奥地利专利AT521369A4 Sport helmet

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专利摘要:
The invention relates to a sports helmet arrangement (1) comprising a helmet (2) with a helmet shell (3), a visor (4) and a bearing device (15) with a left and right bearing arrangement (16, 17). The visor (4) is pivotally mounted on the helmet shell (3) by means of the bearing arrangements (16, 17) between a protective position that largely covers a face opening (12) and a release position that largely frees the face opening (12). The helmet (2) defines a support section (22) for the visor (4) in the area of its helmet shell edge (11) delimiting the face opening (12). Each of the swivel axes (18, 19) can be displaced from an upper position (-P (o) -) closer to an upper side of the helmet shell (7) to a lower position (-P (u) -) further away from the upper side of the helmet shell (7) ,
公开号:AT521369A4
申请号:T50432/2018
申请日:2018-05-28
公开日:2020-01-15
发明作者:Rietzler Daniel
申请人:Atomic Austria Gmbh；
IPC主号:

专利说明:

Summary
The invention relates to a sports helmet arrangement (1) comprising a helmet (2) with a helmet shell (3), a visor (4) and a bearing device (15) with a left and right bearing arrangement (16, 17). The visor (4) is pivotally mounted on the helmet shell (3) by means of the bearing arrangements (16, 17) between a protective position that largely covers a face opening (12) and a release position that largely frees the face opening (12). The helmet (2) defines a support section (22) for the visor (4) in the area of its helmet shell edge (11) delimiting the face opening (12). Each of the pivot axes (18, 19) can be displaced from an upper position (-P (o) -) closer to an upper side of the helmet shell (7) to a lower position (-P (u) -) further away from the upper side of the helmet shell (7).
Fig. 2
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The invention relates to a sports helmet arrangement, in particular for spectacle wearers when exercising in winter sports and / or summer sports, with a helmet and a visor pivotably attached to a helmet shell of the helmet.
There are already known sports helmet arrangements in which the helmet with its helmet shell is not designed as a full-face helmet, and the otherwise open face area of the user or the wearer of the helmet to form the protective position, in particular for the eye area, is covered by the folded-down visor. For example, when doing sports, such as when skiing, the wind and possibly occurring precipitation prevented direct access to the eyes. In the case of spectacle wearers, there was in many cases the problem that when the visor was swung down, the lower edge of the visor or the lower region of the visor collided with the glasses, in particular the frame of the glasses. In some cases, there was not enough space to accommodate the glasses behind the visor.
The object of the present invention was to overcome the disadvantages of the prior art and to provide a sports helmet arrangement which can be individually adapted to the needs and physical properties of the respective user in his facial area. In addition, the tightness between the helmet and visor should also be maintained.
This object is achieved by a sports helmet arrangement according to the claims.
The sports helmet arrangement according to the invention is used in particular by spectacle wearers when practicing a wide variety of sports in winter sports, such as skiing
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N2018 / 06500-AT-00 or snowboarding, and / or also used in summer sports and comprises a helmet with a helmet shell, which helmet is designed to at least partially accommodate a user's head to be protected, and the helmet shell on its front with a helmet shell rim defines a face opening and the helmet shell also forms an upper side of the helmet shell and a temple area on both sides, with a central plane running centrally between the two temple areas, which central plane extends from the front side to the back of the helmet, a visor, which visor an upper visor edge area and comprises a lower area of the visor, the lower area of the visor facing a nose of the user, a bearing device with a left-hand bearing arrangement and a right-hand bearing arrangement, which bearing arrangements are each arranged in one of the temple areas on the helmet shell or outside are formed and the left bearing arrangement defines a left pivot axis and the right bearing arrangement defines a right pivot axis, the visor being pivotably mounted on the helmet shell by means of the bearing arrangements, and the visor between a protective position that largely covers the face opening and a release position and Viceversa that largely opens the face opening is pivotable about the pivot axes, and the helmet, in particular the helmet shell, defines a support section in the region of its helmet shell edge delimiting the face opening and at least in the region of the central plane, and the visor in its protective position is supported at least in regions on the support section with its upper visor edge region, and Furthermore, each of the swivel axes can be displaced from an upper position -P (o) - closer to the upper side of the helmet shell - to a lower position -P (u) - further away from the upper side of the helmet shell.
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The advantage achieved thereby is that the relative position of the pivot centers is shifted by the adjustment or the variable arrangement of the left and right pivot axis for the visor relative to the helmet shell. In connection with the support of the upper visor edge area of the visor in the front middle area of the helmet shell and the selected position or the position of the pivot axes, a kind of tilting movement of the visor, in particular its lower visor edge area, is achieved on the side or direction facing away from the back of the head. This creates a universally usable sports helmet arrangement, which can be adapted to the respective user with the use of glasses or without the use of glasses, as required. Since, in the case of the swivel axes located in the lower position -P (u) -, the lower region of the edge of the visor remains further away from the face of the user when the visor is folded down than in the upper position P (o) -, a possible collision, in particular of the lower one Visor edge area of the visor with the lower edge of the glasses avoided. This not only creates enough space, but also simplifies the pivoting movement of the visor without the glasses being accidentally moved when they are folded down.
Furthermore, if the visor has no or only a slight filter effect for UV rays, it is also possible for the user to wear sunglasses. If the user is not wearing glasses, the pivot axes are arranged in the position or position -P (o) - which is closer to the top of the helmet, whereby the lower region of the visor edge is located closer to the face of the user when the visor is in the protective position.
