• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a stick plate (1) for releasable attachment to a lower end of a pole of a ski pole, comprising a substantially in a radial plate plane (E) spanned plate portion (4) and a through hole (3) for receiving the lower end of the pole tube wherein the plate portion has a hook (10) extending from the plate plane upward in a direction substantially parallel to a stick longitudinal axis (L).
    公开号:CH713281A1
    申请号:CH01724/16
    申请日:2016-12-23
    公开日:2018-06-29
    发明作者:Doll Christoph;Heim Eberhard
    申请人:Lekisport Ag;
    IPC主号:
    专利说明:

    Description TECHNICAL AREA
    The present invention relates to a mountable at a lower end of a pole tube tour plate, especially for a touring ski pole, alpine ski pole, or cross-country ski pole.
    STATE OF THE ART
    In the field of snow sports and trekking or Nordic walking, it is useful if the stick tip, be it a rubber buffer or a stick plate, are designed interchangeable, in case of wear of the corresponding component, or in the case of seasonal conversion Of the stick does not have to replace the entire floor, but only the top attachment or the buffer or plate attachment. In the prior art, many stick plates are known, which are releasably attachable to a lower end of a ski pole. EP 0 035 200 discloses a ski pole with a snow plate detachably fastened thereto, DE 7 903 714 U1, for example, discloses a plate which can be fastened by latching. EP 0 906 776 A1 discloses a stick tip on which various plates can be fixed at the lower end of the stick by means of a bayonet catch.
    An existing problem for skiers, especially Skitourengänger is that snow accumulates on the ski boot sole and is trodden. To tap this, either the pipe of the ski pole is hit on the ski boot sole, but this can lead to scratching the pipe surface or even deformations of the pole. Alternatively, the hard metal tip of a ski pole can be used to scratch the snow from the structures of the underside of the ski boot. However, due to its small diameter, this is only suitable to a limited extent for this function and allows only a very local and thus inefficient removal of hard snow. US 5,358,277 discloses for this purpose a stick plate with a scraping edge, in particular for the removal of snow from a Skibelagsoberfläche, or of a climbing aid, such as skins, but also for example from a ski boot or snow boot sole. In addition, it is a need for ski tourers or skiers to use a tool to operate the ski binding and / or the climbing aid on the ski binding, since the operation with gloves is impractical and the operation of the metal device with bare hands in wintry temperatures not only unpleasant, but can also be dangerous if, for example, the hands have become sweaty in the glove and the skin can stick to the ice-cold metal. Previously known from the prior art is the US 2009/058 064 A1, which discloses a stick plate with a hook for operating a ski boot binding.
    PRESENTATION OF THE INVENTION
    It is an existing need of snow athletes, especially ski tourers, to use as little material as possible, e.g. to take a small amount of material. Therefore, it would be desirable to provide an improved replaceable stick plate available, which meets as many as possible all existing needs of the ski tour. This object is achieved by the stick plate according to claim 1.
    Such a stick plate, which is suitable for releasably attaching to a lower end of a pole tube of a ski pole, has a substantially in a radial plate plane clamped plate portion, i. This plate section extends from the stock longitudinal axis in the radial direction. The plate portion has a dish plate with a substantially convex surface, i. the plate is upwards to the stick handle, or away from the pad, arched. Likewise, the plate portion has a passage opening for receiving the lower end of the pole tube. If the stick plate is mounted at the lower end of a pole tube, this passage opening is aligned with the pole longitudinal axis. This passage opening may be formed by a substantially hollow cylindrical sleeve portion, whose longitudinal axis is aligned with the longitudinal axis of the pole. This sleeve portion, which serves to receive and releasably attach the lower end of the pole tube, may be integrally formed with the cup portion, or formed separately from the cup portion and secured thereto. Preferably, the sleeve portion extends substantially downwardly from the cup portion along the stick longitudinal axis. towards the pad. The sleeve portion is preferably arranged centrally on the stick plate, but the features according to the invention can also be realized on an asymmetrical stick plate. The sleeve portion preferably has an internally threaded portion, particularly preferably seen in a central portion with respect to the pole longitudinal axis, which is adapted to interact with an external thread at the lower end of the pole tube. Preferably, the sleeve portion also includes a portion having a freewheeling area, i. a non-threaded portion in which the stick plate does not interact with an externally threaded portion of the stick tube and is freely rotatable about the stick tube in a non-threaded portion of the stick tube. After the stick plate is screwed onto the stick tube, the stick plate thus snaps into this unthreaded section of the stick tube. This prevents the plate from being released from the pole tube in the event of an unintentional rotation or being unintentionally turned off the pole tube.
