WO2011067912A1 - Mechanical pencil - Google Patents
Mechanical pencil Download PDFInfo
- Publication number
- WO2011067912A1 WO2011067912A1 PCT/JP2010/006938 JP2010006938W WO2011067912A1 WO 2011067912 A1 WO2011067912 A1 WO 2011067912A1 JP 2010006938 W JP2010006938 W JP 2010006938W WO 2011067912 A1 WO2011067912 A1 WO 2011067912A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- rotor
- cam surface
- mechanical pencil
- chuck
- writing
- Prior art date
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B43—WRITING OR DRAWING IMPLEMENTS; BUREAU ACCESSORIES
- B43K—IMPLEMENTS FOR WRITING OR DRAWING
- B43K23/00—Holders or connectors for writing implements; Means for protecting the writing-points
- B43K23/008—Holders comprising finger grips
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B43—WRITING OR DRAWING IMPLEMENTS; BUREAU ACCESSORIES
- B43K—IMPLEMENTS FOR WRITING OR DRAWING
- B43K21/00—Propelling pencils
- B43K21/006—Pencil-barrels
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B43—WRITING OR DRAWING IMPLEMENTS; BUREAU ACCESSORIES
- B43K—IMPLEMENTS FOR WRITING OR DRAWING
- B43K21/00—Propelling pencils
- B43K21/02—Writing-core feeding mechanisms
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B43—WRITING OR DRAWING IMPLEMENTS; BUREAU ACCESSORIES
- B43K—IMPLEMENTS FOR WRITING OR DRAWING
- B43K21/00—Propelling pencils
- B43K21/02—Writing-core feeding mechanisms
- B43K21/16—Writing-core feeding mechanisms with stepwise feed of writing-cores
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B43—WRITING OR DRAWING IMPLEMENTS; BUREAU ACCESSORIES
- B43K—IMPLEMENTS FOR WRITING OR DRAWING
- B43K21/00—Propelling pencils
- B43K21/02—Writing-core feeding mechanisms
- B43K21/22—Writing-cores gripping means, e.g. chucks
Definitions
- This invention relates to a mechanical pencil capable of rotating a writing core (replacement core) using writing pressure.
- the chuck that grips the writing core is configured to retract by receiving the writing pressure, and the writing core is rotated together with the chuck by using the retracting operation.
- a mechanical pencil having a mechanism is disclosed in the following prior art documents.
- the vertical protrusions and the vertical grooves are alternately arranged in the shaft cylinder, and the cam portion having the inclined surface is formed in an annular shape so as to straddle them.
- a rotor in which protrusions are intermittently formed in the circumferential direction is accommodated in the shaft cylinder.
- the rotor is pushed up by largely retreating the writing core, and the protrusion of the rotor rides on the vertical protrusion formed on the cam portion in the shaft cylinder, and falls into the adjacent vertical groove through the inclined surface.
- the rotator is rotated by use, and the rotational movement of the rotator is transmitted to the lead case to rotate the writing lead.
- This utilizes a known karn knock mechanism that is frequently used in knock type ballpoint pens and the like.
- first and second cam surfaces are formed on each end surface of the rotor formed in a cylindrical shape, and the first cam surface is caused by a retreating operation of the rotor by writing pressure. Are brought into contact with and meshed with the first fixed cam surface. The second cam surface is brought into contact with and meshed with the second fixed cam surface by the forward movement of the rotor by releasing the writing pressure.
- the reciprocal meshing of the cams causes the rotor to rotate sequentially in one direction, and this rotational motion is transmitted to the writing core via a chuck that grips the writing core. Yes.
- the rotation drive mechanism for rotating the writing core as described above in the shaft cylinder as close as possible to the mouth portion from which the writing core protrudes. According to this configuration, it is possible to reduce the influence of each component constituting the rotation drive mechanism and the influence of the core misalignment such as the rotation relay member that relays the rotation drive mechanism and the writing core. The degree of play between the slider through which the writing core is inserted can be reduced.
- the overall design of the mechanical pencil including the rotary drive mechanism changes depending on where the rotary drive mechanism is arranged in the shaft cylinder.
- the rotary drive mechanism part that requires a high level of design experience, a lot of time and cost are required for a new development design corresponding to the change of the arrangement position in the shaft cylinder. Will have the problem.
- the present invention has been made by paying attention to the above-mentioned problems in a mechanical pencil equipped with a rotational drive mechanism for a writing core.
- An object of the present invention is to provide a mechanical pencil capable of easily adopting the rotational drive mechanism having the same configuration for each of the mechanical pencils having the various configurations described above having different arrangement positions of the mechanisms. .
- the mechanical pencil according to the present invention which has been made to solve the above-described problems, can release and grip the writing core by moving the chuck back and forth based on the knocking operation of the knocking member so that the writing core can be fed forward.
- a mechanical pencil housed in the shaft cylinder so as to be able to move back and forth and rotate around the shaft core in a state where the chuck grips the writing core, and is reciprocated in the axial direction.
- a rotational drive mechanism capable of converting motion into rotational motion is constituted by a single unit independent of the mechanical pencil body, and is accommodated in the shaft cylinder, and the rotational drive mechanism and the chuck are connected via a relay member.
- the forward / backward movement based on the writing pressure applied to the writing core gripped by the chuck via the relay member is performed with respect to the rotational drive mechanism.
- causes transmitted as reciprocating characterized by being configured to transmit rotary motion generated by the rotation driving mechanism to the chuck.
- the relay member is formed of a flexible material, and further, the relay member is coaxially disposed outside the core case connected to the rear end portion of the chuck. desirable.
- the rotation drive mechanism constituted by one independent unit is pressed against a part of the shaft cylinder by the shaft spring, thereby preventing the rotation operation of the rotation drive mechanism in the shaft cylinder.
- a rotor to which the relay member is connected is provided, and the rotor is formed in an annular shape with first and second end surfaces in the axial direction thereof being first and second.
- Second cam surfaces are respectively formed, and first and second fixed cam surfaces are provided so as to face the first and second cam surfaces, respectively, and the chuck is retracted by the writing pressure.
- the first cam surface of the annular rotor is brought into contact with and meshed with the first fixed cam surface, and the second cam surface of the rotor becomes the second fixed by releasing the writing pressure.
- the first cam surface on the rotor side is engaged with the first fixed cam surface and the second cam surface on the rotor side and the second cam surface on the rotor side in a state where the first cam surface on the rotor side is engaged with the first fixed cam surface.
- the second fixed cam surface is axial
- the first cam on the rotor side in the state where the phase is shifted with respect to one tooth of the cam and the second cam surface on the rotor side is engaged with the second fixed cam surface.
- the surface and the first fixed cam surface are set so as to be out of phase with respect to one tooth of the cam in the axial direction.
- the rotary drive mechanism has a cushion that urges the second cam surface of the rotor to abutment with the second fixed cam surface when the writing pressure is released.
- a spring is provided.
- a torque canceller that generates a slip between the rear end portion of the rotor and the rear end portion of the rotor is interposed between the rear end portion of the rotor and the cushion spring in the rotation drive mechanism.
- the rotor is configured to prevent the rotational motion of the rotor from being transmitted to the cushion spring.
- a rotation drive mechanism for rotating the rotor by receiving the writing pressure, and the rotational movement of the rotor is transmitted to the writing core via the chuck. Therefore, since the writing core is gradually rotated with the writing operation, it is possible to prevent the writing core from being unevenly worn as the writing progresses, and the thickness of the drawn line and the density of the drawn line greatly change. Can be eliminated.
- the rotation drive mechanism is configured by a single unit independent of the mechanical pencil body, by determining the length dimension of the relay pipe as a relay member that connects the rotation drive mechanism and the chuck, The arrangement position of the rotation drive mechanism in the shaft tube can be arbitrarily determined. Therefore, according to the diversification of this type of mechanical pencil, it is possible to have the versatility of making the rotational drive mechanisms available to each, and compared to the case of individually developing and designing, It can contribute to reduction.
- FIG. 10 is a cross-sectional view as viewed in the direction of the arrow from the aa, bb, and cc lines in FIG. It is the perspective view of the rotor which changed the angle and showed the structural example of the display part which displays the rotation state of a rotor. It is an external view of the mechanical pencil concerning this invention which shows the rotation state of a rotor. It is sectional drawing which expanded and showed the front-end
- FIG. 1 and FIG. 2 are sectional views showing the entire configuration.
- FIG. 1 shows the first half of the mechanical pencil
- FIG. 2 shows the second half.
- the same portions are denoted by the same reference numerals, but in the overall views shown in FIGS. 1 and 2, the representative portions are denoted by the reference numerals.
- a mouth end portion (cutipula) indicated by reference numeral 1 is detachably attached by being screwed to a tip end portion of a tip shaft 2 constituting a shaft cylinder made of a metal material.
- the cylindrical core case 3 is coaxially accommodated along the center part of the front axis
- a short shaft core case joint 4 is attached to the tip of the core case 3, and a brass chuck 5 is connected through the core case joint 4.
- a writing core hole (not shown) is formed along the axis of the chuck 5, the tip is divided into a plurality of pieces, and the divided tip is formed into a ring shape by brass. It is loosely fitted in the tool 6.
- the ring-shaped fastener 6 is mounted on the inner surface of a pipe joint 7 arranged so as to cover the periphery of the chuck 5.
- a cylindrical slider 8 is attached to the front end portion of the pipe joint 7 so that the front end portion of the pipe joint 7 is accommodated in the front end portion 1 and protrudes from the front end portion.
- the tip pipe 9 which guides is attached.
- a rubber holding chuck 10 having a through hole formed in the shaft core portion as shown in FIG. 3 is accommodated on the inner surface of the slider 8.
- a linear core insertion hole reaching the tip pipe 9 is formed through a through hole formed in the chuck 5 from the core case 3 and a through hole formed in the shaft core of the holding chuck 10.
- a writing core (not shown) is inserted into the linear core insertion hole.
- a coiled chuck spring 11 is disposed between the pipe joint 7 and the core case joint 4.
- the rear end portion of the chuck spring 11 is accommodated in the state of contact with the front end surface of the core case joint 4, and the front end portion of the chuck spring 11 is in contact with an annular member formed on the inner peripheral surface of the pipe joint 7. Has been. Therefore, the chuck 5 is urged by the action of the chuck spring 11 in the retreating direction, that is, in the direction of gripping the writing core.
- the lead case 4 moves forward in the shaft cylinder by knocking a knock member (knock bar) described later.
- knock bar knock member
- the large diameter portion formed on the slider 8 abuts against the inner surface of the lip portion 1 to prevent the forward movement, so that the tip portion of the chuck 5 protrudes relatively from the fastener 6, and writing by the chuck 5 is performed.
- the gripping state of the lead is released.
- the knocking operation is released, the lead case 3 and the chuck 5 are retracted in the shaft cylinder by the action of the chuck spring 11.
- the writing core is held by friction in a through hole formed in the holding chuck 10, and in this state, the chuck 5 is retracted and its tip is accommodated in the fastener 6.
- the core is again held. That is, the chuck 5 is moved back and forth by repeated knocking operation of a knock bar, which will be described later, whereby the writing core is released and gripped, and the writing core acts so as to be sequentially advanced forward from the chuck 5.
- a grip member 13 is mounted on the front shaft 2 constituting the shaft cylinder so as to surround the front shaft 2. As shown in detail in FIG. 4, the grip member 13 is mounted between the metal shaft coupling 14 fitted to the rear end portion of the front shaft 2 and the above-described mouth portion 1.
- the grip member 13 is composed of an inner layer 13b formed of a rubber material and a coating layer 13a formed of the same rubber material, and a gel-like substance is filled between the two as necessary. Has been made.
- a synthetic resin shaft ornament 15 is fitted so as to cover the flange 14 a formed at the front end portion of the shaft coupling 14, and the rear end portion of the grip member 13 is covered with the shaft ornament 15. It is installed as shown.
- a helical screw is formed on the outer peripheral surface of the shaft coupling 14, and the rear shaft 17 constituting the shaft cylinder is screwed and attached using this screw as shown in FIG.
- An outer shaft 18 in which a clip portion 18a is integrally formed is attached so as to cover the outer side of the rear shaft 17.
- the outer shaft 18 is a retaining ring screwed to the rear end portion of the rear shaft 17. 19 is attached so as to be sandwiched between the shaft decoration 15 and the shaft decoration 15.
- the relatively thick grip member 13 is mounted on the front shaft 2 side, so that the rotation driving mechanism 21 of the writing core has the grip member 13 as shown in FIG. It is arranged between the rear shaft 17 and the core case 3 which are behind the mounting position.
- the rotation drive mechanism 21 will be described in detail later, it is configured by a single unit independent of the mechanical pencil body and is accommodated in the shaft cylinder.
- the rotary drive mechanism 21 unitized so that it can be used as a general-purpose product has a pipe member (hereinafter also referred to as a relay pipe) that functions as a relay member made of a flexible material as shown in FIG. .) 22 is connected to the rear end, and the front end of the relay pipe 22 is connected to the pipe joint 7 that supports the chuck 5.
- a pipe member hereinafter also referred to as a relay pipe
- a relay pipe that functions as a relay member made of a flexible material as shown in FIG. .
- the relay pipe 22 is coaxially arranged so as to cover the core case 3, and the relay pipe 22 performs a retraction and forward movement (cushion movement) of the writing core based on the writing movement. And the rotational motion by the rotational drive mechanism 21 generated by the cushion operation is transmitted to the pipe joint 7 and the chuck 5 via the relay pipe 22.
- the rotary drive mechanism 21 is urged rearward by a shaft spring 24 interposed between the shaft coupling 14 and the front end portion thereof.
- the rear end portion of the rotary drive mechanism 21 is in contact with the stepped portion 17 a formed by the reduced diameter in the rear shaft 17 by the urging force of the shaft spring 24.