Furthermore, it can be advantageous if the upper position -P (o) - and the lower position -P (u) - of the respective pivot axis are arranged directly one above the other. Due to the direct stacking of the positions of the respective swivel axis, the extent of the tilting movement of the lower region of the visor and the associated creation of the additional free space can be determined depending on the selected distance.
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Another embodiment is characterized in that the upper position -P (o) - and the lower position -P (u) - of the respective pivot axis are arranged on a circular arc, the center of the circular arc in a normal view of the central plane through the Support section on the helmet runs. In this way, secure support and preferably sealing contact of the upper visor rim area with the support section of the helmet, in particular its helmet shell, can always be ensured.
Another possible embodiment has the features that at least one intermediate position is provided between the upper position -P (o) - and the lower position -P (u) - of each of the two pivot axes. This enables an even more individual adjustment of the relative position of the visor with respect to the helmet shell of the helmet.
Another embodiment provides that each of the leg axes of the bearing arrangements can be adjusted along an adjustment path from its upper position -P (o) - to the lower position -P (u) - and Viceversa. A stepless or almost stepless adjustment movement and thus an individual relative positioning of each of the swivel axes with respect to the helmet shell can be created.
Another embodiment is characterized in that a locking device is provided between each of the two bearing arrangements and the helmet shell, by means of which locking device each of the positions of the respective pivot axis can be fixed relative to the helmet shell along the adjustment path. By providing a locking device, every possible locking position along the adjustment path can be made possible and can also be fixed. In this way, an even more individual adaptation to the respective wishes and conditions of use of the user can be achieved.
A further preferred embodiment is characterized in that at least one first receiving opening for forming the upper position -P (o) - as the first fixed position and at least one second receiving opening for forming the un5 / 38
N2018 / 06500-AT-00 lower position -P (u) - are provided as a second fixed position in each of the two temple areas in the helmet shell of the helmet. By providing separate receiving openings for each of the positions, an exactly predefined relative position and position of the visor with respect to the helmet shell can be created.
Furthermore, it can be advantageous if a first bearing element is provided to form the two bearing arrangements, and the upper position -P (o) - of the two pivot axes of the first pivot position is defined in the first fixed position with respect to the helmet shell. By providing the first bearing elements, preferably in each case in a left and right embodiment, a first fixedly defined fixed position can be created for the articulation of the visor on the helmet.
Another alternative embodiment is characterized in that a second bearing element is provided to form the two bearing arrangements, and each of the second bearing elements is defined under position -P (u) - of the two pivot axes in the second fixed position with respect to the helmet shell. By providing own second bearing elements, a further exact position of the pivot centers of the visor on the helmet shell of the helmet can be determined as required. This determines in advance whether the helmet with the visor should be adjusted for a person wearing glasses or for a user without glasses.
A further possible and possibly alternative embodiment has the features that the first bearing element and the second bearing element are each designed as a left embodiment and as a right embodiment. This allows an exact individual adaptation of each of the bearing arrangements to the respective storage location to be trained.
A further embodiment provides that the two pivot axes are each designed as physical axes and the visor is pivotably supported by the physical axes and that each of the physical axes passes through the first bearing element and the first receiving opening or each of the physical axes
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Axes penetrates the second bearing element and the second receiving opening. By designing the swivel axes as their own physical axes, an even more individual and precise coordination of the respective bearing arrangement can be created to form the respective bearing point. Furthermore, an even better and more precise swivel mounting for the visor can be formed.
Another embodiment is characterized in that each of the physical axes is held fixed on the helmet shell. This enables a stable and firm linkage of the left and right end areas of the visor to the helmet shell.
A further preferred embodiment is characterized in that each of the bearing elements is also held in a fixed position on the helmet shell when the swivel axes are in the first fixed position or in the second fixed position. In cooperation with the visor, a pivot limitation of the visor relative to the helmet shell can also be defined. In addition, an even more stable design of the bearing device or its bearing arrangements can also be created in this way.
Furthermore, it can be advantageous if the left bearing arrangement comprises a left bearing base part and the right bearing arrangement comprises a right bearing base part, and that the two bearing base parts are interchangeable on the helmet shell to form the upper position -P (o) - or the lower position -P ( u) can be arranged. This eliminates the need to manufacture additional components. Furthermore, this can also be used to convert the visor more quickly from a helmet wearer without glasses to a helmet wearer with glasses or vice versa.
Another embodiment is characterized in that the visor comprises a bearing axle element on both its left end section and on its right end section, and each bearing axle element is either inserted into the first receiving opening or into the second receiving opening
N2018 / 06500-AT-00 sets. In this way, a pivotable articulation of the visor on the helmet, in particular its helmet shell, can be created in a relatively simple manner.
Furthermore, a quick and mostly tool-free changeover process can also be carried out from one fixed position to the other fixed position.
A further possible embodiment has the features that a shielding element is provided, which shielding element is in the form of a rod profile and is arranged at least in sections along the lower visor edge region on the visor. By providing a separate shielding element at the lower edge of the visor, the space formed behind the visor between the visor and the face of the user, in particular the eyes, can be shielded even better from an increased supply of drafts or wind.
A further embodiment provides that the shielding element is arranged so as to protrude from the inner surface facing the back of the helmet shell in the direction of the back of the head. The gap that forms between the lower edge of the visor and the face can thus be reduced, and the entry of drafts to the face, in particular the eyes, can be further minimized.
