JP3685671B2 - Inhaler - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an inhalation-type dispenser suitable for use in administering a powdery medicine (drug) into a lung by inhaling a patient's breath, for example.
[0002]
[Prior art]
In general, inhalation-type dispensers used for inhaling medicinal powder filled in capsules among medicinal administration methods for asthma patients, etc., one side in the axial direction serves as a capsule storage chamber and the other side inhales medicinal powder. It is roughly constituted by a prescription device body that becomes an inhalation port, an air passage that communicates the atmosphere side with the air intake port via the capsule housing chamber, and a punch that opens a hole that communicates with the air passage in the capsule Has been.
[0003]
Some inhalation-type dosing devices administer medicinal powder using a blister pack in which a plurality of medicinal powder containing parts are provided in the circumferential direction. Are known, for example, from JP-A-59-88158 and JP-A-62-41668.
[0004]
This inhalation-type dispensing device according to the prior art includes a blister pack holder that holds a blister pack, and the blister pack holder is rotatably attached to the body of the dispensing device.
[0005]
Then, when administering medicinal powder, a hole communicating with the suction port is made in the medicinal powder housing part of the blister pack arranged at the perforating position (medication position) by a single plunger having a needle shape. As a result, the patient can suck the powder in the powder container from the suction port into the lungs by sucking in through the suction port.
[0006]
Also, at the time of the next medication, the blister pack is rotated together with the blister pack holder, the other powder container is placed at the drilling position, and the capsules are exchanged by performing the same operation as described above. Without being able to inhale medicinal powder.
[0007]
[Problems to be solved by the invention]
By the way, since the inhalation-type prescription device according to the above-mentioned prior art has a hole in the powder container of the blister pack by one plunger, the drug container has two holes penetrating almost straight. Will be formed. For this reason, the airflow which flows in into a powder-powder accommodating part distribute | circulates the inside of a powder-powder accommodating part linearly between two holes.
[0008]
Therefore, since the air flow cannot diffuse the powder in the powder container, the powder remains in the powder container, and the prescribed amount of powder cannot be inhaled. There is a problem that decreases.
[0009]
The present invention has been made in view of the above-described problems of the prior art, and an object of the present invention is to allow the powder in the powder container of the blister pack to be diffused and to be a prescribed amount stored in the powder container. It is an object to provide an inhalation-type dosing device that can administer the above powder to a patient.
[0010]
[Means for Solving the Problems]
In order to solve the above-described problems, the configuration adopted by the invention of claim 1 includes a prescription device main body in which one side in the axial direction is a holder mounting portion and the other side is an inhalation port for inhaling medicinal powder, and the prescription device A holder for holding a blister pack that is detachably attached to a holder mounting portion of the main body and that is rotatably provided with a plurality of powder powder storage portions formed in the circumferential direction, and a blister provided in the prescription device main body and held by the holder An inflow side air passage that supplies air toward the powder powder storage part of the pack, and a powder powder in the powder powder storage part of the blister pack that is provided in the prescription device main body and is held by the holder is caused to flow toward the suction port. An outflow side air passage, an inflow hole that communicates with the inflow side air passage, and a drilling tool that opens an outflow hole that communicates with the outflow side air passage. intake which is formed by good Ri configuration In the type prescription device, the holder mounting portion of the prescription device main body is provided with a holder mounting groove that opens in three directions between the upper plate portion and the lower plate portion, and the holder is detachably mounted in the holder mounting groove. Ruhobo you are characterized in that it is formed as a circular plate-like body.
[0011]
By comprising in this way, a blister pack is hold | maintained at a holder and a holder is mounted | worn with the holder mounting part of a prescription device main body. Next, one of the powder container parts of the blister pack is disposed at a position where a hole is drilled, and the hole and the outflow side communicate with the powder container part through the inflow side air passage. Make an outflow hole that communicates with the air passage. In this state, if you breathe in through the suction port, the air flows into the powder container through the inflow passage and inflow hole, and the powder air flow containing the powder is outflow hole and outflow passage. Through the inlet and into the lungs.
