JP2013252655A - Ballpoint pen - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a ballpoint pen that can write lines having different thicknesses with a single writing ball using two writing sections while holding an optimal positional relation between the writing ball and a holder.SOLUTION: A relative position of an outer 50 and a holder 21 can be changed to a holder retracted position that covers a part at which a tip end of the outer 50 reaches a caulking part 23 and a holder protruding position at which the tip end of the outer 50 is behind the holder retracted position. When the relative position of the outer 50 and the holder 21 is the holder retracted position, the writing ball 30 and the tip end of the outer 50 can make contact with the writing surface at the same time.

Description

  The present invention relates to a ballpoint pen capable of changing the width of a drawn line.

  Conventionally, as a technique related to a ballpoint pen that enables writing with different thicknesses at one writing tip, as shown in Patent Document 1, a spring is provided inside the holder, and the writing ball is always on the tip side by the elasticity of the spring. It is known that it is formed so as to be pressed so that lines with different thicknesses can be drawn according to the writing load. A writing instrument is also disclosed in which a plurality of thin widths can be written by moving the marking surface part back and forth.

JP-A-8-187987 Special table 2007-502729 gazette

In the invention described in Patent Document 1 described above, the gap between the writing ball and the crimped portion of the holder changes, whereby the ink outflow amount changes and the width and shading of the drawn line change. The range in which the writing ball can move within the holder is limited, and if the movable distance is increased, a large amount of ink flows out, making it difficult to draw a good line. For this reason, there is a problem that there is a limit even if the line width is increased.
In the invention described in Patent Document 2, it is difficult to obtain a smooth writing feeling because writing is performed on the surface of the component. In addition, when the pin that can be shifted is replaced with a ballpoint pen tip that has a writing ball in order to smooth the writing, the ink that flows out from the gap between the ballpoint tip does not reach the marking surface. It is difficult to write.

  Therefore, the invention of the present application is capable of writing strokes of different thicknesses between a writing portion composed of two parts and a single writing ball while maintaining an optimal positional relationship between the writing ball and the holder, and further, The object of the present invention is to provide a ballpoint pen that can freely change the thickness and can easily write characteristic strokes such as “Tome”, “Hane”, and “Harai”.

In order to solve the above-described problems, the present invention has the following configuration.
(First invention)
1st invention is a ball-point pen which can write in the drawn line of thickness which changes with two writing parts.
(Second invention)
Among the inventions of the present application, the second invention adds the following configuration in addition to the configuration of the first invention described above. That is, a writing ball, a first writing unit that holds the writing ball by a caulking part with a crimped tip, an ink supply unit that supplies ink to the first writing unit, and a shaft that houses the ink supply unit A cylinder and a second writing part covering the outer periphery of the first writing part, the first writing part holding the writing ball and a part of the second writing part as a tip part of the shaft cylinder The present invention relates to a more exposed ballpoint pen. And this ball-point pen is provided with the displacement means which can change the positional relationship of the axial direction of a said 2nd writing part and a said 1st writing part relatively, The said displacement means is a said 2nd writing part. When the relative position of the writing part and the first writing part is the holder immersing position, the writing ball and the tip of the second writing part can be simultaneously brought into contact with the writing surface. It is formed as follows.

The shaft tube may be capable of directly storing ink therein or may have a structure in which an ink refill filled with ink is stored. The ink supply unit may supply ink stored in the shaft tube to the first writing unit by an intermediate member such as a collector, or may be an ink storage tube separate from the shaft tube such as ink refill. The ink stored in the first writing unit may be supplied to the first writing unit.
The first writing part can be formed of a metal material such as stainless steel or a resin material such as polyacetal by cutting or injection molding, and the tip side is exposed from the tip part (front shaft part) of the shaft tube, The end side is located inside the shaft tube and communicates with the ink supply unit. A ball house is formed inside the tip of the first writing unit, and a writing ball is held in the ball house.

The second writing part is a cylindrical body that covers at least an exposed portion from the shaft cylinder of the first writing part, and is preferably formed of a synthetic resin. The tip part of the second writing part refers to the tip part of the second writing part and can cover the outer part on the rear side of the caulking part until reaching the caulking part of the first writing part. It has become.
The displacement means can change a relative position between the second writing unit and the first writing unit. In the present invention, the second writing unit is formed to be movable with respect to the first writing unit, and the second writing unit is displaced by the displacing means, and the first writing unit is used as the second writing unit. It includes both the case where the first writing part is displaced by the displacing means. As the displacing means, an elastic member capable of compressing and deforming and moving the second writing portion or the first writing portion in the axial direction when a load from the distal direction is applied, or performing a predetermined operation Thus, a mechanism capable of moving the second writing unit or the first writing unit in the axial direction can be obtained.

In the present invention, when the positional relationship between the second writing unit and the first writing unit is the immersion position with respect to the second writing unit, the first writing unit is caulked. By covering the part up to the part with the second writing part, the ball and the caulking part are exposed from the second writing part. In this case, the tip of the second writing part can contact the writing surface simultaneously with the writing ball. That is, at the immersion position of the first writing part, the caulking part is the same as a tangent line that contacts both the writing ball and the tip part of the second writing part, or does not protrude further toward the tip side. .
On the other hand, when the positional relationship between the second writing part and the first writing part is such that the first writing part is a protruding position with respect to the second writing part, the first writing part is more than the caulking part. By covering the position up to the rear side with the second writing unit, the rear side of the caulking part and the caulking part is exposed from the second writing part. In this case, the tip of the second writing part does not contact the writing surface simultaneously with the writing ball. That is, at the protruding position of the first writing portion, the tip portion of the second writing portion does not protrude to the tip side from the tangent line that contacts both the writing ball and the crimping portion.

