JP7246410B2 - ink inhaler - Google Patents

Description

The present invention relates to an ink inhaler used for writing instruments such as fountain pens.

2. Description of the Related Art Conventionally, in writing instruments such as fountain pens, an ink inhaler is used that sucks ink into the interior, stores the ink, and supplies the ink to the pen tip during writing. The ink sucker has an ink container and an ink sucking mechanism for sucking ink into the ink container.

The ink sucking mechanism usually has a mechanism that creates a negative pressure inside the ink sucker and sucks ink using the pressure difference between the inside and the outside of the ink sucker. As a method of generating a negative pressure in the ink sucker, for example, a negative pressure is created in the ink sucker by linearly operating the operating member backward to move backward a piston member connected to the front of the operating member. A slide type that generates pressure, a rotary type that generates negative pressure in the ink inhaler by rotating the operation member around its axis and moving the piston member screwed with the operation member backward, and is located at the rear of the ink inhaler. A push type or the like can be mentioned, in which a provided piston member is pushed forward and then released to generate a negative pressure in the ink inhaler. Especially in the push-type ink inhaler, the length of the operation member can be made shorter than in the slide-type or rotary ink inhaler. This makes it possible to downsize an ink inhaler of the same capacity, or to increase the capacity of an ink inhaler of the same size.

JP2017-209863A discloses an ink containing cylinder having a diameter-reduced portion (inner stage) and an ink containing chamber, a piston member disposed at the rear of the ink containing cylinder, and a piston member disposed within the ink containing cylinder and held by the piston member. An ink suction device is disclosed that includes a pipe that is attached to the pipe and a bridge that is fixed to the pipe.

In a conventional push-type ink inhaler, the ink may not smoothly flow out from the ink storage portion (ink storage chamber) to the pen tip. As a result of intensive investigation by the inventors of the present invention, it was found that the conventional push-type ink inhaler has the following problems.

When the ink advances through the reduced diameter portion toward the nib, instead of the ink flowing out of the ink containing portion, air flows into the ink containing portion through the reduced diameter portion. However, at this time, the air may not properly flow into the ink containing portion, which may hinder the smooth outflow of the ink from the ink containing portion. As a result of further investigation of this problem, it was found that the air flowing into the ink containing portion is prevented from flowing into the ink containing portion by staying in front of the diameter-reduced portion.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an ink inhaler that facilitates the inflow of air into an ink container and allows ink to flow out smoothly. do.

The ink inhaler according to the invention comprises:
a main cylinder having a diameter-reduced portion on its inner surface and defining an ink containing portion behind the diameter-reduced portion;
a piston member arranged to be movable back and forth with respect to the main cylinder;
a pipe extending inside the main cylinder through the diameter-reduced portion and held so as to be movable back and forth with respect to the piston member;
a fixed piece member fixed to the pipe behind the reduced diameter portion,
The main cylinder has a front inclined surface inclined with respect to the axial direction and the radial direction on the inner surface at the front of the reduced diameter portion, or has a front rib extending in a plane including the central axis of the main cylinder. .

In the ink inhaler of the present invention,
The main cylinder has the forward inclined surface,
The front inclined surface may have a groove extending in a plane including the central axis of the main cylinder.

In the ink inhaler of the present invention,
The main cylinder may have a plurality of grooves arranged in a circumferential direction.

In the ink inhaler of the present invention,
A circumferential width of the groove may decrease toward the front.

In the ink inhaler of the present invention,
The main cylinder has the front rib portion,
In a cross section perpendicular to the central axis, the front rib portion may have corners facing the central axis.

In the ink inhaler of the present invention,
The main cylinder has the front rib portion,
In the front parallel portion of the inner surface that is parallel to the central axis, the front rib portion may include a portion whose radial distance from the central axis decreases toward the rear.

In the ink inhaler of the present invention,
The main cylinder may have a plurality of front rib portions arranged in a circumferential direction.

In the ink inhaler of the present invention,
The interval between the two front rib portions adjacent in the circumferential direction may be 2.7 mm or more.

In the ink inhaler of the present invention,
The main cylinder may have a rear rib portion extending in a plane including the central axis of the main cylinder on the inner surface of the ink containing portion.

In the ink inhaler of the present invention,
The main cylinder may have a plurality of rear rib portions arranged in a circumferential direction.

In the ink inhaler of the present invention,
The interval between the two rear rib portions adjacent in the circumferential direction may be 2.7 mm or more.

[Effect of the invention]
According to the present invention, it is possible to provide an ink inhaler that facilitates the inflow of air into the ink container and allows the ink to flow out smoothly.

FIG. 1 is a diagram for explaining an embodiment according to the present invention, and is a diagram showing a cross section of a writing instrument incorporating an ink inhaler. FIG. 2 is an enlarged cross-sectional view of the ink sucker, particularly showing the ink sucker in an open state. FIG. 3 is a sectional view showing the ink inhaler with its operating member pushed forward; FIG. 4 shows the ink inhaler arranged with the nib facing upward. FIG. 5 is a cross-sectional view showing the ink inhaler in a state in which the central axis is inclined with respect to the vertical direction. FIG. 6 is a diagram showing a cross section corresponding to line VI-VI of FIG. FIG. 7A is a diagram showing an example of a cross section corresponding to line VII-VII in FIG. FIG. 7B is a diagram showing another example of a cross section corresponding to line VII-VII of FIG. FIG. 8 is a cross-sectional view showing a modification of the ink inhaler. FIG. 9 is a cross-sectional view corresponding to line IX-IX in FIG. FIG. 10 is a cross-sectional view corresponding to line XX of FIG.

