JP7046706B2 - mechanical pencil - Google Patents

Description

The present invention relates to a mechanical pencil capable of writing by extending a writing core by a predetermined amount from the front end of a mouthpiece by a knock operation or the like.

By pushing the operating body that protrudes rearward from the rear end of the shaft cylinder forward with respect to the shaft cylinder, the lead feeding unit that holds the writing core is in a writing state in which the mouthpiece attached to the front end of the shaft cylinder protrudes from the front end of the shaft cylinder. A mechanical pencil that can be switched alternately between the non-writing state in which the base is immersed in the barrel and the non-writing state is known. Such a haunting mechanical pencil is described in, for example, Patent Document 1 below.

By the way, the applicant proposes, for example, in Patent Document 2 below, a mechanical pencil in which the length of the writing core exposed from the front end of the mouthpiece is reduced by the writing pressure. In this mechanical pencil, the lead feeding unit is urged from the rear with respect to the barrel by an elastic body (coil spring) that can be expanded and contracted. More specifically, a chuck support unit in which the core feeding unit can move relative to the shaft cylinder in the front-rear direction, and a chuck unit supported by the chuck support unit so as to move relative to the chuck support unit in the front-rear direction. have. An elastic body that can be expanded and contracted is arranged between the chuck support unit and the shaft cylinder in a compressed state.

In order to construct the mechanical pencil of the type described in Patent Document 2 in a haunting manner, the configuration described in Patent Document 1 cannot be directly applied to the mechanical pencil of Patent Document 2. That is, in the infestation type mechanical pencil of Patent Document 1, when the lead feeding unit is in the writing state, the front end of the lead feeding unit is usually slightly separated from the shaft cylinder. It employs a cam mechanism to switch the state of the core feeding unit (writing or non-writing state), but was associated with the barrel just before the end of the switching operation from the non-writing state to the writing state. This is because the cam follower associated with the lead feeding unit is slightly dropped toward the rear of the barrel with respect to the cam. In order to realize this drop, it is necessary to provide a certain gap between the rear end of the chuck unit (for example, the rear end of the core pipe for accommodating the writing core) and the operating body.

For this reason, if an attempt is made to achieve both an infestation operation of the core feeding unit and a writing core feeding operation (knocking operation) from the core feeding unit by a single operating body, the writing core is fed out due to the presence of the above-mentioned gap. There is a problem that the operation cannot be performed well.

Japanese Unexamined Patent Publication No. 2009-208424 Japanese Unexamined Patent Publication No. 2017-013286

The present invention has been devised in view of the above problems. That is, an object of the present invention is to provide a mechanical pencil capable of performing an operation of moving in and out of a lead feeding unit and an operation of sending out a writing core from the lead feeding unit (knocking operation) by a single operating body.

The present invention includes a shaft tube and
A core feeding unit that is supported in the shaft cylinder so as to be relatively movable in the axial direction of the shaft cylinder and holds a writing core, and a core feeding unit.
An operating body that is exposed from the barrel and can move relative to the barrel in the axial direction.
An elastic body that urges the core feeding unit from the rear with respect to the operating body is provided.
When the operating body is pushed forward to a predetermined position with respect to the barrel, the core feeding unit is alternately held by the barrel in a relatively front writing state and a relatively rear non-writing state.
The core feeding unit is supported by a chuck support unit that can move relative to the shaft cylinder in the axial direction and a chuck support unit that can move relative to the chuck support unit in the axial direction. Has a chuck unit, which holds forward so that it can be sent out,
The elastic body is a mechanical pencil that urges the chuck unit from behind with respect to the operating body in the writing state.

The chuck unit has a core pipe for accommodating the writing core.
The elastic body may be arranged between the operating body and the core pipe.

The core feeding unit further has a return spring that urges the chuck unit rearward with a predetermined urging force with respect to the chuck support unit.
The elastic body may urge the chuck unit from the rear with an urging force exceeding the predetermined urging force by pushing the operating body forward with respect to the shaft cylinder by an amount exceeding a predetermined amount.

In the above mechanical pencil, the operating body is
A slide cam that moves relative to the axle in the axial direction,
A cam follower that is arranged inside the shaft cylinder and can move relative to the shaft cylinder in the axial direction and rotate relative to the shaft line.
A moving body that is arranged in front of the cam follower inside the barrel and can move relative to the barrel in the axial direction.
Further provided with an urging means for urging the chuck support unit forward with respect to the moving body.
The operating body may be able to press the chuck support unit from the rear via the cam follower, the moving body, and the urging means.

In this case, a second urging means for urging the moving body to the rear with respect to the barrel is further provided.
In the written state, the initial load of the second urging means may be larger than the initial load of the elastic body.

Further, the mechanical pencil described above has a mouthpiece that is supported in front of the lead feeding unit and has an opening through which the writing lead held in the lead feeding unit can pass.
An elastic body arranged in a compressed state between the core feeding unit and the base is further provided.
When the core feeding unit is in the writing state, the mouthpiece may be adapted to press the barrel from behind.