  In the ballpoint pen according to the present invention, when the relative position between the second writing unit and the first writing unit is the protruding position of the first writing unit, only the writing ball is in contact with the writing surface, A line having a predetermined width can be drawn by the ink attached around the writing ball. On the other hand, when the relative position between the second writing unit and the first writing unit is the immersive position of the first writing unit, the writing ball and the tip of the second writing unit are simultaneously When writing in contact, the ink adhering to the periphery of the writing ball or the ink flowing out from the inside of the first writing unit as the writing ball rotates is caused by contact between the writing ball and the writing surface. It diffuses by capillary action between the front-end | tip part of a 2nd writing part, and the contact part of a writing surface. For this reason, it is possible to draw a line having a larger width than when writing in a state where only the writing ball is in contact with the writing surface.

According to the second invention, it is possible to draw lines having different thicknesses while maintaining the optimum positional relationship between the writing ball and the first writing part.
(Third invention)
The third invention of the present invention has the following configuration in addition to the configuration of the second invention described above. That is, the displacement means is an elastic member disposed behind the first writing unit, and the relative position between the second writing unit and the first writing unit is determined based on the second writing unit. The immersion position of the first writing part that covers the part until the tip part of the part reaches the crimping part, and the tip part of the second writing part behind the immersion position of the first writing part (tip The first writing unit can be displaced to the protruding position of the first writing unit, which is the opposite side of the first writing unit, and the first writing unit is subjected to pressure from the tip direction with the protruding position of the first writing unit as an initial position. By being added, the elastic member is compressed and deformed, the first writing unit is moved rearward, and the first writing unit can be moved to the immersion position of the first writing unit. It is formed.

The present invention specifies the displacement means in the second invention.
The said displacement means can change the relative position of the said 2nd writing part and the said 1st writing part into the immersion position of a 1st writing part, and the protrusion position of a 1st writing part. Is.
The elastic member may be a member such as rubber or a spring that is restored by an elastic action. In the present invention, the first writing part is formed so as to be displaceable with respect to the shaft cylinder and the second writing part, and when a writing load from the distal direction is applied to the first writing part, the first writing part Moves to the holder immersion position. The case where the writing load from the tip direction is applied to the first writing part is, for example, a case where the writing ball is pressed against the writing surface or a case where the writing load is increased during writing. Further, when the writing load applied to the first writing part is lost, the elastic member returns to its original shape due to elasticity, and the first writing part returns to the initial position.

According to the present invention, lines having different thicknesses can be drawn by changing the writing load.
In addition, when the elastic member is a soft member having a low elastic modulus, a thick line can be drawn regardless of the writing load even by an elderly person or an infant with weak force regardless of the writing load.
Furthermore, when the load that the first writing part moves from the protruding position to the immersive position is very small compared to the writing load, the first writing part becomes the immersive position without any sense of incongruity during writing, and it always has a thick width. It becomes possible to draw a line. In addition, when the writing part is separated from the writing surface such as “Hane” or “Halai” and the writing load becomes weak, the first writing part moves continuously from the immersive position to the protruding position, so that It changes continuously and smoothly into a thin line.
In addition, depending on the shape of the elastic member, by utilizing the change in the internal volume accompanying the deformation of the elastic member, it is possible to improve the ink outflow property at the time of the first writing by making the ink flow path pressurized by the writing load. .

(Fourth invention)
The fourth invention of the present invention has the following configuration in addition to the configuration of the second invention described above. That is, the displacing means is a feeding mechanism provided at a tip portion of the shaft cylinder, and the feeding mechanism is configured so that the second writing unit is moved to a protruding position of the first writing unit by a predetermined operation. It is formed so that it can be moved between the immersive position of the first writing part.
The present invention specifies the displacement means in the second invention.
At least a part of the feeding mechanism is joined or engaged with the second writing unit, and the second writing unit can be moved in the axial direction by a predetermined operation. “Predetermined operation” means that a part of the feeding mechanism or the second writing unit is operated from the outside, and the operation target is rotated or slid. As the feeding mechanism, for example, a projection is provided on the outer periphery of the second writing unit, a cylindrical cam is provided on the inner periphery of the tip of the shaft tube, and an operation unit connected to the cylindrical cam and disposed outside the shaft tube 10 is rotated. By doing so, it is possible to provide a rotation feeding mechanism in which the second writing unit moves in the axial direction. Alternatively, a male screw and a female screw are formed between the inside of the tip of the shaft tube and the second writing part, and the second writing part is moved in the axial direction by rotating the second writing part. It can be.

In the present invention, the feeding mechanism functions based on the operation mode, and the second writing unit at the immersive position of the first writing unit can be moved to the protruding position of the first writing unit. The second writing part at the protruding position of the writing part can be moved to the immersive position of the first writing part.
According to the present invention, the state of the writing tip of the ballpoint pen can be set to a state where a thin line can be drawn or a state where a thick line can be drawn before writing. Thus, it is not necessary to change the writing load or the angle of the writing tip, and a thick line or a thin line can be drawn with a constant writing load or angle.

(Fifth invention)
The fifth invention of the present invention has the following configuration in addition to the configuration of any one of the second to fourth inventions described above. That is, the ink has a contact portion with the writing surface of the writing ball and a tip portion of the second writing portion in a state where the writing ball and the tip portion of the second writing portion are simultaneously in contact with the writing surface. It is formed in the viscosity which can be spread | diffused between contact parts with the writing surface.
According to the present invention, when the writing ball and the tip of the second writing part are simultaneously brought into contact with the writing surface, ink is applied to a portion surrounded by the writing surface, the writing ball, and the tip of the second writing part. Can be drawn without fading a thick line.

