JP6943935B2 - Stationery with touch pen - Google Patents

Description

The present invention relates to a writing instrument with a touch pen for a capacitance type input device for inputting coordinate information to a capacitance type input device such as a personal computer or a mobile terminal.

In recent years, with the spread of smartphones and tablet terminals, the possession rate of capacitive input devices has increased, and many of these users operate them with their fingers.
However, the operation with a finger has a drawback that the liquid crystal screen for input is mistakenly pressed, and when the screen is dirty, the finger slips poorly and the operability is deteriorated. Furthermore, it has been pointed out that when nails are applied to the fingers or the nails are long, even if the screen is pressed with the nails to perform an operation, the screen does not respond to the nails due to the electrostatic type.
Therefore, in order to solve such a drawback, a technique for a cordless type position indicator (so-called touch pen) used for inputting coordinate information to a capacitance type input device is disclosed in Patent Document 1 below. There is.

Japanese Unexamined Patent Publication No. 2012-153807

However, the technique of Patent Document 1 has a problem that the shaft cylinder has a two-member structure consisting of a front end side portion and a rear end side portion, and thus a gap is generated between the respective members to hinder conductivity. Have.
Here, when forming the touch pen, the more the member is interposed between the shaft and the touch pen portion (contact portion with the capacitance type input device), the more the capacitance is attenuated, and the conductivity to the touch pen portion is reduced. Will be hindered.
Therefore, the present invention minimizes the number of members interposed between the shaft and the touch pen portion, and conducts more conductivity to the touch pen portion without attenuating the capacitance supplied to the touch pen portion to make it reactive. The challenge is to provide a writing tool with a touch pen that is rich and can be operated smoothly.

In order to solve the above problems, the present invention has the following configurations.
(First invention)
The first aspect of the present invention is the writing tool 10 in which the writing tip 61 is provided on one end side of the barrel 20 and the touch pen 40 having conductivity is mounted on the other end side. Two slits 24, which include a conductive material and face each other across the axis, are formed on the side surface of the axis 20 along the longitudinal direction of the axis 20, and the touch pen 40 is directly attached to the axis 20. A slide knock member 50 which is attached to the other end side of the writing tip 61 and is involved in the appearance of the writing tip 61 is provided. A release protrusion 52 that slides along the other side of the slit 24 is provided, and the release protrusion 51 slides in front of the barrel 20 from the other side of the slit 24. It is characterized in that 52 protrudes.

The barrel 20 in the present invention is made of, for example, a conductive resin or stainless steel containing carbon black or the like so that at least the rear end side portion, that is, the surface of the portion where the touch pen 40 is located has conductivity. It is integrally molded with metal without including connection points.
The shaft cylinder 20 can be integrally molded from a material that does not have conductivity. In this case, the shaft cylinder 20 is coated with a conductive paint or a conductive film on the surface of the shaft cylinder 20. The cylinder 20 is formed so as to have conductivity.
The writing tip 61 refers to a portion of the writing instrument 10 that comes into direct contact with the writing surface, for example, the paper surface. As the writing tip 61, various writing instruments 10 such as a ballpoint pen 61, a mechanical pencil, a felt-tip pen, and a marker pen are assumed.

The touch pen 40 is made of a conductive material and is molded into a shape like the writing tip 61. This material is not particularly limited as long as it has conductivity.
Therefore, as this material, a metal material, a material whose surface is plated, or a carbon material may be used, and a softer material such as polythiophene or polypyrrole is used because it is in contact with the liquid crystal screen. It may be formed by using the polymer material of the above, or it may be used by coating the surface.
Further, as a material having conductivity, conductive fibers 44 may be flocked on the surface of the touch pen 40. This conductive fiber 44 is characterized by being slippery during operation as compared with those using an elastic material such as rubber. Therefore, when fine photo processing, drafting, or drawing a precise picture on a liquid crystal screen. It can also be used for.

The slit 24 is formed so that the side surface of the barrel 20 is opened so that two grooves face each other with the axial center in between, and the slide knock member 50 described later has a maximum range of the length of the slit 24. It can slide in the front-back direction.
The slide protrusion 51 included in the slide knock member 50 always protrudes from one of the slits 24, and by sliding the slide protrusion 51 in front of the shaft cylinder 20, the writing tip 61 protrudes from the shaft cylinder 20. It is formed.
The release protrusion 52 included in the slide knock member 50 protrudes from the other slit 24 when the writing tip 61 protrudes from the shaft cylinder 20 as a result of the slide protrusion 51 sliding forward of the shaft cylinder 20. Then, by pressing the release protrusion 52, the writing tip 61 is formed so as to be immersed in the barrel 20.