    According to the invention, the plate section has an upwardly from the plate plane, i. from the pad or from the pole tip directed away hook, which extends in a direction substantially parallel to the longitudinal axis of the pole. This hook has a linear section which extends with its long upper edge or upper side in a direction perpendicular to the longitudinal axis of the pole and substantially parallel to the plate plane. The linear section is flanked by two bevelled or rounded sections.
    The linear portion of the hook preferably has a length of 1-6 cm, more preferably 2-4 cm. The height of the hook at its peripheral side surface, measured in the middle or at the edge of its linear section before the transition into the respective chamfered section, is preferably about 3-15 mm, more preferably about 7-12 mm. Preferably, the linear portion of the hook extends over substantially the entire width of the fourth wing of the disc portion as measured at its outer edge at its deflected periphery. The hook is preferably formed as a deflection of a peripheral portion of a plate wing upwards. The deflection radius is preferably about 2-10 mm. The peripheral edge side edge of the hook is directed rearwardly substantially with respect to the running direction. Preferably, the upper edge or upper side of the hook does not project beyond the upper edge of the sleeve portion on the surface of the plate portion.
    The hook is preferably formed on the plate portion or on the plate plate, i. formed as an integral part of the dish plate. In an alternative embodiment, the hook is designed as a separate component, which can be attached to the plate section if necessary. The hook is arranged at a first, peripheral end of the preferably integrally formed component, while at the second, to some extent axial end, an eyelet is arranged with a through hole, which is aligned in the mounted state on the stock plate with the passage opening of the plate portion. Between the hook and the eyelet, the component has an elongated portion, which comes to rest on the surface of the plate portion with mounted on the stock plate member and extends from the through hole of a plate wing, on which the component is attached, to the eyelet. According to a particularly preferred alternative embodiment of the hook is performed by a recess of a plate wing from top to bottom, wherein the component engages or snaps on the underside of the plate portion. In this alternative embodiment, the hook preferably protrudes beyond the diameter of the disc portion below the disc wing to which it is attached. With regard to the length and height of the hook, as well as deflection radius and material, the information mentioned in connection with the integrally formed on the leaf wing hooks are also applicable to the hook on the separate component. In the case of the separate component, however, the hook preferably does not extend over the entire peripheral length of the plate wing to which it is attached.
    According to a further preferred embodiment, the plate portion on a further wing on a scraping edge. The scraping edge, which serves to remove snow from a ski surface, or from a climbing aid, such as climbing skins, but also, for example, a ski boot sole or snow boot sole, preferably has a linear section extending substantially perpendicular to the longitudinal axis of the stock. This linear portion of the scraping edge preferably has a length of 2-12 cm, more preferably 3-8 cm, most preferably 4-5 cm. The height of the linear section of the scraping edge, measured on its front side (with respect to the running direction) directed end face, is preferably about 2-15 mm, particularly preferably 5-9 mm. Advantageously, the scraping edge is formed on the plate portion or on the plate plate, in particular preferably integrally formed thereon, or is preferably an integral part of the plate plate.
    Preferably, the scraping edge connects two wings of the plate portion to one another at a periphery, or bridges a recess between two plate wings in the edge region of the plate portion.