An embodiment of the present invention will be described below with reference to the drawings. In the drawings attached to this specification, for the convenience of illustration and ease of understanding, the scale, length-to-width ratio, etc. are appropriately changed and exaggerated from those of the real thing.

In addition, terms such as "parallel", "perpendicular", "identical", length and angle values, etc. that specify shapes and geometric conditions and their degrees used in this specification are strictly It shall be interpreted to include the extent to which similar functions can be expected without being bound by the meaning.

1 to 10 are diagrams for explaining an embodiment according to the present invention. 1 is a cross-sectional view of a writing instrument 10 incorporating an ink sucker 20, FIG. 2 is an enlarged view of the ink sucker 20, and FIG. It is a cross-sectional view showing a state in which the operating member 60 is pushed forward. In this embodiment, an example in which writing instrument 10 is a fountain pen will be described, but writing instrument 10 is not limited to a fountain pen. In this specification, the direction in which the central axis A of the main cylinder 30 of the ink inhaler 20 extends (longitudinal direction) is the axial direction, the direction orthogonal to the central axis A is the radial direction, and the circumferential direction around the central axis A is the circumferential direction. and In addition, in the writing instrument 10 and the ink inhaler 20, along the axial direction, the side (for example, the lower side in FIG. 1) that is close to the surface to be written, such as a paper surface, is defined as the front side, and the side that is away from the surface to be written. (For example, the upper side in FIG. 1) is the rear side.

A writing instrument 10 shown in FIG. 1 includes a barrel 11 , a pen tip 12 , and a pen tip support portion 13 located in front of the barrel 11 and supporting the pen tip 12 . The shaft cylinder 11 is a member having a longitudinal direction along the central axis A, and has a cavity opening forward inside. In this embodiment, at least part of the ink inhaler 20 is accommodated in the cavity of the barrel 11 . The pen tip 12 is a member that forms handwriting on a writing surface with ink supplied from the ink inhaler 20 . The pen tip support portion 13 has an ink circulation hole 14 and an air circulation hole 15 inside. The ink circulation hole 14 communicates with the pen tip 12 and functions as a passage for guiding ink supplied from the ink inhaler 20 toward the pen tip 12 . The air circulation hole 15 extends generally along the axial direction and opens near the pen tip 12 . The air circulation hole 15 functions as a passage that guides the external air that has flowed in through the opening toward the ink inhaler 20 . A mounting portion 16 to which the ink inhaler 20 is mounted is formed in the pen tip support portion 13 . In the present embodiment, the mounting portion 16 is configured as a projecting portion facing rearward, and the front end portion of the ink sucker 20 is fitted onto the mounting portion 16 so that the ink sucker 20 is attached to the pen tip support portion 13. Attached detachably. However, the mounting portion 16 is not limited to this, and the mounting portion 16 is configured as a groove portion that opens rearward. may be attached. A male threaded portion is formed on the rear outer surface of the pen tip support portion 13 , and a corresponding female threaded portion is formed on the front inner surface of the barrel 11 . The barrel 11 is attached to the pen tip support portion 13 by screwing the female thread portion of the barrel 11 into the male thread portion of the pen tip support portion 13 .

The ink sucker 20 of this embodiment is a push-type ink sucker, and has an ink container 21 for containing ink to be supplied to the pen tip 12 therein. The ink inhaler 20 includes a main cylinder 30 defining an ink containing portion 21, a piston member 50 arranged so as to be movable back and forth with respect to the main cylinder 30, and a pipe held so as to be movable back and forth with respect to the piston member 50. 70 and a fixed piece member 80 fixed to the pipe 70. - 特許庁In the illustrated example, the ink sucker 20 includes a transition piece 40 attached to the rear of the main cylinder 30, an operation member 60 attached to the rear of the piston member 50, and a pipe 70 behind the fixed piece member 80. and a movable piece member 90 that is loosely fitted. Each member constituting the ink sucker 20 of the present embodiment will be described below in order.

The main cylinder 30 is a member having a substantially cylindrical shape and has an inner surface 30a and an outer surface 30b extending in the axial direction. The inner surface 30a has a reduced diameter portion 31 with a reduced inner diameter. The diameter-reduced portion 31 is a protruding portion annularly formed along the circumferential direction on the inner surface 30a. In particular, the reduced diameter portion 31 is a protruding portion in which the inner surface 30a protrudes toward the central axis A. As shown in FIG. The ink containing portion 21 is formed behind the reduced diameter portion 31 . A rearward inclined surface 31a facing the ink containing portion 21 and inclined with respect to the axial direction and the radial direction is formed behind the top portion of the diameter-reduced portion 31 closest to the central axis A. is formed with a forward inclined surface 31b inclined with respect to the axial direction and the radial direction. The rear inclined surface 31a is a surface extending radially outward toward the rear, and the front inclined surface 31b is a surface extending radially outward toward the front.

An uneven portion 36 is provided on the outer surface 30 b of the main cylinder 30 . The concave-convex portion 36 includes, for example, a convex portion and/or a concave portion extending in the circumferential direction. The concave-convex portion 36 functions as a non-slip when the ink sucker 20 is attached to and detached from the mounting portion 16 of the pen tip support portion 13 . That is, the user can easily and stably attach and detach the pen tip support 13 by gripping the uneven portion 36 .

