阅读说明：本技术 干粉吸入器 (Dry powder inhaler ) 是由 维克托·埃斯特韦 于 2017-12-13 设计创作，主要内容包括：本发明提供一种用于含有干粉的胶囊的干粉吸入器(2),所述干粉吸入器(2)包括：具有嘴部部分的嘴件(14),其中所述嘴部部分的开口通向导管中；一件式基体(10),其包括胶囊腔室部分并且附接到覆盖体(6)；以及致动器按钮(8),其能相对于所述一件式基体(10)沿着致动方向从正常位置移动到穿孔位置,其中所述致动方向垂直于所述纵向轴线,并且其中当所述致动器按钮(8)处于所述穿孔位置时,附接到所述致动器按钮(8)的穿孔针延伸到所述胶囊腔室中。(The present invention provides a dry powder inhaler (2) for capsules containing dry powder, the dry powder inhaler (2) comprising: a mouthpiece (14) having a mouth portion, wherein an opening of the mouth portion opens into the conduit; a one-piece base (10) comprising a capsule chamber portion and attached to the cover (6); and an actuator button (8) movable relative to the one-piece base body (10) from a normal position to a piercing position along an actuation direction, wherein the actuation direction is perpendicular to the longitudinal axis, and wherein a piercing needle attached to the actuator button (8) extends into the capsule chamber when the actuator button (8) is in the piercing position.)

1. A dry powder inhaler (2) for capsules containing dry powder, the dry powder inhaler (2) comprising:

-a mouthpiece (14) having a mouth portion, wherein an opening of the mouth portion opens into the conduit;

-a covering body (6);

-a one-piece base body (10) comprising a capsule cavity portion and being attached to the cover body (6), wherein a base body (10) arranged towards the mouthpiece (14) opens into a capsule cavity of the capsule cavity portion, wherein the conduit and the capsule cavity extend along a common longitudinal axis when the mouthpiece (14) abuts the base body (10), and wherein a hinge directly connects the mouthpiece (14) and the one-piece base body (10); and

-an actuator button (8) movable relative to the one-piece base body (10) from a normal position to a piercing position along an actuation direction, wherein the actuation direction is perpendicular to the longitudinal axis, and wherein a piercing needle attached to the actuator button (8) extends into the capsule chamber when the actuator button (8) is in the piercing position.

2. The dry powder inhaler (2) according to claim 1, further comprising:

-an intermediate piece attached to the distal end of the conduit of the mouthpiece (14); and

-a screen member attached to the intermediate member.

3. The dry powder inhaler (2) according to claim 2, wherein the intermediate piece is held solely by means of a first annular snap connection, wherein the screen piece is held solely by means of a second annular snap connection.

4. The dry powder inhaler (2) according to any of claims 2 to 3, wherein the one-piece base body (10) comprises an annular groove arranged around the base body (10) opening, and wherein the intermediate piece comprises an annular distal end for engaging with the annular groove.

5. The dry powder inhaler (2) according to any of claims 2 to 4, wherein the intermediate piece and/or the screen piece has an inner diameter larger than the inner diameter of the conduit.

6. The dry powder inhaler (2) according to any of the preceding claims, wherein the inner diameter of the conduit of the mouthpiece (14) is smaller than the inner diameter of the capsule chamber.

7. The dry powder inhaler (2) according to any of the preceding claims, wherein the one-piece base body (10) is attached to the cover body (6) by means of a latching connection.

8. The dry powder inhaler (2) according to claim 7, wherein the one-piece base body (10) comprises a ratchet to which the latch is connected and an outer surface opposite the ratchet; and wherein the covering body (6) comprises:

-a first inner protrusion for a third latch connection, the first inner protrusion comprising a hole receiving a ratchet of the one-piece base body (10); and

-a second inner protrusion abutting an outer surface of the one-piece base body (10).

9. The dry powder inhaler (2) according to claim 7 or 8, wherein the cover body (6) further comprises an opening having an inward cutout for receiving a plate portion of the one-piece substrate (10), and wherein the one-piece substrate (10) further comprises the plate portion having an outward edge at least partially contacting the inward cutout.

10. The dry powder inhaler (2) according to any of the preceding claims, wherein the actuator button (8) comprises guide members protruding from the button body and at least partially enclosing the capsule chamber portion.

11. The dry powder inhaler (2) according to any of the preceding claims, wherein a guide channel is formed for each guide member by the capsule chamber portion and the inner support protrusion of the cover body (6).

