Patent Grant
8166576
The present invention relates to an opening/closing device suitable in use for opening and closing an opening/closing member with regard to an opened/closed member using free-stop function, and a helmet equipped with such an opening/closing device.
The present invention relates to an opening/closing device suitable in use for supporting an opening/closing member such as a shield in opening and closing with regard to an opened/closed member such as a helmet body, so that the above-mentioned opening/closing member can stop at any opening/closing position as well as a helmet equipped with such an opening/closing device.
For example as a helmet, the one equipped with a helmet body having an opening portion on a front surface and a shield for opening and closing the opening portion is commonly known, wherein the shield is opened and closed with regard to the helmet body using opening/closing devices in such a manner that the shield can stop at any position. In this helmet, end portions of the shield are rotatably jointed via the opening/closing devices to side portions of the helmet body, and thus the opening can be covered or exposed as appropriate.
As opening/closing devices of this type, the ones have been already proposed in JP Utility Model Registration No. 2541873, wherein the opening/closing devices support a shield so as to be openable/closable with regard to a helmet body, and generate a friction torque between the helmet body and the shield in an opening/closing direction so that the shield can be opened/closed with regard to the helmet body so as to stop at any opening/closing position.
Opening/closing devices as disclosed in the commonly known document are equipped with guide members provided on both side portions of a helmet body for openably/closably supporting both end portions of a shield and friction torque generation means which generate a friction torque between the helmet body and the shield, which forces the shield to stop at any opening/closing position. The friction torque generation means here generates a friction torque around a respective axis of shaft bodies which pivotally support the shield so as to be openable/closable with regard to the helmet body, and in this manner enable a stop of the shield at any opened/closed position with regard to the helmet body.
Nevertheless, in friction torque generation means which, as are the case with opening/closing devices disclosed in the above-mentioned commonly known document, generate a friction torque around a respective axis of shaft bodies, a sufficient rotational resistance cannot always be generated, which can cause the shield once opened to slip off. If one wishes to obtain a friction torque necessary to avoid this, a large friction area will be necessary, which leads to a problem of an increase in size of opening/closing devices.
On the other hand, if opening/closing devices are so designed that positions for friction generation are located at points radially distant from respective centers of rotation of a shield, the devices are of simple structure, and enable, even in a small size, to ensure a great rotational resistance. However, if for example groove portions in a shape of circle which is large (in radius) are formed on the shield itself for the above-mentioned purpose, problems arise in that the grooves in a shape of circle are hindrance to vision or factors unfavorable in terms of strength (factors such as those facilitating the generation of cracks).
On the other hand, opening/closing devices, even in a small size, requiring a large friction torque are also needed, except for a helmet, in opening/closing a first casing as opened/closed member provided with an operation portion, and a second casing as opening/closing member provided with a display device, the both casings being of a small-sized portable equipment such as a portable phone, a PDA and a notebook PC.
The present invention is made to solve the above-mentioned problems, and an object of the invention is to provide opening/closing devices which, even of a small size, can generate a large friction torque so that opening/closing members can stably stop at any opening/closing position, are compact and do not require a space for mounting, as well as a helmet or a portable equipment equipped with the above-mentioned opening/closing devices.
To achieve the above-mentioned object, the opening/closing devices according to the present invention are characterized in that the opening/closing device support an opening/closing member so as to be openable/closable with regard to an opened/closed member; in the opening/closing device a friction torque generation means is provided between the opened/closed members distanced from the guide member and the opening/closing member; that the friction torque generation means is equipped with an attaching member attached to the opened/closed member and with rotating members rotatably attached to the attaching member and engaged with the opened/closed member as well, and the friction torque generation means are so designed that they generate a friction torque between the attaching member and the rotating member so that the opening/closing member can stop with regard to opened/closed member using free-stop function.
In accordance with the above-mentioned invention, friction torque generation means as elements independent from opening/closing member are provided at positions away from guide member supporting the opening/closing member so as to be openable/closable with regard to opened/closed member and so designed that the friction torque generation means generate a friction torque when the opening/closing member stop with regard to opened/closed member, so that a rotational torque as generated in rotating the opening/closing member with regard to the opened/closed member around the guide member as axes is large even though the friction torque as generated between the attaching member and the rotating member, both being components of the friction torque generation means is small. Therefore, the friction torque generation means, even of a small size, can realize a satisfactory stop of the opening/closing member with regard to the opened/closed member using free-stop function.
An opening/closing devices which respectively supports both end portions of an opening/closing member shield so as to be openable/closable with regard to an opened/closed member helmet body being a constituent part of a helmet is characterized in that the opened/closed member helmet body provided at least on the side of one end portion comprises a cover portion having a bearing portion and fixed to the opened/closed member helmet body, an attaching member borne by the bearing portion of the cover portion and attached to the opening/closing member shield so as to be rotatable together with the opening/closing member shield, a fixing arm coaxially attached to the attaching member and fixed to the opened/closed member helmet body, a torque pin attached at a position away from an attaching center of the fixing arm and inserted into a guide groove located at a position away from a rotational center of the attaching member, and a friction torque generation means comprising a friction washer accommodating the torque pin into its central portion and provided between the attaching member and an elastic member.