Finally, another embodiment is characterized in that a sealing element is provided, which sealing element is arranged at least in sections in the area of the helmet shell edge defining the face opening on the helmet shell and the visor, in its protective position which largely covers the face opening, rests with its upper visor edge area on the sealing element. In this way, in the area of the helmet shell edge, on which the upper visor edge area of the visor is also supported, at least in sections, sealing can be carried out even better and more reliably. Furthermore, abrasion or scratching of the inner surface of the visor due to its pivoting movements between the protective position and the release position can also be avoided by the sealing element, which is usually formed from a soft elastic material.
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For a better understanding of the invention, this will be described in the following
Figures explained in more detail.
Each show in a highly simplified, schematic representation:
Figure 1 shows a sports helmet arrangement with a helmet and an articulated and in the upper position closer to the helmet shell top -P (o) - the pivot axis for the visor, which is in the folded protective position on the helmet, in a diagram.
FIG. 2 shows the sports helmet arrangement according to FIG. 1, but with the pivot axis for the visor located in the lower position -P (u) - and with the visor in the protective position, in a side view;
3 shows the sports helmet arrangement according to FIG. 2, in an axial section through the center of the helmet;
Figure 4 shows the helmet shell of the helmet alone, with the bearing arrangement and visor removed, in a side view;
FIG. 5 shows the right-hand bearing arrangement of the helmet according to FIG. 2, in section along the lines V-V in FIG. 2;
6 shows the first bearing element of the bearing arrangement, in a diagrammatic representation on its contact side on the helmet shell;
7 shows the second bearing element of the bearing arrangement, in a diagrammatic representation on its contact side on the helmet shell;
8 shows another possible design of bearing base parts for forming the two bearing arrangements of the bearing device, in a diagrammatic representation in a view of the face side of the helmet, not shown, including the visor;
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9 shows another embodiment of the bearing device in the area of the right-hand bearing arrangement, with a bearing axis element passing through the visor, in section;
10 shows a further possible embodiment of the bearing device, in a side view of the temple area of the helmet and in section, with the visor removed.
In the introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component names, and the disclosures contained in the entire description can be applied analogously to the same parts with the same reference numerals or the same component names. The location information selected in the description, e.g. above, below, to the side, etc., referring to the figure described and illustrated immediately, and if the position is changed, these are to be applied accordingly to the new position.
The term “in particular” is understood in the following to mean that it may be a more specific training or more detailed specification of an object or a method step, but does not necessarily have to represent a mandatory, preferred embodiment of the same or a mandatory procedure.
1 to 7 show a possible design of a sports helmet arrangement 1, which can be used in particular by glasses wearers for winter sports and / or also for summer sports. The winter sports can include skiing, snowboarding, ice hockey, etc. As summer sports e.g. cycling, skateboarding, water sports, etc. are considered.
The sports helmet arrangement 1 comprises at least one helmet 2 with a helmet shell 3 and a visor 4 pivotably mounted thereon on the helmet shell 3. The helmet 2 furthermore comprises, in a known manner, fastening means, such as a chin strap, for holding and fastening the helmet 2 to the not shown
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Head of the user. Upholstery is usually arranged or received in a receiving space 5 formed by the helmet shell 3 for the head of the user. A head width adjustment device can be provided for width adjustment and the associated adaptation to the head circumference of the user. Since these last-described components or component components are not necessarily directly related to the present invention, they have not been given their own reference numerals.
A first embodiment of a bearing device 15 for the visor 4 on the helmet shell 3 is shown and described below. The helmet 2 with its helmet shell 3 is not designed as a full-face helmet, but rather in the form of a hollow dome, the helmet shell 3 forming at least one temple area 6 on the side, namely on the left and right sides, and also covering this in the case of the user. The helmet shell 3 and / or the padding can also extend over an ear area or form it on both sides. Furthermore, the helmet 2 or its helmet shell 3 defines a helmet shell upper side 7, a front side 8 and a back side 9 in normal use position and standing user. For a better and easier definition of positional information and arrangements to each other, a central plane 10 is defined. The central plane 10 forms a vertical plane in the use position described above, which is arranged centrally between the two temple areas 6. Furthermore, the central plane 10 extends from the front 8 to the back of the helmet 9 or the helmet shell 3.
The helmet shell 3 defines on its front side 8 with a helmet shell edge 11 a face opening 12 which extends over an end region up to the two temple regions 6. The face opening 12 serves to expose at least a portion of the forehead of the user, the area around the eyes and possibly also the nose of the user and not to cover them. At least the eye area and possibly also the nose of the user should be covered by the visor 4 in the protective position.
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The visor 4 is articulated or pivoted on the helmet shell 3. This takes place in the two end sections, namely a left end section 13 and a right end section 14. For this purpose, a bearing device 15 is provided for each of the end sections 13, 14, which in turn comprises a left bearing arrangement 16 and a right bearing arrangement 17. Each of the bearing arrangements 16, 17 is also arranged or formed in the respective temple area 6 of the helmet 2. Most of these are independent components or component components. The left bearing arrangement 16 defines or forms a left pivot axis 18 and the right bearing arrangement 17 defines or forms a right pivot axis 19 for the visor 4 mounted thereon. The pivot axis 18, 19 can be formed by a physical axis or only represent an imaginary axis.