A tail pipe 40 is attached to the rear portion of the main pipe 30 . The transition piece 40 accommodates at least part of the operating member 60 . A flange portion 44 protruding inward is formed at the rear end opening portion 42 of the transition piece 40, and the flange portion 44 abuts on a later-described convex portion 64 of the operation member 60 when the operation member 60 is open. touch. The collar portion 44 may be a single protrusion provided over the entire circumference along the circumferential direction, or may be a plurality of protrusions arranged discretely in the circumferential direction.

The piston member 50 has a flange portion 51 and a connecting protrusion 55 provided behind the flange portion 51 . The flange portion 51 is located inside the main cylinder 30 , and the radially outermost end portion of the flange portion 51 is in liquid-tight contact with the inner surface 30 a of the main cylinder 30 . Thus, the ink containing portion 21 is defined as a space surrounded by the inner surface 30 a of the main cylinder 30 , the reduced diameter portion 31 and the flange portion 51 of the piston member 50 . The flange portion 51 has a concave portion 53 recessed rearward from the front end surface 51a. The connecting convex portion 55 functions as a connecting portion that connects the piston member 50 to the operating member 60 . A hole 57 opening rearward is provided in the connecting projection 55 . The piston member 50 has a through hole 59 on the central axis A that communicates the recess 53 and the hole 57 . A pipe 70 is loosely inserted into the through hole 59 . That is, the inner diameter of the through hole 59 is larger than the outer diameter of the main body of the pipe 70 , so that the pipe 70 is held with respect to the piston member 50 so as to be movable back and forth. The hole 57 serves as an introduction portion for inserting the pipe 70 into the through hole 59 and defines a movable range for the pipe 70 to move back and forth with respect to the piston member 50 . The through-hole 59 may have a notch portion cut in the radial direction in order to ensure smooth circulation of ink and air between the ink containing portion 21 and the hole 57 .

The operation member 60 is restricted in forward and backward movement with respect to the piston member 50 , and is a member operated by the user when moving the piston member 50 forward and backward with respect to the main cylinder 30 . The operating member 60 has a connecting concave portion 62 which is open on the front end surface and engages with the connecting convex portion 55 of the piston member 50 . In the illustrated example, an engaging concave portion is provided on the side surface of the connecting concave portion 62, and an engaging convex portion corresponding to the engaging concave portion of the connecting concave portion 62 is provided on the side surface of the connecting convex portion 55. . The connecting projection 55 is inserted into the connecting recess 62 , and the engaging projection of the connecting projection 55 and the engaging recess of the connecting recess 62 are engaged with each other, whereby the piston member 50 moves relative to the operating member 60 . concatenated. The connecting convex portion 55 of the piston member 50 is liquid-tightly attached to the connecting concave portion 62 so that the ink that has flowed into the hole 57 does not leak to the outside. A convex portion 64 is provided on the outer peripheral surface of the operating member 60 so as to protrude radially outward. A biasing member 25 is arranged between the main cylinder 30 and the projection 64 . In the illustrated example, the biasing member 25 is a coil spring, which is inserted between the rear end of the main cylinder 30 and the front end of the projection 64 while being compressed in the axial direction. As a result, the operating member 60 is biased rearward with respect to the main cylinder 30 . When the operating member 60 is in an open state (a state in which it is not pushed forward by the user), the convex portion 64 abuts against the flange portion 44 of the transition piece 40 from the front. Therefore, the rear end of the movable range of the operating member 60 is defined by the collar portion 44 .

The pipe 70 is arranged to extend inside the main cylinder 30 through the reduced diameter portion 31 . The front end portion 72 of the pipe 70 is positioned in front of the diameter-reduced portion 31 in both the open state (see FIG. 2) and the pressed state (state pressed forward by the user, see FIG. 3) of the operating member 60. . A rear end portion 74 of the pipe 70 is formed with an enlarged diameter portion 76 formed by expanding the main body of the pipe 70 in the radial direction. The outer diameter of the enlarged diameter portion 76 is larger than the inner diameter of the through hole 59 of the piston member 50 . The outer diameter of the portion of the pipe 70 other than the enlarged diameter portion 76 is smaller than the inner diameter of the through hole 59 . Therefore, the pipe 70 can move in the front-rear direction while being inserted through the through-hole 59, and is positioned at the most forward position with respect to the piston member 50 when the enlarged-diameter portion 76 is engaged with the through-hole 59 from the rear. do. The inside of the pipe 70 is hollow, and the portion of the main cylinder 30 ahead of the diameter-reduced portion 31 and the hole 57 of the piston member 50 communicate through the pipe 70 . The material forming the pipe 70 is not particularly limited, but as an example, a metal material such as stainless steel can be used.

The fixed piece member 80 is fixed to the pipe 70 behind the reduced diameter portion 31 . More specifically, the fixed piece member 80 is fixed to the outer surface of the pipe 70 behind the reduced diameter portion 31 . The fixed piece member 80 is made of an elastic material. As this elastic material, fluororubber can be used as an example. The fixed piece member 80 has a blocking surface 82 on the front side. In the illustrated example, the closure surface 82 includes an axially and radially inclined surface radially away from the pipe 70 toward the rear. When the pipe 70 and the fixed piece member 80 move forward, the closing surface 82 abuts against the rear inclined surface 31a of the reduced diameter portion 31 to close the reduced diameter portion 31 .