  Since the present invention is configured as described above, it is possible to provide a ballpoint pen capable of writing strokes having different thicknesses at one writing tip while maintaining an optimal positional relationship between the writing ball and the holder. . In addition, by changing the writing load and optimizing the displacement means, the thickness of the drawn line can be changed freely, and "Tome", "Hane", and "Harai" can be written easily and with high quality. Can also improve the expressiveness of

BRIEF DESCRIPTION OF THE DRAWINGS It is the 1st Embodiment of this invention, Comprising: (A) Front view and (B) Vertical sectional view of a ball-point pen. It is a longitudinal cross-sectional view of the front-end | tip part of the ball-point pen which concerns on 1st Embodiment. It is a figure which shows the state at the time of writing in 1st Embodiment, Comprising: It is a front view of the state which applied (A) normal state and (B) writing load. It is an enlarged vertical sectional view of the writing tip in the holder immersion state. FIG. 5 is an enlarged longitudinal sectional view of the writing tip of FIG. FIG. 5 is an enlarged longitudinal sectional view of the writing tip of FIG. It is the 2nd Embodiment of this invention, Comprising: (A) Front view and (B) longitudinal cross-sectional view of a ball-point pen. It is a figure which shows the state at the time of writing in 2nd Embodiment, Comprising: It is a front view of the state which made the (A) normal state and the (B) outer protrude. It is 2nd Embodiment, Comprising: It is a perspective view of a front-axis | shaft part. It is 2nd Embodiment, Comprising: It is a perspective view of a writing part. It is 2nd Embodiment, Comprising: It is a perspective view of the writing part which removed the rotation operation part. It is a longitudinal cross-sectional view of the front-end | tip part of the ball-point pen which concerns on the 3rd Embodiment of this invention. It is a longitudinal cross-sectional view of the front-end | tip part of the ball-point pen which concerns on the 4th Embodiment of this invention. It is a longitudinal cross-sectional view of the front-end | tip part of the ball-point pen which concerns on the 5th Embodiment of this invention. It is the 6th embodiment of the present invention, and (A) front view and (B) longitudinal section of a ball-point pen. It is a figure which shows the state at the time of writing in 6th Embodiment, Comprising: It is a longitudinal cross-sectional view of the state which applied (A) normal state and (B) writing load. It is the 7th Embodiment of this invention, Comprising: (A) Front view and (B) Longitudinal sectional view of ball-point pen. It is a longitudinal cross-sectional view of the front-end | tip part of the ball-point pen which concerns on 7th Embodiment. It is the 8th Embodiment of this invention, Comprising: (A) Front view and (B) Perspective view of outer. It is a figure which shows the state at the time of writing in 8th Embodiment, Comprising: It is a front view of a normal state. It is a figure which shows the state at the time of writing in 8th Embodiment, Comprising: It is a front view of the state which applied the writing load. It is a 9th embodiment of the present invention, and (A) front view of an outer and (B) enlarged view of a tip part. A character written with the present invention and a character written with a conventional writing instrument.

Hereinafter, embodiments of the present invention will be described based on the drawings by dividing the first to ninth embodiments. In the present specification, “front” of the ballpoint pen 1 and its component parts means the tip side when the writing ball 30 is the tip of the ballpoint pen 1, and “backward” means the opposite side. .
(First embodiment)
1 to 6 show a first embodiment of the present invention.
As shown in FIGS. 1 (A) and 1 (B), the ballpoint pen 1 according to the present embodiment holds the writing ball 30 by means of the writing ball 30 and a crimped portion 23 (see FIGS. 4 and 5) that is crimped. A ballpoint pen tip 20 having a holder 21 as a first writing part, an ink supply part 40 for supplying ink to the holder 21 of the ballpoint pen chip 20, a shaft cylinder 10 for storing the ink supply part 40 therein, and a holder 21 The outer 50 which is the 2nd writing part which covers an outer periphery, and the displacement means 60 for changing the relative position of the outer 50 and the holder 21 in the axial direction are provided. Although not shown, caps that can be attached to and detached from the front and rear ends of the shaft tube 10 are also provided.

As shown in FIG. 1B, the shaft cylinder 10 includes a shaft body 11 having an ink storage portion 13 and a tip shaft portion 12 provided at the tip of the shaft body 11. 1 includes an ink supply unit 40 and a joint 14 that connects the ink supply unit 40 and the ballpoint pen tip 20. The ink container 13 is filled with ink (not shown).
The ink supply unit 40 includes a substantially cylindrical collector 41 having a plurality of fins formed on the outer periphery, and a tip holding unit 42 formed by reducing the diameter of the tip of the collector 41, and the rear end of the collector 41 Is in contact with the ink containing portion 13, and the tip holding portion 42 is fitted inside the front shaft portion 12. Further, the rear end portion of the joint 14 is fitted inside the tip holding portion 42. In addition, a rod-like collector core 43 made of polyester fiber penetrates the collector 41 in the axial direction. The rear end side of the collector core 43 protrudes into the ink containing portion 13, and the front end side of the collector core 43 protrudes to the front end side from the front end holding portion 42, and is inserted into the joint 14 from the rear end portion of the joint 14. Has been. The joint 14 is formed integrally with the collector core 43 so as to be slidable in the axial direction inside the tip holding portion 42.

  As shown in FIG. 2, the ballpoint pen tip 20 includes a cylindrical holder 21 and a writing ball 30 held by the holder 21. A tapered portion 22 having a substantially conical shape that tapers toward the distal end is formed on the distal end side of the holder 21, and a crimped portion 23 (diameter deformed by pressing the small opening of the tapered portion 22 inwardly ( 4) is formed. The tip of the writing ball 30 held by the ball house 24 formed inside the tapered portion 22 is exposed from the tip edge of the crimping portion 23. The holder 21 can be formed by processing a pipe material made of metal such as stainless steel or resin such as polyacetal. In addition, a rod-shaped core 25 that protrudes from the rear end of the holder 21 is inserted into the holder 21. The core 25 is formed of polyester fiber in the same manner as the collector core 43, and its rear end is fitted into the tip of the collector core 43, and the tip reaches immediately after the writing ball 30, and the ink penetrated into the collector core 43. The ink is absorbed and supplied to the ball house 24. As shown in FIG. 2, the ball-point pen tip 20 is held by the joint 14 in a state in which about 2/3 from the rear end side is fitted into the distal end portion 14 </ b> A of the joint 14.

