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Counter and handheld device with counter

10478573 ยท 2019-11-19

    Inventors

    Cpc classification

    International classification

    Abstract

    A counter for a handheld device for dispensing a pharmaceutical substance includes at least one counter wheel having legible characters. The counter wheel is rotatable about a rotational axis, and a drive part having a shaped engagement section rotates the counter wheel. An acting part, displaceable relative to the counter wheel in the direction of extension of the rotational axis against a spring force, is connected to and rotates together with the drive part. A base part which can form a part of the housing and can be inserted into the housing at least partly overlaps the substance container in the direction of the longitudinal axis of the substance container, and has a stationary rotational axis for the counter wheel, the drive part preferably being guided in the rotational axis. The drive part is located on the side of the substance container with respect to the counter wheel.

    Claims

    1. A counter (6) for a handheld device (1) for dispensing pharmaceutical substances, with at least one counter wheel (20) that features legible characters, wherein the counter wheel (20) is rotatable about a rotational axis (14) and a drive part (10) for the counter wheel (20) is provided in order to rotationally act upon the counter wheel (20), wherein said drive part (10) features a shaped engagement section for cooperating with the counter wheel (20), and wherein an acting part (49) is furthermore provided and is configured to be displaced relative to the counter wheel (20) in the direction of the rotational axis (14) against a spring force, wherein the acting part (49) is rotationally moved and connected to the drive part (10) in order to rotate jointly therewith, and wherein the drive part (10) features a guide section (13), by which it is seated on the rotational axis (14) of the counter in the assembled state of the counter (6), wherein the rotational axis of the counter is realized in the form of a stationary pin, wherein the drive part (10) and/or the acting part (49) feature a shaped gear section, and wherein the shaped gear section comprises a slotted link (18) on one of the drive part (10) and rotational axis (14), as well as a slide block (17) on the other of the drive part (10) and rotational axis (14).

    2. The counter according to claim 1, wherein a rotational motion of the acting part (49) is superimposed with a motion in the direction of the rotational axis (14).

    3. The counter according to claim 1, wherein the shaped gear section is designed for cooperating with a gear part provided on the rotational axis (14) or separately of the rotational axis (14).

    4. The counter according to claim 1, wherein the drive part (10) is arranged coaxial to the rotational axis (14).

    5. The counter according to claim 1, wherein the drive part (10) is completely separated from the counter wheel (20) prior to a displacement.

    6. The counter according to claim 1, wherein the drive part (10) is also coaxial with the rotational axis (14) prior to a displacement.

    7. The counter according to claim 1, wherein the counter (6) comprises a bottom part (7) that forms part of a housing of the handheld device (1).

    8. The counter according to claim 7, wherein a spring (19) acting upon the drive part (10) and/or the acting part (9) is supported on an inner side of the bottom part (7).

    9. The counter according to claim 7, wherein the rotational axis (14) is rigidly connected to the bottom part (7).

    10. The counter according to claim 1, wherein several counter wheels (20) are provided.

    11. The counter according to claim 10, wherein all counter wheels (20) are arranged coaxial.

    12. The counter according to claim 1, wherein the drive part (10) features a shaped engagement section in the form of an engagement pin (21).

    13. The counter according to claim 1, wherein a shaped engagement section extends axially parallel to the rotational axis (14).

    14. The counter according to claim 1, wherein a counter wheel (20) directly assigned to the drive part (10) features an engagement opening (22).

    15. The counter according to claim 14, wherein the engagement opening (22) is designed and arranged for accommodating a shaped engagement section.

    16. The counter according to claim 1, wherein a transmission gearwheel (23) is provided between two counter wheels (20) that are arranged directly adjacent to one another in the direction of the rotational axis (14), wherein said transmission gearwheel extends transverse to a second rotational axis (29) such that it overlaps both counter wheels (20).

    17. The counter according to claim 16, wherein a transmission gearwheel (22) is rotatably held on a radial arm (30) of the rotational axis (14).

    18. The counter according to claim 16, wherein two transmission gearwheels (23) are provided.

    19. The counter according to claim 17, wherein two radial arms (30) are provided.

    20. The counter according to claim 19, wherein the radial arms (30) are spaced apart in the direction of the rotational axis (14).

    21. The counter according to claim 1, wherein a spring (19), which generates the spring force for the drive part (10) and/or the acting part (49), extends laterally of a counter wheel (20) and in the direction of the rotational axis (14) such that it overlaps the counter wheel (20).

    22. The counter according to claim 1, wherein one or more of the counter wheels (20) cooperate with a reverse lock (34).

    23. The counter according to claim 22, wherein a reverse lock (34) is realized in the form of a locking part that acts upon an outer circumferential surface of a counter wheel (20) featuring the characters.

    24. The counter according to claim 23, wherein a motion plane of the locking part extends transverse to the rotational axis (14) and/or the locking part is fixed on a bottom part (7) of the counter.

