(19)
(11) EP 3 744 201 B1

(12) EUROPEAN PATENT SPECIFICATION

(45) Mention of the grant of the patent:
25.01.2023 Bulletin 2023/04

(21) Application number: 20176527.8

(22) Date of filing: 26.05.2020
(51) International Patent Classification (IPC): 
A42B 3/28(2006.01)
(52) Cooperative Patent Classification (CPC):
A42B 3/283

(54)

HELMET AND GROMMET

HELM UND ÖSE

CASQUE ET OEILLET


(84) Designated Contracting States:
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR

(30) Priority: 31.05.2019 JP 2019102839

(43) Date of publication of application:
02.12.2020 Bulletin 2020/49

(73) Proprietor: SHOEI CO., LTD.
Taito-ku Tokyo 110-0016 (JP)

(72) Inventor:
  • FUKUYAMA, Banri
    Tokyo, 110-0016 (JP)

(74) Representative: Daub, Thomas 
Patent- und Rechtsanwaltskanzlei Daub Bahnhofstrasse 5
88662 Überlingen
88662 Überlingen (DE)


(56) References cited: : 
KR-A- 20000 047 448
   
       
    Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


    Description

    BACKGROUND


    1. Field



    [0001] The following description relates to a helmet and a grommet.

    2. Description of Related Art



    [0002] A helmet includes a vent to ventilate the inside of the helmet and prevent fogging of an inner surface of a shield. The vent is configured to be opened and closed and connects the inside of the helmet and an outer surface of the helmet. Japanese Laid-Open Patent Publication No. 10-121317 describes a helmet including recesses extending into a shell of the helmet. A vent connecting the inside and outside of the shell is open in the recess. Further, a base including a connection hole is fitted and fixed to the recess in order to connect the recess and the vent. Then, a vertically pivotal shutter is coupled to the base to open and close the vent.

    [0003] Japanese Laid-Open Utility Model Publication No. 2-87027 describes a helmet including a knob that is moved left and right to open and close a vent using a shutter.

    [0004] As described above, the vent of the helmet is opened and closed by the shutter. Thus, the helmet needs to include a shutter open-close mechanism. It is desirable that the shutter open-close mechanism has a simplified structure and occupies only a small amount of space. However, in the helmet of Japanese Laid-Open Patent Publication No. 10-121317, the mechanism that pivots the shutter is complicated and requires many parts. This lowers the efficiency for connecting the mechanism to the helmet.

    [0005] There is a need for such a shutter open-close mechanism to have a simplified structure to allow for repair and replacement.

    [0006] Further, the helmet of Japanese Laid-Open Utility Model Publication No. 2-87027 uses one shutter to open and close two vents. Thus, the shutter open-close mechanism occupies a large amount of space. Such a shutter open-close mechanism adversely affects the exterior design of the helmet. Therefore, it is desirable that the shutter open-close mechanism occupy less space. Furthermore, document KR 2000-0047448 discloses a helmet according to the preamble of claim 1 and a grommet according to the preamble of claim 6. In particular, it discloses an air vent for a helmet with a rotatable shutter to open and close the air vent. The shutter shows a disc-like main body with sealing sections and aperture sections arranged alternately in circular sectors of the main body.

    SUMMARY



    [0007] One object of the following description is to provide a grommet for a vent and a helmet that allow an open-close mechanism of the vent to have a simplified structure that occupies less space.

    [0008] This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

    [0009] In one general aspect, a helmet according to independent claim 1 is provided. The helmet includes a shell and a grommet. The shell has a through hole extending from an outer side of the shell to an inner side of the shell. The grommet is arranged on the shell where the through hole is located, and forming a vent that draws outside air into the shell. The grommet includes a base, an operation member, and a plurality of shutters. The base is coupled to the shell where the through hole is located and the base has an opening at a position overlapping the through hole. The operation member is rotatably coupled to the base. The plurality of shutters is configured to open and close the opening when the operation member is rotated relative to the base. The opening is a first opening. The operation member is a cover that covers the base and is rotated relative to the base. The plurality of shutters is located between the operation member and the base. The operation member includes a second opening at a position corresponding to the first opening. Each of the plurality of shutters includes a guide protrusion projected toward the base, and a driven protrusion projected toward the operation member. The base includes a guide groove engaged with the guide protrusion. The operation member includes a cam groove engaged with the driven protrusion. The operation member is configured to move the plurality of shutters in accordance with rotation of the operation member relative to the base.

    [0010] In another general aspect, a grommet according to independent claim 6 is provided. When the grommet is coupled to a shell of a helmet, the grommet forms a vent in the helmet to draw outside air into the helmet. The grommet includes a base, an operation member, and a plurality of shutters. The base is configured to be coupled to the shell of the helmet where a through hole is located. The base includes an opening that overlaps the through hole when the base is coupled to the shell of the helmet where the through hole is located. The operation member is rotatably coupled to the base. The plurality of the shutters is configured to open and close the opening when the operation member is rotated relative to the base. The opening is a first opening. The operation member is a cover that covers the base and is rotated relative to the base. The plurality of shutters is located between the operation member and the base. The operation member includes a second opening at a position corresponding to the first opening. Each of the plurality of shutters includes a guide protrusion projected toward the base, and a driven protrusion projected toward the operation member. The base includes a guide groove engaged with the guide protrusion. The operation member includes a cam groove engaged with the driven protrusion. The operation member is configured to move the plurality of shutters in accordance with rotation of the operation member relative to the base.

