JP5114893B2 - Side knock mechanical pencil - Google Patents

Description

The present invention relates to a side knock type mechanical pencil in which a knock piece for operating a core feeding means is arranged on a side wall of a shaft tube .

As an example, in a side knock type sharp pencil in which a knock button is attached so as to be movable in the axial direction of the shaft cylinder and the core is pushed out by pressing the knock button, the knock button includes an outer surface portion and an outer surface portion. A side knock type shaft having leg pieces provided opposite to both sides, provided with long holes in parallel so that the leg pieces of the knock button are respectively inserted into the shaft cylinder, and a partition wall is formed between the long holes. There is a push-button knock button mounting structure, and an engaging claw is formed over the entire area at the lower end of each leg piece of the knock button to prevent it from falling off the shaft tube.
Japanese Patent No. 2952824.

However, in the above prior art, since the knock button is narrower than the diameter of the shaft tube, it is difficult to perform the pressing operation. That is, since the contact area between the knock button and the belly of the finger to be pressed is small, not only is the pressing operation unstable, but there is a case where the finger belly feels pain.
Therefore, it is conceivable to increase the width of the knock button. However, by increasing the width of the knock button, the amount of movement of the knock button with respect to the axial direction decreases, and a sufficient amount of feeding of the core cannot be obtained. It was. That is, the distance between the lower end portion of the leg piece of the knock button having the engaging claw and the inner surface of the shaft cylinder is reduced.

Accordingly, the present invention provides a side knock type mechanical pencil in which a knock piece for operating a core feeding means is disposed in a window hole formed in a side wall of a shaft cylinder, and the width in the vicinity of both end portions of the knock piece is set at an intermediate portion. An engagement portion that prevents the knock piece from dropping off from the shaft cylinder is provided in the narrow portion, and a recess is formed in the vicinity of the middle portion of the window hole. The main point is that the outer diameter of the shaft cylinder is substantially the same, and the surface height of the entire knock piece when the knock piece is not pressed is substantially the same as the surface height of the shaft cylinder .

The present invention is a side knock type mechanical pencil in which a knock piece for operating a core feeding means is arranged in a window hole formed in a side wall of a shaft cylinder, and the width in the vicinity of both ends of the knock piece is made larger than the width of an intermediate portion. And an engagement portion that prevents the knock piece from falling off from the shaft cylinder is formed in the narrow portion, and a recess is formed in the vicinity of the middle portion of the window hole, and the maximum width of the recess is increased. The outer diameter of the shaft cylinder is substantially the same, and the surface height of the entire knock piece when the knock piece is not pressed and the surface height of the shaft cylinder are substantially the same, so the width of the knock piece is widened. Even in such a case, a side knock type mechanical pencil can be provided in which the lead feeding amount can be sufficiently obtained.

An example in the present invention will be described. The rear side of the shaft tube 1 is a core tank part 2 having a circular cross section capable of storing a plurality of cores, but the cross sectional shape may be a hexagonal shape or a substantially octagonal shape with curved corners. good. Further, a tail plug 3 is inserted behind the shaft tube 1, and the inside of the tail plug 3 is also a core tank portion 4. A metal clip 5 is fixed to the rear outer periphery of the tail plug 3, but may be integrally formed with the tail plug 3. On the other hand, an eraser 7 is detachably attached to the rear end opening 6 of the tail plug 3, and an eraser cover 8 is also detachably attached so as to cover the eraser 7. A front portion of the tail plug 3 is a reduced diameter portion 9, and an engaging claw 10 is formed at an intermediate portion of the reduced diameter portion 9, and the engaging claw 10 is a rear portion of the shaft tube 1. Is engaged with the through-hole 11 formed in. Further, a protrusion 12 is formed in the longitudinal direction behind the reduced diameter portion 9, and the protrusion 12 is engaged with a slit 13 formed at the rear end portion of the shaft tube 1.
On the front inner side of the shaft tube 1, a core insertion hole 14 is formed, which is smaller in diameter than the core tank portion 4 of the tail plug 3 but can accommodate a plurality of cores, and the core tank portion 2 of the shaft tube 1. The slider 16 on which the flange 15 that slides is formed is arranged so as to be able to move back and forth. However, the core insertion hole 14 may have the same diameter as the core tank section 4 or may have a larger diameter. A chuck body 17 that holds and releases the core is fixed to the front end of the slider 16, and a chuck ring 18 that opens and closes the chuck body 17 surrounds the front outer periphery of the chuck body 17. Reference numeral 19 denotes a tip member that is detachably fixed to the front end of the shaft cylinder 1 by means such as screwing, and the tip member 19 holds a lead lightly and prevents the lead from retreating. The core detent member 20 made of an elastic body is disposed, but may be integrally formed on the inner surface of the tip member 19. A metal core protecting tube 21 is fixed to the front end of the tip member 19 by means such as press fitting, but the core protecting tube 21 may be integrally formed with the tip member 19.
An inner surface flange 22 is formed on the inner surface of the rear portion of the shaft cylinder 1, and a chuck spring made of a resilient member such as a coil spring is provided between the inner surface flange 22 and the flange 15 of the slider 16. 23 is stretched to urge the slider 16, the chuck body 17, the chuck ring 18, and the like backward. By providing the chuck spring 23 at the rear part of the shaft tube 1, the diameter of the chuck spring 23 can be increased, and thereby the elastic coefficient of the spring can be reduced, and as a result, the core can be always maintained with an equal force. It becomes possible to perform the feeding operation. Incidentally, the chuck spring is generally arranged in front of the shaft cylinder, and the diameter of the chuck spring is small. As a result, the elastic modulus is also large, and the necessary pressing force is gradually increasing in the course of performing the lead feeding operation.

