JP2022098179A - Pressurized writing instrument - Google Patents

Abstract

To generate pressure stably in a pressurized writing instrument.SOLUTION: A pressurized writing instrument 10 includes a barrel 20, a refill 30 which is provided inside the barrel and has an ink storage cylinder 33 filled with ink 31 and a pressure mechanism 50 to apply pressure on the rear end of ink, the pressure mechanism includes an elastic member 80 and a pressing member 60 located behind the elastic member, the elastic member has a rear member 81 having an opening 83, a side member 85 extending forward from the peripheral edge of the rear member, and a first internal space S1 surrounded by the rear member and the side member, the area of the cross section of the first internal space orthogonal to the central axis A of the barrel decreases toward the rear, and when the elastic member moves backwards, the front end 61 of the pressing member abuts on the elastic member to seal the opening, whereby the pressure chamber C including the first internal space is formed, and the volume of the pressure chamber is reduced as a result that at least a part of the elastic member is deformed.SELECTED DRAWING: Figure 1

Description

The present invention relates to a pressurized writing instrument.

In writing tools such as ballpoint pens, pressure-type writing tools that can apply pressure to the ink filled inside are known. Patent Document 1 includes a shaft cylinder capable of accommodating a refill filled with ink, a pressurizing mechanism that applies pressure to the ink as the refill recedes, and a pressurizing adjustment mechanism that adjusts the pressure. Pressurized writing tools are disclosed. The pressurizing mechanism is press-fitted to the tubular body, a stopper attached to the tubular body so as to be movable back and forth, and the inner peripheral portion of the tubular body, and is detachably attached to the rear end of the refill. It includes an elastic member and a pressurized space formed inside the elastic member and communicating with the rear inner hole of the refill.

In this pressurized writing instrument, when a writing pressure is applied to the front end of the refill and the refill retracts, the tubular body retracts together with the elastic member. When the rear end of the elastic member comes into contact with the front end surface of the stopper, the air holes are closed by the front end surface and the pressurized space is sealed. Further, when the refill is retracted and the tubular body is retracted, the elastic member is elastically deformed to compress the pressurized space, and pressure is applied to the rear end of the ink in the refill via the ink follower. That is, as the refill recedes, pressure is applied to the rear end of the ink by the pressurizing mechanism.

International Publication No. 2019/026808

Depending on the composition and viscosity of the ink, the structure of the pen tip, etc., it may be desired to generate a relatively small pressing force by the pressurizing mechanism. In the conventional pressure type writing tool, since the volume of the pressure space formed inside the elastic member is small, a relatively large pressure is generated by the small stroke of the stopper. In such a pressurized writing instrument, if the stroke of the stopper is changed by a small distance, the pressing force may change significantly. Therefore, it has been difficult to stably generate a small pressing force.

The present invention has been made in consideration of such a point, and an object of the present invention is to stably generate a pressing force in a pressurized writing instrument.

The pressurized writing instrument according to the present invention
With the shaft tube
A refill having an ink accommodating cylinder arranged in the shaft cylinder and filled with ink,
A pressurizing mechanism that applies pressure to the rear end of the ink is provided.
The pressurizing mechanism includes an elastic member and a pressing member located behind the elastic member.
The elastic member has a rear member having an opening, a side member extending forward from the peripheral edge of the rear member, and a first internal space surrounded by the rear member and the side member. ,
The area of the cross section of the first internal space orthogonal to the central axis of the barrel decreases toward the rear.
When the elastic member moves rearward, the front end of the pressing member abuts on the elastic member and the opening is sealed, whereby a pressure chamber including the first internal space is formed, and the elasticity is formed. Deformation of at least a part of the member reduces the volume of the pressurizing chamber.

In the pressurized writing instrument according to the present invention
In the cross section including the central axis, the lateral member may be curved so as to project in a direction away from the central axis.

In the pressurized writing instrument according to the present invention
The rear member includes an inner region including the contour of the opening and surrounding the opening, and an outer region located radially outside the inner region.
The thickness of the inner region may be greater than the thickness of the outer region.

In the pressurized writing instrument according to the present invention
The opening may not allow the front end of the pressing member to be inserted.

In the pressurized writing instrument according to the present invention
A spacer member that is arranged in front of the elastic member and has a second internal space that communicates with the first internal space may be further provided.

In the pressurized writing instrument according to the present invention
It further has a breechblock attached to the rear end of the ink container.
At least a portion of the tail plug that comes into contact with the ink container may be formed of an elastic body.

According to the present invention, in a pressurized writing instrument, a pressing force can be stably generated.

FIG. 1 is a vertical cross-sectional view showing a pressure-type writing tool according to an embodiment of the present invention, and is a diagram showing a pressure-type writing tool in a state where a ballpoint pen tip is immersed. FIG. 2 is a vertical cross-sectional view showing the pressurized writing tool of FIG. 1 in a state where the ballpoint pen tip is projected. FIG. 3 is an enlarged view showing the pressurizing mechanism of the pressurizing type writing tool of FIG. FIG. 4 is an enlarged view showing the elastic member of the pressurizing mechanism. FIG. 5 is a diagram for explaining the operation of the pressurizing mechanism. FIG. 6 is a diagram for explaining the operation of the pressurizing mechanism.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In the drawings attached to the present specification, the scale and the aspect ratios are appropriately changed and exaggerated from those of the actual product for the convenience of illustration and comprehension.

