Abstract:
A combined writing tool comprises a cylindrical casing; a push button extended from the top end of said cylindrical casing by force of a spring; a plurality of writing cartridges arranged in the casing and adapted to be alternatively extended from the bottom end of the casing through a small aperture formed therein; and a cam arranged in the casing and adapted to cause a tip of either one of the writing cartridges to be alternatively extended from and retracted in the casing through the small aperture in response to the pushing operation of the push button. The combined writing tool makes it possible to extend or retract either one of the writing cartridges from or into the casing through the small aperture only by a pushing operation of the push button. Thus easy operation can be obtained and unwanted extension of the writing cartridge can be prevented. In addition, it is possible to prevent an erroneous operation during an exchange of the writing cartridge, to enable an easy one-hand operation, to improve the reliability of the mechanism, and to reduce a size of the mechanism.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The present invention relates to a combined writing tool including writing cartridges such as a ballpoint pen, a mechanical pencil and the like. 
     2. Discussion of the Background 
     Conventional combined writing tools include, for example, a type in which the point of either one writing cartridge can be selectively extended from the casing (barrel) for use by a knocking operation while keeping the writing cartridge directed downward (see Japanese Utility Model Publication No. 3352/1993); and a type in which different kinds of pen shafts are slidably arranged within a casing in which a knocking shaft is also slidably arranged usually urged rearward, a select ring is arranged at a predetermined position on the knocking shaft such that it limits the axial movement of the pen shaft and selectively engages the rear end of the pen shaft positioned at a lower side within the casing due to the descendent motion by its own weight, and only the pen shaft positioned at the lower side within the casing can be selected and thrusted out from the casing by a simple knocking operation of the knocking shaft (see Japanese Laid-open Patent Publication No. 117797/1987). 
     However, either conventional combined writing tool mentioned above requires a user to firstly grip the writing tool horizontally so that the desired writing cartridge or pen shaft is positioned at the lower side within the casing and then to re-grip the writing tool for use, which is very cumbersome. 
     SUMMARY OF THE INVENTION 
     It is, therefore, an object of the present invention to provide for a combined writing tool in which one of a plurality of writing cartridges can be alternatively extended from and retracted in the casing through a small aperture formed therein by a simple knocking operation by one hand while holding the writing tool in any position without being limited to a horizontal position. 
     It is a further object of the present invention to provide for a combined writing tool having a simple structure for operating the writing cartridge and thus providing high reliability of the mechanism as well as a small size. 
     For achieving these objects, there is provided, according to the present invention, a combined writing tool comprising a cylindrical casing; a push button extended from the top end of the cylindrical casing by force of a spring; a plurality of writing cartridges arranged in the casing and adapted to be alternatively extended from the bottom end of the casing through a small aperture formed therein; and a cam arranged in the casing and adapted to cause a tip of either one of the writing cartridges to be alternatively extended from and retracted in the casing through the small aperture in response to the pushing operation of the push button. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     A more complete appreciation of the invention and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein: 
     FIG. 1 is a longitudinal section view showing a first embodiment of the present invention; 
     FIG. 2 is an exploded perspective view of the combined writing tool of FIG. 1; 
     FIG. 3 is a cross-sectional view taken along a line III--III of FIG. 2; 
     FIG. 4 is a cross-sectional view taken along a line IV--IV of FIG. 2; 
     FIG. 5 is a development of a main portion of FIG. 3; 
     FIG. 6 is a cross-sectional view taken along a line VI--VI of FIG. 5; 
     FIG. 7 is a perspective view of a push button used in the combined writing tool of the present invention; 
     FIG. 8 is a partially sectioned front elevational view of the push button of FIG. 7; 
     FIG. 9 is a bottom view of the push button of FIG. 7; 
     FIG. 10 is a cross-sectional view taken along a line X--X of FIG. 1; 
     FIG. 11 is a perspective view of a cam used in the combined writing tool of the present invention; 
     FIG. 12 is a front elevational view of the cam; 
     FIG. 13 is a partially sectioned plan view of the cam of FIG. 1; 
     FIG. 14 is an explanatory view showing the sequential motion of the cam caused by the push button; 
     FIG. 15 is an explanatory cross-sectional view taken along a line XV--XV of FIG. 14; 
     FIGS. 16A, 16B, 16C and 16D are explanatory views showing a mutual actuating relation between the cam and the writing cartridge; 
     FIG. 17 is a cross-sectional view showing a relation between the cam and the casing; 
     FIG. 18 is a cross-sectional view similar to FIG. 17 showing a relation between the cam and the casing; 
     FIG. 19 is a cross-sectional view showing a distal end portion of the casing and the mechanical pencil cartridge; 
     FIG. 20 is a cross-sectional view showing a second embodiment of the mechanical pencil cartridge; 
     FIG. 21 is a cross-sectional view showing a third embodiment of the mechanical pencil cartridge; 
     FIG. 22 is a cross-sectional view showing a fourth embodiment of the mechanical pencil cartridge; and 
     FIG. 23 is a cross-sectional view showing a fifth embodiment of the mechanical pencil cartridge. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views, a first embodiment of the present invention will be hereinafter described with reference to FIGS. 1 through 19. 