The collector core 43 and the center core 25 are formed by selecting an appropriate porosity and surface shape of the polyester fiber according to the properties such as the viscosity of the ink used. Further, in the present embodiment, the ink is accommodated in the shaft cylinder 10 and the ink is supplied to the ball-point pen chip 20 by the ink supply unit 40. However, the ink and the ink core are accommodated in the shaft cylinder 10. An ink refill formed by press-fitting the ballpoint pen tip 20 may be provided at the tip of the ink storage tube.
The outer 50 is a cylindrical body made of synthetic resin formed in a substantially conical shape. As shown in FIG. 2, a tapered portion 54 that is tapered toward the tip is formed, and a tip portion of the tapered portion 54 is formed. Is an outer front end portion 51 having an R chamfer. The outer tip 51 may be a tapered tapered chamfer instead of the R chamfer. The rear insertion hole 52 formed on the rear side and the front insertion hole 53 having a smaller diameter than the rear insertion hole 52 communicating from the rear insertion hole 52 to the distal end side are provided in the rear insertion hole 52. The portion 14A is inserted, and the holder 21 of the ball-point pen tip 20 exposed from the joint 14 is inserted into the front insertion hole 53. Note that the distal end portion 14A of the joint 14 can slide in the rear insertion hole 52 in the axial direction, and the holder 21 can slide in the front insertion hole 53 in the axial direction.

  The outer 50 is inserted from the front end side of the joint 14 and the holder 21 protruding from the front end of the front shaft portion 12, and is fixed to the front shaft portion 12. In a state where the outer 50 is fixed to the front shaft portion 12, the holder 21 is inserted into the front insertion hole 53, and the distal end portion 14 A of the joint 14 is inserted into the rear insertion hole 52. Further, in this state, as shown in FIG. 3A, the most distal end side of the outer distal end portion 51 is located on the rear side of the caulking portion 23 of the holder 21, and the outer end portion of the front shaft portion 12 is 50, the tapered portion 22 and the crimping portion 23 of the holder 21, and the writing ball 30 are exposed. Such a positional relationship between the outer 50 and the holder 21 is referred to as a holder protruding position as a protruding position of the first writing portion. In the ballpoint pen 1 in the present embodiment, the holder protruding position is the initial position.

As shown in FIG. 2, the displacing means 60 is an elastic member disposed at the tip of the tip holding portion 42 of the ink supply unit 40. The elastic member in the present embodiment is an O-ring 61 made of silicon resin or the like, and is fitted into the tip holding portion 42 with the joint 14 being fitted from the rear end portion of the joint 14, whereby the tip holding portion 42. Is sandwiched between a conical concave receiving portion 42A formed at the tip of the joint and a flange portion 14B formed around the joint 14.
The O-ring 61 is compressed and deformed by receiving the axial load, and the relative position of the outer 50 and the holder 21 in the axial direction with the movement of the joint 14 and the ballpoint pen tip 20 held by the joint 14. Is changing. Specifically, when a load is applied from the tip of the writing ball 30, a backward force is applied to the joint 14, and the O-ring 61 is pressed against the flange portion 14B and pressed against the receiving portion 42A to be crushed. The ball-point pen tip 20 moves rearward with respect to the outer 50, the front shaft portion 12, and the tip holding portion. When the joint 14 and the ballpoint pen tip 20 are moved most rearward, as shown in FIG. 3B, the most distal end side of the outer distal end portion 51 slightly exceeds the boundary line between the tapered portion 22 and the caulking portion 23 of the holder 21. It comes to be located to the place. As a result, approximately 2/3 of the tip end side of the outer 50, the crimping portion 23 of the holder 21, and a part of the writing ball 30 are exposed from the tip of the front shaft portion 12. Such a positional relationship between the outer 50 and the holder 21 is referred to as a holder immersion position as an immersion position of the first writing unit. When the load applied to the writing ball 30 disappears, the O-ring 61 is elastically deformed and returns to its original shape, and the joint 14 and the ballpoint pen tip 20 move to the holder protruding position and return to the initial state.

  Here, in the holder immersion position, as shown in FIG. 4, the crimping portion 23 is located on the inner side (the writing ball 30 side) with respect to the tangent line L that contacts both the outer tip 51 and the writing ball 30. . That is, the outer front end 51 bulges outside the caulking portion 23 so that the outer front end 51, the writing ball 30 and the caulking portion 23 can be in the positional relationship as described above at the holder immersion position. It is formed in the shape. Because of this formation, when the writing ball 30 and the outer tip 51 are brought into contact with the writing surface at the same time, the ink attached to the surface of the writing ball 30 and the ball accompanying the rotation of the writing ball 30 The ink flowing out of the house 24 is diffused by capillary action in the space between the writing ball 30 and the writing surface contact portion and between the outer tip portion 51 and the writing surface contact portion, and the writing ball 30 and the outer tip portion. It is possible to draw a thicker line than when 51 is not brought into contact with the writing surface at the same time.

In the present embodiment, the writing ball 30 and the outer tip 51 are in contact with the writing surface at the same time, and the contact between the writing ball 30 and the writing surface, and between the outer tip 51 and the contact portion of the writing surface. A diffusible, relatively low viscosity ink is used. By using such ink, even when a thick drawn line is drawn, it is not faded.
A method of using the ballpoint pen 1 having the above configuration will be described with reference to FIGS.
As shown in FIG. 3A, when the outer 50 and the ball-point pen tip 20 are in the initial position, that is, when the positional relationship between the outer 50 and the ball-point pen tip 20 is the holder protruding position, When the writing ball 30 is brought into contact with the writing surface at a predetermined angle, the outer tip 51 is behind the crimping portion 23 and behind the tangent line that contacts both the writing ball 30 and the crimping portion 23. Therefore, only the writing ball 30 can be brought into contact with the writing surface. At the holder protruding position, the length from the tip of the outer tip 51 to the tip of the writing ball 30 is a. When writing in this state, a line of width w1 can be drawn by the ink attached to the surface of the writing ball 30 as shown in FIG.