    [0011] Other features and aspects will be apparent from the following detailed description, the drawings, and the claims

    BRIEF DESCRIPTION OF THE DRAWINGS



    [0012] 

    Fig. 1 is a perspective view of a helmet.

    Fig. 2 is a perspective view showing a grommet in accordance with a first embodiment in a state in which a shutter is closed.

    Fig. 3 is an exploded perspective view of the grommet in accordance with the first embodiment.

    Fig. 4 is a perspective view of a base in accordance with the first embodiment.

    Fig. 5 is a perspective view showing the relationship of an operation member and the shutter of the first embodiment.

    Fig. 6 is a perspective view illustrating a state in which the shutter of the first embodiment is open.

    Fig. 7 is a perspective view of a grommet in accordance with a second embodiment.

    Fig. 8 is an exploded perspective view of the grommet in accordance with the second embodiment.

    Fig. 9 is an exploded perspective view of a grommet in accordance with an example not part of the invention.

    Fig. 10A is a perspective view showing the grommet of the example not part of the invention, in a state in which a shutter is closed.

    Fig. 10B is a perspective view showing the grommet of the example not part of the invention, in a state in which the shutter is open.



    [0013] Throughout the drawings and the detailed description, the same reference numerals refer to the same elements. The drawings may not be to scale, and the relative size, proportions, and depiction of elements in the drawings may be exaggerated for clarity, illustration, and convenience.

    DETAILED DESCRIPTION



    [0014] This description provides a comprehensive understanding of the methods, apparatuses, and/or systems described. Sequences of operations are exemplary, and may be changed as apparent to one of ordinary skill in the art, with the exception of operations necessarily occurring in a certain order. Descriptions of functions and constructions that are well known to one of ordinary skill in the art may be omitted.

    [0015] Exemplary embodiments may have different forms, and are not limited to the examples described. However, the examples described are thorough and complete, and convey the full scope of the disclosure to one of ordinary skill in the art.

    [0016] A helmet in accordance with one embodiment will now be described.

    First Embodiment



    [0017] As shown in Fig. 1, a helmet 1 includes a spherical shell 2. The shell 2 forms an outer shell of the helmet. The shell 2 is a semispherical plastic member. The material of the shell 2 is selected from, for example, acrylonitrile-butadiene-styrene copolymer (ABS), polycarbonate (PC), and a thermosetting resin impregnated with reinforcement fibers. The shell 2 may accommodate, for example, an impact absorption liner that is an interior member for absorbing impacts. Further, the shell 2 may accommodate various types of pads having a lower resilience than the impact absorption liner to, for example, cushion the head. The shell 2 includes an open portion 3 to provide a field of view. The helmet 1 may include a shield that is a transparent and colorless plate having light-transmissivity. At a closed position, the shield prevents flying foreign objects, rain, and wind from entering the front of the helmet 1 and improves the view of a wearer.

    [0018] As shown in Figs. 2 and 3, vents are formed above the open portion 3 to ventilate the inside of the shell 2. The vent, which connects the inside of the shell 2 and an outer surface of the shell 2, includes a shutter. Each vent is formed by a grommet 10 that is inserted into a through hole 4 of the shell 2.

    [0019] The grommet 10 includes a base 11, an operation member 12, a first shutter 13, and a second shutter 14. The base 11 is coupled to the corresponding through hole 4 of the shell 2. The operation member 12 is rotatably coupled to the base 11. The first shutter 13 and the second shutter 14 are moved when the operation member 12 is rotated. The through hole 4 extends through the shell 2 in a thickness-wise direction. That is, the through hole 4 extends from the outer side of the shell 2 to the inner side of the shell 2. Further, the base 11 is coupled to the shell 2 surrounding the through hole 4.

    [0020] The base 11 is a circular plate having a larger diameter than the through hole 4 and includes a central portion through which a first opening 16 extends in correspondence with the through hole 4. The first opening 16 is a circular through hole having substantially the same size as the through hole 4. The base 11 includes a rear surface 11a and a front surface 11b. The rear surface 11a is attached to the shell 2. The front surface 11b is located at a side opposite to the rear surface 11a and includes the shutters 13 and 14. As shown in Fig. 4, the rear surface 11a includes a fitting wall 17 arranged around the first opening 16. The first opening 16 is formed at an inner side of the fitting wall 17, and the fitting wall 17 is fitted into the through hole 4. That is, the base 11 includes the fitting wall 17, which is fitted into the through hole 4, and a portion outside the through hole 4. Further, the circumferential edge of the rear surface 11a includes rotation guides 18 that guide the rotation of the operation member 12 relative to the base 11 and determines a rotation range of the operation member 12. Each rotation guide 18 is a groove having the form of a recess extending in the circumferential direction over the rotation range of the operation member 12, that is, a range in which the first and second shutters 13 and 14 open and close.

    [0021] As shown in Fig. 3, the front surface 11b of the base 11 includes a first main guide groove 21 and a second main guide groove 22. The first main guide groove 21 guides movement of the first shutter 13, and the second main guide groove 22 guides movement of the second shutter 14. The first and second main guide grooves 21 and 22 are grooves each having the form of a recess and are engaged with first and second main guide protrusions 36 and 37, respectively. The first and second main guide protrusions 36 and 37 are arranged on first ends of the first and second shutters 13 and 14, respectively. The first and second main guide grooves 21 and 22 each have the shape of an arc extending in the circumferential direction of the first opening 16 at an outer side of the first opening 16.

