法国专利FR3028629A1 MANUAL DEVICE COMPRISING AN INVERTER CAP FOR A CAPACITIVE SCREEN

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专利摘要:
Manual device (10) comprising a body (12) and at least one reversible tip (14) mounted on the body (12), the reversible tip (14) comprising a first head (16), a second head (18) opposite at the first head (16), a conductive outer sleeve (19), an inner part (21) disposed inside the socket (19), the first head (16) comprising a first pad (20) for a capacitive screen , the first head (16) and the second head (18) being locked between the inner part (21) and the sleeve (19) while the inner part (21) is assembled by snapping with the sleeve (19), the first head (16) and the second head (18) protruding from the sleeve (19).
公开号:FR3028629A1
申请号:FR1461209
申请日:2014-11-19
公开日:2016-05-20
发明作者:Samuel Malinverni；Arnaud Bez
申请人:BIC SA；
IPC主号:

专利说明:

[0001] FIELD OF THE INVENTION The invention relates to a manual device comprising a cap for a capacitive screen. Such a capacitive screen tip is capable of interfering / interacting with the capacitive screen so that its presence at a given point of said capacitive screen is detectable by the latter. For example, the capacitive screen is a multimedia tablet or mobile phone screen. STATE OF THE PRIOR ART To use a capacitive screen, a stylus for a capacitive screen 10 is often necessary. Nevertheless, such a stylus is a specific instrument having a single head for a predetermined capacitive screen, and is expensive. PRESENTATION OF THE INVENTION The present disclosure relates to a manual device.
[0002] One embodiment relates to a manual device comprising a body, said manual device comprising at least one reversible tip mounted on the body, the reversible tip comprising a first head and a second head opposite to the first head, the tip being configured to be mounted on the body in a first position where the first head protrudes from the body while the second head is retracted into the body or into a second position in which the second head protrudes from the body while the first The head is retracted into the interior of the body, the tip comprising a conductive outer sleeve and an inner part disposed inside the socket while the first head comprises a first capacitive screen pad, the first head and the second one. head being locked between the inner part and the socket while the inner part is assembled by snapping with the doui lle, the first head and the second head protruding from the socket.
[0003] Subsequently, unless otherwise indicated, the term "conductor" or "conductor" is understood to mean "electric power conductor". Conversely, thereafter, and unless otherwise indicated, by - the term "insulating" or "insulating" is understood "insulating / insulating vis-à-vis the electric current".
[0004] Subsequently, and unless otherwise indicated by "bushing" is meant "conductive outer bushing".
[0005] It is understood that when the tip is mounted on the body in the first position, the first head is usable while when the nozzle is mounted on the body in the second position is the second head that is usable. When a head is usable, the other head 5 is disposed in the body. In other words, the body is at least partially hollow and configured to receive the first or the second head respectively in the second or first position of the mouthpiece. Thus, the body can "tidy up" a head when the other head is usable. The body serves to protect said head thus stored. For the purposes of the invention, the term "body" generally refers to all of the elements that are not part of the mouthpiece. The body forms all or part of a gripping part of the manual device. The tip is configured so that the user can mount it on the body in the first or second position. Thus, one can, according to his choice, mount the tip on the body in the first or the second position, and use the manual device by manipulating the body to use the projecting head of the body thus selected. The tip having two heads, the first head comprising a capacitive screen pad, one can use the manual device with a capacitive screen with the first head, while the second head can use the manual device for example for another use . For example, the second head may include an eraser to erase a writing, or a friction body to change color, generally to make invisible, a writing based on thermochromic ink. We understand that the pad (English "pad") is a termination configured to interact with a capacitive screen. The pad is electrically conductive (thanks to its material of manufacture, or thanks to a coating). The shape, the flexibility / rigidity and the material / materials of a pad are not limited insofar as this pad is capable of interacting with a capacitive screen, that is to say that its contact with a capacitive screen is detectable by the latter. Thus, the manual device is more versatile, or less specific, than the known devices of the state of the art. Such a manual device forms a "two in one" device, presenting two "tools" in a single device. The overall cost of such a device is 3028629 less than the cumulative cost of two separate conventional devices each forming a "tool" equivalent to one of the heads. Furthermore, it is understood that the sleeve has an internal housing receiving at least partly the first head and the second head.