- the rotation drive mechanism 21 that is unitized is restricted from rotating by friction due to contact with the stepped portion 17a in the rear shaft 17, and the rotation drive mechanism generated by the cushion operation described above. It acts to transmit the rotational motion by 21 to the chuck 5 side.
- the mounting of the rotation drive mechanism 21 in the shaft tube is not limited to the above-described configuration, and the rotation drive mechanism 21 may be mounted on a part of the shaft tube by, for example, fitting means.
- FIG. 5 is an enlarged view of the configuration of the unitized rotation drive mechanism 21.
- the rotary drive mechanism 21 includes a rotor 26 formed in a cylindrical shape, and the relay pipe 22 is fitted to the inner peripheral surface of the rotor 26 at the front end portion of the rotary drive mechanism 21. Are combined.
- the rotor 26 has a large-diameter portion with a slightly larger diameter near the front end, and a first cam surface 26a is formed on one end surface (rear end surface) of the large-diameter portion.
- a second cam surface 26b is formed on the other end surface (front end surface).
- a cylindrical upper cam forming member 27 is disposed so as to be rotatable with respect to the rotor 26 so as to cover the rear end side of the rotor 26.
- a cylindrical lower cam forming member 28 is fitted and attached to the outer periphery of the front end.
- a fixed cam surface (also referred to as a first fixed cam surface) 27a is formed on the front end surface of the upper cam forming member 27 facing the first cam surface 26a of the rotor 26.
- a fixed cam surface (also referred to as a second fixed cam surface) 28a is formed on the inner surface of the front end portion of the lower cam forming member 28 facing the second cam surface 26b of the rotor 26.
- the cylinder member 30 is fitted on the rear end portion side of the upper cam forming member 27 described above, and the insertion hole 30 a into which the core case 3 can be inserted into the rear end portion of the cylinder member 30. Is formed.
- a torque canceller 31 that is formed in a cylindrical shape and is movable in the axial direction is disposed in the cylinder member 30. Between the front end of the inner peripheral surface of the torque canceller 31 and the rear end of the inner peripheral surface of the cylinder member 30.
- a coiled cushion spring 32 is attached to the.
- the cushion spring 32 acts to urge the torque canceller 31 forward, and is pushed by the torque canceller 31 receiving the urging force, so that the rotor 26 acts forward.
- the rotation drive mechanism 21 has a central portion that is a space through which the lead case 3 passes and is isolated from the lead case 3, and is integrally coupled by the members 26 to 32 described above. Are unitized.
- the rotor 26 can rotate around the shaft core together with the chuck 5 via the relay pipe 22 in a state where the chuck 5 holds the writing core.
- the rotor 26 is biased forward via the torque canceller 31 by the action of the cushion spring 32.
- FIGS. 7 (D) and (E) explain the basic operation of the rotation drive mechanism 21 that rotates the rotor 26 by the above-described operation in order.
- reference numeral 26 schematically shows the above-described rotor, and one end surface (the upper surface in the drawing) is continuously serrated along the circumferential direction.
- the first cam surface 26a is formed in an annular shape.
- a second cam surface 26b that is continuously serrated along the circumferential direction is formed in an annular shape on the other end surface (the lower surface in the drawing) of the rotor 26.
- the first fixed cam surface 27a continuously formed in a sawtooth shape along the circumferential direction is also formed on the annular end surface of the upper cam forming member 27,
- a second fixed cam surface 28 a that is continuously serrated along the circumferential direction is also formed on the annular end surface of the lower cam forming member 28.
- the cam surfaces formed in a sawtooth shape along the circumferential direction of the two fixed cam surfaces 28a are formed so that their pitches are substantially the same. 6 and 7, the circles drawn at the center of the rotor 26 indicate the rotational movement state of the rotor 26.
- FIG. 6A shows the relationship among the upper cam forming member 27, the rotor 26, and the lower cam forming member 28 when the mechanical pencil is not used (in the case other than the writing state).
- the second cam surface 26b formed on the rotor 26 is brought into contact with the second fixed cam surface 28a side of the lower cam forming member 28 by the urging force of the cushion spring 32 shown in FIG. Has been.
- the first cam surface 26a on the rotor 26 side and the first fixed cam surface 27a are set so as to have a half-phase (half-pitch) offset from one cam tooth in the axial direction. ing.
- FIG. 6B shows an initial state in which the writing pressure is applied to the writing core by using the mechanical pencil.
- the rotor 26 retracts in the axial direction by contracting the cushion spring 32 via the chuck 5 and the relay pipe 22. Thereby, the rotor 26 moves to the upper cam forming member 27 side.
- FIG. 6C shows a state in which the writing pressure is applied to the writing core by using the mechanical pencil, and the rotor 26 is in contact with the upper cam forming member 27 side.
- the rotor 26 is formed on the rotor 26.
- the first cam surface 26a meshes with the first fixed cam surface 27a on the upper cam forming member 27 side.
- the rotor 26 receives a rotational drive corresponding to a half phase (half pitch) of one tooth of the first cam surface 26a.
- the second cam surface 26b on the rotor 26 side and the second fixed cam surface 28a are half phase (half pitch) with respect to one tooth of the cam in the axial direction. It is set to be in a shifted relationship.
- FIG. 7D shows an initial state in which the writing with the mechanical pencil is finished and the writing pressure on the writing core is released.
- the rotor 26 is moved by the action of the cushion spring 32 described above. Advance in the axial direction. Thereby, the rotor 26 moves to the lower cam forming member 28 side.
- FIG. 7E shows a state in which the rotor 26 is in contact with the lower cam forming member 28 side by the action of the cushion spring 32 described above.
- the second formed on the rotor 26 is shown.
- the cam surface 26b meshes with the second fixed cam surface 28a on the lower cam forming member 28 side.
- the rotor 26 again receives a rotational drive corresponding to a half phase (half pitch) of one tooth of the second cam surface 26b.
- the rotor 26 has the first and second cam surfaces 26a,
- the writing core held by this via the relay pipe 22, the pipe joint 7 and the chuck 5 is also rotationally driven in the same manner by receiving rotational driving corresponding to one tooth (1 pitch) of 26 b.
- the rotor receives a rotational motion corresponding to one tooth of the cam each time by the reciprocation of the rotor 26 in the axial direction by writing, and the writing core is sequentially rotated by this repetition. The Therefore, it is possible to prevent the writing core from being unevenly worn as the writing progresses, and it is possible to solve the problem that the thickness of the drawn line and the darkness of the drawn line change greatly.
- the tip pipe 9 and the slider 8 for guiding the writing core operate integrally with the rotor 26 via the pipe joint 7 and the relay pipe 22.
- the tip pipe 9 and the slider 8 move in the same direction via the relay pipe 22.
- the tip pipe 9 that guides the writing core also moves in the same direction, so that the axial direction between the tip pipe 9 and the writing core is axial. Relative movement does not occur, and the lead-out dimension of the writing core from the tip pipe 9 can be kept constant.
- the tip pipe 9 and the slider 8 are coupled to the rotor 26 via the relay pipe 22, the tip pipe 9 and the slider 8 are similarly subjected to rotational movement when the writing core is subjected to rotational movement. As a result, the tip pipe 9 and the writing core rotate together.
- the mechanical pencil having the above-described configuration it is possible to solve the problem that the writing dimension of the writing core from the tip pipe 9 changes each time during writing and gives a sense of incongruity. Furthermore, the change in the protruding dimension of the writing core from the tip pipe 9 can prevent the core from being broken by cutting the core with the tip pipe, and also eliminates the problem of contaminating the writing surface by scraping the core. be able to.
- the cylindrical torque canceller 31 that pushes the rotor 26 forward by receiving the biasing force of the coiled cushion spring 32 is between the front end face of the torque canceller 31 and the rear end face of the rotor 26. By causing slipping, it acts to prevent the rotational movement of the rotor 26 caused by repeated writing action from being transmitted to the cushion spring 32.
- the torque canceller 31 is interposed between the rotor 26 and the cushion spring 32, thereby preventing the rotational motion of the rotor 26 from being transmitted to the spring 32 due to the sliding action described above.
- the problem that the rotating operation of the rotor 26 is obstructed can be solved by generating the twisting return (spring torque) of the spring 32.
- an adhesive medium preferably adhesive grease (not shown) is interposed between the peripheral side surface of the torque canceller 31 and the inner peripheral surface of the cylinder member 30, so that the cylinder member 30. It is desirable that the torque canceller 31 that moves in the axial direction has a damper effect.
- adhesive grease injection holes 30b are formed at positions facing the 180 degrees of the side wall of the cylinder member 30, respectively. And when the adhesive grease is injected into the torque canceller 31 side through the injection hole 30b, the convex member 31a which seals the grease and spreads the grease over the entire peripheral side surface of the torque canceller 31 and A groove 31b is formed.
- FIGS. 8A and 8C are cross-sectional views of the torque canceller 31 cut at positions orthogonal to each other in the circumferential direction. is there.
- a convex member 31 a is formed at approximately the center position of the torque canceller 31 that faces 180 degrees on the peripheral side surface. Further, immediately after the axial direction adjacent to the convex member 31a of the torque canceller 31, a groove portion 31b that is continuous along the circumferential direction is formed. Further, a circumferential side surface orthogonal to the convex member 31a of the torque canceller 31 is formed with a face-grooving portion 31c processed into a flat shape in the axial direction.
- FIG. 9 illustrates the order in which the torque canceller 31 having the above-described configuration is inserted into the cylinder member 30 and the adhesive grease is injected using the injection hole 30b of the cylinder member 30. That is, on the inner peripheral surface of the cylinder member 30, a concave portion 30c that accommodates the pair of convex members 31a in the torque canceller 31 is formed so as to communicate with the injection hole 30b along the axial direction. Has been.
- FIG. 9A shows the positional relationship between the two when the adhesive grease is injected using the injection hole 30 b of the cylinder member 30.
- FIG. 10A shows a cross-sectional view taken along line aa in FIG. That is, in this state, the convex member 31 a in the torque canceller 31 is positioned in front of the injection hole 30 b formed in the cylinder member 30. In this state, the tip of the nozzle (not shown) is inserted into the injection hole 30b, and the adhesive grease is injected. Thereby, the grease is stored in the concave portion 30 c of the cylinder member 30.
- FIG. 9B shows a state where the torque canceller 31 is slightly pushed into the cylinder member 30 after the adhesive grease is injected, and is a cross-sectional view taken in the direction of the arrow from the line bb in FIG. 9B. Is shown in FIG. In this state, since the convex member 31a in the torque canceller 31 moves rearward from the injection hole 30b of the cylinder member 30, the injection hole 30b formed in the cylinder member 30 and the concave portion 30c in the cylinder member 30 are provided. Is blocked by the convex member 31a of the torque canceller 31, and the concave portion 30c is hermetically sealed. Thereby, the inside of the concave part 30c is made into a grease reservoir of adhesive grease.
- FIG. 9C shows a state where the torque canceller 31 is further pushed into the cylinder member 30, and a cross-sectional view taken in the direction of the arrow from the line cc in FIG. 9C is shown in FIG. C).
- the adhesive grease in the concave portion 30c enclosed in the grease reservoir receives the pressing pressure by the torque canceller 31, and the volume is reduced. Therefore, the adhesive grease enters the groove portion 31b formed in the torque canceller 31. .
- the adhesive grease enters the circumferential side surface of the torque canceller 31 through the groove portion 31b, that is, a slight gap between the torque canceller 31 and the cylinder member 30, and spreads evenly between the two.
- the adhesive grease preferably has a consistency of 100 to 400.
- Examples of the adhesive grease include the product name “Shin-Etsu Silicone Grease” manufactured by Shin-Etsu Chemical Co., Ltd., product number: G330. To 334, G340 to 342, G351 to 353, G631 to 633, etc. can be suitably used.
- the damper function when the torque canceller moves forward by releasing the writing pressure, the damper function can be effectively provided, and the poor feeling of writing caused by the cushion operation described above can be effectively performed. Can be corrected.
- it is possible to easily inject and apply the adhesive grease that performs the damper function and it is also possible to make the amount of adhesive grease applied to the portion that performs the damper function uniform. Therefore, it is possible to extremely reduce the variation in the damper characteristics.
- the cylinder member 30 is formed with a pair of injection holes 30b and a concave portion 30c, while the torque canceller 31 is formed with a pair of convex members 31a. This is a pair for the convenience of the adhesive grease injection and coating operation, and each of these can be formed to perform its function.
- a knock bar 35 as a knock member is slidably attached to the rear shaft 17 in the rear end portion of the inner shaft 17 described above, and between the rear shaft 17 and the knock bar 35.
- a return spring 36 of a knock bar is disposed in the space portion.
- An abutting portion 35 a having a writing core replenishing hole is formed slightly closer to the rear end than the center of the knock bar 35.
- An eraser 37 is detachably attached to the rear end portion of the knock bar 35, and a knock cover 38 covering the eraser 37 is detachably attached to the peripheral surface of the rear end portion of the knock bar 35.
- the abutting portion 35a of the knock bar 35 and the rear end portion of the core case 3 are opposed to each other with a predetermined distance. That is, the core case 3 is separated from the knock bar 35 at the interval without being mechanically connected to the knock bar 35.
- the abutting portion 35a formed on the knock bar 35 and the rear end portion of the core case 3 are opposed to each other with a predetermined interval. Even if the shaft slightly retracts, the rear end portion of the lead case 3 does not collide with the contact portion 35a of the knock bar 35, and it is possible to prevent the rotation operation by the rotation drive mechanism 21 from being obstructed. .
- FIG. 11 and FIG. 12 show an example in which it is possible to display a state in which the rotor 26 in the rotary drive mechanism 21 is rotating in accordance with the writing operation. That is, FIGS. 11A and 11B are perspective views showing the configuration of the rotor 26 described above at different angles.
