JP4658588B2 - Writing tool shaft and writing tool using the same - Google Patents

Description

  The present invention relates to a writing cylinder and a writing instrument using the same.

2. Description of the Related Art Conventionally, writing instruments such as ballpoint pens, mechanical pencils, sign pens, fountain pens, pen-shaped erasers, etc. have shaft cylinders that house respective shaft-shaped writing members and are gripped during writing. Various proposals have been made to enable good gripping during writing.
For example, to improve the flexibility of the gripping part, to make the concavo-convex shape of the gripping part a three-dimensional shape that matches the grip of a finger, to make the outer shape of the gripping part relatively thick, or to improve the hygroscopicity of the gripping part A structure such as forming a non-slip has been proposed.
Patent Document 1 is provided with a hard part in which the surface of the writing shaft is formed of a hard material and a soft part formed of a soft material having a lower hardness, and these are arranged according to the gripping position of the finger. Is described. These are formed by two-color molding.
Patent Document 2 describes a writing instrument having a grip member such as a thermoplastic elastomer or rubber that is covered as a gripping portion on a shaft cylinder.
Japanese Patent Laying-Open No. 2003-285589 (page 2-4, FIG. 1-4) JP 2004-3643 A (Page 2-5, FIGS. 1, 2 and 6)

However, the conventional writing instrument shaft and the writing instrument using the same have the following problems.
In the technique described in Patent Document 1, since the material is limited to a synthetic resin material that can be molded in two colors in order to form a soft part by two-color molding, there is a problem that it cannot be applied to a shaft cylinder using wood. .
It is also conceivable to form a wood shaft cylinder as an insert member, or to provide synthetic resin, synthetic rubber, etc. so as to cover the outer periphery of the shaft cylinder with a heat shrinkable member, for example. In the structure in which the materials are in close contact, there is a problem that it takes time to separate the materials at the time of disposal.
In the technique described in Patent Document 2, since a separate grip member is fitted, it can be applied to a wood barrel relatively easily and can be separated at the time of disposal. There is a problem that it takes time and effort.

  The present invention has been made in view of the problems as described above, and can easily form a gripping portion having a flexible and easy-to-hold shape, and a shaft of a writing instrument that does not require separation during disposal, and the same An object is to provide a writing instrument using the.

In order to solve the above-described problems, the invention according to claim 1 is a shaft cylinder of a writing instrument in which a shaft-shaped writing member can be incorporated, which is made of compressed wood integrally formed with a mold, and is compressed. By changing the rate depending on the part, at least one low compression portion having a relatively low compression rate is provided on the surface.
According to the present invention, by providing a low compression portion on the integrally formed compressed wood, it is possible to form a portion that is flexible, excellent in workability, and excellent in tactile sensation even for wood, for example, improved gripping properties can do.
Moreover, the integral molding can save the labor of manufacturing and the labor of sorting at the time of disposal.

Here, the writing member is a shaft-like member used for writing and refers to a member that can be attached to and detached from the shaft tube. For example, a ball-point pen lead, a mechanical pen lead holder, a fountain pen pen shaft, a sign pen lead, and the like. In addition, although not writing itself, it also includes a stick-shaped eraser such as a pen-type eraser holder that is held by hand and used in the same manner as writing.
Further, the low compression portion includes a non-compression portion (compression rate 0).

According to a second aspect of the present invention, the shaft cylinder of the writing instrument according to the first aspect is configured such that a grip portion that is gripped by hand during writing is formed by the low compression portion.
According to this invention, since the low compression part of wood is used as a gripping part, a relatively flexible gripping part can be formed. Such a gripping part is less likely to get tired even if gripped for a long time, and has excellent hygroscopicity.

According to a third aspect of the present invention, in the shaft cylinder of the writing instrument according to the second aspect, a plurality of compression recesses having a relatively high compression rate are formed in the grip portion.
According to the present invention, the plurality of compression recesses form a non-slip shape in the grip portion and can improve air permeability. Therefore, even when used for a long time, the grip portion does not slip and get wet due to perspiration. It has a sex.

According to a fourth aspect of the present invention, in the shaft cylinder of the writing instrument according to the second or third aspect, the grip portion is formed as a relatively large-diameter shaft.
According to the present invention, since the grip portion is a relatively large-diameter shaft, the grip portion can be easily gripped and hardly fatigued. Moreover, the blank shape for forming the low compression part can be relatively simplified.