    The linear portion of the scraping edge has a with respect to the running direction forwardly directed side surface or end face, which at an angle of 0-90 degrees, preferably 45-90 degrees, more preferably of about 90 degrees, to Plate plane extends, ie the side face or end face extends either at an angle or, according to a preferred embodiment, even perpendicular to the plate plane and parallel to the longitudinal axis of the stick.
    Preferably, the plate portion is formed of a plurality of wings, which are integrally formed or attached to the sleeve portion. The wings extend substantially from the passage opening in the radial direction to the periphery. Alternatively, the plate portion of several, at least partially formed by open recesses in the circumferential direction separate wings. The recesses extend preferably not over the entire crown radius, but only over a part thereof, i. the wings are preferably not separated from each other to the passage opening, or merge with each other in the direction of the center plate. The plate section preferably has at least three wings, in particular preferably five wings. But the wings may instead be separated from each other by through holes, i. It may be connected to the periphery by a common edge to the lower edge of the plate portion toward two or more, or even all the leaf wings on the periphery. The hook could be formed in such a case connected to the periphery of the plate wings, for example, as an attachment of a plate wing, and formed the scraping edge, for example, as a special peripheral configuration of one or more other plate wing.
    In a further preferred embodiment, the stick plate, or the plate portion, is formed mirror-symmetrically with respect to a plane of symmetry, which extends along the longitudinal axis of the stock. The plane of symmetry preferably halves the linear portion of the hook and, preferably, if such a scraping edge is present, also halves the linear portion of the scraping edge.
    In a particularly preferred embodiment, the scraping edge and the hook in the radial direction of the stick plate with respect to the passage opening, in particular along a plane of symmetry of the stock plate are arranged opposite to each other. Particularly preferably, the linear portion of the hook is arranged parallel to the linear portion of the scraping edge.
    It is particularly advantageous if the plate portion has one or more of the stick longitudinal axis substantially radially extending reinforcing rib (s), which are preferably integrally formed on the sleeve portion or attached thereto. These reinforcing ribs may be arranged on top and / or on the underside of the plate plate, and extend over part of the crown radius or over the entire crown radius.
    In a further advantageous embodiment of the hook and / or the scraping edge is formed of a harder material than the rest of the plate plate or the plate portion. For example, the plate plate may be made substantially of a flexible plastic, while the hook and / or the rake edge of a rigid plastic or even metal is formed. In this case, the hook and / or the scraping edge may be integrally formed on the dish plate, for example by injection molding, or attached thereto as a separately manufactured element, for example by adhesion, positive connection and / or material bond, for example by gluing, welding or riveting.
    The sleeve portion may be formed of the same material as the plate plate, or of a material of greater rigidity or strength.
    Sleeve section and / or dish plate may be formed, for example, of a thermoplastic material, which may optionally be glass and / or carbon fiber reinforced, such. thermoplastic elastomer (TPE), polyethylene (PE), polypropylene (PP), acrylonitrile-butadiene-styrene copolymer (ABS), a polyamide, or mixtures of such polymers. However, the sleeve portion and / or the plate plate may also consist of a metal or be formed as a composite component of metal and thermoplastic material.
    According to a further embodiment, the hook and / or the scraping edge of the same material, preferably made of thermoplastic material formed as the sleeve portion. In this case, the hook and / or the scraping edge can be formed integrally with the sleeve portion and separately from the rest of the plate portion or the plate plate. A particularly preferred embodiment is designed as a two-component mold, wherein the scraping edge, sleeve portion and hooks of a harder material, preferably made of a thermoplastic material material as stated above, are formed as the rest of the plate portion.
    The outer diameter of the stick plate is preferably about 6-14 cm, more preferably about 8-12 cm. According to a preferred embodiment, the diameter of the pole plate in the region of the hook, and in particular along the plane of symmetry, is smaller than the diameter in the region of the plate wings without hooks. That due to the deflection of the peripheral edge of the one wing and thus due to the shortening of the radial length of the corresponding wing, the length of a regular plate wing (without hook) is preferably greater than the length of a plate wing with hooks, measured in the radial direction in the plate plane. However, the diameter D2 of the stick plate 1 can, for example in the alternative embodiment, in which the hook is fastened by means of a separate component on the plate portion, be larger in the region of the hook, if the hook over the periphery or over the edge of the plate portion also protrudes.