    Description

    (1) The invention is described in greater detail below with reference to the attached drawings which, however, merely show an exemplary embodiment. In these drawings:

    (2) FIG. 1 shows a first embodiment of a handheld device for dispensing sprayable substances in the form of an oblique front view;

    (3) FIG. 2 shows the handheld device according to FIG. 1 in the form of an oblique rear view;

    (4) FIG. 3 shows a first exploded view of the handheld device, the substance container and the counter according to a first embodiment;

    (5) FIG. 4 shows a second exploded view of the counter according to the first embodiment only, namely in the form of a oblique top view;

    (6) FIG. 5 shows an illustration according to FIG. 4 in the form of an oblique bottom view;

    (7) FIG. 6 shows a cross section through the handheld device along the line VI-VI in FIG. 2;

    (8) FIG. 7 shows an enlarged detail of the region VII-VII in FIG. 6;

    (9) FIG. 8 shows a rear view of the handheld device according to the first and second embodiment;

    (10) FIG. 9 shows a cross section through the object according to the first embodiment in FIG. 8 along the line IX-IX;

    (11) FIG. 10 shows a cross section through the object according to FIG. 7 along the line X-X;

    (12) FIG. 11 shows a cross section through the object according to FIG. 7 along the line XI-XI;

    (13) FIG. 12 shows a cross section through the object according to FIG. 7 along the line XII-XII;

    (14) FIG. 13 shows a cross section through the object according to FIG. 7 along the line XIII-XIII;

    (15) FIG. 14 shows a schematic sectioned side view of the handheld device according to the first embodiment with a counter arranged therein;

    (16) FIG. 15 shows a perspective view according to FIG. 14 in the form of an oblique top view;

    (17) FIG. 16 shows another illustration according to FIG. 1 in order to elucidate an additional plane of section;

    (18) FIG. 17 shows a section through the object according to FIG. 16 along the line XVII-XVII;

    (19) FIG. 18 shows a cross section through the object according to FIG. 16 and FIG. 17 in the plane XVIII-XVIII in FIG. 17;

    (20) FIG. 19 shows an illustration according to FIG. 17 in the pressed-down state of the substance container;

    (21) FIG. 20 shows a cross section through the object according to FIG. 19 in the plane XX-XX;

    (22) FIG. 21 shows an illustration according to FIG. 3 of an additional embodiment;

    (23) FIG. 22 shows an illustration according to FIG. 4 of the additional embodiment;

    (24) FIG. 23 shows an illustration according to FIG. 5 of the additional embodiment:

    (25) FIG. 24 shows a cross section through the additional embodiment along the line XXIV-XXIV in FIG. 2;

    (26) FIG. 25 shows an enlarged detail of the region XXV-XXV in FIG. 24;

    (27) FIG. 26 shows a cross section through the object according to FIG. 8, which is realized in accordance with the additional embodiment, along the line XXVI-XXVI;

    (28) FIG. 27 shows a cross section through the object according to FIG. 25 along the line XXVII-XXVII;

    (29) FIG. 28 shows a cross section through the object according to FIG. 25 along the line XXVIII-XXVIII;

    (30) FIG. 29 shows a cross section through the object according to FIG. 25 in the plane XXIX-XXIX;

    (31) FIG. 30 shows a cross section through the object according to FIG. 25 along the line XXX-XXX;

    (32) FIG. 31 shows a schematic sectioned side view of the handheld device with a counter arranged therein according to the additional embodiment;

    (33) FIG. 32 shows a perspective view according to FIG. 31 in the form of an oblique top view;

    (34) FIG. 33 shows an enlarged detail of the counter that is sectioned along a diameter line of the rotational axis;

    (35) FIG. 34 shows an illustration according to FIG. 33 with a different rotational angle of the plane of section; and

    (36) FIG. 35 shows a side view of the drive part connected to the acting part.

    (37) A handheld device 1 for dispensing sprayable substances, particularly inhalation medications, is initially described below with reference to FIGS. 1-3.

    (38) The handheld device 1, which is also referred to as an inhaler, features a housing 2 and a substance container 3 removably accommodated therein. The substance container 3 is also referred to as a cartridge or canister.

    (39) On the handheld device 1 illustrated in FIGS. 1 and 2, a dispensing nozzle 4 (FIG. 3), which the user usually has to put in the mouth and therefore is also referred to as mouthpiece, is covered by a protective cap 5.

    (40) A counter 6 is accommodated in the handheld device 1. In the exemplary embodiments, this counter preferably consists of a counter for counting individual doses. Accordingly, a count or a rotational advance of the units counter wheel takes place during each actuation of the device, i.e. during each up-and-down motion of the medication container. The counter 6 preferably features a bottom part 7. According to the exemplary embodiments, the bottom part 7 preferably forms part of the housing 2 and therefore also a corresponding section of the outer surface of the housing. The bottom part 7 is located laterally of the mouthpiece, i.e. the dispensing nozzle 4, in the lower part of the housing 2 that is located laterally adjacent to the mouthpiece.