According to a fifth aspect of the present invention, the shaft cylinder of the writing instrument according to any one of the first to fourth aspects is configured such that an inscription is provided on the low compression portion and an information display portion or a pattern formation portion is formed. .
According to this invention, since the low compression portion is engraved, the information display portion or the pattern formation portion can be easily formed.

In invention of Claim 6, it is set as the structure using the axial cylinder of the writing instrument in any one of Claims 1-5 in a writing instrument.
According to this invention, since the shaft cylinder of the writing instrument according to any one of claims 1 to 5 is used, the same effect as the invention according to any one of claims 1 to 5 is provided.

  According to the shaft of the writing instrument of the present invention and the writing instrument using the same, a low compression portion is provided, so that even a compressed wood can leave a flexible portion and change a partial tactile sense, thereby improving gripping properties. In addition, post-processing such as engraving and cutting by the user is easy, and further, it is possible to save the labor of manufacturing and the time of sorting at the time of disposal by integral molding.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
A shaft cylinder of a writing instrument and a writing instrument using the same according to an embodiment of the present invention will be described.
FIG. 1 is a front view explanatory diagram for explaining a shaft tube of a writing instrument and a writing instrument using the same according to an embodiment of the present invention. FIG. 2 is a cross-sectional explanatory view taken along the central axis of the axial tube of the writing instrument according to the embodiment of the present invention. 3 (a), 3 (b), and 3 (c) are front view explanatory views, cross-sectional view explanatory views, and front view explanatory views for explaining the writing member and other parts constituting the writing instrument according to the embodiment of the present invention. FIG.

As shown in FIG. 1, the schematic configuration of the ballpoint pen 1 (writing tool) of the present embodiment includes a shaft cylinder 2 (shaft cylinder of a writing instrument), a front end cap 3, a rear end cap 4, and a ballpoint pen core 5 (writing member). .
The shape of the barrel 2, as shown in FIG. 2, the central shaft hole 2d is formed on, the outer diameter side, from one end portion in the longitudinal direction, the cylindrical shaft portion having an outer diameter d ₀ of the relatively small diameter 2a, a relatively large diameter outer diameter _D 1 to D _{0 (however, D 0, D 1> d} 0) gripping portion 2b is changed by location (low compression unit), and an outer diameter _{d 1} (however, d A male screw portion 2c in which a male screw is formed with ₁ <D ₀ , D ₁ ) is formed.

In the present embodiment, the grip portion 2b is formed of a rotationally symmetric curved surface in which bulge portions are formed on the cylindrical shaft portion 2a side and the male screw portion 2c side, respectively, and a constricted portion is formed on the side closer to the male screw portion 2c side therebetween. . That is, the outer diameter of the grip portion 2b is increased from the connecting portion with the cylindrical shaft portion 2a toward the connecting portion with the male screw portion 2c, and after reaching the maximum value (outer diameter D ₀ ), the cylindrical shaft portion 2a. The diameter is gradually reduced to the same level as the outer diameter d ₀ of the cylinder, and after taking a minimum value (outer diameter D ₁ ), the diameter is increased, and the diameter is reduced at the end of the gripping portion 2 b, so that the outside of the cylindrical shaft portion 2 a It is connected to a male screw portion 2c having a diameter smaller than the diameter.
Therefore, the outer diameter of the grip portion 2b is gripped with the fingertips constricted portion near taking the minimum value D _1, by lend finger cushion to gradually diverging portion outer diameter toward the cylindrical shaft portion 2a In addition, even if force is applied, it is possible to hold the finger so that it does not place a burden on the finger.

The cylindrical shaft portion 2a, the grip portion 2b, and the male screw portion 2c are formed by compression-molding a shaft-shaped blank wood with a mold, and the grip portion 2b is compared with the cylindrical shaft portion 2a and the male screw portion 2c. Low compression rate. For this reason, the grip portion 2b is made of relatively soft wood.
However, the grip portion 2b may be uncompressed in order to maximize the softness of the wood.
The shaft hole 2d is formed by, for example, drilling after compression molding.

  Examples of the kind of wood forming the shaft tube 2 include camellia, camellia leaf, paulownia, teak, mahogany, cedar, pine, cherry blossom, bamboo and the like. Also, by adjusting the compression rate, it is possible to adopt a very light specific gravity and flexible wood such as a balsa which is not normally used as a shaft tube. It is also possible to use not only lumber wood but also wood materials such as compression processed materials obtained by collecting and hardening waste chips and wood flour.