    Furthermore, the invention relates to a stick, in particular ski pole, cross country ski or touring ski pole, comprising a pole with a arranged at an upper end of the pole tube pole grip, attached at the lower end of the pole tube a stick plate according to the embodiments described above, preferably releasably secured , eg is screwed on.
    Further embodiments are described in the dependent claims.
    BRIEF DESCRIPTION OF THE DRAWINGS
    Preferred embodiments of the invention are described below with reference to the drawings, which are merely illustrative and not restrictive interpreted. In the drawings show:
    Figure 1 is a perspective schematic view of a stick plate according to a first embodiment obliquely from the front, or with a view of the scraping edge in the foreground.
    Fig. 2 is a perspective schematic view of the stock disc of Fig. 1 compared to Fig. 1 by 90% rotated position in the circumferential direction, i. from diagonally behind, or with a view of the hook in the foreground;
    Fig. 3 is a schematic view of the stick plate of Figure 1 from above.
    Fig. 4 is a sectional view of the stick plate of Figure 3 through the plane A-A.
    Fig. 5 is a schematic side view of the stick plate of Figure 1 along the plate plane.
    FIG. 6 shows a schematic view of the stick plate of FIG. 1 along the plate plane from the front, or with a view of the scraping edge; FIG.
    Fig. 7 is a schematic view of the stick plate of Fig. 1 along the plate plane from behind, or with a view of the hook.
    Figure 8 is a perspective schematic view of a stick plate according to a second embodiment with a separate, attachable to the plate portion hooks, shown from obliquely behind, or with a view of the hook in the foreground. wherein in Fig. 8a, the hook is shown per se, and in Fig. 8b, the stick plate is shown with a hook attached thereto, wherein the stick plate (for simplicity) is formed without a scraping edge;
    Fig. 9 is a schematic side view of the hook of Fig. 8, wherein in Fig. 9a, the hook is shown, and in Fig. 9b, the stick plate is shown with a hook attached thereto, wherein the stick plate (for simplicity) without a Scrape edge is formed.
    DESCRIPTION OF PREFERRED EMBODIMENTS
    In Fig. 1, a first embodiment of a stick plate 1 is shown in a perspective view. This has a passage opening 3, through which a lower end of a pole tube, on which the stick plate 1 is to be attached, can be introduced. The passage opening 3 thus aligned with the stock longitudinal axis L. To this passage opening 3, which is arranged centrally in the illustrated embodiment of Fig. 1, a plate portion 4 is arranged in the form of a plate plate. The plate section 4 is clamped substantially radially from the passage opening and essentially perpendicular to the longitudinal axis L of the stock. In this case, the plate portion 4 is formed substantially convex, i. arched slightly upward, wherein the plate portion 4 in the region or in the circumference of the through hole 3 in cross section reaches the greatest height or thickness.
    The plate portion 4 is formed by a plurality of wings 2a-2e, wherein the illustrated embodiment has five wings 2a-2e. The plate wings 2a-2e each extend from the passage opening 3, or from the floor longitudinal axis L in the radial direction to the periphery. Of these, three wings 2c-2e are separated from each other, or separated from one another by recesses 5 open towards the periphery in the dish plate, and two wings 2a-2b are at their periphery, or at the edge by a common peripheral portion in the form of a scraping edge 9 interconnected. A plate wing 2 d, in the illustrated embodiment, the fourth plate wing 2 d, has an upwardly facing hook 10, which is configured to switch a binding of a touring ski of a touring / Gehpositi-on in a driving position, or to a ski binding in her Change function setting. The hook 10 is designed as a deflection of the fourth plate blade 2d, or as a deflection of the tip of the fourth plate blade 2d at its periphery. This deflected portion of the fourth disc 2d is directed upwards parallel to the longitudinal axis L of the stock, ie. The hook 10 thus points in use of the stick from the tip of the stick or from the pad away to the stick handle. The deflection extends along the entire width of the fourth plate blade 2d. The hook 10 has an elongated, linear portion 10a, which extends substantially perpendicular to the longitudinal axis L and the upper or upper edge of which extends substantially parallel to the plate plane E. Subsequently, on both sides of the linear portion 10a, a rounded portion 10b is arranged, which is rounded in the circumferential direction U and is formed at an angle with respect to the longitudinal axis L of the stock. The length 110 of the linear portion 10a of the hook 10 is approximately 24 mm in the illustrated embodiment.