The movable piece member 90 is loosely fitted to the pipe 70 behind the fixed piece member 80 . That is, the movable piece member 90 can move in the front-rear direction along the pipe 70 behind the fixed piece member 80 . The movable piece member 90 is formed in a cylindrical shape as a whole, and the pipe 70 is inserted therein. Although the material forming the movable piece member 90 is not particularly limited, a metal material such as stainless steel can be used as an example.

In the ink inhaler 20 described above, in the open state shown in FIG. 2, the operating member 60 is urged rearward by the urging member 25 . Further rearward movement of the operating member 60 is restricted by the projection 64 provided on the outer peripheral surface of the operating member 60 coming into contact with the flange 44 provided at the rear end opening 42 of the transition piece 40 from the front. It is At this time, the piston member 50 connected to the operating member 60, the pipe 70 held by the piston member 50, the fixed piece member 80 fixed to the pipe 70, and the movable piece member 90 loosely fitted to the pipe 70 also move backward. positioned.

When ink is to be sucked into the ink container 21 of the ink sucker 20, an ink bottle containing ink is prepared, and the pen tip is held while the ink sucker 20 is attached to the pen tip support 13. With the tip 12 facing downward, the nib support 13 is immersed in the ink until the ink circulation hole 14 and the air circulation hole 15 are positioned below the liquid surface of the ink.

When the operation member 60 is pressed forward (downward) by a user's finger, for example, with the operation member 60 facing upward, the pressed state shown in FIG. 3 is reached. When shifting from the open state to the pressed state, the piston member 50, the pipe 70, the fixed piece member 80, and the movable piece member 90 also move forward as the operation member 60 moves forward. During this movement, first, the closing surface 82 of the fixing piece member 80 abuts against the rear inclined surface 31 a of the reduced diameter portion 31 to close the reduced diameter portion 31 . As a result, the pipe 70, the fixed piece member 80 and the movable piece member 90 are stopped. When the operating member 60 moves further forward, the piston member 50 moves further forward. At this time, the air compressed in the ink containing portion 21 passes through the gap between the through hole 59 of the piston member 50 and the pipe 70, passes through the hole 57 and the cavity in the pipe 70, and reaches the front end portion of the pipe 70. It flows out from 72. Air flowing out of the pipe 70 is discharged to the outside through the pen tip support portion 13 . In addition, when the through hole 59 of the piston member 50 has a cutout portion that is cut in the radial direction, sufficient air circulation is ensured between the ink containing portion 21 and the hole 57. Air can be quickly and stably discharged from the ink containing portion 21 .

In this state, for example, when the user's finger pushing the operating member 60 forward is released, the pressing force applied to the operating member 60 is released. 60 retreats sharply. Along with this, the piston member 50 also rapidly retreats, and the pressure inside the ink containing portion 21 becomes negative. When the operation member 60 and the piston member 50 are further retracted, the enlarged diameter portion 76 provided at the rear end portion 74 of the pipe 70 is engaged with the through hole 59 of the piston member 50, and the pipe 70, the fixed piece member 80 and the movable piece are moved. Member 90 retracts with piston member 50 . When the closing surface 82 of the fixed piece member 80 separates from the rear inclined surface 31a of the reduced diameter portion 31, the pressure difference between the inside and the outside of the ink containing portion 21 causes the pen tip support portion 13 and the reduced diameter portion 31 to move. As a result, the ink in the ink bottle flows into the ink containing portion 21 .

By repeating this, ink is sucked into the ink containing portion 21 . When the operating member 60 is pushed forward while ink is in the ink containing portion 21, a small amount of ink may flow out from the ink containing portion 21 through the reduced diameter portion 31. After the reduced-diameter portion 31 is closed by 80 , the ink does not flow out from the ink containing portion 21 , and the air present in the upper portion of the ink containing portion 21 flows out through the pipe 70 . After the ink is sucked into the ink sucker 20, the barrel 11 is attached to the pen tip support portion 13, so that the writing instrument 10 is ready for writing.

FIG. 4 shows the ink inhaler 20 arranged with the nib 12 facing upward. In this state, gravity causes the pipe 70 to move rearward, and the rear end 74 is in contact with the lowermost portion (rearmost portion) of the connecting recess 62 of the operating member 60 . The fixed piece member 80 is greatly retracted with respect to the diameter-reduced portion 31, and the diameter-reduced portion 31 is in a communicating (non-blocking) state. The movable piece member 90 is positioned at the lowest portion (rearmost portion) of the ink containing portion 21 and is in contact with the piston member 50 . In this embodiment, the outer diameter D _90B of the movable piece member 90 is smaller than the inner diameter D _53A of the recess 53 of the piston member 50 . Therefore, the movable piece member 90 enters the concave portion 53 and abuts on the lowest portion (last portion) of the concave portion 53 .

Writing with the writing instrument 10 is normally performed with the pen point 12 directed downward and the longitudinal direction of the writing instrument 10 inclined with respect to the vertical direction (the direction in which gravity acts). At this time, the central axis A of the ink sucker 20 is also inclined with respect to the vertical direction. FIG. 5 is a sectional view showing the ink sucker 20 in a state in which the central axis A is inclined with respect to the vertical direction. In the process of the ink sucker 20 transitioning from the state shown in FIG. 4 to the state shown in FIG. pushed towards.