In the opening/closing device according to the present invention it is preferable that the friction torque generation means is equipped with an attaching member having a rotation supporting portion in the shape of ring rotatably supported on the guide member and an attaching portion protruding from an outer circumference of the rotation supporting portion, with a torque pin rotatably or fixedly attached to the attaching portion of the attaching member, with a rotation member attached to the torque pin so as to be rotatable together with the torque pin or rotatably attached around the axis of the torque pin and an elastic member provided on the torque pin for generating a friction torque between the attaching member and the rotation member. Moreover, in the opening/closing device according to the present invention it is preferable that the friction torque generation means is equipped with an attaching member having a rotation supporting portion in the shape of ring rotatably supported on the guide member and an attaching portion protruding from an outer circumference of the rotation supporting portion, with a torque pin rotatably or fixedly attached to the attaching portion of the attaching member, with a rotation member attached to the torque pin so as to be rotatable together with the torque pin or rotatably attached around the axis of the torque pin, a torque member attached on an outer circumference of the torque pin between the rotation member and the attaching member, so as to be rotatable together with the torque pin and movable in an axial direction of the torque pin, and an elastic member provided on the torque pin for pushing the torque member toward the attaching portion and generating a friction torque between the attaching member and the rotation member.
Moreover, the present invention aims at solving the above-mentioned problem by an opening/closing device which is so designed that it comprises a rotation member fixed to a side of the opening/closing member shield, an attaching member to which the rotation member is attached so as to be rotatable with regard to the opened/closed member helmet body, and a friction torque generation means provided between the rotation member and the opened/closed member helmet body, wherein the friction torque generation means comprises a guide groove provided at a position away from a rotation center of the rotation member and a friction means fitted into the guide groove so as to be frictionally movable.
In this case, in the present invention it is possible that the friction means comprises a fixing pin attached to a side of the opened/closed member helmet body, an arm member fixed between the fixing pin and the attaching member, and a torque pin attached to the arm member.
Furthermore, in the present invention it is possible that the friction means is a torque pin attached to the side of the opened/closed member helmet body.
Still further, in the present invention it is possible that the friction means comprises an attaching pin attached to the side of the opened/closed member helmet body and a cylindrical portion fitted onto an outer circumference of the attaching pin.
Still further, in the present invention it is characterized in that, when fitting the cylindrical portion onto the attaching pin, the cylindrical portion is fixed onto the attaching pin.
Still further, in the present invention it is characterized in that when fitting the torque pin into the guide groove, either one side or both sides of the torque pin are brought into press contact with an inner side of the guide groove.
Still further, in the present invention it is possible that a click stop means via a concave portion or a convex portion is provided between the guide groove and the torque pin.
Still further, in the present invention it is possible that a stopper means is provided between the opening/closing member shield and the opened/closed member helmet body for forcing the opening/closing member to stop at fully closed position or fully opened position with regard to the opened/closed member helmet body.
Still further, in the present invention it is characterized in that the opened/closed member is a helmet body or a first casing of a portable equipment and that the opening/closing member is a shield or a second casing of a portable equipment.
Still further, in the present invention it is characterized in that a helmet according to the present invention is equipped with the opening/closing device according to the present invention.
As described in the foregoing, in accordance with the opening/closing device and the helmet according to the present invention, a friction torque generation means is provided between the opened/closed member away from a guide member and the opening/closing member shield, the friction torque generation means is equipped with an attaching member attached to the opening/closing member shield and a rotation member rotatably attached to a free end side of the attaching member and engaged with the opened/closed member, and the friction torque generation means is so designed that it generates a friction torque between the attaching member and the rotation member, so that the opening/closing member shield stops at any opening/closing angle with regard to the opened/closed member. Therefore, in the opening/closing devices it is possible that even though a friction torque as generated between the attaching member and the rotation member is small, a rotation torque in rotating the opening/closing member with regard to the opened/closed member around the guide member as an axis is great, the opening/closing devices of small size and simple structure can realize a stop of the opening/closing member with regard to the opened/closed member using a free stop function.
In the following the present invention will be described with a particular reference to opening/closing devices for opening/closing a shield with regard to a helmet body and a helmet using the opening/closing devices. However, the opening/closing devices are not limited to those for a shield for helmet, but also, as reference is made to this in the following, can serve as the opening/closing devices for a portable equipment in particular, and broadly speaking for opening and closing opening/closing members with regard to opened/closed members, so that the opening/closing members can stop at any opening/closing angle.
A helmet body 11 is, for example, installed on a head of a rider on a motorcycle and the like, and made up of highly durable synthetic resin material for example. An opening portion 12 is provided on a front surface of the helmet body 11. The opening portion 12 is not particularly limited and, and it is also possible that it is formed, for example, by cutting in a shape substantially of letter U from a lower portion toward an upper portion of the front surface, and in particular, a window opening extending from the front surface toward the both sides is also acceptable, as shown in
A columnar engagement means 15 is provided in vicinity of an attaching base 14 on a left hand side surface of a helmet body 11 and further toward a front side of the helmet body 11. The engagement means 15 can be integrally provided on the helmet body 11, or attached as a separate part such as a pin and the like to the helmet body 11. Furthermore, a shield seating portion 16 in a stepped shape is so configured that a lower portion of a shield 13 seats at the portion when an opening portion 12 is covered with the shield 13. A part of a shield seating portion 16 is recessed in a concave shape downwards and formed as a recessed portion 16a. A shield operating piece 13a substantially in a half-elliptical shape is provided on a lower end portion of the shield 13 opposing the recessed portion 16a, so that an opening/closing of the shield 13 covering the opening portion 12 is facilitated.