In this case, the shaft cylinder may move the core feeding unit rearward with respect to the shaft cylinder depending on the radial component of the shaft cylinder of the writing pressure.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide a mechanical pencil capable of performing an operation of moving in and out of a lead feeding unit and an operation of feeding a writing core from the lead feeding unit (knocking operation) by a single operating body.

It is a schematic vertical sectional view which shows the mechanical pencil by one Embodiment of this invention when a core feeding unit is in a writing state. FIG. 3 is a schematic vertical sectional view showing a mechanical pencil of FIG. 1 when the lead feeding unit is in a non-writing state. It is a schematic vertical sectional view which shows the rear cylinder of the mechanical pencil of FIG. It is a schematic vertical sectional view which shows the pressing part of the operation body of the mechanical pencil of FIG. It is a schematic front view which shows the cam follower of the operation body of the mechanical pencil of FIG. It is a figure for demonstrating the process of switching a core feeding unit from a non-writing state to a writing state in the mechanical pencil of FIG. It is a figure for demonstrating the process of switching a core feeding unit from a non-writing state to a writing state in the mechanical pencil of FIG. It is a figure for demonstrating the process of feeding out the writing lead of the lead feeding unit in the mechanical pencil of FIG. It is a schematic vertical sectional view which shows the mechanical pencil of FIG. 1 when a strong writing pressure does not act on a writing core at the time of writing. It is a schematic vertical sectional view which shows the mechanical pencil of FIG. 1 when a strong writing pressure is acting on a writing core at the time of writing.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are schematic vertical sectional views showing a mechanical pencil 100 according to an embodiment of the present invention. FIG. 1 shows a mechanical pencil 100 when the lead feeding unit 20 is in a writing state, and FIG. 2 shows a mechanical pencil 100 when the lead feeding unit 20 is in a non-writing state.

As shown in FIGS. 1 and 2, the mechanical pencil 100 is a cylindrical operating body 40, 50 that is exposed from the cylinder 10 and the shaft cylinder 10 and is movable relative to the shaft cylinder 10 in the axial direction da. , 70, and a lead feeding unit 20 that is supported in the pencil 10 so as to be relatively movable in the axial direction da of the cylinder 10 and holds the writing core 21. As shown in FIGS. 1 and 2, the axle cylinder 10 has a front cylinder 11 and a rear cylinder 12 connected to the rear of the front cylinder 11. In the present embodiment, the front cylinder 11 and the rear cylinder 12 are screwed together. Further, the operating bodies 40, 50, and 70 are arranged behind the core feeding unit 20, and partially project rearward from the opening at the rear end of the barrel 10.

The core feeding unit 20 is in a writing state relatively forward by the shaft cylinder 10 when the operating bodies 40, 50, and 70 are pushed forward (relatively moved) to a predetermined position X with respect to the shaft cylinder 10. (See) and relatively backward non-writing state (see FIG. 2) are alternately held (switched). In the present specification, the positions of the operating bodies 40, 50, and 70 with respect to the barrel 10 mean the positions of the front ends (left ends in FIGS. 1 and 2) of the pressing portion 40 with respect to the barrel 10. The configuration for realizing such switching will be described below with reference to FIGS. 3 to 5 in addition to FIGS. 1 and 2.

3 is a schematic vertical sectional view showing the rear cylinder 12 of the mechanical pencil 100 of FIG. 1, and FIG. 4 is a schematic vertical sectional view showing a pressing portion 40 of the operating body of the mechanical pencil 100 of FIG. 1. FIG. 5 is a schematic front view showing a cam follower 70 of the operating body of the mechanical pencil 100 of FIG. 1.

As shown in FIG. 3, the rear cylinder 12 has an abutted portion 12a on the inner surface for positioning the core feeding unit 20 with respect to the axle cylinder 10 in cooperation with a cam follower 70 described later. The contacted portion 12a of the present embodiment is a slope that is non-parallel and non-perpendicular to the axial direction da, and is a front end of a plurality of inner ribs 12r extending along the axial direction da on the inner surface of the barrel 10. Is formed in. As shown in FIG. 3, the plurality of inner ribs 12r are formed at equal intervals along the circumferential direction of the inner surface of the barrel 10 with a predetermined gap g. In at least one of these gaps 12g, a cam follower restricting portion 12b and an operating body restricting portion 12c located behind the cam follower regulating portion 12b are provided on the inner surface of the barrel 10. Each of the regulating portions 12b and 12c is formed as a contact surface facing forward. In other words, the rear cylinder 12 has an order of a region in front of the cam follower regulating portion 12b, a region sandwiched between the cam follower regulating portion 12b and the operating body regulating portion 12c, and a region behind the operating body regulating portion 12c. And it is configured to gradually become thicker.

Next, the pressing portion 40 of the operating body will be described with reference to FIG. The pressing portion 40 has a cylindrical slide cam 42 and a cover 41 that covers the rear end of the slide cam 42. As shown in FIG. 4, the slide cam 42 has a plurality of cam-side pressing portions 42p for pressing the pressed portion 72p (see FIG. 5) of the cam follower 70 described later at the front end (left end of FIG. 4). .. The cam-side pressing portion 42p is formed as a protrusion protruding forward. Further, as shown in FIG. 4, a valley portion 42m recessed rearward is formed between two adjacent cam-side pressing portions 42p. The slide cam 42 has the same phase around the axis L of the cam-side pressing portion 42p and the phase around the axis L of the gap 12g (see FIG. 3) between the contacted portions 12a of the rear cylinder 12, and the valley portion. It is configured so that the phase around the axis L of 42 m and the phase around the axis L of the contacted portion 12a can be the same.