[0006] The sleeve being conductive, for example of metal, plastic charged with carbon black or metal fibers, plastic covered with a conductive coating such as paint, varnish or a metal layer deposited by vacuum metallization, can easily establish an electrical contact on the one hand between the first head / first pad 10 and / or the second head and the socket, and secondly between the socket and at least a part of the body. It is also understood that snap-fastening (or clipping) is a method of joining two parts by engagement and elastic deformation (generally local deformation, for example of a tongue, or by deformation of all the parts involved in the assembly). When both parts are engaged in the latching position, the parts have generally returned to their original shape and no longer exhibit elastic deformation (or less elastic deformation). When the two parts are engaged with each other in the latching position, they cooperate with each other so as to oppose, or even block, the relative movements of said parts in the direction of the clearance (meaning opposite to the meaning of the commitment). In the latching position, the two parts can also cooperate to oppose or even block their relative movements in the direction of the prolongation of engagement, beyond the latching position. Of course the snap-fitting assembly can be irreversible, that is to say that once the two parts are snapped it is no longer possible to separate them from one another, or reversible, it that is, the parts can be assembled or separated at will. An irreversible snap facilitates assembly during manufacture while being particularly reliable and robust to use, while a reversible assembly allows a great flexibility of use, in particular for the replacement or verification of parts during the life of the device.
[0007] A snap joint has the advantage of being easy to implement, reliable and inexpensive. For example, to snap the socket with the inner part, the manual device comprises a first latching system having at least one first relief on the inner surface of the socket and at least one second relief formed on the outer surface of the part internal and configured to cooperate with the first relief by form complementarity. It is therefore understood that the inner part is snapped with the socket while blocking the first head and the second head vis-à-vis the socket. In other words, the heads are clamped between the inner part and the socket. Of course, it is understood that the blocking is operated according to at least one degree of freedom (i.e. in translation and / or rotation), but not necessarily in all degrees of freedom. For example, the heads 15 can be locked according to the three degrees of freedom in translation but remain free according to a degree of freedom in rotation. With this assembly structure, when assembling the inner part with the sleeve, it blocks at the same time the first head and the second head between the sleeve and the inner part.
[0008] Such an assembly structure has a relatively small number of parts while being reliable and robust, which makes it particularly well suited for large scale and low cost industrial production. In some embodiments, the second head includes a second capacitive screen pad. It is understood that the second pad is distinct from the first pad. In some embodiments, the first pad is different from the second pad. For example, the first and second pads are different in their sizes and / or contact surfaces with a capacitive screen, and / or shapes, and / or materials, and / or rigidities, etc. The manual device thus has two separate pads for using different capacitive screens. The versatility of the manual device for using the capacitive screens is thus increased. For example, the contact surface of the first and second pads are adapted to capacitive screens having different degrees of accuracy.
[0009] For example, the pad having the largest contact area with a capacitive screen of a multimedia tablet is used, whereas the pad having the smallest contact area with a capacitive screen of a mobile phone is used. a multimedia tablet 5 is generally less accurate than a mobile phone screen. In some embodiments, the first pad is in electrical contact with at least a portion of the body when the tip is mounted in the first position. In some embodiments, the second pad is in electrical contact with at least a portion of the body when the nozzle is mounted in the second position. By "at least a part of the body" means any part of the manual device that is not part of the mouthpiece. For example, this part is an external part of the manual device, for example a gripping part, or an inner part of the manual device. The electrical contact between the first / second pad and the body, or part of the body, may be direct or indirect. Thus, according to one variant, the first / second pad directly contacts a part of the body. According to another variant, the first / second bushing is in electrical contact with the body or a body part via an intermediate piece, for example via the inner part and / or the bushing. Such electrical contact makes it possible to ensure that a capacitive screen is sensitive to the presence of the first / second pad when the user manipulates the manual device with his hand and approaches said pad of the capacitive screen. In some embodiments, the body has at least one conductive portion, the first / second pad being in electrical contact with at least the conductive portion of the body when the tip is mounted in the first / second position.
[0010] According to one variant, the conductive part is a gripping part of the body. According to another variant, the conductive part is an internal part of the body (i.e. which is not intended to be directly held by the hand of a user), for example an internal conductive rod. According to yet another variant, the body has an inner conductive portion and a conductive gripping portion.
[0011] In some embodiments, the manual device includes a latching system (or second latching system) for mounting the bit in the first position and / or in the second position, said latching system having the less a first relief formed on the socket and at least a second relief formed on the body and configured to cooperate with the first relief by form complementarity, the socket being in electrical contact with the body at least through the system of snap when the tip is in the first position and / or in the second position.