A shield 13 is not particularly limited, as long as it can open and close an opening portion 12, and is made up of a transparent and highly durable synthetic resin material. The shield 13 is formed in a curved shape, so that its both end portions cover attaching bases 14 on both side portions of a helmet body 11, when the opening portion 12 is entirely covered. A fitting hole 17 is provided at a position opposing the attaching base 14 and an engagement means 15 on a left side end portion of the shield 13. The fitting hole 17 is formed in a shape which includes a circular portion 17a in a circular shape substantially coaxial with the attaching base 14 and a sector portion 17b made up of a front side portion of an outer circumference of the circular portion 17a protruding in a fan-like shape. An opening/closing device 1 of a shield for helmet is fittedly attached to the fitting hole 17, so that a left side end portion of the shield 13 is rotatably supported via the opening/closing device 1 of a shield for helmet on the helmet body 11. A through hole (not shown in the drawings) is provided at a position opposing the attaching base 14 on a right side end portion of the shield 13. The through hole of the shield 13 is aligned to a position of a hole on the attaching base 14 and an attaching screw 26 is screwed into an attaching hole 14a of the attaching base 14, so that a cover portion 25 serves as a bearing member and thus a right side end portion of the shield 13 is rotatably supported on the helmet body 11. In the meantime, washers and the like may be provided both on the outside and the inside of the shield 13, on the outer circumference of the attaching screw 26. With this arrangement, the both end portions of the shield 13 are rotatably supported on the helmet body 11, an opening portion 12 on a front surface of the helmet body 11 can be closed with the shield 13, as well as the opening portion 12 can be opened by rotating the shield 13 with regard to the helmet body 11 from a state of the opening portion 12 closed with the shield 13. In the meantime, one opening/closing device 1 is provided only on the left side end portion, but such an opening/closing device may be provided also on the right side end portion, and still further, similar opening/closing devices may be also provided on both side end portions.
An opening/closing device 1 openably/closably supports a left side end portion of a shield 13 with regard to a helmet body 11, and includes a friction torque generation means 3 provided between the helmet body 11 apart from a guide member 2 and the shield 13. The guide member 2 is formed in a cylindrical shape, which comprises a rotation portion 2a as a small diameter portion and a large diameter portion 2b, so that an outer surface as a whole has two steps. An inner circumference of the rotation portion 2a is formed in a diameter substantially identical to a diameter of an outer circumference of a bearing portion of a cover portion 25. An outer circumference of the rotation portion 2a is formed in a circular shape. An inner circumference of the large diameter portion 2b is formed in a diameter substantially identical to a diameter of an outer circumference of a flange portion 14b of an attaching base 14, with which the guide member 2 is fitted. Further an attaching screw 26 is screwed to the cover portion 25 being fitted to the guide member 2. Still further, a straight portion 2c cut in a shape of a straight line is provided on an outer circumference of the large diameter portion 2b of the guide member 2 on a side of the friction torque generation means 3. The friction torque generation means 3 is provided on an outer circumference of the straight portion 2c.
A friction torque generation means 3 is equipped, especially as shown in
An attaching member 4 is fittedly attached to a fitting hole 17 of a shield 13. The attaching member 4 is so formed that it can be fitted into a fitting hole 17 of a shield 13, and in other words, the member comprises a rotation supporting portion 41 and an attaching portion 42 protruding from an outer circumference of the rotation supporting portion 41 in a fan-like shape. In other words, the attaching member 4 is so formed that it can integrally move together with the shield 13. The rotation supporting portion 41 is formed with an outer diameter in such a size that the rotation supporting portion 41 is fitted into a circular portion 17a of the fitting hole 17, as well as with an inner diameter in a size slightly larger than an outer diameter of a rotation portion 2a, so that the rotation supporting portion 41 is rotatably attached to an outer circumference of a rotation portion 2a of a guide member 2. In the meantime, the rotation supporting portion 41 can be also integrated with the rotation portion 2a of the guide member 2, by caulking the rotation portion 2a of the guide member 2. After the attaching member 4 is fittedly attached into the fitting hole 17 of the shield 13, the rotation portion 2a of the guide member 2 is inserted into the rotation supporting portion 41 of the attaching member 4 of the shield 13, so that the shield 13 is rotatably supported with regard to a helmet body 11.
An attaching portion 42 is fitted into a sector portion 17b of a fitting hole 17, as well as so formed that a radial length of the attaching portion 42 is slightly shorter than that between points opposing to engaging means 15. Moreover, both end portions of the attaching portion 42 are bent substantially at right angle toward a helmet body 11, so that the portions are formed as fitting attaching pieces 42a being in surface contact or the like condition with both end portions of the sector portion 17b of the fitting hole 17. A through hole 43 in a circular shape for example is provided substantially on a central portion in an arc direction of the attaching portion 42. A torque pin 7 is inserted into the through hole 43. The torque pin 7 is, for example, a torque pin 71 with a head portion having a diameter larger than the through hole 43, and the like.