    (41) Another advantage of the design of the counter in combination with a bottom part, which simultaneously forms a supplementary part of the housing, can be seen in that the counterwith the bottom partcan also be inserted into the handheld device when the substance container is already located therein. It can be inserted into the housing 2 in the opposite direction of the substance container.

    (42) In the exemplary embodiments, the substance container 3 has to be actuated, in particular manually, in the direction of its longitudinal axis in order to dispense substance. For this purpose, the substance container particularly features a tubular dispensing projection, wherein this dispensing projection has to be conventionally moved in the direction of the interior of the substance container 3 against a spring force in order to dispense substance from the substance container 3. A receptacle 9 (see especially FIG. 14) for the dispensing projection 8 is realized in the housing 2 and deflects the substance dispensed during a dispensing stroke in such a way that it is sprayed into the interior of the dispensing nozzle 4.

    (43) The counter 6 and its arrangement in the handheld device 1 are described in greater detail below with reference to FIGS. 4-15.

    (44) The counter 6 features a drive part 10 that simultaneously forms its uppermost part because the drive part is combined with the acting part in this exemplary embodiment. During a dispensing stroke, the drive part 10 is acted upon by the substance container 3. It simultaneously functions as an acting part. In the preferred one-piece design of the drive part 10 and the acting part, the acting part also rotates accordingly on the assigned face of the substance container during the course of an actuation. Since the drive part 10 simultaneously functions as an acting part, it features an acting projection 11 that cooperates with a downwardly directed end face 12 of the substance container during a corresponding actuation; see, e.g., FIG. 6.

    (45) It is furthermore preferred that the drive part 10 features a guide section 13 (FIG. 6), which is preferably realized in the form of a central guide section in the exemplary embodiment, wherein the drive part is respectively seated on and surrounds the first rotational axis 14 of the counter in the form of a stationary pin in the assembled state of the counter 6. It is preferably seated on the upper side of the first rotational axis 14 and covers an upper end face 15 thereof in a cap-like fashion.

    (46) It is accordingly preferred that the guide section 13 is essentially realized in the form of a hollow cylinder. On its upper side, it features an end face 16, from which the acting projection 11 protrudes upward.

    (47) A shaped gear section in the form of a slide block 17 is preferably formed on the inner side of the guide section 13 and cooperates with a gear part in the form of a slotted link 18 on the first rotational axis 12. The slotted link 18 essentially extends in the direction of a geometric axis A of the first rotational axis 14. It is particularly preferred that the slide block 17 respectively consists of a pin that traverses a hollow space of the guide section 13 or of a rod section that is anchored in both opposite wall regions of the guide section 13.

    (48) It is particularly preferred that the slotted link 18 is divided into three sections. It features a first insertion section 37. The insertion section 37 respectively facilitates or allows a non-rotational motion in the direction of the base of the rotational axis 14 of the drive part 10 in the initial stage of a pressing down the substance container 3. This insertion section is followed by a rotary section 38. In this respect, two opposite slotted link surfaces 39, which appear as angular sections in the cross-sectional illustration according to FIG. 7, are preferably formed such that they extend in opposite directions referred to a top view of the first rotational axis 14.

    (49) In other respects, it is also preferred to realize the rotational axis 14 in the form of a hollow cylinder as shown.

    (50) Another section 39 of the slotted link ultimately follows the second section 37 in the direction of a bottom of the rotational axis 14. The section 39 once again allows a non-rotational downward motion of the drive part 10 as the substance container 3 is pressed down further.

    (51) The drive part 10 is supported on the bottom part 7 by means of a spring 19 in the non-actuated state of the counter or the handheld device. The thusly defined starting position of the drive part 10 is an uppermost position of the drive part 10 referred to the first rotational axis 14.

    (52) In this starting position, i.e. in the position of the drive part 10 prior to a displacement for driving a counter wheel 20, the drive part 10 is completely separated from such a (first) counter wheel 20.

    (53) The drive part 10 furthermore features a shaped engagement section in the form of an engagement pin or two engagement pins 21 as illustrated in the exemplary embodiment. The engagement pins 21 serve for rotationally driving a counter wheel 20.

    (54) It is preferred that the drive part 10 is integrally realized in one piece with the spring 19 and/or the engagement pins 21 and/or the acting projection 11 and/or the guide section 13, e.g. in the form of an injection-molded plastic part.

    (55) In the exemplary embodiment, the counter 6 preferably features three counter wheels 20 that are arranged underneath one another. The uppermost counter wheel or the counter wheel directly assigned to the drive part 10 features a row of engagement openings 25 that is distributed over its circumference. A shaped engagement section or an engagement pin 21 can respectively penetrate into an engagement opening 22.