As shown in FIG. 3A, the ball-point pen core 5 is provided with a pen tip 5a at the tip of an ink tube 5b filled with ink 5c.
As shown in FIG. 3 (b), the tip cap 3 has a pen tip 5a that can pass through the center of the triangular pyramid, a through hole 3b having a smaller diameter than the ink tube 5b, and a male screw portion on the bottom side of the triangular pyramid. 2c is a member provided with a female screw portion 3a that can be screwed together.
As shown in FIG. 3C, the rear end cap 4 is a plug member for fitting with the end portion of the shaft tube 2 on the cylindrical shaft portion 2a side so that the ball-point pen core 5 does not come out.
The material of the front end cap 3 and the rear end cap 4 may be any appropriate material, and for example, synthetic resin, metal, wood, etc. can be employed.

Next, the manufacturing method of the axial cylinder 2 of this embodiment is demonstrated.
FIG. 4 is a schematic cross-sectional view for explaining a manufacturing process of the shaft tube of the writing instrument according to the embodiment of the present invention.

As shown in FIG. 4, first, a columnar blank wood 11 having the same length as the shaft cylinder 2 and the outer diameter d ₂ being the same as the maximum outer diameter D ₀ is formed. Then, the shaft cylinder 2 is set to the upper mold 10A and the lower mold 10B for compression molding.

  The upper mold 10A and the lower mold 10B are formed with a male screw mold surface 10c, a gripper mold surface 10b, and a cylindrical shaft mold surface 10a, respectively, according to the outer shape of the shaft cylinder 2.

  And as shown in FIG. 4, the upper metal mold | die 10A and the lower metal mold | die 10B are slid, and the blank timber 11 is compressed to an illustration up-down direction. At this time, in order to soften the blank wood 11, compression is performed while jetting high-temperature and high-pressure steam. For example, it is preferable to inject high temperature steam at about 180 ° C. to 200 ° C. Further, it is preferable that the upper mold 10A and the lower mold 10B are also heated to the same temperature. Such a compression process can be performed more efficiently if, for example, the upper mold 10A and the lower mold 10B are installed in a high-pressure vessel.

In such a compression process, since the high-temperature water vapor is swollen by the wood fibers and the flexibility of the wood fibers is increased, the blank wood 11 can be cut into the male screw mold surface 10c, the gripper mold surface 10b, without causing cracks and the like. The shape of the mold surface can be transferred by deforming along the cylindrical shaft mold surface 10a.
Then, the mold clamping is held until the shape is fixed.
After holding the mold clamp for a predetermined time, the moisture is dried and demolded.
Then, the shaft hole 2d is formed by, for example, drilling or the like, and appropriate secondary processing is performed as necessary.
In this way, the shaft cylinder 2 is manufactured.

Here, the compression ratio of the shaft cylinder 2 is proportional to the difference between the outer diameter of the blank wood 11 and the outer diameter of the shaft cylinder 2. For example, the compression rate of the cylindrical shaft portion 2a is (d ₂ −d ₀ ) / d ₂ . For this reason, the relatively small-diameter male screw portion 2c and the cylindrical shaft portion 2a have a relatively high compression rate, and the grip portion 2b has a relatively low compression rate.

In addition, the compression rate of the shaft cylinder 2 can be further freely changed by changing the outer diameter of the blank wood 11 depending on the part.
FIG. 5 is an explanatory front view for explaining another example of such blank wood.

Blank timber 12 is one of such other examples, as shown in FIG. 5, the whole high compression ratio than the blank timber 11 is large shaft diameter d ₃ than the outer diameter d ₂ so as to obtain a cylindrical member, and the outer diameter d ₂ is provided cutting portions 12a only the portion corresponding to the grip portion 2b, is obtained so as to control the compression ratio of the grip portion 2b.
Here, for example, the cutting unit 12a instead of the cylindrical outer diameter d _2, if the cutting surface of appropriate shape substantially along the outer shape of the grip portion 2b, including the compression ratio of the grip portion 2b is also no compression An appropriate value uniform in the length direction can be set.