[0012] It will be understood that the snap-in system makes it possible to mount the mouthpiece in the first position only or in the second position only, or in the first and in the second position. Of course, the snap-fit system between the bushing and the body is a reversible snap-in system making it possible to change the position of the nozzle at will. Such a snap system allows a particularly easy and user-friendly use of the manual device while allowing a connection between the socket and the body reliable, robust and low cost of manufacture. In some embodiments, the sleeve extends in an axial direction, and one of the first head and the second head axially cooperate with a first shoulder axially defining a first axial sleeve portion and a second axial sleeve portion, said head extending into the first axial sleeve portion projecting from the socket.
[0013] The sleeve has, in the axial direction, a first portion and a second portion. The first and second portions of the sleeve are separated by a first shoulder. One of the two heads is mounted by fitting into the sleeve, and more particularly into the first axial sleeve portion, and cooperates with the first shoulder, for example in abutment or in abutment. Such an arrangement makes it easy to establish an electrical contact between said head and the socket. In some embodiments, said head comprises a shoulder-forming base cooperating with the first shoulder so as to establish an electrical contact between said head and the socket.
[0014] The base comprises the portion of said head which is configured to cooperate with the first shoulder. For example, the base is conductive and cooperates in support with the first shoulder. Since the socket is also conductive, the electrical contact is thus established. According to a variant, the base is not conductive but has at least one contact portion that cooperates with the first shoulder, or a complementary contact portion 5 of the first shoulder. According to another variant, the base is conductive and has at least one contact portion. In some embodiments, the base is gripped axially between the first shoulder and the inner part.
[0015] Such an assembly makes it possible to ensure a simple and effective mechanical assembly of the first head with the socket while ensuring electrical contact. In some embodiments, the other one of the first head and the second head comprises a capacitive screen pad, which pad is mounted on the inner piece so as to be in electrical contact with the socket. In the case where said other head is the first head, then said pad is the first pad. In the case where said other head is the second head, then said pad is the second pad. The contact between the pad and the socket may be direct, the pad physically touching the socket, or indirect, for example through the inner part or another part. When the pad is in direct contact with the socket, it limits the number of contact between separate parts, which reduces the risk of malfunction.
[0016] In some embodiments, the socket comprises a skirt, the pad of said other head being at least partially fitted in the skirt and in contact with the skirt. It is understood that the pad is fitted into the skirt while projecting from the skirt to be able to use said pad. The pad is in contact with the socket via the skirt of the socket. In some embodiments, the skirt forms a single piece with the socket. According to a variant, at least a portion of the pad is clamped between the skirt and the inner piece, whereby direct contact between the skirt and the pad is ensured.
[0017] In some embodiments, the sleeve and the inner piece extend in an axial direction, at least one axial end of the inner piece being inserted into a head. It will be understood that the inner part comprises two opposite axial ends in the axial direction, one axial end being insertable into a single head, or each axial end being inserted into a head. The insertion of an axial end of the inner part into a head facilitates the locking of said head between the inner part and the socket. This also makes it possible to adjust the characteristics of the head, for example in the case where the head comprises a pad, this makes it possible to adjust its rigidity and / or to limit the amplitude of its deformation during its use on a capacitive screen . In some embodiments, said axial end cooperates in form complementarity with all or part of the head.
[0018] This optimizes the cooperation between the head and the inner part. In some embodiments, the body extends in an axial direction and has a first distal end on which the tip is mounted.
[0019] It is understood that when the bushing extends in an axial direction, the axial direction of the body and the axial direction of the nozzle are parallel. Preferably, the body and the sleeve are coaxial in the axial direction. A longitudinal body (i.e. extending in an axial direction) has an advantageous ergonomics for manipulating a cap for capacitive screen. In some embodiments, the body has a second distal end opposite the first distal end, the second distal end having a writing tip or the like. For example, the writing tip or the like is a ballpoint pen tip, a felt pen tip, a pencil lead tip, a rigid resistive screen tip, a punch tip, or any other manual device tip . Thus, the manual device forms a "three in one" device, the first end carrying the reversible tip while the second end has the writing tip or the like.