    The plate wings 2a-2e in the illustrated embodiment each have a material saving and thus the weight reduction serving recess 11.
    The above-mentioned scraper edge 9 is arranged in the illustrated embodiment on the first and second plate wings 2a, 2b and each forms a portion of the peripheral edge of the respective plate flap 2a, 2b. The scraping edge 9 has a linear portion 9a of a length 19 of about 42 mm, which is flanked by a respective portion 9b, which is rounded or bevelled in the circumferential direction U. The end face 9a1 of the linear section 9a is in the present embodiment, forward, i. when using the stick in the direction of travel V or directed forward and parallel to the longitudinal axis L and substantially perpendicular to the plate plane E. In other words, the forward side surface or face 9a1 of the linear portion 9a extends at an angle α of Essentially about 90 degrees to the plate plane E and parallel to the stock longitudinal axis L.
    The illustrated stick plate 1 is mirror-symmetrical in the illustrated embodiment, with respect to a plane of symmetry S, which is designated in Fig. 3. This plane of symmetry S runs along the longitudinal axis L perpendicular to the plate plane E and, to a certain extent, halves the passage opening 3.
    In the illustrated embodiment, the linear portion 10a of the hook 10 and the linear portion 9a of the scraping edge 9 are radially opposite each other. The plane of symmetry S thus halves the linear portion 10a of the hook 10, as well as the linear portion 9a of the scraping edge 9. Between the scraping edge 9 and the hook 10 is in the clockwise and counterclockwise direction in the circumferential direction U depending on a further wing 2c, 2e, which is separated from the first and second disc wing 2a, 2b with the scraping edge 9 and the fourth wing 2d with the hook 10 each by a recess 5 open towards the periphery.
    The illustration of Fig. 2 shows that the hook 10 has on its underside two reinforcing webs 6, which are each arranged at one end of the linear portion 10a and from the side edge at the periphery radially along a portion of the wing 2d in lease the passage opening 3 extend on the underside of the dish plate up to the sleeve section 7. FIG. 2 also shows the lower section of the sleeve section 7, which serves to fasten the pole plate 1 at the lower end of the pole tube. The substantially cylindrical sleeve portion 7 is formed substantially in the form of a hollow cylinder which defines the passage opening 3 of the plate portion 4. The longitudinal axis of the hollow cylinder is aligned with the floor longitudinal axis when the stick plate is mounted on a pole tube. This hollow cylinder is in the illustrated embodiment down, i. towards the pad slightly conical, i. it tapers downwards and is formed on the surface of the plate portion 4 in the region of the passage opening 3 at its upper edge 7a widest and at its lower edge 7b at the narrowest. In a middle section of the sleeve section 7, an internally threaded section 12 is arranged in the illustrated embodiment of FIG. 4. This serves to the stick plate 1 at the lower end of the pole tube, on which the stick plate is to be attached, and which has a corresponding male threaded portion, can be screwed.