(Second invention)
In addition to the features of the first invention described above, the second invention of the present invention is mounted so as to cover a part of the touch pen 40, and provides conductivity for fixing the touch pen 40 to the barrel 20. A fixing member 80 is provided, and an outer step portion 46 for engaging with the fixing member 80 is formed on the outer periphery of the touch pen 40, and the outer step portion 46 is formed on the inner circumference of the fixing member 80. It is characterized in that an inner step portion 81 for engaging with the portion 46 is formed.
The second invention specifies a method for fixing the touch pen 40 and the barrel 20.

That is, the outer step portion 46 of the touch pen 40 and the inner step portion 81 of the fixing member 80 are engaged with each other, the touch pen 40 and the fixing member 80 are integrated, and then the fixing member 80 is fixed to the barrel 20. The touch pen 40 is also formed so as to be fixed to the barrel 20.
Here, the method of fixing the fixing member 80 and the barrel 20 is not particularly limited, and for example, screws may be provided for each and the screws may be screwed to fix the fixing member 80 and the shaft cylinder 20.
The "inner step 81" in the second invention is the "fixing member inner step 81" in the embodiment of the present invention described later, and the "outer step 46" is "outside the touch pen". Corresponds to "square section 46".

(Third invention)
In addition to the features of the first invention described above, the third invention of the present invention is conductive that is connected to the touch pen 40 and is fixed to the barrel 20 in a state of being integrated with the touch pen 40. An intervening member 90 having a property is provided, a key ridge 91 for engaging with the shaft cylinder 20 is formed on the surface of the intervening member 90, and the key ridge 91 is formed on the other end of the shaft cylinder 20. A key ridge insertion hole 92 having a passable shape is formed, and after the key ridge 91 has passed through the key ridge insertion hole 92, the intervening member 90 is rotated around the key ridge insertion hole 92. It is characterized in that a key receiving portion 93 that engages with the key ridge 91 is formed.

The third invention specifies a method for fixing the touch pen 40 and the barrel 20.
Specifically, the intervening member 90 integrated with the touch pen 40 is inserted into the barrel 20, and after the key ridge 91 passes through the key ridge insertion hole 92, the intervening member 90 is rotated from the key ridge insertion hole 92. The touch pen 40 is fixed to the barrel 20 by pulling the keystone 91 apart. That is, when the key ridge 91 and the key receiving portion 93 are brought into contact with each other, each of the key ridge 91 and the key receiving portion 93 is prevented from coming off, so that the touch pen 40 cannot be pulled out.
Here, the method of fixing the touch pen 40 and the intervening member 90 is not particularly limited, and for example, protrusions may be provided on each of the touch pen 40 and the protrusions may be engaged with each other to fix the touch pen 40 and the intervening member 90.

(Fourth invention)
In the fourth aspect of the present invention, in addition to the features of the first invention described above, the touch pen 40 has a shape in which one end is closed and the other end is open, and the inner circumference of the touch pen 40 near the other end. Is formed with a convex portion 47 for engaging with the barrel 20, and a concave portion 71 for engaging with the convex portion 47 is formed at the other end of the barrel 20. Alternatively, the recess 71 is characterized in that the other end side of the touch pen 40 is press-fitted into the barrel 20 to prevent it from coming off.
The fourth invention specifies a method for fixing the touch pen 40 and the barrel 20.

That is, the touch pen 40 is directly press-fitted into the barrel 20 so that the convex portion 47 is accommodated in the concave portion 71, and the convex portion 47 and the concave portion 71 act as a retaining tool, thereby causing the touch pen 40 to act as a shaft cylinder. It is fixed at 20.
The "convex portion 47" in the fourth invention corresponds to the "touch pen inner step portion 47" in the embodiment of the present invention described later, and the "concave portion 71" corresponds to the "engagement groove 71". ..

(Fifth invention)
The fifth aspect of the present invention is higher than the touch pen 40 between the rear end of the barrel 20 and the touch pen 40, in addition to the features of the first, second, third or fourth invention described above. It is characterized by being provided with an intervening member 90 which is a rubber elastic material having a hardness.
The fifth invention specifies the material of the intervening member 90. That is, by forming the intervening member 90 with a rubber elastic material having a hardness higher than the rubber hardness of the touch pen 40, the touch pen 40 and the intervening member 90 come into contact with each other each time the touch pen 40 is repeatedly pressed. As a result, the touch pen 40 does not come into direct contact with the rear end of the barrel 20, so that tearing from the inside of the touch pen 40 can be prevented. It is preferable that the rubber hardness of the touch pen 40 is less than 50 in the durometer A hardness defined by JIS K6250, the intervening member 90 is the durometer hardness A70 or more, and the hardness difference is 20 or more.