Furthermore, the visor 4 comprises an upper visor edge area 20 and a lower visor edge area 21 or forms them. The two visor edge regions 20, 21 extend between the two end sections 13, 14. The visor 4 has a curved or curved longitudinal profile over its circumferential extent between the two end sections 13, 14 or the bearing arrangements 16, 17. The lower edge area 21 of the visor can be turned towards the user's nose or is closer to it than the upper edge area 20 of the visor.
As a result of the pivotable mounting of the visor 4 on the helmet shell 3 of the helmet 2, the visor 4 can be wasted as required between a protective position which largely covers the face opening 12 and a release position which largely opens the face opening 12 and Viceversa about the pivot axes 18, 19. The two positions (protective position and release position) each define maximum positions, whereby any intermediate positions are also possible between them. For the most part, it is understood that in the covering protective position, more than 50%, preferably up to 80%, 90% of the face opening 12 is covered in all cases, or it is even completely covered. In the release position, it is understood that more than 50%, preferably up to 80%, 90% of the face opening 12 is definitely not
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N2018 / 06500-AT-00 covered and is therefore freely accessible. The face opening 12 can also be completely uncovered by the visor 4 and there is therefore no covering whatsoever.
If the visor 4 is in its protective position, its upper visor edge region 20 is supported at least in the region of the central plane 10 in a support section 22 on the helmet shell 3. The support section 22 is located at least in the area or along the edge of the helmet shell 11 delimiting the face opening 12. Preferably, a sealing element 23 can also be provided, which is arranged in the protective position between the helmet shell 3 and the visor 4. Penetration of snow, water, dirt or the like into the receiving space 5 can thus be prevented or minimized. The sealing element 23 is usually flat-profile or rod-shaped and made of a material with a low modulus of elasticity. Therefore, the sealing element 23 is easily deformable and can also have self-restoring properties after it has been deformed and relieved. Furthermore, the sealing element 23 is arranged at least in sections in the region of the helmet shell edge 11 defining the face opening 12 on the helmet shell 3. The sealing element 23 preferably extends continuously along the edge of the helmet shell 11 in order to achieve a good sealing effect. If the sealing element 23 is provided, the visor 4 is supported with its upper visor edge area 20 with the interposition of the sealing element 23 on the helmet shell 3 and thus on the helmet 2 in its protective position which largely covers the face opening 12.
In order to achieve better support and / or a better sealing effect of the visor 4 on the helmet shell 3, in particular its helmet shell edge 11 or helmet shell edge region, the helmet shell 3 can have an edge section which is designed in the form of a shield 24. The shield 24 forms a projection or extension on which the sealing element 23 can also be arranged on the outside. The upper edge area 20 of the visor can preferably be designed with the same inclination in order to form approximately a parallel orientation with respect to the shield 24 and, in connection therewith, a full contact with the shield 4 in the protective position. This can be seen in particular in the representations of FIGS. 3 and 4
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Furthermore, a shielding element 25 can also be provided on the visor 4, which is also designed in the form of a flat profile or a rod. The shielding element 25 is shown in FIG. 3. The shielding element 25 is arranged at least in sections along the lower visor edge region 21 on the visor 4. The arrangement or attachment to the visor 4 can take place in such a way that the shielding element 25, starting from an inner surface of the visor 4 facing the back of the helmet shell 3, is arranged so as to protrude toward the back of the head 9.
As described above and can be better seen from FIG. 3, the visor 4 is supported with its upper visor edge region 20 at least in the region of the central plane 10 on the helmet shell 3, in particular on the sealing element 23. The support section 22 forms an abutment for the visor 4 lying thereon, at least in regions.
In order to achieve a displacement of the lower visor edge region 21 relative to the helmet shell 3 to the side or direction facing away from the back of the head 9, it is provided here that each of the pivot axes 18, 19 each from an upper position -P (o ) - into a lower position -P (u) - which is further spaced from the upper side 7 of the helmet shell. The two positions -P (o) - and -P (u) - can be understood as maximum positions, any intermediate positions being possible and conceivable. The lower position -P (u) - of the visor 4 and its relative position with respect to the helmet 2 is shown in full lines in FIG. 2. The relative position of the visor 4 with its lower visor edge region 21 is shown in dashed lines in FIG. 2 with the pivot axes 18, 19 located in the upper position -P (o).
Shiftable is understood to mean that the respective relative positions with respect to the helmet shell 3 and its helmet shell top 7 can each be achieved by a fixed arrangement or by an adjustable arrangement. For easier definition of the distance or the distance with respect to the top 7 of the helmet shell, a horizontal plane can also be used, which runs through the uppermost position of the top 7 of the helmet shell. The alignment and arrangement of the helmet 2 takes place in the usual position of use. Then they can
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Distances can be related to the horizontal plane. Otherwise, the distance or the distance along the curved helmet shell 3 starting from the
Middle level 10 can be selected.
In the present embodiment, it is also shown that for each of the positions -P (o) - and -P (u) - of the two pivot axes 18, 19, a specially designed bearing element 26 and 27 is provided. For the upper position -P (o) - of the pivot axes 18, 19, a first bearing element 26 is provided to form the left and right bearing arrangements 16, 17, as is shown in FIG. 6. The upper position -P (o) - of the two pivot axes 18, 19 is defined in a first fixed position with respect to the helmet shell 3 by the first bearing elements 26. The first bearing element 26 can be designed as a separate first left bearing element 26-1 and as a separate first right bearing element 26-2. As described above, the upper position -P (o) - of the pivot axes 18, 19 serves to arrange the visor 4 from its abutment on the support section 22 to its lower visor edge region 21 closer to the receiving space 5 or the back of the head 9 of the helmet 2 ,
