shock perfectly matched
Stroke Self-compensating shock absorber when hit with a higher velocity load (low effective weight)
SelfSelf-Compensating
Stroke
Shock Performance
(Force vs. Stroke) Hydroshock
Force Adjustable shock absorber properly tuned, or hydro shock perfectly matched
Stroke Self-compensating shock absorber when hit with a lower velocity load (high effective weight)
SelfSelf-Compensation
“Back to the Future”
HydroHydro-Shock ~ Fixed Design
Tamperproof, but inflexible One effective weight Used when optimum performance is required
Soft contact performance Βιβλιοθήκη Baidut maximum effective weight
Stroke
Magnum Effective Weight Ranges
Dash - 1 Dash - 2 Dash - 3 9 31 104 354 36 123
MC 3325 Shown
417 1,415
Both ~ Self-Compensating Designs Self-
Adjustable Design
01 2345 6789
Tamperproof and flexible Wide effective weight range Used for a range of conditions in the same application
World leader in deceleration technology
Effective Weight (We)
Effective Weight
Effective weight determines the total orifice area (the sum of all the orifices) and determines how this area must decrease to provide linear deceleration.
Adjustable Design
Slot over orifice arrangement Constant size orifices Exponential spacing
SelfSelf-Compensating
Fixed
Large orifices at the start of stroke, smaller orifices toward the end Computer designed self-compensating arrangement
Types of Orificing
Hydro Shock Fixed
Provides lowest reaction force at a single weight
Hydro Shock Adjustable
Provides lowest reaction force at multiple weights
Orifice Design
Orifice design is the direct result of the Effective Weight calculation.
Over the years the technology has evolved into three primary orficing types.
Self Comp Fixed
Provides good performance over a wide range of weights
HydroHydro-Shock Design
Fixed
Constant orifice size Exponential spacing
HydroHydro-Shock
Not tamperproof, but very flexible Very wide effective weight range Used for many applications at same plant
KO CL
Focus On Self-Compensation
Definition: A fixed, multi-orificed device that provides acceptable deceleration over a wide range of effective weights (We).
• •
SelfSelf-Compensation and Efficiency
Dash - 4
Effective Weight kg
10
35
115
375
1,200
World leader in deceleration technology
SelfSelf-Compensating
Stroke
SC2 Shock Performance
(Force vs. Stroke) Soft Contact
Soft contact performance at minimum effective weight
Stroke
Soft Contact
Self-compensating units generally have:
• •
Higher reaction forces Lower peak energy per cycle ratings.
Shock Performance
(Force vs. Stroke) Hydroshock
Force Adjustable shock absorber properly tuned, or hydro shock perfectly matched
Stroke Self-compensating shock absorber when hit with a higher velocity load (low effective weight)
SelfSelf-Compensating
Stroke
Shock Performance
(Force vs. Stroke) Hydroshock
Force Adjustable shock absorber properly tuned, or hydro shock perfectly matched
Stroke Self-compensating shock absorber when hit with a lower velocity load (high effective weight)
SelfSelf-Compensation
“Back to the Future”
HydroHydro-Shock ~ Fixed Design
Tamperproof, but inflexible One effective weight Used when optimum performance is required
Soft contact performance Βιβλιοθήκη Baidut maximum effective weight
Stroke
Magnum Effective Weight Ranges
Dash - 1 Dash - 2 Dash - 3 9 31 104 354 36 123
MC 3325 Shown
417 1,415
Both ~ Self-Compensating Designs Self-
Adjustable Design
01 2345 6789
Tamperproof and flexible Wide effective weight range Used for a range of conditions in the same application
World leader in deceleration technology
Effective Weight (We)
Effective Weight
Effective weight determines the total orifice area (the sum of all the orifices) and determines how this area must decrease to provide linear deceleration.
Adjustable Design
Slot over orifice arrangement Constant size orifices Exponential spacing
SelfSelf-Compensating
Fixed
Large orifices at the start of stroke, smaller orifices toward the end Computer designed self-compensating arrangement
Types of Orificing
Hydro Shock Fixed
Provides lowest reaction force at a single weight
Hydro Shock Adjustable
Provides lowest reaction force at multiple weights
Orifice Design
Orifice design is the direct result of the Effective Weight calculation.
Over the years the technology has evolved into three primary orficing types.
Self Comp Fixed
Provides good performance over a wide range of weights
HydroHydro-Shock Design
Fixed
Constant orifice size Exponential spacing
HydroHydro-Shock
Not tamperproof, but very flexible Very wide effective weight range Used for many applications at same plant
KO CL
Focus On Self-Compensation
Definition: A fixed, multi-orificed device that provides acceptable deceleration over a wide range of effective weights (We).