A plurality of raised portions 42u are provided on the outer peripheral surface in front of the slide cam 42. The dimension (width) of each raised portion 42u in the circumferential direction of the slide cam 42 is slightly smaller than the width g (see FIG. 3) of the gap 12g between the adjacent inner ribs 12r of the rear cylinder 12. By positioning these raised portions 42u within the gap 12g, the relative rotation of the pressing portion 40 with respect to the shaft cylinder 10 (rear cylinder 12) around the axis L is restricted. Further, the raised portion 42u has an outer diameter that interferes with the operating body restricting portion 12c of the rear cylinder 12. Therefore, by positioning the raised portion 42u within the gap 12g, the pressing portion 40 is arranged in a state of being prevented from coming off with respect to the shaft cylinder 10.

Next, as shown in FIG. 5, the cam follower 70 of the present embodiment has a tubular cam follower main body 71 and an outer rib 72 integrally formed on the rear outer surface of the cam follower main body 71. There is. Four outer ribs 72 according to the present embodiment are provided at equal intervals along the circumferential direction of the barrel 10. A pressed portion 72p is provided at the rear end of each outer rib 72. The pressed portion 72p has a slope that is non-parallel and non-right angle to the axial direction da. The pressed portion 72p comes into contact with the cam-side pressing portion 42p of the slide cam 42 from the front when the core feeding unit 20 is in the non-writing state. The width w of the outer rib 72 is slightly smaller than the width g of the gap 12g between the adjacent inner ribs 12r of the rear cylinder 12.

Returning to FIGS. 1 and 2, the mechanical pencil 100 is arranged inside the shaft cylinder 10, and has a moving body 50 that can move forward relative to the shaft cylinder 10 and a center feeding unit 20 for the moving body 50. A first urging means 60 for urging forward is further provided. When the core feeding unit 20 is in the writing state, the shaft cylinder 10 is pressed from the rear by the urging force of the first urging means 60. Further, the moving body 50 has a tubular shape, and its rear end is in contact with the front end of the cam follower 70. As a result, the moving body 50 is moved forward relative to the shaft cylinder 10 by the relative movement of the pressing portion 40 to the shaft cylinder 10. Further, the moving body 50 has a bulging portion 52 on the inner surface for bringing the core feeding unit 20 from the writing state to the non-writing state. The action of the bulging portion 52 will be described later.

A flange portion 51 extending radially outward of the moving body 50 is formed on the outer surface of the rear end of the moving body 50. Further, on the inner surface of the barrel 10, a first receiving portion 13 facing the flange portion 51 from the front is formed. A second urging means 61 is arranged between the flange portion 51 and the first receiving portion 13 in a compressed state. As shown in FIGS. 1 and 2, the receiving portion 13 of the present embodiment is composed of the rear end portion of the front cylinder 11. With such a configuration, the pressing portion 40 presses the chuck support unit 27 from the rear via the cam follower 70, the moving body 50, and the first urging means 60.

The core feeding unit 20 of the present embodiment can move relative to the chuck support unit 27 urged forward with respect to the moving body 50 by the first urging means 60 described above and the chuck support unit 27 in the axial direction da. It has a chuck unit 28 which is supported by the chuck support unit 27 and holds the writing core 21 so as to be able to be sent forward. Therefore, the chuck support unit 27 can move rearward with respect to the barrel 10 while compressing and deforming the first urging means 60 when the core feeding unit 20 is in the writing state.

Further, as shown in FIGS. 1 and 2, the chuck unit 28 is arranged so as to penetrate the moving body 50 and the cam follower 70. Further, the chuck unit 28 has a contact portion 29p that abuts from the rear on the bulge portion 52. As shown in FIGS. 1 and 2, the contact portion 29p of the present embodiment is formed on the outer surface of the connector 29 connected to the rear of the chuck 24 behind the bulging portion 52 of the moving body 50. It is a ridge. The outer diameter of the abutting portion 29p is formed to be larger than the inner diameter of the bulging portion 52 of the moving body 50. Therefore, the relative movement of the chuck unit 28 to the moving body 50 in the forward direction is restricted by the contact portion 29p contacting the bulging portion 52 from the rear. In the present embodiment, when the core feeding unit 20 is in the writing state, the bulging portion 52 and the contact portion 29p are separated from each other, and when the core feeding unit 20 is in the non-writing state, the bulging portion 52 is in contact with the bulging portion 52. The portion 29p is in contact with the portion 29p.