    [0022] Further, the front surface 11b of the base 11 includes a first sub-guide groove 23, which guides movement of the first shutter 13, and a second sub-guide groove 24, which guides movement of the second shutter 14. The first and second sub-guide grooves 23 and 24 are engaged with first and second sub-guide protrusions 38 and 39 arranged on second ends of the first and second shutters 13 and 14, respectively. The first and second sub-guide grooves 23 and 24 are each configured by a recess extending in a direction that intersects with the first and second main guide grooves 21 and 22. In other words, the first and second main guide grooves 21 and 22 extend in a circumferential direction while the first and second sub-guide grooves 23 and 24 extend in a radial direction.

    [0023] The operation member 12 is rotatably arranged relative to the base 11 and covers the base 11. That is, the operation member 12 is a cover that covers the base 11 and is rotated relative to the base 11. The operation member 12 includes a circular top plate 26 and a circumferential wall 27 extending along the circumference of the top plate 26. The top plate 26 includes a recessed central portion. A second opening 28 extends through the center of the central portion in correspondence with the first opening 16. That is, the operation member 12 includes the second opening 28 at a position corresponding to the first opening 16. The second opening 28 is a circular hole having the same size as the first opening 16. When the operation member 12 is coupled to the base 11, the second opening 28 is aligned with the first opening 16 of the base 11. The first and second openings 16 and 28 form the vent that connects the inside and the outside of the helmet 1. The operation member 12 is annular. The first and second shutters 13 and 14 open and close the first opening 16 in accordance with the rotation of the operation member 12 relative to the base 11 in the circumferential direction. As shown in Fig. 5, the top plate 26 includes an inner surface in which a first cam groove 31 and a second cam groove 32 are arranged in an inner surface of the top plate 26 outward from the second opening 28. The first cam groove 31 and the second cam groove 32 extend along a straight line extending through the center of the second opening 28. The first cam groove 31 is a recessed groove engaged with a first driven protrusion 41 of the first shutter 13, and the second cam groove 32 is a recessed groove engaged with a second driven protrusion 42 of the second shutter 14. The first cam groove 31 and the second cam groove 32 are each formed by an elongated hole so that the operation member 12 is rotatable.

    [0024] The outer circumferential surface of the circumferential wall 27 includes ridges and valleys extending in a height direction. The ridges and valleys form an operation portion 29 that is operated to rotate the operation member 12 relative to the base 11. The operation portion 29 allows the operation member 12 to be smoothly rotated with a user's fingers. Further, two engagement portions 33 are formed in the distal end of the circumferential wall 27 for engagement with the rotation guides 18. The two engagement portions 33 oppose each other. Each engagement portion 33 is an engagement piece projecting from the distal end of the circumferential wall 27 toward the inner side of the circumferential wall 27. The engagement of the engagement portions 33 and the grooves of the rotation guides 18 of the base 11 guides the rotation of the operation member 12 and sets the rotation range in which opening and closing actions of the first and second shutters 13 and 14 are allowed.

    [0025] The first and second shutters 13 and 14 are elongated and sized so that when the first shutter 13 and the second shutter 14 abut each other, the first shutter 13 and the second shutter 14 cooperate to close the first opening 16 and the second opening 28. Further, the first and second shutters 13 and 14 are shaped to be located outward from the first opening 16 and the second opening 28 when opening the first opening 16 and the second opening 28. The first shutter 13 has a side extending straight in the longitudinal direction that defines an abutment portion 13a, and the second shutter 14 has a side extending straight in the longitudinal direction that defines an abutment portion 14a. The abutment portion 13a of the first shutter 13 and the abutment portion 14a of the second shutter 14 can abut each other. Further, the first and second shutters 13 and 14 include arcuate portions extending in the longitudinal direction at the opposite side of the abutment portions 13a and 14a.

    [0026] The first shutter 13 includes the first main guide protrusion 36 at a first end in the longitudinal direction, and the first main guide protrusion 36 is projected toward the base 11 and engaged with the first main guide groove 21. The second shutter 14 includes the second main guide protrusion 37 at a first end in the longitudinal direction. The second main guide protrusion 37 is projected toward the base 11 and engaged with the second main guide groove 22. Further, the first shutter 13 includes the first sub-guide protrusion 38 at a second end in the longitudinal direction. The first sub-guide protrusion 38 is projected toward the base 11 and engaged with the first sub-guide groove 23. The second shutter 14 includes the second sub-guide protrusion 39 at a second end in the longitudinal direction. The second sub-guide protrusion 39 is projected toward the base 11 and engaged with the second sub-guide groove 24.

    [0027] As shown in Fig. 5, the first shutter 13 includes the first driven protrusion 41 projecting toward the operation member 12. The first driven protrusion 41 is engaged with the first cam groove 31 at the first end in the longitudinal direction. The second shutter 14 includes the second driven protrusion 42 projecting toward the operation member 12. The second driven protrusion 42 is engaged with the second cam groove 32 at the first end in the longitudinal direction.

    [0028] In this manner, the first and second shutters 13 and 14 each include the first end and the second end located at a side opposite to the first end. The second end is held by the base 11 in a state in which movement relative to the base 11 is restricted in the circumferential direction. The first end is held by the base 11 in a state in which movement relative to the base 11 is allowed in the circumferential direction. Further, the first end is held by the operation member 12 in a state in which movement relative to the operation member 12 is restricted in the circumferential direction. The first and second main guide protrusions 36 and 37, the first and second main guide grooves 21 and 22, the first and second sub-guide protrusions 38 and 39, the first and second sub-guide grooves 23 and 24, the first cam groove 31, the second cam groove 32, and the first and second driven protrusions 41 and 42 configure an open-close mechanism of the first and second shutters 13 and 14.