In addition, the terms such as "parallel", "orthogonal", and "identical" and the values of length and angle, etc., which specify the shape and geometric conditions and their degrees as used in the present specification, are strictly referred to. Without being bound by the meaning, we will interpret it including the range where similar functions can be expected.

In the present specification, the direction in which the central axis A of the writing tool extends (longitudinal direction, vertical direction in the longitudinal sectional view) is the axial direction da, the direction orthogonal to the axial direction da is the radial direction, and the direction perpendicular to the axial direction da is along the circumference of the central axis A. The direction is the circumferential direction. Further, along the axial direction da, the side close to the writing surface such as a paper surface is the front side, and the side away from the writing surface is the rear side. That is, the pen tip side is the front, and the side opposite to the pen tip is the rear.

FIG. 1 is a vertical sectional view showing a pressure-type writing instrument 10 according to an embodiment of the present invention, and is a diagram showing the pressure-type writing instrument 10 in a state where the pen tip is immersed, and FIG. 2 is a view showing the pressure-type writing instrument 10 with the pen tip protruding. It is a vertical sectional view which shows the pressure type writing instrument 10 in the state which was done.

In this embodiment, an example in which the pressurized writing instrument 10 is a ballpoint pen will be described. The pressure type writing tool 10 includes a shaft cylinder 20, a refill 30, and a pressure mechanism 50. In the pressure-type writing tool 10 of the present embodiment, the pressure mechanism 50 applies pressure to the rear end surface of the ink 31 housed in the refill 30, and the amount of ink 31 discharged from the pen tip of the pressure-type writing tool 10. To increase. As a result, the density and width of the handwriting formed by using the pressure-type writing tool 10 are increased.

The axle cylinder 20 has a front shaft 21, a grip member 25 arranged so as to surround the outer peripheral surface of the front shaft 21, and a rear shaft 26 connected to a rear end portion of the front shaft 21. The front shaft 21 is a member having a substantially cylindrical shape, and has a front end opening 23 at the front end where the tip portion of the ballpoint pen tip 34, which will be described later, can appear and disappear. The grip member 25 is made of an elastic member such as rubber or elastomer, and is intended to be grasped by a user when writing with a pressure-type writing instrument 10. The rear shaft 26 is a member having a substantially cylindrical shape, which is arranged behind the front shaft 21. By attaching the front end portion of the rear shaft 26 to the rear end portion of the front shaft 21, the rear shaft 26 is connected to the front shaft 21. As an example, the rear shaft 26 is formed by screwing the female screw portion formed on the inner circumference of the front end portion of the rear shaft 26 into the male screw portion formed on the outer periphery of the rear end portion of the front shaft 21. It is connected to the front shaft 21. The rear shaft 26 has a rear end opening 28 at the rear end into which the knock body 41 described later is inserted so as to be movable back and forth. A receiving member 29 is fixed to the inner surface 27 of the rear shaft 26. The rearward facing surface of the receiving member 29 receives the elastic force of the elastic member 47 described later. The receiving member 29 may be provided integrally with the rear shaft 26. That is, the receiving member 29 may be a protruding portion protruding inward from the inner surface 27 of the rear shaft 26. A cam groove that can be engaged with a cam portion formed on the knock body 41 and the rotary cam member 43, which will be described later, is formed on the inner surface 27 at the rear portion of the rear shaft 26. Such a front shaft 21 and a rear shaft 26 are formed of, for example, a resin.

The refill 30 is arranged in the barrel 20. The refill 30 of the present embodiment includes an ink accommodating cylinder 33 accommodating an ink 31 and an ink follower 32, and a ballpoint pen tip 34 attached to a front end portion of the ink accommodating cylinder 33.

As the ink 31, inks that can be used for writing tools, such as oil-based inks, water-based inks, gel inks, and heat-discolorable inks, can be used without particular limitation. Among these inks, low-viscosity inks with a shear rate of 1.92 (sec ^-1 ) and an ink viscosity of 5000 (mPa · s) or less under a 20 ° C. environment have a large increase / decrease in ink ejection amount due to pressurization. Since the density, width, and the like of the brush stroke change greatly due to pressurization, it can be suitably used for the writing tool of the present embodiment. As an example, a thermochromic ink can be used as the ink 31. The heat-changing ink may be a reversible heat-changing ink. The reversible thermochromic ink is a heat-decoloring type that changes from a color-developing state to a decoloring state by heating and changes from a decoloring state to a color-developing state by cooling. Various reversible thermochromic inks such as a heating color-developing type that changes from a color-developing state to a decoloring state, or a color memory-retaining type that exhibits a specific color in a specific temperature range and changes the color depending on the temperature, can be used alone or. It may be used in combination. For example, an ink containing a reversible thermochromic microcapsule pigment can be used as a reversible thermochromic ink.