A torque pin 71 is inserted in a direction of a helmet body 11 and thus installed into a through hole 43 of an attaching portion 42. A portion of the torque pin 71 opposing to the through hole 43 is formed as a circular portion 71a in a circular shape, while a portion from the circular portion 71a to a tip is formed as a non-circular portion 71b in a substantially oval shape (a substantially elliptical shape) which is formed by cutting off two opposing portions of a circle which are substantially in parallel. A rotation member 5 is attached to the non-circular portion 71b of the torque pin 71.
On a rotation member 5, a non-circular through hole 53 in an oval shape (a substantially elliptical shape) is provided, into which a non-circular portion 71b of a torque pin 71 is fittedly inserted. The non-circular portion 71b of the torque pin 71 is fittedly inserted into the non-circular through hole 53, and the rotation member 5 is attached, for example by caulking a tip of the torque pin 71 passing through and protruding from the rotation member 5, to the torque pin 71 so as to be rotatable together with the torque pin 71 and movable in an axial direction of the torque pin 71. An engagement concave portion 51 engaged with an engagement means 15 of a helmet body 11 is provided on the rotation member 5, as shown in
It is preferable that the shield 13 is provided a rotation range restriction means 9 for restricting a rotation range of the shield 13. The rotation range restriction means 9 is not particularly limited, and it is also possible that it comprises a shield seat portion 16 provided on a helmet body 11, and a rotation member 5 and a fitting attaching piece 42a abutting against each other in the opened state. Needless to say, it is also possible that the rotation range restriction means 9 comprises other members and the like. Moreover, the rotation member 5 is configured so as to rotate together with a torque pin 71 in a direction different from a direction of the shield 13, when the shield 13 is rotated around an axis of a guide member 2 of the helmet body 11, but it is also possible that the rotation member 5 is rotatably supported on the torque pin 71 being fixed to an attaching member 4, so that the rotation member 5 rotates together with a torque pin 71 in a direction different from a direction of the shield 13, when the shield 13 is rotated around an axis of a guide member 2 of the helmet body 11. An elastic member 6 is provided for generating a friction torque between the rotation member 5 and the attaching member 4, so that a state of the shield 13 stopping at any position with regard to the helmet body 11 is retained.
An elastic member 6 may be of any configuration, as long as it can generate a friction torque between a rotation member 5 and a attaching portion 42, so that a state of the shield 13 stopping at any position with regard to the helmet body 11 can be retained, and a position for arrangement of the elastic member 6 is not particularly limited. The elastic member 6 is not particularly limited, and may be a leaf spring, a compression spring, and the like, but is preferably a spring washer 61 and the like. The spring washer 61 is provided, for example, around an axis of a torque pin 71 between the rotation member 5 and the attaching portion 42. When the spring washer 61 is thus installed, a friction washer 8 being a torque generation member is provided around an axis of the torque pin 71 between the spring washer 61 and the attaching portion 42. A through hole of the friction washer 8 is formed as a non-circular through hole 8a in an oval shape (a substantially elliptical shape), to which a non-circular portion 71b of the torque pin 71 is fittedly inserted. In other words, the friction washer 8 is attached to the torque pin 71 so as to rotate together with the torque pin 71 and be movable in an axial direction of the torque pin 71, as well as so configured that the friction washer 8 is pushed via an urging force of the spring washer 61 toward the attaching portion 42. In the meantime, the spring washer 61 is arranged between the rotation member 5 and the attaching portion 42, but arrangement of the washer is not limited thereto, the washer can also be arranged on a side of a tip of the torque pin 71 protruding from the rotation member 5, so that a friction torque is generated between the rotation member 5 and the attaching portion 42 by pushing the rotation member 5 toward the attaching portion 42.
In the following, a function of the opening/closing device 1 of the shield for helmet and the helmet 10 according to the present invention is described. Description is herein omitted concerning the opening/closing device 30 of the shield 13, since there are not any particular characteristics. The opening/closing device 30 works together with the opening/closing device 1 of the shield for helmet, so that the opening/closing operation of the shield 13 takes place. In the closed state wherein the shield 13 is closed, the lower end portion of the shield 13 seats on the shield seating portion 16 of the helmet body 11, so that the opening portion 12 is closed with the shield 13 (see
In order to open the opening portion 12 of the helmet 10, the shield 13 is lifted upward against the friction torque generated due to the urging force of the spring washer 61 with securing the helmet body 11, for example, putting user's fingers on the shield operating piece 13a, or grasping the piece with the fingers. In this manner, the front surface of the shield 13 moves upward while the shield 13 as a whole is rotated around the guide member 2 being an axis, so that the opening portion 12 is gradually opened from downward. Thereafter, when the movement of the shield 13 is brought to stop where the shield 13 reaches to the intermediate state at a position intermediate between the opened state and the closed state, the shield 13 is held at a state wherein it stops at the state. In other words, when the shield 13 is forced to move upward from the closed state, the left side end portion of the shield 13 is for example rotated toward the right (clockwise) around the guide member 2 being an axis, and the rotation member 5, accompanied by the rotation, is rotated together with the torque pin 71 toward the left with regard to the attaching portion 42 of the attaching member 4. The rotation of the rotation member 5 is accomplished against the urging force of the spring washer 61, so that once the rotation of the shield 13 is brought to stop, the shield 13 is held at a state wherein it stops at the intermediate state, since the friction washer 8 is pushed by the urging force of the spring washer 61 against the attaching portion 42 of the attaching member 4 and thus the friction torque is generated between the attaching member 4 and the rotation member 5. Therefore, the shield 13 can be brought using free stop function to stop at any position with regard to the helmet body 11.