    [0029] The operation of the grommet 10 will now be described.

    [0030] The grommet 10 is attached to the shell 2, for example, by fitting the fitting wall 17 of the base 11 into the through hole 4. When the first and second openings 16 and 28 are closed by the first and second shutters 13 and 14, the entry of outside air into the helmet 1 is restricted. More specifically, the abutment portions 13a and 14a of the first and second shutters 13 and 14 abut each other over the first and second openings 16 and 28 so that the first and second shutters 13 and 14 close the first opening 16 and the second opening 28. In this case, the first and second main guide protrusions 36 and 37 of the first and second shutters 13 and 14 are located at first ends of the first and second main guide grooves 21 and 22. Further, the first and second sub-guide protrusions 38 and 39 of the first and second shutters 13 and 14 are located at first ends of the first and second sub-guide grooves 23 and 24.

    [0031] As shown in Fig. 6, the first and second openings 16 and 28 are opened to draw outside air into the helmet 1. Specifically, the user holds the operation portion 29 of the operation member 12 and rotates the operation member 12 in a first direction (direction indicated by arrow D in Fig. 2). As a result, the first shutter 13 is moved by the first driven protrusion 41 and the first cam groove 31 in a direction that opens the first and second openings 16 and 28. Further, the second shutter 14 is moved by the second driven protrusion 42 and the second cam groove 32 in the direction that opens the first and second openings 16 and 28. In this case, the first and second main guide protrusions 36 and 37 of the first and second shutters 13 and 14 are moved from the first ends to second ends of the first and second main guide grooves 21 and 22, respectively. Further, the first and second sub-guide protrusions 38 and 39 of the first and second shutters 13 and 14 are moved from the first ends to second ends of the first and second sub-guide grooves 23 and 24, respectively. This moves the first and second shutters 13 and 14 outward from the first opening 16 of the base 11. In a fully open state, the first and second shutters 13 and 14 are moved away from the first and second openings 16 and 28 and allow the inside of the shell 2 to be ventilated.

    [0032] The amount of the first and second openings 16 and 28 are opened is changed in accordance with the amount of the operation member 12 is rotated. That is, the first and second shutters 13 and 14 are moved when the operation member 12 is rotated. This adjusts the amount of air flowing into the shell 2. Further, when closing the first and second openings 16 and 28, the operation member 12 is rotated in a second direction to move the first and second shutters 13 and 14 in a direction that closes the first and second openings 16 and 28. The second direction is a direction opposite to the direction indicated by arrow D in Fig. 6. In this case, the operation member 12 is in a state in which the abutment portions 13a and 14a of the first and second shutters 13 and 14 abut each other over the first and second openings 16 and 28.

    [0033] The above described embodiment has the following advantages.

    (1-1) The first and second shutters 13 and 14 are moved between only the base 11 and the operation member 12. This reduces failure of the open-close mechanism for the first and second shutters 13 and 14. Further, the first and second shutters 13 and 14 do not project out of the base 11 and the operation member 12. This reduces the grommet 10 in size and increases the degree of freedom for the position where the grommet 10 can be coupled to the shell 2.

    (1-2) The first and second openings 16 and 28 can be opened by simply rotating the operation member 12. This ensures that air is drawn into the helmet 1. Further, the amount of drawn in air can be adjusted by varying the rotated amount of the operation member 12.

    (1-3) The grommet 10 has a simple structure, in which the first and second shutters 13 and 14 and the operation member 12 are coupled to the base 11. This facilitates repair and replacement of the grommet 10. Further, the mechanism opening and closing the vent is formed by the first and second shutters 13 and 14 that are pivoted on the base 11. This eliminates the need for additional space. Thus, the shutter open-close mechanism can be minimized in size thereby increasing the degree of freedom for the exterior design of the helmet 1.

    (1-4) The first and second shutters 13 and 14 are moved by the engagement of the first and second main guide protrusions 36 and 37 and the first and second main guide grooves 21 and 22 as well as the engagement of the first and second sub-guide protrusions 38 and 39 and the first and second sub-guide grooves 23 and 24. Further, the first and second shutters 13 and 14 are moved by the engagement of the first and second driven protrusions 41 and 42 and the first and second cam grooves 31 and 32. This stably moves the first and second shutters 13 and 14 when the operation member 12 is rotated.

    (1-5) The engagement of the rotation guides 18 and the engagement portions 33 stably rotates the operation member 12 relative to the base 11.


    Second Embodiment



    [0034] As shown in Figs. 7 and 8, a grommet 50 of the second embodiment includes the base 11 and the operation member 12 that differ in shape from the base 11 and the operation member 12 of the first embodiment. The base 11 includes a bottom plate 11c and a circumferential wall 11d. The bottom plate 11c includes the first opening 16, around which the first main guide groove 21, the second main guide groove 22, the first sub-guide groove 23, and the second sub-guide groove 24 are arranged. Further, the circumferential wall 11d includes the rotation guides 18 that are slits extending through the circumferential wall 11d in a circumferential direction.