  On the other hand, when the writing load is increased without changing the inclination angle of the shaft tube 10 in the state of FIG. 3A (the writing ball 30 is pressed against the writing surface), a load is applied to the holder 21 from the tip direction. As shown in FIG. 3 (B), the ball-point pen tip 20 and the joint 14 are pushed backward to reach the holder immersion position. At this time, the length from the tip of the outer tip 51 to the tip of the writing ball 30 is a length b shorter than the length a in the holder protruding position, and the writing ball 30 and the outer tip 51 are simultaneously written on the writing surface. To touch. In this state, the ink adhering to the surface of the writing ball 30 diffuses to the writing surface due to capillary action and adheres to the outer tip 51, and as shown in FIG. 6, the writing ball 30, the writing surface, and the outer tip Ink stays in the space surrounded by the portion 51 and the crimping portion 23. When writing in such a state, the ink flows out into the space portion as the writing ball 30 rotates, the writing ball 30 and the writing surface contact portion, the outer tip 51 and the writing surface contact portion. A line having a width w2 larger than the above-described width w1 can be drawn with ink that diffuses during the period due to capillary action. In this case, since the positional relationship between the writing ball 30 and the caulking portion 23 is maintained, the amount of ink that flows out with the rotation of the writing ball 30 can be kept constant, and ink does not leak. .

If the writing load is weakened in the state of FIG. 3B, the positional relationship between the outer 50 and the ballpoint pen tip 20 returns to the holder protruding position. Further, in the state of FIG. 3B, if the shaft cylinder 10 is set up at a substantially right angle with respect to the writing surface, only the writing ball 30 comes into contact with the writing surface, and it goes without saying that a thick line cannot be drawn. Yes.
As described above, the ballpoint pen 1 according to the first embodiment can change the thickness of the drawing line only by changing the writing load when writing. That is, when a thin line is drawn, the writing load is set so as not to immerse the ball-point pen tip 20, and when a thick line is drawn, the writing load may be set high enough to immerse the ball-point pen tip 20. And since the thickness of the drawing line can be changed by the writing load, this embodiment can easily change the line width and the shading of the line while writing, so that the painting or ballpoint penmanship It is suitable for use in, for example.

Further, even if the ball diameter of the writing ball 30 is different by adjusting the shape of the outer tip 51 of the outer 50 (protruding dimension to the front or protruding dimension to the side), the writing ball 30 and the outer The line width when the tip 51 contacts the writing surface at the same time can be made the same size.
The elastic member is not limited to the O-ring 61, and a spring may be used.
In the above-described embodiment, the joint 14 and the ball-point pen tip 20 are formed so as to move integrally, but only the ball-point pen tip 20 may be formed to move.
(Second Embodiment)
7 to 11 show a second embodiment of the present invention. Note that FIG. 5 and FIG. 6 in the first embodiment are common to the second embodiment. In the second embodiment, the same reference numerals as those used in the first embodiment are used for the same constituent elements as those in the first embodiment. The description overlapping with the first embodiment will be omitted, and the description will focus on the feature points of the present embodiment. The same applies to the third to ninth embodiments.

In the present embodiment, the outer 50 is formed so as to be movable in the axial direction with respect to the ballpoint pen tip 20, and the outer 50 is moved between the holder protruding position and the holder immersion position as the displacement means 60. A rotation feeding mechanism 62 is provided.
As shown in FIG. 7B, the outer 50 in the present embodiment is housed in the shaft tip portion 12 on the rear side, and the joint 14 holding the ballpoint pen tip 20, the shaft tip portion 12, In between, it is slidably supported in the axial direction.
Further, as shown in FIGS. 7 and 8, the rotation feeding mechanism 62 has a cylindrical rotation operation portion 63 that is located on the distal end side of the shaft main body 11 and covers the outer periphery of the shaft tip portion 12, and the shaft tip portion 12. A feeding mechanism 64 shown in FIGS. 9 to 11 is provided between the outer 50 and the outer 50. The rotation operation unit 63 is for moving the outer 50 by rotating in the circumferential direction. The feeding mechanism unit 64 is for moving the position of the outer 50 back and forth as the rotation operation unit 63 rotates.

  Specifically, the feeding mechanism portion 64 includes a cam hole 15 (see FIG. 9) formed on the side surface of the shaft tip portion 12, a pin 55 (see FIGS. 10 and 11) provided on the outer 50, and rotation. It consists of a long hole 63A (see FIG. 10) provided on the side surface of the operation unit 63. As shown in FIG. 9, the cam hole 15 is provided in a direction intersecting the axial direction of the shaft tip portion 12 so that the distance between the one end portion and the other end portion from the tip of the shaft tip portion 12 is different. It is formed diagonally. Further, as shown in FIG. 10, the long hole 63 </ b> A is formed so that the length direction is the axial direction of the rotation operation unit 63. The pin 55 protrudes from the rear side surface of the outer 50 in the direction perpendicular to the axis. As shown in FIG. 11, the pin 55 passes through the cam hole 15 and engages with the long hole 63A shown in FIG. When the rotation operation unit 63 is rotated about the axis, the pin 55 moves along the cam hole 15 so that the outer 50 moves back and forth. That is, when the rotation operation unit 63 is rotated in the direction of the black arrow shown in FIG. 10, the pin 55 moves in the cam hole 15 in a direction away from the tip of the shaft tip 12, and the outer 50 moves rearward. Moving. On the other hand, when the rotation operation part 63 is rotated in the direction of the white arrow shown in FIG. 10, the pin 55 moves in the cam hole 15 in a direction approaching the tip of the shaft tip part 12, and the outer 50 moves forward. Moving.