    (56) It is preferred to realize the engagement opening 22 in the form of a segment of a circle as shown. It is realized with a certain radius starting from the geometric axis A of the first rotational axis 14. The described design in the form of a segment of a circle is advantageous because the engagement pin 21 still penetrates into the engagement openings 22 during the extension of the engagement pin 21 and a certain associated backward rotation of the drive part 10 relative to the counter wheel 20 that corresponds to a return motion of the engagement pins 21. Several engagement openings 22 are preferably arranged successively in the circumferential direction along a circle with the same radius. For example, ten engagement openings are provided in the exemplary embodiment. It is preferred that two shaped engagement sections of the drive part respectively penetrate into two opposite engagement openings 22 during an actuation.

    (57) The engagement opening furthermore features an engagement face, with which the shaped engagement section can come in contact.

    (58) Transmission gearwheels 23 are arranged between two counter wheels 20 in the longitudinal direction of the geometric axis A of the first rotational axis 14 such that they overlap these counter wheels.

    (59) A transmission gearwheel 23 on the one hand cooperates with first gears 24 of an upper counter wheel 20 referred to the transmission gearwheel 23 (in the conventional operative state of the handheld device) and on the other hand with second gears 25 of a lower counter wheel 20. It can be gathered that the first gears 24 are only realized over part of the circumference of the corresponding counter wheel 20, particularly a small part thereof, whereas the second gears 25 are realized over the entire circumference of the corresponding counter wheel 20.

    (60) A counter wheel 20, which forms the central counter wheel of three counter wheels 20 arranged on top of one another as shown, may feature first gears 24 and second gears 25 that, if necessary, are separated by a bottom 26.

    (61) The lowermost counter wheel 20 in such an arrangement of three counter wheels on top of one another only has the feature second gears 25.

    (62) The first and second gears 24, 25 are preferably realized on an inner surface of a circumferential surface area section 27 of the corresponding counter wheel. It is furthermore preferred to realize the circumferential surface area 27 with the desired number of individually legible characters 28. In this case, a character 28 may be printed on or embossed in the circumferential surface area, produced thereon during the injection-molding process or with a different technique.

    (63) A transmission gearwheel 23 is guided on a second rotational axis 29 that preferably is also stationary.

    (64) According to the exemplary embodiment, it is furthermore preferred to arrange a second rotational axis 29 on a radial arm 30 of the first rotational axis 14. The radial arm 30 extends radially referred to the geometric axis A of the first rotational axis 14.

    (65) A bottom 6 of the counter wheel 20 may feature an opening 31 that is realized similar to a keyhole and not only enables the rotational axis 14 to extend through the counter wheel 20, but also makes it possible to place the counter wheel on the rotational axis 14 such that it overlaps one radial arm or two radial arms 30 as shown in the exemplary embodiment.

    (66) The cooperation between the counter wheels 20 and the transmission gearwheels 23, in particular, is described in greater detail below with reference to FIGS. 9-13 that show corresponding cross sections through the counter according to the illustration in FIG. 7.

    (67) The cross section in FIG. 9 shows a top view of the uppermost counter wheel 20 with an engagement pin 21 penetrating therein; see FIG. 8. This figure shows both positions of the engagement pin, namely prior to the start of a rotation of the counter wheel 20 and after the completion of a rotation of the counter wheel 20, but prior to the retraction of the engagement pins 21. In the exemplary embodiment, the rotational motion takes place over an angle of 36 degrees as shown. The penetrating engagement pins respectively contact a vertically aligned engagement face during the rotation of the counter wheel 20 in this exemplary embodiment.

    (68) According to the cross-sectional illustration in FIG. 10, the first gears 24, which are only provided over part of the circumference, can cooperate with the first (uppermost) transmission gearwheel 23 (in the corresponding circumferential position of the uppermost counter wheel 20).

    (69) The cross-sectional illustration in FIG. 11 shows that the same transmission gearwheel 23 is constantly engaged with the second gears 25 of the additional counter wheel 20 located directly underneath the first counter wheel 20.

    (70) This applies analogously to the cooperation between this (viewed from above) second counter wheel and the third counter wheel 20 located thereunder; see FIGS. 12 and 13.

    (71) With respect to FIGS. 14 and 15, it can also be gathered that the geometric axis A in fact extends laterally offset to the longitudinal axis L of the substance container 3 in the side view according to FIG. 14. Nevertheless, the bottom part or housing part 7 is arranged such that it vertically overlaps at least a substantial area of the substance container 3.

    (72) The drive part 10 likewise acts (as a counterforce) eccentrically upon the substance container 3 referred to the longitudinal axis L. In this case, the drive part 10 also does not cooperate with the first end face referred to the dispensing projection 8 of the substance container 3, but rather with a second end face, which is offset relative to the first end face in a stepped fashion and has a larger radius. This results in a more optimal utilization of the structural space for the counter 6.