To achieve the lower position -P (u) - of the swivel axes 18, 19 and the associated swiveling of the lower visor edge region 21 to the side facing away from the receiving space 5 or from the back of the helmet 9, the second bearing element 27 is used for this purpose the left and right bearing arrangements 16, 17 are provided. The second bearing element 27 is shown in FIG. 7. Here, too, the lower position -P (u) - of the two pivot axes 18, 19 is defined by the second bearing elements 27 in a second fixed position with respect to the helmet shell 3. Furthermore, the second bearing element 27 can also be designed as a second left bearing element 27-1 and as a second right bearing element 272. This can best be seen from FIGS. 2 and 7. The left bearing elements 26-1, 27-1 and also the right bearing elements 26-2, 27-2 can also be referred to as the left embodiment and as the right embodiment of the two bearing elements 26 and 27.
Each of the bearing elements 26, 27 is also preferred with pivot axes 18, 19 located in the first fixed position or also in the second fixed position
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N2018 / 06500-AT-00 held in a fixed position on the helmet shell 3. The relative positions or positions -P (o) - and -P (u) - of the left pivot axis 18 and the right pivot axis 19 with respect to the helmet 2 or its helmet shell 3 are thus clearly defined.
In this exemplary embodiment, the left and right pivot axes 18, 19 are designed as left and right physical axes 33, 34. The bearing elements 26, 27 with the physical axes 33, 34 accommodated therein each form a structural unit on which the end sections 13, 14 of the visor 4 are each mounted. The visor 4 should basically remain the same, only the articulation points and thus the pivot axes 18, 19 should be changed in their relative position with respect to the helmet shell 3. Each of the physical axes 33, 34 either passes through the first bearing element 26 and a first receiving opening 30 in the helmet shell 3 of the helmet 2 or else through the second bearing element 27 and a second receiving opening 31.
Each of the bearing elements 26, 27 is in turn fixed or fixable in its position by means of at least one holding element 28 on a holding element receptacle 29 provided for this purpose in the helmet shell 3 on the helmet shell 3 - see FIG. 4. Each of the bearing elements 26, 27 preferably has a plurality of, preferably two, holding elements 28 and also a plurality of, preferably two, holding element receptacles 29 on the helmet shell 3 in order to prevent rotation. Due to the different positioning of the holding element or elements 28 with respect to the position of the pivot axes 18, 19 defined by the physical axes 33, 34, and the stationary holding element receptacles 29 on the helmet shell 3, the upper position -P (o) - or the lower position P (u) of the pivot axes 18, 19 can be clearly defined.
Furthermore, at least one first receiving opening 30 and at least one second receiving opening 31 are provided in the helmet shell 3 both on the left side and on the right side, as have already been described above. The first receiving openings 30 each serve to receive a left pivot axis 18 and a right pivot axis 19 and thus to form the first fixed position, namely in the upper position -P (o) -. The second
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Receiving openings 31 also each serve to receive a left pivot axis 18 and a right pivot axis 19, but to form the second fixed position namely in the lower position -P (u) -. By providing the receiving openings 30, 31 in each of the temple areas 6 on both sides, the pivot axes 18, 19 or the physical axes 33, 34 forming them can either be received in the first receiving openings 30 or in the second receiving openings 31 and held on the helmet shell 3 his.
The differently designed first bearing element 26 and the second bearing element 27 are shown in FIGS. 6 and 7. It can be seen from this that the at least one holding element 28 and the bearing opening 32 for receiving the pivot axis 18, 19 are arranged or formed in different positions on the bearing elements 26, 27. When using the first bearing elements 26, the pivot axes 18, 19 are inserted into the upper or first receiving openings 30 in the helmet shell 3 and are held in position on the helmet shell 3. If, on the other hand, the second bearing elements 27 are used, the swivel axes 18, 19 formed by the physical axes 33, 34 are inserted into the lower or second receiving openings 31 in the helmet shell 3 and held in position on the helmet shell 3. The physical axes 33, 34 are preferably fixed to the helmet shell 3.
The upper position -P (o) - and the lower position -P (u) - of the respective pivot axis 18, 19 or else of the first receiving opening 30 and the second receiving opening 31 are selected such that these are viewed when looking at the temple area 6 or the temple side of the helmet 2 are arranged directly one above the other. However, one could also choose an arrangement such that the upper position -P (o) - and the lower position -P (u) - of the respective pivot axis 18, 19 or else of the first receiving opening 30 and the second receiving opening 31 on one Arcs are arranged. In a normal view of the central plane 10, the center or the center of the circular arc runs through the support section 22 on the helmet 2 or on the helmet shell 3. It would also be possible not only to use the two positions described above (upper position -P (o) - and lower
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Position -P (u) -), but also to create at least one intermediate position between them. This could take place by means of at least one further receiving opening, which has not been shown in more detail for the sake of clarity.
FIG. 8 shows a further and possibly independent embodiment of the bearing arrangements 16, 17 for the visor 4, the same reference numbers or component designations being used for the same parts as in the previous FIGS. 1 to 7. To avoid unnecessary repetition, reference is made to the detailed description in the previous FIGS. 1 to 7 or reference. A representation is selected here, which represents a view of the face side of the helmet 2. For the sake of clarity, the helmet 2 and the visor 4 are not shown.
As described above, for each of the two positions -P (o) - and -P (u) - there is a separate first left bearing element 26-1 and first right bearing element 26-2 and a second left bearing element 27-1 and second right bearing element 27-2 provided.
In contrast to this, it is now provided in this exemplary embodiment that the left bearing arrangement 16 comprises a left bearing base part 35 and the right bearing arrangement 17 comprises a right bearing base part 36. The two bearing base parts 35, 36 are designed such that the left bearing base part 35 is located on the left side of the helmet 2 and the right bearing base part 36 is located on the right side of the helmet 2, in each case the upper position -P (o) - for the arrangement of the two pivot axes 18 , 19 is defined.
However, if the two bearing base parts 35, 36 are interchanged in their arrangement on the helmet 2 or on the helmet shell 3, these form or define the lower position -P (u) for the two pivot axes 18, 19 the left bearing base part 35 on the right side of the helmet 2 and the right bearing base part 36 on the left side of the helmet 2. This is indicated in dashed lines. The previously described and designed as physical axes 33, 34