[0020] According to yet another example, another reversible tip according to the invention is mounted on the second distal end. The manual device thus forms a "four in one" device. BRIEF DESCRIPTION OF THE DRAWINGS The invention and its advantages will be better understood on reading the detailed description given below of various embodiments of the invention given as non-limiting examples. This description refers to the pages of appended figures, in which: FIG. 1 represents a first embodiment of a manual device viewed in perspective, the endpiece being mounted on the body in a first position, FIG. represents the manual device of FIG. 2, the nozzle being mounted on the body in a second position; FIG. 3 represents a detailed view of the distal end of the manual device carrying the nozzle, the tip being disconnected, FIG. 4 shows the same view as FIG. 1, in which the tip is shown exploded, FIG. 5 shows the same view as FIG. 2, in which the tip is shown in exploded form, FIG. in partial axial section of the manual device, the nozzle being mounted in the first position, and - Figure 7 shows a partial axial sectional view of the manual device, the nozzle being mounted in the second position. DETAILED DESCRIPTION OF EMBODIMENTS An embodiment of a hand-held device is described with reference to FIGS. 1 to 7. In FIGS. 1 and 6 the tip is mounted in the first position while in FIGS. the tip is mounted in the second position. However, the numbering of a mounting position of the mouthpiece as the first or second position is quite arbitrary. Thus, one could consider that Figures 1 and 6 show the tip in the second position while Figures 2 and 7 show the tip in the first position. In the latter case, the numbering of heads, bearings, etc. would also be reversed with respect to the following description.
[0021] The manual device 10 comprises a body 12 extending longitudinally in an axial direction X, the body 12 having a first distal end 12a and a second distal end 12b opposite in the axial direction X at the first distal end 12a. The first distal end 12a is equipped with an invertable tip 14 while the second distal end 12b is equipped with a writing tip, in this example a ballpoint pen. Of course, according to a variant, the writing tip may be a point of mine gate, felt, or equivalent. The tip may be fixed, or retractable by any means known to those skilled in the art. The reversible tip 14 extends longitudinally in the axial direction X and comprises a first head 16 and a second head 18 opposite in the axial direction X to the first head 16. The tip 14 comprises a conductive outer sleeve 19, in which which the first head 16 and the second head 18 are fitted. In this example, the bushing 19 is made of plastic, and more particularly ABS (or Acrylonitrile Butadiene Styrene), loaded with carbon black. In the first position of the tip 14, in Figures 1 and 6, the first head 16 projects from the body 12 while the second head 18 is retracted into the body 12. Conversely, in the second position of the tip 14 in Figures 2 and 7, the second head 18 projects from the body 12 while the first head 16 is retracted into the body 12. The first head 16 comprises a first pad 20 for a capacitive screen while the second head 18 comprises a second pad 22 for capacitive screen. The first pad 20 and the second pad 22 are made of conductive material, in this example silicone filled with carbon black. According to a variant, the second head comprises, for example, a rubber or a friction body rather than a second cushion, said rubber or friction body being able to have the same shape as the second cushion 22. The first cushion 20 is mounted on an inner part 21. The first pad 20 has a distal end 20a for cooperation with a capacitive screen, this end 20a having in this example a substantially hemispherical hollow shape (see Figure 6). The end 20a is disposed in the extension of a fastening portion 20b of substantially hollow cylindrical shape. This fixing portion 20b 35 has a flange 20c disposed in the vicinity of the free end of the fixing portion 20b, inside the fixing portion 20b. This collar 20c cooperates by snapping with an annular groove 21c formed in a first axial end 21a of the inner part 21. Thus, the axial end 21a of the inner part is inserted into the first head 16, in this example in the first bearing 20. This axial end 21a cooperates in complementary form with a part of the inside of the first bearing 20, in this example with the inside of the fixing portion 20b of the first bearing 20. distal end 22a of cooperation with a capacitive screen, this end 22a having 10 in this example a substantially hemispherical hollow shape (see Figure 7). The end 22a is disposed in the extension of a fastening portion 22b of substantially hollow cylindrical shape. This fixing portion 22b extends axially between the end 22a and a base 22c. The base 22c forms an annular flange projecting radially outwardly relative to the fixing portion 22b. The face of the flange of the base 22c disposed on the side of the fixing portion 22b forms a shoulder 22d. Moreover, the second axial end 21b of the inner part 21 (which is opposite in the axial direction to the first axial end 21a) is inserted in the second head 18, in this example in the second bearing 22. This axial end 21b cooperates formally with the inside of the second bearing 22, in this example with the inside of the fastening portion 22b and the end 22a of the second bearing 22. The sleeve 19 extends in the axial direction X and in this example, a symmetry of revolution about the X axis. The sleeve 19 has a first axial sleeve portion 19a and a second axial sleeve portion 19b. A first shoulder 19c axially delimits the first portion 19a and the second portion 19b. The first and second axial portions 19a and 19b are adjacent. The inner diameter of the first axial portion 19a is smaller than the inner diameter of the second axial portion 19b. In contrast to the first axial portion 19a in the axial direction X, the sleeve 19 has a skirt 19d adjacent to the second axial portion 19b. Thus, in the axial direction X, the sleeve has successively the first axial portion 19a, the second axial portion 19b and the skirt 19d. The inner diameter of the second portion 19b is smaller than the inner diameter of the skirt 19d. The sleeve 19 has a first relief, in this example an annular groove 23a formed in the inner surface of the second portion 19b. This first relief 23a forms with a second relief of the inner part 21, in this example an annular rib 23b, a latching system 23 (or first latching system) for snap-fitting of the sleeve 19 with the inner part 21 The annular rib 23b and the annular groove 23a cooperate by way of complementarity of shape. Of course, according to a variant, the rib can be formed on the inner surface of the sleeve while the groove is formed in the surface of the inner part. Thus, the latching system 23, allows a snap-fitting assembly of the inner part 21 and the socket 19.
