This application is based upon and claims the benefit of priority from the prior Japanese Patent Application No. 2009-006273, filed on Jan. 15, 2009, the entire contents of which are incorporated herein by reference.
1. Field of the Invention
The present invention relates to an electric shaver.
2. Description of the Related Art
Japanese Patent Application Laid-Open Publication No. Hei 6-343776 discloses an electric shaver in which a head part having elongated shaving portions is attached to a tip portion of an approximately rod-shaped body part swingably about two swing axes mutually orthogonal to each other. Each of the two swing axes is approximately orthogonal to a projecting direction of the head part. In addition, one of the two swing axes is parallel with a longitudinal direction of the shaving portions, and the other is orthogonal to the longitudinal direction.
In this electric shaver, the two swing axes are located close to each other. Thus, the head part easily swings about the swing axis orthogonal to the longitudinal direction of the shaving portions due to a long moment arm, but has a difficulty in swinging about the swing axis parallel with the longitudinal direction of the shaving portions due to a short moment arm. Because of such swing characteristics of the head part, it is difficult to exert a good following performance of the head part to follow an uneven shaving area, such as the cheeks, chin, or neck. Thereby, the shaving performance may possibly be low.
An object of the present invention is thus to provide an electric shaver including a head part capable of exerting a higher following performance on an uneven shaving area.
An aspect of the present invention is an electric shaver comprising: a rod-shaped body part; a head part projecting from one end portion, in a longitudinal direction, of the body part and swingably attached to the body part, the head part including a shaving portion and a drive mechanism, the shaving portion formed to be elongated in a direction orthogonal to a projecting direction of the head part and having paired blades configured to operate relative to each other, the drive mechanism configured to drive at least one of the paired blades; and an interposer configured to support the head part swingably about a first swing axis parallel with a longitudinal direction of the shaving portion, and to be supported on the body part swingably about a second swing axis orthogonal to the projecting direction of the head part and orthogonal to the first swing axis, wherein the second swing axis is located farther away from a tip portion, in the projecting direction, of a contact surface of the shaving portion to be brought into contact with a shaving area, than the first swing axis is.
According to the aspect, the second swing axis is located farther away from the tip portion, in the projecting direction, of the contact surface of the shaving portion, than the first swing axis is, the contact surface being to be brought into contact with the shaving area. Thus, when the head part swings about the second swing axis, the contact surface moves (slides) a longer distance along the shaving area, which increases the swing resistance. Specifically, when the head part swings about the second swing axis, the swing torque becomes larger as the moment arm becomes longer; however, the swing load torque can be increased by the slide resistance, thereby preventing the head part from swinging easily only about the second swing axis. Consequently, an improved following performance of the head part on the shaving area can be exerted.
The electric shaver may further comprise: a first link mechanism including two first link arms each connected to the interposer and the head part respectively at first connecting axes parallel with the longitudinal direction of the shaving portion, the first link mechanism configured to support the head part on the interposer swingably about the first swing axis; and a second link mechanism including two second link arms each connected to the body part and the interposer respectively at second connecting axes orthogonal to the projecting direction of the head part and orthogonal to the first swing axis, the second link mechanism configured to support the interposer on the body part swingably about the second swing axis. Here, a distance between the first connecting axes for connection of the two first link arms to the interposer may be shorter than a distance between the first connecting axes for connection of the two first link arms to the head part. A distance between the second connecting axes for connection of the two second link arms to the body part may be shorter than a distance between the second connecting axes for connection of the two second link arms to the interposer. An intersection of a first straight line with a second straight line may be located closer to an opposite end portion, in the longitudinal direction, of the body part, than an intersection of a third straight line with a fourth straight line is, the first straight line joining the second connecting axes for one of the two second link arms, the second straight line joining the second connecting axes for the other second link arm, the third straight line joining the first connecting axes for one of the two first link arms, the fourth straight line joining the first connecting axes for the other first link arm.
According to this configuration, for example, with certain arrangement of the first link arms and the second link arms, it is possible to obtain, in a relatively simple manner, a configuration which allows the head part to swing about the first and second swing axes by the first and second link mechanisms, and which also increases the swing (slide) resistance of the head part generated when the head part swings about the second swing axis.