A method of using the ballpoint pen 1 having the above configuration will be described with reference to FIG.
FIG. 8A shows a state where the positional relationship between the outer 50 and the holder 21 is the holder protruding position. In this state, the length from the tip of the front shaft portion 12 to the outer tip portion 51 is c. When writing with the ballpoint pen 1 in such a state, the writing ball 30 and the outer tip 51 do not contact the writing surface at the same time, so the ink adhering to the surface of the writing ball 30 is shown in FIG. A line of width w1 can be drawn. On the other hand, when the positional relationship between the outer 50 and the holder 21 is the holder protruding position, when the rotation operation unit 63 is rotated in a predetermined direction, the outer 50 moves to the distal end side and becomes the holder immersion position. In this state, as shown in FIG. 8 (B), the length from the tip of the front shaft portion 12 to the outer tip portion 51 is d longer than the length c. When writing with the ballpoint pen 1 in such a state, the writing ball 30 and the outer tip 51 can be simultaneously contacted with the writing surface, so that it is diffused between the writing ball 30 and the outer tip 51 by capillary action. A thick line having a width w2 shown in FIG. Of course, if the shaft cylinder 10 is set up vertically, a thin line having a width w1 can be drawn even at the holder immersion position.

According to the present embodiment, since it is possible to select in advance a state where a thin line can be drawn and a state where a thick line can be drawn, there is no need to change the writing load during writing, You can always write with a certain writing load. Moreover, the thickness of the line does not change unintentionally due to a change in the writing load during writing. In particular, in the state where the holder is in the immersion position, by keeping the angle of the writing tip constant, a thick line can be stably drawn without changing the writing load.
According to the present embodiment, since the pin 55 can be visually recognized from the elongated hole 63A of the rotation operation portion 63, is the writing tip state (the positional relationship between the outer 50 and the holder 21) the holder protruding position? It can be determined at a glance whether the holder is in the immersion position. That is, when the writing tip is in the holder protruding position, the pin 55 is positioned on the front side of the elongated hole 63A, and conversely, when the writing tip is in the holder immersion position, the pin 55 is located. Is located on the rear side of the long hole 63A, so that the state of the writing tip can be distinguished.

Further, the means for displacing the outer 50 is not limited to the rotation feeding mechanism 62 described above, and for example, the outer 50 may be protruded or submerged by sliding a knob. Alternatively, a male screw and a female screw may be formed on the outer periphery of the outer 50 and the inner periphery of the front shaft portion 12, and the outer 50 may be rotated so that the outer 50 moves in the axial direction. Further, in the first embodiment described above, a feeding mechanism may be used as means for moving the joint 14 and the ballpoint pen tip 20.
(Third embodiment)
FIG. 12 shows a third embodiment of the present invention.

In this embodiment, the form of the elastic member of the first embodiment is changed. The elastic member is the O-ring 61 in the first embodiment, but is an elastic joint 65 having elasticity in the present embodiment.
In the present embodiment, as shown in FIG. 12, the rear end portion 14C of the joint 14 and the front end portion of the front end holding portion 42 of the ink supply unit 40 are located apart from each other. As a means for connecting the two, an elastic joint 65 is interposed. That is, the elastic joint 65 includes a front tube portion 65A and a rear tube portion 65B having a slightly larger diameter than the front tube portion 65A, and the rear end portion of the joint 14 is fitted into the front tube portion 65A. The front end portion of the tip holding portion 42 is fitted into 65B. Further, inside the elastic joint 65, a flange-shaped inner protrusion 65C that protrudes toward the center side and contacts the rear end face 14D of the joint 14 is formed. A gap P is formed between the rear of the inner protrusion 65C and the tip surface 42B of the tip holding portion 42. That is, the inner protrusion 65C is sandwiched between the front end surface 42B of the front end holding portion 42 and the rear end surface 14D of the joint 14 and is in contact with the rear end surface 14D of the joint 14.

When a writing load is applied to the writing tip, the inner protrusion 65C pressed rearward by the joint 14 bends backward, and the writing tip can be moved backward. At this time, the gap P is narrowed. That is, the gap P is a space for allowing deformation of the inner protrusion 65C. When the load applied to the writing tip is weakened, the joint 14 is pushed back by the restoring force of the inner protrusion 65C and returns to the original position.
The elastic joint 65 as an elastic member may be a material in which the inner protrusion 65C is bent by a writing load, but is preferably formed of a rubber elastic material such as rubber or elastomer, or a relatively soft resin material such as polypropylene.
If the elastic member is deformed with a very low load, the first writing part becomes the immersive position without feeling uncomfortable at the time of writing, and it becomes possible to always draw a thick line. In addition, when the writing part is separated from the writing surface such as “Hane” or “Halai” and the writing load becomes weak, the first writing part moves continuously from the immersive position to the protruding position, so that It changes continuously and smoothly into a thin line. Also, depending on the shape of the elastic member, by utilizing the change in the internal volume accompanying the deformation of the elastic member, the ink flow path can be pressurized by the writing load to improve the ink outflow property at the time of the first writing. it can.

(Fourth embodiment)
FIG. 13 shows a fourth embodiment of the present invention.
In this embodiment, the shape of an elastic joint 65 as an elastic member in the third embodiment is different.
In the present embodiment, as shown in FIG. 13, the rear end portion 14C of the joint 14 is inserted into the front end portion of the front end holding portion 42 of the ink supply unit 40, and an elastic joint 65 is interposed therebetween. doing. That is, the elastic joint 65 includes a front tube portion 65A and a rear tube portion 65B having a slightly smaller diameter than the front tube portion 65A, and the rear tube portion 65B is fitted into a recess 42C formed at the tip portion of the tip holding portion 42. The front cylinder portion 65A is sandwiched between a tip surface 42B of the tip holding portion 42 and a stepped portion 12A formed on the inner periphery on the rear end side of the front shaft portion 12. Further, a flange-shaped inner protrusion 65C is formed at the rear end portion of the rear cylinder portion 65B so as to protrude toward the center side and to come into contact with the rear end surface 14D of the joint 14. A gap P is formed between the rear end surface of the elastic joint 65 (the rear end surface of the inner protrusion 65C) and the concave bottom portion 42D of the concave portion 42C of the tip holding portion 42.