    [0035] The operation member 12 includes a recessed central portion. The second opening 28 corresponding to the first opening 16 extends through the center of the central portion. An inclination surface that is inclined downward extends from the outer side of the recessed central portion. Further, ridges and valleys are formed in the inclination surface in a circumferential direction. This forms the operation portion 29 that is rotated to rotate the operation member 12 relative to the base 11.

    [0036] The first and second main guide protrusions 36 and 37 of the first and second shutters 13 and 14 are engaged with the first and second main guide grooves 21 and 22 of the base 11, and the first and second sub-guide protrusions 38 and 39 are engaged with the first and second sub-guide grooves 23 and 24. Further, the first and second driven protrusions 41 and 42 of the first and second shutters 13 and 14 are engaged with the first and second cam grooves 31 and 32 of the operation member 12. The grommet 50 also has the same advantages as the grommet 10 of the first embodiment.

    Alternative grommet



    [0037] The number of shutters is not limited to two as long as the number is more than one. One example of a grommet 60 not according to the invention and which includes four shutters is shown in Figs 9, 10A, and 10B. The grommet 60 includes a base 62. The base 62 is a circular plate having a larger diameter than the through hole 4 and includes a central portion having a first opening 63 corresponding to the through hole 4.

    [0038] Four shutters 64 are pivotally coupled to the base 62 by screws 65. Each of the four shutters 64 is pivotal relative to the base 62 about the corresponding screw 65. The first opening 63 is opened and closed by pivoting the four shutters 64. The four shutters 64 are operated and pivoted by an operation member 66. The operation member 66 includes an annular portion 67 and a rod-shaped operation portion 68 arranged on the annular portion 67. The inner side of the annular portion 67 defines a second opening 67a, and the second opening 67a has a diameter that is equal to, larger than, or smaller than the first opening 63. The four shutters 64 are pivotally coupled to the annular portion 67 by screws 69. Each of the four shutters 64 is pivotal relative to the annular portion 67 about the corresponding screw 69. When the operation portion 68 is moved vertically, each shutter 64 is pivoted to open or close the first opening 63. In this example, the first opening 63 is closed when the operation portion 68 is moved downward, and the first opening 63 is opened when the operation portion 68 is moved upward. In this example, when the shutters 64 are fully open, a square vent is formed.

    [0039] The above-described embodiments may be modified as follows.

    [0040] The rotation guides 18 and the engagement portions 33 may be omitted. That is, the rotation of the operation member 12 relative to the base 11 may be guided without the rotation guides 18 and the engagement portions 33. For example, the circumferential wall of the operation member 12 may be fitted into the inner side of the circumferential wall of the base 11 so as to guide the rotation. Alternatively, the circumferential wall of the operation member 12 may be fitted to the outer side of the circumferential wall of the base 11 so as to guide the rotation.

    [0041] In the above embodiments, the rotation of the operation member 12 relative to the base 11 is guided by the engagement portions 33 and the rotation guides 18, and the engagement portions 33 and the rotation guides 18 set the rotation range of the operation member 12 relative to the base 11. Instead, the rotation of the operation member 12 relative to the base 11 may be guided in a configuration in which the rotation range of the operation member 12 relative to the base 11 is not set.

    [0042] The shutter may be overlapped with part of the first opening 16 even in a fully open state.

    [0043] In the first and second shutters 13 and 14, the first and second main guide protrusions 36 and 37, the first and second sub-guide protrusions 38 and 39, and the first and second driven protrusions 41 and 42 may be arranged at any position. For example, center axes of the first and second main guide protrusions 36 and 37 do not have to coincide with center axes of the first and second driven protrusions 41 and 42. In one example, one set of the first and second main guide protrusions 36 and 37 and the first and second driven protrusions 41 and 42 may be arranged on the first ends of the first and second shutters 13 and 14, and the other set of the first and second main guide protrusions 36 and 37 and the first and second driven protrusions 41 and 42 may be arranged between the first ends and the second ends of the first and second shutters 13 and 14. Further, the first and second sub-guide protrusions 38 and 39 may be arranged between the first ends and the second ends of the first and second shutters 13 and 14 instead of being arranged on the second ends.

    [0044] The first and second sub-guide protrusions 38 and 39 may be omitted from the first and second shutters 13 and 14, and the first and second shutters 13 and 14 may include only the first and second main guide protrusions 36 and 37. The movement of the first and second shutters 13 and 14 may be guided only by the first and second main guide protrusions 36 and 37.

    [0045] The number of vents formed by the grommet is not limited to two like in Fig. 1. That is, the number of vents may be one or three or more. A larger number of vents improves ventilation. Further, the helmet may include a vent formed by a different mechanism in addition to the vent formed by the grommet.

    [0046] The helmet 1 may include a shield that is a transparent and colorless plate having light-transmissivity. At a closed position, the shield prevents flying foreign objects, rain, and wind from entering the front helmet 1 and improves the field of view of a wearer.

    [0047] The helmet may be a helmet for a bicycle or an automobile in addition to a motorcycle. Alternatively, a helmet may be used for construction work, light labor, or electric work.

    [0048] Various changes in form and details may be made to the examples above without departing from the scope of the claims. The examples are for the sake of description only, and not for purposes of limitation. Descriptions of features in each example are to be considered as being applicable to similar features or aspects in other examples. The scope of the disclosure is not defined by the detailed description, but by the claims. All variations within the scope of the claims are included in the disclosure.