12. A method of manufacturing a dry powder inhaler (2) according to any of the preceding claims, the method comprising:

-attaching the intermediate piece to the distal end of the conduit of the mouthpiece (14);

-attaching the screen member to the intermediate member;

-attaching the actuator button (8) to the one-piece base body (10);

-attaching the one-piece base body (10) to the cover body (6); and

-attaching the mouthpiece (14) to the one-piece base body (10) to provide articulation.

13. A dry powder inhaler (2) for capsules containing dry powder, the dry powder inhaler (2) comprising:

-a mouthpiece (14) having a hinge section;

-a covering body (6);

-a one-piece base (10) comprising a capsule chamber portion and attached to the cover (6), wherein a hinge directly connects the mouthpiece (14) and the one-piece base (10), wherein a hinge section of the mouthpiece (14) is connected to a hinge section of the one-piece base (10) via a ball joint snap connection for pivoting about a hinge axis.

14. The dry powder inhaler (2) according to claim 13, wherein the hinge axis of the hinge is arranged at an angle of inclination in the range of 40 ° to 50 ° with respect to the actuation direction.

15. The dry powder inhaler (2) according to claim 13 or 14, wherein the hinge axis is arranged in a plane perpendicular to a central longitudinal axis (28) of the inhaler (2).

Technical Field

The present invention relates to dry powder inhalers.

Background

US5947118 discloses a capsule holder for inserting and securing a pharmaceutical capsule comprising a plate with a recess, wherein there are at least three ribs arranged parallel to the central axis and at unequal distances from each other, between which ribs the capsule can be clamped at its upper and lower parts, so that it does not fall off during normal handling, but is easily removed.

GB2151491 discloses an inhalation device for the inhalation of powdered materials, in particular micronized pharmaceutical ingredients from capsules. There is provided a chamber for receiving a capsule having an internal width of about 1.1 to 2.5 times the diameter of the capsule and an internal length of at least about 1.02 times the length of the capsule and less than 2.0 times the length of the capsule, and comprising an air inlet at one narrow end and an air outlet at the other end, whereby during inhalation by the inhalation device the capsule is set to vibrate to provide enhanced expulsion and fragmentation of the powdered material.

WO2015054124 discloses a dry powder inhaler comprising: a dry powder medicament comprising fluticasone propionate, salmeterol xinafoate, and a lactose carrier; wherein the delivered dose of salmeterol per actuation is less than 50 μ g; and wherein the dose provides a baseline adjusted FEV1 in excess of 150mL for the patient within 30 minutes after receiving the dose.

WO03084502 discloses a method of administering a powder formulation containing tiotropium bromide via inhalation.

US2007240713 discloses an inhaler for administering a medicament in the form of an inhalable substance, formulation or mixture of substances, which comprises a housing having an internal cavity for holding the medicament, the internal cavity being coupled to a mouthpiece. The housing is securely connected to the mouthpiece.

Disclosure of Invention

In view of this, it is an object of the present invention to provide an improved dry powder inhaler.

Drawings

FIG. 1 is a schematic side view of a closed dry powder inhaler;

FIG. 2 is a schematic side view of a dry powder inhaler without a protective cap;

FIG. 3 is a schematic cross-sectional view of the inhaler in the xz plane;

figure 4 is a schematic cross-sectional view of the inhaler in the yz plane;

FIG. 5 is a schematic cross-sectional view of the inhaler showing the hinge;

figures 6, 8 and 9 show schematic perspective views of a dry powder inhaler, respectively; and is

Fig. 7 shows a schematic flow chart.

Detailed Description

Fig. 1 is a schematic side view of a closed dry powder inhaler 2. The dry powder inhaler 2 comprises a protective cap 4, a cover 6, and an actuator button 8.

Fig. 2 is a schematic side view of the dry powder inhaler 2 without the protective cap 4 of fig. 1. The one-piece base body 10 is attached to the cover body 6 and extends partially into the cover body 6. The hinge section 12 protrudes from the base body 10 in the z-direction. Yet another hinge segment of the mouthpiece 14 locks with the hinge segment 12 and a hinge 16 is provided between the mouthpiece 14 and the base 10. The hinge 16 is configured such that the mouthpiece 14 is rotatable about an axis 120 and relative to the base 10.

The base body 10 and the mouthpiece 14 together close an opening 18 which opens into the inner space between the cover 6 and the base body 10. According to the arrows 20, air can flow from outside the inhaler 2 into the interior volume between the base body 10 and the cover body 6.