    The linear portion 10a of the hook 10 extends with its length 110 in the illustrated preferred embodiment of Fig. 1-7 over substantially the entire width of the fourth disc wing 2d at its deflected periphery. The hook 2 forming the wing 2d is deflected with a deflection radius of about 2-10 mm upwards. In other words, the inner side 10c of the hook 10 directed toward the center of the stock plate 1 or the opposite scraping edge 9 forms to a certain extent a part of a lateral surface of an (imaginary, not shown) cylinder whose diameter in the circle K of the sectional view of FIG Circle radius r of about 2.5 min describes, which thus corresponds to the radius of deflection of the hook 10.
    The height h10 of the linear portion 10a of the hook 10, measured on its rearwardly (with respect to the direction of rotation) directed side surface 10a1, in the present embodiment is about 9 mm.
    The linear portion 9a of the scraping edge 9 extends over more than the width b5 of an open recess 5 between the plate wings 2a-2e on the periphery and bridges a recess between the first plate wing 2a and the second plate wing 2b. The height h9 of the linear portion of the scraping edge 9, measured on its front (with respect to the direction of rotation) directed end face 9a1, is in the present Ausführungsbei play about 7 mm.
    The scraping edge 9 has a forward direction V in the forward direction V side surface or end face 9a1, which merges into the top plate surface or top plate and towards the bottom in the lower plate surface or plate underside. In the illustrated embodiment, the upper edge of the side surface or the end face 9a projects in the linear section 9a in the region of the two plate wings 2a, 2b beyond the plate surface or over the reinforcing ribs 8 of the plate surface. The scraping edge 9 can also have an upper edge 9a2, which is arranged substantially perpendicular to the side face or end face 9a1, or is arranged at an angle to the side face or end face 9a1.
    The diameter D2 of the stock plate 1 according to the illustrated embodiment of Fig. 1-7 is in the area of the fourth plate wing 2d with the hook 9 and in the region of the two connected to the scraping edge 9 plate wings 2a, 2b, measured in the plate plane e along the plane of symmetry S perpendicular to the longitudinal axis L of the rod, smaller than the diameter D1 in the region of the third and fifth disc 2c, 2e without hooks 9, such as measured perpendicularly to the plane of symmetry S.
    In the second embodiment of FIGS. 8 and 9, the hook 15 is arranged on a separate component 14. The component 14 can be self-latching or selbsteinschnappend attached to the plate section 4 and the stock plate 1. The component 14 has a first, peripheral end 14a, and a second, axial end 14b, wherein between the first end 14a and the second end 14b, an elongated portion 18 is arranged. For attachment of the component 14 on the plate portion 4, the first end 14a of the component on which the hook 15 is arranged, passed through a through hole 11 of a cupboard 2d from top to bottom until the through hole 17 of the eyelet 16, which at the second end 14 b is arranged, aligned with the passage opening 3 of the floor plate 1. The elongated portion 18 comes to lie on the top surface of the fourth disc 2d, on which the component is fixed, on the disc surface, and the first end 14a with the hook 15 protrudes at the periphery under the fourth disc 2d. The component 14 thus to a certain extent with respect to the plate wings 2a-2e, and with respect to the plate portion 4 a radial orientation. For latching or for snapping the component 14, a shoulder 20 are arranged between the hook and the elongated portion 18, on which the lower edge of the fourth plate blade 2d finds a stop. The component 14 accordingly has a stepped shape, which conforms to the outer contour and the contour of the underside of the plate section 4 in the region of the respective plate leaf 2d.