    Claims

    1. A helmet (1), comprising:

    a shell (2) that includes a through hole (4) extending from an outer side of the shell (2) to an inner side of the shell (2); and

    a grommet (10; 50) arranged on the shell (2) where the through hole (4) is located and forming a vent that draws outside air into the shell (2), wherein the grommet (10; 50) includes

    a base (11) coupled to the shell (2) where the through hole (4) is located, the base (11) having an opening (16) at a position overlapping the through hole (4),

    an operation member (12) rotatably coupled to the base (11), and

    a plurality of shutters (13, 14) configured to open and close the opening (16) when the operation member (12) is rotated relative to the base (11),

    wherein

    the opening (16) is a first opening (16),

    the operation member (12) is a cover that covers the base (11) and is rotated relative to the base (11),

    the plurality of shutters (13, 14) is located between the operation member (12) and the base (11), and

    the operation member (12) includes a second opening (28) at a position corresponding to the first opening (16),

    characterized in that

    each of the plurality of shutters (13, 14) includes

    a guide protrusion (36, 37) projected toward the base (11), and

    a driven protrusion (41, 42) projected toward the operation member (12),

    the base (11) includes a guide groove (21, 22) engaged with the guide protrusion (36, 37),

    the operation member (12) includes a cam groove (31, 32) engaged with the driven protrusion (41, 42), and

    the operation member (12) is configured to move the plurality of shutters (13, 14) in accordance with rotation of the operation member (12) relative to the base (11).


     
    2. The helmet (1) according to claim 1, wherein the base (11; 62) includes a fitting wall (17), which is fitted into the through hole (4), and a portion outside the through hole (4).
     
    3. The helmet (1) according to claim 1, wherein

    the operation member (12) is annular, and

    the plurality of shutters (13, 14) is configured to open and close the opening (16) in accordance with rotation of the operation member (12) relative to the base (11) in a circumferential direction.


     
    4. The helmet (1) according to claim 3, wherein

    each of the plurality of shutters (13, 14) includes a first end and a second end located at a side opposite to the first end,

    the second end is held by the base (11) in a state in which movement relative to the base (11) is restricted in the circumferential direction,

    the first end is held by the base (11) in a state in which movement relative to the base (11) is allowed in the circumferential direction, and

    the first end is held by the operation member (12) in a state in which movement relative to the operation member (12) is restricted in the circumferential direction.


     
    5. The helmet (1) according to any one of claims 1 to 4, wherein,

    the base (11) includes a rotation guide (18) that guides rotation of the operation member (12) relative to the base (11), and

    the operation member (12) includes an engagement portion (33) engaged with the rotation guide (18).


     
    6. A grommet (10; 50), wherein when the grommet (10; 50) is coupled to a shell (2) of a helmet (1), the grommet (10; 50) forms a vent in the helmet (1) to draw outside air into the helmet (1), the grommet (10; 50), comprising:

    a base (11) configured to be coupled to the shell (2) of the helmet (1) where a through hole (4) is located, wherein the base (11) includes an opening (16; 63) that overlaps the through hole (4) when the base (11) is coupled to the shell (2) of the helmet (1) where the through hole (4) is located;

    an operation member (12) rotatably coupled to the base (11); and
    a plurality of shutters (13, 14) configured to open and close the opening (16) when the operation member (12) is rotated relative to the base (11),

    wherein

    the opening (16) is a first opening (16),

    the operation member (12) is a cover that covers the base (11) and is rotated relative to the base (11),

    the plurality of shutters (13, 14) is located between the operation member (12) and the base (11), and

    the operation member (12) includes a second opening (28) at a position corresponding to the first opening (16),

    characterized in that

    each of the plurality of shutters (13, 14) includes

    a guide protrusion (36, 37) projected toward the base (11), and

    a driven protrusion (41, 42) projected toward the operation member (12),

    the base (11) includes a guide groove (21, 22) engaged with the guide protrusion (36, 37),

    the operation member (12) includes a cam groove (31, 32) engaged with the driven protrusion (41, 42), and

    the operation member (12) is configured to move the plurality of shutters (13, 14) in accordance with rotation of the operation member (12) relative to the base (11).


     


    Ansprüche

    1. Helm (1), welcher aufweist:

    eine Schale (2) mit einem Durchgangsloch (4), welches von einer Außenseite der Schale (2) zu einer Innenseite der Schale (2) verläuft; und

    eine Tülle (10; 50), die an der Schale (2) dort angeordnet ist, wo sich das Durchgangsloch (4) befindet, und eine Lüftungsöffnung ausbildet, die Außenluft in die Schale (4) zieht, wobei die Tülle (10; 50) aufweist:

    eine Basis (11), die mit der Schale (2) gekoppelt ist, wo sich das Durchgangsloch (4) befindet, wobei die Basis (11) eine Öffnung (16) in einer Überlappungsposition mit dem Durchgangsloch (4) aufweist,

    ein rotierbar mit der Basis (11) gekoppeltes Betätigungsmittel (12) und eine Vielzahl von Schließelementen (13, 14), die dazu vorgesehen sind, die Öffnung (16) zu öffnen und zu schließen, wenn das Betätigungsmittel (12) relativ zur Basis (11) gedreht wird,

    wobei die Öffnung (16) eine erste Öffnung (16) ist, das Betätigungsmittel (12) eine die Basis (11) abdeckende Abdeckung ist, die relativ zu der Basis (11) gedreht wird, die Vielzahl von Schließelementen (13, 14) zwischen dem Betätigungsmittel (12) und der Basis 11) angeordnet ist und das Betätigungsmittel (12) eine zweite Öffnung (28) in einer der ersten Öffnung (16) entsprechenden Position aufweist,

