NO762709L - - Google Patents

Description

Device for measuring ski stiffness

This invention relates to a device for measuring ski stiffness, particularly for cross-country skis to be waxed.

By "stiffness" in a ski is usually meant stiffness against stresses that can cause bending of a ski, i.e. stresses that reduce resilience. These stresses usually occur as a result of a skier's static weight and dynamic body force.

Depending on the purpose of the ski, the skier's weight, his gait and other factors, it is desirable to have skis with different stiffness. Choosing a ski with the right stiffness is particularly important when it comes to cross-country skis to be waxed, as the bending of the ski here has a significant influence on the ski's climbing properties.

Up until now, sellers and buyers, when it comes to the determination of a ski's stiffness, have referred to relatively rough tests - or demonstration methods. Usually, they involve the ski being bent somewhat by hand or both skis held together being pressed against each other. It is clear that such a method cannot provide any accurate and reliable determination of the exact stiffness value for a ski.

The task underlying this invention is therefore to provide a device which allows an accurate measurement of the ski stiffness even though it is simply made and is easy to handle.

According to the invention, this task is solved in that a holder which is designed to grip a pair of skis has two slopes that can be moved in relation to each other, one of which carries the stationary part of a pressure measuring device whose movable measuring device comes into contact with the elastically compressed pairs of ships leaning on the other.hill.

In such a measuring device which is held with one hand, the ski pair which is measured with the help of the other hand can be guided in a more or less compressed state between the slopes. Depending on the equipment on the measuring device, the slopes can then be set in relation to each other so that the two skis in the elastically compressed pair of skis have a predetermined distance (this measurement is usually made in the middle area of the ski, i.e. the binding area). The pressure measuring device, whose movable measuring device is under pressure from the elastically compressed pair of skis, then shows a measurement value which is a measure of the stiffness of the skis in the pair.

If this measurement is carried out several times with pairs of skis compressed to varying degrees, accurate measurement values are obtained for the ski's initial, intermediate and final stiffness.

The device according to the invention also allows measurements in different zones of the length of the ski.

The pressure measuring device's indicator can advantageously be equipped with a multiple scale, which e.g. for a cross-country ski on the one hand is divided into the two most important types of snow (powder snow and wet snow) and within these scale divisions there is also a further division according to body weight.

The device according to the invention has in practice, especially for the passionate cross-country runner, several new advantages. Thus, it is here in a simple way for the first time when buying new skis possible to search for the hardness conditions for a cross-country ski that has already proven to be good. With this in mind, the old ski is first measured in the individual length zones with different spacers for the ski's initial stiffness, intermediate stiffness and final stiffness. You then look for a new ski that has approximately the same stiffness value as the previous one. If you then take into account that it is precisely with cross-country skiing that must

grows, it is the gliding properties and the climbing properties that are decisive for the ski stiffness in the individual length zones of the ski to be individually adapted to the cross-country skier in question, then it will be clear that with the help of the invention, significant improvements have been achieved

progress in the area.

The invention will be explained in more detail below by means of examples with reference to the drawing, where: Fig. 1 schematically shows a first embodiment of the device according to the invention, fig. 2 shows another device according to the invention, and fig. 3 shows part of the indicator in the pressure measuring device.

The one in fig. The device shown in 1 for measuring the ski stiffness has two slopes 1 and 2 that can be moved in relation to each other. The slope 1 is firmly connected (or made in one) with a guide rail 3 and the slope 2 can be moved along this rail (double arrow 4).

The ground 1 carries the stationary part 5 of a pressure measuring device 6, whose movable measuring device 7 is designed as a pressure pin (which is movable in the direction of the double arrow) and rests against a pair of skis 9, which rests on the ground 2.

The measurement of the ski stiffness with the one in fig. 1 shows the device as follows: The device is held, e.g. with the left hand grasping the lower part of the guide rail 3. The slopes 1 and 2 are located so far apart that the pair of skis 9 with the skis 10 and 11 can be pressed together with the right hand and guided between the slopes 1 and 2. The position of the slope 2 is selected then such (or corrected by readjustment) that a predetermined distance d is set between the skis 10 and 11. The pressure with which the two skis are pressed together (and which is recorded by the movable measuring device 7) can be read on the indicating device of the pressure measuring device 6. This indicating instrument then has an appropriately divided scale 12 with a pointer 13.

From fig. 1 shows that the two adjustable slopes in the measuring device are locked more or less firmly by the tilting effect of the pressed pair of skis 9, so that the slope 2 is held firmly on the rail 3.

In order to make the displacement of the movable hill 2 easier in relation to the fixed hill 1, especially with already clamped pairs of skis 9, a tooth lock can be arranged (not shown in the drawing) which is operated with a handle and which allows the hill to be shifted step by step 2. Of course, it is also possible to think of other displacement devices that are power-saving, e.g. rack and pinion.

In the embodiment according to fig. 2, the two trays 21, 22 are designed as arms in two double-weight rods which are pivotally connected to each other by means of an axle pin 2 3. The ground 21 carries the stationary part 5 of the pressure measuring device 6, whose movable measuring device 7 rests against the pair of skis 9 which rests against the other hill 22.

The other two arms 24,25 of the double-weight rods are held apart by means of a compression spring 26. A setting screw 27 has a collar 27a which rests against the arm 25 and is in threaded engagement with a threaded piece in the arm 24. When turning the setting screw 27 can the slopes 21,22 approach each other against the force action of the compression spring 26.

Incidentally, the measuring device according to fig. 2 as the device according to fig. 1, so that further description of super-superfluous.

Fig. 3 shows on a somewhat larger scale the indicating instrument in the pressure measuring device 6. The instrument has two scales 12a, 12b, where the outer scale 12a can be graduated for stiffness values for wet snow conditions, while the inner scale 12b can be graduated for corresponding values for powder snow. Each of the two scales that interact with a display of .13 is divided according to body weight.

Claims (9)

Device for measuring ski stiffness, in particular for cross-country skis to be waxed, characterized in that a holder which is arranged for engagement with a pair of skis (9) has two slopes (1,2) that can be moved relative to each other, of which one slope (1) carries the stationary part (5) of a pressure measuring device (6), whose movable measuring device (7) comes into contact with the elastically compressed pair of skis (9) which leans against the other hill (2). 2. Device according to claim 1, characterized in that the ground (1) which carries the stationary part (5) of the pressure measuring device (6) is arranged fixedly on the other ground (2) which serves to support the pair of skis (9), and adjustable connected to the holder's remaining part (3). 3. Device according to claim 1 or 2, characterized in that the adjustable tray (2) is displaceable on one with the other tray (1) fixedly connected or with this in one designed guide rail (3) and can be locked in the desired position. 4. Device according to claim 3, characterized in that the adjustable hill (2) is lockable by a load-dependent rocking movement. 5. Device according to claims 1 and 2, characterized in that one of the slopes is displaceable in relation to the other slope along a guide rail by means of a ratchet-like device. 6. Device according to claim 1, characterized in that the two slopes (21,22) are pivotally connected to each other. 7. Device according to claim 6, characterized in that it comprises a compression spring (26) which pushes the two slopes (21,22) apart and a setting device (27) which serves to bring the two slopes (21,22) closer together against the force of the spring. 8. Device according to claim 1, characterized in that the two trays (21,22) each form an arm in two double-armed barbells. 9. Device according to claim 1, characterized in that the pressure measuring device (6) contains a pointer instrument with a pointer (13) on a circular scale (12, 12a, 12b).