JP3439572B2 - Shaft barrels for writing utensils, etc. - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention improves the dimensional control of the undercut portion of a barrel, such as a writing implement, a correction implement, or a makeup implement, which is molded from a material such as plastic, so that The present invention relates to a shaft cylinder such as a writing instrument having improved fitting accuracy.

[0002]

2. Description of the Related Art Conventionally, for molding a barrel of a writing instrument of this kind with a material such as plastic, for example, FIG.
The cavity 102, the cavity 103, and the core pin 1 in which the product shape of the shaft cylinder 101 is formed as shown in FIG.
A mold provided with 04 and the like is used.

When the barrel 101 is injection-molded using the mold, the core-pin 104 is placed in the cavity 102 and the cavity 10 in the state shown in FIG.
3, and the cavity 102 and the cavity 103 are joined together. After that, a molding material such as plastic is injected into the cavity 102 and the cavity 103 from a predetermined portion of the mold, and the barrel 101
Molding.

After molding, the cavity 102 is first moved to the left (A
Direction), and the tip of the barrel 101 is released from the cavity 102. Then, after moving the cavity 103 to the left (direction A), the rear part of the barrel 101 is released from the cavity 103. And finally the core
By moving the pin 104 to the right (B direction),
The core pin 104 is pulled out from the inside of the barrel 101, and the barrel 101 which is a molded product is taken out.

Here, in order to give a proper fitting feeling to a cap (not shown) fitted to the tip of the shaft tube 101, the tip of the shaft tube 101 has an outer periphery on the tip side of the shaft tube 101. Generally, a convex undercut portion 105 is formed at a predetermined position on the surface.

Therefore, when the cavity 102 is moved to the left (direction A) after injection-molding the barrel 101, and the tip of the barrel is released from the cavity 102,
Since the undercut portion 105 projects toward the cavity 102 and the core pin 104 is inserted in the product of the barrel 101, the cavity 1 is forcibly
The mold was released by moving 02 to the left (direction A). It was so-called unreasonable.

[0007]

However, when performing the above-mentioned forced removal, the core pin 104 causes
The undercut portion formed in the cavity 102 cannot be deformed. In other words, the undercut portion 105 of the barrel 101 is restricted to have an intended predetermined size because the barrel 101 is restricted from being reduced in diameter. There was a technical problem that it could not be formed into a shape. As a result, there is a technical problem that the fitting of the shaft cylinder 101 and the cap is lacking in stability.

More specifically, the above problem will be described in detail. In order to allow the cavity 102 to be forcibly removed after injection molding of the barrel 101, the shape of the undercut portion formed in the cavity 102 is restricted. There were challenges. Further, since the dimensional stability and the shape transferability during production are not good, there is a problem that the convex shape of the undercut portion 105 formed on the outer peripheral surface of the tip end side of the barrel 101 cannot be reliably obtained. Further, there is a technical problem that the material for molding the barrel 101 is limited.

The present invention has been made in order to solve the above-mentioned conventional technical problems, and a shaft at a position corresponding to a convex undercut portion formed on the outer peripheral surface of a shaft cylinder of a writing instrument or the like. By providing a convex undercut portion on the inside of the cylinder, the dimensional control of the undercut portion when molding the shaft cylinder is improved, and the shaft cylinder of a writing instrument etc. that improves the fitting accuracy with the cap It is intended to be provided.

[0010]

In order to achieve the above object, a shaft cylinder of a writing instrument or the like according to the present invention comprises a convex undercut portion formed on an outer peripheral surface of the shaft cylinder of the writing instrument or the like,
The basic configuration is to include a convex undercut portion formed on the inner peripheral surface of the barrel at a position corresponding to the convex undercut portion.

Further, the undercut portion formed on the inner peripheral surface of the shaft cylinder is formed to have the same size as the undercut portion formed on the outer peripheral surface or larger than the undercut portion formed on the outer peripheral surface. Have a configuration.