Next, the operation of the shaft cylinder 2 will be described.
Since the shaft cylinder 2 uses compressed wood, the required strength can be ensured by processing the shaft hole 2d even if the cylindrical shaft portion 2a is thin.
And since the holding part 2b is formed by transferring the shape of the holding part mold surface 10b, it can be easily processed even if it has a complicated three-dimensional shape. Therefore, a complicated three-dimensional shape that can be easily gripped during writing can be easily formed.
Further, since the wood conduit is not crushed so much by making the compression rate low, it has excellent hygroscopicity, so sweat and the like can be absorbed and comfortable writing can be performed even for a long time.

In addition, since the grip portion 2b is in a soft wood state with a relatively low compression rate, it is possible to provide a grip portion that is excellent in tactile sensation and is not easily fatigued. If the three-dimensional shape of the grip portion 2b is further formed so as to follow the grip shape of the finger, the grip performance can be further improved, and the grip portion can be made less fatigued even if continuous writing is performed.
Further, in order to individually cope with the size of the user's hand and the habit of gripping, the user himself cuts the grip portion 2b of the shaft tube 2 obtained by compression molding into a shape desired by the user. It may be processed. In this case, the grip portion 2b is relatively low in compression, so that it can be easily cut.
Since the grip portion 2b is integrally formed with the cylindrical shaft portion 2a, the number of parts can be reduced as compared with the case where such a soft grip member is provided as a separate member.
In addition, there is an advantage that it does not require time and labor for sorting, etc., compared to the case where the soft grip member is made of a different material such as synthetic rubber.

Thus, according to the shaft cylinder of the writing instrument of the present invention, by providing the low compression portion, it is possible to easily form a flexible and easy-to-grip shape even for compressed wood, and to improve gripping properties.
Moreover, the integral molding can save the labor of manufacturing and the labor of sorting at the time of disposal.

Next, a first modification of the present embodiment will be described. In this modification, a plurality of recesses (compression recesses) are formed on the surface of the low compression part by dispersing and providing the high compression part in the low compression part.
FIG. 6 is a front view explanatory diagram for describing a first modification of the shaft tube of the writing instrument according to the embodiment of the present invention.

The ballpoint pen 14 (writing tool) of this modification includes a shaft cylinder 15 (shaft cylinder of the writing tool) instead of the shaft cylinder 2 of the ballpoint pen 1. The shaft tube 15 includes a grip portion 15b instead of the grip portion 2b.
As shown in FIG. 6, the gripping portion 15 b is formed by forming multiple grooves 15 c (compression concave portions) extending in the circumferential direction in the bulging portion of the gripping portion 2 b on the cylindrical shaft portion 2 a side.
The multiple grooves 15c are integrally formed by providing convex portions corresponding to the respective grooves on the gripper mold surface 10b of the upper mold 10A and the lower mold 10B. For this reason, the groove upper part is left as soft wood, and the groove bottom part is made into the high compression rate.

By providing the multiple grooves 15c, a non-slip shape is formed in the grip portion 15b and air permeability is improved, so that the grip portion is easy to grip and suitable for long-time writing.
Further, the flexibility can be increased by reducing the pitch of the multiple grooves 15c.
Such multiple grooves 15c may be provided in a direction along the axial direction, for example.

Next, a second modification of the present embodiment will be described. This modification also provides a compression recess in the low compression part.
FIGS. 7A and 7B are a front view explanatory view and a cross-sectional view taken along line AA for explaining a second modified example of the shaft cylinder of the writing instrument according to the embodiment of the present invention.

The ballpoint pen 16 (writing tool) of this modification includes a shaft cylinder 17 (shaft cylinder of the writing tool) instead of the shaft cylinder 2 of the ballpoint pen 1. The shaft tube 17 includes a gripping portion 17b instead of the gripping portion 2b.
As shown in FIG. 7 (a), the gripping part 17b is a multiple hole 17c (compression concave part) in which holes 19 having a V-shaped cross section are provided at an appropriate pitch in the bulging part on the cylindrical shaft part 2a side of the gripping part 2b. Is formed.
The multiple holes 17c are formed by pressing the holes 19 in the direction of the central axis with respect to the grip portion 2b after the shaft cylinder 2 is formed. Since the grip portion 2b has a low compression rate, it can be easily pressed. Thereby, a part of the inside of the gripping part 17b has a relatively high compression rate, but the gripping part surface 18 maintains a low compression rate.