[0022] The second head 18 extends in the first axial sleeve portion 19a and cooperates axially with the first shoulder 19c (see FIG. 7). The second head 18 projects from the first axial sleeve portion 19a. Notably, in this example, the base 22c, and more particularly the shoulder 22d, co-operates axially with the first shoulder 19c of the bushing 19. The second bushing 22, and more particularly the fastening portion 22b, extends axially in the first axial portion 19a while the distal end 22a of the second bearing 22 protrudes from the first axial portion 19a, and therefore from the sleeve 19.
[0023] The inner part 21 and the sleeve 19 enclose the base 22c in the axial direction X. The inner part 21 is snapped with the sleeve 19, it maintains said base 22c bearing against the first shoulder 19c. In other words, the second head 18, and more particularly in this example the second bushing 22, is blocked between the bushing 19 and the inner part 21. The second bushing 22 and the bushing 19 are made of conducting materials, thanks to this assembly there is electrical contact between the sleeve 19 and the second bearing 22 at least by the cooperation in support between the shoulder 22d and the first shoulder 19c.
[0024] The first pad 20 is fixed to the inner piece 21 via the flange 20c engaged in the groove 21c (see Figure 3028629 13 6). The first axial end 21a of the inner part 21 having this groove 21c extends partly into the skirt 19d of the sleeve 19 so that the fixing portion 20b of the first bearing 20 is clamped radially between the inner part 21 and the skirt 19d. Thus, the flange 20c is locked inside the groove 21c, which locks the mounting of the first bushing 20 on the inner part 21. In other words, the first head 16, and more particularly in this example the first bushing 20, is blocked between the sleeve 19 and the inner part 21. Of course, the distal end 20a of the first bearing protrudes axially from the skirt 19c, and therefore the sleeve 19. The skirt 19d is in contact with the fixing portion 20b of the first pad 20. The socket 19 and the first pad 20 being conductive, thanks to this arrangement there is electrical contact between the socket 19 and the first pad 20.
[0025] In addition, to improve the retention of the bearings 20 and 22, the inner part 21 has portions 21e, in this example three portions 21e spaced in the axial direction X, whose outer diameter is substantially equal to the inner diameter of the corresponding portions of the sleeve 19 (ie the diameters are such that they allow a fitting, these diameters being equal to plus or minus 1 ° / 0 to 3%). In other words, the portions 21e have a diameter adjusted to the corresponding portions of the sleeve 19. This allows a better locking of the bearings and a more robust snap-fitting assembly. Thus, in general, the inner part 21 fully or partially cooperates by fit-fit fitting with the sleeve 19. In this example, the inner part 21 is made of insulating material. According to a variant, this inner part 21 is made of conductive material and also participates in the electrical contact between the first and second pads 20 and 22 and the socket 19, although this is not its main function. The sleeve 19 has on its outer periphery an annular rib 24a while the body 12 has on its inner surface an annular groove 24b. This rib and this annular groove 24a and 24b 35 form examples of first and second reliefs of a latching system 24 between the endpiece 14 and the body 12 (or second latching system 3028629 14). Of course, according to one embodiment, the groove may be formed in the outer surface of the sleeve while the rib is formed on the inner surface of the body. The rib 24a and the groove 24b do not cooperate complementarily shape, and ensure when the nozzle 24 5 is snapped with the body 12 the electrical contact between the body 12 and the sleeve 14. Thus, in this example the first and second pads 20 and 22 are directly in contact with the sleeve 19, which itself is in direct contact with the body 12, the groove and the rib 24a and 24b of the second latching system 24 ensuring by their cooperation a contact between the endpiece 14 and the body 12, so that the pads 20 and 22 are in electrical contact with the body 12. In this example, the body 12 is made of conductive material, for example plastic, and more particularly ABS (or Acrylonitrile Butadiene Styrene ), loaded with carbon black, so that when the user manipulates the body 12, his fingers are in electrical contact with the pads 20 and 22, which allows the pads to interact with a capacitive screen. To improve the maintenance of the tip 14 within the body 12, the tip 14 is housed in part in a first axial portion 12c of the body and partly in a second axial portion 12d of the body. The first axial portion 12c comprises the groove 24b of the latching system 24. The second axial portion 12d is adjacent to the first axial portion 12c, is disposed on the side of the second distal end 12b of the body 12 relative to the first portion 12c, and has an internal diameter smaller than the inner diameter of the first axial portion 12c. The internal diameter of the second axial portion 12d is adjusted at least in part to an outer diameter of the nozzle 14, in this example of the sleeve 19. The second axial portion 12d thus forms a displacement limiter in a direction perpendicular to the axial direction X. This allows a better maintenance 30 of the tip 14 in the body 12 and a more robust snap-fitting assembly. Although the present invention has been described with reference to specific exemplary embodiments, it is obvious that modifications and changes can be made to these examples without departing from the general scope of the invention as defined by the claims. . In particular, individual features of the various embodiments illustrated / mentioned can be combined in additional embodiments. Therefore, the description and drawings should be considered in an illustrative rather than restrictive sense. 5