The ink follower 32 is provided to prevent the ink 31 from leaking from the ink storage cylinder 33 and to suppress the drying of the ink 31. The ink follower 32 is arranged in contact with the rear end of the ink 31. When the ink 31 is consumed and the rear end of the ink 31 moves forward, the ink follower 32 follows the rear end of the ink 31 and moves forward. As such an ink follower 32, for example, a grease-like member can be used.

The ink storage cylinder 33 is a member having a tubular shape extending in the front-rear direction. The ink accommodating cylinder 33 accommodates the ink 31 and the ink follower 32 inside. The ink storage cylinder 33 is made of, for example, a resin.

The ballpoint pen tip 34 includes a tip holder 35, a tip body 36, a ball 37, and a repulsive member 38. The tip holder 35 is a member that holds the tip body 36. The rear end portion of the tip holder 35 is inserted into the front end portion of the ink storage cylinder 33, whereby the chip holder 35 is attached to the ink storage cylinder 33. The inside of the chip holder 35 is provided with a through hole extending in the front-rear direction and guiding the ink 31 in the ink storage cylinder 33 to the chip main body 36. The ball 37 is held in a ball holding chamber formed in the front end portion of the chip body 36. Inside the chip main body 36, a through hole is provided which extends in the front-rear direction and guides the ink 31 from the chip holder 35 toward the ball 37. The elastic member 38 is arranged in a compressed state inside the through hole of the chip main body 36, and urges the ball 37 toward the front. The urging force of the elastic member 38 pushes the ball 37 against the front end opening of the ball holding chamber of the chip body 36. As a result, it is possible to prevent the ink 31 from flowing out from the gap between the ball 37 and the front end opening of the ball holding chamber in a state where the ball 37 is not pressed against the writing surface. As the elastic member 38, for example, a coil spring can be used.

The pressurized writing instrument 10 of the present embodiment further includes a haunting mechanism. The withdrawal mechanism includes a pressurized writing tool 10 in a protruding state in which the tip of the ballpoint pen tip 34 protrudes from the front end opening 23 of the front shaft 21, and an immersive state in which the tip of the ballpoint pen tip 34 immerses in from the front end opening 23. It is a mechanism for switching alternately. The haunting mechanism includes a knock body 41, a rotary cam member 43, and an elastic member 47. The knock body 41 is a substantially cylindrical member with a closed rear end. The knock body 41 has a cam portion provided at the front end portion and a cam portion provided on the outer surface and engageable with a cam groove formed on the inner surface 27 of the rear shaft 26. The knock body 41 is a member that the user touches when the pen tip appears and disappears in the pressurized writing tool 10. The rotary cam member 43 is a substantially cylindrical member with a closed rear end, and is rotatable around the central axis A. .. The rotary cam member 43 has a cam portion that can be engaged with a cam portion provided at the front end portion of the knock body 41 and a cam portion that can be engaged with a cam groove provided on the outer surface and formed on the inner surface 27 of the rear shaft 26. And have. The rotary cam member 43 has a receiving portion 45 on the outer surface, which is a surface facing forward. A repulsive member 47 is arranged between the receiving member 29 fixed to the inner surface 27 of the rear shaft 26 and the receiving portion 45 of the rotary cam member 43. The elastic member 47 may be arranged in a compressed state between the receiving member 29 and the receiving portion 45. The receiving portion 45 cooperates with the receiving member 29 to receive the elastic force of the elastic member 47. As the elastic member 47, for example, a coil spring can be used. Since the infestation mechanism for infesting the tip of the ballpoint pen tip 34 from the front end opening 23 of the front shaft 21 is known, detailed description thereof will be omitted. As an example, as the haunting mechanism of the present embodiment, a mechanism similar to the haunting mechanism having a cam groove, a rotating cam, and a knock body formed on the inner surface of the shaft cylinder disclosed in JP-A-11-78361 is used. Is possible.

Next, the pressurizing mechanism 50 will be described. FIG. 3 is an enlarged view showing the pressurizing mechanism 50 of the pressurizing writing tool 10 of FIG. In the example shown in FIG. 3, the pressurizing mechanism 50 includes an elastic member 55, a receiving member 56, a pressing member 60, a guide member 70, an elastic member 80, and a spacer member 90. ..

The elastic member 55 is a member that generates an elastic force that urges the refill 30 forward against the compressive force received from the refill 30 when the refill 30 moves backward. As the elastic member 55, for example, a coil spring can be used.

The receiving member 56 is a member that receives the elastic force of the elastic member 55. The rear end portion of the receiving member 56 is inserted inside the front end portion of the rotary cam member 43 and is fixed to the rotary cam member 43. The receiving member 56 has a receiving portion 57 that receives the elastic force of the elastic member 55. The receiving portion 57 is a surface of the receiving member 56 facing forward. The receiving member 56 has a protruding portion 58 projecting forward at the front end portion. The rear end portion of the elastic member 55 is arranged inside the protruding portion 58 in the radial direction. The protrusion 58 restricts the radial movement of the elastic member 55. A claw portion 59 is formed on the inner surface of the protruding portion 58.