[0012]
At the time of inhalation of the powder, the air flow flowing from the inflow hole to the outflow hole does not flow linearly but collides with the inner wall or the like and generates turbulence in the powder storage section. The powder in the container can be diffused, and most of the powder in the powder container can be supplied to the suction port side. The holder mounting portion of the prescription device main body can be formed simply by forming a holder mounting groove between the upper plate portion and the lower plate portion, and a holder forming a plate-like body is inserted into the holder mounting groove. As a result, an inhalation-type dispensing device can be formed, and the number of parts can be reduced.
[0013]
On the other hand, the feature of the configuration adopted by the invention of claim 2 is that the holder mounting portion of the prescription device body is provided with a protrusion serving as the center of rotation of the holder, and the powder container of the blister pack is fitted to the holder on the surface side. a plurality of fitting recesses for engagement provided, there the protrusion on the back side that has a structure in which Ru is provided a guide groove for guiding to the rotational center of the holder.
[0014]
By configuring in this way, the blister pack is placed on the surface side of the holder, and the blister pack is fitted to the fitting recess so that the blister pack is positioned integrally with the holder. Can do. When the holder is mounted on the holder mounting portion of the prescription device body, the guide groove on the back side is engaged with the protrusion provided on the holder mounting portion, and the holder is mounted with the guide groove being along the protrusion. By mounting in the groove, the holder can be mounted in a positioning state at a position with the protrusion as the rotation center.
[0015]
Moreover, according to invention of Claim 3, between the holder mounting part of a prescription device main body, and a holder, one drug powder storage part of each powder powder storage part of the blister pack hold | maintained at the holder is made with a punch. A positioning means is provided to be arranged at the drilling position .
[0016]
With this configuration, when the holder holding the blister pack is mounted on the holder mounting portion of the prescription device main body, and the holder is rotated with respect to the prescription device main body, the positioning means can store one drug powder. When the part is arranged at the drilling position by the drilling tool, the rotation of the holder is stopped, and the drug powder container is positioned at the drilling position.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an inhalation-type dispenser according to an embodiment of the present invention will be described in detail with reference to FIGS.
[0020]
Reference numeral 1 denotes a main body of the inhaler-type prescription device. The main body 1 of the prescription device is roughly constituted by a body 2 and an inhalation port 7 which will be described later.
[0021]
Reference numeral 2 denotes a body forming a holder mounting portion of the prescription device main body 1. The body 2 connects an upper plate portion 4 and a lower plate portion 5, which will be described later, as shown in FIGS. A cylindrical connecting portion 3 to be attached, a semi-columnar upper plate portion 4 extending in the axial direction from the connecting portion 3, and an axial direction extending from the connecting portion 3 with a gap below the upper plate portion 4. In addition, the lower plate portion 5 having a semi-cylindrical shape and a holder mounting groove 6 (described later) formed between the respective plate portions 4 and 5 form a substantially cylindrical shape as a whole. A female screw 3A into which the suction port 7 is screwed is formed on the inner peripheral side of the connecting portion 3, and a support portion 13 of a drilling tool 12 described later is movably supported on the outer peripheral side of the upper plate portion 4. A drilling tool guide 4A is provided.
[0022]
Reference numeral 6 denotes a holder mounting groove provided in the body 2, and the holder mounting groove 6 has a groove inner surface 6 </ b> A on the connecting portion 3 side, a lower surface of the upper plate portion 4 as a ceiling surface 6 </ b> B, and an upper surface of the lower plate portion 5. Is formed as a bottom surface 6C. Thereby, the holder mounting groove 6 is formed to open in three directions, that is, one side in the axial direction, left direction, and right direction. Further, the groove inner surface 6 </ b> A has a concave arc shape corresponding to the outer peripheral shape of the holder 8. Furthermore, a gap dimension slightly larger than the thickness dimension of the holder 8 described later is set between the ceiling surface 6B and the bottom surface 6C.
[0023]
Further, the holder mounting groove 6 is provided with a central projection 6D which is located approximately at the center of the bottom surface 6C and protrudes upward. The central projection 6D serves as a rotation center of the holder 8 and is formed in a guide groove 8E which will be described later. Engage.