权利要求:
Claims (15)
[0001]
REVENDICATIONS1. Manual device (10) comprising a body (12), said device being characterized in that it comprises at least one reversible tip (14) mounted on the body (12), the reversible tip (14) comprising a first head ( 16) and a second head (18) opposite the first head (16), the tip (14) being configured to be mounted on the body (12) in a first position where the first head (16) projects from the body (12) while the second head (18) is retracted within the body (12) or in a second position in which the second head (18) projects from the body (12) while the first head (16) is retracted inside the body (12), the tip (14) comprising a conductive outer sleeve (19) and an inner piece (21) disposed inside the sleeve (19) while the first head (21) 16) comprises a first pad (20) for capacitive screen, the first head (16) and the second head (18) being blocked e between the inner part (21) and the socket (19) while the inner part (21) is snap-fitted with the socket (19), the first head (16) and the second head (18) protruding from the socket (19).
[0002]
2. Device (10) according to claim 1, wherein the second head (18) comprises a second pad (22) for capacitive screen.
[0003]
3. Device (10) according to claim 2, wherein the first pad (18) is different from the second pad (22).
[0004]
4. Device (10) according to any one of claims 1 to 3, wherein the first pad (20) is in electrical contact with at least a portion of the body (12) when the tip (14) is mounted in the first position.
[0005]
5. Device (10) according to claim 2 and any one of claims 1 to 4, wherein the second pad (22) is in electrical contact with at least a portion of the body (12) when the tip (14). is mounted in the second position.
[0006]
The manual device (10) according to any one of claims 1 to 5, comprising a latching system (24) for mounting the bit (14) in the first position and / or in the second position. , said latching system (24) having at least one first relief (24a) formed on the sleeve and at least one second relief (24b) formed on the body (12) and configured to cooperate with the first relief (24a) by complementary form, the socket 5 (19) being in electrical contact with the body (12) at least through the latching system (24) when the tip (14) is in the first position and / or in the second position.
[0007]
The manual device (10) according to any one of claims 1 to 6, wherein the sleeve (19) extends in an axial direction (X), and wherein a head of the first head (16) and the second head (18) cooperates axially with a first shoulder (19c) defining axially a first axial sleeve portion (19a) and a second axial sleeve portion (19b), said head extending in the first axial sleeve portion 15 (19a) protruding from the socket (19).
[0008]
8. A manual device (10) according to claim 7, wherein said head comprises a shoulder (22c) forming a shoulder (22d) cooperating with the first shoulder (19c) so as to establish an electrical contact between said head and the socket (19). ). 20
[0009]
9. A manual device (10) according to claim 8, wherein the base (22c) is gripped axially between the first shoulder (19c) and the inner part (21).
[0010]
10. A manual device (10) according to any one of claims 7 to 9, wherein the other one of the first head (16) and the second head (18) comprises a pad (22) for capacitive screen, said pad (20) being mounted on the inner piece (21) so as to be in electrical contact with the socket (19).
[0011]
11. Device (10) according to claim 10, wherein the sleeve (19) comprises a skirt (19d), the pad (20) of said other head 30 being at least partially fitted in the skirt (19d) and in contact with the skirt (19d).
[0012]
12. Manual device according to any one of claims 1 to 11, wherein the sleeve (19) and the inner part (21) extend in an axial direction (X), at least one axial end (21a, 21b). 35 of the inner piece (21) being inserted into a head (16, 18). 302 862 9 18
[0013]
13. Manual device according to claim 12, wherein said axial end (21a, 21b) cooperates by complementary form with all or part of the head (16, 18).
[0014]
14.The device (10) according to any one of claims 1 to 13, wherein the body (12) extends in an axial direction (X) and has a first distal end (12a) on which the tip ( 14) is mounted.
[0015]
The device (10) of claim 14, wherein the body (12) has a second distal end (12b) opposite the first distal end (12a), the second distal end (12b) having a writing tip or equivalent. 15