     A reference numeral 1 denotes a barrel or cylindrical casing comprising an upper casing la and a lower casing 1bwhich are releasably coupled together through a thread 1c. At the top of the upper casing 1a, there is formed a through-aperture 1d. As can be seen in FIGS. 3 through 6, there is formed, on the inner surface of the upper casing 1a at the upper portion thereof, a first ridge 2a and a second ridge 2c which are spaced apart from each other by a shallow first groove 2b. Bottom ends of the first ridge 2a and the adjacent first groove 2b are formed as a continuous first inclined surface 2d. A bottom end of the second ridge 2c is formed as a second inclined surface 2e. At a middle of the second ridge 2c there is formed a shoulder having a bottom end which is formed as a third inclined surface 2f. The shoulder is adjacent to a deep second groove 2g which is at the same level as the inner surface of the casing 1. 
     As shown in FIG. 5, these ridges 2a and 2c, the shoulder and its bottom end 2f, and the grooves 2b and 2g are arranged at a circumferential region of 180° on the inner surface of the casing 1 and form a first set of substantially saw-toothed tips 2. Similarly, a second set of substantially saw-toothed tips 2 is formed on the inner surface of the casing 1 at the remaining 180° circumferential region thereof. As clearly shown in FIG. 5, a difference in height of the first inclined surface 2d and the second inclined surface 2e of the first set of tips 2 is larger than a difference in height of the first inclined surface 2d&#39; and the second inclined surface 2e of the second set of tips 2. Thus the first inclined surface 2d is also hereinafter referred to as &#34;steeply inclined surface&#34; and the other first inclined surface 2d&#39; is referred to as &#34;gently inclined surface&#34;. As hereinafter described, a writing cartridge 6 of a mechanical pencil requires a long pushing stroke of a push button 3 for thrusting a lead, and on the contrary a writing cartridge 7 of a ballpoint pen does not require the lead thrusting operation and thus can be operated with a short pushing stroke. Accordingly the first set of tips 2 having a larger height difference therebetween is to be used for a writing cartridge 6 of a mechanical pencil and the second set of tips 2 having a smaller height difference therebetween is to be used for a writing cartridge 7 of a ballpoint pen. 
     A small aperture is 1e formed at the bottom end of the lower casing 1b and a step If is formed at a conjunction between the upper casing 1a and the lower casing 1b. 
     As shown in FIGS. 7 through 9, a push button 3 is formed as a cylindrical body 3a having a closed top surface suitable to be pushed by a finger. Four V-shaped recesses 3b are formed on the bottom end of the cylindrical body 3a and projections 3c are formed on the outer circumferential surface of the cylindrical body 3a. The cylindrical body 3a is inserted into the through-aperture 1d of the upper casing 1a and extended therefrom. As shown in FIG. 10, each projection 3c is received in the first and second grooves 2b and 2g and slidably engages therewith so as to be able to be reciprocally extended from and retracted in the upper casing 1a through through-aperture 1d without rotation. 
     As shown in FIGS. 11 through 13, a reference numeral 4 denotes a cam 4 and the upper half thereof is formed as a cylindrical body 4a which is adapted to be rotatably and slidably fitted into a central bore 3d of the push button 3. A trapezoidal projection 4b is formed on the outer circumferential surface of the cylindrical body 4a at a lower end thereof and another trapezoidal projection 4b&#39; having a step is also formed on the outer circumferential surface of the cylindrical body 4a at a position diametrically opposite to the trapezoidal projection 4b. 
     The cam 4 also has a pushing rod 4c projected from the bottom end of said cylindrical body 4a and having a semilunar pushing surface 4d at the bottom of the pushing rod 4c. A bore 4f having an upper wall 4e is also formed in the cylindrical body 4a. 