Fig. 3 is a schematic cross-sectional view of the inhaler 2 according to the centre plane xy of the inhaler 2. Mouthpiece 14 includes a mouth portion 22 having an opening 24, the opening 24 leading into a cylindrical conduit 26. The conduit 26 extends along a central longitudinal axis 28 of the inhaler 2. A further opening of the conduit 26 is arranged towards the substrate 10. The mouthpiece 14 includes a base section 30 for engagement with the substrate 10. The concave recess 32 is arranged between the base section 30 and the mouth portion 22.

The intermediate piece 34 is attached to the distal end 36 of the catheter 26. An annular outer protrusion 40 at the outer surface of the distal end 36 engages a form-fitting annular inner recess 38 of the intermediate piece 34. The recess 38 is arranged in a bore of the intermediate piece 34, which extends along the longitudinal axis 28 and has an opening arranged towards the mouth portion 22. Thus, an annular snap-fit connection is provided between the intermediate piece 34 and the mouthpiece 14.

The annular outer protrusion 40 of the screen element 44 engages the form-fitting annular inner recess 46 of the intermediate element 34. The recess 46 is arranged in a bore of the intermediate piece 34, which bore extends along the longitudinal axis 28 and has an opening arranged towards the basic body 10. The screen member 44 includes a screen 48 that prevents larger particles from entering the conduit. Thus, an annular snap connection is provided between the intermediate piece 34 and the screen piece 44. The screen member 44, intermediate member 42 and mouthpiece 14 are preferably made of a plastic material.

In the illustrated closed position of the mouthpiece 14, the outer annular surface 49 of the screen 44 abuts an opposing annular surface 54 of the base 10. The surface 49 faces the substrate 10. The annular surface 54 is surrounded by the annular groove 50 of the base 10. A distal annular projection 56 of intermediate piece 34 engages groove 50.

The intermediate piece 34 has an inner diameter that increases in a direction opposite the z-direction (i.e., the suction direction 68) that leads to the inner diameter 58. The inner diameter 58 is provided by the screen member 44 and allows for increased air turbulence as the mixture of air and dry powder passes through the screen 48. The inner diameter 58 also allows the screen 48 to have a diameter at least equal to the inner diameter 60 of the conduit 36.

The capsule chamber portion 62 of the matrix 10 comprises a capsule chamber 64 and an air inlet section 70, which extends along the longitudinal axis 28. The air inlet section 70 is in fluid connection with the surrounding area of the inhaler 2. The capsule chamber 64 extends along the longitudinal axis 28. The capsule chamber 64 has an inner diameter 69 that is greater than the inner diameter 60 of the conduit 36 but less than the inner diameter 58 of the screen member 44. The air inlet section 70 comprises a through hole connecting the capsule chamber 64 and the inner space between the cover 6 and the base body 10. The through hole of the air inlet section 70 has an inner diameter 72 which is smaller than the inner diameter 69, thus providing a seat for the capsule 66 and providing that air can enter the capsule chamber 64 in the suction direction 68. The capsule chamber 64 and the conduit are configured about a central common axis 28.

The air inlet section 70 includes outer ratchet teeth 84 that project from the outer surface of the air inlet section 70 perpendicular to the axis 28. Ratchet 84 snaps into a hole 86, which extends perpendicular to axis 28 and is part of a first inner protrusion 88 of cover 6. Thus, the ratchet 84 and the opening provide a snap connection 82 to establish a form fit in the z-direction. The first inner projection 88 projects parallel to the axis 28 into the interior of the cover 6. The outer surface of the air inlet section 70 at least partially abuts the surface of the first inner protrusion.

A second inner projection 90 projects parallel to the axis 28 into the inner space of the cover. The second inner projection 90 provides a surface 91 that abuts an outer surface 92 of the capsule chamber portion 62. Thus, the surface 91 provides a counterpart of the abutment surface at the snap connection 82. The abutment surfaces between the capsule chamber portion 62 and the projections 88 and 90 provide a form fit along the x-axis.

In order to permanently attach the base 10 to the cover 6, the cover 6 is provided with an inner annular cut-out 96 at the first opening 94 of the cover. The base body 10 includes a plate portion 98 for closing the opening 94. The edge 100 of the plate portion 98 engages in the cut-out 96, providing a form fit in the opposite direction to the z-direction and in the xy-plane. The snap connection 82 and the elements involved, like the ratchet 8, match the cut-outs 96 and the edges 100 in order to provide a secure attachment of the cover 6 to the base body 10.