Further, as shown in FIGS. 1 and 2, the chuck unit 28 has a core pipe 23 connected to the rear of the connector 29 and accommodating the writing core 21. In the illustrated example, the core pipe 23 is fitted in the rear region of the connector 29. A coil spring as an elastic body 62 is arranged between the rear end of the core pipe 23 and the pressing portion 40. Specifically, a reduced diameter portion 43 (see FIG. 4) protruding toward the axis L is provided at a position rearward of the rear end of the core pipe 23 on the inner peripheral surface of the pressing portion 40. An elastic body 62 is arranged so as to be expandable and contractible between the reduced diameter portion 43 and the rear end of the core pipe 23. The elastic body 62 of the present embodiment is set to have a natural length when the core feeding unit 20 is in the writing state.

Further, as shown in FIGS. 1 and 2, the mechanical pencil 100 further has a base 30 supported in front of the lead feeding unit 20. The base 30 has an opening 30a through which the writing core 21 held by the core feeding unit 20 can pass. A spring 33 for a base as an elastic body is arranged between the core feeding unit 20 and the base 30 in a compressed state. The base 30 has a guide pipe 31 for guiding the writing core 21 and a sleeve portion 32 having a diameter larger than that of the guide pipe 31. The sleeve portion 32 has a front small diameter portion 32c and a rear diameter expansion portion 32d. In order to hold the base 30 in the chuck support unit 27 in a retaining state, the core feeding unit 20 further has a tubular holding member 22.

The holding member 22 is fixed to the chuck support unit 27 in a state of surrounding the outer periphery of the base 30. The front end of the holding member 22 has a throttle portion 22f having a reduced inner diameter. A tapered portion 22t that tapers toward the front is formed on the outer surface of the throttle portion 22f. The inner diameter of the front end of the throttle portion 22f is larger than the outer diameter of the small diameter portion 32c of the base 30, but smaller than the outer diameter of the enlarged diameter portion 32d. As a result, the diameter-expanded portion 32d of the base 30 inserted into the holding member 22 from the rear is prohibited from moving forward relative to the holding member 22 beyond the throttle portion 22f.

The chuck support unit 27 has a second receiving portion 27a that receives the urging force of the base spring 33 described above. The second receiving portion 27a is located behind the connection portion between the small diameter portion 32c and the diameter expansion portion 32d of the base 30, and the base spring 33 is arranged in a compressed state so as to be expandable and contractible between the connection portion. There is. Therefore, the base 30 is arranged in front of the chuck support unit 27 with the enlarged diameter portion 32d pressing the throttle portion 22f of the holding member 22. In the present embodiment, the initial load of the base spring 33 is set to be smaller than the initial load of the first urging means 60. Due to the action of the base spring 33, the base 30 presses the barrel 10 from the rear when the core feeding unit 20 is in the writing state.

Further, the chuck support unit 27 is supported by the outer cylinder 27p and the outer cylinder 27p, and the tightening ring 25 for tightening the chuck 24 provided on the chuck unit 28 and the chuck unit 28 are urged rearward with respect to the outer cylinder 27p. It has a return spring 26 and. The outer cylinder 27p has a reduced diameter portion 27s on the front inner peripheral surface. The chuck 24 is arranged so as to penetrate the opening defined by the reduced diameter portion 27s in the axial direction da, and is movable relative to the outer cylinder 27p in the axial direction da. Further, the return spring 26 is arranged in a compressed state between the reduced diameter portion 27s of the outer cylinder 27p and the connector 29. With such a configuration, the return spring 26 urges the chuck unit 28 rearward with respect to the outer cylinder 27p. When the chuck unit 28 is not moved forward relative to the chuck support unit 27, the chuck 24 holds the writing core 21 so that the front end region is tightened by the tightening ring 25 and the writing core 21 is not retracted.

The shaft cylinder 10 (front cylinder 11) has a pressing portion 15 in which the tapered portion 22t of the holding member 22 abuts from the rear and a diameter-reduced portion 16 on the shaft cylinder side in which the small diameter portion 32c of the base 30 abuts from the rear. And have. As shown in FIGS. 1 and 2, the pressing portion 15 and the diameter-reduced portion 16 on the barrel side of the present embodiment are both convex portions formed on the inner surface of the barrel 10. Further, in the shaft cylinder 10, the inner diameter of the region corresponding to the holding member 22 is larger than the outer diameter of the holding member 22, and the relative movement of the base 30 with respect to the shaft cylinder 10 in the radial direction is permitted.

Further, the cover 41 of the present embodiment is configured as a cover that covers the eraser 80 held by the holder portion 42h at the rear end of the slide cam 42.

Next, the operation of the mechanical pencil 100 will be described with reference to FIGS. 6 and 7.

6 and 7 are diagrams for explaining a process of switching the lead feeding unit 20 from the non-writing state to the writing state in the mechanical pencil of FIG. 1. FIG. 6 is a schematic vertical cross-sectional view showing a state in which the pressing portion 40 is relatively moved to the frontmost position with respect to the axle cylinder 10, and FIG. 7 is a schematic vertical sectional view showing a state in which the pressing portion 40 is moved to the initial position after the state of FIG. It is a schematic vertical cross-sectional view showing the state of returning. In the following description, the state (non-writing state) of FIG. 2 in which the base 30 is immersed in the barrel 10 is defined as the initial state.

