Measuring and testing – Dynamometers – For testing force-biased connections
Patent
1979-10-22
1982-07-27
Ruehl, Charles A.
Measuring and testing
Dynamometers
For testing force-biased connections
G01L 503
Patent
active
043411215
DESCRIPTION:
BRIEF SUMMARY
Various constructions of apparatuses are known for testing and/or demonstrating the setting of safety ski bindings which are for example mounted on skis, by way of a ski boot held in the ski binding. In these apparatuses, the resisting force of the individual binding components which are to be released are detected during the releasing operation. In general, the maximum releasing force can be read off on a dynamometer with the aid of a drag pointer. It is also possible to exert on the binding large momentary shock-like forces of the kind occurring in practice.
A particularly revealing criterion for the assessment of safety ski bindings is also the size of its resetting capacity. However, this cannot be tested with the aid of presently marketed equipment.
It is therefore the object of the present invention to provide a method for testing the resetting capacity of safety ski bindings which are for example mounted on skis, by way of a ski boot held in the ski binding.
The method of the invention resides in that the ski boot is moved in the releasing direction through a constant distance by a constant force during constant time intervals and opposite to the releasing direction against a constant force during a respective constant intermediate period.
FIG. 1 illustrates schematically the apparatus of the present invention; and
FIG. 2 portrays graphically the method of the present invention.
With an apparatus, generally designated 10, in which a pressure pin 12 or the like is mounted in a supporting member 14 for displacement in the releasing direction to apply a releasing load on the ski boot 16, it is suggested that for the purpose of performing the method of the invention the pressure pin be provided with a path giver, generally designated 18, which moves the pin 12 in the releasing direction and is under the influence of a clock 20 for turning it on and off, and that a resistance be built in which counteracts the resetting of the pressure pin 12 when the path giver 18 is switched off.
As clearly illustrated in FIG. 1, the path giver 18 is associated with clock 20 and a solenoid 22 actuated by the clock 20. The path giver 18 has a valve member 24 with a control rod 26 operatively associated with the solenoid 22. A control portion 28 of the valve member 24 is located within a housing 30. The housing 30 has an inlet 32 connected to a constant pressure source, a first outlet 34 connected to the supporting member 14, and a second outlet 36 for allowing escape of pressure from the housing 30 and support member 14. The control portion 28 is movable, by the solenoid 22, between first and second positions. In the first position, the pressure source is in fluid communication with the support member 14 so that the pin 12 is urged towards the boot 16 held in the binding 42 on the ski 44. In the second position, the support member 14 is in fluid communication with the second outlet 36 so that the pin 12 is forced into the support member by the force exerted on the boot by binding 42.
After a ski 44 provided with a safety ski binding 42 has been secured in the apparatus 10 and after a ski boot 16 has been placed in the binding 42, the apparatus 10 is ready for operation and can be switched on. Switching on of the clock 20 also causes the path giver 18 to be switched on, which applies a constant force to the pressure pin 12 in the releasing direction for a constant time interval, causing said pressure pin to move through a constant distance and carries the ski boot 16 along with it against the resistance of the binding component 42. After the predetermined constant distance has been traversed, the path giver 18 switches itself off and at the same time the resistance is switched on that opposes the resetting motion of the pressure pin 12, for instance, the resistance to fluid flow provided by the fluid flow path from support member 14, through outlet 34, through housing 30, and through the second outlet 36. The spring force stored during the releasing motion of the binding component 42 now causes the binding component to re
REFERENCES:
patent: 3861205 (1975-01-01), Frey
Eichweber Gerhard
Knabel Walter
Marker Hannes
Marker Hannes
Ruehl Charles A.
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