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EP2705959B1|2018-04-18|Writing instrument having simplified assembly

WO2019058155A1|2019-03-28|Flexible tip for a writing instrument for digital handwriting recognition

FR2846911A1|2004-05-14|Writing/marking instrument angle regulating device for children, has two adjustable parts rotating around axis of rotation, and transverse fixture tilted to non-zero angle compared to plane perpendicular to rotation of parts

同族专利:

公开号 | 公开日

FR3028629B1|2017-01-27|

US20170329422A1|2017-11-16|

US10372240B2|2019-08-06|

JP2017534998A|2017-11-24|

EP3221154B1|2021-10-27|

CN107000466A|2017-08-01|

WO2016079422A1|2016-05-26|

CN107000466B|2020-06-26|

JP6648134B2|2020-02-14|

EP3221154A1|2017-09-27|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

CN200988363Y|2006-12-14|2007-12-12|张士新|Multifunction mechanical propelling pencil|

CN201970658U|2011-02-16|2011-09-14|沈小利|Multifunctional combined pen|

US20130322952A1|2012-05-30|2013-12-05|Fih Limited|Multi-functional stylus|

US20050212780A1|2002-10-22|2005-09-29|Timo Tokkonen|Method and arrangement for input mode selection|

US20040154172A1|2003-02-10|2004-08-12|Eliezer Tatz|Multiple function pencil sharpening device with integrated eraser element|

US20050279231A1|2004-06-17|2005-12-22|Lee Chung H|Embossing stylus|

CN2754896Y|2004-09-06|2006-02-01|龙星企业股份有限公司|Liquid chalk set|

US7066673B1|2005-04-07|2006-06-27|Rui-Feng Kuo|Structure of a pen|

CN201183400Y|2008-04-16|2009-01-21|邹木冬|Double-head ball-point pen|

CN201304798Y|2008-10-16|2009-09-09|宇龙计算机通信科技有限公司|A digital pen|

KR101080389B1|2009-05-21|2011-11-07|김경훈|Capacitive touch pen and capacitive pen combined with removable antenna|

US20110304577A1|2010-06-11|2011-12-15|Sp Controls, Inc.|Capacitive touch screen stylus|

CN201773366U|2010-07-15|2011-03-23|房德祥|Touch pen for capacitive touch screen|

CN201777026U|2010-08-11|2011-03-30|深圳富泰宏精密工业有限公司|Hand-writing pen|

JP2012128486A|2010-12-13|2012-07-05|Pilot Corporation|Input pen|

US8766954B2|2010-12-21|2014-07-01|Motorola Mobility Llc|Active stylus for use with touch-sensitive interfaces and corresponding method|

WO2012094633A1|2011-01-07|2012-07-12|Pengo Creative Inc.|Brush based input device for use on projected capacitive multi-touch sensors|

US20120194484A1|2011-01-28|2012-08-02|More/Real Llc|Stylus|

TW201241676A|2011-04-13|2012-10-16|Elan Microelectronics Corp|Capacitive touch pen|

JP4840891B1|2011-04-19|2011-12-21|株式会社ワコム|Cordless type position indicator|

CN202177872U|2011-06-28|2012-03-28|番禺得意精密电子工业有限公司|Capacitive touch pen|

CN202200718U|2011-07-08|2012-04-25|方樟林|Pen with capacitive touch screen handwriting pen end|