In the meantime, a configuration of the friction torque generation means as well as type and number of the friction washer and the elastic member are not limited to those in the present embodiment, and the location where the friction torque is generated is not limited to that in the present embodiment. Moreover, it is also possible that a suction function is exercised at opening and closing of the shield with regard to the helmet body using a cam and the like.
When the shield 13 is further lifted upward in order to reach to the opened state where the opening portion 12 is fully opened, the rotation member 5 abuts on the fitting attaching piece 42a of the attaching member 4, so that the rotation of the shield 13 is brought to stop. In this state the friction washer 8 is pushed toward the attaching portion 42 of the attaching member 4 by the urging force of the spring washer 61 and the friction torque is thus generated between the attaching member 4 and the rotation member 5, so that the shield 13 is held at the opened state, wherein the opening portion 12 is exposed. In the meantime, a locking mechanism may also be provided for more securely retaining the above-described opened state.
Next, in order to bring back from the opened state, wherein the opening portion 12 is fully opened, to the closed state, the shield 13 is shifted downward against the friction torque generated due to the urging force of the spring washer 61 with securing the helmet body 11, for example, putting user's fingers on the shield operating piece 13a, or grasping the piece with the fingers. In this manner, the front surface of the shield 13 moves downward while the shield 13 as a whole is rotated around the guide member 2 being an axis, so that the opening portion 12 is gradually shifted downward. Thereafter, when the opening portion 12 is entirely covered with the shield 13, the lower end portion of the shield 13 seats at the shield seating portion 16, and the rotation of the shield 13 stops and is held at the state of stopping.
As described in the foregoing, the friction torque generation means 3 is provided as a member separate from the shield 13 at a position distanced from the guide member 2 so as to generate a friction torque which brings the shield 13 to stop. Accordingly, even though the friction torque generated between the attaching member 4 and the rotation member 5 both being components of the friction torque generation means 3 is small, a rotation torque generated in rotating the shield 13 with regard to the helmet body 11 around the guide member 2 being an axis is great, so that the friction torque generation means 3, even though of a small size, can securely retain the state of stopping of the shield 13 with regard to the helmet body 11 at any position. In other words, the friction torque generation means 3 can bring the shield 13 to stop at any position using a free stop function. The friction torque generation means 3 is of a small size as above described, so that it is well applicable also to the helmet 10, which can only assure a small space for this purpose.
Next, a guide long hole 88 in an arc shape is provided on an attaching portion 84a of an attaching member 84 which is fittedly inserted into a fitting hole 17 provided on a shield 13, so that the attaching member 84, accompanied by an opening/closing operation, rotates together with a guide member 87, with a bearing portion 82a of a cover portion 82 being a rotation center. The guide member 87 is pivotally supported on the bearing portion 82a of the cover portion 82 so as to be rotatable. The attaching member 84 and the guide member 87 may be so configured, either that each rotates accompanied by the other, or that each rotates independently of the other. Moreover, a configuration with the guide member 87 facilitates a smooth rotation operation of the attaching member 84, but a configuration without the guide member 87 is also conceivable. A fixing arm 85 comprises an attaching hole 85b provided on a base portion 85a, and a flange portion 81b of an attaching base 81 is inserted into the attaching hole 85b. The fixing arm 85 is thus non-rotatably fixed to a helmet body 11 by engaging an engagement concave portion 85d provided on a tip of a fixing portion 85c protruding from the base portion 85a with an engagement member 91 protruding from the helmet body 11.
In the meantime, while in a configuration of the above-described embodiment 1, a friction torque generation means 3 generates a friction torque by rotating a rotation member 5 around an axis of a torque pin 71, in the configuration as shown in
Also in case that the opening/closing device 80 is configured as above described, an operation and effect substantially identical to those in the previous embodiment 1 are achieved although the friction torque generated is constant, since the friction torque generation means 86 is provided at a position distanced from the attaching member 84 being the rotation center of the shield 13. In other words, even though the friction torque generated between the attaching member 84 and the fixing arm is small, the torque can be adjusted to the rotation torque generated in opening/closing the shield 13 with regard to the helmet body 11, so that the opening/closing device 80, even if of small size, can securely retain the state of stopping of the shield 13 with regard to the helmet body 11 at any position.
Furthermore, in case of the foregoing embodiments, a click stop means can be provided for bringing a shield 13 into a click stop during opening/closing operation. The click stop means is not particularly limited, and, for example, in case of an opening/closing device according to embodiment 1, the click stop means can be configured by restricting a rotation of the friction washer by the torque pin and providing a concave portion and a convex portion on a position of press contact with the rotation member, in such a manner that the both portions oppose each other. In case of an opening/closing device according to embodiment 2, the click stop means can be configured by providing a concave portion and a convex portion on a surface of press contact between the guide long hole 88 and the friction washer 94, in such a manner that the both portions oppose each other. When configured in this manner, the click stop means realizes a release from fitting between the concave portion and the convex portion according to an opening/closing angle of the shield 13 with regard to the helmet body 11, so that a click stop accompanied by a click feeling takes place.