Since the present invention is configured as described above, the following effects are obtained.
(Effect of the first invention)
According to the first invention, since the shaft cylinder contains a conductive material and the space between the shaft cylinder and the touch pen can be made into a single member, as a result, a larger capacitance can be supplied to the touch pen. It is possible to provide a writing tool with a touch pen that is highly responsive and capable of smooth operation.
(Effect of the second invention)
According to the second invention, since the touch pen itself is not fixed to the shaft cylinder but is fixed to the shaft cylinder via a fixing member, the touch pen can be easily removed from the shaft cylinder when the touch pen is replaced. It is possible to provide a writing tool with a touch pen that can easily replace a worn touch pen.

(Effect of the third invention)
According to the third invention, the touch pen is formed so as to be fixed to the barrel through an intervening member integrated without covering a part of the touch pen, so that the touch pen is formed on the conductive path of the surface portion of the touch pen. Since there is no member of the above, it is possible to provide a writing tool with a touch pen capable of supplying a larger capacitance to the touch pen as compared with the second invention.
(Effect of Fourth Invention)
According to the fourth invention, since the touch pen is formed so as to be directly fixed to the shaft cylinder, a single member can be formed between the shaft cylinder and the touch pen, so that more electrostatic charge is applied to the touch pen. As a result of being able to supply the capacity, it is possible to provide a writing tool with a touch pen which is rich in reactivity and can be operated smoothly as compared with the second and third inventions.

(Effect of Fifth Invention)
According to the fifth invention, by providing an intervening member harder than the touch pen and softer than the rear shaft between the touch pen and the rear shaft, the touch pen is damaged from the inside by repeating a strong pressing operation on the touch panel. Can be prevented.
Further, by forming a single member between the barrel and the touch pen, the number of members used for the writing tool with the touch pen can be reduced, which is excellent in terms of manufacturing and cost.

It is a side view (A) and a side sectional view (B) in an immersive state of the writing instrument which concerns on embodiment of this invention. It is a perspective view in the immersive state of the writing instrument which concerns on embodiment of this invention. It is a side view (A) and a side sectional view (B) in the protruding state of the writing instrument which concerns on embodiment of this invention. It is a perspective view in the protruding state of the writing instrument which concerns on embodiment of this invention. It is sectional drawing of the touch pen which concerns on embodiment of this invention. It is a perspective view (A) and a plan view (B) of the slide knock member which concerns on embodiment of this invention. It is a cross-sectional view (A) in the immersive state and the cross-sectional view (B) in the protruding state of the axle cylinder and the slide knock member which concerns on embodiment of this invention. It is sectional drawing which showed the fixed state of the touch pen and the shaft cylinder which concerns on 1st Embodiment of this invention. It is sectional drawing which showed the fixed state of the touch pen and the shaft cylinder which concerns on 2nd Embodiment of this invention. It is sectional drawing which showed the fixed state of the touch pen and the shaft cylinder which concerns on 3rd Embodiment of this invention. It is sectional drawing which showed the fixed state of the touch pen and the shaft cylinder which concerns on 4th Embodiment of this invention.

Hereinafter, referring to the drawings, as the writing instrument 10 according to the embodiment of the present invention, a touch pen 40 having conductivity is provided at the rear end of the barrel 20, and a ballpoint pen 61 as the writing tip 61 is provided at the tip of the barrel 20. A writing instrument 10 with a touch pen 40 provided will be described as an example. In the present invention, the "front" of the writing instrument 10 and its components indicates the direction in which the ballpoint pen 61 is provided as the writing tip 61, and the "rear" indicates the direction opposite to it.

(First Embodiment)
(overall structure)
As shown in FIG. 1A, the writing tool 10 according to the embodiment of the present invention is attached to the shaft cylinder 20, the front shaft 30 attached to the tip of the shaft cylinder 20, and the rear end of the shaft cylinder 20. It has an appearance of having a conductive touch pen 40 and a slide knock member 50 arranged between the touch pen 40 and the vicinity of the rear end side of the axle tube 20. As shown in FIG. 1B, a ballpoint pen refill 60 is housed inside the writing tool 10, and a ballpoint pen 61 as a writing tip 61 is provided at the tip thereof.
Here, in the embodiment of the present invention, the state in which the ballpoint pen 61 protrudes from the writing instrument 10 is referred to as the "protruding state", and the state in which the ballpoint pen 61 is housed in the writing instrument 10 is referred to as the "immersive state".

(Cylinder 20)
As shown in FIG. 1 (B), the shaft cylinder 20 is a hollow tubular member held by the user as an external structure of the writing tool 10, and the shaft cylinder body constituting the tubular body portion is formed. It is composed of a portion 21 and a barrel rear portion 22 which is connected to the rear end of the axle cylinder body 21 and whose outer diameter is reduced toward the rear thereof. Further, a part of the side surface of the barrel 20 is opened, and the two slits 24 are formed so as to face each other with the shaft center in between. With the length of the slit 24 as the maximum range, the slide knock member 50, which will be described later, can slide and move in the front-rear direction. A female screw 25 for the shaft cylinder is formed at the tip of the body portion 21 of the shaft cylinder so as to be screwed with the male screw 33 for the front shaft, which will be described later.