The pressing member 60 is a member that applies pressing force to the elastic member 80. The front end 61 of the pressing member 60 has a function of sealing the opening 83 when it comes into contact with the opening 83 of the elastic member 80. In the present embodiment, the front end 61 is composed of a plane orthogonal to the central axis A. Not limited to this, the front end 61 can have any shape as long as it can seal the opening 83 when it comes into contact with the opening 83 of the elastic member 80. The pressing member 60 includes a small diameter portion 63, a medium diameter portion 65 located behind the small diameter portion 63, and a large diameter portion 67 located behind the medium diameter portion 65. The outer diameter of the middle diameter portion 65 is larger than the outer diameter of the small diameter portion 63, and the outer diameter of the large diameter portion 67 is larger than the outer diameter of the middle diameter portion 65. The pressing member 60 has a shoulder portion 69 on the outer surface between the small diameter portion 63 and the medium diameter portion 65. The shoulder portion 69 is a front-facing surface of the pressing member 60. The inside of the pressing member 60 has a hollow portion, and this hollow portion is closed at the front end of the pressing member 60 and opens at the rear end of the pressing member 60. In the pressing member 60 of the present embodiment, the inside of the medium diameter portion 65 and the large diameter portion 67 has a hollow portion. Not limited to this, the inside of the small diameter portion 63, the medium diameter portion 65, and the large diameter portion 67 may have a hollow portion.

The rear end portion of the pressing member 60 is inserted into the rotary cam member 43 from the front of the rotary cam member 43. The rear end of the pressing member 60 abuts on the step portion formed inside the rotating cam member 43, thereby restricting the backward movement of the pressing member 60 with respect to the rotating cam member 43. In the present embodiment, the rear end portion (large diameter portion 67) of the pressing member 60 is fitted into the rotary cam member 43, so that the pressing member 60 moves in the axial direction da and the circumferential direction with respect to the rotary cam member 43. It is regulated. In other words, the pressing member 60 rotates integrally with the rotating cam member 43 as the rotating cam member 43 rotates around the central axis A.

The guide member 70 is a member that guides the pressing member 60 and the elastic member 80 when the pressing member 60 and the elastic member 80 move relative to each other in the front-rear direction. The guide member 70 of the present embodiment has a rear portion 71 having a substantially cylindrical shape and located on the rear side, and a front portion having a substantially cylindrical shape having a diameter larger than that of the rear portion 71 and located in front of the rear portion 71. 72 and. The guide member 70 has a through hole 73 inside the rear portion 71 through which the front end portion (small diameter portion 63) of the pressing member 60 can pass. The through hole 73 is a hole surrounded by the tip portion of the protruding portion protruding inward from the inner surface of the rear portion 71. The surface of the protruding portion facing backward is a contact portion 74 to which the shoulder portion 69 of the pressing member 60 abuts. When the guide member 70 moves rearward with respect to the pressing member 60, the contact portion 74 abuts on the shoulder portion 69, thereby restricting further movement of the guide member 70 to the rear.

The guide member 70 has a guide portion 75 that guides the medium diameter portion 65 of the pressing member 60 inside the rear portion 71. The guide portion 75 is allowed to move along the axial da with respect to the medium diameter portion 65 of the pressing member 60, and is restricted from moving in the radial direction. On the outer surface of the rear end of the guide member 70, a claw portion 76 that can be engaged with the claw portion 59 of the receiving member 56 is formed. When the claw portion 76 abuts on the claw portion 59 from the rear, the forward movement of the guide member 70 with respect to the receiving member 56 is restricted. On the other hand, the claw portion 76 is allowed to move backward away from the claw portion 59. Therefore, the guide member 70 can move backward relative to the receiving member 56 from the state where the claw portion 76 is in contact with the claw portion 59.

A receiving portion 77 is formed on the outer surface of the step portion formed between the rear portion 71 and the front portion 72 of the guide member 70. The receiving portion 77 is a surface facing rearward on the outer surface of the guide member 70. An elastic member 55 is arranged between the receiving portion 57 of the receiving member 56 and the receiving portion 77 of the guide member 70. The receiving portion 77 cooperates with the receiving portion 57 to receive the elastic force of the elastic member 55.

The front end portion of the guide member 70 is engaged with the outer surface of the rear end portion of the spacer member 90, whereby the spacer member 90 is fixed to the guide member 70. An inner step 78 is formed on the inner surface of the front portion 72 of the guide member 70. A front end peripheral edge portion of the elastic member 80 is sandwiched between the inner step portion 78 and the spacer member 90.