     As shown in FIG. 2, a cartridge holder 5 is formed, on its outer circumferential surface, with holding grooves 5a for holding writing cartridges 6 and 7 and with a shoulder 5b in which small apertures 5c for passages of the writing cartridges 6 and 7 are formed. The bottom surface of the shoulder 5b is urged against the step if of the casing 1 by a spring 8 which will be hereinafter described and is secured in place within the casing 1. 
     Integrally formed with the holder 5 is a rod 5d projecting from the upper surface thereof. The rod 5d is adapted to be loosely inserted into the bore 4f of the cylindrical cam 4 along the pushing rod 4c thereof. The spring 8 is arranged around the rod 5d such that the bottom end of the spring 8 contacts the top surface of the holder 5 and the top end of the spring 8 abuts against the upper wall 4e of the bore 4f and accordingly the push button 3 is extended from the casing 1 by the spring 8 via the cam 4. 
     The writing cartridge 6 is, for example, a mechanical pencil cartridge and the writing cartridge 7 is, for example, a ballpoint pen. The writing cartridges 6 and 7 are mounted on the holder 5 by using refill receptacles 6a and 7a respectively fitted on the top ends of the writing cartridges 6 and 7, by arranging coil springs 6b and 7b between the shoulder 5b of the holder 5 and the refill receptacles 6a and 7a and by engaging flanges 6c and 7c formed on the bottom end of the refill receptacles 6a and 7a with stoppers 5e projected from the top end of the holding grooves 5a in order to prevent the writing cartridges 6 and 7 from being pulled out from the holder 5. 
     The operation of the writing tool of the aforementioned embodiment will be hereinafter described with reference to FIGS. 14 through 19. 
     Let it be supposed that both the mechanical pencil cartridge 6 and the ballpoint pen cartridge 7 are now retracted in the casing 1. When pushing the push button 3 downward against the force of the coil spring 8 until it is stopped, the V-shaped recesses 3b at the bottom surface of the push button 3 is lowered from a position shown by a solid line in FIG. 14 to a position shown by a phantom line. Accompanying with this descendant motion of the push button 3, the trapezoidal projection 4b of the cam 4 is also lowered from a position &#34;A&#34; in FIG. 14 along an arrow &#34;J&#34; with keeping a condition shown in FIGS. 15 and 17. 
     During this time, the pushing surface 4d is positioned above the top end of the mechanical pencil cartridge 6 (FIG. 16A), pushes the cartridge 6 downward along with the downward movement of the cam 4 against the force of the coil spring 6b and extends the point of the cartridge 6 through the small aperture is of the lower casing 1b. 
     When the top end of the trapezoidal projection 4b of the cam 4 is passed over the bottom end of the saw-toothed tip of the first ridge 2a formed on the inner circumferential surface of the upper casing la, the trapezoidal projection 4b is freed from the restriction of the first ridge 2a, is permitted to slightly rotate along the inclined surface of the V-shaped recess 3b of the push button 3 as shown by an arrow &#34;K&#34; and arrives at a position &#34;B&#34; (FIG. 14) which is a bottom of the valley of the V-shaped recess 3b. 
     Releasing the pressure applied to the push button 3 at the position &#34;B&#34;, the V-shaped recesses 3b of the push button 3 is moved upward by the force of the spring 8 to the position shown by the solid line from the position shown by the phantom line. Accompanying with this ascendant motion of the push button 3, the trapezoidal projection 4b of the cam 4 also moves upward along an arrow &#34;L&#34; from a position &#34;B&#34; (FIG. 14), then slightly rotates along the steeply inclined first surface 2d as shown by an arrow &#34;M&#34; and stops at a position &#34;C&#34; which is a bottom of the steeply inclined surface 2d i.e. within the shallow groove 2b as shown FIGS. 14 and 15. 
     The cam 4 at this step is in a position as shown in FIGS. 16B and 18. That is, although the cam 4 has been rotated over 90° from the position &#34;A&#34; to the position &#34;C&#34; (FIG. 14), the semilunar pushing surface 4d of the cam 4 is still remained in a condition in which it suppresses the mechanical pencil cartridge 6 to keep the point of the cartridge 6 extended from the small aperture 1e of the casing 1. 