[0024]
Reference numeral 7 denotes a suction port attached to the connecting portion 3 of the body 2. The suction port 7 has a male screw 7A formed on the outer periphery on the base end side, and the distal end side is gradually reduced in diameter. Further, a plurality of auxiliary vent holes 7B, 7B,... (Only two are shown) are formed in the radial direction near the proximal end side of the suction port 7, and the auxiliary vent hole 7B is formed in the suction port 7. When breathing in from the outside, the outside air is taken into the suction port 7 to reduce the difficulty of breathing during inhalation. The suction port 7 is attached to the body 2 by screwing the male screw 7 </ b> A to the female screw 3 </ b> A of the connecting portion 3.
[0025]
A holder 8 is detachably mounted on the holder mounting groove 6 of the body 2 so as to be rotatable. The holder 8 is formed as a substantially circular plate-like body as shown in FIGS. Further, on the surface side of the holder 8, there are eight fitting recesses 8A, 8A,... Which are located closer to the outer periphery and into which bulging portions 16B of a blister pack 16 described later are fitted at intervals of 45 degrees in the circumferential direction. Formed in a semi-cylindrical depression extending in the direction, and in each fitting recess 8A, an inflow side pin hole 8B and an outflow side pin hole 8C penetrate in the thickness direction so as to be spaced apart in the radial direction of the holder 8. Is formed.
[0026]
On the other hand, on the back side of the holder 8, there are eight engagement recesses 8D, 8D,... At 45 degree intervals corresponding to the pin holes 8B, 8C on the inner peripheral side than the pin holes 8B on the inflow side. A spherical body 9B of a positioning mechanism 9 to be described later is engaged with each engaging recess 8D. A guide groove 8E extending in the radial direction from the rotation center of the holder 8 is provided on the back surface side of the holder 8, and the guide groove 8E guides the central protrusion 6D of the holder mounting groove 6 to the rotation center of the holder 8. Is.
[0027]
The holder 8 can rotate into the holder mounting groove 6 by engaging the guide groove 8E with the center protrusion 6D and inserting it into the holder mounting groove 6 while holding the blister pack 16 to be described later on the surface side. It is attached to.
[0028]
Reference numeral 9 denotes a positioning mechanism (see FIG. 5) provided as a positioning means provided on the body 2. The positioning mechanism 9 is positioned so as to sandwich the center projection 6D as shown in FIGS. Two receiving holes 9A, 9A recessed in the bottom surface 6C (lower plate portion 5), spheres 9B, 9B received in the receiving holes 9A, 9A in a state of being retained, and the receiving holes 9A, 9A Coil springs 9C and 9C which are located inside and bias the spherical bodies 9B and 9B in the protruding direction.
[0029]
Then, when the positioning mechanism 9 mounts the holder 8 in the holder mounting groove 6 and rotates the holder 8 in this state, the positioning body 9 engages the spherical body 9B with the engaging recess 8D of the holder 8, and each fitting recess One of 8A (the powder container 16D of the blister pack 16) is positioned at a position where a hole is drilled by a punching tool 12, which will be described later, that is, a position where a powder is administered.
[0030]
Reference numeral 10 denotes an inflow side air passage provided in the body 2, and the inflow side air passage 10 circulates external air toward the fitting recess 8 </ b> A of the holder 8. The inflow side air passage 10 extends in the axial direction in the upper plate portion 4, and extends in the axial direction in the upper inflow passage 10 </ b> A having one end side opened to the atmosphere side at the end face of the upper plate portion 4 and the lower plate portion 5. The upper plate portion 4 and the lower plate portion so that one end side communicates with the other end of each of the inflow passages 10A and 10B from the inside of the punch guide 4A and the lower inflow passage 10B opened to the atmosphere side at the end face of the lower plate portion 5. The pin insertion hole 10 </ b> C is formed at a position where the pin insertion hole 10 </ b> C can communicate with the pin hole 8 </ b> B of the holder 8.