Prior to writing on the paper surface, the cover 41 and the eraser 80 are removed from the holder portion 42h, and the writing core 21 is inserted into the core pipe 23, if necessary. After that, the eraser 80 and the cover 41 are reattached to the holder portion 42h. Then, by pushing the pressing portion 40 forward with respect to the shaft cylinder 10, the base 30 is paid out from the front end 11a of the shaft cylinder 10 as follows. That is, the slide cam 42 and the moving body 50 of the pressing portion 40 move forward relative to the axle cylinder 10 while compressing the second urging means 61. During this relative movement, the slide cam 42 is relative to the shaft cylinder 10 forward without rotating relative to the shaft cylinder 10 because the raised portion 42u is guided by the gap 12g between the inner ribs 12r of the shaft cylinder 10. Moving. Further, since the outer rib 72 of the cam follower 70 is also guided by the gap 12 g, it relatively moves forward with respect to the axle cylinder 10 without rotating relative to the axis L.

When the moving body 50 is relatively moved forward with respect to the shaft cylinder 10, the core feeding unit 20 and the base 30 are relatively moved forward with respect to the shaft cylinder 10 together with the first urging means 60. Then, in the process of this relative movement, the small diameter portion 32c of the base 30 first comes into contact with the diameter-reduced portion 16 on the barrel side, and further forward relative movement (advancement) of the base 30 with respect to the barrel 10 is restricted. When the moving body 50 is further moved forward with respect to the shaft cylinder 10 from this state, the spring 33 for the base is compressed and the length of the small diameter portion 32c protruding forward from the front end of the holding member 22 is reduced. Eventually, the tapered portion 22t of the holding member 22 abuts on the pressing portion 15 of the barrel 10 from behind, further relative movement of the chuck support unit 27 to the front of the barrel 10 and to the rear of the base 30 with respect to the holding member 22. Both with further relative movement of the are regulated. Then, when the moving body 50 is further moved forward with respect to the shaft cylinder 10 by the pressing portion 40, the moving body 50 moves forward with respect to the shaft cylinder 10 and the core feeding unit 20 while compressing the first urging means 60. Move relative to. Due to this relative movement, the bulging portion 52 of the moving body 50 and the abutting portion 29p of the chuck unit 28 are separated from each other.

Then, when the pressing portion 40 is further pushed forward with respect to the barrel 10, the outer rib 72 of the cam follower 70 is disengaged forward from the gap 12g between the inner ribs 12r. This allows the cam follower 70 to rotate relative to the barrel 10 about its axis L. As a result, the cam follower 70 rotates relative to the shaft cylinder 10 around the axis L due to the force of the cam-side pressing portion 42p of the slide cam 42 pressing the pressed portion 72p of the outer rib 72. This relative rotation stops when the outer rib 72 of the cam follower 70 is positioned at the valley portion 42 m of the slide cam 42. As a result, the phase around the axis L of the pressed portion 72p of the cam follower 70 and the phase of the contacted portion 12a of the rear cylinder 12 coincide with each other (see FIG. 6).

Then, the pressing force applied to the pressing portion 40 is weakened, and the moving body 50, the cam follower 70, and the pressing portion 40 are subjected to the urging force of the first urging means 60 and the second urging means 61 against the shaft cylinder 10. The relative movement to the rear is started (see FIG. 7). As described above, since the phase around the axis L of the cam follower 70 and the phase of the gap 12g between the contacted portions 12a are the same, the cam follower 70 is slightly retracted with respect to the barrel 10 and then, after that, the cam follower 70 is slightly retracted. The outer rib 72 abuts on the contacted portion 12a. Then, due to the inclination of the contacted portion 12a, the outer rib 72 is guided until it comes into contact with the cam follower restricting portion 12b from the front. That is, the moving body 50 and the cam follower 70 are restricted from further rearward movement with respect to the barrel 10. As a result, the core feeding unit 20 is put into the writing state, and the operation of projecting the base 30 from the front end 11a of the barrel 10 is completed (see FIG. 1).

Further, as can be understood from the above description, when the core feeding unit 20 is in the writing state, the tapered portion 22t of the holding member 22 presses the pressing portion 15 of the barrel 10 by the urging force of the first urging means 60. Press from behind. Further, the small diameter portion 32c of the base 30 presses the shaft cylinder side reduced diameter portion 16 of the shaft cylinder 10 from the rear by the urging force of the base spring 33.

After that, the pressing portion 40 is pushed forward (knocked) with respect to the barrel 10 in a posture in which the front end 11a of the barrel 10 is located below the pressing portion 40. At this time, first, the elastic body 62 is compressed over a certain length, so that the urging force of the elastic body 62 is balanced with the urging force of the base spring 33. When the pressing portion 40 is further pushed forward with respect to the shaft cylinder 10 from this state, the chuck unit 28 advances with respect to the chuck support unit 27 while the elastic body 62 and the base spring 33 are both compressed. In the process of this advance, the tightening ring 25 is disengaged from the chuck 24, and the chuck 24 is opened. As a result, the writing core 21 is extended forward by a predetermined length from the chuck 24 (see FIG. 8). After that, the force applied to the pressing portion 40 is weakened, and the pressing portion 40 is returned to the initial position by following the above-mentioned operation of feeding the writing core in the reverse order.

Then, the cylinder 10 is grasped by the user, and the writing is performed by moving the shaft cylinder 10 as desired while bringing the writing core 21 into contact with the paper surface. When the writing core 21 is worn, the writing core 21 may be extended again by pressing the pressing portion 40 forward as described above.

Next, the action of the mechanical pencil 100 at the time of writing will be described. 9A is a schematic vertical sectional view showing a front portion of the mechanical pencil 100 of FIG. 1 when a strong writing pressure is not applied to the writing core 21, and FIG. 9B is a schematic vertical sectional view showing a strong writing pressure applied to the writing core 21. It is a schematic vertical sectional view which shows the front part of the mechanical pencil 100 of FIG. As shown in FIG. 9A, when writing, the barrel 10 is generally gripped so that the axial da is at an acute angle with respect to the paper surface P. Therefore, at the time of writing, a force including a component perpendicular to the axial direction da of the axial cylinder 10 (a radial component of the axial cylinder 10) and a component in the axial direction da acts on the writing core 21. In the mechanical pencil 100 of the present embodiment, when a strong writing pressure is applied to the writing core 21 at the time of writing, the component perpendicular to the axial direction da of the writing pressure and the component in the axial direction da are respectively as follows. It absorbs and reduces the breakage of the writing core 21 protruding from the base 30.

That is, when a strong writing pressure acts on the writing core 21, the tapered portion 22t of the holding member 22 and the pressing portion 15 of the shaft cylinder 10 via the writing core 21 and the base 30 are formed by a component perpendicular to the axial direction da of the writing pressure. A strong pressing force acts between them. Then, since the tapered portion 22t of the holding member 22 is tapered toward the front, as shown in FIG. 9B, the core feeding unit 20 is first biased while its front is tilted with respect to the axis L. While compressing the means 60, it moves backward relative to the shaft cylinder 10.

By the way, the base 30 is urged forward with respect to the core feeding unit 20 by the base spring 33. Due to this urging force, the base 30 moves forward relative to the core feeding unit 20 according to the amount of rearward movement of the core feeding unit 20 with respect to the barrel 10. That is, even if the core feeding unit 20 moves rearward with respect to the shaft cylinder 10, the base 30 does not move relative to the shaft cylinder 10 in the axial direction da. As a result, the length of the writing core 21 protruding from the front end of the base 30 is reduced.

At the same time, the writing core 21 is pressed backward by the component of the writing pressure in the axial direction da. When the component of the axial direction da of the writing pressure exceeds the urging force of the first urging means 60, the core feeding unit 20 is relative to the barrel 10 while further compressing the first urging means 60. Moving. That is, the length of the writing core 21 protruding from the front end of the base 30 is further reduced, and breakage of the writing core 21 is more effectively avoided.

Then, the writing pressure applied to the writing core 21 is weakened, and the core feeding unit 20 is pushed back forward with respect to the barrel 10 by the urging force of the first urging means 60. As a result, the state shown in FIG. 9A is restored. When the core feeding unit 20 retracts with respect to the barrel 10, the elastic body 62 retracts together with the slide cam 42 without being compressed.

When writing is completed, the core feeding unit 20 is put into a non-writing state as follows, and the base 30 is immersed in the shaft cylinder 10. That is, the pressing portion 40 is pushed forward with respect to the barrel 10. As a result, the slide cam 42 and the moving body 50 of the pressing portion 40 move forward relative to the axle cylinder 10 while compressing the second urging means 61. Due to this relative movement, the outer rib 72 of the cam follower 70 is displaced forward from the gap 12g between the inner ribs 12r. This allows the cam follower 70 to rotate relative to the barrel 10 about its axis L again. When the outer rib 72 is displaced forward from the gap 12g between the inner ribs 12r, the cam follower 70 is relatively rotated around the axis L of the barrel 10 by the cam side pressing portion 42p of the slide cam 42, and the cam follower 70 is rotated with respect to the axis L. The phase of the outer rib 72 and the phase of the gap 12g between the inner ribs 12r coincide with each other.

Then, the pressing force applied to the pressing portion 40 is weakened, and the moving body 50, the cam follower 70, and the pressing portion 40 are pressed against the shaft cylinder 10 by the urging force of the first urging means 60 and the second urging means 61. Start relative movement backwards. At this time, since the outer rib 72 of the cam follower 70 can enter into the gap 12g between the inner ribs 12r, the cam follower 70 and the moving body 50 with respect to the shaft cylinder 10 until the core feeding unit 20 is in the non-writing state. It is permissible to move backwards relative to each other. At this time, the moving body 50 is moved backward by the urging force of the second urging means 61, and the connector 29 and the core pipe 23 are moved rearward accordingly. Then, the retracting of the pressing portion 40 with respect to the shaft cylinder 10 is restricted by the operating body restricting portion 12c, and then the elastic body 62 is compressed between the operating body (pressing portion 40) and the core pipe 23. In this way, the operations for putting the core feeding unit 20 into the writing state are performed in the reverse order, so that the initial state (see FIG. 2) in which the base 30 is immersed in the barrel 10 is restored.