    (73) The action and motion of the spring 19 acting upon the drive part 10 is described in greater detail below with reference to FIG. 16-20. In FIGS. 17 and 18, the drive part 10 is in its starting position. The substance container was not yet acted upon in this state.

    (74) In FIG. 19, the substance container 3 is pressed down (without showing an actuating finger of a user). This figure shows that the spring 19 has a more significant curvature and, according to FIG. 20, is altogether advanced with respect to the groove 40, in which a bottom region of the spring is accommodated, in the direction of the rotational motion of the drive part 10 in this groove 40 during such an actuation.

    (75) The following processes take place when the handheld device is used or the counter is actuated:

    (76) According to FIGS. 6 and 7, the drive part 10 contacts the end face 12 of the substance container 3 with a contact point 32 of the acting projection 11 in a starting position.

    (77) During an actuation of the handheld device, the user presses on the upper end face 33 of the substance container 3, for example, with a finger such that this substance container is moved downward in FIG. 6.

    (78) This causes the drive part 10 to be moved downward relative to the stationary rotational axis 14. Due to its cooperation with the slotted link 18, the slide block 17 causes a rotation of the drive part 10 relative to or about the rotational axis 14 during this process.

    (79) Engagement pins 21in the exemplary embodiment two engagement pinssimultaneously penetrate into the engagement openings 22 of the uppermost counter wheel 20 in this case. They move into the engagement openings 22 until they contact an engagement face and then drive the corresponding counter wheel 20 in the circumferential direction, for example, by an angle of 36 degrees or 40 degrees. If the transmission gearwheel 23 comes in contact with the first gears 24 during this process, the additional counter wheel 20, which is located underneath the uppermost counter wheel and coupled to the transmission gearwheel 23, is also moved simultaneously. In special instances, the further counter wheel 20 located underneath the additional counter wheel is likewise moved simultaneously by means of the additional transmission gearwheel 23.

    (80) When the user releases the pressure upon the end face 33, the substance container 3 moves back into its starting position under the influence of a separate spring contained in the dispensing part.

    (81) The drive part 10 participates in this return motion due to the spring 19 acting upon the drive part such that it is subsequently once again in the state illustrated in FIG. 6.

    (82) During a rotation of a counter wheel 20, this counter wheel also passes an assigned reverse lock 34. For this purpose, the counter wheel is preferably provided with index notches 35 that extend in the direction of the geometric axis A of the rotational axis 14 and into which a reverse lock 34 engages with a frontal locking tab 36. In this way, a reverse rotation of the counter wheel 20 is prevented.

    (83) It is preferred that any or all of the aforementioned parts of the counter respectively consist of injection-molded plastic parts. They may be made, e.g., of PP or PE.

    (84) Another embodiment of the counter and of the handheld device is respectively described below with reference to FIGS. 21-32.

    (85) With respect to conforming aspects of the described embodiments, the description of certain parts, which are identified by the same reference symbols, is not repeated in its entirety. The preceding description of such parts accordingly also applies to the second embodiment. Vice versa, the description of parts with reference to the second embodiment also applies to parts with the same reference symbols in the first embodiment, which were not described or not described in every detail with reference to this first embodiment. Consequently, the description of the second embodiment accordingly also applies to the first embodiment as long as it does not concern a specific modification referred to the second embodiment.

    (86) According to FIG. 21, the counter is in this embodiment also connected to a bottom part, in this case a bottom plate 7, which simultaneously forms an outer side of the assembled housing 2 of the handheld device 1 on its side that faces away from the counter.

    (87) The exploded views in FIGS. 22 and 23 show that, in contrast to the first embodiment, the drive part 10 does not cooperate with the first rotational axis 14 in a geared fashion in order to realize the required rotational motion. In fact, it is preferred that only the acting part 49 cooperates with a slide block 42 fixed on the housing by means of the slotted link 41 realized on the outer side of the acting part 49; see, e.g., FIG. 31. The slide block 42 is preferably realized independently of the bottom plate 7. As in the first exemplary embodiment, it preferably forms an integral part of and consists of the same material as the housing or is at least rigidly connected to the housing 2. This connection is preferably produced in its region that is horizontally assigned to the dispensing projection 8 of the inserted substance container.

    (88) The spring 19 is preferably realized in the form of a spiral coiled spring. As such, it is preferably also arranged coaxial to the first rotational axis 14. It is particularly seated on a shoulder of the first rotational axis 14 as illustrated, e.g., in FIG. 24. A continuation section 44 of the first rotational axis 14 extends in such a way that it still overlaps the spring 19. On the other end, the spring 19 is seated on a holding pin 45 of the drive part 10, which in the assembled state extends coaxial to the first rotational axis 14 as illustrated, e.g., in FIG. 25; in this respect, see also FIG. 24.