- the rotor 26 is preferably formed of a white resin material.
- the large-diameter portion of the rotor 26 on which the first cam surface 26a and the second cam surface 26b are formed has a periphery thereof.
- a black display portion 26c is formed at a position opposite to the side surface. That is, white and black display portions 26c are formed at intervals of 90 degrees along the circumferential direction of the large diameter portion.
- FIGS. 12A and 12B show the appearance of a mechanical pencil so that the black and white display portion 26c applied to the rotor 26 can be seen through from the outside.
- the configuration is shown.
- the display portion 26c in black and white is displayed through the window portion 20 formed in a round shape
- (A) shows the state in the display portion 26c as the rotor 26 rotates.
- a state where the boundary between white and black is displayed on the window 20 is shown.
- (B) has shown a mode that the black part in the display part 26c was displayed on the window part 20 with the further rotation of the rotor 26.
- the configuration described above includes the lower cam forming member 28 of the rotation drive mechanism 21 shown in FIG. 5 that covers the outside of the rotor 26, the rear shaft 17 shown in FIG. 2 located outside the rotation drive mechanism 21, and the rear shaft 17.
- Each of the outer shafts 18 covering the outer side of each of the outer shafts 18 is formed of a light-transmitting resin, and for example, the peripheral side surface of the rear shaft 17 is subjected to a coating process while leaving the round-shaped window portion 20 described above. Can do.
- the rotation drive mechanism 21 of the unitized writing core is located behind the mounting position of the grip member because the grip member having a relatively thick thickness is mounted on the shaft cylinder.
- the rotary drive mechanism 21 is accommodated in the rear shaft 17 and is connected to the chuck 5 via a relay pipe 22.
- the relay pipe 22 having a relatively long dimension is employed as in this example, the relay pipe 22 is preferably made of a flexible material, such as polypropylene, together with the core case 3.
- the relay pipe 22 made of the flexible material described above, the molding error of each component constituting the rotation drive mechanism 21, a slight eccentricity based on the assembly, and the relay pipe 22 and the chuck 5 are included. Even if there is an eccentricity or the like caused by the mutual connection of the rotational drive parts of the writing core, the flexibility characteristic of the relay pipe 22 is utilized to effectively eliminate the trouble of the rotational movement of the writing core. be able to.
- a so-called cuticle made by plating a synthetic resin material is used as the above-mentioned mouth part 1.
- a cutlery 1 is formed such that the plating thickness is thicker toward the outer side than the inner side (inner peripheral surface). Therefore, the inner peripheral surface of the cutlery 1 is formed in advance into a tapered surface 1a whose inner diameter slightly increases as it goes to the tip, thereby absorbing the difference in plating thickness, and the inner peripheral surface of the cutlery 1 and the slider 8 The degree of play during can be reduced.
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- Mechanical Pencils And Projecting And Retracting Systems Therefor, And Multi-System Writing Instruments (AREA)
Abstract
A mechanical pencil is configured so as to be able to push a writing lead forward by releasing and gripping said writing lead by means of the frontward and backward movements of a chuck (5), said movement being performed on the basis of the knock operation of a knock member. Moreover, while gripping the writing lead, the chuck is housed in a shaft tube in a manner so as to be able to move frontward and backward, and to be able to rotate about an axis. A rotation driving mechanism (21) which can change the reciprocating movement in the axial direction to a rotational movement is configured as one unit independent from the mechanical pencil main body, and is housed within the aforementioned shaft tube. The rotation driving mechanism (21) and the chuck (5) are connected via a relay pipe (22). By configuring the rotation driving mechanism as one unit independent from the mechanical pencil main body, the rotation driving mechanism becomes versatile in that said mechanism can be used in mechanical pencils with various configurations.
Description
この発明は、筆記圧を利用して筆記芯(替え芯)を回転させることができるシャープペンシルに関する。
This invention relates to a mechanical pencil capable of rotating a writing core (replacement core) using writing pressure.
シャープペンシルによって筆記を行う場合には、一般的には軸筒を筆記面(紙面)に対して直交状態で使用することなく、筆記面に対して若干傾けた状態で使用される場合が多い。この様に軸筒を傾けた状態で筆記した場合においては、書き進むにしたがって筆記芯が偏摩耗(片減り)するために、描線が書き始めに比較して太くなるという現象が発生する。また描線の太さが変るだけでなく、筆記面に対する筆記芯の接触面積が変るために、書き進むにしたがって描線の濃さも変化する(描線が薄くなる)現象が発生する。
When writing with a mechanical pencil, in general, it is often used in a state where the shaft tube is slightly inclined with respect to the writing surface without being used in a state orthogonal to the writing surface (paper surface). In the case of writing with the shaft cylinder tilted in this way, the writing core becomes unevenly worn (decreased) as the writing progresses, so that a phenomenon occurs in which the drawn line becomes thicker than at the beginning of writing. Further, not only the thickness of the drawn line changes, but also the contact area of the writing core with respect to the writing surface changes, so that a phenomenon occurs in which the density of the drawn line changes as the writing progresses (the drawn line becomes thinner).
前記した問題を回避するには、軸筒を回転させつつ筆記するようにすれば、筆記芯の尖っている側が順次紙面に接して筆記されるので、描線が書き進むにしたがって太くなるなどの問題を避けることができる。しかしながら、軸筒を回転させつつ筆記しようとすれば、筆記の進行にしたがって軸筒を持ち直す操作が必要であるという煩わしさが発生し、筆記の能率を著しく落とすとことになる。
In order to avoid the above-mentioned problem, if writing is performed while rotating the shaft tube, the sharp side of the writing core is written in contact with the paper surface sequentially, so that the stroke becomes thicker as the drawing progresses. Can be avoided. However, if it is attempted to write while rotating the shaft cylinder, the troublesome operation of holding the shaft cylinder as the writing progresses is required, and the writing efficiency is significantly reduced.
この場合、軸筒の外装が円筒状に形成されている場合においては、軸筒を持ち直して順次回転させつつ筆記をすることは不可能ではないものの、その外装が円筒状ではなく中腹に突起の付いたデザインであったり、またサイドノック式のシャープペンシルである場合、前記したように軸筒を順次回転させるように持ち直して筆記することも困難となる。
In this case, when the outer casing of the shaft cylinder is formed in a cylindrical shape, it is not impossible to write while holding the shaft cylinder and rotating sequentially, but the outer casing is not cylindrical but has a protrusion on the middle. In the case of the attached design or the side knock type mechanical pencil, it is difficult to rewrite and write the shaft cylinder so as to sequentially rotate as described above.
そこで、前記したような問題を解消するために、筆記芯を把持するチャックが筆記圧を受けて後退するように構成し、この後退動作を利用して前記チャックと共に前記筆記芯を回転させる回転駆動機構を備えたシャープペンシルが次に示す先行技術文献に開示されている。
Therefore, in order to solve the problems as described above, the chuck that grips the writing core is configured to retract by receiving the writing pressure, and the writing core is rotated together with the chuck by using the retracting operation. A mechanical pencil having a mechanism is disclosed in the following prior art documents.
ところで、前記した先行技術文献に開示されたシャープペンシルによると、軸筒内に縦突起と縦溝とが交互に配置され、これらに跨がるように傾斜面を備えたカム部が環状に形成されている。また軸筒内にはその周方向に間欠的に突起を形成した回転子が収容されている。
By the way, according to the mechanical pencil disclosed in the above-mentioned prior art document, the vertical protrusions and the vertical grooves are alternately arranged in the shaft cylinder, and the cam portion having the inclined surface is formed in an annular shape so as to straddle them. Has been. In addition, a rotor in which protrusions are intermittently formed in the circumferential direction is accommodated in the shaft cylinder.
そして、筆記芯を大きく後退させることにより前記回転子を押し上げ、回転子の突起が軸筒内の前記カム部に形成された縦突起を乗り上げ、前記傾斜面を経て隣の縦溝に落ち込むのを利用して回転子を回転せしめ、前記回転子の回転運動を芯ケースに伝達して筆記芯を回転駆動させるように構成されている。これは、ノック式ボールペン等に多用されている周知のカーンノック機構を利用したものである。
Then, the rotor is pushed up by largely retreating the writing core, and the protrusion of the rotor rides on the vertical protrusion formed on the cam portion in the shaft cylinder, and falls into the adjacent vertical groove through the inclined surface. The rotator is rotated by use, and the rotational movement of the rotator is transmitted to the lead case to rotate the writing lead. This utilizes a known karn knock mechanism that is frequently used in knock type ballpoint pens and the like.
前記した構成のシャープペンシルによると、回転子を回転させるにあたって、軸筒内に形成された縦突起を回転子側の突起が乗り越えるに必要な筆記芯の大きな後退ストロークが必要である。このために、筆記により芯が片減りした場合には、通常の筆記圧以上の圧力を筆記芯に加えて回転子を軸筒内で後退させることで、回転子側の突起が軸筒内に形成された前記縦突起を乗り越えさせる筆記とは別の操作が必要となる。この操作は筆記芯が片減りする度に比較的頻繁に行う必要があるため、筆記の能率を落とすという問題が残される。
According to the mechanical pencil having the above-described configuration, when the rotor is rotated, a large retreat stroke of the writing core necessary for the rotor-side protrusion to get over the vertical protrusion formed in the shaft cylinder is necessary. For this reason, when the lead is partially reduced by writing, the rotor-side protrusion is moved into the shaft cylinder by applying a pressure higher than the normal writing pressure to the writing core and moving the rotor back in the shaft cylinder. An operation different from the writing to get over the formed vertical projection is required. Since this operation needs to be performed relatively frequently each time the writing core is reduced, there remains a problem of reducing the writing efficiency.
そこで、本件出願人は前記した先行技術文献に開示されたシャープペンシルの問題点を解消するために、筆記に伴う筆記芯のわずかな後退および前進動作(これを以下において、クッション動作ともいう。)を利用して、筆記芯を回転駆動させるシャープペンシルを、特願2007-339074および特願2007-339075等で出願している。
Therefore, in order to solve the problem of the mechanical pencil disclosed in the above-mentioned prior art document, the applicant of the present application slightly moves back and forwards the writing core accompanying writing (this is also referred to as cushioning operation hereinafter). Japanese Patent Application No. 2007-339074 and Japanese Patent Application No. 2007-339075 have been filed.
前記出願にかかるシャープペンシルにおいては、円筒状に形成された回転子の各端面に第1と第2のカム面が形成され、筆記圧による前記回転子の後退動作によって、前記第1のカム面が、第1の固定カム面に当接して噛み合わされるようになされる。また筆記圧の解除による回転子の前進動作によって、前記第2のカム面が、第2の固定カム面に当接して噛み合わされるようになされる。
In the mechanical pencil according to the application, first and second cam surfaces are formed on each end surface of the rotor formed in a cylindrical shape, and the first cam surface is caused by a retreating operation of the rotor by writing pressure. Are brought into contact with and meshed with the first fixed cam surface. The second cam surface is brought into contact with and meshed with the second fixed cam surface by the forward movement of the rotor by releasing the writing pressure.
そして、前記各カムの往復の噛み合わせにより、回転子が一方向に順次回転されるようになされ、この回転動作が筆記芯を把持するチャックを介して筆記芯に伝達されるように構成されている。
The reciprocal meshing of the cams causes the rotor to rotate sequentially in one direction, and this rotational motion is transmitted to the writing core via a chuck that grips the writing core. Yes.
前記した構成によると、筆記に伴う芯の後退量(クッション動作量)を0.05~0.5mm程度に設定することで、筆記芯を順次回転駆動させることが可能であり、これにより筆記の能率を低下させることのない実用性に優れたシャープペンシルを提供することができる。
According to the above-described configuration, it is possible to sequentially rotate the writing core by setting the retraction amount (cushion movement amount) of the core accompanying writing to about 0.05 to 0.5 mm. It is possible to provide a mechanical pencil excellent in practicality that does not reduce the efficiency.
ところで、前記した筆記芯を回転させる回転駆動機構は、なるべくは筆記芯が突出する口先部に近い軸筒内に配置することが望ましい。この構成によれば、回転駆動機構を構成する各部品の誤差や、回転駆動機構と筆記芯とを中継する回転中継部材等の芯ズレの影響を少なくすることができるので、口先部の内径と、筆記芯を挿通させるスライダーとの間に遊びを持たせる度合いをより少なくさせることができる。
By the way, it is desirable to arrange the rotation drive mechanism for rotating the writing core as described above in the shaft cylinder as close as possible to the mouth portion from which the writing core protrudes. According to this configuration, it is possible to reduce the influence of each component constituting the rotation drive mechanism and the influence of the core misalignment such as the rotation relay member that relays the rotation drive mechanism and the writing core. The degree of play between the slider through which the writing core is inserted can be reduced.
しかしながら、回転駆動機構を備えるこの種のシャープペンシルにおいても、顧客のニーズに応えた多様化を図る必要があり、例えば軸筒の前端部側に比較的肉厚の大きな被覆ゴムによるグリップ部を配置した構成や、軸筒の側壁に筆記芯繰り出し用のサイドノック部材を配置した構成を採用することが考えられる。この場合においては、前記した回転駆動機構を軸筒の後半部側に配置して、回転駆動機構と筆記芯を把持するチャック部との間を回転中継パイプで接続するなどの構成が必要となる。
However, even with this type of mechanical pencil equipped with a rotary drive mechanism, it is necessary to diversify in response to customer needs. For example, a grip part made of a relatively thick coated rubber is placed on the front end side of the barrel. It is conceivable to employ a configuration in which a side knock member for extending a writing core is disposed on the side wall of the shaft cylinder. In this case, a configuration is required in which the rotation drive mechanism described above is arranged on the rear half side of the shaft cylinder, and the rotation drive mechanism and the chuck portion that holds the writing core are connected by a rotation relay pipe. .