Further, a shaft cylinder of a writing instrument or the like according to the present invention comprises a convex undercut portion having an arc-shaped cross section and the convex undercut on the outer peripheral surface of the writing instrument or the like. The inner peripheral surface of the shaft cylinder at a position corresponding to the portion, a convex undercut portion having an arc-shaped cross section, and an undercut portion of the outer peripheral surface of the shaft cylinder and an undercut portion of the inner peripheral surface. The width of the undercut portion on the outer peripheral surface of the shaft cylinder is a, the height is h ₁ , the radius of curvature is R _1, and the width of the undercut portion on the inner peripheral surface is b and the height is h ₂ . Radius of curvature R
When a _2, and a relationship of _{a ≦ b h 2 ≧ h 1} /2 R 1 ≦ R 2.

[0013]

With the shaft cylinder according to the present invention having the above structure, the convex undercut portion formed on the outer peripheral surface of the shaft cylinder and the inner peripheral surface of the shaft cylinder corresponding to the convex undercut portion are formed. Since the formed convex undercut portion is provided, the core pin is made into the axial cylinder after injection molding the axial cylinder by both cavities positioned across the parting line and the mold such as the core pin. Even when the undercut-side cavity is forcibly removed while it is still inserted in the product, it is possible to easily perform die-cutting due to the deformation of the resin in the undercut portion, that is, the cushioning effect of the resin.
Moreover, the shape of the convex portion of the undercut portion 6 formed on the outer peripheral surface of the shaft cylinder 5 can be formed close to the intended design.

As described above, the undercut portion formed on the outer peripheral surface of the shaft cylinder has good dimensional stability and shape transferability, and is properly fitted to the cap fitted to the tip end of the shaft cylinder. It can give a feeling.

[0015]

Embodiments of the present invention will be described in detail below with reference to FIGS. 1 and 2. FIG. 1 is a cross-sectional view showing a shaft cylinder and a shaft cylinder molding die according to the present invention with its upper half sectioned.
FIG. 2 is an enlarged view showing a main part of the shaft cylinder of FIG. 1. In the figure,
The mold for injection molding the shaft cylinder 5 is composed of the cavity 1, the cavity 2, the core pin 3 and the like as in the conventional case.

And, on the inner peripheral surface of the cavity 1,
A groove-shaped undercut 1a is formed at a position corresponding to the undercut portion 6 of the shaft cylinder 5. With this undercut 1a, a convex undercut that gives a proper fitting feeling to a cap (not shown) fitted to the tip of the shaft cylinder 5 at a predetermined position on the outer peripheral surface of the shaft cylinder 5 on the tip side. Part 6
Are formed in a ring shape.

A concave groove-shaped undercut 3a is formed at a position corresponding to the undercut 1a on the outer peripheral surface of the core pin 3. This undercut 3a
Thus, a convex core pin side undercut portion 7 is formed in an annular shape on the inner peripheral surface of the shaft cylinder 5 so as to correspond to the undercut portion 6 on the outer peripheral surface.

When the cavity 1 of the mold is forcibly removed after the injection molding of the shaft cylinder 5, the undercut portion 6 is such that the undercut portion 6 undercuts the cavity 1.
It is formed in order to prevent being scraped or deformed by a. That is, the undercut portion 7 can easily perform the die-cutting operation of the cavity 1 by the deformation of the molding resin of the undercut portions 6 and 7, and the undercut portion 6 formed on the outer peripheral surface of the shaft cylinder 5 has a convex shape. It is designed so that the part shape can be formed close to the design intent.

Next, the thickness of the shaft cylinder 5 near the undercut is t, the height of the undercut portion 6 on the outer peripheral surface is h ₁ ,
When the radius is R ₁ , the height of the undercut portion 7 on the inner peripheral surface is h ₂ , and the radius is R ₂ , the relational expression of the wall thickness near the undercut of the barrel 5 is t <(t + h ₁ + H ₂ ), which is a prerequisite for obtaining the undercut portion 6 having a predetermined size and shape.