In particular, when the ink in the ink containing portion 21 is reduced, even if the ink inhaler 20 is shifted from the state shown in FIG. 4 to the state shown in FIG. It may stay on and not move forward. In this embodiment, since the ink sucker 20 has the movable piece member 90, the movable piece member 90 moves forward from the rearmost portion of the ink containing portion 21, and moves to the rear portion of the ink containing portion 21. The remaining ink is pushed forward. In particular, when the outer diameter D _90B of the movable piece member 90 is smaller than the inner diameter D _53A of the recessed portion 53 of the piston member 50, the ink remaining in the recessed portion 53 moves forward as the movable piece member 90 moves forward. pushed towards.

In the writing state shown in FIG. 5, since the central axis A of the ink sucker 20 is inclined with respect to the vertical direction, the stationary piece member 80 contacts the inner surface 30a of the main cylinder 30 due to gravity. During writing, ink is continuously supplied from the ink containing portion 21 to the pen tip 12 via the reduced diameter portion 31 and the ink circulation hole 14 . As the amount of ink in the ink containing portion 21 decreases, the pressure inside the ink containing portion 21 becomes negative. Therefore, due to the pressure difference between the inside of the ink containing portion 21 and the outside, external air flows into the ink containing portion 21 through the air circulation hole 15 and the reduced diameter portion 31 . At this time, the ink relatively moves downward toward the front, and the air moves toward the top of the ink toward the rear.

At this time, in the conventional push-type ink inhaler, the air may not flow into the ink container appropriately, which may hinder the smooth outflow of the ink from the ink container. When the inventors of the present invention have investigated this problem, they have found that the movable piece member sometimes blocks the inflow of air into the ink containing portion.

In this embodiment, the inner diameter D _90A of the movable piece member 90 is 1.5 times or more and 3.5 times or less the outer diameter D _70B of the pipe 70 . Since the inner diameter D _90A is 1.5 times or more the outer diameter D _70B , the movable piece member 90 can move downward significantly with respect to the fixed piece member 80 . That is, the movable piece member 90 can move its center axis downward by a large amount with respect to the center axis of the pipe 70 . As a result, the ink moving relatively downward can be pushed forward by the movable piece member 90 . Also, the dimension of the gap G1 between the upper portion of the movable piece member 90 and the upper portion of the inner surface 30a of the main cylinder 30 is increased. As a result, it is possible to effectively prevent the movable piece member 90 from obstructing the flow of air flowing into the ink containing portion 21 through the diameter-reduced portion 31 . In addition, since the inner diameter D _90A is 3.5 times or less as large as the outer diameter D _70B , the outer diameter D _90B of the movable piece member 90 is prevented from becoming excessively large. It is possible to effectively prevent the movable piece member 90 from obstructing the flow of air flowing into the housing portion 21 .

Especially in this embodiment, the radial thickness T ₉₀ of the movable piece member 90 is the same as the radial thickness T ₈₀ at the rear end portion 84 of the fixed piece member 80 or The radial thickness T at 84 is less than ₈₀ . In this case, in the writing state shown in FIG. 5, the dimension of the gap G1 is larger than the gap between the upper portion of the fixed piece member 80 and the upper portion of the inner surface 30a of the main cylinder 30. As shown in FIG. Therefore, it is possible to more effectively suppress the obstruction by the movable piece member 90 of the air flowing into the ink containing portion 21 through the diameter-reduced portion 31 . When the thickness _T80 and the thickness _T90 are constant inside the fixed piece member 80 and inside the movable piece member 90, the thickness _T80 and the thickness _T90 are equal to the fixed piece member 80 and the movable piece member, respectively. It is defined as 1/2 the difference between the 90 outer diameter and the inner diameter.

Particularly, in this embodiment, when the fixed piece member 80 and the movable piece member 90 are positioned at the most forward position and the central axis A is arranged parallel to the horizontal direction, the upper edge 94 of the front end portion 92 of the movable piece member 90 is lower than the upper edge 86 of the rear end portion 84 of the fixed piece member 80 . In this case as well, the dimension of the gap G1 is larger than the gap between the upper portion of the fixed piece member 80 and the upper portion of the inner surface 30a of the main cylinder 30 in the writing state shown in FIG. Therefore, it is possible to more effectively suppress the obstruction by the movable piece member 90 of the air flowing into the ink containing portion 21 through the diameter-reduced portion 31 .

Another problem with conventional push-type ink inhalers is that the ink does not flow smoothly from the ink reservoir to the pen tip. According to studies by the inventors of the present invention, when the ink advances through the diameter-reduced portion toward the pen tip, the cause may be that the ink stays behind the diameter-reduced portion and prevents the ink from flowing out.

FIG. 6 is a diagram showing a cross section corresponding to line VI-VI of FIG. In this embodiment, the main cylinder 30 has a rear rib portion 33 extending in a plane including the central axis A on the inner surface 30a of the ink containing portion 21 . In particular, the main cylinder 30 has a plurality of rear ribs 33 arranged in the circumferential direction. More specifically, the plurality of rear rib portions 33 are arranged at equal angular pitches (equal angular intervals) along the circumferential direction. The rear rib portion 33 is provided outside the movable range of the piston member 50 in the ink containing portion 21 . Further, the rear rib portion 33 is provided on the rear inclined surface 31a of the diameter-reduced portion 31 except for a range where the closing surface 82 of the fixed piece member 80 abuts. Each rear rib portion 33 extends linearly along the axial direction when viewed from the central axis A. As shown in FIG. Note that the present invention is not limited to this, and each rear rib portion 33 may extend linearly in a direction inclined with respect to the axial direction when viewed from the central axis A, or may extend in a curved shape when viewed from the central axis A. good.