    (89) In this embodiment, the drive part 10 can be displaced relative to the acting part 49 vertically, i.e. in the direction of the first rotational axis. In order to ensure the lower position required for rotationally actuating a counter wheel, the drive part 10 is arranged such that it cooperates with an additional spring 50. In the exemplary embodiment, the spring 50 is preferably supported on the inside of the acting part 49. The spring 50 is preferably realized integrally with and made of the same material as the drive part 10, particularly in the form of a plastic spring as shown.

    (90) The spring 19, in contrast, preferably consists of a metallic spring, particularly a steel spring.

    (91) The drive part 10 is realized in a sleeve-like fashion in a first region that is preferably arranged within the acting part 49. The drive part 10 also encompasses part of the axial extent of the spring 19 with this sleeve-like region. Viewed in the radial direction, the spring 19 is in this region arranged between the first rotational axis 14 and the drive part 10; see also FIG. 24.

    (92) The drive part 10 furthermore continues, in particular integrally, in the form of one or more shaped engagement sections, preferably two engagement sections as shown in the exemplary embodiment, wherein said shaped engagement sections are realized in the form of engagement pins 21 in this case. These shaped engagement sections preferably are also arranged opposite of one another with respect to a diameter line of the first rotational axis or of the sleeve-like region of the drive part as shown.

    (93) A shaped engagement section 21 respectively engages into an engagement opening 22 of the counter wheel. In this case, the shaped engagement section 21 contacts an engagement face 48, which preferably extends vertically, i.e. in the direction of the rotational axis, referred to the rotating direction of the counter wheel (see, e.g., FIG. 34). In this second exemplary embodiment, a counterface 51 provided opposite to the rotating direction preferably is realized in a curved fashion in any case. It forms a guide bevel for the shaped engagement section 21, which accordingly also rotates backward during a return stroke of the acting part and thereby moves into the next engagement opening 22. Due to the backward rotation and the movement past the guide bevel, the drive part 10 is in this case also raised in the required fashion, as well as subsequently pressed down again by the spring 50.

    (94) During this backward rotation, in particular, a relative motion between the acting part and the engagement part in the direction of the rotational axis accordingly takes place such that the aforementioned spring 50 is also advantageous in this respect.

    (95) The drive part 10 is preferably held on the acting part 49 in a captive fashion. For this purpose, a snap fitting may be provided as illustrated in FIG. 35. A locking tab 52 on the engagement part may be designed for moving over and engaging behind a complementary locking element 53 on the acting part (during the assembly). In order to realize the desired and required axial relative motion between the drive part 10 and the acting part 49, one longitudinal groove or preferably two longitudinal grooves 54 are provided on the acting part 49, in particular, opposite of one another as illustrated in the exemplary embodiment.

    (96) The reverse lock 34 comprises three finger-like locking elements that respectively feature a locking tab 36. The locking elements are rooted in a common holding section 46 that is preferably realized integrally with and made of the same material as the locking elements. The holding section 46 is rigidly connected to the bottom part 7, preferably by means of a plug-in connection. It is not rotatable relative to the bottom part 7 such that an elastic deflection of a reverse lock 34 occurs during a corresponding rotation of the assigned counter wheel.

    (97) An automatically engaging locking tab 47 is furthermore provided on the first rotational axis 14 such that the counter wheels are axially held in the assembled state; see, e.g., FIG. 32.

    (98) The following processes take place when the handheld device 1 according to the second embodiment is used:

    (99) The user presses on the upper end face 33 of the substance container 3, which is thereby pressed down relative to the housing 2. This presses down the acting part 49, which simultaneously carries out a rotational motion about its (vertical) longitudinal axis over part of this motion in the direction of the rotational axis due to the cooperation between the shaped gear section and the gear part.

    (100) The shaped gear section particularly consists of a slotted link 41 as illustrated, for example, in FIG. 32 and the gear part consists of a slide block 42 of the housing 2 that protrudes into the slotted link.

    (101) The figures furthermore show that the slotted link 41 is realized over part of its length in such a way that a rotation of the acting part occurs. The acting part 49 is displaced without such a rotation over the remaining length.

    (102) When the acting part 49 is pressed down, the spring 50 acting upon the drive part 10 is compressed. The drive part 10 thereby is displaced into its lower end position referred to the acting part 49 if this displacement has not already taken place such that it securely engages with the counter wheel.

    (103) Since the acting part simultaneously rotates when it is pressed down, a corresponding rotation of the drive part 10 and therefore of the (uppermost) counter wheel 20 accordingly takes place simultaneously.

    (104) After the user has once again released the substance container 3, this substance container moves back into its starting position under the influence of its internal spring. The acting part 49 directly follows this return motion due to the prestress of the spring 19. A backward rotation of the acting part 49 accordingly also takes place in this case as a result of the gear-like cooperation of the acting part with the housing 2.

    (105) Due to the rotational coupling with the drive part 10, this drive part also rotates backward simultaneously. The angular faces of the engagement openings in the counter wheel 20 make it possible for an engagement projection of the drive part 10 to penetrate into an oppositely arranged engagement opening (if applicable, after passing over several engagement openings).