したがって、前記回転駆動機構を軸筒内のどの位置に配置するかに応じて、前記した回転駆動機構を含むシャープペンシル全体の設計が変わることになる。特に高水準な設計経験を必要とする前記した回転駆動機構部分については、軸筒内への配置位置が変わることにより、それに応じた新たな開発設計に多くの時間および経費の発生を余儀なくされるという問題を抱えることになる。
Therefore, the overall design of the mechanical pencil including the rotary drive mechanism changes depending on where the rotary drive mechanism is arranged in the shaft cylinder. Especially for the above-mentioned rotary drive mechanism part that requires a high level of design experience, a lot of time and cost are required for a new development design corresponding to the change of the arrangement position in the shaft cylinder. Will have the problem.
この発明は、筆記芯の回転駆動機構を備えたシャープペンシルにおける前記した問題点に着目してなされたものであり、前記した回転駆動機構部分をユニット化して汎用性を持たせることで、回転駆動機構の配置位置がそれぞれに異なる前記した多様な構成のシャープペンシルのそれぞれに対しても、同一構成の回転駆動機構を容易に採用することができるシャープペンシルを提供することを課題とするものである。
The present invention has been made by paying attention to the above-mentioned problems in a mechanical pencil equipped with a rotational drive mechanism for a writing core. An object of the present invention is to provide a mechanical pencil capable of easily adopting the rotational drive mechanism having the same configuration for each of the mechanical pencils having the various configurations described above having different arrangement positions of the mechanisms. .
前記した課題を解決するためになされたこの発明にかかるシャープペンシルは、ノック部材のノック操作に基づくチャックの前後動により筆記芯の解除と把持を行い、前記筆記芯を前方に繰り出すことができるように構成されると共に、前記チャックが前記筆記芯を把持した状態で前後動および軸芯を中心にして回転可能となるように前記軸筒内に収容されたシャープペンシルであって、軸方向の往復運動を回転運動に変換することができる回転駆動機構がシャープペンシル本体とは独立した1つのユニットにより構成されて前記軸筒内に収容され、前記回転駆動機構と前記チャックとが中継部材を介して接続されることで、前記中継部材を介して前記チャックに把持された筆記芯に加わる筆記圧に基づく前後動を前記回転駆動機構に対して往復運動として伝達させると共に、前記回転駆動機構により生成される回転運動をチャックに伝達するように構成したことを特徴とする。
The mechanical pencil according to the present invention, which has been made to solve the above-described problems, can release and grip the writing core by moving the chuck back and forth based on the knocking operation of the knocking member so that the writing core can be fed forward. And a mechanical pencil housed in the shaft cylinder so as to be able to move back and forth and rotate around the shaft core in a state where the chuck grips the writing core, and is reciprocated in the axial direction. A rotational drive mechanism capable of converting motion into rotational motion is constituted by a single unit independent of the mechanical pencil body, and is accommodated in the shaft cylinder, and the rotational drive mechanism and the chuck are connected via a relay member. By being connected, the forward / backward movement based on the writing pressure applied to the writing core gripped by the chuck via the relay member is performed with respect to the rotational drive mechanism. Causes transmitted as reciprocating, characterized by being configured to transmit rotary motion generated by the rotation driving mechanism to the chuck.
この場合、前記中継部材が可撓性の素材により形成されていることが望ましく、さらに前記中継部材は、チャックの後端部に接続された芯ケースの外側に同軸状に配置されていることが望ましい。
In this case, it is desirable that the relay member is formed of a flexible material, and further, the relay member is coaxially disposed outside the core case connected to the rear end portion of the chuck. desirable.
そして好ましい形態において、独立した1つのユニットにより構成された前記回転駆動機構は、軸スプリングにより軸筒内の一部に押し当てられることで、軸筒内における回転駆動機構の回動動作が阻止されるように構成される。
In a preferred embodiment, the rotation drive mechanism constituted by one independent unit is pressed against a part of the shaft cylinder by the shaft spring, thereby preventing the rotation operation of the rotation drive mechanism in the shaft cylinder. Configured to be
一方、前記回転駆動機構の好ましい一つの形態においては、前記中継部材が接続される回転子が具備され、当該回転子は円環状に形成されてその軸方向の一端面および他端面に第1と第2のカム面がそれぞれ形成されると共に、前記第1と第2のカム面にそれぞれ対峙するように第1と第2の固定カム面が具備され、前記筆記圧による前記チャックの後退動作によって、前記円環状回転子における第1のカム面が、前記第1の固定カム面に当接して噛み合わされ、前記筆記圧の解除により前記回転子における第2のカム面が、前記第2の固定カム面に当接して噛み合わされるように構成され、前記回転子側の第1カム面が、前記第1の固定カム面に噛み合わされた状態において、前記回転子側の第2カム面と前記第2の固定カム面が、軸方向においてカムの一歯に対して位相がずれた関係に設定され、前記回転子側の第2カム面が、前記第2の固定カム面に噛み合わされた状態において、前記回転子側の第1カム面と前記第1の固定カム面が、軸方向においてカムの一歯に対して位相がずれた関係に設定される。
On the other hand, in a preferred embodiment of the rotational drive mechanism, a rotor to which the relay member is connected is provided, and the rotor is formed in an annular shape with first and second end surfaces in the axial direction thereof being first and second. Second cam surfaces are respectively formed, and first and second fixed cam surfaces are provided so as to face the first and second cam surfaces, respectively, and the chuck is retracted by the writing pressure. The first cam surface of the annular rotor is brought into contact with and meshed with the first fixed cam surface, and the second cam surface of the rotor becomes the second fixed by releasing the writing pressure. The first cam surface on the rotor side is engaged with the first fixed cam surface and the second cam surface on the rotor side and the second cam surface on the rotor side in a state where the first cam surface on the rotor side is engaged with the first fixed cam surface. The second fixed cam surface is axial The first cam on the rotor side in the state where the phase is shifted with respect to one tooth of the cam and the second cam surface on the rotor side is engaged with the second fixed cam surface. The surface and the first fixed cam surface are set so as to be out of phase with respect to one tooth of the cam in the axial direction.
この場合、前記回転駆動機構には、筆記圧が解除された状態において、前記回転子における第2のカム面を、前記第2の固定カム面に当接させて噛み合わせ状態に付勢するクッションスプリングが具備されていることが望ましい。
In this case, the rotary drive mechanism has a cushion that urges the second cam surface of the rotor to abutment with the second fixed cam surface when the writing pressure is released. Desirably, a spring is provided.
さらに前記した構成に加えて、前記回転駆動機構における前記回転子の後端部と前記クッションスプリングとの間には、前記回転子の後端部との間においてすべりを発生させるトルクキャンセラーが介在され、前記回転子の回転運動が前記クッションスプリングに伝達されるのを阻止するように構成されていることが望ましい。
Further, in addition to the above-described configuration, a torque canceller that generates a slip between the rear end portion of the rotor and the rear end portion of the rotor is interposed between the rear end portion of the rotor and the cushion spring in the rotation drive mechanism. Preferably, the rotor is configured to prevent the rotational motion of the rotor from being transmitted to the cushion spring.
前記したこの発明にかかるシャープペンシルによると、筆記圧を受けることにより回転子を回転駆動させる回転駆動機構が具備され、前記回転子の回転運動はチャックを介して筆記芯に伝達される。したがって、筆記動作に伴って筆記芯は除々に回転駆動を受けるので、書き進むにしたがって筆記芯が偏摩耗するのを防止させることができ、描線の太さや描線の濃さが大きく変化するという問題を解消させることができる。
According to the mechanical pencil according to the present invention described above, there is provided a rotation drive mechanism for rotating the rotor by receiving the writing pressure, and the rotational movement of the rotor is transmitted to the writing core via the chuck. Therefore, since the writing core is gradually rotated with the writing operation, it is possible to prevent the writing core from being unevenly worn as the writing progresses, and the thickness of the drawn line and the density of the drawn line greatly change. Can be eliminated.
加えて、前記回転駆動機構は、シャープペンシル本体とは独立した1つのユニットにより構成されているので、回転駆動機構とチャックとを連結する中継部材としての中継パイプの長さ寸法を定めることで、軸筒内への回転駆動機構の配置位置を任意に定めることができる。したがって、この種のシャープペンシルの多様化に応じて、前記回転駆動機構をそれぞれに利用可能にする汎用性を持たせることができ、個々に開発設計を行う場合に比較して、時間や経費の低減に寄与することができる。
In addition, since the rotation drive mechanism is configured by a single unit independent of the mechanical pencil body, by determining the length dimension of the relay pipe as a relay member that connects the rotation drive mechanism and the chuck, The arrangement position of the rotation drive mechanism in the shaft tube can be arbitrarily determined. Therefore, according to the diversification of this type of mechanical pencil, it is possible to have the versatility of making the rotational drive mechanisms available to each, and compared to the case of individually developing and designing, It can contribute to reduction.
この発明にかかるシャープペンシルについて図に示す実施の形態に基づいて説明する。図1および図2はその全体構成を断面図で示したものであり、図1はシャープペンシルの前半部を示し、図2は後半部を示している。なお、以下に示す各図においては同一部分を同一符号で示しているが、図1および図2に示す全体図においては、その代表的な部分に符号を付けている。
The mechanical pencil according to the present invention will be described based on the embodiments shown in the drawings. 1 and FIG. 2 are sectional views showing the entire configuration. FIG. 1 shows the first half of the mechanical pencil, and FIG. 2 shows the second half. In the drawings shown below, the same portions are denoted by the same reference numerals, but in the overall views shown in FIGS. 1 and 2, the representative portions are denoted by the reference numerals.
符号1で示す口先部(クチプラ)は、金属素材により構成された軸筒を構成する先軸2の先端部に螺合されることで、着脱可能に取り付けられている。そして、前記先軸2および後述する後軸の中心部に沿って筒状の芯ケース3が同軸状に収容されている。この芯ケース3の先端部には図3に示すように短軸の芯ケース継手4が取り付けられ、前記芯ケース継手4を介して真ちゅう製のチャック5が連結されている。
A mouth end portion (cutipula) indicated by reference numeral 1 is detachably attached by being screwed to a tip end portion of a tip shaft 2 constituting a shaft cylinder made of a metal material. And the cylindrical core case 3 is coaxially accommodated along the center part of the front axis | shaft 2 and the rear axis | shaft mentioned later. As shown in FIG. 3, a short shaft core case joint 4 is attached to the tip of the core case 3, and a brass chuck 5 is connected through the core case joint 4.
このチャック5内には、その軸芯に沿って図示せぬ筆記芯の通孔が形成され、また先端部が複数に分割されて、分割された先端部が真ちゅうによりリング状に形成された締め具6内に遊嵌されている。またリング状の前記締め具6は前記チャック5の周囲を覆うようにして配置されたパイプ継手7の内面に装着されている。
In the chuck 5, a writing core hole (not shown) is formed along the axis of the chuck 5, the tip is divided into a plurality of pieces, and the divided tip is formed into a ring shape by brass. It is loosely fitted in the tool 6. The ring-shaped fastener 6 is mounted on the inner surface of a pipe joint 7 arranged so as to cover the periphery of the chuck 5.
前記パイプ継手7の前端部には、前記した口先部1内に収容されてその前端部が口先部より突出される円筒状のスライダー8が取り付けられ、さらにスライダー8の前端部には、筆記芯を案内する先端パイプ9が取り付けられている。なお、前記スライダー8の内面には、図3に示したように軸芯部分に通孔を形成したゴム製の保持チャック10が収容されている。
A cylindrical slider 8 is attached to the front end portion of the pipe joint 7 so that the front end portion of the pipe joint 7 is accommodated in the front end portion 1 and protrudes from the front end portion. The tip pipe 9 which guides is attached. A rubber holding chuck 10 having a through hole formed in the shaft core portion as shown in FIG. 3 is accommodated on the inner surface of the slider 8.
前記した構成により、芯ケース3よりチャック5内に形成された通孔、前記保持チャック10の軸芯に形成された通孔を介して、先端パイプ9に至る直線状の芯挿通孔が形成されており、この直線状の芯挿通孔内に図示せぬ筆記芯が挿通される。そして、前記したパイプ継手7と芯ケース継手4との間には、コイル状のチャックスプリング11が配置されている。
With the configuration described above, a linear core insertion hole reaching the tip pipe 9 is formed through a through hole formed in the chuck 5 from the core case 3 and a through hole formed in the shaft core of the holding chuck 10. A writing core (not shown) is inserted into the linear core insertion hole. A coiled chuck spring 11 is disposed between the pipe joint 7 and the core case joint 4.
なお、前記チャックスプリング11の後端部は前記芯ケース継手4の前端面に、また前記チャックスプリング11の前端部はパイプ継手7の内周面に形成された環状部材に当接した状態で収容されている。したがって、前記チャックスプリング11の作用により、前記チャック5は後退する方向に、すなわち筆記芯を把持する方向に付勢されている。
The rear end portion of the chuck spring 11 is accommodated in the state of contact with the front end surface of the core case joint 4, and the front end portion of the chuck spring 11 is in contact with an annular member formed on the inner peripheral surface of the pipe joint 7. Has been. Therefore, the chuck 5 is urged by the action of the chuck spring 11 in the retreating direction, that is, in the direction of gripping the writing core.