Since the main cylinder 30 has such a rear rib portion 33, the ink in the ink containing portion 21 is guided along the rear rib portion 33 toward the reduced diameter portion 31 in a writing state. 5, the lower portion of the fixed piece member 80 abuts against the rear rib portion 33, and a gap G2 is formed between the lower portion of the fixed piece member 80 and the lower portion of the inner surface 30a of the main cylinder 30. It is formed. Therefore, the ink in the ink containing portion 21 can smoothly flow toward the reduced diameter portion 31 through the gap G2. As a result, it is possible to effectively prevent ink from stagnation behind the diameter-reduced portion 31 .

Further, in the conventional push-type ink sucker, the fixed piece member 80 sticks to the inner surface 30a of the main cylinder 30, and the movement of the fixed piece member 80 toward the reduced-diameter portion 31 is sometimes hindered. In the present embodiment, the main cylinder 30 has such a rear rib portion 33, and a gap G2 is formed between the lower portion of the fixed piece member 80 and the lower portion of the inner surface 30a of the main cylinder 30, thereby fixing It is also possible to prevent the piece member 80 from sticking to the inner surface 30 a of the main cylinder 30 .

Further, in the conventional push-type ink sucker, the fixed piece member 80 has a rear inclined surface 31a of the reduced diameter portion 31 and a rear parallel portion 30a1 of the inner surface 30a of the main cylinder 30 which is parallel to the central axis A. , and the fixed piece member 80 is fitted in the boundary portion between the two, and this also hinders the movement of the fixed piece member 80 toward the reduced diameter portion 31 . In the present embodiment, since the main cylinder 30 has such a rear rib portion 33, the fixed piece member 80 is positioned at the boundary between the rear inclined surface 31a of the reduced diameter portion 31 and the rear parallel portion 30a1. It is also possible to prevent the fixing piece member 80 from getting stuck and to guide the fixed piece member 80 toward the reduced diameter portion 31 in a stable manner.

Especially in this embodiment, at least part of the rear rib portion 33 is provided on the rear inclined surface 31 a of the reduced diameter portion 31 . In this case, the ink in the ink containing portion 21 is more effectively guided toward the reduced diameter portion 31 along the rear rib portion 33 .

In particular, in the present embodiment, in the rear parallel portion 30a1, the rear rib portion 33 includes a portion where the distance from the central axis A along the radial direction decreases toward the front. In this case, in this portion, the fixed piece member 80 is guided toward the center axis A as it goes forward. Therefore, it becomes possible to guide the fixed piece member 80 toward the reduced diameter portion 31 more stably.

The inventors of the present invention have investigated the problem that, in a conventional push-type ink inhaler, air does not flow properly into the ink reservoir, which may hinder the smooth outflow of ink from the ink reservoir. However, it has been found that the air flowing into the ink containing portion is prevented from flowing into the ink containing portion by staying in front of the diameter-reduced portion.

7A is a diagram showing an example of a cross section corresponding to line VII-VII in FIG. 5, and FIG. 7B is a diagram showing another example of a cross section corresponding to line VII-VII in FIG. In particular, FIGS. 7A and 7B show the ink sucker 20 in cross section perpendicular to the central axis A. FIG. In the present embodiment, the main cylinder 30 has a front inclined surface 31b inclined with respect to the axial direction and the radial direction on the inner surface 30a at the front of the reduced diameter portion 31, or a surface including the central axis A of the main cylinder. It has an inwardly extending forward rib portion 34 .

In the example shown in FIG. 7A, main cylinder 30 has front rib portion 34 . Particularly in the illustrated example, the main cylinder 30 has a plurality of front rib portions 34 arranged in the circumferential direction. More specifically, the plurality of front rib portions 34 are arranged at equal angular pitches (equal angular intervals) along the circumferential direction. Each front rib portion 34 extends linearly along the axial direction when viewed from the central axis A. As shown in FIG. Note that the present invention is not limited to this, and each front rib portion 34 may extend linearly in a direction inclined with respect to the axial direction when viewed from the central axis A, or may extend in a curved shape when viewed from the central axis A. good.

Since the main cylinder 30 has such a front rib portion 34, air (bubbles) heading for the ink containing portion 21 is guided along the front rib portion 34 toward the reduced diameter portion 31 in a writing state. be. As a result, it is possible to prevent the air flowing toward the ink containing portion 21 from accumulating in front of the diameter-reduced portion 31 , thereby promoting the inflow of the air into the ink containing portion 21 . Ink flowing out of the ink containing portion 21 is guided along the front rib portion 34 toward the pen tip support portion 13 . As a result, the outflow of ink from the ink containing portion 21 can also be promoted.

The inventors presume the principle of such effects as follows. If the main cylinder 30 has such a front rib portion 34, when writing with the pen tip 12 directed downward and the longitudinal direction of the writing instrument 10 inclined with respect to the vertical direction, the pipe 70 is The distance between the front portion and the inner surface 30a of the main cylinder 30 is reduced. Here, the tensile force P of the ink caused by the surface tension T of the ink is expressed by :
P=(2×T×cos θ)/r
can be expressed as Therefore, it can be inferred that the tensile force P of the ink increases as the distance r between the pipe 70 and the inner surface 30a decreases.

In particular, in the illustrated example, the front rib portion 34 has a corner portion 35 facing the central axis A in a cross section orthogonal to the central axis A. As shown in FIG. Since the front rib portion 34 has such a corner portion 35, the surface tension acting on the air bubble in contact with the corner portion 35 causes the air bubble to stick to the inner surface 30a of the main cylinder 30 and form the diameter-reduced portion. Staying in front of 31 can be suppressed.

Particularly in the illustrated example, in the front parallel portion 30a2 of the inner surface 30a parallel to the central axis A, the front rib portion 34 has a portion where the distance from the central axis A along the radial direction decreases toward the rear. contains. In this case, in front of the reduced diameter portion 31, the air directed toward the ink containing portion 21 is guided along the front rib portion 34 so as to approach the central axis A as it goes rearward. Therefore, it is possible to more effectively prevent the air from stagnation in front of the diameter-reduced portion 31 .

In the example shown in FIG. 7B, the main cylinder 30 has a forward inclined surface 31b. It is a surface extending obliquely with respect to the axial direction and the radial direction so as to extend radially outward toward the front. Since the main cylinder 30 has such a front inclined surface 31b, the air (bubbles) heading for the ink containing portion 21 is guided along the front inclined surface 31b toward the reduced diameter portion 31 in the writing state. be. As a result, it is possible to prevent the air flowing toward the ink containing portion 21 from accumulating in front of the diameter-reduced portion 31 , thereby promoting the inflow of the air into the ink containing portion 21 . Further, the ink flowing out of the ink containing portion 21 is guided toward the pen point support portion 13 along the front inclined surface 31b. As a result, the outflow of ink from the ink containing portion 21 can also be promoted.

Particularly in the illustrated example, the front inclined surface 31 b has a groove portion 32 extending in a plane including the central axis A of the main cylinder 30 . Particularly in the illustrated example, the front inclined surface 31b has a plurality of grooves 32 arranged in the circumferential direction. More specifically, the plurality of grooves 32 are arranged at equal angular pitches (equal angular intervals) along the circumferential direction. Each groove 32 extends linearly along the axial direction when viewed from the central axis A. As shown in FIG. Note that each groove 32 may extend linearly in a direction inclined with respect to the axial direction when viewed from the center axis A, or may extend in a curved shape when viewed from the center axis A, without being limited to this.

Since the front inclined surface 31 b has such grooves 32 , the air (bubbles) heading for the ink containing portion 21 is guided along the grooves 32 toward the reduced diameter portion 31 . As a result, it is possible to further prevent the air flowing toward the ink containing portion 21 from accumulating in front of the reduced diameter portion 31 , thereby further promoting the inflow of the air into the ink containing portion 21 . Also, the ink flowing out of the ink containing portion 21 is guided along the groove portion 32 toward the nib support portion 13 . As a result, the outflow of ink from the ink containing portion 21 can be further promoted.

Especially in the illustrated example, the width of the groove 32 in the circumferential direction decreases toward the front. As a result, the capillary force in the groove 32 increases toward the front. Therefore, the ink flowing out of the ink containing portion 21 is sucked forward along the groove portion 32 . As a result, the outflow of ink from the ink containing portion 21 can be further promoted.

Various modifications can be made to the above-described embodiment. Modifications will be described below with appropriate reference to the drawings. In the following description and the drawings used in the following description, the same reference numerals as those used for the corresponding portions in the above-described embodiment are used for the portions that can be configured in the same manner as in the above-described embodiment, Duplicate explanations are omitted.

8 is a longitudinal sectional view showing a modified example of the ink sucker 20, and FIG. 9 is a transverse sectional view corresponding to line IX-IX of FIG.

In this modified example, the main cylinder 30 of the ink sucker 20 has a plurality of front rib portions 34 . Especially in the example shown in FIG. 9, the main cylinder 30 has four front rib portions 34 arranged with equal angular pitch along the circumferential direction. That is, in the illustrated example, two circumferentially adjacent front rib portions 34 are arranged with an angular pitch of 90 degrees from each other.

In the example shown in FIG. 9, the front rib portions 34 are arranged at intervals S1 from each other along the circumferential direction. Here, the interval S1 refers to the length along the circumferential direction on the inner surface 30a of the main cylinder 30. As shown in FIG. In this modified example, the interval S1 is 2.7 mm or more. That is, the interval S1 between two front rib portions 34 adjacent in the circumferential direction is 2.7 mm or more.

When the interval S1 is 2.7 mm or more, a sufficient interval is ensured between the two adjacent front rib portions 34, so that the two front rib portions 34 are prevented from being clogged with air bubbles. That is, the retention of air bubbles is suppressed in the front portion of the diameter-reduced portion 31, and the flow of the air bubbles is promoted. As a result, the outflow of ink from the ink containing portion 21 caused by the movement of the air bubbles to the rear can be facilitated.

The interval S1 between the two front rib portions 34 adjacent in the circumferential direction is preferably 2.7 mm or more and 4.7 mm or less. When the interval S1 is 4.7 mm or less, the distance between the front portion of the pipe 70 and the inner surface 30a of the main cylinder 30 is appropriately reduced when the longitudinal direction of the writing instrument 10 is inclined with respect to the vertical direction. be able to. Therefore, the tensile force P of the ink caused by the surface tension T of the ink can be effectively increased. Further, the interval S1 is more preferably 3.3 mm or more and 3.7 mm or less.

FIG. 10 is a cross-sectional view corresponding to line XX of FIG. In this modified example, the main cylinder 30 of the ink inhaler 20 has a plurality of rear ribs 33 . Especially in the example shown in FIG. 10, the main cylinder 30 has five rear rib portions 33 arranged with equal angular pitch along the circumferential direction. That is, in the illustrated example, two rear rib portions 33 adjacent in the circumferential direction are arranged with an angular pitch of 72 degrees from each other.

In the example shown in FIG. 10, the respective rear rib portions 33 are arranged with an interval S2 from each other along the circumferential direction. Here, the interval S2 refers to the length along the circumferential direction on the inner surface 30a of the main cylinder 30. As shown in FIG. In this modified example, the interval S2 is 2.7 mm or more. That is, the interval S2 between two rear rib portions 33 adjacent in the circumferential direction is 2.7 mm or more.

When the interval S2 is 2.7 mm or more, a sufficient interval is ensured between the two adjacent rear rib portions 33, so that the two rear rib portions 33 are prevented from being clogged with air bubbles. That is, the retention of air bubbles is suppressed in the rear portion of the diameter-reduced portion 31, and the flow of air bubbles is promoted. As a result, the outflow of ink from the ink containing portion 21 caused by the movement of the air bubbles to the rear can be facilitated.

The interval S2 between the two rear rib portions 33 adjacent in the circumferential direction is preferably 2.7 mm or more and 4.7 mm or less. When the interval S2 is 4.7 mm or less, the distance between the rear portion of the pipe 70 and the inner surface 30a of the main cylinder 30 is appropriately reduced when the longitudinal direction of the writing instrument 10 is inclined with respect to the vertical direction. be able to. Therefore, the tensile force P of the ink caused by the surface tension T of the ink can be effectively increased. Further, the interval S2 is more preferably 3.3 mm or more and 3.7 mm or less.

10 writing instrument 11 barrel 12 pen tip 13 pen tip support 20 ink suction device 21 ink container 25 biasing member 30 main cylinder 30a inner surface 30a1 rear parallel portion 30a2 front parallel portion 31 reduced diameter portion 31a rear slope 31b front slope 32 Groove 33 Rear rib 34 Front rib 35 Corner 40 Tail piece 42 Rear end opening 44 Flange 50 Piston member 51 Flange 51a Front end surface 53 Concave portion 55 Connecting convex portion 57 Hole 59 Through hole 60 Operation member 62 Connecting concave portion 64 Projection 70 Pipe 72 Front end 74 Rear end 76 Expanded diameter portion 80 Fixed piece member 82 Closed surface 84 Rear end 86 Upper edge 90 Movable piece member 92 Front end 94 Upper edge

Claims (10)

a main cylinder having a diameter-reduced portion on its inner surface and defining an ink containing portion behind the diameter-reduced portion;
a piston member arranged to be movable back and forth with respect to the main cylinder;
a pipe extending inside the main cylinder through the diameter-reduced portion and held so as to be movable back and forth with respect to the piston member;
a fixed piece member fixed to the pipe behind the reduced diameter portion,
The main cylinder has a front inclined surface inclined with respect to the axial direction and the radial direction on the inner surface in front of the reduced diameter portion,
The ink sucker , wherein the front inclined surface has a groove extending in a plane including the central axis of the main cylinder . 2. The ink sucker according to claim 1 , wherein said main cylinder has a plurality of said grooves arranged in the circumferential direction. 3. The ink sucker according to claim 1 , wherein the circumferential width of said groove portion decreases toward the front. a main cylinder having a diameter-reduced portion on its inner surface and defining an ink containing portion behind the diameter-reduced portion;
a piston member arranged to be movable back and forth with respect to the main cylinder;
a pipe extending inside the main cylinder through the diameter-reduced portion and held so as to be movable back and forth with respect to the piston member;
a fixed piece member fixed to the pipe behind the reduced diameter portion,
The main cylinder has a front rib portion extending in a plane including the central axis of the main cylinder on an inner surface in front of the reduced diameter portion ,
The ink sucker, wherein in a cross section perpendicular to the central axis, the front rib portion has a corner facing the central axis. a main cylinder having a diameter-reduced portion on its inner surface and defining an ink containing portion behind the diameter-reduced portion;
a piston member arranged to be movable back and forth with respect to the main cylinder;
a pipe extending inside the main cylinder through the diameter-reduced portion and held so as to be movable back and forth with respect to the piston member;
a fixed piece member fixed to the pipe behind the reduced diameter portion,
The main cylinder has a front rib portion extending in a plane including the central axis of the main cylinder on an inner surface in front of the reduced diameter portion ,
The ink sucker, wherein the front parallel portion of the inner surface parallel to the center axis includes a portion where the distance from the center axis along the radial direction decreases toward the rear. 6. The ink sucker according to claim 4 , wherein said main cylinder has a plurality of said front rib portions arranged in the circumferential direction. 7. The ink sucker according to claim 6 , wherein the interval between two circumferentially adjacent front rib portions is 2.7 mm or more. The ink inhaler according to any one of claims 1 to 7 , wherein the main cylinder has a rear rib portion extending in a plane including the central axis of the main cylinder on the inner surface of the ink containing portion. 9. The ink sucker according to claim 8 , wherein said main cylinder has a plurality of said rear ribs arranged in the circumferential direction. 10. The ink sucker according to claim 9 , wherein the interval between the two circumferentially adjacent rear rib portions is 2.7 mm or more.

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