A diameter-reduced portion 24 is formed in front of the shaft cylinder 1, and an elastic grip member 25 made of an elastomer or silicone rubber is inserted into the diameter-reduced portion 24. The grip portion may be formed directly on the surface of the shaft tube by performing knurling or the like on the surface.
A recess 26 is formed between the grip member 25 and the tip of the clip 5. A window hole 27 is formed in the recess 26, and a knock piece 28 for moving the slider 16 forward is disposed in the window hole 27. The knock piece 28 has a U-shaped cross section, and is formed inside the both wall surfaces 29 in a state in which the operating portion 30 is separated forward and backward. In addition, inclined surfaces 30 a and 30 b that are symmetrical with respect to the axial direction are formed at the front and rear end portions of the respective operating portions 30. That is, the knock piece 28 itself is symmetric with respect to the front and rear of the axis and to the left and right (see FIG. 8). In the present embodiment, the inclined surface 30 a of the operating portion 30 is in contact with the inclined surfaces 31 formed at two positions before and after the intermediate portion of the slider 16. That is, when the knock piece 28 is pressed in the direction perpendicular to the central axis in the longitudinal direction of the shaft cylinder 1, the inclined surfaces 30a and 30b of the knock piece 28 press the inclined surface 31 of the slider 16, and the slider 16 moves forward. And the lead is drawn out. By making the knock piece 28 symmetrical with respect to the front and rear of the axis and to the left and right as in this embodiment, the direction of the knock piece 28 is lost and the direction of the knock piece 28 is thereby eliminated. When attaching, it can be assembled without worrying about the direction of the knock piece, so that productivity can be improved. A flat portion 32 is formed on the side portion of the slider 16 (FIG. 10), and the inner surface portion 33 of the operating portion 30 can contact and slide on the flat portion 32. That is, the contact between the inner surface portion 33 and the flat portion 32 prevents relative rotation between the knock piece 28 and the slider 16. However, in consideration of the sliding resistance between the knock piece 28 and the slider 16 and the assembling property of the knock piece 28 into the window hole 27, a slight gap, specifically, is formed between the knock piece 28 and the slider 16. Is formed with a gap corresponding to the height of an engaging claw 36 to be described later.
Note that the surface height of the knock piece 28 during the non-pressing operation is substantially the same as the surface height of the shaft tube 1 (see FIGS. 1 and 4). By eliminating the protruding state of the knock piece 28 at the time of the non-pressing operation, there is no contact with the finger at the time of writing, thereby obtaining a good writing without a sense of incongruity, and when attaching to a pocket or paper of clothes, etc. Can be easily mounted without being caught.