CN202257482U|2011-10-12|2012-05-30|惠州硕贝德无线科技股份有限公司|Handwriting pen for capacitive screen|

GB2496381A|2011-11-07|2013-05-15|Century Technical & Ind Corp E|A touch pen with replaceable nib|

CN202720593U|2011-11-16|2013-02-06|上海宜霖文化用品有限公司|Dual-purpose touch screen hand-writing pen|

US20130194242A1|2012-01-27|2013-08-01|Pineapple Electronics, Inc.|Multi-tip stylus pen for touch screen devices|

CN202623652U|2012-05-10|2012-12-26|饶克辉|Multifunctional pen|

CN202795252U|2012-07-19|2013-03-13|深圳市兴业卓辉实业有限公司|Capacitive stylus with conductive fabric tip|

CN202711186U|2012-07-27|2013-01-30|季玲玲|Pen|

CN103576907A|2012-07-30|2014-02-12|深圳富泰宏精密工业有限公司|Dual-purpose stylus|

CN102902380A|2012-09-29|2013-01-30|南通芯迎设计服务有限公司|Multifunctional handwriting pen applicable to different screens|

JP6009900B2|2012-10-16|2016-10-19|シャープ株式会社|Pen-type input device and portable terminal equipped with the same|

CN202862909U|2012-10-19|2013-04-10|倪达成|Capacitive pen|

KR101992192B1|2012-11-02|2019-09-30|엘지전자 주식회사|Mobile terminal|

CN202879014U|2012-11-08|2013-04-17|何少敏|Pen with functions of illuminating and writing in screen of mobile phone|

FR3005288B1|2013-05-06|2015-05-15|Bic Soc|MANUAL DEVICE ADAPTED FOR A CAPACITIVE SCREEN|

FR3005287B1|2013-05-06|2017-04-14|Soc Bic|TOOL FOR CAPACITIVE SCREEN|

FR3006461B1|2013-05-29|2015-06-05|Bic Soc|MANUAL DEVICE COMPRISING AN INVERTER CAP FOR A CAPACITIVE SCREEN|FR3006461B1|2013-05-29|2015-06-05|Bic Soc|MANUAL DEVICE COMPRISING AN INVERTER CAP FOR A CAPACITIVE SCREEN|

FR3042887B1|2015-10-27|2017-11-17|Soc Bic|RETRACTABLE POINT WRITING INSTRUMENT COMPRISING CAPACITIVE SHIELD CUSHION|

US10754447B2|2018-01-10|2020-08-25|Microsoft Technology Licensing, Llc|Stylus capsule|

法律状态:
2015-11-17| PLFP| Fee payment|Year of fee payment: 2 |

2016-05-20| PLSC| Publication of the preliminary search report|Effective date: 20160520 |

2016-11-23| PLFP| Fee payment|Year of fee payment: 3 |

2017-11-27| PLFP| Fee payment|Year of fee payment: 4 |

2018-10-24| PLFP| Fee payment|Year of fee payment: 5 |

2019-10-22| PLFP| Fee payment|Year of fee payment: 6 |

2020-10-21| PLFP| Fee payment|Year of fee payment: 7 |

2021-10-20| PLFP| Fee payment|Year of fee payment: 8 |

优先权:

申请号 | 申请日 | 专利标题

FR1461209A|FR3028629B1|2014-11-19|2014-11-19|MANUAL DEVICE COMPRISING AN INVERTER CAP FOR A CAPACITIVE SCREEN|FR1461209A| FR3028629B1|2014-11-19|2014-11-19|MANUAL DEVICE COMPRISING AN INVERTER CAP FOR A CAPACITIVE SCREEN|

US15/527,492| US10372240B2|2014-11-19|2015-11-18|Manual device comprising a reversible tip for a capacitive screen|

JP2017526663A| JP6648134B2|2014-11-19|2015-11-18|Manual device with reversible tip for capacitive screen|

EP15805590.5A| EP3221154B1|2014-11-19|2015-11-18|Manual device comprising a reversible end piece for a capacitive screen|

CN201580062563.6A| CN107000466B|2014-11-19|2015-11-18|Manual device comprising reversible tip for capacitive screen|

PCT/FR2015/053111| WO2016079422A1|2014-11-19|2015-11-18|Manual device comprising a reversible end piece for a capacitive screen|

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