<Configuration of Helmet>
A helmet 100 according to the present invention comprises a shield (opening/closing member) 103 openably/closably attached via an opening/closing device 1A to a helmet body (opened/closed member) 101. The helmet 100 is not particularly limited, as long as the shield 103 is openably/closably attached, and includes a so-called “full-face type”, wherein a mouth portion and a jaw portion are covered, a so-called “jet type”, wherein a mouth portion and a jaw portion are exposed, and the like. In the following description is made based on “full-face type” among these types, but what is described is also applicable to the “jet type” helmet and the like.
A shield 103 is rotatably supported by an opening/closing device 1A on a right side surface (a left side surface as seen from a wearer of a helmet). On the other hand, the shield 103 is also rotatably supported by an opening/closing device 1A different in configuration from the opening/closing device 1 on a left side surface (a right side surface as seen from a wearer of a helmet). This embodiment 2 provided the opening/closing device 30 showing in the embodiment 1.
An opening portion 102 is formed on a front surface of a helmet body 101 for assuring a vision of a wearer, and a shield 103 is so installed that it covers the opening portion 102 so as to be openable/closable via an opening/closing device 1A. When the shield 103 is shifted downward, the opening portion 102 is covered, and when the shield 103 is lifted upward, the opening portion 102 is exposed. The helmet body 101 is, for example, made up of a laminate of a plurality of highly durable synthetic resin materials, shock absorbing materials and the like. Moreover, the shield 103 is, for example, made up of polycarbonate materials and the like, of high strength and durability. Further as is necessary, it is preferable that the shield 103 is subjected to treatment for blocking ultraviolet (UV protection) and preventing scratch, still further for giving polarization properties and the like.
As shown in
<Configuration of Opening/Closing Device>
An opening/closing device 1A comprises a rotation member 115 in a plate shape having substantially a shape of a keyhole, an attaching member 116 for rotatably attaching the rotation member 115 to a helmet body 101 and a friction torque generation means FC1 provided at a position distanced from a rotation fulcrum of the rotation member 115, in particular as shown in
A friction torque generation means FC1 comprises, especially as shown in
On the other hand, a shield 103 is equipped with a fitting hole 107 in a shape of a keyhole integrally made up of a circular fitting hole 107A and a fan-like fitting hole 107B. A shape of the fitting hole 107 exactly corresponds to a plan shape of a rotation member 115 (see
As described above, a rotation member 115 is freely rotatable with regard to a helmet body 101, so that a shield 103 as well, which is integrally formed with the rotation member 115 by fitting with a fitting hole 107 of the shield 103, can rotate with regard to the helmet body 101.
Next, a columnar fixing pin 105 is attached at a position closer to an opening portion 102 than an attaching base 104 attached to a helmet body 101. A means for firmly attaching the fixing pin 105 to the helmet body 101 is by pressing into an attaching hole on the helmet body 101, screwing into a female thread portion and the like. When a rotation member 115 is attached via an attaching member 116 to the helmet body 101, the fixing pin 105 is fitted with an attaching hole 114A formed on one end portion of an arm member 114, and a pivotally supporting hole 114E formed on other end portion is pivotally supported on the attaching member 116.
As shown in
As shown in
An arm member 114 is an element inserted from an arm insertion opening 115D formed on a side surface of a rotation member 115 over an arm insertion portion 115F into the rotation member 115. The arm member 114 is a plate-like element having a thick portion 114B with one end portion being thicker than the remaining area. An attaching hole 114A which receives an insertion of a fixing pin 105 erected on a helmet body 101 is formed on the thick portion 114B. A circular portion 114D with a pivotally supporting hole 114E is formed on other end portion of the thick portion 114B, and the circular portion 114D is coupled via a coupling portion 114C to the thick portion 114B.
A circular portion 114D is inserted from an arm insertion opening 115D and pivotally supported via a pivotally supporting hole 114E on an attaching member 116.
A through hole 114F of a small diameter is formed on a coupling portion 114C. A key portion 114G serving as a “key” for key coupling is formed on an inner circumferential surface of the through hole 114F along a pass-through direction. A torque pin 112 made up of an attaching pin 112A and fittedly attached around the attaching pin 112A is pressed into the through hole 114F. Moreover, a cylindrical portion 112B is molded for example from a material of excellent friction properties such as POM (polyacetal resin). In the meantime, the cylindrical portion 112B has a hollow structure and a key groove 112D is formed along an axial direction. The key groove 112D is fitted with the key portion 114G formed on the through hole 114F of an arm member 114, and is so fixed that the cylindrical portion 112B would not rotate together with regard to the attaching pin 112A.
Moreover, a diameter of a torque pin 112 is slightly larger than a width of guide grooves 115E and 115G. As a result, the torque pin 112 is in pressure contact with the guide grooves 115E and 115G on their respective both side surfaces. In other words, a friction can be generated in respect to the torque pin 112 on the both side surfaces of the guide grooves 115E and 115G. Due to a presence of the friction generated between the guide grooves 115E and 115G and the torque pin 112, a corresponding torque is necessary in order to rotate a rotation member 115. In the meantime, the torque pin 112 can also be so configured that it is in pressure contact with the guide grooves 115E and 115G on one side surface.