前記した構成による筆記芯の繰り出しユニットにおいては、後で説明するノック部材(ノック棒)をノック操作することで、前記芯ケース4が軸筒内において前進する。この時、前記スライダー8に形成された大径部が口先部1の内面に当接して、その前進が阻まれるため、チャック5の先端部が締め具6から相対的に突出し、チャック5による筆記芯の把持状態が解除される。そして、前記ノック操作の解除により、チャックスプリング11の作用により芯ケース3およびチャック5は軸筒内において後退する。
In the writing lead feeding unit having the above-described configuration, the lead case 4 moves forward in the shaft cylinder by knocking a knock member (knock bar) described later. At this time, the large diameter portion formed on the slider 8 abuts against the inner surface of the lip portion 1 to prevent the forward movement, so that the tip portion of the chuck 5 protrudes relatively from the fastener 6, and writing by the chuck 5 is performed. The gripping state of the lead is released. When the knocking operation is released, the lead case 3 and the chuck 5 are retracted in the shaft cylinder by the action of the chuck spring 11.
この時、筆記芯は保持チャック10に形成された通孔内において摩擦により保持されており、この状態でチャック5が後退してその先端部が前記締め具6内に収容されることで、筆記芯を再び把持状態にする。すなわち、後述するノック棒のノック操作の繰り返しによりチャック5が前後動し、これにより筆記芯の解除と把持が行われ、筆記芯はチャック5から順次前方に繰り出されるように作用する。
At this time, the writing core is held by friction in a through hole formed in the holding chuck 10, and in this state, the chuck 5 is retracted and its tip is accommodated in the fastener 6. The core is again held. That is, the chuck 5 is moved back and forth by repeated knocking operation of a knock bar, which will be described later, whereby the writing core is released and gripped, and the writing core acts so as to be sequentially advanced forward from the chuck 5.
図1および図4に示したように、軸筒を構成する前記先軸2にはグリップ部材13が先軸2を取り巻くようにして装着されている。このグリップ部材13は、図4に詳細に示されているとおり、先軸2の後端部に嵌合された金属製の軸継手14と前記した口先部1との間に装着されている。そして、グリップ部材13はゴム素材により形成された内側層13bと、同じくゴム素材により形成された被覆層13aより構成されており、両者の間には必要に応じてゲル状物質が充填された構成になされている。
As shown in FIGS. 1 and 4, a grip member 13 is mounted on the front shaft 2 constituting the shaft cylinder so as to surround the front shaft 2. As shown in detail in FIG. 4, the grip member 13 is mounted between the metal shaft coupling 14 fitted to the rear end portion of the front shaft 2 and the above-described mouth portion 1. The grip member 13 is composed of an inner layer 13b formed of a rubber material and a coating layer 13a formed of the same rubber material, and a gel-like substance is filled between the two as necessary. Has been made.
なお、前記軸継手14の前端部に形成された鍔部14aを覆うようにして合成樹脂製の軸飾り15が嵌め込まれており、前記グリップ部材13の後端部は、前記軸飾り15に覆われるようにして装着されている。
A synthetic resin shaft ornament 15 is fitted so as to cover the flange 14 a formed at the front end portion of the shaft coupling 14, and the rear end portion of the grip member 13 is covered with the shaft ornament 15. It is installed as shown.
前記軸継手14の外周面には螺旋状のねじが形成されており、このねじを利用して図2に示すように軸筒を構成する後軸17がねじ込まれて取り付けられている。また後軸17の外側を覆うようにしてクリップ部18aが一体に成形された外軸18が装着されており、この外軸18は、前記後軸17の後端部に螺着された止めリング19によって、前記軸飾り15との間で軸方向に挟み込まれるようにして取り付けられている。
A helical screw is formed on the outer peripheral surface of the shaft coupling 14, and the rear shaft 17 constituting the shaft cylinder is screwed and attached using this screw as shown in FIG. An outer shaft 18 in which a clip portion 18a is integrally formed is attached so as to cover the outer side of the rear shaft 17. The outer shaft 18 is a retaining ring screwed to the rear end portion of the rear shaft 17. 19 is attached so as to be sandwiched between the shaft decoration 15 and the shaft decoration 15.
この実施の形態においては前記したとおり、先軸2側に比較的肉厚のグリップ部材13が装着されている関係で、筆記芯の回転駆動機構21は、図2に示すようにグリップ部材13の装着位置よりも後方である前記後軸17と芯ケース3との間に配置されている。この回転駆動機構21の構成は後で詳細に説明するが、シャープペンシル本体とは独立した1つのユニットにより構成されて前記軸筒内に収容されている。
In this embodiment, as described above, the relatively thick grip member 13 is mounted on the front shaft 2 side, so that the rotation driving mechanism 21 of the writing core has the grip member 13 as shown in FIG. It is arranged between the rear shaft 17 and the core case 3 which are behind the mounting position. Although the structure of the rotation drive mechanism 21 will be described in detail later, it is configured by a single unit independent of the mechanical pencil body and is accommodated in the shaft cylinder.
そして、汎用品として利用できるようにユニット化された前記回転駆動機構21には、図3に示すように可撓性の素材により構成された中継部材として機能するパイプ部材(以下、中継パイプとも言う。)22の後端部が接続されており、当該中継パイプ22の前端部は、チャック5を支持するパイプ継手7に接続されている。
The rotary drive mechanism 21 unitized so that it can be used as a general-purpose product has a pipe member (hereinafter also referred to as a relay pipe) that functions as a relay member made of a flexible material as shown in FIG. .) 22 is connected to the rear end, and the front end of the relay pipe 22 is connected to the pipe joint 7 that supports the chuck 5.
すなわち、前記中継パイプ22は前記芯ケース3を覆うようにして同軸状に配置されており、当該中継パイプ22は、筆記動作に基づく筆記芯の後退および前進動作(クッション動作)を回転駆動機構21に伝達させると共に、クッション動作によって生ずる前記回転駆動機構21による回転運動を前記中継パイプ22を介して前記パイプ継手7およびチャック5に伝達させるように作用する。
That is, the relay pipe 22 is coaxially arranged so as to cover the core case 3, and the relay pipe 22 performs a retraction and forward movement (cushion movement) of the writing core based on the writing movement. And the rotational motion by the rotational drive mechanism 21 generated by the cushion operation is transmitted to the pipe joint 7 and the chuck 5 via the relay pipe 22.
なお、前記回転駆動機構21は、図2に示されているとおり、その前端部において前記軸継手14との間に介在された軸スプリング24によって後方に付勢されている。また回転駆動機構21の後端部は前記後軸17内の縮径により形成された段部17aに、前記軸スプリング24の付勢力により当接している。
Note that, as shown in FIG. 2, the rotary drive mechanism 21 is urged rearward by a shaft spring 24 interposed between the shaft coupling 14 and the front end portion thereof. The rear end portion of the rotary drive mechanism 21 is in contact with the stepped portion 17 a formed by the reduced diameter in the rear shaft 17 by the urging force of the shaft spring 24.
すなわち、この実施の形態においては、ユニット化された前記回転駆動機構21は後軸17内の段部17aに当接することによる摩擦により回動が規制され、前記したクッション動作によって生ずる前記回転駆動機構21による回転運動を、前記チャック5側に伝達させるように作用する。なお、前記回転駆動機構21の軸筒内への取り付けは前記した構成に限られることなく、回転駆動機構21を軸筒の一部に例えば嵌め込みの手段により取り付けるようにしてもよい。
That is, in this embodiment, the rotation drive mechanism 21 that is unitized is restricted from rotating by friction due to contact with the stepped portion 17a in the rear shaft 17, and the rotation drive mechanism generated by the cushion operation described above. It acts to transmit the rotational motion by 21 to the chuck 5 side. The mounting of the rotation drive mechanism 21 in the shaft tube is not limited to the above-described configuration, and the rotation drive mechanism 21 may be mounted on a part of the shaft tube by, for example, fitting means.
図5は、ユニット化された前記回転駆動機構21の構成を拡大して示したものである。この回転駆動機構21には円筒状に形成された回転子26が具備されており、前記した中継パイプ22は、回転駆動機構21の前端部において、前記回転子26の内周面に嵌合することで結合されている。
FIG. 5 is an enlarged view of the configuration of the unitized rotation drive mechanism 21. The rotary drive mechanism 21 includes a rotor 26 formed in a cylindrical shape, and the relay pipe 22 is fitted to the inner peripheral surface of the rotor 26 at the front end portion of the rotary drive mechanism 21. Are combined.
前記回転子26は、その前端部付近が若干径を太くした太径部になされ、その太径部の一端面(後端面)には第1のカム面26aが形成されており、太径部の他端面(前端面)には第2のカム面26bが形成されている。一方、前記回転子26の後端部側を覆うようにして円筒状の上カム形成部材27が、前記回転子26との間で回動可能に配置されており、前記上カム形成部材27の前端部外周には、円筒状の下カム形成部材28が嵌合されて取り付けられている。
The rotor 26 has a large-diameter portion with a slightly larger diameter near the front end, and a first cam surface 26a is formed on one end surface (rear end surface) of the large-diameter portion. A second cam surface 26b is formed on the other end surface (front end surface). On the other hand, a cylindrical upper cam forming member 27 is disposed so as to be rotatable with respect to the rotor 26 so as to cover the rear end side of the rotor 26. A cylindrical lower cam forming member 28 is fitted and attached to the outer periphery of the front end.
そして、前記回転子26における第1のカム面26aに対峙する上カム形成部材27の前端面に、固定カム面(第1の固定カム面ともいう。)27aが形成されている。また、前記回転子26における第2のカム面26bに対峙する下カム形成部材28の前端部内面に、固定カム面(第2の固定カム面ともいう。)28aが形成されている。
A fixed cam surface (also referred to as a first fixed cam surface) 27a is formed on the front end surface of the upper cam forming member 27 facing the first cam surface 26a of the rotor 26. A fixed cam surface (also referred to as a second fixed cam surface) 28a is formed on the inner surface of the front end portion of the lower cam forming member 28 facing the second cam surface 26b of the rotor 26.
なお、前記回転子26に形成されている第1と第2のカム面26a,26bと、前記第1の固定カム面27a、第2の固定カム面28aとの関係および相互の作用については、図6および図7に基づいて後で詳細に説明する。
Regarding the relationship between the first and second cam surfaces 26a, 26b formed on the rotor 26, the first fixed cam surface 27a, and the second fixed cam surface 28a and their interaction, Details will be described later with reference to FIGS.
図5に示すように、前記した上カム形成部材27の後端部側には、シリンダー部材30が嵌め込まれており、このシリンダー部材30の後端部には芯ケース3が挿通できる挿通孔30aが形成されている。そして、前記シリンダー部材30内には円筒状に形成され軸方向に移動可能なトルクキャンセラー31が配置され、当該トルクキャンセラー31の内周面前端と前記シリンダー部材30の内周面後端との間にはコイル状のクッションスプリング32が装着されている。
As shown in FIG. 5, the cylinder member 30 is fitted on the rear end portion side of the upper cam forming member 27 described above, and the insertion hole 30 a into which the core case 3 can be inserted into the rear end portion of the cylinder member 30. Is formed. A torque canceller 31 that is formed in a cylindrical shape and is movable in the axial direction is disposed in the cylinder member 30. Between the front end of the inner peripheral surface of the torque canceller 31 and the rear end of the inner peripheral surface of the cylinder member 30. A coiled cushion spring 32 is attached to the.
前記クッションスプリング32は、前記トルクキャンセラー31を前方に付勢するように作用し、この付勢力を受けた前記トルクキャンセラー31に押されて前記回転子26は前方に向かうように作用する。
The cushion spring 32 acts to urge the torque canceller 31 forward, and is pushed by the torque canceller 31 receiving the urging force, so that the rotor 26 acts forward.
以上のとおり前記した回転駆動機構21は、その中央部が芯ケース3を通す空間部になされて芯ケース3とは隔離されており、前記した符号26~32で示す各部材により一体に結合されてユニット化されている。
As described above, the rotation drive mechanism 21 has a central portion that is a space through which the lead case 3 passes and is isolated from the lead case 3, and is integrally coupled by the members 26 to 32 described above. Are unitized.
前記した回転駆動機構21の構成によると、チャック5が筆記芯を把持した状態で、前記回転子26は中継パイプ22を介してチャック5と共に軸芯を中心にして回転可能になされている。そして、シャープペンシルが筆記状態以外の場合においては、前記クッションスプリング32の作用により前記トルクキャンセラー31を介して回転子26は前方に付勢されている。
According to the configuration of the rotation drive mechanism 21 described above, the rotor 26 can rotate around the shaft core together with the chuck 5 via the relay pipe 22 in a state where the chuck 5 holds the writing core. When the mechanical pencil is not in a writing state, the rotor 26 is biased forward via the torque canceller 31 by the action of the cushion spring 32.
一方、シャープペンシルを使用した場合、すなわち先端パイプ9から突出している筆記芯に筆記圧が加わった場合には、前記チャック5は前記クッションスプリング32の付勢力に抗して後退し、これに伴って回転子26も軸方向に後退する。したがって、図5に示す回転子26に形成された第1のカム面26aは前記第1の固定カム面27aに接合して噛み合い状態になされる。
On the other hand, when a mechanical pencil is used, that is, when a writing pressure is applied to the writing core protruding from the tip pipe 9, the chuck 5 moves backward against the urging force of the cushion spring 32. Thus, the rotor 26 is also retracted in the axial direction. Therefore, the first cam surface 26a formed on the rotor 26 shown in FIG. 5 is brought into mesh with the first fixed cam surface 27a.
図6(A)~(C)および図7(D),(E)は、前記した動作により回転子26を回転駆動させる回転駆動機構21の基本動作を順を追って説明するものである。図6および図7において、符号26は前記した回転子を模式的に示したものであり、その一端面(図の上側の面)には、周方向に沿って連続的に鋸歯状になされた第1のカム面26aが円環状に形成されている。また回転子26の他端面(図の下側の面)にも、同様に周方向に沿って連続的に鋸歯状になされた第2のカム面26bが円環状に形成されている。
6 (A) to 6 (C) and FIGS. 7 (D) and (E) explain the basic operation of the rotation drive mechanism 21 that rotates the rotor 26 by the above-described operation in order. 6 and 7, reference numeral 26 schematically shows the above-described rotor, and one end surface (the upper surface in the drawing) is continuously serrated along the circumferential direction. The first cam surface 26a is formed in an annular shape. Similarly, a second cam surface 26b that is continuously serrated along the circumferential direction is formed in an annular shape on the other end surface (the lower surface in the drawing) of the rotor 26.