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Pivot axes 18, 19, the receiving openings 30, 31, the at least one holding element 28 and the at least one holding element receptacle 29 can be provided analogously, as has already been described in detail above.
FIG. 9 shows a further and possibly independent embodiment of the bearing arrangements 16, 17 for the visor 4, the same reference numerals or component designations being used for the same parts as in the previous FIGS. 1 to 8. To avoid unnecessary repetition, reference is made to the detailed description in the previous FIGS. 1 to 8 or reference.
In this embodiment, it is provided that at least the first receiving opening 30 and the second receiving opening 31 are arranged and formed in the helmet shell 3 of the helmet 2 on both sides in each temple area 6. Furthermore, a bearing axis element 37 is provided in the left end section 13 as well as in the right end section 14 of the visor 4. The bearing axis elements 37 each pass through the visor 4 in a bore 38 and extend into the respective receiving opening 30 or 31. The bearing axis elements 37 are essentially bolt-shaped, in particular hollow cylindrical, and each have at their ends facing away from the helmet shell 3 a retaining projection 39 which projects beyond the bore 38 in the radial direction. In the area of the inside of the helmet shell 3, at least one locking projection 40 is also provided on the bearing axis element 37. Each of the bearing axis elements 37 can thus be held in position in relation to the helmet shell 3 in the axial direction on the side facing away from the receiving space 5.
FIG. 10 shows a further and possibly independent embodiment of the bearing arrangements 16, 17 for the visor 4, the same reference numerals or component designations being used for the same parts as in the previous FIGS. 1 to 9. To avoid unnecessary repetition, reference is made to the detailed description in the previous FIGS. 1 to 9 or reference.
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It is provided in this exemplary embodiment that each of the leg axes 18, 19, in particular in each case the physical axes 33, 34, of the bearing arrangements 16, 17 in each case along an adjustment path 41 from their upper position -P (o) to the lower position -P ( u) - and Viceversa is adjustable. For this purpose, a longitudinal slot 42 can be formed at least in the helmet shell 3, which can serve to receive one of the physical axes 33, 34. For longitudinal guidance along the adjustment path 41, a separate guide arrangement can additionally be provided between the bearing arrangement 16, 17 and the helmet shell 3. To fix the relative position of the bearing arrangement 16, 17 and the helmet shell 3, a separate latching device 43 is provided or formed on each side of the helmet shell 3 in the temple area 6 thereof. By means of the locking devices 43, each of the positions of the respective pivot axis 18, 19 can be fixed relative to the helmet shell 3 along the adjustment path 41 and can be adjusted individually according to the needs of the user. As a latching device 43, a row of teeth is shown as the first latching elements on the helmet shell 3 along the adjustment path 41 on both sides of the longitudinal slot 42, and second latching elements which can be brought into latching engagement are thus provided on the bearing arrangement 16, 17. The second latching elements can be pressed against the first latching elements under elastic pretension.
The exemplary embodiments show possible design variants, it being noted at this point that the invention is not restricted to the specially illustrated design variants of the same, but rather also various combinations of the individual design variants are possible with one another and this variation possibility is based on the teaching of technical action through the present invention Ability of the specialist working in this technical field.
The scope of protection is determined by the claims. However, the description and drawings are to be used to interpret the claims. Individual features or combinations of features from those shown and described
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N2018 / 06500-AT-00 different exemplary embodiments can represent independent inventive solutions. The object on which the independent inventive solutions are based can be found in the description.
All information on value ranges in the objective description should be understood to include any and all sub-areas, e.g. the information 1 to 10 is to be understood so that all sub-areas, starting from the lower limit 1 and the upper limit 10, are included, i.e. all sub-areas begin with a lower limit of 1 or greater and end with an upper limit of 10 or less, e.g. 1 to 1.7, or 3.2 to 8.1, or
5.5 to 10.
For the sake of order, it should finally be pointed out that, for a better understanding of the structure, elements have been partially shown to scale and / or enlarged and / or reduced.
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LIST OF REFERENCE NUMBERS
1 Sport helmet assembly 31 second intake opening 2 helmet 32 bearing opening 3 shell 33 left physical axis 4 visor 34 right physical axis 5 accommodation space 35 left bearing base part 6 temple area 36 right bearing base part 7 Shell top 37 Bearing axle element 8th front 38 drilling 9 Back head side 39 retaining extension 10 midplane 40 catch projection 11 Shell edge 41 adjustment 12 face opening 42 longitudinal slot 13 left end section 43 Rastvomchtung 14 right end section 15 Lagervomchtung -P (o) - upper position 16 left bearing arrangement P (u) - lower position 17 right bearing arrangement 18 left pivot axis 19 right swivel axis 20 upper edge of the visor 21 lower edge of the visor 22 support section 23 sealing element 24 sign 25 shielding 26 first bearing element 27 second bearing element 28 retaining element 29 Holding member receiving 30 first intake opening
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权利要求:
Claims (18)
[1]
claims
1. Sports helmet arrangement (1), in particular for spectacle wearers when exercising in winter sports and / or summer sports, comprising a helmet (2) with a helmet shell (3), which helmet (2) is designed to at least partially accommodate a user's head to be protected , and the helmet shell (3) defines a face opening (12) on its front side (8) with a helmet shell edge (11) and the helmet shell (3) also forms an upper side of the helmet shell (7) and a temple area (6) on both sides, with a central plane ( 10) is arranged centrally between the two temple areas (6), which middle plane (10) extends from the front (8) to the back of the head (9) of the helmet (2), a visor (4), which visor (4 ) comprises an upper edge area (20) and a lower edge area (21), the lower edge area (21) facing a nose of the user, a bearing device (15) with a left bearing arrangement (16) and an r real bearing arrangement (17), which bearing arrangements (16, 17) are each arranged or formed in one of the temple areas (6) on the helmet shell (3) and the left bearing arrangement (16) has a left pivot axis (18) and the right bearing arrangement (17 ) defines a right swivel axis (19), the visor (4) being pivotally mounted on the helmet shell (3) by means of the bearing arrangements (16, 17), and the visor (4) between a protective position which largely covers the face opening (12) and one of the release positions and Viceversa, which largely releases the face opening (12), can be pivoted about the pivot axes (18, 19), characterized in that the helmet (2), in particular the helmet shell (3), in the region of its helmet shell edge (17) delimiting the face opening (12) 11) and at least in the area of the central plane (10) defines a support section (22), and the visor (4) in its protective position with its upper visor edge area (20) at least in some areas is supported on the support section (22), and
