The present invention relates generally to a rotary feeding mechanism for axially feeding a rod-shaped body and more particularly to a feeding mechanism useable in writing instruments, cosmetic instruments and other devices for projecting or retracting a rod-shaped body from or into a main body by a rotation operation.
Feeding mechanisms using a rotation operation have been known as a mechanism for feeding a rod-shaped body such as pencil leads, erasers, ink refills, crayons, etc. in writing instruments and lipsticks, eyeliners, etc. in cosmetic instruments.
As a simple and easy rotary feeding mechanism, for example, a cosmetic instrument described in UM-A-Sho 60-67726 has a helical spring (coil spring) disposed in a main body in which a holder for holding a rod-shaped body is hooked over the helical spring. The holder is moved forward or backward by rotation of the helical spring thereby projecting or retracting the rod-shaped body. Since the mechanism uses a helical spring, it is complicated to manufacture and assemble and not economical. In addition, in this mechanism, the whole helical spring is rotatably moved by actuating an end side of the helical spring that extends lengthwise in the axial direction of the rod-shaped body. As a result, variations are likely to arise in the pitch of the spring and may sometimes cause unstable feeding of the rod-shaped body. Further, the rod-shaped body is held by the holder, and if the holding power of the holder is too large, when the rod-shaped body is used up and needs to be replaced with a new one, the rod-shaped body residue remaining in the holder is difficult to detach, resulting in troublesome replacement.
UM-A-Hei 1-131586 describes a mechanism using no helical spring. In the mechanism described in this publication, helical grooves are formed on an inner face of a main body and a lateral projection of a holder is engaged with the helical grooves. In this structure, when the holder is rotated by a holder guide installed at the rear end of the main body, the holder is moved in an axial direction by which a rod-shaped body is fed. This structure presents a simplified mechanism. However, for the formation of helical grooves on the inner face of the main body, at the time of plastic molding of the main body, the molding is carried out by use of a motor drive die using a core pin formed with a thread on its outer periphery, resulting in high costs and complicated production.
It is an object of the present invention to provide a rotary feeding mechanism in which rod-shaped bodies such as used in writing instruments or cosmetic instruments can be projected from or retracted into a main body by a rotation operation, without employing a conventionally used helical spring for forming a helical groove on the inner face of the main body.
It is another object of the present invention to provide the above-mentioned rotary feeding mechanism in which replacement of the rod-shaped bodies can be made easily.
The present invention relates to a rotary feeding mechanism for axially feeding a rod-shaped body, which comprises a main body having plural windows arranged at a predetermined pitch along an axial direction of a tubular wall portion of the main body. A rotation member is rotatably installed at an open end of the main body, and a guide pipe is fixed to the rotation member. A holder is provided for holding the rod-shaped body, and the holder is connected to the guide pipe non-rotatably and movably in the axial direction. An outer periphery of the holder has an external thread threadedly engaged with the windows.
Further, at an inner face of the tubular wall portion on which the windows open are plane sections extending in the axial direction and formed facing each other. In one embodiment, the rotation member is a tapered tip provided at a front portion of the main body. The guide pipe has an open groove extending in the axial direction, and the holder has a through-hole through which the guide pipe passes and an engagement projection slidably engaging with the open groove of the guide pipe. The holder has a holding pipe for holding the rod-shaped body, and the tapered tip has an expanding section on which a front end of the holding pipe abuts. The holding pipe and the expanding section have inclined faces that engage one another to expand the front end of the holding pipe when the holder abuts on the tapered tip.
In the present invention, as mentioned above, plural windows open on a wall portion of a tubular main body with a predetermined pitch along an axial direction, and an outer periphery of the holder housed in the main body has an external thread threadedly engaged with the windows. A rotation member is rotatably installed at an open end of the main body, a guide pipe is fixed to the rotation member, and the holder is connected to the guide pipe non-rotatably and movably in an axial direction. Accordingly, when the rotation member is rotated, the holder moves in an axial direction while rotating, and the rod-shaped body held by the holder can be projected from or retracted into the rotation member.
Further, when a holding pipe for holding the rod-shaped body is disposed in the holder, and the tapered tip is provided with an expanding section on which the front end of the holding pipe abuts, the holding pipe abuts on the tapered tip when the holder moves forward to its frontmost position. In the structure wherein the expanding section of the holding pipe is provided with an inclined face which expands the front end of the holding pipe, when the rod-shaped body is used up and needs replacement, the front end of the holding pipe of the holder is expanded to release the rod-shaped body and therefore the remaining remnants of the rod-shaped body can be easily removed and replaced with a new rod-shaped body.