In the meantime, an amount of friction may be adjusted by modifying a material and diameter of a torque pin 112 and a cylindrical portion 112B and further a width and material of guide grooves 115E and 115G as appropriate. Moreover, the torque pin 112 is made up of separate elements which are an attaching pin 112A and a cylindrical portion 112B being elements separate from each other, but the torque pin 112 can be also integrally made up of a single element. Furthermore, it can be integrally made up of a single element together with an arm member 114.
Still further, a range of rotation of a rotation member 115 with regard to an attaching member 116 can also be restricted to a certain range by a shape (width) of an arm insertion opening 115D and guide grooves 115E and 115G, so that such arrangement provides a stopper function as a stopper means to the range of rotation. In other words, in the present embodiment, the range of rotation as restricted above can be as is a range of rotation of a shield 103 with regard to a helmet body 101. Needless to say, the arrangement is not limited to the above, and as described below, a rotation restriction mechanism of some kind can be also separately provided, either between the helmet body 101 and the rotation member 115 or on a side of a shield 103.
<Operation of Helmet and Opening/Closing Device>
Next, referring to
In the state where the shield 103 is closed, the shield 103 entirely covers the opening portion of the helmet body 101. Moreover, the torque pin 112 is located on the uppermost portion (upward in
As shown in
When the shield 103 is in the fully-opened state, the thick portion 114B of the arm member 114 abuts on the lower end portion 107D of the fitting hole 107B in the fan-like shape. When focused on the torque pin 112 from a different point of view, the torque pin 112 is located at the lowermost portion of the guide grooves 115E and 115G.
Since the rotation member 115 as above described is fitted with the side of the shield 103 so that both elements form a single element in the present embodiment, the rotation member 115 rotates, accompanied by the opening/closing operation of the shield 103. On the other hand, the arm member 114 does not rotate. In other words, a relative rotation of the rotation member 115 and the arm member 114 is realized by the opening/closing operation of the shield 103, but when a rotation movement is perceived with a center of the helmet body 101, it appears that only the rotation member 115 rotates, and by no means does the arm member 114.
Moreover, the torque pin 112 is always pressed into the guide grooves 115E and 115G in all of the closed state where the shield 103 is closed, the intermediate opened state and the fully-opened state. Still further, due to the pressed insertion as above described, a friction force is generated between the both of the torque pin 112 and the guide grooves 115E and 115G, when one desires to shift (slide) the torque pin 112 with regard to the guide grooves 115E and 115G. In other words, due to a presence of the friction force, a force for retaining the shield 103 at the position with regard to the helmet body 101 (rotation resistance) is generated. Concretely in the closed state of the shield 103 a force works for retaining the closed state in case that one desires to open the shield 103, and in the intermediate state of the shield 103 a force works for keeping the position in the intermediate state in case that one desires to shift the shield 103, and further in the opened state of the shield 103 a force works for retaining the opened state in case that one desires to close the shield 103. In the meantime, in order to more securely retain the opened state and the closed state of the shield 103, a locking mechanism may be also separately provided.
In order to expose the opening portion 102 of the helmet 100, the shield 103 is lifted upward against the friction torque of the friction torque generation means FC1, for example by putting fingers on the shield 103 or grasping the shield 103 with the fingers, while the helmet 101 is fixed (for example installed on the head). By this action, the shield 103 rotates around the attaching member 116 (in other words, around the rotation center O being a center of the through hole 115A formed on the rotation member 115), so that the opening portion 102 is gradually exposed, then realizing the fully-opened state, wherein the opening portion 102 is exposed. Further, when a shift of the shield 103 is arrested, the shield 103 is retained in a state of stopping at the position. The retaining action functions in any of the intermediate opened states in the same manner. In other words, a state where the shield 103 is retained at any opened position, so-called “free stop state” can be realized.
Furthermore, when the shield 103 is in the fully-opened state with regard to the helmet body 101, the torque pin 112 is located on the lowermost portion of the guide grooves 115E and 115G. At this time, it is also possible that the arm member 114 allows its thick portion 114B to function as a stopper means and determine the fully-opened position of the shield 103 by bringing the thick portion 114B to abut on a side of the lower end portion 107D of the fitting hole 107B in the fan-like shape. However, in an another embodiment, the stopper means may constructed by bringing the upper end portion of the shield 103 to abut on the helmet body 101, and still further by bringing either a portion between the arm member 114 and the arm insertion opening 115D or the torque pin 112 to abut on the side of the lower end portion of the guide grooves 115E and 115G, in the above-described manner.
On the other hand, in order to close the shield 103, it can be closed for example by grasping the shield 103 with the fingers, on the contrary to what is described above. When the closing operation stops, the shield 103 stops at the same time, and the shield 103 is retained at the position in any of the intermediate states (the intermediate positions) during the closing step.