[0031]
Reference numeral 11 denotes an outflow side air passage provided in the body 2, and the outflow side air passage 11 allows the powder in the powder storage part 16 </ b> D of the blister pack 16 to flow out toward the suction port 7. The outflow side air passage 11 is connected to the pin insertion hole 11 </ b> A extending in parallel with the pin insertion hole 10 </ b> C of the inflow side air passage 10 so as to communicate with the pin hole 8 </ b> C of the holder 8. An upper outlet passage 11B having one end side communicating with the pin insertion hole 11A and having the other end opened into the suction port 7, and extending from the lower plate portion 5 to the connecting portion 3 in the axial direction. The lower end passage 11 </ b> C communicates with the pin insertion hole 11 </ b> A on the side and the other end side opens into the suction port 7.
[0032]
12 is a drilling tool for drilling a blister pack 16 to be described later. As shown in FIG. 1, the drilling tool 12 has a support part 13 movably supported in a drilling tool guide 4A, and a base end side of the drilling tool 12 The front end side of the pins 14 and 14 is attached to the support portion 13 and extends into the pin insertion holes 10C and 11A, and the return spring 15 is provided between the support portion 13 and the upper plate portion 4. Yes.
[0033]
Here, the drilling tool 12 pushes the support portion 13 against the return spring 15 into the drilling tool guide 4A, and inserts the pins 14 and 14 into the pin insertion holes 10C and 11A. The inflow hole H1 and the outflow hole H2 (shown in FIGS. 10 and 11) are formed in the bulging portion 16B and the cover plate 16C of the bottom plate 16A defining the powder container 16D. ). When the pressing force to the support portion 13 is removed, the support portion 13 and the pins 14 and 14 are retracted to the initial position by the urging force of the return spring 15.
[0034]
On the other hand, 16 is a blister pack applied to the inhalation-type dispenser according to the present embodiment, and the blister pack 16 is formed in a thin disk shape using a resin material or the like as shown in FIGS. A bottom plate 16A having a large number of bulging portions 16B over the entire circumference, and a cover plate 16C formed in a thin disk shape using an aluminum material, a resin material, or the like, and attached to the surface of the bottom plate 16A; It is constituted by. Here, each bulging portion 16B provided on the bottom plate 16A is located at an outer peripheral position of the bottom plate 16A and is disposed at eight positions at intervals of 45 degrees in the circumferential direction, and is formed with a substantially cylindrical bulge extending in the radial direction. ing.
[0035]
And between the bulging part 16B and the cover plate 16C, this bulging part 16B is obstruct | occluded (sealed) by the cover plate 16C, and the medicinal powder storage part 16D is defined among these. Further, a powdery medicine (hereinafter referred to as a medicine powder) is housed in the medicine powder container 16D.
[0036]
The inhalation-type dispenser according to the present embodiment has the above-described configuration. Next, the preparation operation until the patient inhales the powder and the flow of air and powder during the inhalation will be described.
[0037]
First, the holder is removed from the holder mounting groove 6 of the body 2. In this case, the guide groove 8 </ b> E formed in the holder 8 can be disposed on the suction port 7 side and removed by pulling out the holder 8 against the positioning mechanism 9.
[0038]
Next, the blister pack 16 is arranged on the surface side of the removed holder 8. At this time, each blister pack 16 can be positioned with respect to the holder 8 by fitting each bulging portion 16B (drug container 16D) of the blister pack 16 to each fitting recess 8A of the holder 8, and both It can be rotated integrally.
[0039]
When the blister pack 16 is thus placed on the holder 8, the holder 8 is mounted in the holder mounting groove 6. In this case, with the guide groove 8E facing the suction port 7, the center protrusion 6D is engaged with the guide groove 8E, and the holder 8 is pushed into the holder mounting groove 6. Then, when the holder 8 is completely pushed in, the spherical body 9B of the positioning mechanism 9 is engaged with the engaging recess 8D of the holder 8 by rotating the holder 8 in an arbitrary direction. Accordingly, as shown in FIG. 9, one of the drug powder storage portions 16 </ b> D of the blister pack 16 can be positioned at a drilling position (drug powder dispensing position) by the drilling tool 12.