When a writing load is applied to the writing tip, the inner protrusion 65C pressed rearward by the joint 14 bends backward, and the writing tip can be moved backward. If the pressure applied to the writing tip is weakened, the joint 14 is pushed back by the restoring force of the inner protrusion 65C and returns to the original position.
(Fifth embodiment)
FIG. 14 shows a fifth embodiment of the present invention.
Also in this embodiment, an elastic joint 65 as an elastic member is provided. In the present embodiment, as shown in FIG. 14, the rear end portion 14C of the joint 14 is inserted into a recess 42C formed at the front end portion of the front end holding portion 42 of the ink supply unit 40, and the elastic joint 65 is The front end portion of the front end holding portion 42 and the rear end portion 14C of the joint 14 protruding from the front end holding portion 42 are covered. That is, the elastic joint 65 includes a front tube portion 65A and a rear tube portion 65B having a slightly larger diameter than the front tube portion 65A. The rear end portion 14C of the joint 14 is fitted into the front tube portion 65A, and the rear tube The front end portion of the tip holding portion 42 is fitted into the portion 65B. Further, a tapered portion 65D is provided on the inner periphery of the front cylinder portion 65A so that the inner diameter becomes narrower toward the rear end side. That is, the front cylinder portion 65A is formed so that the thickness becomes thinner toward the tip side. Further, the front end portion of the elastic joint 65 (the front end portion of the front tube portion 65A) is in contact with the rear side of the flange portion 14B of the joint 14, and the rear tube portion 65B is connected to the front end portion of the tip holding portion 42 and the front end portion. The shaft portion 12 is sandwiched between a step portion 12A formed on the inner periphery of the rear end side of the shaft portion 12.

When a writing load is applied to the writing tip, the thin portion of the front cylinder portion 65A pressed rearward by the flange portion 14B of the joint 14 is deformed, and the writing tip can be moved rearward. When the load applied to the writing tip is weakened, the joint 14 is pushed back by the restoring force of the front tube portion 65A and returns to the original position.
(Sixth embodiment)
15 and 16 show a sixth embodiment of the present invention.
As shown in FIGS. 15A and 15B, the ballpoint pen 1 according to the sixth embodiment is one in which an ink refill 70 to which a ballpoint pen tip 20 is fixed is accommodated in a shaft tube 10.

As shown in FIG. 16, the ball-point pen tip 20 in the present embodiment has a reduced diameter portion 21A formed at the distal end portion of a cylindrical holder 21, and a tapered portion 22 and a caulking portion 23 are formed at the distal end of the reduced diameter portion 21A. And a writing ball 30 is held. The interior of the holder 21 is hollow and filled with ink when writing.
As shown in FIG. 15B, the increfill 70 includes an ink storage tube 71 filled with ink, a joint 72 fixed to the tip of the ink storage tube 71, and a ballpoint pen tip 20 fixed to the joint 72. Consists of. The ink storage tube 71 is a polypropylene tube filled with ink (not shown) and an ink follower for preventing ink leakage. The joint 72 is a cylindrical member that has an opening penetrating in the front-rear direction and is attached by press-fitting a rear portion into the ink containing tube 71. The ballpoint pen tip 20 is press-fitted into the opening portion of the front portion of the joint 72 exposed from the ink storage tube 71, and the ink in the ink storage tube 71 is supplied to the ballpoint pen tip 20 from the opening portion of the rear portion. As shown in FIG. 15B, the ink container 71 is housed in the shaft main body 11, and the ball pen tip 20 exposed from the joint 71 is covered with an outer 50.

In the present embodiment, the outer 50 is formed in a substantially conical shape that is tapered toward the tip, and the inside of the outer 50 is the rear side as shown in FIGS. 15 (B) and 16. The insertion hole 57 penetrates from the tip to the tip side. Further, as shown in FIG. 15B, a screw portion 57A is formed on the inner peripheral surface of the insertion hole 57 on the rear side. Then, the outer portion 50 is fixed by screwing the screw portion 57A with the screw portion 11A formed on the outer periphery on the distal end side of the shaft body 11. In other words, in the present embodiment, the outer 50 also serves as the front shaft portion.
In the present embodiment, as shown in FIG. 15B, a spring 66 as an elastic member is disposed behind the ink refill 70. The spring 66 is a compression coil spring that urges the ink containing tube 71 toward the distal end side. In a normal state, the ink refill 70 is at the holder protruding position shown in FIG. When a writing load is applied to the writing tip, the spring 66 is compressed by the rear end portion of the ink containing tube 71, and the entire ink refill 70 moves rearward and moves to the holder immersion position shown in FIG. . When the load applied to the writing tip is weakened, the ink refill 70 is pushed back by the restoring force of the spring 66 and returns to the original position. The elastic member is not limited to the spring 66 and may be any member that can be restored by an elastic action. For example, an elastic body made of a rubber elastic material such as rubber or elastomer may be used.

(Seventh embodiment)
17 and 18 show a seventh embodiment of the present invention.
The present embodiment is a ballpoint pen 1 having a writing ball 30 having a diameter larger than that of the writing ball 30 of the sixth embodiment. Since the diameter of the tip of the ball-point pen tip 20 is larger than that of the sixth embodiment, the taper of the outer 50 is gentle and the tip of the outer 50 is provided with a taper having a different angle. Except for the points, the sixth embodiment is the same as the sixth embodiment.
Thus, in the present invention, the shape of the ballpoint pen tip 20 is not particularly specified as long as writing is possible.

(Eighth embodiment)
19 to 21 show an eighth embodiment of the present invention.
In the present embodiment, the displacement means 60 is formed on the outer 50. As shown in FIGS. 19A and 19B, the outer 50 in the present embodiment includes a compression portion 56 provided with a plurality of slits 56A at the center between the front end portion and the rear end portion. The slits 56A are formed so as to penetrate through the cylindrical outer 50 from the side surface side, and the three-stage slits 56A are alternately positioned. When axial pressure is applied to the outer 50 by the slit 56A, the compression portion 56 is deformed and the entire length of the outer 50 is shortened.