Two of first link mechanisms may be provided and separated from each other in the longitudinal direction of the shaving portion. A shaft configured to rotatably support the head part may be bridged between a first link arm of one of the two first link mechanisms and a first link arm of the other first link mechanism. Two longitudinal end portions of the shaft may be fixed to the corresponding first link arms of the respective two first link mechanisms. A longitudinal center portion of the shaft may be fixed to the head part.
According to this configuration, when the head part swings about the first swing axis, the shaft twists and thus generates a reactive force (torque) against the swing. Hence, it is possible to obtain swing load torque with a relatively simple configuration.
Two of first link mechanisms may be provided and separated from each other in the longitudinal direction of the shaving portion. The two first link mechanisms may be provided independently of each other. Each pair of the first connecting axes corresponding between the two first link mechanisms may be concentrically arranged.
According to this configuration, it is possible to form a simple configuration, as compared to a case where two first link mechanisms are formed integratedly.
The first link mechanism may include a first support arm configured to rotatably support the two first link arms. The first support arm may include an attachment having a flat portion intersecting with an imaginary plane orthogonal to the first swing axis. The attachment may be fixed to the interposer with the flat portion placed against the interposer.
According to this configuration, the portions where the flat portions abut against the interposer receive a force caused by a swing of the head part and acting on the attachment portions of the first support arms. Consequently, misalignment of the first support arms from the interposer due to the swing of the head part is suppressed, and thus the support stiffness of the interposer for the first support arms is easily secured.
The second link mechanism may include a base and paired second support arms projecting respectively from two sides, in a direction of the second swing axis, of the base. Each of the two second link arms may be bridged rotatably between the paired second support arms.
According to this configuration, the second link mechanism is formed spatially, which helps to increase the stiffness and strength thereof.
Each of the two second link arms may be bridged in a U shape between the paired second support arms. The interposer may be attached to a bottom portion of the U shape of each of the two second link arms.
According to this configuration, it is possible to obtain a configuration which is relatively simple but still allows the two second link arms to be connected to the interposer concentrically and rotatably.
The electric shaver may further comprise an elastic member configured to apply a reactive force against a swing of the interposer with respect to the body part. Here, the elastic member may be bridged between the body part and the interposer from one side to another side in the direction of the second swing axis.
According to this configuration, it is possible to secure a necessary reactive force against swing about the second swing axis, and thus to further prevent the head part from swinging easily only about the second swing axis. In addition, a sufficient length of the elastic member can be secured easily, which in turn allows a high flexibility in setting the level of the reactive force against swing.
The electric shaver may further comprise: a first biasing mechanism configured to apply a reactive force against a swing of the head part with respect to the interposer; and a second biasing mechanism configured to apply a reactive force against a swing of the interposer with respect to the body part. Here, torque obtained by the reactive force from the second biasing mechanism may be larger than torque obtained by the reactive force from the first biasing mechanism.
According to this configuration, it is possible to further prevent the head part from swinging easily only about the second swing axis Ax. Consequently, a further improved following performance of the head part on a shaving area can be exerted.
Hereinbelow, an embodiment of the present invention will be described in detail with reference to the drawings. Note that similar components are included in the following embodiment and its modifications, and therefore will be denoted below by common reference characters and duplicate description thereof will be omitted. In addition, in the following, an X direction, a Y direction, and a Z direction in the drawings will be referred to a front-to-rear direction, a right-to-left direction, and a top-to-bottom direction, respectively, for convenience of explanation.