[0040]
Next, the operation when inhaling medicinal powder will be described. First, the support part 13 of the drilling tool 12 is pressed in order to make a through hole in the blister pack 16 arranged at the drilling position. Then, as shown in FIGS. 10 and 11, an inflow hole H1 communicating with the inflow side air passage 10 is formed in the bulging portion 16B and the cover plate 16C by the pin 14 on one side, and the bulging portion is formed by the pin 14 on the other side. An outflow hole H2 communicating with the outflow side air passage 11 is formed in 16B and the cover plate 16C. Thereby, the powder container 16D of the blister pack 16 communicates with the inflow side air passage 10 through the inflow hole H1, and communicates with the outflow side air passage 11 through the outflow hole H2.
[0041]
Next, when the patient holds the suction port 7 in his / her mouth and inhales in this state, the air flows through the inflow side air passage 10 and the inflow hole H1 into the powder container 16D. At this time, since the inflow hole H1 and the outflow hole H2 are spaced apart from each other, the air flow flowing into the powder storage part 16D from the inflow hole H1 collides with the inner surface of the powder storage part 16D. Then, turbulence is generated, and the contained powder is diffused and atomized. As a result, almost all of the powder in the powder container 16D can be discharged together with the air flow to the suction port 7 side through the outflow hole H2 and the outflow side air passage 11, and a prescribed amount of powder can be obtained. It can be inhaled into the lungs through the patient's mouth and trachea.
[0042]
Further, when performing the second dispensing operation, the holder 8 is rotated by 45 degrees, and the spherical body 9B of the positioning mechanism 9 is engaged with the adjacent engaging recess 8D. And by performing the drilling operation | movement and suction | inhalation operation | movement which were mentioned above, medicinal powder can be continuously inhaled. After eight doses are thus performed, the holder 8 is removed and the blister pack 16 is replaced with a new one.
[0043]
As described above, according to the present embodiment, the inflow hole H1 communicating with the inflow side air passage 10 to the blister pack 16 and the outflow side air passage 11 are connected to the blister pack 16 by the two pins 14 and 14 provided in the drilling tool 12. Since the communicating outflow hole H2 can be formed apart from each other, a turbulent flow can be generated in the medicinal powder container 16D by the airflow flowing from the inflow hole H1 toward the outflow hole H2, and the medicinal powder The powder in the container 16D can be diffused and atomized. As a result, the prescribed amount of powder stored in the powder storage unit 16D can be administered to the patient, and the efficacy of the powder can be enhanced and the reliability of the inhalation-type dispenser can be improved.
[0044]
Further, an engagement recess 8D is provided on the back side of the holder 8, and the holder mounting groove 6 is engaged with the engagement recess 8D so that the powder container 16D of the blister pack 16 is positioned at the position where the punching tool 12 is to be punched (medication). Since the positioning mechanism 9 for positioning is provided at the position), the powder container 16D of the blister pack 16 can be accurately and easily positioned. Thereby, accurate drilling can be performed and handling can be facilitated.
[0045]
Further, an upper plate portion 4 and a lower plate portion 5 are provided on the body 2 of the prescription device main body 1 via the connecting portion 3, and a holder mounting groove 6 is formed between the plate portions 4, 5. Since the inhalation-type prescription device is assembled by attaching the disc-shaped holder 8 to the device, the number of parts can be reduced, and the assembling workability can be improved and the cost can be reduced.
[0046]
On the other hand, since eight fitting recesses 8A are provided in the circumferential direction on the surface side of the holder 8, the bulging portions 16B of the blister pack 16 can be fitted and positioned in the respective fitting recesses 8A. The holder 8 and the blister pack 16 can be rotated integrally, and the operability can be improved.
[0047]
Further, a guide groove 8E that engages with the center protrusion 6D of the holder mounting groove 6 is provided on the back surface side of the holder 8, and the center protrusion 6D can be guided to the center of rotation of the holder 8. 8 can be mounted accurately and easily at a predetermined position, and handling can be facilitated.