    dadurch gekennzeichnet, dass

    jedes von der Vielzahl von Schließelementen (13, 14) aufweist:

    einen Führungsvorsprung (36, 37), der in Richtung der Basis (11) herausragt,

    und einen angetriebenen Vorsprung (41, 42), der in Richtung des Betätigungsmittels (12) herausragt,

    die Basis (11) eine Führungsnut (21, 22) umfasst, die mit dem Führungsvorsprung (36, 37) im Eingriff ist,

    das Betätigungsmittel (12) eine Kurvennut (31, 32) aufweist, die mit dem angetriebenen Vorsprung (41, 42) im Eingriff ist, und

    das Betätigungsmittel (12) dazu vorgesehen ist, die Vielzahl von Schließelementen (13, 14) entsprechend einer Drehung des Betätigungsmittels (12) relativ zur Basis (11) zu bewegen.


     
    2. Helm (1) nach Anspruch 1,
    wobei die Basis (11) eine in das Durchgangsloch (4) eingepasste Einpasswand (17) sowie einen Bereich außerhalb des Durchgangslochs (4) aufweist.
     
    3. Helm (1) nach Anspruch 1,

    wobei das Betätigungsmittel (12) ringförmig ist und

    die Vielzahl von Schließelementen (13, 14) dazu vorgesehen ist, die Öffnung (16) zu öffnen und zu schließen, entsprechend einer Drehung des Betätigungsmittels (12) relativ zur Basis (11) in Umfangsrichtung.


     
    4. Helm (1) nach Anspruch 3,

    wobei jedes von der Vielzahl von Schließelementen (13, 14) ein erstes Ende und ein auf einer dem ersten Ende gegenüberliegenden Seite angeordnetes zweites Ende aufweist,

    das zweite Ende durch die Basis (11) in einem Zustand gehalten wird, in dem eine Bewegung relativ zur Basis (11) in Umfangsrichtung eingeschränkt ist, das erste Ende durch die Basis (11) in einem Zustand gehalten wird, in dem eine Bewegung relativ zur Basis (11) in Umfangsrichtung möglich ist, und das erste Ende durch das Betätigungsmittel (12) in einem Zustand gehalten wird, in dem eine Bewegung relativ zu dem Betätigungsmittel (12) in Umfangsrichtung eingeschränkt ist.


     
    5. Helm (1) nach einem der Ansprüche 1 bis 4,
    wobei die Basis (11) eine Rotationsführung (18) aufweist, mittels deren eine Drehung des Betätigungsmittels (12) relativ zur Basis (11) geführt ist, und das Betätigungsmittel (12) einen Eingriffsbereich (33) aufweist, der mit der Rotationsführung (18) im Eingriff ist.
     
    6. Tülle (10; 50),
    wobei die Tülle (10; 50), wenn sie mit einer Schale (2) eines Helms (1) gekoppelt ist, in dem Helm (1) eine Lüftungsöffnung ausbildet, um Außenluft in den Helm (1) zu ziehen, wobei die Tülle (10; 50) aufweist:

    eine Basis (11), die dazu vorgesehen ist, mit der Schale (2) des Helms (1) dort gekoppelt zu werden, wo sich ein Durchgangsloch (4) befindet, wobei die Basis (11) eine Öffnung (16; 63) aufweist, die mit dem Durchgangsloch (4) überlappt, wenn die Basis (11) mit der Schale (2) des Helms (1) dort gekoppelt ist, wo sich das Durchgangsloch (4) befindet;

    ein rotierbar mit der Basis (11) gekoppeltes Betätigungsmittel (12) sowie eine Vielzahl von Schließelementen (13, 14), die dazu vorgesehen sind, die Öffnung (16) zu öffnen und zu schließen, wenn das Betätigungsmittel (12) relativ zur Basis (11) gedreht wird,

    wobei die Öffnung (16) eine erste Öffnung (16) ist, das Betätigungsmittel (12) eine die Basis (11) abdeckende Abdeckung ist, die relativ zur Basis (11) gedreht wird, die Vielzahl von Schließelementen (13, 14) zwischen dem Betätigungsmittel (12) und der Basis (11) angeordnet ist und das Betätigungsmittel (12) eine zweite Öffnung (28) in einer der ersten Öffnung (16) entsprechenden Position aufweist,

    dadurch gekennzeichnet, dass

    jedes von der Vielzahl von Schließelementen (13, 14) aufweist:

    einen Führungsvorsprung (36, 37), der in Richtung der Basis (11) herausragt, und einen angetriebenen Vorsprung (41, 42), der in Richtung des Betätigungsmittels (12) herausragt,

    die Basis (11) eine Führungsnut (21, 22) aufweist, die mit dem Führungsvorsprung (36, 37) im Eingriff ist,

    das Betätigungsmittel (12) eine Kurvennut (31, 32) aufweist, die mit dem angetriebenen Vorsprung (41, 42) im Eingriff ist, und

    das Betätigungsmittel (12) dazu vorgesehen ist, die Vielzahl von Schließelementen (13, 14) entsprechend einer Rotation des Betätigungsmittels (12) relativ zur Basis (11) zu bewegen.