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N2018 / 06500-AT-00 that each of the swivel axes (18, 19) in each case from an upper position (-P (o) -) closer to the upper side of the helmet shell (7) to a lower position further apart from the upper side of the helmet shell (7) (- P (u) -) is shiftable.
[2]
2. Sports helmet arrangement (1) according to claim 1, characterized in that the upper position (-P (o) -) and the lower position (-P (u) -) of the respective pivot axis (18, 19) are arranged directly one above the other.
[3]
3. Sports helmet arrangement (1) according to claim 1, characterized in that the upper position (-P (o) -) and the lower position (-P (u) -) of the respective pivot axis (18, 19) are arranged on a circular arc , wherein the center of the circular arc in a normal view of the central plane (10) runs through the support section (22) on the helmet (2).
[4]
4. Sports helmet arrangement (1) according to one of the preceding claims, characterized in that between the upper position (-P (o) -) and the lower position (-P (u) -) each of the two pivot axes (18, 19) at least an intermediate position is provided.
[5]
5. Sports helmet arrangement (1) according to one of the preceding claims, characterized in that each of the leg axes (18, 19) of the bearing arrangements (16, 17) each along an adjustment path (41) from their upper position (-P (o) -) in the lower position (-P (u) -) and Viceversa is adjustable.
[6]
6. Sports helmet arrangement (1) according to claim 5, characterized in that a Rastvomchtung (43) between each of the two bearing arrangements (16, 17) and the helmet shell (3) is provided, by means of which Rastvomchtung (43) each of the positions (-P (o) -, -P (u) -) of the respective pivot axis (18, 19) can be fixed relative to the helmet shell (3) along the adjustment path (41).
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N2018 / 06500 AT-00
[7]
7. Sports helmet arrangement (1) according to one of claims 1 to 4, characterized in that at least one first receiving opening (30) for forming the upper position (-P (o) -) as the first fixed position and at least one second receiving opening (31) Formation of the lower position (-P (u) -) is provided as a second fixed position in each of the two temple areas (6) in the helmet shell (3) of the helmet (2).
[8]
8. Sports helmet arrangement (1) according to one of claims 1 to 4 or 7, characterized in that in each case a first bearing element (26-1,26-2) is provided to form the two bearing arrangements (16, 17), and of the first Bearing elements (26-1, 26-2) each define the upper position (-P (o) -) of the two pivot axes (18, 19) in the first fixed position with respect to the helmet shell (3).
[9]
9. Sports helmet arrangement (1) according to one of claims 1 to 4 or 7, characterized in that in each case a second bearing element (27-1,27-2) is provided to form the two bearing arrangements (16, 17), and of the second Bearing elements (27-1, 27-2) each defined under position (-P (u) -) of the two pivot axes (18, 19) in the second fixed position with respect to the helmet shell (3).
[10]
10. Sports helmet arrangement (1) according to claim 8 or 9, characterized in that the first bearing element (26) and the second bearing element (27) are each designed as a left embodiment and as a right embodiment.
[11]
11. Sports helmet arrangement (1) according to one of claims 7 to 10, characterized in that the two pivot axes (18, 19) are each designed as physical axes (33, 34) and the visor (4) from the physical axes (33, 34) is pivotally mounted and that each of the physical axes (33, 34) passes through the first bearing element (26) and the first receiving opening (30) or each of the physical axes (33, 34) passes through the second bearing element (27) and the second receiving opening (31) enforced.
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N2018 / 06500 AT-00
[12]
12. Sports helmet arrangement (1) according to claim 11, characterized in that each of the physical axes (33, 34) is held stationary on the helmet shell (3).
[13]
13. Sports helmet arrangement (1) according to one of claims 8 to 12, characterized in that each of the bearing elements (26, 27) also in a fixed position in the first fixed position or in the second fixed position pivot axes (18, 19) the helmet shell (3) is held.
[14]
14. Sports helmet arrangement (1) according to one of claims 1 to 3 or 7, characterized in that the left bearing arrangement (16) comprises a left bearing base part (35) and the right bearing arrangement (17) comprises a right bearing base part (36), and that the two bearing base parts (35, 36) can be interchanged on the helmet shell (3) to form the upper position (-P (o) -) or the lower position (-P (u) -).
[15]
15. Sports helmet arrangement (1) according to one of claims 1 to 3 or 7, characterized in that the visor (4) comprises a bearing axle element (37) both on its left end section (13) and on its right end section (14), and each bearing axis element (37) is either inserted into the first receiving opening (30) or into the second receiving opening (31).
[16]
16. Sports helmet arrangement (1) according to one of the preceding claims, characterized in that a shielding element (25) is provided, which shielding element (25) is rod-shaped and is arranged at least in sections along the lower edge area (21) of the visor (4) ,
[17]
17. Sports helmet arrangement (1) according to claim 16, characterized in that the shielding element (25) starting from one of the back of the head (9) of the
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Helmet shell (3) facing inner surface is arranged projecting towards the back of the head (9).
[18]
18. Sports helmet arrangement (1) according to one of the preceding claims, characterized in that a sealing element (23) is provided, which sealing element (23) at least in sections in the area of the face opening (12) defining the helmet shell edge (11) on the helmet shell (3) is arranged and the visor (4) is in its protective position covering most of the face opening (12) with its upper edge area (20) against the sealing element (23).
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ATOMIC Austria GmbH
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ATOMIC Austria GmbH
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同族专利:

公开号 | 公开日

US20190357624A1|2019-11-28|

EP3574785A1|2019-12-04|

AT521369B1|2020-01-15|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US3162862A|1963-06-27|1964-12-29|Mine Safety Appliances Co|Protective headgear vizor mechanism|

US3345642A|1965-12-09|1967-10-10|Mine Safety Appliances Co|Headgear with retractable vertically movable eye shield|

US3781914A|1971-02-15|1974-01-01|Stadium Ltd|Safety helmet visors|

DE7838856U1|1978-06-15|1979-05-17|Nolan S.P.A., Mozzo, Bergamo |Device for adjusting the degree of opening of visors in fully enveloping helmets Nolan S.pA, Mozzo, Bergamo |

DE7838855U1|1978-06-15|1979-06-28|Nolan S.P.A., Mozzo, Bergamo |Device for adjusting the degree of opening of the visor on full-fitting crash helmets|

DE20101008U1|2001-01-09|2001-07-19|Krauter Manfred|Safety helmet|

SE528264C2|2005-02-15|2006-10-10|Peltor Ab|Goggles|

FR2978904B1|2011-08-08|2014-07-25|Remi Finiel|HELMET ASSEMBLY AND EYE PROTECTION MASK|

DE102012015023A1|2012-07-27|2014-01-30|Pfanner Schutzbekleidung Gmbh|Visor and its combination with a protective helmet|

EP3287030B1|2016-08-26|2019-07-10|cp-fashionatsports AG|Snow sports helmet with pivotable and lockable visor|USD927788S1|2020-01-17|2021-08-10|E.D. Bullard Company|Protective helmet|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA50432/2018A|AT521369B1|2018-05-28|2018-05-28|Sport helmet|ATA50432/2018A| AT521369B1|2018-05-28|2018-05-28|Sport helmet|

US16/378,866| US20190357624A1|2018-05-28|2019-04-09|Sports helmet|

EP19176729.2A| EP3574785A1|2018-05-28|2019-05-27|Sports helmet|

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