    LIST OF REFERENCE NUMBERS
    1 plate plate 2a first plate wing 2b second plate wing 2c third plate wing 2d fourth plate wing 2e fifth plate wing 3 passage opening for pole tube 4 plate portion, plate plate 5 open recesses in plate plate 6 reinforcing web to 10 7 sleeve portion 7a top edge of 7 7b lower edge of 7 8 reinforcing rib Scratch edge on 2a 9a linear section of 9 9a1 side / end face of 9a 9a2 top edge of 9a 9b rounded sections of 9 10 hooks on 2d 10a linear section of 10 10a1 side surface of 10a 10a2 top edge of 10a 10b rounded sections of 10 11 recesses in FIG 2e 12 female threaded section in 7 13 lower edge of 4 14 separate component with hooks 14a first peripheral end of 14 14b second peripheral end of 14 15 hooks on 14a 15a linear section of 15 16 loop on 14b 17 through hole of 14 18 elongated section of 14 19 first paragraph to 14 20 second paragraph to 14
    a Angle between 9a1 and E b5 Width of 5 at periphery D1 Diameter from 4 to 2e D2 Diameter from 4 to 2d
    权利要求:
    Claims (16)
    [1]
    E Plate plane h9 Height from 9 to 9a H10 Height from 10 to 10a K Cutting circle L Stick longitudinal axis 19 Length from 9 to 9a 110 Length from 10 to 10a r Radius of K or radius of deflection of 9 S Symmetry plane U Circumferential direction of 1 Claims
    1. Stick plate (1) for preferably detachable attachment to a lower end of a pole tube of a ski pole, comprising a substantially in a radial plate plane (E) clamped plate portion (4) and a through hole (3) for receiving the lower end of the pole tube, characterized characterized in that the plate portion (4) has a hook (10, 15) extending from the plate plane (E) upwards in a direction substantially parallel to a stick longitudinal axis (L) and extending in a direction perpendicular to the stick longitudinal axis (L) linear section (10a, 15a).
    [2]
    Second floor plate (1) according to claim 1, characterized in that the plate portion (4) has a scraping edge (9) with a substantially perpendicular to the longitudinal axis of the stick (L) extending linear portion (9a) having a length of 3-12 cm , wherein the scraping edge (9) is preferably formed on the plate portion (4), in particular preferably integrally formed.
    [3]
    3. Stick plate (1) according to any one of the preceding claims, characterized in that the stick plate (1) extending along a rod longitudinal axis (L) substantially from the plate portion (4) down to the base extending sleeve portion (7) for receiving and releasable Attachment of the lower end of the pole tube, wherein the sleeve portion (7) preferably has an internally threaded portion (12) which is adapted to interact with an external thread at the lower end of the pole tube.
    [4]
    4. Stick plate (1) according to any one of the preceding address, characterized in that the hook (10) on the plate portion (4) is integrally formed, preferably in one piece.
    [5]
    5. Stick plate (1) according to any one of the preceding claims, characterized in that the plate portion (4) of a plurality of wings (2 a - 2 d) is formed, which are either individually formed on the sleeve portion (7) or fixed, or of several, at least partially by open recesses in the circumferential direction (U) separated wings (2a-2d) is formed, wherein the plate portion, preferably at least three wings, more preferably has five wings.
    [6]
    6. Stick plate (1) according to spoke 5, characterized in that the hook (10) from a portion of another wing (2d) is formed, which is deflected from the plate plane (E) upwards.
    [7]
    7. Bar (1) according to one of the preceding claims, characterized in that the scraping edge (9) and the hook (10) in the radial direction of the stock plate (1) with respect to the passage opening (3), in particular along a plane of symmetry (S ) of the stick plate (1) are arranged opposite to each other, wherein in particular the linear portion (10a) of the hook (10) is arranged parallel to the linear portion (9a) of the scraping edge (9).
    [8]
    8. Bar (1) according to one of the preceding claims, characterized in that the linear portion (10 a) of the hook (10) over substantially the entire width of a first wing (2 a) of the plate portion (4), measured at the deflected Periphery of the stick plate (1), extends.
    [9]
    9. Stick plate (1) according to one of the preceding claims, characterized in that the plate portion (4) of the stick longitudinal axis (L) has substantially radially extending reinforcing ribs (8), which preferably integrally formed on the sleeve portion (7) or attached thereto are.
    [10]
    10. Stick plate (1) according to one of the preceding claims, characterized in that the hook (10) and / or the scraping edge (9) is formed of a harder material than the rest of the plate portion (4).