    (106) Consequently, not only the acting part 49, but also the drive part 10 carries out a reciprocating rotational motion during an actuation cycle of the device.

    (107) The dose dispensed when the substance container is pressed down therefore is counted due to the rotational motion of the counter wheel taking place during the forward rotational motion of the drive part 10. The reverse lock prevents a backward rotation of the counter wheel while the drive part carries out the second part of the rotational motion, namely the backward rotational motion. Consequently, each dispensed dose is counted. The counter therefore consists of a counter for counting individual doses.

    (108) FIG. 14 and FIG. 31 respectively show that the receptacle 9 forms a step 55, particularly on its side facing away from the nozzle 4, in both exemplary embodiments, wherein said step creates the space for accommodating the receptacle 9 for the counter wheels 20 such that the structural space of the housing 2 is advantageously utilized. This can also be gathered from the cross-sectional illustrations, e.g., in FIGS. 9, 8, 20 and 26. In the second embodiment, a step 57 is additionally or alternatively provided on the side of the housing, wherein this step can, in principle, also be alternatively or additionally realized in the first embodiment.

    (109) The user can read the number of dispensed doses or, when counting down, the number of remaining doses on the rear side of the housing or on the side facing away from the nozzle 4; see, e.g., FIG. 8. The numbers are shown in such a way that they can be read in the longitudinal direction of the housing or the substance container 3. For this purpose, an opening 58 is provided in the housing. The legible characters of the counter wheel or the multiple counter wheels are visible through the opening 58 that is preferably realized in the form of an elongated hole. The opening may be filled with a transparent part. However, it may also be realized in the form of a clear opening and insofar allow direct access to the one or more counter wheel/wheels.

    (110) With respect to the reverse lock 34, which preferably comprises a separate locking finger for each counter wheel 20 as shown, it is proposed that this reverse lock cooperates with an outer circumferential surface of a counter wheel 20, on which the legible characters are also arranged. For this purpose, the outer circumferential surface particularly features index notches 35 that extend in the direction of the first rotational axis and into which a locking tab 36 of the reverse lock 34 engages at a standstill. An index notch 35 is illustrated, e.g., in FIGS. 9-13 and 27-30 and features a shallow flank, over which the locking tab can pass, as well as a steep flank that essentially extends along a diameter line (cross-sectional illustration).

    (111) The latter flank prevents a backward rotation whereas the locking tab can pass over the former flank.

    (112) The second gears 25 preferably are always realized over the entire circumference of the corresponding surface. However, they may also be realized over part of the surface only as illustrated in FIG. 22, e.g. if the potential range of numerals actually is not fully utilized for the counter. This applies analogously to the legible characters that preferably consist of such numerals.

    (113) The counter particularly can also be easily assembled. The first rotational axis and/or rotational lock 34 initially can be attached to the bottom part 7 from above by means of plug-in assembly. The first rotational axis 14 preferably is realized in one piece with the second rotational axes 29.

    (114) One or more counter wheels, preferably three counter wheels as illustrated in the exemplary embodiments, can then be attached to the first rotational axis 14. They are simultaneously secured by the locking tab 47 in the second embodiment, but optionally also in the first embodiment.

    (115) After the installation of the lower or the two lower counter wheels, the transmission gearwheel respectively needs to be installed on the second rotational axis 29 by means of plug-in assembly.

    (116) In the second embodiment, the spring 19, as well as the drive part 10 and the acting part 49, can then be attached to the first rotational axis 14. The acting part 49 is interlocked with the drive part 10 by pressing down the acting part. Alternatively, the two parts can also be interlocked beforehand and attached in assembled form.

    (117) In the first embodiment, the drive part 10 and the acting part 49 are realized in the form of a unit such that only one installation process is required in this case.

    (118) The thusly assembled counter can then be inserted into the housing 2 from below. Since the bottom part 7 is advantageously realized larger than necessary for the mere installation of the counter, it can also be comfortably handled, particularly for the installation into the housing 2, when the counter is already installed thereon. An advantageous alignment option is thereby also realized. The acting part 49 in combination with the drive part 10 can during the preassembly be aligned in such a way that thepreferably dual, oppositely arrangedslotted links 41 are aligned with the slide blocks 42. In order to compensate slight alignment inaccuracies, the slotted links 41 are preferably provided with an insertion bevel 56 that widens in the circumferential direction of the acting part 49; see, e.g., FIG. 34.

    (119) Locking tabs 56 may also be provided on the bottom part as shown in order to snap-fit the bottom part.

    (120) With the exception of the reverse lock 34, all parts of the counter are connected to or guided on the first rotational axis 14.

    (121) The preceding explanations serve for elucidating all inventions that are included in this application and respectively enhance the prior art independently with at least the following combinations of characteristics, namely:

    (122) A counter, which is characterized in that the acting part 49 is rotationally moved and connected to the drive part 10 in order to rotate jointly therewith.

    (123) A counter, which is characterized in that the rotational motion of the acting part 49 is superimposed with a motion in the direction of the rotational axis 14 and/or that the drive part 10 and/or the acting part 49 feature a shaped gear section, wherein the shaped gear section is preferably designed for cooperating with a gear part provided on the rotational axis 14 or separately of the rotational axis 14.

    (124) A counter, which is characterized in that the drive part 10 is arranged coaxial to the rotational axis 14 and/or that the drive part 10 is completely separated from the counter wheel 20 prior to a displacement and/or that the drive part 10 is also captured on the (first) rotational axis 14 prior to a displacement and/or that the shaped gear sections consist of a slotted link 18 on one of the components drive part 10 and (first) rotational axis 14, as well as a slide block 17 on the other of the components drive part 10 and (first) rotational axis 14 and/or that the counter 6 comprises a bottom part 7 that, if applicable, forms part of a housing of the handheld device 1.

    (125) A counter, which is characterized in that a spring 19 acting upon the drive part 10 and/or the acting part 9 is supported on an inner side of the bottom part 7, wherein the first rotational axis 14 preferably is rigidly connected to the bottom part 7, and/or that several counter wheels 20 are provided, wherein all counter wheels 20 preferably are arranged coaxial, and/or that the drive part 10 features a shaped engagement section in the form of an engagement pin 21, wherein a shaped engagement section furthermore preferably extends axially parallel to the rotational axis 14.

    (126) A counter, which is characterized in that a counter wheel 20 directly assigned to the drive part 10 features an engagement opening 22, wherein the engagement opening 22 is preferably designed and arranged for accommodating a shaped engagement section, and/or that a transmission gearwheel 23 is provided between two counter wheels 20 that are arranged directly adjacent to one another in the direction of the rotational axis 14, wherein said transmission gearwheel extends transverse to its (second) rotational axis 29 such that it overlaps both counter wheels 20.

    (127) A counter, which is characterized in that a transmission gearwheel 22 is rotatably held on a radial arm 30 of the first rotational axis 14, wherein two transmission gearwheels 23 and/or two radial arms 30 are preferably provided, and wherein the radial arms 30 are preferably spaced apart in the direction of the first rotational axis 14.

    (128) A counter, which is characterized in that a spring 19, which generates the spring force for the drive part 10 and/or the acting part 49, extends laterally of a counter wheel 20 and in the direction of the first rotational axis 14 such that it overlaps the counter wheel 20 and/or that one or more of the counter wheels 20 cooperate with a reverse lock 34, wherein a reverse lock 34 is preferably realized in the form of a locking part that acts upon an outer circumferential surface of a counter wheel 20 featuring the characters, wherein a motion plane of the locking part furthermore preferably extends transverse to the first rotational axis 14 and/or the locking part is fixed on the bottom part 7.

    (129) A handheld device, which is characterized in that the counter 6 features a bottom part 7, which may form part of the housing 2 and can be inserted therein, wherein the bottom part 7 at least partially overlaps the substance container 3 in the direction of the longitudinal axis L thereof, and that the bottom part 7 carries a stationary (first) rotational axis 14 for the counter wheel 6, on which the drive part 10 is preferably also guided, wherein the drive part 10 is located on the side of the substance container 3 referred to the counter wheel 20.

    (130) A handheld device, which is characterized in that the drive part 10 and/or the acting part 9 feature a shaped gear section for cooperating with a stationary gear part of the housing in order to realize a rotational motion of the drive part 10 relative to the housing 2 during the course of the dispensing stroke.

    LIST OF REFERENCE SYMBOLS

    (131) 1 Handheld device 2 Housing 3 Substance container 4 Dispensing nozzle 5 Protective cap 6 Counter 7 Bottom part 8 Dispensing projection 9 Receptacle 10 Drive part 11 Acting projection 12 End face 13 Guide section 14 First rotational axis 15 End face 16 End face 17 Slide block 18 Slotted link 19 Spring 20 Counter wheel 21 Engagement pin 22 Engagement opening 23 Transmission gearwheel 24 First gears 25 Second gears 26 Bottom 27 Circumferential surface area section 28 Character 29 Second rotational axis 30 Radial arm 31 Opening 32 Contact point 33 Upper end face 34 Reverse lock 35 Index notch 36 Locking tab 37 Insertion section 38 Rotary section 39 Slotted link surface 40 Groove 41 Slotted link 42 Slide block 43 Shoulder 44 Continuation section 45 Holding pin 46 Holding section 47 Locking tab 48 Engagement face 49 Acting part 50 Spring 51 Counterface 52 Locking tab 53 Complementary locking element 54 Longitudinal groove 55 Step 56 Insertion bevel 57 Step 58 Opening A Geometric axis L Longitudinal axis