FIG. 4 is an enlarged view showing the elastic member 80. The elastic member 80 is a member made of an elastic material such as rubber or elastomer, and has a first internal space S1 inside. The elastic member 80 is arranged inside the front portion 72 of the guide member 70. The elastic member 80 includes a rear member 81 and a side member 85. The rear member 81 extends in a direction orthogonal to the central axis A in a state where it is not subjected to the pressing force from the pressing member 60, and has an opening 83 at the center. The opening 83 penetrates the rear member 81 in the front-rear direction. The side member 85 extends forward from the peripheral edge of the rear member 81. The elastic member 80 has a cup-like shape as a whole due to the rear member 81 and the side member 85. The first internal space S1 is a space surrounded by the rear member 81 and the side member 85.

In the cross section including the central axis A (cross section shown in FIG. 4), the side member 85 of the elastic member 80 extends toward the central axis A toward the rear. As a result, the area of the cross section of the first internal space S1 orthogonal to the central axis A decreases toward the rear. In the example shown in FIG. 4, the area of the cross section of the first internal space S1 orthogonal to the central axis A is gradually reduced. In particular, the area of the cross section of the first internal space S1 orthogonal to the central axis A changes only so as to decrease toward the rear. That is, the area of the cross section of the first internal space S1 orthogonal to the central axis A continues to change continuously so as to become smaller toward the rear. Not limited to this, the area of the cross section of the first internal space S1 orthogonal to the central axis A may change so as to gradually decrease toward the rear.

Since the pressurizing mechanism has such an elastic member 80, the capacity of the pressurizing chamber C can be increased as compared with the pressurizing type writing tool of the prior art. When the capacity of the pressurizing chamber C becomes large, the change in the pressing force becomes small even if the elastic member 80 is deformed relatively large. Therefore, it becomes easy to change the pressing force minutely. This makes it possible to stably generate a pressing force in the pressurized writing tool 10. In particular, in the pressurized writing tool 10, a small pressing force can be stably generated.

Further, since the pressing force required to deform the elastic member 80 is reduced, the elastic force for releasing the deformation of the elastic member 80 can be reduced. That is, the elastic force of the elastic member 55 can be reduced. As a result, when the user presses the pen tip against the writing surface for writing, the pressing force required to properly exert the pressing force on the ink is reduced. Therefore, the user can appropriately press the rear end of the ink 31 simply by pressing the pen tip against the writing surface with a light force.

In the cross section including the central axis A (cross section shown in FIG. 4), the side member 85 of the elastic member 80 is curved so as to project in a direction away from the central axis A. Further, the rate of decrease in the area of the first internal space S1 in the cross section orthogonal to the central axis A increases toward the rear. Here, the reduction rate of the area of the cross section is the difference in the area between the two cross sections separated by a certain length (for example, 1 mm) along the axial direction da.

Since the side member 85 of the elastic member 80 has such a shape, the side member 85 of the elastic member 80 can be more easily deformed. Therefore, in the pressure type writing tool 10, it becomes possible to generate the pressing force more stably. In particular, in the pressurized writing tool 10, a small pressing force can be generated more stably.

Further, the pressing force required to deform the elastic member 80 can be further reduced. That is, the elastic force for releasing the deformation of the elastic member 80 can be further reduced. As a result, when the user presses the pen tip against the writing surface for writing, the pressing force required to properly exert the pressing force on the ink is further reduced.

The rear member 81 includes an inner region R1 and an outer region R2. The inner region R1 is a region including the contour of the opening 83, and surrounds the opening 83 when viewed from the axial direction da. The outer region R2 is a region located on the outer side in the radial direction with respect to the inner region R1 and surrounds the inner region R1 when viewed from the axial direction da. The thickness T1 along the axial da of the inner region R1 is greater than the thickness T2 along the axial da of the outer region R2.

Since the inner region R1 of the rear member 81 has such a thickness T1, when the elastic member 80 is deformed, the amount of deformation of the rear member 81 in the inner region R1 located in the vicinity of the opening 83 is reduced. , It can be made smaller than the amount of deformation of the rear member 81 in the outer region R2. As a result, it is possible to prevent a gap from being generated between the inner region R1 and the front end 61 of the pressing member 60 due to the deformation of the elastic member 80. Therefore, the airtightness of the opening 83 by the pressing member 60 can be effectively improved.

In this embodiment, the opening 83 of the rear member 81 has a shape and / or size that does not allow the front end 61 of the pressing member 60 to be inserted. For example, the radial inner diameter of the opening 83 is smaller than the radial outer diameter of the front end 61 of the pressing member 60. As a result, it is possible to prevent the opening 83 from being damaged due to the opening 83 being scratched by the pressing member 60.

The spacer member 90 is a member arranged in front of the elastic member 80, and has a second internal space S2 communicating with the first internal space S1 of the elastic member 80 inside. In particular, the spacer member 90 is arranged between the elastic member 80 and the refill 30, and has a function of sufficiently securing the volume of the pressurizing chamber C described later. An outer step portion 92 is formed on the outer surface of the rear end portion of the spacer member 90. A front end peripheral edge portion of the elastic member 80 is sandwiched between the outer step portion 92 and the inner step portion 78 of the guide member 70. As a result, the elastic member 80 is fixed between the guide member 70 and the spacer member 90.

According to such a spacer member 90, the capacity of the pressurizing chamber C can be further increased. Therefore, in the pressure type writing tool 10, it becomes possible to generate the pressing force more stably. In particular, a small pressing force can be generated more stably.

The pressurized writing instrument 10 of the present embodiment further includes a refill holding member 51 and a tail plug 53. The refill holding member 51 is a member that holds the refill 30. The refill holding member 51 is engaged with the spacer member 90. In particular, the rear end of the refill holding member 51 is inserted into the front end portion of the spacer member 90 and fixed to the spacer member 90. The rear end portion of the refill 30 is inserted into the front end portion of the refill holding member 51 and fixed to the refill holding member 51. As a result, the refill 30 can move back and forth integrally with the guide member 70, the elastic member 80, and the spacer member 90.

A tail plug 53 is arranged inside the spacer member 90 and the refill holding member 51. In the example shown in FIG. 3, the protrusion provided on the outer periphery of the rear end portion of the tail plug 53 is between the protrusion portion protruding inward from the inner surface of the refill holding member 51 and the spacer member 90. positioned. As a result, the tail plug 53 is fixed to the spacer member 90 and the refill holding member 51. When the rear end portion of the refill 30 is inserted into the refill holding member 51, the front end portion of the tail plug 53 is attached to the rear end portion of the ink storage cylinder 33. At least a portion of the tail plug 53 that comes into contact with the ink containing cylinder 33 is formed of an elastic body so as to be in close contact with the ink containing cylinder 33. In particular, in the present embodiment, the front end portion of the tail plug 53 is inserted into the rear end portion of the ink storage cylinder 33. In this case, at least the portion of the tail plug 53 that comes into contact with the inner surface of the ink containing cylinder 33 is formed of an elastic body. The outer diameter of the elastic body at the front end of the tail plug 53 when not inserted into the rear end of the ink storage cylinder 33 is larger than the inner diameter of the rear end of the ink storage cylinder 33. According to such a tail plug 53, it is possible to suppress air leakage from between the ink accommodating cylinder 33 and the tail plug 53. Preferably, the breechblock 53 is entirely formed of an elastic body. In this case, it is possible to prevent air from leaking between the spacer member 90 and the refill holding member 51. The tail plug 53 is provided with a through hole that penetrates the tail plug 53 in the front-rear direction.

With reference to FIGS. 1 and 2, the movement of the pen tip in the pressurized writing tool 10 will be described. FIG. 1 shows a pressurized writing tool 10 in a state where the ballpoint pen tip 34 is immersed, and FIG. 2 shows a pressurized writing tool 10 in a state where the ballpoint pen tip 34 is projected.

In the immersive state shown in FIG. 1, the rotary cam member 43 is urged rearward by the elastic force of the elastic member 47, whereby the tip portion of the ballpoint pen tip 34 is immersed from the front end opening 23. There is. When the user pushes the knock body 41 forward with a finger and slides the knock body 41, the rotary cam member 43 and the receiving member 56 move forward together with the knock body 41. As a result, the elastic member 55 pushes the guide member 70 forward, and the guide member 70, the elastic member 80, the spacer member 90, the refill holding member 51, the tail plug 53, and the refill 30 move forward. As a result, the tip of the ballpoint pen tip 34 protrudes forward from the front end opening 23, resulting in the protruding state shown in FIG. Even if the user releases his finger from the knock body 41, the refill 30 maintains a state in which the tip portion of the ballpoint pen tip 34 protrudes forward from the front end opening 23. When the user pushes the knock body 41 forward with his / her finger and slides the knock body 41 in the protruding state again, the refill 30 moves forward by a small distance. When the user releases his finger from the knock body 41 or relaxes the forward pressing force on the knock body 41, the refill 30 is urged backward by the elastic force of the elastic member 47, and the tip of the ballpoint pen tip 34 is used. The portion is immersive through the front end opening 23, and is in the immersive state shown in FIG.

Next, a pressurizing method by the pressurizing mechanism 50 will be described with reference to FIGS. 2, 3, 5, and 6. In the pressurized writing instrument 10 in the protruding state shown in FIGS. 2 and 3, when the user presses the pen tip, more specifically, the ball 37 of the refill 30, against the writing surface such as paper for writing, The refill 30 is pushed backward relative to the barrel 20, and the guide member 70, together with the refill 30, the refill holding member 51, the spacer member 90, and the elastic member 80, exerts the elastic force of the elastic member 55. Move backwards against it. After that, as shown in FIG. 5, the rear member 81 of the elastic member 80 comes into contact with the front end 61 of the pressing member 60, and the opening 83 of the elastic member 80 is sealed by the front end 61 of the pressing member 60. At this time, a pressure chamber C sealed by the front end 61 of the pressing member 60 is formed. In the pressurizing chamber C, the first internal space S1 of the elastic member 80, the second internal space S2 of the spacer member 90, the space in the through hole of the tail plug 53, and the rear of the ink follower 32 in the ink storage cylinder 33. Space, including.

When the refill 30 moves further backward, as shown in FIG. 6, the guide member 70 moves backward and approaches the receiving member 56 while compressing the elastic member 55. At this time, the elastic member 80 is pressed against the pressing member 60, and the pressing force from the front end 61 of the pressing member 60 acts on the elastic member 80. At least a part of the elastic member 80 is deformed by the pressing force from the pressing member 60. In particular, in the present embodiment, the entire elastic member 80 is deformed by the pressing force from the pressing member 60. As a result, the volume of the first internal space S1 of the elastic member 80 is reduced. Therefore, the total volume of the pressurizing chamber C including the first internal space S1 is also reduced. At this time, since the pressurizing chamber C is sealed by the front end 61 of the pressing member 60, the air inside the pressurizing chamber C is pressurized. In other words, the pressure inside the pressurizing chamber C rises. The rear end of the ink 31 is pressed via the ink follower 32 by the increased pressure inside the pressurizing chamber C. Therefore, the amount of ink 31 ejected from the pen tip of the pressure-type writing tool 10 increases. The contact portion 74 of the guide member 70 abuts on the shoulder portion of the pressing member 60, thereby restricting further movement of the guide member 70 to the rear. That is, further deformation of the elastic member 80 is suppressed.

When the user releases the pressing of the pen tip against the writing surface, the elastic force of the elastic member 55 causes the refill 30, the refill holding member 51, the spacer member 90, the elastic member 80, and the guide member 70 to move forward. do. At this time, by moving the elastic member 80 forward, the deformation of the elastic member 80 due to the pressing force from the pressing member 60 is released. Therefore, the volume of the first internal space S1 of the elastic member 80 increases. In particular, the volume of the first internal space S1 of the elastic member 80 is the same as the volume of the first internal space S1 of the elastic member 80 before pressurization. As a result, the internal volume of the pressurizing chamber C becomes substantially the same as the internal volume of the pressurizing chamber C before pressurization. Strictly speaking, the volume inside the pressurizing chamber C increases by the amount corresponding to the amount of the ink 31 consumed while the inside of the pressurizing chamber C is pressurized. The amount of ink 31 consumed while the inside of the pressurizing chamber C is pressurized is sufficiently smaller than the volume inside the pressurizing chamber C before pressurization. As a result, the pressure on the rear end of the ink 31 is released.

When the elastic member 80 moves further forward, the elastic member 80 separates from the front end 61 of the pressing member 60, the opening 83 of the elastic member 80 is released from the seal, and the first internal space S1 of the elastic member 80 communicates with the atmosphere. Will be done. As a result, the ink 31 is suppressed from flowing out from the pen tip in a state where the ball 37 is not pressed against the writing surface. More specifically, when the ball 37 is not pressed against the writing surface, the ink 31 is suppressed from flowing out from the gap between the ball 37 and the front end opening of the ball holding chamber.

The pressure type writing tool 10 of the present embodiment is a pressure cylinder 20, a refill 30 having an ink storage cylinder 33 arranged in the shaft cylinder 20 and filled with ink 31, and a pressure applied to the rear end of the ink 31. The pressurizing mechanism 50 includes an elastic member 80 and a pressing member 60 located behind the elastic member 80, and the elastic member 80 includes a rear member 81 having an opening 83 and a rear member 81. A shaft cylinder 20 of the first internal space S1 having a side member 85 extending forward from the peripheral edge of the rear member 81 and a first internal space S1 surrounded by the rear member 81 and the side member 85. The area of the cross section orthogonal to the central axis A of the above decreases toward the rear, and when the elastic member 80 moves rearward, the front end 61 of the pressing member 60 abuts on the elastic member 80 and the opening 83 is sealed. As a result, the pressure chamber C including the first internal space S1 is formed, and at least a part of the elastic member 80 is deformed, so that the volume of the pressure chamber C is reduced.

According to such a pressure type writing tool 10, the capacity of the pressure type chamber C can be increased as compared with the pressure type writing tool of the prior art. When the capacity of the pressurizing chamber C becomes large, the change in the pressing force becomes small even if the elastic member 80 is deformed relatively large. Therefore, it becomes easy to change the pressing force minutely. This makes it possible to stably generate a pressing force in the pressurized writing tool 10. In particular, in the pressurized writing tool 10, a small pressing force can be stably generated.

Further, since the pressing force required to deform the elastic member 80 is reduced, the elastic force for releasing the deformation of the elastic member 80 can be reduced. That is, the elastic force of the elastic member 55 can be reduced. As a result, when the user presses the pen tip against the writing surface for writing, the pressing force required to properly exert the pressing force on the ink is reduced. Therefore, the user can appropriately press the rear end of the ink 31 simply by pressing the pen tip against the writing surface with a light force.

In the pressurized writing instrument 10 of the present embodiment, in the cross section including the central axis A, the side member 85 is curved so as to project in a direction away from the central axis A.

According to such a pressure-type writing tool 10, the side member 85 of the elastic member 80 can be more easily deformed. Therefore, in the pressure type writing tool 10, it becomes possible to generate the pressing force more stably. In particular, in the pressurized writing tool 10, a small pressing force can be generated more stably.

Further, the pressing force required to deform the elastic member 80 can be further reduced. That is, the elastic force for releasing the deformation of the elastic member 80 can be further reduced. As a result, when the user presses the pen tip against the writing surface for writing, the pressing force required to properly exert the pressing force on the ink is further reduced.

In the pressurized writing instrument 10 of the present embodiment, the rear member 81 includes an inner region R1 including the contour of the opening 83 and surrounding the opening 83, and an outer region R2 located radially outside the inner region R1. The thickness T1 of the inner region R1 is larger than the thickness T2 of the outer region R2.

According to such a pressure-type writing tool 10, when the elastic member 80 is deformed, the amount of deformation of the rear member 81 in the inner region R1 located in the vicinity of the opening 83 is the amount of deformation of the rear member 81 in the outer region R2. Can be smaller than. As a result, it is possible to prevent a gap from being generated between the inner region R1 and the front end 61 of the pressing member 60 due to the deformation of the elastic member 80. Therefore, the airtightness of the opening 83 by the pressing member 60 can be effectively improved.

In the pressurized writing instrument 10 of the present embodiment, the opening 83 does not allow the front end 61 of the pressing member 60 to be inserted.

According to such a pressure-type writing tool 10, it is possible to prevent the opening 83 from being damaged by being scratched by the pressing member 60.

The pressurized writing instrument 10 of the present embodiment further includes a spacer member 90 which is arranged in front of the elastic member 80 and has a second internal space S2 communicating with the first internal space S1.

According to such a pressure type writing tool 10, the capacity of the pressure chamber C can be further increased. Therefore, in the pressure type writing tool 10, it becomes possible to generate the pressing force more stably. In particular, in the pressurized writing tool 10, a small pressing force can be generated more stably.

The pressure-type writing tool 10 of the present embodiment further has a tail plug 53 attached to the rear end portion of the ink storage cylinder 33, and at least a portion of the tail plug 53 in contact with the ink storage cylinder 33 is formed of an elastic body. To.

According to such a pressure-type writing tool 10, it is possible to suppress air leakage from between the ink accommodating cylinder 33 and the tail plug 53.

10 Pressurized writing tool 20 Shaft cylinder 21 Front shaft 23 Front end opening 25 Grip member 26 Rear shaft 27 Inner surface 28 Rear end opening 29 Receiving member 30 Refill 31 Ink 32 Ink follower 33 Ink storage cylinder 34 Ballpoint pen tip 35 Chip holder 36 Chip Main body 37 Ball 38 Repulsion member 41 Knock body 43 Rotating cam member 45 Receiving part 47 Repulsion member 50 Pressurizing mechanism 51 Refill holding member 53 Tail plug 55 Repulsion member 56 Receiving member 57 Receiving part 58 Protruding part 59 Claw part 60 Pressing Member 61 Front end 63 Small diameter part 65 Medium diameter part 67 Large diameter part 69 Shoulder part 70 Guide member 71 Rear part 72 Front part 73 Through hole 74 Contact part 75 Guide part 76 Claw part 77 Ink part 78 Inner step part 80 Elastic member 81 Rear member 83 Opening 85 Side member 90 Spacer member 92 Outer stage C Pressurizing chamber R1 Inner region R2 Outer region S1 First internal space S2 Second internal space T1 Thickness T2 Thickness da Axial direction

Claims (6)

With the shaft tube
A refill having an ink accommodating cylinder arranged in the shaft cylinder and filled with ink,
A pressure-type writing tool equipped with a pressure mechanism for applying pressure to the rear end of the ink.
The pressurizing mechanism includes an elastic member and a pressing member located behind the elastic member.
The elastic member has a rear member having an opening, a side member extending forward from the peripheral edge of the rear member, and a first internal space surrounded by the rear member and the side member. ,
The area of the cross section of the first internal space orthogonal to the central axis of the barrel decreases toward the rear.
When the elastic member moves rearward, the front end of the pressing member abuts on the elastic member and the opening is sealed, so that a pressure chamber including the first internal space is formed and the elasticity is formed. A pressure-type writing tool in which the volume of the pressure chamber is reduced by deforming at least a part of the member. The pressurized writing tool according to claim 1, wherein in a cross section including the central axis, the side member is curved so as to project in a direction away from the central axis. The rear member includes an inner region including the contour of the opening and surrounding the opening, and an outer region located radially outside the inner region.
The pressurized writing instrument according to claim 1 or 2, wherein the thickness of the inner region is larger than the thickness of the outer region. The pressurized writing tool according to any one of claims 1 to 3, wherein the opening does not allow the front end of the pressing member to be inserted. The pressurized writing tool according to any one of claims 1 to 4, further comprising a spacer member arranged in front of the elastic member and having a second internal space communicating with the first internal space. It further has a breechblock attached to the rear end of the ink container.
The pressurized writing tool according to any one of claims 1 to 5, wherein at least a portion of the tail plug in contact with the ink containing cylinder is formed of an elastic body.

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