When the base 30 is immersed in the barrel 10, the base spring 33 gradually expands to move the base 30 forward relative to the chuck unit 28. Therefore, even if the writing core 21 protrudes to some extent from the front end of the mouthpiece 30 when writing is completed, at least a part of the protruding portion of the writing core 21 is immersed in the mouthpiece 30 due to this relative movement. To. This ensures that the writing core 21 is protected when the core feeding unit 20 is in the non-writing state. When the base 30 is exposed again from the front end 11a of the barrel 10, the base 30 is moved rearward with respect to the chuck unit 28 as described above, so that the front end of the writing core 21 protrudes again and presses. Writing can be resumed without pressing the unit 40.

Further, in the mechanical pencil 100 according to the present embodiment, the extension of the writing core 21 is restricted when the base 30 is immersed in the shaft cylinder 10. That is, as described above, in the mechanical pencil 100, when the lead feeding unit 20 is in the non-writing state, the contact portion 29p of the chuck unit 28 is in contact with the bulging portion 52 of the moving body 50 from behind. Therefore, when the pressing portion 40 is relatively moved forward with respect to the axle cylinder 10, the moving body 50 is relatively moved forward with respect to the axle cylinder 10 together with the chuck unit 28. At this time, the first urging means 60 and the chuck support unit 27 are also moved forward relative to the barrel 10 along with the moving body 50. That is, the chuck unit 28 and the chuck support unit 27 move forward relative to the shaft cylinder 10 at the same time. After all, when the core feeding unit 20 is in the non-writing state, the relative movement of the chuck unit 28 to the chuck support unit 27 in the forward direction is restricted, so that even if the pressing operation of the pressing portion 40 is performed, the writing core 21 remains. Not paid out.

By the way, in a conventional mechanical pencil (not shown) of a type that absorbs writing pressure by retracting the writing core 21 with respect to the barrel 10 and the base 30, in view of the operability (stroke amount) of the knock operation in the writing state. , The gap between the core pipe 23 and the operating body 40 is configured to be small. Therefore, for the following reason, the core feeding unit 20 could not be switched from the non-writing state to the writing state only by pressing the pressing portion 40 forward with respect to the barrel 10. That is, when the operating body 40 is pushed forward with respect to the barrel 10, the base 30, the operating body 40, the cam follower 70, the moving body 50, and the core feeding unit 20 are compressed while the second urging means 61 is compressed by the moving body 50. At the same time, it moves relative to the shaft cylinder 10 forward. In the process of this relative movement, the base 30 first comes into contact with the diameter-reduced portion 16 on the cylinder side of the cylinder 10, and further forward relative movement with respect to the cylinder 10 is restricted. When the operating body 40 is pushed further forward with respect to the shaft cylinder 10 from this state, the spring 33 for the base is compressed, the holding member 22 comes into contact with the pressing portion 15 of the shaft cylinder 10, and the holding member 22 is further pressed against the shaft cylinder 10. Relative movement forward is restricted.

Then, when the operating body 40 is pushed further forward with respect to the axle cylinder 10, the first urging means 60 and the second urging means 61 are compressed, and the moving body 50 and the chuck unit 28 are further forward with respect to the axle cylinder 10. Move relative to each other. During this relative movement, the chuck 24 advances relative to the chuck support unit 27, but the chuck 24 abuts on the chuck support unit 27 from the rear to be further forward relative to the chuck support unit 27. Movement is restricted. In other words, further relative movement of the chuck unit 28 and the operating body 40 with respect to the barrel 10 is restricted. At this time, the operating body 40 is positioned behind the predetermined position X. Therefore, by pushing the operating body 40 forward with respect to the shaft cylinder 10, the operating body 40 is not moved to the predetermined position X of the shaft cylinder 10, and the core feeding unit 20 is not switched from the non-writing state to the writing state. This also applies when the core feeding unit 20 is switched from the writing state to the non-writing state.

However, according to the present embodiment as described above, the elastic body 62 is arranged between the core feeding unit 20 and the pressing portion 40, more specifically, between the pressing portion 40 and the core pipe 23. As a result, the elastic body 62 is compressed and deformed, so that the pressing portion 40 is allowed to move to the front of the predetermined position X (see FIG. 1) with respect to the barrel 10. Further, when the core feeding unit 20 is in the writing state, the pressing portion 40 can move the core pipe 23 (chuck unit 28) forward relative to the chuck support unit 27 via the elastic body 62. After all, according to the present embodiment, the mechanical pencil that can perform the infestation operation of the lead feeding unit 20 and the sending operation (knocking operation) of the writing core 21 from the lead feeding unit 20 by a single operating body (pressing unit 40). A pencil can be provided.

Further, the core feeding unit 20 further has a return spring 26 that urges the chuck unit 28 rearward with a predetermined urging force with respect to the chuck support unit 27. Then, the elastic body 62 urges the chuck unit 28 from the rear with an urging force that exceeds the predetermined urging force of the return spring 26 by pushing the pressing portion 40 forward with respect to the barrel 10 by exceeding a predetermined amount. do. Therefore, by pushing the pressing portion 40 forward to some extent with respect to the shaft cylinder 10, the writing core 21 can be stably delivered from the core feeding unit 20.

The mechanical pencil 100 described above has a spring 33 for a base, which is an elastic body arranged between the core feeding unit 20 and the base 30 in a compressed state, and when the core feeding unit 20 is in the writing state, the base 30 is in a writing state. The shaft cylinder side reduced diameter portion 16 of the shaft cylinder 10 is pressed from behind. Therefore, even if the core feeding unit 20 including the writing core 21 is moved rearward with respect to the shaft cylinder 10 due to the writing pressure, the base 30 does not move relative to the shaft cylinder 10 in the axial direction da. As a result, when a strong writing pressure acts on the writing core 21, the length of the writing core 21 protruding from the front end of the base 30 is reduced, and the breakage of the writing core 21 can be effectively reduced.

Further, in the mechanical pencil 100, the shaft cylinder 10 moves the core feeding unit 20 rearward with respect to the shaft cylinder 10 according to the radial component of the shaft cylinder 10 of the writing pressure. Therefore, according to the present embodiment, the length of the writing core 21 protruding from the front end of the base 30 is reduced by the radial component of the shaft cylinder 10 of the writing pressure, and the writing core 21 is more effectively broken. Can be reduced.

10 Shaft cylinder 11 Front cylinder 11a Front end 12 Rear cylinder 12a Contacted part 12b Cam follower regulation part 12c Operation body regulation part 12g Gap 12r Inner rib 13 First receiving part 15 Pressing part 16 Shaft cylinder side reduced diameter part 20 Core feeding unit 21 Writing core 22 Holding member 22f Squeezing part 22t Tapered part 23 Core pipe 24 Chuck 25 Ring 26 Return spring 27 Chuck support unit 27a Second receiving part 27p Outer cylinder 27s Reduced diameter part 28 Chuck unit 29 Connector 29p Contact part 30 Mouthpiece 30a Opening Part 31 Guide pipe 32 Sleeve part 32c Small diameter part 32d Diameter expansion part 33 Spring for mouthpiece 40 Pressing part 41 Cover 42 Slide cam 42m Valley part 42p Cam side pressing part 42u Raised part 50 Moving body 51 Flange part 52 Protruding part 60 1st Biasing means 61 Second urging means 62 Elastic body 70 Cam follower 71 Cam follower body 72 Outer rib 72p Pressed part 80 Eraser 100 Sharp pencil

Claims (7)

With the shaft tube
A core feeding unit that is supported in the shaft cylinder so as to be relatively movable in the axial direction of the shaft cylinder and holds a writing core, and a core feeding unit.
An operating body that is exposed from the barrel and can move relative to the barrel in the axial direction.
An elastic body that urges the core feeding unit from the rear with respect to the operating body is provided.
When the operating body is pushed forward to a predetermined position with respect to the barrel, the core feeding unit is alternately held by the barrel in a relatively front writing state and a relatively rear non-writing state.
The core feeding unit is supported by a chuck support unit that can move relative to the shaft cylinder in the axial direction and a chuck support unit that can move relative to the chuck support unit in the axial direction. Has a chuck unit, which holds forward so that it can be sent out,
The elastic body is a mechanical pencil that urges the chuck unit from behind with respect to the operating body in the writing state. The chuck unit has a core pipe for accommodating the writing core.
The mechanical pencil according to claim 1, wherein the elastic body is arranged between the operating body and the core pipe. The core feeding unit further has a return spring that urges the chuck unit rearward with a predetermined urging force with respect to the chuck support unit.
The elastic body according to claim 1 urges the chuck unit from the rear with an urging force exceeding the predetermined urging force by pushing the operating body forward with respect to the shaft cylinder by an amount exceeding a predetermined amount. Or the mechanical pencil described in 2. The operating body is
A slide cam that moves relative to the axle in the axial direction,
A cam follower that is arranged inside the shaft cylinder and can move relative to the shaft cylinder in the axial direction and rotate relative to the shaft line.
A moving body that is arranged in front of the cam follower inside the barrel and can move relative to the barrel in the axial direction.
Further provided with an urging means for urging the chuck support unit forward with respect to the moving body.
The mechanical pencil according to any one of claims 1 to 3, wherein the operating body can press the chuck support unit from the rear via the cam follower, the moving body, and the urging means. Further provided with a second urging means for urging the moving body rearward with respect to the barrel.
The mechanical pencil according to claim 4, wherein in the written state, the initial load of the second urging means is larger than the initial load of the elastic body. A mouthpiece that is supported in front of the core feeding unit and has an opening through which the writing core held in the core feeding unit can pass.
An elastic body arranged in a compressed state between the core feeding unit and the base is further provided.
The mechanical pencil according to any one of claims 1 to 5, wherein the lead is pressed from the rear when the lead feeding unit is in the writing state. The mechanical pencil according to claim 6, wherein the mechanical pencil moves the lead feeding unit rearward with respect to the axial cylinder according to the radial component of the axial cylinder of the writing pressure.

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