Further, the knock piece 28 is arranged over almost the entire area between the grip member 25 and the clip 5, whereby the window hole 27 is also formed over almost the entire area between the grip member 25 and the clip 5. ing. By making the length of the knock piece 28 longer (larger), the place where the pressing operation (core feeding operation) is performed is widened. The outer shape of the knock piece 28 and the inner shape of the window hole 27 are substantially the same, but the outer shape of the window hole 27 is slightly larger. The sliding property of the knock piece 28 with respect to the window hole 27 is made favorable.
Further, the circumferential width of the knock piece 28 is about one third to one fourth of the circumferential length of the shaft tube 1. By increasing the width of the knock piece 28, as with the length of the knock piece 28, the place where the pressing operation (core feeding operation) is performed is wide, and the belly of the finger performing the pressing operation By increasing the contact area, the stability of the knock piece 28, the feel of the finger to be operated, and the like are improved.
Here, narrow portions 34 are formed at the front and rear portions of the knock piece 28. Both wall surfaces 35 are also formed in the narrow portion 34, and engaging claws 36 are formed at the lower end portions of the both wall surfaces 35.
On the other hand, a narrow window portion 37 having substantially the same width as the narrow portion 34 of the knock piece 28 is formed at the front portion and the rear portion of the window hole 27 of the shaft tube 1, and the width thereof is narrow. The engaging claw 36 of the knock piece 28 can be engaged with the inner wall surface of the shaft cylinder 1 in which the window portion 37 is formed. That is, the engagement action at the position of the narrow window portion 37 (the narrow portion 34) prevents the knock piece 28 from falling off the shaft cylinder 1. Then, the engagement claw 36 of the knock piece 28 and the portion (the narrow window portion 37) of the shaft cylinder 1 with which the engagement claw 36 engages are narrowed to reduce the pressing operation amount of the knock piece 28. It can be obtained sufficiently. That is, by moving the engaging portion closer to the center of the shaft tube 1, a movement amount close to the inner diameter of the shaft tube 1 can be obtained.

Next, the operation will be described. When the knock piece 28 is pressed straight in the direction perpendicular to the axial line in the longitudinal direction of the shaft tube 1, that is, in the radial direction from the state shown in FIG. 1 and FIG. 4, it resists the elastic force of the chuck spring 23. Thus, the slider 16, the chuck body 17, the chuck ring 18, and the like move forward. At this time, the core held by the chuck body 17 is also advanced, and the core is fed out. Further, in the process of extending the core, the engagement claw 36 of the knock piece 28 releases the engagement with the inner wall surface of the shaft tube 1, proceeds to the bottom surface 38 of the shaft tube 1, and finally comes into contact with the bottom surface. (See FIGS. 11 to 14).

The side view which shows one example of this invention. The front view of FIG. The perspective view of FIG. The longitudinal cross-sectional view of FIG. The longitudinal cross-sectional view of FIG. The perspective view of a shaft cylinder. The perspective view of a knock piece. The lower perspective view of FIG. The side view of a slider. The perspective view of FIG. FIG. 5 is a longitudinal sectional view corresponding to FIG. 4 for explaining the operation. FIG. 12 is a sectional view taken along line AA in FIG. BB sectional view of FIG. CC sectional view of FIG.

DESCRIPTION OF SYMBOLS 1 Shaft cylinder 2 core tank part 3 tail plug 4 core tank part 5 clip 6 rear end opening part 7 eraser 8 eraser cover 9 reduced diameter part 10 engaging claw 11 through-hole 12 protrusion part 13 slit 14 core insertion hole 15 collar part 16 Slider 17 Chuck body 18 Chuck ring 19 Tip member 20 Core detent member 21 Core protection tube 22 Inner surface flange 23 Chuck spring 24 Reduced diameter portion 25 Grip member 26 Recessed portion 27 Window hole 28 Knock piece 29 Both wall surfaces 30 Actuating portion 31 Inclined surface 32 Flat part 33 Inner surface part 34 Narrow part 35 Both wall surfaces 36 Engaging claw 37 Narrow window part 38 Bottom part

Claims (3)

A side knock type mechanical pencil in which a knock piece for operating a core feeding means is arranged in a window hole formed in a side wall of the shaft cylinder, wherein a width in the vicinity of both ends of the knock piece is narrower than a width of an intermediate portion. In addition, an engagement portion for preventing the knock piece from falling off the shaft cylinder is provided in the narrow portion, and a recess is formed in the vicinity of the intermediate portion of the window hole, and the maximum width of the recess is set outside the shaft cylinder. A side knock type mechanical pencil having substantially the same diameter, and the surface height of the entire knock piece when the knock piece is not pressed is substantially the same as the surface height of the shaft cylinder . The side knock type mechanical pencil according to claim 1, wherein the knock piece can be pressed in a direction perpendicular to a central axis in a longitudinal direction of the shaft cylinder. The grip is provided at the front portion of the shaft tube, the clip is provided at the rear of the shaft tube, and the knock piece is arranged over almost the entire area between the grip and the clip. The side knock type mechanical pencil according to claim 2.

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