As described above, an opening/closing device 1A according to embodiment 3 being an example of embodiments of the present invention supports a shield 103 so that the shield 103 is openable/closable with regard to a helmet body 101 and is equipped with a rotation member 115 fixed to the side of the shield 103, an arm member 114 rotating with regard to the rotation member 115, accompanied by the opening/closing operation of the shield 103, and a friction torque generation means FC1 for generating a predetermined friction torque, accompanied by the opening/closing operation of the shield 103. The friction torque generation means FC1 has guide grooves 115E and 115G in an arc shape, both formed on the rotation member 115, and a torque pin 112 fitted into the guide grooves 115E and 115G, and adopts a configuration in which the friction torque generation means FC1 slides under press contact with the torque pin 112 on both side surfaces of the guide grooves 115E and 115G, thus generating a friction torque. By adopting such a configuration, a compact friction torque generation means FC1 can generate a large friction torque. In other words, it can assure a large area for generation of friction by bringing the torque pin 112 into press contact at least with both side surfaces of the guide grooves 115E and 115G thus formed, so that the friction torque generation means FC1 can achieve a sufficient rotation resistance, and thus enables to securely retain the shield 103 at any position. In particular, since the guide groove 115E is formed on the rotation member 115 (which is configured as an element separate from the shield 103), a material producing a high friction coefficient with regard to the torque pin 112 can be freely selected, thus enabling a generation of a larger rotation resistance.
In the meantime, it is also possible that an outer circumferential surface of a thick portion 114B of an arm member 114 is so configured that the surface is intentionally caused to abut on an inner side of a fitting hole 107B in a fan-like shape, and in this manner advantage is taken of a friction generated from sliding of the positions for abutting.
In the meantime, the shape of guide grooves 115E and 115G is defined as being literally “arc”, but it is also possible that a click stop means made up of convex portions and concave portions formed at an interval of a predetermined angle on the basis of an arc shape is so provided that the shield 103 undergo a click movement.
Moreover, when a configuration is adopted, wherein one opening/closing device 1A equipped with a friction torque generation means FC1 is respectively provided on each of both side surfaces of the helmet body 101, a combination of the two opening/closing devices 1A can generate a still larger rotation resistance, so that a shield 103 can be more securely retained at a desired opening/closing position, and each single opening/closing device 1A can be configured so as to be more compact.
In the present embodiment 4, a friction torque generation means FC2 adopts a configuration in which a torque pin 155 attached to a helmet body 151 is directly pressed into a guide groove 152E formed on a rotation member 152 being a component of an opening/closing device 150. In other words, a fixing pin 105 and an arm member 114 are cancelled, so that number of component parts can be reduced in seeking for a more compact configuration and a further cost saving. In the meantime, it can be selected at discretion to make up a torque pin 155 of two components in the same manner with a torque pin 112 according to embodiment 3. In addition, element names in relation to other reference numerals shown in
Thus, a reference numeral 152A denotes a through hole, 152B a circular erected portion and 152C a fan-like erected portion; further a reference numeral 153 denotes a shield, 154 an attaching base, 154A a female thread portion and 154B a flange portion. Still further, a reference numeral 151 denotes a helmet body, 157 a washer, 158 a fitting hole, 158A a circular fitting hole and 158A a fan-like fitting hole. Moreover, a reference numeral 156 denotes an attaching member, 156A a male thread portion and 156A a seating portion. Element names identical to those in embodiment 3 have all identical configurations and functions.
As is clear from the foregoing description, an opening/closing device according to the present invention can be also used for purposes other than an opening/closing device of a shield for helmet. It can be used for example as an opening/closing device of a small-sized portable equipment such as a portable phone, a PDA, a notebook PC for opening/closing a first casing provided with an operation portion and serving as opened/closed member and a second casing provided with a display device and serving as opening/closing member.
In this case, a rotation member is attached to a first casing so as to be rotatable via an attaching member, and so configured that it rotates together with a second casing; further a friction torque generation means according to embodiments 2 and 3 is provided between the rotation member and the first casing.
As described in detail in the foregoing, the present invention is described in general in reference to an opening/closing device of a helmet, wherein an opened/closed member is a helmet body of the helmet used in driving automobile and motorcycle and the like, and an opening/closing member is a shield. However, the present invention can be also widely applied to various helmets such as a helmet for bicycle and the one used in a construction site and the like, and further to an opening/closing device of an information terminal such as a portable phone and a PDA.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2008-133240 | May 2008 | JP | national |
| 2008-265725 | Oct 2008 | JP | national |
| Number | Name | Date | Kind |
|---|---|---|---|
| 5062162 | Kamata | Nov 1991 | A |
| 5185889 | Kamata | Feb 1993 | A |
| 5461731 | Shida | Oct 1995 | A |
| 5901369 | Pilney | May 1999 | A |
| 6260213 | Eom et al. | Jul 2001 | B1 |
| 6301721 | Arai | Oct 2001 | B1 |
| 6654969 | Taniuchi | Dec 2003 | B2 |
| 6711753 | Arai | Mar 2004 | B2 |
| 6732380 | Lee | May 2004 | B1 |
| 6851129 | Gafforio et al. | Feb 2005 | B2 |
| 7065798 | Kuo | Jun 2006 | B2 |
| 7181777 | Choi et al. | Feb 2007 | B2 |
| 7210174 | Yeh | May 2007 | B2 |
| 7398561 | Kim et al. | Jul 2008 | B2 |
| Number | Date | Country |
|---|---|---|
| 2541873 | Apr 1997 | JP |
| Number | Date | Country | |
|---|---|---|---|
| 20090288242 A1 | Nov 2009 | US |