[0048]
In the embodiment, the case where the blister pack 16 is provided with eight bulging portions 16B (drug storage portions 16D) in the circumferential direction has been described as an example, but the present invention is not limited thereto. For example, you may use the blister pack in which 2 or more, 7 or less, or 9 or more bulging parts were provided. In this case, the number of fitting recesses 8A, pin holes 8B and 8C, and engagement recesses 8D of the holder 8 may be made to correspond to the number of bulging portions.
[0049]
【The invention's effect】
As described above in detail, according to the first aspect of the invention, the inhalation-type prescription device includes a main body of the prescription device in which one side in the axial direction is a holder mounting portion and the other side is an inhalation port for inhaling medicinal powder; A holder for holding a blister pack that is detachably mounted on a holder mounting portion of the device main body and that is rotatably provided with a plurality of drug powder storage portions formed in the circumferential direction; and provided in the prescription device main body and held by the holder An inflow side air passage that supplies air toward the powder storage part of the blister pack, and the powder in the powder storage part of the blister pack that is provided in the prescription device main body and held by the holder flows out toward the suction port. an outflow air passage to Ru is, the outflow holes drilling tool for communicating with the outflow air passage and inlet hole communicating with the inlet air passage to the medicine powder accommodating portion of the blister pack is provided on the dosing body constituted by the dosing The holder mounting portion of the main body is provided with a holder mounting groove that opens in three directions between the upper plate portion and the lower plate portion, and the holder is a substantially circular plate-like body that is detachably mounted in the holder mounting groove. Forming .
[0050]
Therefore, by mounting the holder holding the blister pack on the holder mounting portion of the prescription device main body and disposing one of the powder storage portions of each of the powder storage portions of the blister pack at the drilling position by the drilling tool, By means of the tool, an inflow hole communicating with the inflow side air passage and an outflow hole communicating with the outflow side air passage can be formed in the powder powder container. In this state, inhaling the air through the suction port causes the atmosphere to flow into the powder container through the inflow side vent and inflow hole, and inhales the powder air flow containing the powder through the outflow hole and outflow side air passage Can be inhaled into the lungs from the mouth.
[0051]
At the time of inhalation of the powder, the air flow flowing from the inflow hole toward the outflow hole does not flow linearly and collides with the inner wall or the like and generates turbulence in the powder storage part. The powder in the powder container can be diffused, and most of the powder in the powder container can be supplied to the inlet side. As a result, a prescribed amount of powder stored in the powder container can be administered to the patient, and the efficacy of the powder can be enhanced to improve the reliability of the inhalation-type dispenser.
[0052]
In addition , the holder mounting portion of the prescription device main body has a holder mounting groove that opens in three directions between the upper plate portion and the lower plate portion, and the holder is a substantially circular plate that is detachably mounted in the holder mounting groove. The holder mounting portion can be formed simply by forming a holder mounting groove between the upper plate portion and the lower plate portion, and the holder mounting groove forms a plate-like body. By inserting the holder, an inhalation-type dispenser can be formed . Thereby, the number of parts can be reduced, and the assembly workability can be improved and the cost can be reduced .
[0053]
On the other hand, according to the invention of claim 2 , the holder mounting portion of the prescription device main body is provided with a protrusion serving as the rotation center of the holder, and the holder is provided with a plurality of fittings on which the powder powder storage portion of the blister pack is fitted on the surface side. Since a concavity is provided and a guide groove is provided on the back side to guide the projection to the center of rotation of the holder, a blister pack is placed on the front side of the holder, and the powder container of the blister pack is used as a fitting recess. Since the blister pack can be integrally positioned with respect to the holder by fitting, both can be rotated integrally, and the operability can be improved. When the holder is mounted on the holder mounting portion of the prescription device body, the guide groove on the back side is engaged with the protrusion provided on the holder mounting portion, and the holder is mounted with the guide groove being along the protrusion. By mounting in the groove, the holder can be mounted accurately and easily at a position where the projection is the rotation center, and handling can be facilitated .