The undercut 1a of the cavity 1
And the undercut 3a on the core pin 3 side,
That is, the relationship between the undercut portion 6 on the outer peripheral surface of the shaft cylinder 5 and the undercut portion 7 on the inner peripheral surface is such that when the undercut portion 6 and the undercut portion 7 are formed in an arc shape, The width of the undercut portion 6 on the outer peripheral surface of 5 is a, the height is h ₁ , the radius of curvature is R _1, and the width of the undercut portion 7 on the inner peripheral surface is b, the height is h ₂ , and the radius of curvature is R
When a ₂ is preferably _{a ≦ b h 2 ≧ h 1} /2 R 1 ≦ R 2.

[0021] More _{preferably, a <b, h 2>} h 1/2, R 1 < may is R _2.

That is, comparing the undercut portion 6 on the outer peripheral surface and the undercut portion 7 on the inner peripheral surface of the shaft cylinder 5 as described above, the undercut portion 6 on the outer peripheral surface and the undercut portion 7 on the inner peripheral surface are compared. It is preferable that both and are formed to have the same size, or that the undercut portion 7 on the inner peripheral surface is formed to be large.

In this way, when the undercut portion 6 on the outer peripheral surface and the undercut portion 7 on the inner peripheral surface of the shaft cylinder 5 are formed to have the same size or the undercut portion 7 on the inner peripheral surface is formed large. Even if you do not force yourself as described above,
Since the undercut portion 7 is provided corresponding to the convex undercut portion 6 formed on the outer peripheral surface on the distal end side of the shaft cylinder, the thick portion (between the undercut portion 6 and the undercut portion 7 ( Since (t + h ₁ + h ₂ ) is deformed, it is possible to easily perform mold release, and the undercut portion 6 having a predetermined size and shape can be formed close to the intended design.

Since the undercut portion 7 is provided, a so-called sink mark is less likely to appear on the outer peripheral surface of the shaft cylinder 5, and the appearance of the shaft cylinder 5 can be improved, and the undercut portion 6 is provided. The dimensional accuracy of can be improved.

If the wall thickness t is larger than h ₁ , the mold release can be performed without providing the undercut portion 7. However, the wall thickness t is the axial strength and the weight of the product. It is set according to the balance and cost, and in the case of a writing instrument etc., the barrel is usually 0.5 mm ≤ t ≤ 2.0 mm.
And preferably 0.8 mm ≤ t ≤ 1.5 mm.

Next, a case will be described in which the barrel is injection-molded by using the molds of the cavity 1, the cavity 2, the core pin 3 and the like configured as described above. In the molding operation, the core-pin 3 is inserted into the cavity 1 and the cavity 2 in the state shown in FIG.
The cavity 1 and the cavity 2 are bonded together while being installed. After that, a molding material such as plastic is injected from a predetermined portion of the mold to perform molding.

After molding, the cavity 1 is first moved to the left (direction A), and the tip of the barrel 5 is released from the cavity 1. At this time, what is called forced removal is performed, but even if forced removal is performed, the undercut portion 7 is provided inside the convex undercut portion 6 formed on the outer peripheral surface of the shaft cylinder 5 on the distal end side.
Since the thick portion (t + h ₁ + h ₂ ) between the undercut portion 6 and the undercut portion 7 is deformed, the cavity 1 can be easily released.

Subsequently, after moving the cavity 2 to the left (direction A), the rear part of the barrel 5 is released from the cavity 2. Finally, by moving the core-pin 3 to the right (direction B), the core-pin 3 is pulled out from the inside of the barrel 5, and the finished barrel is taken out.