Further, in the present embodiment, as shown in FIG. 20, the tip end portion of the ball-point pen tip 20 does not protrude from the outer tip portion 51 in a normal state. As in the first to fifth embodiments, the outer 50 may be attached to the front shaft portion 12 or attached to the tip portion of the shaft body 11 (the outer 50 also serves as the front shaft portion 12. Thing). You may attach directly to a ball-point pen tip.
At the time of writing, by pressing the outer tip 51 against the writing surface, as shown in FIG. 21, the slit 56A of the compression unit 56 is crushed and the outer 50 becomes shorter, and the tip of the ball-point pen tip 20 (writing The ball 30 and the crimping portion 23) are exposed. The writing tip at this time is as shown in FIG. 6 showing the first embodiment. When the writing tip is separated from the writing surface, the outer 50 returns to its original length due to the restoring force of the compression unit 56, and the tip of the ball-point pen tip 20 is immersed inside the outer 50.

According to the present embodiment, since it is not necessary to provide an elastic member inside the shaft tube 10, it is easy to manufacture. Further, if the outer 50 is formed to be screwed and fixed to the shaft body 11, the outer 50 can be easily replaced even if the compression portion 56 is damaged.
(Ninth embodiment)
FIG. 22 shows a ninth embodiment of the present invention.
In the present embodiment, a stepped portion 58 is formed on the surface of the outer 50 to prevent ink stains on the rear side. As shown in FIG. 22, the stepped portion 58 is formed by reducing the diameter of the portion near the tip of the tapered portion 54 of the outer 50. The step 58 prevents the ink adhering to the tapered portion 54B on the tip side of the step 58 from being diffused to the tapered portion 54A on the rear side of the step 58 so that the vicinity of the tip of the outer 50 becomes dirty. Can be prevented.

The step portion 58 in the present embodiment may be applied to the above-described first to eighth embodiments.
(Comparative example with other writing instruments)
FIG. 23 is a handwriting written with a ballpoint pen, a sign pen, a fountain pen, and the ballpoint pen 1 according to the present invention. The handwriting written with the ballpoint pen 1 according to the present invention can be easily and high-quality written with α “Tome” β “Hane” γ “Halai” at the end of the image, compared with a ballpoint pen, a sign pen, and a fountain pen. Especially, the change in writing load applied to the writing tip at the end of the image can be made smoother by the elastic member in the shaft tube compared to the conventional writing tools, so it makes “tume”, “sparkle” and “harai” like a brush. be able to.

  As described above, in the first to ninth embodiments described above, drawn lines having different thicknesses with a single writing ball are formed by the configuration of the two writing parts including the first writing part and the second writing part. As well as the ability to express handwriting.

  The present invention can be used for a writing instrument such as a ballpoint pen.

1 Ballpoint pen
10 shaft cylinder 11 shaft body 12 tip shaft
13 Ink container 14 Joint 14A Tip
14B Flange 14C Rear end 15 Cam hole
20 Ballpoint pen tip 21 Holder (first writing part) 22 Taper part
23 Caulking section 24 Ball house 25 Core
30 writing balls
40 Ink supply part 41 Collector 42 Tip holding part
42A Receiver 43 Collector core
50 Outer (second writing part) 51 Outer tip 52 Rear insertion hole
53 Front insertion hole 54 Taper 55 Pin
56 Compression section 56A Slit 57 Insertion slot
58 steps
60 Displacement means 61 O-ring (elastic member) 62 Rotation feeding mechanism (feeding mechanism)
63 Rotation operation part 63A Long hole 64 Feeding mechanism part
65 Elastic joint (elastic member) 66 Spring (elastic member)
70 Increfill 71 Ink receiving tube 72 Fitting

Claims (5)

  A ballpoint pen that allows you to write strokes of different thickness depending on the two writing parts. A writing ball, a first writing unit that holds the writing ball by a crimped portion crimped at a tip thereof, an ink supply unit that supplies ink to the first writing unit, and a shaft cylinder that houses the ink supply unit therein And a second writing part that covers an outer periphery of the first writing part, and the first writing part holding the writing ball and a part of the second writing part are exposed from a tip part of the shaft tube. In the ballpoint pen
Displacement means capable of relatively changing the axial positional relationship between the second writing unit and the first writing unit,
When the relative position between the second writing unit and the first writing unit is an immersive position of the first writing unit, the displacing unit is configured to move the first writing unit and the first writing unit. 2. The ballpoint pen according to claim 1, wherein the ballpoint pen is formed so that a tip end portion of the writing portion can be simultaneously brought into contact with the writing surface. The displacement means is an elastic member arranged behind the first writing unit, and the relative position between the second writing unit and the first writing unit is determined by the second writing unit. An immersive position of the first writing part that covers a portion until the tip part reaches the crimping part of the writing ball, and a tip part of the second writing part is behind the immersive position of the first writing part. Can be displaced to the protruding position of the first writing part,
With the protruding position of the first writing part as an initial position, a load from the front end direction is applied to the first writing part, so that the elastic member is compressed and deformed, and the first writing part is rearward. The ballpoint pen according to claim 2, wherein the ballpoint pen is formed so that the first writing unit can be moved to an immersion position of the first writing unit. The displacement means is a feeding mechanism provided at a tip portion of the shaft tube,
The feeding mechanism is formed so that the second writing unit can be moved between a protruding position of the first writing unit and an immersion position of the first writing unit by a predetermined operation. The ballpoint pen according to claim 2, wherein   The ink is written in a contact portion with the writing surface of the writing ball and a tip portion of the second writing portion in a state where the writing ball and the tip portion of the second writing portion are simultaneously in contact with the writing surface. The ballpoint pen according to any one of claims 2 to 4, wherein the ballpoint pen is formed to have a viscosity capable of diffusing between the surface and the contact portion.

Images