    [11]
    11. Stick plate (1) according to any one of the preceding claims, characterized in that the hook (10) and / or the scraping edge (9) is formed of the same material as the sleeve portion, and / or wherein the hook and / or the scraping edge is formed integrally with the sleeve portion.
    [12]
    12. Stick plate (1) according to any one of the preceding claims, characterized in that the linear portion (9a) of the scraping edge (9) has a front side surface (9a1), which at an angle (a) of 0-90 degrees to the plate plane (E) to the plate plane (E) and parallel to the longitudinal axis of the stick (L) extends.
    [13]
    13. The floor plate (1) according to any one of the preceding claims, characterized in that the stick plate (1) with mirror symmetry with respect to a plane of symmetry (S) which extends along the longitudinal axis of the stick (S) and the linear portion (10 a) of the hook (10 ) and preferably also the linear portion (9a) of the scraping edge (9) bisected.
    [14]
    14, floor plate (1) according to one of the preceding claims, characterized in that the scraping edge (9) connects two wings (2a, 2b) of the plate portion (4) to one another at a periphery.
    [15]
    15. The floor plate (1) according to any one of the preceding claims, characterized in that the hook (15) at one end of the plate portion (4) separate component (14) is arranged, wherein the component (14) on the plate portion (4) preferably the component (14) preferably has at a second end (14b) of the component (14) an eyelet (16) whose passage opening (17) in a state mounted on the pole plate (1) with the passage opening (3 ) of the stick plate (1) is aligned.
    [16]
    16 floor, especially ski pole, cross country ski or touring ski pole, comprising a pole with a arranged at an upper end of the pole tube pole grip, characterized in that at the lower end of the pole tube a stick plate according to one of the preceding claims 1-15 is attached.
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    EP2896438B1|2019-06-12|Pole basket change system
    EP3595483A1|2020-01-22|Pole handle
    WO2019149544A1|2019-08-08|Pole handle
    DE2905147A1|1980-08-21|Snow plate attachment for ski stocks - includes binding sleeve and locking fitting on ski stock connecting to ring section of snow plate
    DE202005016939U1|2006-03-09|Stick-tip system for e.g. sport stick, has tip body arranged in plastic insert by guide rod having guide bushings, where tip body is moved through rubber pad by turning attached knurled nut on square knurled journal
    CH711713A2|2017-05-15|Device for attaching a ski boot to a ski binding.
    DE202012104426U1|2012-11-22|Universal tip
    WO2021156220A1|2021-08-12|Folding stick
    同族专利:
    公开号 | 公开日
    AT16239U1|2019-05-15|
    DE202017106486U1|2017-11-09|
    CH713281B1|2019-06-28|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3866931A|1973-02-09|1975-02-18|Hannes Marker|Pair of ski poles|
    US5358277A|1993-07-20|1994-10-25|Klement Jr Ronald J|Ski pole assembly with scraper|
    US20090058064A1|2007-08-30|2009-03-05|Ford Iii Albert Francis|Ski Pole Basket|
    US20130264810A1|2012-04-10|2013-10-10|Alexander William Carr|Multifunction ski pole|
    DE7903714U1|1979-06-07|Lenhart, Karl, Ramsen |Snow plate attachment|
    DE7914422U1|1979-05-18|1979-08-23|Rihm, Siegfried, Dr., 6940 Weinheim|Ski pole plate with snow scraper|
    IT1148775B|1980-02-29|1986-12-03|Attilio Pronzati|SKI STICKS EQUIPPED WITH INTERCHANGEABLE WHEELS|
    IT238564Y1|1997-10-03|2000-11-13|Masters S R L|PERFECTED STICK FOR SKI AND TREKKING|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    CH01724/16A|CH713281B1|2016-12-23|2016-12-23|Stock plate.|CH01724/16A| CH713281B1|2016-12-23|2016-12-23|Stock plate.|
    DE202017106486.7U| DE202017106486U1|2016-12-23|2017-10-26|Tour dish|
    ATGM50227/2017U| AT16239U1|2016-12-23|2017-12-20|Tour dish|
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