     


    Revendications

    1. Casque (1), comprenant :

    une coque (2) ayant un trou traversant (4) qui s'étend d'une face extérieure de la coque (2) à une face intérieure de la coque (2) ; et

    une douille (10 ; 50) disposée sur la coque (2) où le trou traversant (4) est localisé et formant un trou d'aération qui aspire de l'air extérieur dans la coque (2), la douille (10 ; 50) incluant : une base (11) couplée à la coque (2) où le trou traversant (4) est localisé, la base (11) ayant une ouverture (16) dans une position en chevauchement du trou traversant (4), un élément d'actionnement (12) couplé à la base (11) de façon rotative, et une pluralité de moyens de fermeture (13, 14) prévus pour ouvrir et fermer l'ouverture (16) si l'élément d'actionnement (12) est tourné par rapport à la base (11),

    où l'ouverture (16) est une première ouverture (16), l'élément d'actionnement (12) est une couverture couvrant la base (11) et tournée par rapport à la base (11), la pluralité de moyens de fermeture (13, 14) est localisée entre l'élément d'actionnement (12) et la base (11) et l'élément d'actionnement (12) inclut une deuxième ouverture (28) dans une position qui corresponde à la première ouverture (16),

    caractérisé en ce que

    chacun de la pluralité de moyens de fermeture (13, 14) comprend une saillie de guidage (36, 37) saillant vers la base (11) et une saillie entraînée (41, 42) saillant vers l'élément d'actionnement (12),

    la base (11) comprend une rainure de guidage (31, 32) engrenée avec la saillie de guidage (36, 37),

    l'élément d'actionnement (12) comprend une rainure de came (31, 32) engrenée avec la saillie entraînée (41, 42), et

    l'élément d'actionnement (12) est prévu pour mouvoir la pluralité de moyens de fermeture (13, 14) en conformité avec une rotation de l'élément d'actionnement (12) par rapport à la base (11).


     
    2. Casque (1) selon la revendication 1,
    où la base (11 ; 62) inclut une paroi d'encastrement (17) qui est encastrée dans le trou traversant (4), et une partie au dehors du trou traversant (4).
     
    3. Casque (1) selon la revendication 1,

    où l'élément d'actionnement (12) est en forme d'anneau, et

    la pluralité de moyens de fermeture (13, 14) est prévue pour ouvrir et fermer l'ouverture (16) conformément avec une rotation de l'élément d'actionnement (12) par rapport à la base (11) en direction circonférentielle.


     
    4. Casque (1) selon la revendication 3,

    où chacun des moyens de fermeture (13, 14) comprend une première extrémité et une deuxième extrémité localisée sur une face vis-à-vis de la première extrémité,

    la deuxième extrémité est tenue par la base (11) dans un état où un mouvement par rapport à la base (11) est restreint en direction circonférentielle,

    la première extrémité est tenue par la base (11) dans un état où un mouvement par rapport à la base (11) est permis en direction circonférentielle, et

    la première extrémité est tenue par l'élément d'actionnement (12) dans un état où un mouvement par rapport à l'élément d'actionnement (12) est restreint en direction circonférentielle.


     
    5. Casque (1) selon l'une des revendications 1 à 4,

    où la base (11) inclut un guide rotatif (18) guidant une rotation de l'élément d'actionnement (12) par rapport à la base (11), et

    l'élément d'actionnement (12) inclut une partie d'engrènement (33) engrenée avec le guide rotatif (18).


     
    6. Douille (10 ; 50),

    la douille (10 ; 50) étant couplée à une coque (2) d'un casque (1), la douille (10 ; 50) formant un trou d'aération dans le casque (1) pour aspirer de l'air extérieur dans le casque (1), la douille (10 ; 50) comprenant :

    une base (11) prévue pour être couplée à la coque (2) du casque (1) où un trou traversant (4) est localisé, la base (11) incluant une ouverture (16 ; 63) qui enchevauche le trou traversant (4) si la base (11) est couplée à la coque (2) du casque (1) où le trou traversant (4) est localisé ;

    un élément d'actionnement (12) couplé à la base (11) de façon rotative ; et une pluralité de moyens de fermeture (13, 14) prévus pour ouvrir et fermer l'ouverture (16) si l'élément d'actionnement (12) est tourné par rapport à la base (11),

    où l'ouverture (16) est une première ouverture (16), l'élément d'actionnement (12) est une couverture qui couvre la base (11) et est tournée par rapport à la base (11), la pluralité de moyens de fermeture (13, 14) est localisée entre l'élément d'actionnement (12) et la base (11), et l'élément d'actionnement (12) inclut une deuxième ouverture (28) dans une position qui corresponde à la première ouverture (16),

    caractérisé en ce que

    chacun de la pluralité de moyens de fermeture (13, 14) inclut une saillie de guidage (36, 37) saillant vers la base (11) et une saillie entraînée (41, 42) saillant vers l'élément d'actionnement (12),

    la base (11) comprend une rainure de guidage (21, 22) engrenée avec la saillie de guidage (36, 37),

    l'élément d'actionnement (12) comprend une rainure de came (31, 32) engrenée avec la saillie entraînée (41, 42), et

    l'élément d'actionnement (12) est prévu pour mouvoir la pluralité de moyens de fermeture (13, 14) en conformité avec la rotation de l'élément d'actionnement (12) par rapport à la base (11).


     




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    Cited references

    REFERENCES CITED IN THE DESCRIPTION



    This list of references cited by the applicant is for the reader's convenience only. It does not form part of the European patent document. Even though great care has been taken in compiling the references, errors or omissions cannot be excluded and the EPO disclaims all liability in this regard.

    Patent documents cited in the description