In the shaft cylinder 5 of the above embodiment, the convex undercut portion 6 formed on the outer peripheral surface on the tip end side of the shaft cylinder is formed in an arc shape, but the invention is not limited to this. Instead, it may be formed in a trapezoidal shape. Further, in the above embodiment, the case where the undercut portion 6 is annularly provided at one place on the outer peripheral surface of the barrel 5 has been described. However, the undercut portions 6 are annularly arranged in a plurality of rows to form an undercut portion on the core pin side. 7 may be provided corresponding to the cavity side undercut portion 6. Furthermore, in the above-mentioned embodiment, the case where the outer peripheral surface is provided in the annular shape has been described, but the undercut portion 6 does not necessarily have to be provided in the annular shape.

[0030]

As described in detail above, the first aspect of the present invention is as follows.
In the barrel of the writing instrument described in 2 and 3, the convex undercut portion formed on the outer peripheral surface of the barrel and the inner peripheral surface of the barrel corresponding to the convex undercut portion are formed. Since a convex undercut portion is provided,
Even if the undercut side cavity is forcibly removed while the core pin is inserted into the product of the shaft cylinder after injection molding the shaft cylinder with both cavities located across the lining line and the mold such as the core pin, The deformation of the molding resin, the so-called cushioning effect of the resin, facilitates the die-cutting operation of the cavity on the undercut side, and the convex shape of the undercut portion formed on the outer peripheral surface of the shaft cylinder can be reliably obtained. .

In addition to the effects described above, the inventions set forth in claims 2 and 3 are preferable in appearance because sink marks are less likely to appear on the outer surface of the barrel, and are formed on the outer peripheral surface of the barrel. It is possible to improve the dimensional accuracy of the convex undercut portion.

As described above, according to the present invention, the dimensional stability and shape transferability of the undercut portion formed on the outer peripheral surface of the shaft cylinder are easy, and the cap fitted from the tip end portion of the shaft cylinder. It is possible to give a proper fitting feeling to.

[Brief description of drawings]

FIG. 1 is an upper half sectional view showing a shaft cylinder and a shaft cylinder molding die according to the present invention.

FIG. 2 is an enlarged view showing a main part of FIG.

FIG. 3 is a cross-sectional view of a main part showing a shaft cylinder molded state of a conventional writing instrument or the like.

[Explanation of symbols]

1 cavity 1a undercut 2 cavities 3 core pins 3a undercut 5-axis cylinder 6 Undercut part 7 Undercut part

─────────────────────────────────────────────────── ─── Continuation of the front page (56) Bibliography Flat 3-61967 (JP, U) Real deployment Sho 63-151882 (JP, U) Real deployment Sho 62-114784 (JP, U) Real deployment Sho 55- 144015 (JP, U) (58) Fields surveyed (Int.Cl. ⁷ , DB name) B43K 3/00-31/00 A45D 34/00-40/30 B29D 23/00 B29C 45/00 B43L 19/00

Claims (3)

(57) [Claims] 1. A convex undercut portion formed on an outer peripheral surface of a barrel of a writing instrument, and a convex undercut portion formed on an inner peripheral surface of the barrel at a position corresponding to the convex undercut portion. A barrel for a writing instrument or the like, which is provided with an undercut portion. 2. The undercut portion formed on the inner peripheral surface of the shaft cylinder has the same size as the undercut portion formed on the outer peripheral surface, or is formed larger than the undercut portion formed on the outer peripheral surface. Claim 1 characterized in that
Shaft cylinder for writing instruments, etc. 3. A convex undercut portion having an arc-shaped cross section on the outer peripheral surface of a barrel for a writing instrument, and an inner peripheral surface of the barrel at a position corresponding to the convex undercut portion. A convex undercut portion whose cross section is formed in an arc shape, and the undercut portion of the outer peripheral surface of the shaft cylinder and the undercut portion of the inner peripheral surface are undercuts of the outer peripheral surface of the shaft cylinder. When the width of the portion is a, the height is h ₁ , the radius of curvature is R _1, and the width of the undercut portion of the inner peripheral surface is b, the height is h ₂ , and the radius of curvature is R ₂ , a ≦ b h ₂ ≧ h _1/2 barrel such writing instrument, characterized in that R ₁ ≦ R ₂ of is formed to include a relationship.