一方、図6および図7に示すように、上カム形成部材27の円環状の端面にも周方向に沿って連続的に鋸歯状になされた第1の固定カム面27aが形成されており、下カム形成部材28の円環状の端面にも周方向に沿って連続的に鋸歯状になされた第2の固定カム面28aが形成されている。
On the other hand, as shown in FIGS. 6 and 7, the first fixed cam surface 27a continuously formed in a sawtooth shape along the circumferential direction is also formed on the annular end surface of the upper cam forming member 27, A second fixed cam surface 28 a that is continuously serrated along the circumferential direction is also formed on the annular end surface of the lower cam forming member 28.
そして、回転子26に形成された第1のカム面26a、第2のカム面26b、上カム形成部材27に形成された第1の固定カム面27a、下カム形成部材28に形成された第2の固定カム面28aの周方向に沿って鋸歯状に形成された各カム面は、そのピッチが互いにほぼ同一となるように形成されている。なお、図6および図7における回転子26の中央部に描いた○印は、回転子26の回転移動状態を示している。
Then, the first cam surface 26 a formed on the rotor 26, the second cam surface 26 b, the first fixed cam surface 27 a formed on the upper cam forming member 27, and the first cam surface formed on the lower cam forming member 28. The cam surfaces formed in a sawtooth shape along the circumferential direction of the two fixed cam surfaces 28a are formed so that their pitches are substantially the same. 6 and 7, the circles drawn at the center of the rotor 26 indicate the rotational movement state of the rotor 26.
図6(A)は、シャープペンシルが不使用の状態(筆記状態以外の場合)における上カム形成部材27、回転子26、下カム形成部材28の関係を示したものである。この状態においては、回転子26に形成された第2のカム面26bは、下カム形成部材28の第2の固定カム面28a側に、図5に示したクッションスプリング32の付勢力により当接されている。この時、前記回転子26側の第1カム面26aと前記第1の固定カム面27aが、軸方向においてカムの一歯に対して半位相(半ピッチ)ずれた関係となるように設定されている。
FIG. 6A shows the relationship among the upper cam forming member 27, the rotor 26, and the lower cam forming member 28 when the mechanical pencil is not used (in the case other than the writing state). In this state, the second cam surface 26b formed on the rotor 26 is brought into contact with the second fixed cam surface 28a side of the lower cam forming member 28 by the urging force of the cushion spring 32 shown in FIG. Has been. At this time, the first cam surface 26a on the rotor 26 side and the first fixed cam surface 27a are set so as to have a half-phase (half-pitch) offset from one cam tooth in the axial direction. ing.
図6(B)は、シャープペンシルの使用により筆記芯に筆記圧が加わった初期の状態を示している。この場合においては、チャック5および中継パイプ22を介して、回転子26はクッションスプリング32を収縮させて軸方向に後退する。これにより、回転子26は上カム形成部材27側に移動する。
FIG. 6B shows an initial state in which the writing pressure is applied to the writing core by using the mechanical pencil. In this case, the rotor 26 retracts in the axial direction by contracting the cushion spring 32 via the chuck 5 and the relay pipe 22. Thereby, the rotor 26 moves to the upper cam forming member 27 side.
図6(C)は、シャープペンシルの使用により筆記芯に筆記圧が加わり、回転子26が上カム形成部材27側に当接した状態を示しており、この場合においては回転子26に形成された第1カム面26aが、上カム形成部材27側の第1の固定カム面27aに噛み合う。これにより回転子26は第1カム面26aの一歯の半位相(半ピッチ)に相当する回転駆動を受ける。そして図6(C)に示す状態においては、前記回転子26側の第2カム面26bと前記第2の固定カム面28aが、軸方向においてカムの一歯に対して半位相(半ピッチ)ずれた関係となるように設定されている。
FIG. 6C shows a state in which the writing pressure is applied to the writing core by using the mechanical pencil, and the rotor 26 is in contact with the upper cam forming member 27 side. In this case, the rotor 26 is formed on the rotor 26. Further, the first cam surface 26a meshes with the first fixed cam surface 27a on the upper cam forming member 27 side. Thereby, the rotor 26 receives a rotational drive corresponding to a half phase (half pitch) of one tooth of the first cam surface 26a. In the state shown in FIG. 6C, the second cam surface 26b on the rotor 26 side and the second fixed cam surface 28a are half phase (half pitch) with respect to one tooth of the cam in the axial direction. It is set to be in a shifted relationship.
次に図7(D)は、シャープペンシルによる筆記が終わり、筆記芯に対する筆記圧が解かれた初期の状態を示しており、この場合においては、前記したクッションスプリング32の作用により回転子26は軸方向に前進する。これにより、回転子26は下カム形成部材28側に移動する。
Next, FIG. 7D shows an initial state in which the writing with the mechanical pencil is finished and the writing pressure on the writing core is released. In this case, the rotor 26 is moved by the action of the cushion spring 32 described above. Advance in the axial direction. Thereby, the rotor 26 moves to the lower cam forming member 28 side.
さらに図7(E)は、前記したクッションスプリング32の作用により、回転子26が下カム形成部材28側に当接した状態を示しており、この場合においては回転子26に形成された第2カム面26bが、下カム形成部材28側の第2の固定カム面28aに噛み合う。これにより回転子26は第2カム面26bの一歯の半位相(半ピッチ)に相当する回転駆動を再び受ける。
Further, FIG. 7E shows a state in which the rotor 26 is in contact with the lower cam forming member 28 side by the action of the cushion spring 32 described above. In this case, the second formed on the rotor 26 is shown. The cam surface 26b meshes with the second fixed cam surface 28a on the lower cam forming member 28 side. As a result, the rotor 26 again receives a rotational drive corresponding to a half phase (half pitch) of one tooth of the second cam surface 26b.
したがって、回転子26の中央部に描いた○印で示すように、筆記圧を受けた回転子26の軸方向への往復運動に伴って回転子26は、第1および第2カム面26a,26bの一歯(1ピッチ)に相当する回転駆動を受け、前記した中継パイプ22、パイプ継手7およびチャック5を介して、これに把持された筆記芯も同様に回転駆動される。
Therefore, as indicated by the circles drawn at the center of the rotor 26, the rotor 26 has the first and second cam surfaces 26a, The writing core held by this via the relay pipe 22, the pipe joint 7 and the chuck 5 is also rotationally driven in the same manner by receiving rotational driving corresponding to one tooth (1 pitch) of 26 b.
前記した構成のシャープペンシルによると、筆記による回転子26の軸方向への往復動作により、回転子はその都度カムの一歯に対応する回転運動を受け、この繰り返しにより筆記芯は順次回転駆動される。それ故、書き進むにしたがって筆記芯が偏摩耗するのを防止させることができ、描線の太さや描線の濃さが大きく変化するという問題を解消することができる。
According to the mechanical pencil having the above-described configuration, the rotor receives a rotational motion corresponding to one tooth of the cam each time by the reciprocation of the rotor 26 in the axial direction by writing, and the writing core is sequentially rotated by this repetition. The Therefore, it is possible to prevent the writing core from being unevenly worn as the writing progresses, and it is possible to solve the problem that the thickness of the drawn line and the darkness of the drawn line change greatly.
さらに、前記した構成のシャープペンシルによると、筆記芯を案内する先端パイプ9およびスライダー8は、パイプ継手7および中継パイプ22を介して前記回転子26と一体となって動作するので、筆記動作に伴う前記したチャック5の後退および前進動作に伴い、先端パイプ9およびスライダー8は中継パイプ22を介して同方向に移動する。
Furthermore, according to the mechanical pencil having the above-described configuration, the tip pipe 9 and the slider 8 for guiding the writing core operate integrally with the rotor 26 via the pipe joint 7 and the relay pipe 22. As the chuck 5 moves backward and forward, the tip pipe 9 and the slider 8 move in the same direction via the relay pipe 22.
したがって筆記動作に伴い、筆記芯がわずかに前後動(クッション動作)しても、筆記芯を案内する先端パイプ9も同方向に移動するので、先端パイプ9と筆記芯との間において軸方向の相対移動が生ずることはなく、先端パイプ9からの筆記芯の出寸法を一定に保つことができる。
Therefore, even if the writing core slightly moves back and forth (cushioning) with the writing operation, the tip pipe 9 that guides the writing core also moves in the same direction, so that the axial direction between the tip pipe 9 and the writing core is axial. Relative movement does not occur, and the lead-out dimension of the writing core from the tip pipe 9 can be kept constant.
また、先端パイプ9およびスライダー8は中継パイプ22を介して前記回転子26に結合されているので、筆記芯が回転運動を受けた場合に、先端パイプ9およびスライダー8も同様に回転運動を受けることになり、先端パイプ9と筆記芯は一体となって回転することになる。
Since the tip pipe 9 and the slider 8 are coupled to the rotor 26 via the relay pipe 22, the tip pipe 9 and the slider 8 are similarly subjected to rotational movement when the writing core is subjected to rotational movement. As a result, the tip pipe 9 and the writing core rotate together.
したがって、前記した構成のシャープペンシルによると、筆記中において先端パイプ9からの筆記芯の出寸法がその都度変化して違和感を与えるという問題を解消させることができる。さらに先端パイプ9からの筆記芯の出寸法の変化により先端パイプにより芯を切削することによる芯折れの発生を防止させることができ、また芯の削りかすにより筆記面を汚染させるという問題も解消することができる。
Therefore, according to the mechanical pencil having the above-described configuration, it is possible to solve the problem that the writing dimension of the writing core from the tip pipe 9 changes each time during writing and gives a sense of incongruity. Furthermore, the change in the protruding dimension of the writing core from the tip pipe 9 can prevent the core from being broken by cutting the core with the tip pipe, and also eliminates the problem of contaminating the writing surface by scraping the core. be able to.
なお、前記したコイル状のクッションスプリング32の付勢力を受けて回転子26を前方に押し出す円筒状のトルクキャンセラー31は、このトルクキャンセラー31の前端面と前記回転子26の後端面との間ですべりを発生させて、筆記作用の繰り返しにより生ずる前記回転子26の回転運動を、クッションスプリング32に伝達させるのを防止させるように作用する。
The cylindrical torque canceller 31 that pushes the rotor 26 forward by receiving the biasing force of the coiled cushion spring 32 is between the front end face of the torque canceller 31 and the rear end face of the rotor 26. By causing slipping, it acts to prevent the rotational movement of the rotor 26 caused by repeated writing action from being transmitted to the cushion spring 32.
換言すれば、前記回転子26とクッションスプリング32との間に、トルクキャンセラー31が介在されることにより、前記回転子26の回転運動が前記したすべり作用により前記スプリング32に伝達されるのを阻止するように作用し、スプリング32の捩じれ戻り(バネトルク)が発生することで、回転子26の回転動作に障害を与えるという問題を解消させることができる。
In other words, the torque canceller 31 is interposed between the rotor 26 and the cushion spring 32, thereby preventing the rotational motion of the rotor 26 from being transmitted to the spring 32 due to the sliding action described above. Thus, the problem that the rotating operation of the rotor 26 is obstructed can be solved by generating the twisting return (spring torque) of the spring 32.
ところで、前記した回転駆動機構21によると、図5に示すクッションスプリング32の付勢力に対抗した前記したクッション動作においては、筆記中において「ヘコヘコ」または「カチャカチャ」した感じが付きまとい筆記の感触が悪いという問題が残される。これを解消させるため、前記トルクキャンセラー31の周側面と前記シリンダー部材30の内周面との間に、粘着性媒体、好ましくは粘着性グリス(図示せず)を介在させることで、シリンダー部材30内を軸方向に移動するトルクキャンセラー31にダンパー効果を持たせることが望ましい。
By the way, according to the rotation drive mechanism 21 described above, in the above-described cushioning operation against the urging force of the cushion spring 32 shown in FIG. The problem remains. In order to solve this problem, an adhesive medium, preferably adhesive grease (not shown) is interposed between the peripheral side surface of the torque canceller 31 and the inner peripheral surface of the cylinder member 30, so that the cylinder member 30. It is desirable that the torque canceller 31 that moves in the axial direction has a damper effect.
このために、図5に示すようにシリンダー部材30の側壁の180度対向する位置に、粘着性グリスの注入孔30bがそれぞれ形成されている。そして、トルクキャンセラー31側には、前記注入孔30bを介して粘着性グリスを注入した時に、当該グリスを封止してトルクキャンセラー31の周側面の全体に前記グリスを行き渡らせる凸状部材31aおよび溝部31bが形成されている。
For this purpose, as shown in FIG. 5, adhesive grease injection holes 30b are formed at positions facing the 180 degrees of the side wall of the cylinder member 30, respectively. And when the adhesive grease is injected into the torque canceller 31 side through the injection hole 30b, the convex member 31a which seals the grease and spreads the grease over the entire peripheral side surface of the torque canceller 31 and A groove 31b is formed.
前記したシリンダー部材30とトルクキャンセラー31のより詳細な構成およびその作用について、図8~図10に基づいて説明する。図8(A)は前記トルクキャンセラー31の外観構成を示し、また図8(B)および図8(C)は、トルクキャンセラー31を周方向の互いに直交する位置でそれぞれ切断した状態の断面図である。
A more detailed configuration and operation of the cylinder member 30 and the torque canceller 31 will be described with reference to FIGS. 8A shows an external configuration of the torque canceller 31, and FIGS. 8B and 8C are cross-sectional views of the torque canceller 31 cut at positions orthogonal to each other in the circumferential direction. is there.