[0054]
Further , according to the invention of claim 3 , between the holder mounting portion of the prescription device main body and the holder, one of the powder storage portions of the blister pack held by the holder is drilled. When the holder holding the blister pack is mounted on the holder mounting portion of the prescription device main body and the holder is rotated with respect to the prescription device main body, the positioning means is provided. This makes it possible to accurately and easily position the medicinal powder container at the drilling position. Thereby, accurate drilling can be performed and handling can be facilitated.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing an inhalation-type dispensing device according to an embodiment of the present invention.
FIG. 2 is a plan view showing an inhalation type dispenser according to an embodiment of the present invention.
FIG. 3 is a longitudinal sectional view showing a body in FIG. 1 as a single body.
4 is a longitudinal sectional view of the body as seen from the direction of arrows IV-IV in FIG. 3. FIG.
5 is a cross-sectional view of the body and the positioning mechanism as seen from the direction of arrows V-V in FIG. 1. FIG.
FIG. 6 is a plan view showing a holder alone.
FIG. 7 is a bottom view showing the holder alone.
FIG. 8 is an external perspective view of a single blister pack as seen from the bottom plate side.
FIG. 9 is a longitudinal sectional view showing an inhalation-type dispensing device in a state where a holder holding a blister pack is mounted in a holder mounting groove of a body.
FIG. 10 is a longitudinal sectional view showing an inhalation-type dosing device in a state where the powder in the powder container of the blister pack is inhaled.
FIG. 11 is an enlarged vertical sectional view showing a main part of the air flow in the powder container of the blister pack.
[Explanation of symbols]
1 Dosage device body 2 Body (holder mounting part)
4 Upper plate portion 5 Lower plate portion 6 Holder mounting groove 6D Center protrusion 7 Suction port 8 Holder 8A Fitting recess 8E Guide groove 9 Positioning mechanism (positioning means)
10 inflow side air passage 11 outflow side air passage 12 punching tool 14 pin 16 blister pack 16D powder container H1 inflow hole H2 outflow hole

Claims (3)

One side in the axial direction serves as a holder mounting part, and the other side serves as an inhalation port for inhaling medicinal powder. A holder for holding a blister pack in which a medicinal powder container is formed; an inflow passage for supplying air toward the medicinal powder container of the blister pack provided in the prescription device body; an outflow air passage to provided vessel body medicine powder in medicine powder containing portion of the blister pack held by the holder Ru drained toward the inlet, the blister packs of medicine powder is provided in the dosing body in housing portion and the inlet-side air passage inlet holes and the outlet-side air passage outlet holes drilling tool and consisting configured Ri by the inhalation type medicine administering apparatus which communicates with the communicating with the,
The holder mounting portion of the prescription device main body is provided with a holder mounting groove that opens in three directions between the upper plate portion and the lower plate portion, and the holder is mounted on the holder mounting groove so as to be removable. An inhalation-type dispensing device, characterized in that it is formed as a body. One side in the axial direction serves as a holder mounting part, and the other side serves as an inhalation port for inhaling medicinal powder. A holder for holding a blister pack in which a medicinal powder container is formed; an inflow passage for supplying air toward the medicinal powder container of the blister pack provided in the prescription device body; An outflow side air passage that allows the powder in the powder container of the blister pack held in the holder body and held in the holder to flow out toward the inhalation port; and the powder powder in the blister pack provided in the drug dispenser body In an inhalation-type prescription device constituted by an inflow hole communicating with the inflow side aeration path and a drilling tool for opening an outflow hole communicating with the outflow side aeration path in a part,
The holder mounting portion of the prescription device main body is provided with a protrusion serving as the rotation center of the holder, and the holder is provided with a plurality of fitting recesses on the front side for fitting the powder container of the blister pack, and the back side An inhalation-type prescription device comprising a guide groove for guiding the protrusion to the center of rotation of the holder . Positioning between the holder mounting portion of the prescription device main body and the holder, in which one of the powder powder storage portions of the blister pack held by the holder is disposed at a hole punching position by the drilling tool The inhalation-type dispenser according to claim 1 or 2 , further comprising means.

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