     Under such a condition, if repeating small knocking operation of the push button 3 as shown by an arrow &#34;N&#34; (FIG. 14) so that the top end of the trapezoidal projection 4b of the cam 4 is not moved downward beyond the bottom end of the second ridge 2e formed on the inner circumferential surface of the upper casing 1a, a shaft of the mechanical pencil cartridge 6 is also repeatingly reciprocated in a conventional manner as shown by a phantom line in FIG. 19 with a shoulder 6d of the cartridge 6 being abutted with the inner edge of the small aperture 1e of the lower casing 1b. Thus the lead in the cartridge 6 is thrusted out therefrom. 
     Then, if deeply pushing down the push button 3 until it is stopped as shown by an arrow &#34;O&#34; the top end of the trapezoidal projection 4b is moved downward beyond the bottom end of the second ridge 2c. Thus, the trapezoidal projection 4b is freed from the restriction of the ridge 2a, ridge 2a, is permitted to slightly rotate along the inclined surface of the V-shaped recess 3b of the push button 3 as shown by an arrow &#34;P&#34; and arrives at a position &#34;D&#34; (FIG. 14) which is a bottom of the valley of the V-shaped recess 3b. Then if releasing the pressure applied on the push button 3, the trapezoidal projection 4b of the cam 4 is moved upward by the force of the spring 8, and is slightly rotated along an arrow &#34;Q&#34;. During this time, the mechanical pencil cartridge 6 is also moved upward by the force of the spring 6b, being kept in contact with the semilunar pushing surface 4d and thus the point of the cartridge 6 is retracted in the casing 1. 
     Thereafter, the trapezoidal projection 4b is moved upward by the force of the spring 8 apart from the second inclined surface 2e as shown by an arrow &#34;R&#34; and is slightly rotated along the third inclined surface 2f. 
     Then, the trapezoidal projection 4b is moved upward by the force of the spring 8 apart from the third inclined surface 2f as shown by an arrow &#34;S&#34; and occupies a position &#34;E&#34; shown in FIGS. 14 and 15. 
     Accordingly, the semilunar surface 4d of the cam 4 is further rotated over 90° toward a position of FIG. 16C in which although the ballpoint pen cartridge 7 is retracted in the casing 1, it is possible to push the ballpoint pen cartridge 7 downward to extend it from the small aperture 1e of the casing 1 by pushing the push button 3 downward. 
     If pushing down the push button 3 against the force of the coil spring 8 and then releasing the pressure applied to the push button 3, the cam 4 is rotated over 90° from the position &#34;E&#34; shown in FIGS. 14 and 15 to a position &#34;G&#34; via a position &#34;F&#34; on the gentle inclined surface 2d&#39; and aperture 1e. 
     During this time, it is possible to shorten the thrusting stroke of the ballpoint pen cartridge, since the projection 4b&#39; is formed with a step and a lower inclined surface of an outward trapezoidal projection 4b&#39; having a low height is not contacted with the first steeply inclined surface 2d and the projection 4b is contacted only with the first gently inclined surface 2d&#39;. 
     That is, although a long thrusting stroke is required for the mechanical pencil 6 in order to thrust the lead, the ballpoint pen cartridge 7 not having any necessity of the lead thrusting operation does not require such a long stroke. This is a reason to shorten the thrusting stroke of the ballpoint pen cartridge. 
     Then, if pushing down the push button 3 until it is stopped and releasing the pressure applied to the push button 3, the projection 4b is rotated over 90° from the position &#34;G&#34; shown in FIGS. 14 and 15 to the initial position &#34;A&#34; via a position &#34;H&#34; and thus the ballpoint pen cartridge 7 is retracted in the casing 1. 
     Although it is described that the ridges and grooves are integrally formed on the inner circumferential of the upper casing 1a, it may be possible to form these ridges and grooves on a separate member and to unite the member to the upper casing 1a, for example, by adhesive. 
     A second embodiment of the present invention will be hereinafter described with reference to FIG. 20. 
     In FIG. 20, a reference numeral 9 denotes a lead of the mechanical pencil cartridge 6; similarly, a numeral 10 a first shaft; a numeral 11 a second shaft; a numeral 12 a third shaft; a numeral 13 a fourth shaft; a numeral 14 a chuck; a numeral 15 a presser ring; a numeral 16 a first return spring having a low spring constant (i.e. a first weak return spring); a numeral 17 a second return spring having a high spring constant (i.e. a second strong return spring); and a numeral 18 a lead guide. Although only one shaft (i.e. a third shaft 12) is used as a lead thrusting shaft and one return spring 16 is used as a return spring in the conventional mechanical pencil cartridge shown in FIG. 19, the cartridge of the second embodiment has a lead thrusting shaft comprising two stage shafts i.e. the third shaft 12 and the fourth shaft 13 and additionally the first weak return spring 16 and the second strong return spring 17. 