As shown in
In this embodiment, as shown in
As shown in
The head part 3 includes a head case 3b (
As shown in
In this embodiment, as shown in
The head part 3 is supported by the interposer 8 with first link mechanisms 9 therebetween. As shown in
As shown in
Thus, in this embodiment, as shown in
As shown in
In each of the first link mechanisms 9 according to this embodiment, the distance D11 is set shorter than the distance D12 as mentioned above. If they were set equal to each other, the first link mechanism would be parallelogram, which permits only parallel movement of the contact surfaces 4c of the head part 3 and thus makes it impossible to obtain a swing action. Meanwhile, if the distance D11 were set longer than the distance D12, the first swing axis Ay would get away from the contact surfaces 4c. This causes the contact surfaces 4c to slide on a shaving area when the head part 3 swings, which increases the swing resistance. That is to say, in this embodiment, by setting the distance D11 shorter than the distance D12, a smoother swing action about the first swing axis Ay is obtained.
In this embodiment, as shown in
In this embodiment, as shown in
The interposer 8 is supported by the body part 2 with a second link mechanism 11 therebetween. As shown in
The second link arms 11c are each formed in an approximately U-shape when viewed in the Y direction. Portions of each second link arm 11c on the opening side of the U shape are rotatably supported by the second support arms 11b, respectively, whereas the interposer 8 is rotatably attached to a bottom portion 11d of the U shape. In this embodiment, the bottom portion 11d in an approximately cylindrical shape is bridged between a pair of side portions 11e of each second link arm 11c so as to be rotatable about the axis thereof. Also, the bottom portion lid is fitted and thus attached to a receiver 8a formed as an approximately-cylindrical concave portion in a bottom portion of the interposer 8, by bringing the bottom portion 11d closer to the receiver 8a from the other Z-direction side (the near side of
Thus, in this embodiment, as shown in
As shown in
In other words, in this embodiment, the second swing axis Ax (the intersection I2) is located away from the tip portion S, in the projecting direction (the Z direction), of the contact surface 4c of each shaving portion 4, the contact surface 4c being to be brought into contact with a shaving area. Thus, swinging the head part 3 about the second swing axis Ax causes the contact surfaces 4c to move (slide) along the shaving area, hence generating swing resistance.
Here, in the electric shaver 1 having the shaving portions 4 elongated in the Y direction as described in this embodiment, a moment arm Amx (
Meanwhile, in this embodiment, as described above, the second swing axis Ax (the intersection I2) is located farther away from the contact surface 4c of each shaving portion 4, than the first swing axis Ay (the intersection I1) is, the contact surface 4c being to be brought into contact with the shaving area. Thus, sliding between the contact surfaces 4c and the shaving area due to swinging of the head part 3 increases the swing (slide) resistance of the head part 3 in swing about the second swing axis Ax, thereby preventing the head part 3 from swinging easily only about the second swing axis Ax. Consequently, an improved following performance of the head part 3 on the shaving area can be exerted.
Moreover, in this embodiment, as shown in
In this embodiment, the coil spring 12 as the second biasing mechanism is attached between the base 11a and the interposer 8. It is therefore possible to obtain the state where the second biasing mechanism is interposed between the body part 2 and the interposer 8 by attaching the coil spring 12 at the time of assembling the second link mechanism 11 and the interposer 8 together, and then by fixing the assembly (of the base 11a of the second link mechanism 11) to the body part 2. Such a configuration can reduce the amount of work required for the attachment, as compared with the case of directly installing the second biasing mechanism between the body part 2 and the interposer 8.
In this embodiment, as shown in
As has been described above, in this embodiment, the second swing axis Ax is located farther away from the tip portion S, in the projecting direction (the Z direction), of the contact surface 4c of each shaving portion 4, than the first swing axis Ay is, the contact surface 4c being to be brought into contact with the shaving area. Thus, when the head part 3 swings about the second swing axis Ax, the contact surfaces 4c move (slide) a longer distance along the shaving area, which increases the swing resistance. Specifically, in the case where the head part 3 swings about the second swing axis Ax, the swing torque My becomes larger as the moment arm Amy becomes longer; however, the swing load torque can be increased by the slide resistance, thereby preventing the head part 3 from swinging easily only about the second swing axis Ax. Consequently, an improved following performance of the head part 3 on the shaving area can be exerted.