  By providing the multiple holes 17c, a non-slip shape is formed in the grip portion 17b, and moisture is easily diffused and absorbed, so that the grip portion is easy to grip and suitable for long-time writing.

Next, a third modification of the present embodiment will be described. This modification is an example in which the low compression part is provided in addition to the grip part.
FIGS. 8A and 8B are a front view explanatory view and a BB sectional view for explaining a third modification of the shaft tube of the writing instrument according to the embodiment of the present invention.

A ballpoint pen 20 (writing tool) according to the present modification includes a shaft cylinder 21 (shaft cylinder of a writing tool) instead of the shaft cylinder 2 of the ballpoint pen 1. The shaft cylinder 21 is provided with a low compression portion 21b on a part of the cylindrical shaft portion 21a, and a character 21c is imprinted on the surface as an information display portion after the low compression portion 21b is formed.
In order to provide the low compression portion 21b, for example, a blank wood 22 having a cross-sectional shape as indicated by a two-dot chain line in FIG.

The character 21c may be information such as a product model number, a production number, a product name, and the name of the owner. Since the low compression part is engraved, there is an advantage that it can be easily processed. Therefore, for example, name entry can be easily performed by post-processing.
Further, the low compression portion 21b may be provided with a pattern forming portion by imprinting a logo mark, a geometric pattern or the like instead of the character 21c.

In the above description, the example in which the low compression unit is provided intensively as the gripping unit, the information display unit, and the like has been described. However, the low compression unit may be appropriately dispersed on the shaft tube.
For example, hemispherical convex portions formed by the low compression portion may be distributed throughout the shaft tube. Such a convex part can improve gripping properties if the shape and arrangement are set appropriately. In addition, there is an advantage that health effects such as a pot stimulating effect can be expected.

  Further, in the above description, the example of the ballpoint pen is used as the writing instrument. Also good.

It is front view explanatory drawing for demonstrating the axial cylinder of the writing instrument which concerns on embodiment of this invention, and a writing instrument using the same. It is sectional explanatory drawing in alignment with the central axis of the axial cylinder of the writing instrument which concerns on embodiment of this invention. It is front view explanatory drawing, sectional explanatory drawing, and front view explanatory drawing for demonstrating the writing member and other components which comprise the writing instrument which concerns on embodiment of this invention. It is a schematic cross section for demonstrating the manufacturing process of the axial cylinder of the writing instrument which concerns on embodiment of this invention. It is front view explanatory drawing for demonstrating the other example of the blank timber which concerns on embodiment of this invention. It is front view explanatory drawing for demonstrating the 1st modification of the axial cylinder of the writing instrument of embodiment of this invention. It is front view explanatory drawing for demonstrating the 2nd modification of the axial cylinder of the writing instrument of embodiment of this invention, and its AA sectional drawing. It is front view explanatory drawing for demonstrating the 3rd modification of the axial cylinder of the writing instrument of embodiment of this invention, and its BB sectional drawing.

Explanation of symbols

1, 14, 16, 20 Ballpoint pen (writing instrument)
2, 15, 17, 21 Shaft cylinder (shaft cylinder of writing instruments)
2a, 21a Cylindrical shaft parts 2b, 15b, 17b Grasping part (low compression part)
5 Ballpoint pen core (axial writing member)
10A Upper mold (mold)
10B Lower mold (mold)
11, 12, 22 Blank wood 12a Cutting portion 15c Multiple groove (compression recess)
17c Multiple holes (compression recess)
21b Low compression part 21c Character

Claims (6)

A shaft of a writing instrument in which an axial writing member can be built-in,
A shaft cylinder of a writing instrument comprising compressed wood integrally molded with a mold, wherein at least one low compression portion having a relatively low compression ratio is provided on the surface by changing the compression ratio depending on the part. .   2. The shaft tube of a writing instrument according to claim 1, wherein a gripping portion that is gripped by hand during writing is formed by the low compression portion.   The shaft cylinder of a writing instrument according to claim 2, wherein a plurality of compression recesses having a relatively high compression rate are formed in the grip portion.   The shaft cylinder of a writing instrument according to claim 2 or 3, wherein the grip portion is formed as a relatively large-diameter shaft.   The shaft of the writing instrument according to any one of claims 1 to 4, wherein the low compression portion is provided with an inscription to form an information display portion or a pattern formation portion.   A writing instrument using the shaft cylinder of the writing instrument according to claim 1.

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