     During the lead thrusting operation, when softly pushing the push button 3, only the first weak return spring 16 is compressed without compressing the second strong spring 17; and the third shaft 12 pushes the chuck 14 and thrusts the lead 9 with holding the lead 9 until the chuck 14 is disengaged from the presser ring 15. If the thrusted amount of the lead is not sufficient, such soft pushing operation of the push button 3 should be repeated until a desired length of the lead is thrusted. 
     When a user wishes to contain the mechanical pencil cartridge 6 within the casing 1 or to change over from the mechanical pencil cartridge 6 to the ballpoint pen cartridge 7, the push button 3 should be strongly or deeply pushed. The strong pushing operation of the push button 3 compresses not only the first weak return spring 16 but the second strong return spring 17 and moves the projection 4b from the position &#34;C&#34; to the position &#34;D&#34; (FIG. 14) and then the projection is moved to the position &#34;E&#34; when the pressure applied to the push button 3 is released. 
     That is, the provision of the weak and strong return springs makes it possible to select either the lead thrusting operation or the cartridge changing over operation by pushing the push button 3 softly or deeply. 
     A third embodiment of the present invention will be hereinafter described with reference to FIG. 21. 
     In FIG. 21, a reference numeral 9 denotes a lead of the mechanical pencil cartridge 6; similarly, a numeral 10 a first shaft; a numeral 11 a second shaft; a numeral 12 a third shaft; a numeral 13 a fourth shaft; a numeral 14 a chuck; a numeral 15 a presser ring; a numeral 18 a lead guide; a numeral 19 a first return spring having a low spring constant; and a numeral 20 a second return spring having a high spring constant. 
     The third embodiment is different from the second embodiment in that the third shaft 12 of the second embodiment is omitted and thus the structure of the third embodiment is simplified and in that the first weak return spring 19 is fitted under an initially precompressed condition and the second strong return spring 20 is fitted under a noncompressed condition and thus the cartridge 6 can be returned by the weak return spring 19. 
     During the lead thrusting operation, when softly pushing the push button 3, only the first weak return spring 16 is compressed without compressing the second strong spring 17; and the fourth shaft 13 pushes the chuck 14 and thrusts the lead 9 with the chuck 14 holding the lead 9 until the chuck 14 is disengaged from the presser ring 15. Since the lead thrusting stroke is short, the amount of compression of the second strong return spring 20 is a little and thus the reaction force caused by the spring 20 is small. 
     If the thrusted amount of the lead is not sufficient, several times of the thrusting operation of the push button 3 should be repeated until a desired length of the lead is thrusted. 
     When a user wishes to contain the mechanical pencil cartridge 6 within the casing 1 or to change over from the mechanical pencil cartridge 6 to the ballpoint pen cartridge 7, the push button 3 should be strongly or deeply pushed. Of course, the strong pushing operation of the push button 3 causes a compression of the first weak return spring 19 and also causes a compression of the second strong return spring 20 with a long stroke generating a strong reaction force. This moves the projection 4b from the position &#34;C&#34; to the position &#34;D&#34; (FIG. 14) and then the projection is moved to the position &#34;E&#34; when the pressure applied to the push button 3 is released. 
     That is, the modification of the initially mounted condition of the weak and strong return springs makes it possible to select either the lead thrusting operation or the cartridge changing operation by pushing the push button 3 softly or deeply. 
     A fourth embodiment of the present invention will be hereinafter described with reference to FIG. 22. 
     In FIG. 22, a reference numeral 9 denotes a lead of the mechanical pencil cartridge 6; similarly, a numeral 10 a first shaft; a numeral 11 a second shaft; a numeral 13 a fourth shaft; a numeral 14 a chuck; a numeral 15 a presser ring; a numeral 18 a lead guide; a numeral 21 a third return coil spring; a numeral 22 an elastic ring of rubber or soft plastic; and a symbol &#34;Ga&#34; a distance required for lead thrusting. 
     The fourth embodiment is different from the third embodiment in that the second return spring 20 in the third embodiment is replaced with the elastic ring 22 and the distance &#34;Ga&#34; required for lead thrusting. 