このトルクキャンセラー31の周側面における180度対向するほぼ中央位置には、凸状部材31aがそれぞれ形成されている。またトルクキャンセラー31の前記凸状部材31aに隣接する軸方向の直後には、周方向に沿って連続する溝部31bが形成されている。さらにトルクキャンセラー31の前記凸状部材31aに直交する周側面は、軸方向に平面状に加工された面そぎ部31cが形成されている。
A convex member 31 a is formed at approximately the center position of the torque canceller 31 that faces 180 degrees on the peripheral side surface. Further, immediately after the axial direction adjacent to the convex member 31a of the torque canceller 31, a groove portion 31b that is continuous along the circumferential direction is formed. Further, a circumferential side surface orthogonal to the convex member 31a of the torque canceller 31 is formed with a face-grooving portion 31c processed into a flat shape in the axial direction.
図9は、前記した構成のトルクキャンセラー31を、シリンダー部材30内に挿入し、シリンダー部材30の注入孔30bを利用して粘着性グリスを注入する順序を説明するものである。すなわち、前記シリンダー部材30の内周面には、前記トルクキャンセラー31における一対の凸状部材31aが収容される凹状部30cが軸方向に沿って、かつ前記注入孔30bに連通するようにそれぞれ形成されている。
FIG. 9 illustrates the order in which the torque canceller 31 having the above-described configuration is inserted into the cylinder member 30 and the adhesive grease is injected using the injection hole 30b of the cylinder member 30. That is, on the inner peripheral surface of the cylinder member 30, a concave portion 30c that accommodates the pair of convex members 31a in the torque canceller 31 is formed so as to communicate with the injection hole 30b along the axial direction. Has been.
図9(A)は、シリンダー部材30の注入孔30bを利用して粘着性グリスを注入する場合における両者の位置関係を示している。なお、図9(A)においてa-a線より矢印方向に視た断面図を図10(A)に示している。すなわち、この状態はトルクキャンセラー31における凸状部材31aが、シリンダー部材30に形成された注入孔30bよりも前方に位置している。この状態で前記注入孔30bに図示せぬノズルの先端部を挿入して、前記粘着性グリスが注入される。これにより前記グリスは、シリンダー部材30の凹状部30c内に貯留される。
FIG. 9A shows the positional relationship between the two when the adhesive grease is injected using the injection hole 30 b of the cylinder member 30. Note that FIG. 10A shows a cross-sectional view taken along line aa in FIG. That is, in this state, the convex member 31 a in the torque canceller 31 is positioned in front of the injection hole 30 b formed in the cylinder member 30. In this state, the tip of the nozzle (not shown) is inserted into the injection hole 30b, and the adhesive grease is injected. Thereby, the grease is stored in the concave portion 30 c of the cylinder member 30.
図9(B)は、粘着性グリスの注入後にトルクキャンセラー31をシリンダー部材30内に若干押し込んだ状態を示すものであり、図9(B)におけるb-b線より矢印方向に視た断面図を図10(B)に示している。この状態においては、トルクキャンセラー31における凸状部材31aが、シリンダー部材30の注入孔30bよりも後方に移動するために、シリンダー部材30に形成された注入孔30bとシリンダー部材30内の凹状部30cは、トルクキャンセラー31の凸状部材31aによって遮断され、また前記凹状部30cは密閉状態になされる。これにより、前記凹状部30c内は粘着性グリスのグリス溜まりになされる。
FIG. 9B shows a state where the torque canceller 31 is slightly pushed into the cylinder member 30 after the adhesive grease is injected, and is a cross-sectional view taken in the direction of the arrow from the line bb in FIG. 9B. Is shown in FIG. In this state, since the convex member 31a in the torque canceller 31 moves rearward from the injection hole 30b of the cylinder member 30, the injection hole 30b formed in the cylinder member 30 and the concave portion 30c in the cylinder member 30 are provided. Is blocked by the convex member 31a of the torque canceller 31, and the concave portion 30c is hermetically sealed. Thereby, the inside of the concave part 30c is made into a grease reservoir of adhesive grease.
続いて図9(C)は、トルクキャンセラー31をシリンダー部材30内にさらに押し込んだ状態を示すものであり、図9(C)におけるc-c線より矢印方向に視た断面図を図10(C)に示している。この状態においては、グリス溜まりに封入された凹状部30c内の粘着性グリスは、トルクキャンセラー31による押し込み圧力を受けて容積が縮小されるために、トルクキャンセラー31に形成された前記溝部31bに入り込む。
9C shows a state where the torque canceller 31 is further pushed into the cylinder member 30, and a cross-sectional view taken in the direction of the arrow from the line cc in FIG. 9C is shown in FIG. C). In this state, the adhesive grease in the concave portion 30c enclosed in the grease reservoir receives the pressing pressure by the torque canceller 31, and the volume is reduced. Therefore, the adhesive grease enters the groove portion 31b formed in the torque canceller 31. .
そして、粘着性グリスは前記溝部31bを経由してトルクキャンセラー31の周側面、すなわちトルクキャンセラー31とシリンダー部材30との間のわずかな隙間に浸入して、両者の間に満遍なく行き渡る。
Then, the adhesive grease enters the circumferential side surface of the torque canceller 31 through the groove portion 31b, that is, a slight gap between the torque canceller 31 and the cylinder member 30, and spreads evenly between the two.
この時、凹状部30cにより形成されたるグリス溜まりに封入された余剰な粘着性グリスは、前記溝部31bを経由して図10(C)に示すように、トルクキャンセラー31の周側面に形成された前記面そぎ部31cと、シリンダー部材30との間の隙間(面そぎ部と同一の符号31cで示す。)内に入り込み貯留される。
At this time, excess adhesive grease sealed in the grease reservoir formed by the concave portion 30c was formed on the peripheral side surface of the torque canceller 31 via the groove portion 31b as shown in FIG. 10C. It enters and is stored in the gap between the chamfered portion 31c and the cylinder member 30 (indicated by the same reference numeral 31c as that of the chamfered portion).
なお、前記粘着性グリスとしては、そのちょう度が100~400の範囲のものを用いることが望ましく、前記粘着性グリスとしては、例えば信越化学工業社製の商品名「信越シリコーングリス」品番:G330~334,G340~342,G351~353,G631~633などを好適に利用することができる。
The adhesive grease preferably has a consistency of 100 to 400. Examples of the adhesive grease include the product name “Shin-Etsu Silicone Grease” manufactured by Shin-Etsu Chemical Co., Ltd., product number: G330. To 334, G340 to 342, G351 to 353, G631 to 633, etc. can be suitably used.
これにより、前記トルクキャンセラー31の急激な軸方向への移動動作には大きな粘性抵抗が付与され、比較的緩慢に動く静的な荷重に対しては粘性抵抗が非常に小さくなるダンパー機能を与えることができる。
Accordingly, a large viscous resistance is imparted to the sudden movement of the torque canceller 31 in the axial direction, and a damper function is provided that makes the viscous resistance extremely small for a static load that moves relatively slowly. Can do.
したがって前記した構成によると、筆記圧の解除によりトルクキャンセラーが前進移動する場合において、効果的にダンパーの機能を与えることができ、前記したクッション動作に伴って発生する筆記の感触の悪さを効果的に是正させることができる。加えて、前記した構成によると、ダンパー機能を果たす粘着性グリスの注入および塗布操作を容易にすることができ、またダンパー機能を果たす部分への粘着性グリスの塗布量も均一にすることができるので、ダンパー特性のバラツキを極めて小さくすることが可能となる。
Therefore, according to the above-described configuration, when the torque canceller moves forward by releasing the writing pressure, the damper function can be effectively provided, and the poor feeling of writing caused by the cushion operation described above can be effectively performed. Can be corrected. In addition, according to the above-described configuration, it is possible to easily inject and apply the adhesive grease that performs the damper function, and it is also possible to make the amount of adhesive grease applied to the portion that performs the damper function uniform. Therefore, it is possible to extremely reduce the variation in the damper characteristics.
なお、前記した実施の形態においては、シリンダー部材30には一対の注入孔30bと凹状部30cがそれぞれ形成され、一方、前記トルクキャンセラー31には一対の凸状部材31aが形成されているが、これは粘着性グリスの注入および塗布操作の作業の利便性のために一対になされているもので、これらはそれぞれ1つ形成されることで、その機能を果たすことができる。
In the above-described embodiment, the cylinder member 30 is formed with a pair of injection holes 30b and a concave portion 30c, while the torque canceller 31 is formed with a pair of convex members 31a. This is a pair for the convenience of the adhesive grease injection and coating operation, and each of these can be formed to perform its function.
図2に戻り、前記した内軸17の後端部内には、ノック部材としてのノック棒35が後軸17に対して摺動可能に取り付けられており、後軸17とノック棒35との間の空間部にはノック棒のリターンスプリング36が配置されている。そして、ノック棒35の中央よりも若干後端部寄りには、筆記芯の補給孔を備えた当接部35aが形成されている。なお、ノック棒35の後端部には、消しゴム37が着脱可能に装着されると共に、消しゴム37を覆うノックカバー38がノック棒35の後端部の周面に着脱可能に取り付けられている。
Returning to FIG. 2, a knock bar 35 as a knock member is slidably attached to the rear shaft 17 in the rear end portion of the inner shaft 17 described above, and between the rear shaft 17 and the knock bar 35. A return spring 36 of a knock bar is disposed in the space portion. An abutting portion 35 a having a writing core replenishing hole is formed slightly closer to the rear end than the center of the knock bar 35. An eraser 37 is detachably attached to the rear end portion of the knock bar 35, and a knock cover 38 covering the eraser 37 is detachably attached to the peripheral surface of the rear end portion of the knock bar 35.
前記したノック棒35の当接部35aと、前記した芯ケース3の後端部とは所定の間隔をもって対峙した構成にされている。すなわち、芯ケース3は前記ノック棒35に機械的に連結されることなく、前記間隔をもって分離されている。
The abutting portion 35a of the knock bar 35 and the rear end portion of the core case 3 are opposed to each other with a predetermined distance. That is, the core case 3 is separated from the knock bar 35 at the interval without being mechanically connected to the knock bar 35.
この構成において、前記ノック棒35のノック操作を行うと、ノック棒35の前記当接部35aが芯ケース3の後端部に当たり、そのまま芯ケース3を前方に押し出すように作用する。これにより、前記したとおりチャック5が前進して筆記芯を先端パイプ9より繰り出させるように作用する。そして前記したノック操作の解除によりノック棒35は、リターンスプリング36の作用により後退して図2に示す状態に復帰する。
In this configuration, when the knocking rod 35 is knocked, the abutting portion 35a of the knocking rod 35 hits the rear end of the lead case 3 and acts to push the lead case 3 forward as it is. Thereby, as described above, the chuck 5 moves forward and acts so that the writing core is fed out from the tip pipe 9. When the knock operation is released, the knock bar 35 is retracted by the action of the return spring 36 and returns to the state shown in FIG.
前記した構成によると、ノック棒35に形成された当接部35aと、前記芯ケース3の後端部とが所定の間隔をもって対峙しているので、筆記によるクッション動作によりチャック5および芯ケース3が若干後退しても、芯ケース3の後端部が前記ノック棒35の当接部35aに衝突することはなく、前記回転駆動機構21による回転動作に障害を与えるのを防止することができる。
According to the configuration described above, the abutting portion 35a formed on the knock bar 35 and the rear end portion of the core case 3 are opposed to each other with a predetermined interval. Even if the shaft slightly retracts, the rear end portion of the lead case 3 does not collide with the contact portion 35a of the knock bar 35, and it is possible to prevent the rotation operation by the rotation drive mechanism 21 from being obstructed. .
図11および図12は、筆記動作に伴って前記した回転駆動機構21における回転子26が回転運動している様子が表示できるようにした例を示している。すなわち図11(A)および(B)は、前記した回転子26の構成を角度を変えて示した斜視図である。
FIG. 11 and FIG. 12 show an example in which it is possible to display a state in which the rotor 26 in the rotary drive mechanism 21 is rotating in accordance with the writing operation. That is, FIGS. 11A and 11B are perspective views showing the configuration of the rotor 26 described above at different angles.
この回転子26は、好ましくは白色の樹脂材料で成形されており、この回転子26における前記した第1のカム面26aと第2のカム面26bが形成された太径部には、その周側面の対向する位置に例えば黒色による表示部26cが形成されている。すなわち前記太径部の周方向に沿って、90度の間隔をもって白色および黒色による表示部26cが形成されている。
The rotor 26 is preferably formed of a white resin material. The large-diameter portion of the rotor 26 on which the first cam surface 26a and the second cam surface 26b are formed has a periphery thereof. For example, a black display portion 26c is formed at a position opposite to the side surface. That is, white and black display portions 26c are formed at intervals of 90 degrees along the circumferential direction of the large diameter portion.
一方、図12(A)および(B)は、シャープペンシルの外観を示したものであり、前記した回転子26に施された白黒による前記表示部26cが外側から透過して視認できるようにした構成を示している。この例においては、丸形状に形成された窓部20を介して白黒による前記表示部26cが表示される様子を示しており、(A)は回転子26の回転に伴って、表示部26cにおける白と黒の境界部が窓部20に表示された様子を示している。また(B)は回転子26のさらなる回転に伴って、表示部26cにおける黒色部分が窓部20に表示された様子を示している。
On the other hand, FIGS. 12A and 12B show the appearance of a mechanical pencil so that the black and white display portion 26c applied to the rotor 26 can be seen through from the outside. The configuration is shown. In this example, the display portion 26c in black and white is displayed through the window portion 20 formed in a round shape, and (A) shows the state in the display portion 26c as the rotor 26 rotates. A state where the boundary between white and black is displayed on the window 20 is shown. Moreover, (B) has shown a mode that the black part in the display part 26c was displayed on the window part 20 with the further rotation of the rotor 26. FIG.