In this embodiment, the head part 3 is supported on the interposer 8 with the first link mechanisms 9 therebetween so as to be swingable about the first swing axis Ay, and the interposer 8 is supported on the body part 2 with the second link mechanism 11 therebetween so as to be swingable about the second swing axis Ax. Accordingly, for example, with certain arrangement of the first link arms 9b and the second link arms 11c (the positions of the connecting axes and the angles of the link arms, for example), it is possible to obtain, in a relatively simple manner, a configuration which allows the head part 3 to swing about the first and second swing axes Ay and Ax, and which also increases the swing (slide) resistance of the head part 3 generated when the head part 3 swings about the second swing axis Ax.
In this embodiment, the first link mechanisms 9 are configured in such a way that: two first link mechanisms 9 are provided and separated from each other in the Y direction; each pair of the connecting axes C11 to C14 corresponding between the two first link mechanisms 9 is concentrically arranged; and the respective two first link mechanisms 9 are separated into two parts. Accordingly, it is possible to form a simple configuration, as compared to a case where two first link mechanisms 9 are formed integratedly.
In this embodiment, the first support arm 9a of each first link mechanism 9 is provided with the attachment 9e having the flat portion which intersects with the imaginary plane Py orthogonal to the first swing axis Ay. With the flat portions abutting against the interposer 8, the attachments 9e are fixed to the interposer 8. Thereby, the portions where the flat portions abut against the interposer 8 receive a force caused by the swing of the head part 3 and acting on the attachment portions of the first support arms 9a. Consequently, misalignment of the first support arms 9a from the interposer 8 due to the swing of the head part 3 is suppressed, and thus the support stiffness of the interposer 8 for the first support arms 9a is easily secured.
In this embodiment, the second link mechanism 11 is configured to include the base 11a, the paired second support arms 11b, and the two second link arms 11c bridged between the paired second support arms 11b. This allows the second link mechanism 11 to be formed spatially and thus helps to increase the stiffness and strength thereof. In addition, the amount of assembly work can be reduced, as compared to the case where second link mechanisms 11 are provided separately in the X direction.
In this embodiment, the two second link arms 11c are each bridged in an approximately U-shape between the paired second support arms 11b, and the interposer 8 is attached to the bottom portion 11d of the approximately U shape. This makes it possible to obtain a configuration which is relatively simple but still allows the two second link arms 11c to be connected to the interposer 8 concentrically and rotatably. In addition, the amount of assembly work can be reduced.
In this embodiment, the coil spring 12 is provided between the body part 2 and the interposer 8, as the second biasing mechanism configured to apply a reactive force against the swing of the head part 3 with respect to the body part 2. The coil spring 12 is an elastic member bridged from one side to the other side in the direction of the second swing axis Ax. Accordingly, it is possible to secure a necessary reactive force against the swing about the second swing axis Ax, and thus to further prevent the head part 3 swinging easily only about the second swing axis Ax. In addition, a sufficient length of the coil spring 12 can be secured easily, which in turn allows a high flexibility in setting the level of the reactive force against swing.
In a modification of the above-described embodiment, as shown in
In such a configuration, it is preferable that the reactive torque about the second swing axis Ax generated by the coil spring 12 as the second biasing mechanism be set greater than the reactive torque about the first swing axis Ay generated by the shaft 9f as the first biasing mechanism. By doing so, it is possible to further prevent the head part 3 from swinging easily only about the second swing axis Ax. Consequently, a further improved following performance of the head part 3 on the shaving area can be exerted.
One embodiment of the present invention has been described above, but the present invention is not limited to the above embodiment, and various modifications are possible.
For example, in the above embodiment, a configuration is illustrated in which the head part is supported on the interposer with the first link mechanisms therebetween, and the interposer is supported on the body part with the second link mechanism therebetween; however, mechanisms other link mechanisms may be employed as the swing support mechanisms. Also, the specifications (such as the positions, sizes, or configurations) of the first link mechanisms and second link mechanism are not limited to the ones in the above embodiment.
In addition, mechanisms or members other than a coil spring and a torsion bar (a shaft) maybe employed as the first and second biasing mechanisms.
Number | Date | Country | Kind |
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2009-006273 | Jan 2009 | JP | national |