     During the lead thrusting operation, when softly pushing the push button 3, the third return spring 21 is compressed by the amount of the distance &#34;Ga&#34;; the fourth shaft 13 pushes the chuck 14 and thrusts the lead 9 with holding the lead 9 until the chuck 14 is disengaged from the presser ring 15; during which the elastic ring 22 is not compressed at all. 
     If the thrusted amount of the lead is not sufficient, several times of the thrusting operation of the push button 3 should be repeated until a desired length of the lead is thrusted. 
     When a user wishes to contain the mechanical pencil cartridge 6 within the casing 1 or to change over from the mechanical pencil cartridge 6 to the ballpoint pen cartridge 7, the push button 3 should be strongly or deeply pushed. Of course, the strong pushing operation of the push button 3 causes a compression of the third return spring 21; the distance &#34;Ga&#34; is eliminated; the elastic ring 22 is also compressed and causes a strong reaction force which moves the projection 4b from the position &#34;C&#34; to the position &#34;D&#34; (FIG. 14); and then the projection is moved to the position &#34;E&#34; when the pressure applied to the push button 3 is released. 
     That is, the provision of the elastic ring 22 and the distance &#34;Ga&#34; required for lead thrusting makes the difference in pressure feeling between the strong and soft depressions clear and also makes the lead thrusting operation and the cartridge changing over operation sure. 
     A fifth embodiment of the present invention will be hereinafter described with reference to FIG. 23. 
     In FIG. 23, a reference numeral 9 denotes a lead of the mechanical pencil cartridge 6; similarly, a numeral 10 a first shaft; a numeral 11 a second shaft; a numeral 13 a fourth shaft; a numeral 14 a chuck; a numeral 15 a presser ring; a numeral 18 a lead guide; a numeral 23 a fourth return spring for a distal shaft; a symbol &#34;Ga&#34; a distance required for lead thrusting; a numeral 24 a fifth return spring for a proximal shaft shortened by an amount of the distance &#34;Ga&#34;; and a numeral 25 a projection for anchoring the fifth return spring 24. The projection 25 can be omitted by slightly reducing the inner diameter of the top of the fifth spring 24. 
     The fifth embodiment is different from the third embodiment in that the second return spring 20 in the third embodiment is replaced with the fifth spring 24 for the proximal shaft having a spring length shortened by the distance &#34;Ga&#34; required for lead thrusting and in that the top end of the fifth spring 24 is secured to the fourth shaft 13 by adhesive or welding. 
     During the lead thrusting operation, when softly pushing the push button 3, the fourth return spring 23 for the distal shaft is compressed by the amount of the distance &#34;Ga&#34;; the fourth shaft 13 pushes the chuck 14 and thrusts the lead 9 with the chuck 14 holding the lead 9 until the chuck 14 is disengaged from the presser ring 15; during which the fifth return spring 24 is not compressed at all. 
     If the thrusted amount of the lead is not sufficient, several times of the thrusting operation of the push button 3 should be repeated until a desired length of the lead is thrusted. 
     When a user wishes to contain the mechanical pencil cartridge 6 within the casing 1 or to change over from the mechanical pencil cartridge 6 to the ballpoint pen cartridge 7, the push button 3 should be strongly or deeply pushed. Of course, the strong pushing operation of the push button 3 causes a compression of the fourth return spring 23; the distance &#34;Ga&#34; is eliminated; the fifth return spring 24 for the proximal shaft shortened by the distance &#34;Ga&#34; 22 is also compressed and causes a strong reaction force which moves the projection 4b from the position &#34;C&#34; to the position &#34;D&#34; (FIG. 14); and then the projection 4b is moved upward to the position &#34;E&#34; when the pressure applied to the push button 3 is released. 
     That is, the provision of the distance &#34;Ga&#34; required for lead thrusting makes the difference in pressure between the strong and soft depressions clear and also makes the lead thrusting operation and the cartridge changing over operation sure. 
     In addition, no noise is caused during use or carry of the writing tool since the top end of the fifth return spring 24 is secured to the shaft of the cartridge. 
     Although the combination of two cartridges of the ballpoint pen and the mechanical pencil has been shown in the illustrated embodiments, it will be appreciated that the present invention can be applied to a combination of three or four cartridges of the ballpoint pen mechanical pencil or felt-tip pen. 
     Such a combination can be attained by increasing the number of the saw-toothed tips 2 and the V-shaped recesses 3b and by reducing the width of the pushing surface 4d. 
     Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein.