INHALER

Abstract

An inhaler (1) for delivery of a powder-form inhalation formulation from a blister strip (2) with a plurality of blister pockets (3) is proposed. A flexible guiding element (20) receives the used blisters strip.

Description

The present invention relates to an inhaler according to claim 1 or 8.

The present invention relates to an inhaler for delivery of a powder-form inhalation formulation from a blister strip with a plurality of blister pockets (also called blisters) containing the inhalation formulation in doses.

GB 2 407 042 A discloses an inhaler with a rolled-up blister strip. The inhaler comprises a manually operated, pivotable actuator which operates a conveyor for stepwise moving the blister strip. The actuator supports a piercer and an associated mouthpiece. By pivoting the actuator, the blister strip and be moved forward and blister pockets of the blister strip can be pierced one after the other. When a patient breathes in an air stream passes through the pierced blister pocket, with the result that the inhalation formulation in the blister pocket mixes with the air and is discharged to the patient.

Object of the present invention is to provide an inhaler with simple and/or compact construction, which allows optimized conveying and/or storage of the blister strip.

The above object is achieved by an inhaler according to claim 1 or 8. Advantageous embodiments are subject of the subclaims.

One aspect of the present invention is to provide a flexible or elastic guiding element, preferably in the shape of a spiral, wherein the guiding element comprises a mounting portion with a corrugation, is held between a first and a second holding portion, is at least partially covered by a guiding portion in the mounting portion, and/or comprises a free end and/or a slit with two tip portions, so that it comprises a free end with the highest curvature, flexibility and/or elasticity of the guiding element. This allows a simple and compact construction with optimized conveying and/or storage of the preferably used blister strip.

According to an or additional aspect of the present invention, the inhaler comprises a metal guiding element, which is electropolished in order to reduce the sliding friction of the blister strip on the guiding element. This allows also a simple and compact construction with optimized conveying and/or storage of the blister strip.

Further aspects, features, properties and advantages of the present invention are described in the claims and the subsequent description of a preferred embodiment, with reference to the drawing. There are shown in:

FIG. 1 a schematic sectional view of an inhaler without mouthpiece cover;

FIG. 2 a schematic sectional representation of the inhaler with closed mouthpiece cover; and

FIG. 3 a partial, enlarged view of FIG. 2; and

FIG. 4 a perspective view of a guiding element of the inhaler.

In the Figures, the same reference numbers are used for identical or similar parts, even if a repeated description is omitted. In particular identical or corresponding advantages and properties then also result or may be achieved.

FIG. 1 shows in a schematic sectional representation an inhaler 1.

The inhaler 1 serves to deliver a powdered inhalation formulation from a band-shaped blister strip 2. The blister strip 2 is finite, not forming an endless or closed loop. It has a large number of blister pockets 3 respectively containing directly a dose of the loose inhalation formulation. Thus, the formulation is pre-metered.

The inhaler 1 has a reservoir 4 for the still unused blister strip 2 with closed (sealed) blister pockets 3. The blister strip 3 is rolled up or wound up in the reservoir 4. In the representation example the reservoir 4 is formed such that the blister strip 2 can be moved outwards or pulled out of the reservoir 4 as easily as possible.

In the representation example the blister strip 2 is directly received in the reservoir 4. However, instead of this a cassette, a container, a drum or suchlike can also be fitted or inserted with the blister strip 2 into the inhaler 1 or the reservoir 4.

The inhaler 1 has a conveyor 5 for stepwise onward movement in direction of arrow 5a by one blister pocket 3 in each case, in order to feed the blister pockets 3 successively to an opening and/or removal position 6 where the respective blister pocket 3 is opened and can be emptied.

The blister pockets 3 can be opened respectively preferably by means of a piercing member 7, which punctures cuts open a lid of the respectively aligned blister pocket 3 in position 6. The piercing member 7 is hollow and in fluid connection with an adjacent mouthpiece 8 of the inhaler 1.

During or for inhalation a patient or user, not represented, places the mouthpiece 8 in his mouth and breathes in. The respectively opened blister pocket 3, into which the piercing member 7 extends, is thereby emptied by sucking in. An air stream 9 of ambient air is sucked in and passed through the opened blister pocket 3 such that the loose powder 10 (forming the inhalation formulation and being schematically shown in FIG. 1 only in the actually opened blister pocket 3 below mouthpiece 8) is dispensed with the sucked-in ambient air as an aerosol cloud 11 via the mouthpiece 8. This situation is schematically represented in FIG. 1.

The inhaler 1 has a preferably manually actuateable, lever-like actuator 12 being pivotally mounted to a housing 19 of the inhaler 1.

The piercing member 7 and the mouthpiece 8 are attached to and supported by the actuator 12.

The actuator 12 is operable (pivotable) to cause the piercing member 7 to puncture the lid of the respectively aligned blister pocket 3 in position 6 below the mouthpiece 8.

When the actuator 12 swivels from the position shown in FIG. 1 (here anti-clockwise) to a opened position, the piercing member 7 is withdrawn from the last-pierced blister pocket 3.

Then, the blister strip 2 is moved forward one blister pocket 3, so that the next blister pocket 3 is moved in position 6.

When the actuator 12 swivels back into the position shown in FIG. 1, i.e. is manually moved back, the next aligned blister pocket 3 of the blister strip 2 is punctured by the piercing member 7 and thereby opened. Then, the next inhalation can take place, i.e. the inhaler 1 is activated.

The inhaler 1 has a receiving space or apparatus 13 to receive or store the used part of the blister strip 2. The receiving space or apparatus 13 is preferably formed such that the used part can be wound up. FIG. 1 shows a situation with essentially filled reservoir 4 and still essentially empty receiving space 13.

The conveyor 5 comprises a conveying wheel 14, which can engage between the blister pockets 3 and thus convey the blister strip 2 in form-locking or form-fit manner. This allows very secure or precise moving or indexing of the blister strip 2 as desired and/or necessary.

The conveyor 5 or its conveying wheel 14 is arranged between the reservoir 4 and the receiving apparatus 13, in particular between the removal position 6 and the receiving apparatus 13, thus after the emptying of the blister pockets 3.

The pivot axis of the actuator 12 is coaxial with the rotation axis of the conveying wheel 14. In particular, the actuator 12 may be supported by an axle of the conveying wheel 14.

The inhaler 1 comprises a mouthpiece cover 15. The mouthpiece cover 15 is not shown in FIG. 1 which explains the basic principle of the inhaler 1, but in FIG. 2 which shows a more realistic, but still schematic sectional view of the inhaler 1. FIG. 2 shows the inhaler 1 with closed mouthpiece cover 15, wherein the blister strip 2 has been partly omitted for illustration purposes.

The inhaler 1 or its receiving apparatus 13 comprises a guiding element 20 for receiving and/or guiding the blister strip 2, in particular the used part of the blister strip 2.

The guiding element 20 is preferably flexible and/or elastic. It is preferably made of metal, in particular spring steal.

The guiding element 20 is preferably mounted or fixed at a mounting portion 21, in particular only at this portion 21.

FIG. 2 shows the open inhaler 1 with the mounted guiding element 20. FIG. 3 shows in an enlarged, partial view of FIG. 2 the area of the mounting portion 21 of the guiding element 20. FIG. 4 shows the guiding element 20 alone, in particular in its pre-fabricated form or state.

Preferably the guiding element 20 comprises a spiral portion or has the form essentially of a spiral.

The guiding element 20 is preferably held by form-fit at a mounting end, in particular at its mounting portion 21. However, it can have any other suitable form.

Preferably, the mounting portion 21 is essentially straight, but bent or folded, and/or comprises a corrugation 22, as schematically shown in FIGS. 3 and 4. This facilitates the preferred form-fit mounting.

In the present embodiment, the mounting portion 21 with a corrugation 22 is held between a first holding portion 23 and a second holding portion 24 as shown in particular in FIG. 3. The holding portions 23, 24 are preferably stationary and/or molded and/or interconnected with or formed by housing 19 of the inhaler 1 or any other suitable component of the inhaler 1.

Preferably, the first holding portion 23 and the second holding portion 24 are formed by different halves of the housing 19 or by the same half of the housing 19.

In particular, the holding portions 23 and 24 comprise inbetween or form a slit for receiving or holding the guiding element 20 or its mounting portion 21. The opposing surfaces of the two holding portions 23, 24 are preferably essentially complementary.

Preferably, the guiding element 20 may be inserted into one half of the housing 19 in a first step. Then, the housing 19 is closed by the second half of the housing 19 in a second step so that the mounting portion 21 is held in a form-fit manner in the housing 19.

The guiding element 20 preferably comprises a free end 25 or a slit 27 with two tip and/or two tapered portions 26. This facilitates optimized guidance of the blister strip 2.

In the present embodiment, the free end 25 has essentially the form of the tongue of a snake, i.e. with two tip portions 26 with the longitudinally extending slit 27 and increasing distance in between towards the end.

In particular, the free end 25 comprises the highest curvature, flexibility and/or elasticity of the guiding element 20.

The slit 27 and/or tapered portion 26 (as outlined above) facilitates production of the guiding element 20 and, in particular, avoids that fins or ribs resulting from production can stop or hinder the blister strip 2, in particular its free end.

The inhaler 1 comprises preferably a guiding portion 28 as shown in FIGS. 2 and 3. The guiding portion 28 is preferably inclined and/or like a ramp. The guiding portion 28 facilitates entry or insertion of the free end or tip of blister strip 2 into the guiding element 20. Thus, it is facilitated to convey and in particular push the blister strip 2 into the guiding element 20 without any handicap.

The guiding portion 28 is preferably formed by the housing 19, in particular molded integrally with one half of the housing 19.

When the blister strip 2 is conveyed, it is preferably pushed into the guiding element 20. The blister strip 2 is wound up in the guiding element 20. The free end 25 causes the free end of the blister strip 2 to bend inwardly in particular such that a winding core is formed by the inwardly bent end of the blister strip 2.

With increasing conveying of the blister strip 2 into the guiding element 20, the guiding element 20 is expanded radially and/or guides the used blister strip 2 at its outer part, in particular the winding formed inside or in the center of the guiding element 20.

In order to reduce the sliding resistance of the blister strip 2 on the guiding element 20, the guiding element 20 is preferably polished, in particular electrically or electrophoretically polished.

Preferably, the guiding element 20 is made of a high quality steel, in particular of steel 1.4302. In particular, the guiding element 20 is made from a metal band with a thickness of about 0.08 to 0.10 mm, preferably of about 0.09 mm, a length of about 100 to 150 mm, and/or a width of about 16 to 18 mm.

The guiding element 20 described above allows an optimized guidance and/or storage of the blister strip 2, wherein a very simple and compact construction is possible. Further, simple mounting is possible.

Preferably, the inhaler 1 is portable, works only mechanically and/or is hand-held.

Preferably, the terms “blister strip” and “blister pockets” have to be understood in a very broad sense to cover also other kinds of storage means with receptacles or even bulk storages for the formulation.

LIST OF REFERENCE NUMBERS

1 inhaler

2 blister strip

3 blister pocket

4 reservoir

5 conveyor

5 a onward movement

6 opening and/or removal position

7 piercing member

8 mouthpiece

9 air stream

10 powder

11 aerosol cloud

12 actuator

13 receiving apparatus

14 conveying wheel

15 mouthpiece cover

19 housing

20 guiding element

21 mounting portion

22 corrugation

23 first holding portion

24 second holding portion

25 free end

26 tip portion

27 slit

28 guiding portion

Claims

1. Inhaler (1) for delivery of an inhalation formulation from a preferably band-shaped blister strip (2) with a plurality of blister pockets (3) containing the inhalation formulation in doses, comprising: preferably a piercing member (7) to puncture a lid of an aligned blister pocket (3),the inhaler (1) being designed such that—preferably by breathing in during inhalation—an air stream (9) of ambient air can be sucked or delivered in to discharge the respective dose from an opened blister pocket (3) and to deliver it with the ambient air as an aerosol cloud (11),characterized inthat the inhaler (1) comprises a flexible or elastic guiding element (20) for receiving or guiding the blister strip (2), wherein the guiding element (20) comprises a mounting portion (21) with a corrugation (22),the guiding element (20) is held between a first and a second holding portion (23, 24), in particular with the mounting portion (21),the guiding element (20) or mounting portion (21) is at least partially covered by a guiding portion (28), and/orthe guiding element (20) comprises a free end (25) or a slit (27) with two tip and/or two tapered portions (26) so that the guiding element comprises (20) a free end (25) with the highest curvature, flexibility or elasticity of the guiding element (20).

2. Inhaler according to claim 1, characterized in that the guiding element (20) is made of steel, in particular spring steel.

3. Inhaler according to claim 1, characterized in that the first and second holding portion (23, 24) are molded and/or are formed by a housing (19) of the inhaler (1) or by separate halves of the housing (19).

4. Inhaler according to claim 1, characterized in that the first and second holding portion (23, 24) are at least essentially complementary.

5. Inhaler according to claim 1, characterized in that the first and second holding portion (23, 24) form a slit in between for receiving the guiding element (20) or the mounting portion (21).

6. Inhaler according to claim 1, characterized in that the first or second holding portion (23, 24) forms the guiding portion (28).

7. Inhaler according to claim 1, characterized in that the guiding portion (28) is inclined and/or ramp-like, in particular to facilitate conveying the blister strip (2) into the guiding element (20).

8. Inhaler (1) for delivery of an inhalation formulation from a preferably band-shaped blister strip (2) with a plurality of blister pockets (3) containing the inhalation formulation in doses, preferably according one of the preceding claims, comprising: preferably a piercing member (7) to puncture a lid of an aligned blister pocket (3),the inhaler (1) being designed such that—preferably by breathing in during inhalation—an air stream (9) of ambient air can be sucked or delivered in order to discharge the respective dose from an opened blister pocket (3) and to deliver it with the ambient air as an aerosol cloud (11),characterized inthat the inhaler (1) comprises a metal guiding element (20) for receiving or guiding the blister strip (2), the guiding element (20) being electropolished in order to reduce the sliding resistance of the blister strip (2) on the guiding element (20).

9. Inhaler according to claim 8, characterized in that the guiding element (20) is flexible or elastic.

10. Inhaler according to claim 1, characterized in that the inhaler (1) comprises a receiving apparatus (13) including the guiding element (20) for the used blister strip (2).

11. Inhaler according to claim 1, characterized in that the guiding element (20) comprises a spiral portion or comprises at least essentially the form of a spiral.

12. Inhaler according to claim 1, characterized in that the guiding element (20) is made from sheet material, in particular metal sheet.

13. Inhaler according to claim 1, characterized in that the mounting portion (21) is at least essentially straight.

14. Inhaler according to claim 1, characterized in that the mounting portion (21) or corrugation (22) is bent or folded.

15. Inhaler according to claim 1, characterized in that the mounting portion (21) is held or pressed or inserted between two stationary holding portions, preferably formed by a housing (19) of the inhaler (1).

16. Inhaler according to claim 1, characterized in that the guiding element (20) is electrically or electrophoretically polished.

17. Inhaler according to claim 1, characterized in that the inhaler (1) comprises a conveyor (5) for pushing the blister strip (2) into the guiding element (20).

18. Inhaler according to claim 1, characterized in that the inhalation formulation is powder (10) and/or that the blister pockets (3) contain the inhalation formulation in loose form.

19. Inhaler according to claim 1, characterized in that the blister strip (2) does not form a closed loop and is not endless.