Here, the shaft cylinder 20 according to the embodiment of the present invention contains, for example, carbon black or the like so that at least the rear end side portion, that is, the surface of the shaft cylinder rear portion 22 in contact with the touch pen 40 has conductivity. It is integrally molded from a conductive resin or a metal such as stainless steel.
Therefore, in forming the writing tool 10 according to the embodiment of the present invention, the number of members interposed between the barrel 20 and the touch pen 40 can be reduced, and the touch pen 40 can be attached without attenuating the capacitance. It is possible to carry out conductivity.

(Front axis 30)
The tip shaft 30 is a hollow tubular member having a tapered shape at the tip of the external structure of the writing tool 10. As shown in FIG. 1 (B), the tip shaft 30 has an outer diameter reduced from the tip side to the tip opening 34, which is an opening portion provided on the tip surface of the tip shaft 30, and the front portion thereof. It is composed of a front shaft front portion 31, a front shaft male screw 33 formed on the inner circumference near the rear end of the front shaft front portion 31, and a tubular front shaft rear portion 32 connected to the rear of the front shaft male screw 33. Has been done.
Here, the front shaft 30 and the shaft cylinder 20 are fixed by screwing the front shaft male screw 33 and the shaft cylinder female screw 25. The selection of the above-mentioned "male screw" and "female screw" is not particularly limited, and the front shaft is formed by forming as a "lead shaft female screw" and a "shaft cylinder male screw" and screwing them together. It is also possible to fix the 30 and the barrel 20.

Further, in the writing tool 10 according to the embodiment of the present invention, the leading shaft 30 is formed of a non-conductive material, the shaft cylinder 20 is formed of a conductive material, and the two are combined to form an external structure thereof. ing.
The tip shaft 30 may be formed of the same conductive material as the barrel 20, but in that case, it becomes difficult to mold the parts including the internal mechanism of the writing instrument 10, and the touch pen 40 is used during writing. If you touch the capacitive input device unexpectedly, there is a concern that it may malfunction.

Therefore, from the viewpoint of ease of molding parts and prevention of malfunction, it is desirable that the toe shaft 30 is formed of a non-conductive material such as a non-conductive plastic so as not to have conductivity.
On the other hand, the shaft cylinder 20 and the toe shaft 30 are formed of a non-conductive material, and the surface of the shaft cylinder 20 is coated with a metal cylinder structure, or the surface of the shaft cylinder 20 is plated with metal or a conductive film. Thereby, it may be formed so that only the surface of the barrel 20 has conductivity. In any of the above cases, at least the surface of the barrel 20 is formed to have conductivity.

(Touch pen 40)
As shown in FIG. 5, the touch pen 40 is a part for operating the capacitance type input device in the writing instrument 10 according to the embodiment of the present invention.
As shown in FIG. 5, the touch pen 40 is composed of a hemispherically formed rubber member 41 mounted over the rear portion 22 of the barrel and conductive fibers 44 electrostatically flocked on the surface of the rubber member 41. It is configured.
Here, the rubber member 41 is a member that covers the flat surface portion 42 formed in a disk shape in the outer diameter direction near the hemispherical opening portion and the outer peripheral surface of the flat surface portion 42 to the rear portion 22 of the barrel. A rubber hemisphere 43 formed hemispherically so as to have an inner diameter larger than the outer diameter of the rear portion 22 of the barrel, and a touch pen outer side formed on the outer circumference of the rubber hemisphere 43 and having a step protruding inward. It is composed of a step 46. Since the rubber member 41 according to the embodiment of the present invention is formed by using conductive rubber, it does not obstruct the conductive path to the surface of the touch pen 40.

Further, since the rubber member 41 has a hemispherical shape, a space portion 45 is formed inside the rubber member 41. When the touch pen 40 is strongly pressed against the capacitance type input device, the rubber member 41 is elastically deformed by the volume of the space portion 45 and is received by the barrel rear portion 22. Therefore, it is possible to prevent damage to the liquid crystal screen of the capacitance type input device.
Then, the touch pen 40 according to the embodiment of the present invention is attached to the barrel 20 after the conductive fibers 44 are electrostatically transplanted on the surface of the rubber hemisphere portion 43.