The actuator button 8 is guided in the inner space between the cover 6 and the base body 10. The two piercing needles 76, 78 extend perpendicularly to the axis 28 and are arranged along a middle plane xz of the inhaler 2. The actuator button 8 is movable in an actuating direction 101 relative to the one-piece base body 10 from the shown normal position into a piercing position. The actuation direction 101 is perpendicular to the longitudinal axis 28. When the actuator button is in the piercing position, the piercing needles 76, 78 attached to the actuator button 8 extend into the capsule chamber. A helical spring is arranged between the base body 10 and the actuator button 8 in order to bring the actuator button 8 from the piercing position into the normal position when the actuator button 8 is not actuated.

In the event that the mouthpiece 14 rotates about the hinge, the mouthpiece 14 releases the opening 52 of the capsule chamber 64. Through the opening 52, a capsule 66 is introduced into the capsule chamber 64. The mouthpiece 14 is then rotated about the hinge to close the opening 52. By using the actuator button 8, the capsule 66 is pierced at its opposite end in order to release the dry powder from the capsule 66 to the capsule chamber 64. The person then inhales the powdered air mixture by closing the mouth portion 22 with his lips and sucking the powdered air mixture into his lungs.

Fig. 4 is a schematic cross-sectional view of the inhaler 2 in the yz plane. The actuator button 8 comprises guide members 102 and 104 protruding from the button body of the actuator button in the x-direction, and the actuator button 8 is movable along the x-axis. The guide members 102 and 104 at least partially surround the capsule chamber portion 62, wherein the capsule chamber portion 62 provides outer guide surfaces 103 and 105. Surfaces 103 and 105 face away from each other. Thus, the guide members 102, 104 and the capsule chamber portion 62 provide a form fit along the y-axis. A guide channel is formed for each guide member 102, 104 by the inner support projections 110 and 112 of the cover 6 and the L-shaped cut of the capsule chamber portion 62. The L-shaped cut-outs comprise respective surfaces 106, 108 facing away from the opening 52 of the capsule chamber 64. The projections 110, 112 include respective surfaces 114, 116 that face the opening 52. The capsule chamber portion 62 and the protrusion 110 enclose the guide member 102, providing a form fit along the z-axis. The capsule chamber portion 62 and the protrusion 112 enclose the guide member 104, providing a form fit along the z-axis.

Fig. 5 is a schematic cross-sectional view of the inhaler 2 showing the hinge 16. The hinge axis 120 of the hinge 16 is arranged at an inclination angle in the range of 40 ° to 50 ° with respect to the actuation direction x. The hinge axis 120 is arranged in the xy-plane and thus in a plane perpendicular to the aforementioned longitudinal axis 28 of fig. 3 and 4. The hinge section 122 of the mouthpiece 14 includes two hemispherical cutouts facing each other on the axis 120. The hinge section 124 of the basic body 10 comprises two hemispherical protrusions facing away from each other in order to engage corresponding hemispherical cutouts. Thus, a direct ball joint snap connection for pivoting of the mouthpiece 14 about the hinge axis 120 is provided between the mouthpiece 14 and the base 10.

Fig. 6 shows a schematic perspective view of a dry powder inhaler 2 with an open mouthpiece. The latch 130 of the mouthpiece 14 engages the base 10. The screen elements 44 provide tessellated openings. The hinge 12 is arranged towards the actuation button 8. The base body 10 includes an opening 19 corresponding to the opening 18. The opening 19 of the base body opens into the volume between the base body 10 and the cover body 6 in order to provide an air passage from the exterior of the inhaler into the capsule chamber 64.

Fig. 7 shows a schematic flow diagram for manufacturing an inhaler. In step 702, an intermediary piece is attached to the distal end of the catheter of the mouthpiece via a first non-detachable annular snap connection. In step 704, the screen member is attached to the intermediate member via a second non-detachable annular snap connection. In step 706, the actuator button is attached to the one-piece base, which involves inserting the needle into the corresponding guide section, inserting the spring and inserting the guide member into the respective guide channel. In step 708, the one-piece base is attached to the cover via the form-fitting element and the latching connection. In step 710, a mouthpiece is attached to a one-piece base to provide articulation. In step 712, the protective cover is attached to the base via a releasable snap connection.

Fig. 8 shows a schematic perspective view of an embodiment of the dry powder inhaler 2. Unlike fig. 6, the screen member 44 provides a spider-web shaped opening structure.

Fig. 9 shows a schematic perspective view of an embodiment of the dry powder inhaler 2. Unlike fig. 6, the screen member 44 provides a cross-shaped opening structure.