前記した構成は、前記回転子26の外側を覆う図5に示す回転駆動機構21の下カム形成部材28、前記回転駆動機構21の外側に位置する図2に示す後軸17、前記後軸17のさらに外側を覆う外軸18のそれぞれを光透過性の樹脂で成形し、例えば前記後軸17の周側面を、前記した丸形状の窓部20を残して塗装処理を施すことで実現することができる。
The configuration described above includes the lower cam forming member 28 of the rotation drive mechanism 21 shown in FIG. 5 that covers the outside of the rotor 26, the rear shaft 17 shown in FIG. 2 located outside the rotation drive mechanism 21, and the rear shaft 17. Each of the outer shafts 18 covering the outer side of each of the outer shafts 18 is formed of a light-transmitting resin, and for example, the peripheral side surface of the rear shaft 17 is subjected to a coating process while leaving the round-shaped window portion 20 described above. Can do.
このように回転子26の回転状態が外側から視認できるように構成することで、シャープペンシルの製造組み立て時における動作確認検査において、目視により容易に回転駆動機構の良否判断を行うことが可能である。また使用時においてユーザに対して興味もしくは一種の楽しみを抱かせることができ、製品の大きな差別化にも寄与することができる。
In this way, by configuring the rotation state of the rotor 26 to be visible from the outside, it is possible to easily determine whether the rotation drive mechanism is good or not by visual inspection in the operation check inspection at the time of manufacturing and assembling the mechanical pencil. . In addition, the user can have an interest or a kind of fun during use, and can contribute to a great differentiation of products. *
以上説明した実施の形態においては、軸筒に比較的肉厚のグリップ部材が装着されている関係で、ユニット化された筆記芯の回転駆動機構21は、グリップ部材の装着位置よりも後方である後軸17内に収容されており、回転駆動機構21は中継パイプ22を介してチャック5と連結されている。この例のように比較的寸法が長い中継パイプ22を採用する場合には、中継パイプ22は芯ケース3と共に可撓性の素材、例えばポリプロピレン等により構成されていることが望ましい。
In the embodiment described above, the rotation drive mechanism 21 of the unitized writing core is located behind the mounting position of the grip member because the grip member having a relatively thick thickness is mounted on the shaft cylinder. The rotary drive mechanism 21 is accommodated in the rear shaft 17 and is connected to the chuck 5 via a relay pipe 22. When the relay pipe 22 having a relatively long dimension is employed as in this example, the relay pipe 22 is preferably made of a flexible material, such as polypropylene, together with the core case 3.
前記した可撓性の素材による中継パイプ22を採用することで、回転駆動機構21を構成する各部品の成形上の誤差や、その組み立てに基づくわずかな偏心、また中継パイプ22やチャック5を含む筆記芯の回転駆動部分の相互の接続により生ずる偏心等が存在しても、前記中継パイプ22の可撓性の特質が生かされ、筆記芯の回転運動に支障が生ずるのを効果的に解消させることができる。
By adopting the relay pipe 22 made of the flexible material described above, the molding error of each component constituting the rotation drive mechanism 21, a slight eccentricity based on the assembly, and the relay pipe 22 and the chuck 5 are included. Even if there is an eccentricity or the like caused by the mutual connection of the rotational drive parts of the writing core, the flexibility characteristic of the relay pipe 22 is utilized to effectively eliminate the trouble of the rotational movement of the writing core. be able to.
これにより、図13に口先部1の周辺部分を拡大して示したように、口先部1の内周面と、スライダー8との間に遊びを持たせる程度をより少なくさせることができ、前記遊びが大きいことにより筆記の感触を悪くするという問題も解消させることができる。
Accordingly, as shown in FIG. 13 in which the peripheral portion of the lip portion 1 is enlarged, the degree of play between the inner peripheral surface of the lip portion 1 and the slider 8 can be further reduced. The problem of poor writing feel due to large play can be solved.
なお、前記した口先部1としては、合成樹脂素材にメッキを施してなるいわゆるクチプラが用いられている。このようなクチプラ1は、その内側(内周面)に比較して外側ほど、メッキ厚が厚く形成される。したがって、クチプラ1の内周面は予め先端部に行くにしたがって内径がわずかに大きくなるテーパー面1aに成形することで、前記メッキ厚の差を吸収し、クチプラ1の内周面とスライダー8との間の遊びの程度をより少なくさせることができる。
In addition, as the above-mentioned mouth part 1, a so-called cuticle made by plating a synthetic resin material is used. Such a cutlery 1 is formed such that the plating thickness is thicker toward the outer side than the inner side (inner peripheral surface). Therefore, the inner peripheral surface of the cutlery 1 is formed in advance into a tapered surface 1a whose inner diameter slightly increases as it goes to the tip, thereby absorbing the difference in plating thickness, and the inner peripheral surface of the cutlery 1 and the slider 8 The degree of play during can be reduced.
1 口先部(クチプラ)
2 先軸(軸筒)
3 芯ケース
5 チャック
6 締め具
8 スライダー
13 グリップ部材
14 軸継手
17 後軸(軸筒)
18 外軸
21 回転駆動機構
22 中継部材(中継パイプ)
24 軸スプリング
26 回転子
26a 第1カム面
26b 第2カム面
27 上カム形成部材
27a 第1固定カム面
28 下カム形成部材
28a 第2固定カム面
30 シリンダー部材
31 トルクキャンセラー
32 クッションスプリング
35 ノック棒(ノック部材)
36 リターンスプリング
37 消しゴム
38 ノックカバー
1 Mouth (Cutipura)
2 Lead shaft (shaft tube)
3Core Case 5 Chuck 6 Fastener 8 Slider 13 Grip Member 14 Shaft Joint 17 Rear Shaft (Shaft Tube)
18Outer shaft 21 Rotation drive mechanism 22 Relay member (relay pipe)
24shaft spring 26 rotor 26a first cam surface 26b second cam surface 27 upper cam forming member 27a first fixed cam surface 28 lower cam forming member 28a second fixed cam surface 30 cylinder member 31 torque canceller 32 cushion spring 35 knock bar (Knock member)
36Return spring 37 Eraser 38 Knock cover
2 先軸(軸筒)
3 芯ケース
5 チャック
6 締め具
8 スライダー
13 グリップ部材
14 軸継手
17 後軸(軸筒)
18 外軸
21 回転駆動機構
22 中継部材(中継パイプ)
24 軸スプリング
26 回転子
26a 第1カム面
26b 第2カム面
27 上カム形成部材
27a 第1固定カム面
28 下カム形成部材
28a 第2固定カム面
30 シリンダー部材
31 トルクキャンセラー
32 クッションスプリング
35 ノック棒(ノック部材)
36 リターンスプリング
37 消しゴム
38 ノックカバー
1 Mouth (Cutipura)
2 Lead shaft (shaft tube)
3
18
24
36
Claims (7)
- ノック部材のノック操作に基づくチャックの前後動により筆記芯の解除と把持を行い、前記筆記芯を前方に繰り出すことができるように構成されると共に、前記チャックが前記筆記芯を把持した状態で前後動および軸芯を中心にして回転可能となるように前記軸筒内に収容されたシャープペンシルであって、
軸方向の往復運動を回転運動に変換することができる回転駆動機構がシャープペンシル本体とは独立した1つのユニットにより構成されて前記軸筒内に収容され、前記回転駆動機構と前記チャックとが中継部材を介して接続されることで、前記中継部材を介して前記チャックに把持された筆記芯に加わる筆記圧に基づく前後動を前記回転駆動機構に対して往復運動として伝達させると共に、前記回転駆動機構により生成される回転運動をチャックに伝達するように構成したことを特徴とするシャープペンシル。 The writing core is released and gripped by the back and forth movement of the chuck based on the knocking operation of the knocking member, and the writing core is configured to be fed forward, while the chuck is gripping the writing core and back and forth. A mechanical pencil housed in the barrel so as to be movable and rotatable about an axis;
A rotational drive mechanism capable of converting axial reciprocation into rotational motion is constituted by a single unit independent of the mechanical pencil main body and is accommodated in the shaft cylinder, and the rotational drive mechanism and the chuck are relayed. By being connected via a member, the longitudinal drive based on the writing pressure applied to the writing core gripped by the chuck via the relay member is transmitted as a reciprocating motion to the rotational drive mechanism, and the rotational drive A mechanical pencil configured to transmit the rotational motion generated by the mechanism to the chuck. - 前記中継部材が可撓性の素材により形成されていることを特徴とする請求項1に記載されたシャープペンシル。 The mechanical pencil according to claim 1, wherein the relay member is made of a flexible material.
- 前記中継部材がチャックの後端部に接続された芯ケースの外側に同軸状に配置されていることを特徴とする請求項1に記載されたシャープペンシル。 The mechanical pencil according to claim 1, wherein the relay member is coaxially disposed outside a core case connected to a rear end portion of the chuck.
- 前記回転駆動機構は、軸スプリングにより軸筒内の一部に押し当てられることで、軸筒内における回転駆動機構の回動動作が阻止されるように構成したことを特徴とする請求項1に記載されたシャープペンシル。 2. The rotary drive mechanism according to claim 1, wherein the rotary drive mechanism is configured to be prevented from rotating in the shaft cylinder by being pressed against a part of the shaft cylinder by a shaft spring. The listed mechanical pencil.
- 前記回転駆動機構には、前記中継部材が接続される回転子が具備され、当該回転子は円環状に形成されてその軸方向の一端面および他端面に第1と第2のカム面がそれぞれ形成されると共に、前記第1と第2のカム面にそれぞれ対峙するように第1と第2の固定カム面が具備され、
前記筆記圧による前記チャックの後退動作によって、前記円環状回転子における第1のカム面が、前記第1の固定カム面に当接して噛み合わされ、前記筆記圧の解除により前記回転子における第2のカム面が、前記第2の固定カム面に当接して噛み合わされるように構成され、
前記回転子側の第1カム面が、前記第1の固定カム面に噛み合わされた状態において、前記回転子側の第2カム面と前記第2の固定カム面が、軸方向においてカムの一歯に対して位相がずれた関係に設定され、前記回転子側の第2カム面が、前記第2の固定カム面に噛み合わされた状態において、前記回転子側の第1カム面と前記第1の固定カム面が、軸方向においてカムの一歯に対して位相がずれた関係に設定されていることを特徴とする請求項1ないし請求項4のいずれか1項に記載されたシャープペンシル。 The rotation drive mechanism includes a rotor to which the relay member is connected. The rotor is formed in an annular shape, and first and second cam surfaces are respectively provided on one end surface and the other end surface in the axial direction. And formed with first and second fixed cam surfaces so as to face the first and second cam surfaces, respectively.
Due to the retreating operation of the chuck by the writing pressure, the first cam surface of the annular rotor is brought into contact with and meshed with the first fixed cam surface, and the second of the rotor is released by the release of the writing pressure. The cam surface is configured to come into contact with and mesh with the second fixed cam surface,
In a state where the first cam surface on the rotor side is engaged with the first fixed cam surface, the second cam surface on the rotor side and the second fixed cam surface are in the axial direction. In a state in which the phase is shifted with respect to the teeth, and the second cam surface on the rotor side is engaged with the second fixed cam surface, the first cam surface on the rotor side and the first cam surface are 5. The mechanical pencil according to claim 1, wherein the fixed cam surface of 1 is set to have a phase shifted relationship with respect to one tooth of the cam in the axial direction. . - 前記回転駆動機構には、筆記圧が解除された状態において、前記回転子における第2のカム面を、前記第2の固定カム面に当接させて噛み合わせ状態に付勢するクッションスプリングが具備されていることを特徴とする請求項5に記載されたシャープペンシル。 The rotation drive mechanism includes a cushion spring that urges the second cam surface of the rotor to abut with the second fixed cam surface in a meshed state when the writing pressure is released. The mechanical pencil according to claim 5, wherein the mechanical pencil is used.
- 前記回転駆動機構における前記回転子の後端部と前記クッションスプリングとの間に、前記回転子の後端部との間においてすべりを発生させるトルクキャンセラーが介在され、前記回転子の回転運動が前記クッションスプリングに伝達されるのを阻止するように構成したことを特徴とする請求項6に記載されたシャープペンシル。 A torque canceller that generates a slip between the rear end of the rotor and the rear end of the rotor in the rotational drive mechanism is interposed between the rear end of the rotor and the rotational movement of the rotor. The mechanical pencil according to claim 6, wherein the mechanical pencil is configured to prevent transmission to the cushion spring.
Priority Applications (2)
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CN201080053882.8A CN102648099B (en) | 2009-12-03 | 2010-11-29 | Mechanical pencil |
HK13101790.5A HK1174310A1 (en) | 2009-12-03 | 2013-02-08 | Mechanical pencil |
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JP2009-275427 | 2009-12-03 | ||
JP2009275427A JP5215281B2 (en) | 2009-12-03 | 2009-12-03 | mechanical pencil |
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CN (1) | CN102648099B (en) |
HK (1) | HK1174310A1 (en) |
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WO2023002879A1 (en) * | 2021-07-20 | 2023-01-26 | 三菱鉛筆株式会社 | Mechanical pencil |
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Publication number | Publication date |
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HK1174310A1 (en) | 2013-06-07 |
JP2011116028A (en) | 2011-06-16 |
CN102648099B (en) | 2015-04-22 |
CN102648099A (en) | 2012-08-22 |
JP5215281B2 (en) | 2013-06-19 |
TWI525005B (en) | 2016-03-11 |
TW201139160A (en) | 2011-11-16 |
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