(Slide knock member 50)
As shown in FIG. 6, the slide knock member 50 includes a slide protrusion 51 that slides along one of the slits 24, a plate-shaped flat plate portion 55 that is connected to the rear end side of the slide protrusion 51, and a flat plate portion 55. An insertion portion 54 connected to the tip, a spring receiving step 56 formed between the flat plate portion 55 and the insertion portion 54, and a locking projection 53 protruding outward from the rear end of the flat plate portion 55. It is composed of a release protrusion 52 that slides along the other slit 24.

(Slide protrusion 51)
The slide protrusion 51 always protrudes from one of the slits 24 (see FIGS. 1 to 4), and is a member involved in the protrusion of the ballpoint pen 61 when the user slides the slide protrusion 51 forward. be.
Further, as shown in FIG. 1 (B), the slide protrusion 51 is provided with a clip 57 projecting toward the shaft cylinder 20 at the tip thereof, and a pocket of clothes or the like is provided on the outer periphery of the clip 57 and the shaft cylinder 20. By sandwiching it between the surfaces, the writing tool 10 can be held on the clothes.
All the constituent members of the slide knock member 50 are integrated, and as the slide protrusion 51 slides back and forth, other members also interlock and slide in the same direction as the slide protrusion 51. It is formed.

(Flat plate 55)
The flat plate portion 55 constitutes a body portion of the slide knock member 50, and the entire flat plate portion 55 is a member housed in the barrel 20. The flat plate portion 55 slides in the barrel 20 in conjunction with the sliding movement of the slide protrusion 51 back and forth.
(Insert 54)
The insertion portion 54 is a member that is connected to the tip of the flat plate portion 55 and is inserted into the rear end of the ballpoint pen refill 60. When the slide protrusion 51 slides forward, the insertion portion 54 slides in the barrel 20 while pushing the ballpoint pen refill 60 forward in conjunction with the slide movement.

(Spring receiving step 56)
The spring receiving step 56 is a step formed between the flat plate portion 55 and the insertion portion 54, and the spring 62 is mounted so as to come into contact with the step (FIGS. 1 (B) and 3 (B)). )reference.). When the slide protrusion 51 slides forward, the spring receiving step 56 compresses the spring 62 with the rear end of the front shaft rear portion 32 in conjunction with the slide movement.
(Locking protrusion 53)
The locking projection 53 is a member that maintains the protruding state by overcoming the rail portion 23 described later and pressing the locking projection 53 against the rail portion 23 by the elastic action of the spring 62. .. The action of the locking projection 53 will be described later.

(Release protrusion 52)
The release protrusion 52 is a member involved in the immersion of the ballpoint pen 61 by projecting from the other slit 24 and pressing the protrusion when the writing tool 10 changes from the immersed state to the protruding state. The action of the release protrusion 52 will be described later.

(Rail part 23)
As shown in FIG. 7, the rail portion 23 is a member formed inside the barrel 20 and having an inverted L-shaped cross section.
FIG. 7A is a cross-sectional view of the shaft cylinder 20 and the slide knock member 50 in the immersive state. In the immersive state, the locking projection 53 is formed between the rail portion 23 and the inner peripheral surface of the shaft cylinder 20. positioned.
On the other hand, FIG. 7B is a cross-sectional view of the shaft cylinder 20 and the slide knock member 50 in the protruding state. In the protruding state, the locking protrusion 53 gets over the rail portion 23 and is positioned immediately before the rail portion 23. doing.

(Transition from immersive state to protruding state)
Hereinafter, the flow until the writing tool 10 according to the embodiment of the present invention moves from the immersive state to the protruding state and returns to the immersive state again will be described.
(1) Change from immersive state to protruding state FIG. 2 is a perspective view showing an immersive state of the writing tool 10, and FIG. 1 (B) is a cross-sectional view showing an immersive state of the writing tool 10. When the slide protrusion 51 is slid forward from this state, the insertion portion 54 inserted at the rear end of the ballpoint pen refill 60 interlocks with the slide movement of the slide protrusion 51 and pushes the ballpoint pen refill 60 forward while pushing the shaft cylinder. By sliding inside 20, the ballpoint pen 61 protrudes from the tip opening 34, and the writing tool 10 moves from the "immersive state" to the "protruding state".

Here, when moving from the "immersive state" to the "protruding state", as shown in FIG. 7B, the locking projection 53 gets over the rail portion 23 and is located immediately before the rail portion 23. The locking projection 53 is pressed against the rail portion 23 by the spring 62 from the front to maintain the protruding state of the writing tool 10.
That is, when the slide protrusion 51 is slid forward until it reaches the protruding state, the locking protrusion 53 that has slid on the rail portion 23 in conjunction with this slide movement falls from the rail portion 23 in the axial direction. Then, the locking projection 53 is located immediately before the rail portion 23.

Then, in conjunction with the slide movement of the slide protrusion 51, the spring 62 is compressed between the spring receiving step 56 and the rear end of the front shaft rear portion 32, so that the urging force of the spring 62 causes the locking protrusion 53 to move forward. The writing tool 10 is maintained in a protruding state by being pressed against the rail portion 23.
At the same time that the locking projection 53 falls from above the rail portion 23, the releasing projection 52 projects from the other slit 24.

(2) Change from the protruding state to the immersive state FIG. 4 is a perspective view showing the protruding state of the writing tool 10, and FIG. 3 (B) is a cross-sectional view showing the protruding state of the writing tool 10. When the release projection 52 is pressed from this state, the state in which the locking projection 53 is pressed against the rail portion 23 by the spring 62 is released, and the locking projection 53 returns to the rail portion 23. As a result, the spring 62 compressed between the spring receiving step 56 and the rear end of the front shaft rear portion 32 is released, and the slide knock member 50 slides backward due to the elastic action of the spring 62, and the writing tool 10 Will return from the "protruding state" to the "immersive state".

(How to fix the touch pen 40 and the shaft cylinder 20)
The method of fixing the touch pen 40 and the shaft cylinder 20 in the first embodiment of the present invention is to fix the touch pen 40 directly to the shaft cylinder 20. Hereinafter, description will be made with reference to FIG.
FIG. 8 is an enlarged cross-sectional view of the rear portion 22 of the axle cylinder, showing a method of fixing the touch pen 40 and the axle cylinder 20. As shown in FIG. 8, on the inner peripheral surface of the touch pen 40 on the tip end side, a touch pen inner step portion 47 projecting over the entire circumference is formed.
On the other hand, the rear end 22 of the barrel is press-fitted at the rear end by opening the rear end of the rear 22 of the barrel to fix the tubular touch pen holder 70 covered with the touch pen 40 and the touch pen 40. It has a groove 72. The width of the press-fitting groove 72 is formed to be slightly narrower than the thickness of the touch pen 40.

Further, an engaging groove 71 is formed in the tip portion of the touch pen holder 70 over the entire circumference of the touch pen holder 70 so as to engage with the inner step portion 47 of the touch pen.
At this time, the method of fixing the touch pen 40 and the shaft cylinder 20 is to press-fit the touch pen 40 directly into the rear portion 22 of the shaft cylinder until the inner step portion 47 of the touch pen is accommodated in the engaging groove 71. That is, the touch pen 40 is fixed to the barrel 20 by the action of preventing the touch pen inner step portion 47 and the engaging groove 71 from coming off and the pressurization by the press-fitting groove 72.

(Second Embodiment)
Hereinafter, a second embodiment according to the embodiment of the present invention will be described with reference to FIG. Further, in the second embodiment, the same reference numerals as those used in the first embodiment are used for the same components as those in the first embodiment. Then, the part overlapping with the first embodiment will be omitted, and the feature points in the second embodiment will be mainly described.

(How to fix the touch pen 40 and the shaft cylinder 20)
The method of fixing the touch pen 40 and the shaft cylinder 20 in the second embodiment of the present invention is a tubular shape that assists in fixing the touch pen 40 to the shaft cylinder 20 without directly fixing the touch pen 40 to the shaft cylinder 20. The fixing member 80 is provided, and the touch pen 40 is fixed to the barrel 20 via the fixing member 80. Hereinafter, description will be made with reference to FIG.
FIG. 9 is an enlarged cross-sectional view of the rear portion 22 of the axle cylinder, showing a method of fixing the touch pen 40 and the axle cylinder 20. As shown in FIG. 9, a touch pen outer step portion 46 projecting over the entire circumference is formed on the outer peripheral surface of the touch pen 40 on the tip end side.

On the other hand, the fixing member 80 is inside the fixing member 80 so as to be screwed with the fixing member inner step portion 81 formed on the rear end side of the fixing member 80 so as to engage with the touch pen 40 and the axle cylinder rear portion 22. It is provided with a fixing member female screw 82 formed on the circumference. A male screw 83 at the rear of the barrel is formed on the outer circumference of the rear portion 22 of the barrel so as to be screwed with the female screw 82 of the fixing member.
At this time, the method of fixing the touch pen 40 and the axle cylinder 20 is as follows: after engaging the touch pen outer step portion 46 and the fixing member inner step portion 81, the fixing member female screw 82 and the axle cylinder rear male screw 83 are used. The touch pen 40 is fixed to the barrel 20 via the fixing member 80 by screwing. The selection of the above "male screw" and "female screw" is not particularly limited. It is also possible to fix the rear portion 22 of the cylinder and the fixing member 80.

(Third Embodiment)
Hereinafter, a third embodiment according to the embodiment of the present invention will be described with reference to FIG. Further, in the third embodiment, the same reference numerals as those used in the first and second embodiments are used for the same components as those in the first and second embodiments. Then, the part overlapping with the first and second embodiments will be omitted, and the feature points in the third embodiment will be mainly described.
(How to fix the touch pen 40 and the shaft cylinder 20)
The method of fixing the touch pen 40 and the shaft cylinder 20 in the third embodiment of the present invention is a tubular shape that assists in fixing the touch pen 40 to the shaft cylinder 20 without directly fixing the touch pen 40 to the shaft cylinder 20. The intervening member 90 is provided, and the touch pen 40 is fixed to the barrel 20 via the intervening member 90. Hereinafter, description will be made with reference to FIG.

FIG. 10 is an enlarged cross-sectional view of the rear portion 22 of the axle cylinder, showing a method of fixing the touch pen 40 and the axle cylinder 20. As shown in FIG. 10A, a touch pen inner step portion 47 projecting over the entire circumference is formed on the inner peripheral surface of the touch pen 40 on the tip end side.
On the other hand, as shown in FIG. 10A, the intervening member 90 has an engaging groove 71 formed over the entire circumference of the intervening member 90 and the intervening member 90 so as to engage with the inner step portion 47 of the touch pen. It is equipped with a key ridge 91 (see FIG. 10B) that protrudes outward from a part of the tip side of the. Inside the barrel rear portion 22, there is a key ridge insertion hole 92 opened in a shape that allows the key ridge 91 to pass through, and after the key ridge 91 has passed through the key ridge insertion hole 92, the key ridge 91 A key receiving portion 93, which is a closed portion around the key ridge insertion hole 92, is provided so as to engage with the key receiving portion 93. Further, a through hole 94 is formed in the axial center of the intervening member 90. As a result, even if the volume of the space 45 is reduced by pressing the touch pen 40 during operation, air escapes from the through hole 94, so that a comfortable operation feeling can be obtained without significantly increasing the operating load of the touch pen 40.

At this time, the method of fixing the touch pen 40 and the shaft cylinder 20 is to accommodate the inner step portion 47 of the touch pen in the engaging groove 71, and then insert the intervening member 90 integrated with the touch pen 40 into the rear portion 22 of the shaft cylinder. After the key ridge 91 has passed through the key ridge insertion hole 92, the intervening member 90 is rotated to separate the key ridge 91 from the key ridge insertion hole 92. That is, when the key ridge 91 and the key receiving portion 93 are brought into contact with each other, each of the key ridge 91 and the key receiving portion 93 is prevented from coming off, so that the touch pen 40 cannot be pulled out.

(Action and effect of the writing tool 10 according to the embodiment of the present invention)
Since the writing tool 10 according to the embodiment of the present invention is configured as described above, it exhibits the following effects.
In the writing tool 10 according to the embodiment of the present invention, since the barrel 20 is integrally molded from the conductive material, the area between the barrel 20 and the touch pen 40 can be made into a single member. Therefore, the touch pen 40 As a result of being able to supply more capacitance to, it is possible to provide a writing tool 10 with a touch pen 40 that is highly responsive and capable of smooth operation.

Further, the writing tool 10 according to the first embodiment of the present invention is formed so that the touch pen 40 is directly fixed to the shaft cylinder 20, so that the touch pen 40 is fixed to the shaft cylinder 20 without using other members. As a result, it is possible to supply a larger capacitance to the touch pen 40, and as a result, it is possible to provide the writing tool 10 with the touch pen 40, which is highly responsive and can be operated smoothly.
Furthermore, by making the area between the barrel 20 and the touch pen 40 a single member, the number of members used for the writing tool 10 with the touch pen 40 can be reduced, which is excellent in terms of manufacturing and cost. ..

Further, since the writing tool 10 in the second embodiment of the present invention is formed so as to fix the touch pen 40 itself to the shaft cylinder 20 via the fixing member 80 without fixing the touch pen 40 itself to the shaft cylinder 20, when the touch pen 40 is replaced. Since the touch pen 40 can be easily removed from the barrel 20, it is possible to provide the writing tool 10 with the touch pen 40 in which the worn touch pen 40 can be easily replaced.
Further, the writing tool 10 according to the third embodiment of the present invention is formed so that the touch pen 40 is fixed to the barrel 20 via an intervening member 90 integrated without covering a part of the touch pen 40. As a result of the absence of other members on the conductive path of the touch pen 40, the writing tool 10 with the touch pen 40 capable of supplying a larger capacitance to the touch pen 40 as compared with the second embodiment of the present invention. Can be provided.

(Fourth Embodiment)
Hereinafter, a fourth embodiment according to the embodiment of the present invention will be described with reference to FIG. In the fourth embodiment, the same reference numerals as those used in the second embodiment are used for the same components as those in the second embodiment. Then, the part overlapping with the second embodiment will be omitted, and the feature points in the fourth embodiment will be mainly described.
In the fourth embodiment, an intervening member 90 is attached to the rear end of the barrel 20 so as to intervene between the rear end of the barrel 20 and the inner surface of the touch pen 40. The intervening member 90 is composed of a curved surface portion 95 whose surface is formed into a convex curved surface and a rod-shaped portion 96 which is an attachment portion to the barrel 20. The intervening member 90 is attached to the barrel 20 by press-fitting the rod-shaped portion 96 into the insertion hole 26 formed at the rear end of the barrel rear portion 22. By forming the intervening member 90 with a material having rubber elasticity, even if the touch pen 40 is operated to frequently contact the touch panel or the like, the inside of the touch pen 40 comes into contact with the intervening member 90 each time, so that the barrel 20 There is no direct contact with the rear end. Therefore, damage from the inside of the touch pen 40 can be prevented. It is preferable that the intervening member 90 has a durometer A hardness of 70 or more specified in JIS K6250, and the rubber member 41 of the touch pen 40 in that case is a conductive silicone rubber having a durometer A hardness of 50 or less.

Further, the intervening member 90 preferably has conductivity.
Further, the intervening member 90 of the present embodiment can be attached to the rear portion 22 of the barrel of the first embodiment described above, and may have a structure of a touch pen unit like the intervening member 90 of the third embodiment. ..
Further, the same effect can be obtained by using the same material as the intervening member 90 for the rear end of the barrel rear portion 22 instead of the intervening member 90.
The method of fixing the touch pen 40 and the shaft cylinder 20 may be a structure in which the fixing member 80 can be attached to and detached from the shaft cylinder 20 and the touch pen 40 can be replaced, instead of the method by screwing shown in FIG. ..

(others)
In addition to the above-described embodiment, the present invention may have modifications as shown below.
The touch pen 40 is not limited to the pen core shape as long as it is made of a conductive material, and can also be formed of a brush shape, a brush shape, a sponge shape, a spherical rubber, or the like.
Further, the ink contained in the ballpoint pen refill 60 may be a known heat-discoloring ink or an eraser erasable ink. At this time, the 40 parts of the touch pen attached to the rear end are made of a material having rubber elasticity formed of a thermoplastic elastomer or an eraser according to the above ink, so that a pressure-sensitive touch pen, an erasable knock-type ballpoint pen, and thermal discoloration can be obtained. It may be formed as a writing instrument.

The present invention can be used as a writing instrument with a touch pen for a capacitance type input device for inputting coordinate information to a capacitance type input device such as a personal computer or a mobile terminal.

10 Stationery
20 Shaft cylinder 21 Shaft cylinder body
22 Rear of shaft tube 23 Rail
24 Slit 25 Female screw
26 Insertion hole
30 leading shaft 31 leading shaft front
32 Front shaft rear 33 Front shaft male screw
34 Tip port
40 Touch pen 41 Rubber member
42 Flat surface 43 Rubber hemisphere
44 Conductive fiber 45 Space
46 Touch pen outer step (outer step) 47 Touch pen inner step (convex)
50 Slide knock member 51 Slide protrusion
52 Release protrusion 53 Locking protrusion
54 Insertion part 55 Flat plate part
56 Spring receiving step 57 Clip
60 Ballpoint pen refill 61 Ballpoint pen (writing tip)
62 spring
70 Touch Pen Holder 71 Engagement Groove (Concave)
72 Press-fit groove
80 Fixing member 81 Fixing member Inner step part (Inner step part)
82 Fixing member Female screw 83 Male screw at the rear of the axle
90 Intervening member 91 Kagiyama
92 Key ridge insertion hole 93 Key receiving part
94 Through hole 95 Curved surface
96 rod-shaped part

Claims (1)

A shaft tube that houses a ballpoint pen refill and
A slit provided on the side surface of the barrel so as to extend in the axial direction,
A flat plate portion slidably inserted in the slit in the axial direction,
An insertion portion that is integrally molded with the flat plate portion and allows the ballpoint pen refill to appear and disappear from the tip of the barrel.
A slide protrusion formed integrally with the flat plate portion and exposed to the outside of the slit of the barrel is provided.
The axle cylinder integrally has a rear portion of the axle cylinder extending to the rear side of the flat plate portion.
The shaft cylinder has a rail portion extending in the axial direction on a shaft wall extending in the wall thickness direction of the shaft cylinder so as to surround the front region of the slit.
The flat plate portion has a locking projection that slidably engages with the rail portion in a region facing the shaft wall, and when the ballpoint pen refill is maintained in a protruding state from the shaft cylinder. At the same time that the locking protrusion falls from the rail part, the releasing protrusion protrudes from the axle tube from the other slit, and at the same time,
A writing tool characterized in that a touch pen having rubber elasticity is attached to the rear portion of the barrel.

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