The windows of the main body and the external thread of the holder are formed in such a structure that the windows open at the outer face side of the main body and the external thread is disposed at the outer periphery of the holder, and therefore these can be easily formed by use of a mold for conventional plastic molding, which is economical. Further, at the inner face of the wall section of the main body at which the windows open, the plane sections extending in the axial direction are formed to face each other. Therefore, the open internal edges of the windows are positioned toward the center of the main body away from the inner side face of the wall section of the main body, and the external thread disposed at the outer face of the holder can securely and threadedly engage with the open internal edges of the windows, and therefore rotation of the guide pipe can bring about appropriate movement of the holder in the axial direction.
The rotary feeding mechanism of the present invention may be applied to the feeding of an appropriate rod-shaped body in various devices, for example, in writing instruments such as mechanical pencils, ball point pens and liquid pens, and in cosmetic instruments such as lipsticks and eyeliners.
The tapered tip 2 disposed at the front part of the main body 1 is connected rotatably to the main body 1 so that the tapered tip may act as a rotating member. As shown in
As shown in
The guide pipe 12 extends slidably through the holder 17. As shown in
Referring to
By the above structure, the holder 17 is connected to the guide pipe 12 non-rotatably and movably in the axial direction. Accordingly, when the tapered tip 2 turns, the holder 17 turns via the guide pipe 12, whereby the holder 17 moves in the axial direction of the main body 1 and projects the lead 6 from the front end of the tapered tip 2. When the tapered tip turns in a reverse direction, the lead 6 is retracted from the front end of the tapered tip 2 into the main body. In this example, the rear stopper (rear member) 3 is fitted to the rear end of the guide pipe 12 and turns together with the guide pipe 12, and therefore the lead may be projected or retracted by using the rear stopper 3 as a rotation member instead of the tapered tip 2.
In the above feeding mechanism, the rod-shaped body 6 is projected from and retracted into one side of the main body 1, but the rod-shaped body may be disposed within the main body so that the rod-shaped body may be projected from and retracted into both sides of the main body. Further, the present invention may be applied to a feeding mechanism of a writing instrument for feeding an eraser as a rod-shaped body from the rear side in addition to feeding the lead 6 as a rod-shaped body from the front side.
This example is illustrated in
As the rotation member, a rear stopper (rear member) 24 is rotatably attached to the open end at the rear portion of the main body 1, and at the forward part of the rear stopper 24, a guide pipe 25 is integrally formed. On the inner face of the guide pipe 25, an open groove 26 extending in the axial direction is formed. An eraser 27 is inserted from the opening formed at the rear stopper 24 and a small diameter part 28 formed at the front end of the eraser is held by a holding pipe 30 of a holder 29.
On the inner face of the holding pipe 30, small projections may preferably be provided to prevent detachment of the eraser 27. On the outer periphery of the holding pipe 30, an engagement projection 32 is disposed to slidably engage with the open groove 26. On the outer periphery of a tubular part 33 having a diameter larger than that of the holding pipe 30, an external thread 34 is formed to threadedly engage with the windows 5.
The relationships of the inner diameter of the main body 1, the outer diameter of the tubular part 33 of the holder 29, the outer diameter of the thread 34 and the distance between the plane sections 4 facing each other are the same as the above example. By this structure, the holder 29 is connected to the guide pipe non-rotatably and movably in the axial direction of the guide pipe 25. Since the external thread 34 is threadedly engaged with the open internal edge of the windows 5, when the rear stopper 24 turns, the holder 29 turns via the guide pipe 25 and moves in the axial direction. The eraser 27 is thereby projected rearwardly from the rear stopper 24 or retracted into the rear stopper 24.
In the examples shown in
If the rod-shaped body is made of a soft material and drawn out of the holding pipe by force, remnants of the rod-shaped body may unwantedly remain in the holding pipe. To prevent such a situation from occurring, a structure of the following example may be used.
As shown in
By the above structure, the rod-shaped body 6 is held by the small projection 37 of the holding pipe 18 for preventing detachment, and as shown in
In the above examples, an open groove is disposed at the guide pipe side and the engagement projection is disposed at the holder side. However, the engagement projection may be disposed at the guide pipe side and the open groove may be disposed at the holder side. Also, instead of a writing instrument, various types of rod-shaped bodies may be rotatably fed from the main body of other devices using the rotary feeding mechanism of the present invention.
It will be appreciated by those skilled in the art that obvious changes and modifications can be made to the embodiments described in the foregoing description without departing from the broad inventive concept thereof. It is understood, therefore, that this disclosure is not limited to the particular examples and embodiments disclosed, but is intended to cover all obvious changes and modifications thereof which are within the scope and spirit of the disclosure as defined by the appended claims.
Number | Date | Country | Kind |
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2018-99827 | May 2018 | JP | national |