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WO1999030986A1 - Method and structure for injecting aerosol - Google Patents

Method and structure for injecting aerosol Download PDF

Info

Publication number
WO1999030986A1
WO1999030986A1 PCT/JP1998/005671 JP9805671W WO9930986A1 WO 1999030986 A1 WO1999030986 A1 WO 1999030986A1 JP 9805671 W JP9805671 W JP 9805671W WO 9930986 A1 WO9930986 A1 WO 9930986A1
Authority
WO
WIPO (PCT)
Prior art keywords
measuring chamber
valve
valve stem
chamber
injection
Prior art date
Application number
PCT/JP1998/005671
Other languages
French (fr)
Japanese (ja)
Inventor
Ken-Ichi Suzuki
Takako Okajima
Fuminori Kimura
Original Assignee
Taisho Pharmaceutical Co., Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Taisho Pharmaceutical Co., Ltd. filed Critical Taisho Pharmaceutical Co., Ltd.
Priority to AU16818/99A priority Critical patent/AU1681899A/en
Publication of WO1999030986A1 publication Critical patent/WO1999030986A1/en

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D83/00Containers or packages with special means for dispensing contents
    • B65D83/14Containers or packages with special means for dispensing contents for delivery of liquid or semi-liquid contents by internal gaseous pressure, i.e. aerosol containers comprising propellant for a product delivered by a propellant
    • B65D83/44Valves specially adapted therefor; Regulating devices
    • B65D83/52Valves specially adapted therefor; Regulating devices for metering
    • B65D83/54Metering valves ; Metering valve assemblies
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D83/00Containers or packages with special means for dispensing contents
    • B65D83/14Containers or packages with special means for dispensing contents for delivery of liquid or semi-liquid contents by internal gaseous pressure, i.e. aerosol containers comprising propellant for a product delivered by a propellant
    • B65D83/16Containers or packages with special means for dispensing contents for delivery of liquid or semi-liquid contents by internal gaseous pressure, i.e. aerosol containers comprising propellant for a product delivered by a propellant characterised by the actuating means
    • B65D83/22Containers or packages with special means for dispensing contents for delivery of liquid or semi-liquid contents by internal gaseous pressure, i.e. aerosol containers comprising propellant for a product delivered by a propellant characterised by the actuating means with a mechanical means to disable actuation

Definitions

  • the present invention relates to an aerosol injection method and an aerosol injection structure, and more specifically, is devised so that contents in an aerosol container can be measured and the measured contents can be further subdivided and jetted.
  • the present invention also relates to an aerosol injection method and an aerosol injection structure.
  • the predetermined amount of the contents measured by the measuring means from the aerosol container is all injected by one operation of the injection valve. It is composed of
  • An object of the present invention is to weigh a fixed amount of the contents in an aerosol container, and to divide a predetermined amount of the weighed contents into several portions over a fixed range. To provide an aerosol injection method that enables more even injection administration.
  • Another object of the present invention is to provide an aerosol injection structure that can smoothly execute an aerosol injection method that can achieve the above object.
  • the present invention is a.
  • the weighing chamber (2) communicates with the first weighing chamber (21) and the injection section (31) in an openable and closable manner, and has a volume less than or equal to the volume of the first weighing chamber (21). ) And a second weighing chamber (22) which is openably and closably communicated.
  • the weighing chamber (21) is communicated with the first weighing chamber (21) and the second weighing chamber (22).
  • This step is performed by repeating at least twice the step of causing the first measuring chamber (21) and the second measuring chamber (22) to communicate with each other again.
  • the measuring chamber (2) is in openable and closable communication with the first measuring chamber (21) and the injection section (31), and has a volume not larger than 12 of the volume of the first measuring chamber (21) and the first measuring chamber.
  • a second weighing chamber (22) that is openably closable with the chamber (21),
  • the first weighing chamber (21) is filled with the contents in the aerosol container (1) while the communication between the first weighing chamber (21) and the second weighing chamber (22) is cut off.
  • the present invention also provides an aerosol injection structure for carrying out the first embodiment of the aerosol injection method of the present invention.
  • Aerosol container (1) Injection unit (31),
  • a weighing chamber (2) in which a first weighing chamber (21) and a second weighing chamber (22) having a volume equal to or less than the volume of the first weighing chamber (21) are separated through a partition wall (23);
  • valve stem (3) When the valve stem (3) is kept in the fixed position, open between the first measuring chamber (21) and the second measuring chamber (22), and operate the first measuring chamber (3) by operating the valve stem (3).
  • a second on-off valve (5) capable of closing between the 21) and the second measuring chamber (22);
  • the opening between the injection part (31) and the second measuring chamber (22) can be opened when the second on-off valve (5) is closed.
  • the present invention further provides an aerosol injection structure for carrying out the second embodiment of the aerosol injection method of the present invention, wherein the aerosol injection structure comprises:
  • the first weighing chamber (21) and the second weighing chamber (22) having a capacity of 12 or less of the volume of the first weighing chamber (21) are divided by a partition wall (23).
  • a second on-off valve (5) capable of opening and closing between the 21) and the second measuring chamber (22);
  • the opening between the injection part (31) and the second measuring chamber (22) can be opened when the second on-off valve (5) is closed.
  • FIG. 1 is a partial sectional view showing an aerosol injection structure according to a first embodiment of the present invention.
  • FIG. 2 is a partially enlarged cross-sectional view along the arrow E—E in FIG.
  • FIGS. 3 and 3A are partial cross-sectional views of the state in which the first on-off valve is closed by rotating the valve stem in the direction of the predetermined angle from the state of FIG. 1, and FIGS. FIG. 3 is a partial cross-sectional view showing a state in which the injection valve is opened by shifting the valve stem to the limit in the axial direction from the state of FIG.
  • FIG. 4 is a partial sectional view showing an aerosol injection structure according to a second embodiment of the present invention.
  • FIGS. 5 and (C) are partial cross-sectional views of the state in which the first on-off valve is closed by rotating the valve stem toward the predetermined angular position from the state of FIG. 4, and
  • FIGS. 3) is a partial cross-sectional view showing a state in which the injection valve is opened by shifting the valve stem to the limit in the axial direction from the state of FIG.
  • FIGS. 1, 2 and 3 A and (B).
  • the aerosol container (1) has a bottomed cylindrical body (10) and this body
  • An opening (12) is formed in the upper center of (11).
  • the aerosol container (1) is filled with contents having a predetermined gas pressure.
  • a measuring chamber (2) having a force-up shape so as to reach the opening (12) through a gasket or other sealing member (24).
  • a gasket or other sealing member (24).
  • the weighing chamber (2) is divided by a partition wall (23) into a lower first weighing chamber (21) and an upper second weighing chamber (22).
  • the volume of 22) is designed to be less than the volume of the first measuring chamber (21) (for example, less than 12).
  • a valve stem (3) having an injection part (31) is inserted into the measuring chamber (2) through the opening (12) of the aerosol container (1) toward the upper end side. .
  • the valve stem (3) penetrates through the sealing material (24) so that the constricted portion (32) fits into the through-hole (62) formed in the sealing material (24), and the distal end portion of the valve stem (3) A certain stroke is slidably inserted into the through hole (52) formed in 23).
  • the valve stem (3) is constantly urged by an urging member (7) formed of a coil spring, for example, installed in the first measuring chamber (21), and a flange formed at the lower end of the valve stem (3). By contacting the part (33) with the lower surface of the partition wall (23), it is configured to maintain the fixed posture shown in FIG.
  • the first on-off valve (4) for opening and closing between the aerosol container (1) and the measuring chamber (2), and the valve stem (3) are maintained in the fixed position. Open the space between the first weighing chamber (21) and the second weighing chamber (22), and operate the first weighing chamber (21) and the second weighing chamber (22) by operating the valve stem (3).
  • the second on-off valve (5) that can close between the valve and the valve stem (3), when the second on-off valve (5) is closed, the injection part (31) and the second metering
  • An injection valve (6) capable of opening between the chamber (22) is provided.
  • the first on-off valve (4) rotates a communication hole (41) formed in the chamber wall of the measuring chamber 2 provided in the aerosol container (1) and the valve stem (3) by a predetermined angle. And a valve piece (42) provided on the valve stem (3) so as to open and close the communication hole (41).
  • the first on-off valve (4) is, for example, an aerosol container (1)
  • the valve piece (42) is in sliding contact with the inner peripheral surface of the first measuring chamber (21).
  • the communication hole is formed by rotating the valve stem (3) at a predetermined angle (for example, 180 °) from the state shown in FIG. (41) can be configured to be closed airtightly.
  • valve stem (3) is regulated so as to rotate forward and backward at a constant angle, and when rotated at a constant angle in one direction, the valve piece (42) closes the communication hole (41) and moves at a constant angle in the other direction.
  • the valve piece (42) may be configured to open the communication hole (41) when rotated.
  • valve piece (42) abuts on the upward stop (25) formed on the inner peripheral wall of the first measuring chamber (21). It is regulated so that it does not descend from the state of Fig. 1, and as shown in Fig. 2, the movement of the valve piece (42) in the rotation direction moves vertically to the inner peripheral wall of the first weighing chamber (21). It is controlled by the formed pair of stoppers (26) and (27), and is controlled not to rotate beyond a predetermined angle (for example, 180 °).
  • a predetermined angle for example, 180 °
  • a communication hole (41) is formed in the chamber wall of the first measuring chamber (21), and the valve piece is protruded from the valve stem (3) to the projecting portion into the first measuring chamber (21).
  • a communication hole (41) may be formed so as to communicate the aerosol container (1) and the second measuring chamber (22) in some cases.
  • the second measuring chamber (22) of the valve stem (3) The valve piece (42) is formed in the part located inside.
  • the second on-off valve (5) is connected to the valve stem (3) so that the first measuring chamber (21) and the second measuring chamber (22) communicate with each other when the valve stem (3) is in the fixed position shown in FIG. (3) and a through hole (52) formed in the partition wall (23) so that a part of the valve stem (3) can be slidably inserted therethrough. I have.
  • the second on-off valve (5) When the valve stem (3) is pushed down to the lower limit, the second on-off valve (5) is provided with a tapered conical surface (55) formed on the valve stem (3) and a hole above the through hole (52). It is configured such that the concave conical seat (54) of the edge portion comes into contact with and the communication portion (51) is closed by being closed by the inner peripheral surface of the through hole (52).
  • the injection valve (6) has a communication hole (61) formed in the valve stem (3) so as to connect the injection part (31) and the second measuring chamber (22), and a valve stem (3) as shown in FIG. And the through-hole (62) of the seal material (24) that closes the communication hole (61) when it is in the fixed position as described above.
  • the injection valve (6) is opened by the communication hole (61) formed in the valve stem (3) leading to the second measuring chamber (22). Is configured.
  • the valve stem (3) is passed through the through hole (62) of the sealing material (24) provided so as to close the opening (12) of the aerosol container (1) from the side of the second measuring chamber (22).
  • the urging member (7) keeps the fixed posture while being pressed in the direction of the injection portion (31),
  • the second on-off valve (5) is connected to the valve stem (3) so that the first measuring chamber (21) and the second measuring chamber (22) communicate with each other when the valve stem (3) is in the fixed position.
  • the injection valve (6) has a communication hole (61) formed in the valve stem (3) so as to communicate the injection part (31) and the second measuring chamber (22), and the valve stem (3) has the above-mentioned configuration.
  • the communicating part (51) formed on the valve stem (3) is divided by the partition wall (23). ) Is closed by the inner peripheral surface of the through hole (52) formed in the second opening / closing valve (5), and the communication hole (61) of the valve stem (3) is connected to the second measuring chamber ( 22)
  • the injection valve (6) is configured to open to the side.
  • the second on-off valve (5) is opened to open the first measurement chamber (21) and the second measurement chamber (22).
  • the first on-off valve (4) to connect the aerosol container (1) with the measuring chamber (2)
  • the contents in the azole container (1) are transferred to the measuring chamber (1).
  • introduce only the volume of the measuring chamber (2) [comprising the first measuring chamber (21) and the second measuring chamber (22)]. Fill the measuring chamber (2) with aerosol contents.
  • the injection valve (6) closes, the first on-off valve (4) and the second on-off valve (5) open. Therefore, the first step is executed by positioning the valve stem (3) in a fixed position as shown in FIG.
  • the valve stem (3) is rotated 180 ° in plan view from the state of FIG. 1 as shown by the arrow a in FIGS.
  • the on-off valve (4) By closing the on-off valve (4), the communication between the aerosol container (1) and the measuring chamber (2) is cut off.
  • valve stem (3) is regulated by the stoppers (26) and (27) shown in FIG. 2 to stop when the valve stem (3) rotates 180 °, the valve stem (3) is stopped. Rotate in the direction of arrow a until you do.
  • valve stem (3) In the state shown in FIG. 1, the valve stem (3) is regulated so as not to be pushed down by the stopper (25). However, the rotation causes the urging member (7) as shown in FIG. ) And can be pushed down.
  • the operation of the valve system (3) as described above must be continued until the contents of the first measuring chamber (21) are exhausted.
  • the same amount of aerosol content as the volume of the second measuring chamber (22) is jetted from the jetting section (31) twice or more.
  • the first on-off valve (4) opens the valve stem (3) in the direction opposite to the arrow a in FIG. 41) to open], return to the first step, rotate the valve stem (3) again in the direction of arrow a until it stops, and move the first open / close valve (4) to the position shown in Fig. 3, (A). Close as shown, perform the second step, and repeat the third step as described above.
  • the content in the aerosol container (1) is once filled in the measuring chamber (2), and the communication between the aerosol container (1) and the measuring chamber (2) is established.
  • the first measuring chamber (21) is disconnected from the second measuring chamber (22), and the step of injecting the contents in the second measuring chamber (22) from the injection section (31).
  • the step of communicating the first measuring chamber (21) and the second measuring chamber (22) are repeated, so that the content in the measuring chamber (2) is reduced by two times the volume of the second measuring chamber (22).
  • the aerosol container (1) weighs a certain amount of the content in the aerosol container (1) because it can be sprayed from the spraying part (31) in several times or more. Can be sprayed separately.
  • the injection unit (31) is directed to different local areas of the affected area of the predetermined size each time, so that the medicine can be more uniformly dispersed and administered to the affected area of the predetermined size. Can be.
  • the aerosol injection structure of the first embodiment first, the first measuring chamber (21) and the second measuring chamber having a volume equal to or less than the volume of the first measuring chamber (21).
  • a first measuring valve (4) which opens and closes the space between the aerosol container (1) and the measuring chamber (2), while providing a measuring chamber (2) consisting of (22), and a first measuring chamber (21)
  • a second on-off valve (5) that opens and closes between the second measuring chamber (22) and an injection valve (6) that opens and closes between the second measuring chamber (22) and the injection section (31). Since the injection valve (6) is configured to open when the second on-off valve (5) is closed, the injection method of the above embodiment can be smoothly and reliably performed.
  • the first on-off valve (4) is formed by rotating the communication hole (41) formed in the chamber wall of the measuring chamber (2) and the valve stem (3) by a predetermined angle. ) Of the valve stem (3) so as to open and close the valve stem (3). By rotating the valve stem (3), the first on-off valve (4) is opened.
  • the aerosol container (1) can be easily opened and closed, and as a result, the communication between the aerosol container (1) and the weighing chamber (2) can be easily controlled.
  • valve stem (3) is regulated so as to rotate forward and backward by a certain angle, and when rotated in one direction by a certain angle, the valve piece (42) closes the communication hole (41). Since the valve piece (42) can open the communication hole (41) when rotated by a certain angle in the other direction, The opening / closing valve (1) can be easily and reliably opened / closed without erroneous operation.
  • FIGS. 4 and 5C and 5D Preferred embodiments of the aerosol injection structure according to the second embodiment of the present invention are shown in FIGS. 4 and 5C and 5D.
  • the configuration of the aerosol injection structure of the second embodiment according to the present invention is only partially different from the aerosol injection structure of the above-described first embodiment. It should be understood that the same components as those of the injection structure are denoted by the same reference numerals, and the description thereof will be omitted, and only the different configuration will be described.
  • the measuring chamber (2) is divided by a partition wall (23) into a first measuring chamber (21) at a lower portion [part away from the injection section (31)] and a first measuring chamber (21).
  • the second measuring chamber (22) having a capacity of 1Z2 or less, preferably in the range of 1/3 to 1Z200 of the capacity of the measuring chamber (21) and facing the opening (1 2) side of the aerosol container (1). ).
  • the second on-off valve (5) which opens and closes between the first weighing chamber (21) and the second weighing chamber (22), is used when the valve stem (3) is in a fixed position as shown in FIG.
  • the outer circumference of the valve stem (3) is located on the side of the second weighing chamber (22).
  • the second on-off valve (5) is closed as shown in FIG. 4 when the valve stem (3) is biased by the biasing member (7) and is in a fixed position, as shown in FIG. And the communication between the second weighing chamber (22).
  • the second on-off valve (5) opens once when the recess (53) passes through the through hole (52) while pushing down the valve stem (3) to the lower limit. 2 Connect the measuring chamber (22). When the valve stem (3) is further depressed, the conical surface (55) formed on the valve stem (3) and the concave conical seat (54) on the upper edge of the through hole (52). ) Comes in contact with and reaches the lower limit. When the valve stem (3) reaches the lower limit, the recess (53) moves toward the first measuring chamber (21) and the recess (53) is closed by the seat (54) of the through hole (52). Accordingly, the second on-off valve (5) is configured to be closed.
  • the first on-off valve (4) has a communicating hole (41) formed in the chamber wall on the side of the first measuring chamber (21) in the measuring chamber (2) and a valve stem (3) in the valve stem (3). ) Is rotated by a predetermined angle to open and close the communication hole (41).
  • valve stem (3) is passed through the through hole (62) of the sealing material (24) provided so as to close the opening (12) of the aerosol container (1) from the side of the second measuring chamber (22).
  • the urging member (7) (31) is maintained in the fixed posture in a state pressed in the direction,
  • the second (2) on-off valve (5) is a recess formed in the outer periphery of the valve stem (3) so that it is located in the second measuring chamber (22) when the valve stem (3) is in a fixed position. (53) and a through hole (52) formed in the partition wall (23) so that a part of the valve stem (3) slidably penetrates,
  • the injection valve (6) has a communication hole (61) formed in the valve stem (3) so as to communicate the injection part (31) and the second measuring chamber (22), and the valve stem (3) has the above-mentioned configuration.
  • the recess (53) passes through the through-hole (52) formed in the partition wall (23).
  • the second on-off valve (5) is once opened by once communicating between the first measuring chamber (21) and the second measuring chamber (22),
  • the recess (53) forms a through hole (52) formed in the partition wall (23).
  • the second on-off valve (5) is closed again by shutting off again between the first weighing chamber (21) and the second weighing chamber (22) by means of-the communication hole (61) of the valve stem (3). Is connected to the second measuring chamber (22) and the injection valve (6) is opened.
  • the second on-off valve (5) is closed to cut off the communication between the first measuring chamber (21) and the second measuring chamber (22),
  • the first on-off valve (4) By opening the first on-off valve (4) and connecting the aerosol container (1) and the measuring chamber (2), the contents of the aerosol in the aerosol container (1) are transferred to the second measuring chamber (21). Introduce only the volume of 1 weighing chamber (21) and fill the 1st weighing chamber (21) with the contents.
  • the injection valve (6) closes, the first on-off valve (4) opens, and the second on-off valve (5) opens. Since it is closed, the first step is executed by positioning the valve stem (3) in the fixed position as shown in FIG.
  • the valve stem (3) is rotated 180 ° in plan view from the state of FIG. 4 as shown by the arrow a in FIGS.
  • the on-off valve (4) By closing the on-off valve (4), the communication between the aerosol container (1) and the first measuring chamber (21) is cut off.
  • valve stops when the valve stem (3) rotates 180 ° by the stoppers (26) and (27) shown in FIG.
  • the valve stem (3) can be rotated in the direction of arrow a until it stops.
  • the valve piece (42) comes off the stopper (25), and the urging member (7) is urged as shown in the figure. You can stake and push down.
  • valve stem (3) is pushed down several times along arrow b until the lower limit is reached, as shown in Figure 5, (D).
  • the second on-off valve (5) has the valve stem (3) Once opened during the process of moving down along
  • the contents in the weighing chamber (21) move to the second weighing chamber and become full.
  • the valve stem (3) is further depressed and reaches the lower limit, the second on-off valve (5) is closed again, and the communication between the first measuring chamber (21) and the second measuring chamber (22) is cut off again.
  • the injection valve (6) is similar to the injection structure of the first embodiment.
  • the valve stem (3) is maintained until the contents of the first measuring chamber (21) are exhausted.
  • the content of the volume of the second measuring chamber (22) is jetted from the jetting section (31) each time the operation is performed.
  • the first on-off valve (4) opens the valve stem (3) in the direction opposite to the arrow a shown in Fig. 5 and (C). Hole (41) is opened], return to the first step, rotate the valve stem (3) again in the direction of arrow a until it stops, and rotate the first on-off valve (4) as shown in Fig. 5, (C ), The second step is executed, and the third step is repeated as described above.
  • the contents in the aerosol container (1) are stored in the first measurement chamber (21) of the measurement chamber (2).
  • the first weighing chamber (21) and the second weighing chamber (22) are once connected, and the communication is cut off again and the inside of the second weighing chamber (22) is cut off.
  • the contents in the first measuring chamber (21) are sprayed from the spraying section (31) twice or more by the volume of the second measuring chamber (22). Therefore, a certain amount of the contents in the aerosol container (1) can be weighed, and the measured amount of the contents can be surely sprayed several times in fixed quantities.
  • the injection unit (31) is directed to different local areas of the affected area of the predetermined size each time, so that the medicine can be more uniformly dispersed and administered to the affected area of the predetermined size. Can be.
  • the first measuring chamber (21) and the second measuring chamber (12) having a volume of 12 or less of the volume of the first measuring chamber (21) are also provided.
  • a measuring chamber (2) consisting of 22) is provided, and a first opening / closing valve (4) that opens and closes between the azole container (1) and the first measuring chamber (21), and a valve stem (3)
  • the second on-off valve (5) that opens and closes the chamber (22) and the valve stem (3) the injection part (31) is opened when the second on-off valve (5) is closed. Since the injection valve (6) that opens between the second measuring chamber (22) and the second measuring chamber (22) is provided, the injection method of the above embodiment can be smoothly and reliably performed.
  • the first on-off valve (4) has its communication hole (41) opened and closed by operation of the valve stem (3) in the rotation direction.
  • the communication hole can be changed to be opened and closed by operation of another operation piece.

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  • Chemical & Material Sciences (AREA)
  • Dispersion Chemistry (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
  • Nozzles (AREA)

Abstract

A method and a structure for injecting aerosol capable of measuring a predetermined quantity of content of an aerosol container, dividing the measured predetermined quantity of the content into a plurality of predetermined quantity of portions, and injecting the resultant portions uniformly, the method comprising a first step of filling a measuring chamber (2), which closably communicates with both an injection section (31) and the interior of an aerosol container (1), with the content of the aerosol container (1), a second step of cutting off the communication between the measuring chamber (2) and aerosol container (1), and a third step of injecting a predetermined quantity at least twice out of the content of the measuring chamber (2) from the injection section (31), i.e., the content of the measuring chamber (2) taken from the aerosol container (1) in a volume equal to that of the measuring chamber (2) being injected from a second measuring chamber (22) via the injection section (31) as the content is measured in smaller quantity at a time by the second measuring chamber (22).

Description

明 細 書  Specification
エアゾール噴射方法及びエアゾール噴射構造 技術分野  Aerosol injection method and aerosol injection structure
本発明は、 エアゾール噴射方法及びエアゾール噴射構造に関し、 さら に具体的には、 エアゾール容器内の内容物を計量し、 計量した内容物を さらに定量ずつ小分けにして噴射することができるように工夫されたェ ァゾール噴射方法及びエアゾール噴射構造に関する。  The present invention relates to an aerosol injection method and an aerosol injection structure, and more specifically, is devised so that contents in an aerosol container can be measured and the measured contents can be further subdivided and jetted. The present invention also relates to an aerosol injection method and an aerosol injection structure.
背景技術 Background art
医薬品として用いられるエアゾールは、 例えば喘息薬などを充填した 吸入用エアゾールのように、 その性質上一回の使用量を所定量にするこ とが好ましい場合が少なくない。  For aerosols used as pharmaceuticals, it is not unusual in many cases that it is preferable to use a predetermined amount for a single use due to the nature of the aerosol, which is filled with an asthma drug or the like.
エアゾールを所定量ずつ噴射するための従来のエアゾール噴射方法及 び噴射構造では、 エアゾール容器内から計量手段により計量された所定 量の内容物が、 噴射弁の一回の操作で全て噴射されるように構成されて いる。  In the conventional aerosol injection method and injection structure for injecting the aerosol in predetermined amounts, the predetermined amount of the contents measured by the measuring means from the aerosol container is all injected by one operation of the injection valve. It is composed of
この種のエアゾール噴射構造において、 例えばエアゾールが外用薬の 場合にあっては、 所定量の内容物を比較的広範囲にわたってなるべく均 一に噴射投与する必要がある。  In this type of aerosol injection structure, for example, when the aerosol is a topical drug, it is necessary to inject a predetermined amount of the content over a relatively wide range as uniformly as possible.
しかしながら、 前述した従来のエアゾール噴射方法ないし噴射構造で は、 計量された内容物が一回の噴射操作で全量噴射されるので、 薬剤が 必要な患部へ局所的にのみ投与され、 ある程度の広がりをもつ必要な範 囲の患部へより均一にエアゾールを噴射させることは困難である。 本発明の目的は、 エアゾール容器内の内容物を一定量計量し、 計量さ れた所定量の内容物を、 一定の範囲にわたってさらに定量ずつ数回に分 けてより均一に噴射投与することができるエアゾール噴射方法を提供す る とにあ O However, in the above-mentioned conventional aerosol injection method or injection structure, since the entire amount of the measured contents is injected in one injection operation, the medicine is administered only locally to the affected area where the medicine is needed, and a certain degree of spread is obtained. It is difficult to spray the aerosol more evenly to the affected area. An object of the present invention is to weigh a fixed amount of the contents in an aerosol container, and to divide a predetermined amount of the weighed contents into several portions over a fixed range. To provide an aerosol injection method that enables more even injection administration.
本発明のもう 1つの目的は、 上記の目的を達成し得るエアゾール噴射 方法を、 円滑に実施することができるエアゾール噴射構造を提供するこ と ある  Another object of the present invention is to provide an aerosol injection structure that can smoothly execute an aerosol injection method that can achieve the above object.
本発明のその他の目的及び特徴は、 以下の説明から明らかとなるであ ろう。  Other objects and features of the present invention will be apparent from the following description.
発明の開示 Disclosure of the invention
本発明は、  The present invention
噴射部 (31) と開閉可能に連通し且つエアゾール容器 (1) 内と開 閉可能に連通する計量室 (2) に、 エアゾール容器 (1) 内の内容物を 充満させる第 1の工程と、  A first process of filling the contents in the aerosol container (1) into a weighing chamber (2) that is openably and closably communicated with the injection unit (31) and openably and closably communicated with the inside of the aerosol container (1);
計量室 (2) とエアゾール容器 (1) 内との連通を遮断する第 2のェ 程と、  A second step of blocking communication between the weighing chamber (2) and the aerosol container (1);
計量室 (2) 内の内容物を、 少なくとも二回、 所定量ずつ噴射部 (31) から噴射させる第 3の工程、  A third step of injecting the contents in the measuring chamber (2) at least twice from the injection section (31) by a predetermined amount,
とを含むことを特徴とするエアゾール噴射方法を提供するものである。 しかして、 本発明のエアゾール噴射方法の第 1の実施形態によれば、 本発明のエアゾール噴射方法は、  And an aerosol injection method characterized by including the following. Thus, according to the first embodiment of the aerosol injection method of the present invention, the aerosol injection method of the present invention,
計量室 (2) は、 第 1計量室 (21) と、 噴射部 (31) と開閉可能 に連通しそして容積が第 1計量室 (21) の容積以下であって且つ第 1 計量室 (21) と開閉可能に連通する第 2計量室 (22) とからなり、 前記第 1の工程において、 第 1計量室 (21) と第 2計量室 (22) とを連通させた状態で計量室 (2) にエアゾール容器 (1) 内の内容物 を充満させ、 The weighing chamber (2) communicates with the first weighing chamber (21) and the injection section (31) in an openable and closable manner, and has a volume less than or equal to the volume of the first weighing chamber (21). ) And a second weighing chamber (22) which is openably and closably communicated. In the first step, the weighing chamber (21) is communicated with the first weighing chamber (21) and the second weighing chamber (22). 2) Contents of aerosol container (1) Charge,
前記第 3の工程において、 第 1計量室 (21) と第 2計量室 (22) との連通を遮断する工程と、 第 2計量室 (22) 内の内容物を噴射部 (31) から噴射させる工程と、 再度前記第 1計量室 (21) と第 2計 量室 (22) とを連通させる工程とを少なくとも二回繰り返す ことにより実施される。  In the third step, the step of interrupting the communication between the first measuring chamber (21) and the second measuring chamber (22), and the step of jetting the contents in the second measuring chamber (22) from the jetting section (31). This step is performed by repeating at least twice the step of causing the first measuring chamber (21) and the second measuring chamber (22) to communicate with each other again.
また、 本発明のエアゾール噴射方法の第 2の実施形態によれば、 エアゾール噴射方法は、  Further, according to the second embodiment of the aerosol injection method of the present invention,
計量室 (2) は、 第 1計量室 (21) と、 噴射部 (31) と開閉可能 に連通しそして容積が第 1計量室 (21) の容積の 1 2以下であって 且つ第 1計量室 (21) と開閉可能に連通する第 2計量室 (22) とか らなり、  The measuring chamber (2) is in openable and closable communication with the first measuring chamber (21) and the injection section (31), and has a volume not larger than 12 of the volume of the first measuring chamber (21) and the first measuring chamber. A second weighing chamber (22) that is openably closable with the chamber (21),
前記第 1の工程において、 第 1計量室 (21) と第 2計量室 (22) との連通を遮断した状態で第 1計量室 (21) にエアゾール容器 (1) 内の内容物を充満させ、  In the first step, the first weighing chamber (21) is filled with the contents in the aerosol container (1) while the communication between the first weighing chamber (21) and the second weighing chamber (22) is cut off. ,
前記第 3の工程において、 第 1計量室 (21) と第 2計量室 (22) とを連通させる工程と、 第 1計量室 (21) と第 2計量室 (22) との 連通を遮断し、 第 2計量室 (22) の内容物を噴射部 (31) から噴射 させる工程とを少なくとも二回繰り返す  In the third step, a step of making the first measuring chamber (21) communicate with the second measuring chamber (22); and a step of cutting off the communication between the first measuring chamber (21) and the second measuring chamber (22). And injecting the contents of the second measuring chamber (22) from the injection section (31) at least twice.
ことにより実施される。  It is implemented by doing.
本発明はまた、 本発明のエアゾール噴射方法の上記第 1の実施形態を 実施するためのエアゾール噴射構造を提供するものであり、 そのエアゾ ール噴射構造は、  The present invention also provides an aerosol injection structure for carrying out the first embodiment of the aerosol injection method of the present invention.
エアゾール容器 (1) と、 噴射部 (31) と、 Aerosol container (1), Injection unit (31),
第 1計量室 (21) と第 1計量室 (21) の容積以下の容積を有する 第 2計量室 (22) とが仕切壁 (23) を介して区分された計量室 (2) と、  A weighing chamber (2) in which a first weighing chamber (21) and a second weighing chamber (22) having a volume equal to or less than the volume of the first weighing chamber (21) are separated through a partition wall (23);
噴射部 (31) と第 2計量室 (22) とを連通するとともに仕切壁 (23) を摺動自在に貫通し、 常時定姿勢を保つように付勢されている バルブステム (3) と、  A valve stem (3) communicating with the injection part (31) and the second measuring chamber (22) and slidably penetrating the partition wall (23) and urged to maintain a constant posture at all times;
エアゾール容器 (1) と計量室 (2) との間を開閉する第 1の開閉弁 First open / close valve that opens and closes between the aerosol container (1) and the measuring chamber (2)
(4) と、 (4) and
バルブステム (3) が定姿勢に保たれているときは第 1計量室 (21) と第 2計量室 (22) との間を開き、 そしてバルブステム (3) の操作 により第 1計量室 (21) と第 2計量室 (22) との間を閉じることが できる第 2の開閉弁 (5) と、  When the valve stem (3) is kept in the fixed position, open between the first measuring chamber (21) and the second measuring chamber (22), and operate the first measuring chamber (3) by operating the valve stem (3). A second on-off valve (5) capable of closing between the 21) and the second measuring chamber (22);
バルブステム (3) の操作により、 第 2の開閉弁 (5) が閉じている ときに噴射部 (31) と第 2計量室 (22) との間を開く ことができる 噴射弁 (6) と、  By operating the valve stem (3), the opening between the injection part (31) and the second measuring chamber (22) can be opened when the second on-off valve (5) is closed. ,
を備えたことを特徴するものである。 It is characterized by having.
本発明はさらに、 本発明のエアゾール噴射方法の上記第 2の実施形態 を実施するためのエアゾール噴射構造を提供するものであり、 そのエア ゾール噴射構造は、  The present invention further provides an aerosol injection structure for carrying out the second embodiment of the aerosol injection method of the present invention, wherein the aerosol injection structure comprises:
エアゾール容器 (1) と、  Aerosol container (1),
噴射部 (31) と、  Injection unit (31),
第 1計量室 (21) と第 1計量室 (21) の容積の 1 2以下の容積 を有する第 2計量室 (22) とが仕切壁 (23) を介して区分された計 量室 (2) と、 The first weighing chamber (21) and the second weighing chamber (22) having a capacity of 12 or less of the volume of the first weighing chamber (21) are divided by a partition wall (23). Mass chamber (2),
噴射部 (31) と第 2計量室 (22) とを連通するとともに仕切壁 (23) を摺動自在に貫通し、 常時定姿勢を保つように付勢されている バルブステム (3) と、  A valve stem (3) communicating with the injection part (31) and the second measuring chamber (22) and slidably penetrating the partition wall (23) and urged to maintain a constant posture at all times;
エアゾール容器 (1) 内と第 1計量室 (21) との間を開閉する第 1 の開閉弁 (4) と、  A first on-off valve (4) for opening and closing between the inside of the aerosol container (1) and the first measuring chamber (21);
バルブステム (3) が定姿勢に保たれているときは第 1計量室 (21) と第 2計量室 (22) との間を閉じ、 そしてバルブステム (3) の操作 により第 1計量室 (21) と第 2計量室 (22) との間を開閉すること ができる第 2の開閉弁 (5) と、  When the valve stem (3) is kept in the fixed position, close the space between the first measuring chamber (21) and the second measuring chamber (22), and operate the first measuring chamber (3) by operating the valve stem (3). A second on-off valve (5) capable of opening and closing between the 21) and the second measuring chamber (22);
バルブステム (3) の操作により、 第 2の開閉弁 (5) が閉じている ときに噴射部 (31) と第 2計量室 (22) との間を開くことができる 噴射弁 (6) と、  By operating the valve stem (3), the opening between the injection part (31) and the second measuring chamber (22) can be opened when the second on-off valve (5) is closed. ,
を備えていることを特徴とするものである。 It is characterized by having.
図面の簡単な説明 BRIEF DESCRIPTION OF THE FIGURES
図 1は、 本発明による第 1実施形態のエアゾール噴射構造を示す部分 断面図である。  FIG. 1 is a partial sectional view showing an aerosol injection structure according to a first embodiment of the present invention.
図 2は、 図 1の矢印 E— Eに沿う部分拡大断面図である。  FIG. 2 is a partially enlarged cross-sectional view along the arrow E—E in FIG.
図 3、 (A) は、 図 1の状態からバルブステムを所定角度位置方向へ 回転させて第 1の開閉弁を閉じた状態の部分断面図であり、 図 3、 (B) は、 図 (A) の状態からバルブステムを軸方向へ限界まで変移させて噴 射弁を開いた状態の部分断面図である。  FIGS. 3 and 3A are partial cross-sectional views of the state in which the first on-off valve is closed by rotating the valve stem in the direction of the predetermined angle from the state of FIG. 1, and FIGS. FIG. 3 is a partial cross-sectional view showing a state in which the injection valve is opened by shifting the valve stem to the limit in the axial direction from the state of FIG.
図 4は、 本発明による第 2実施形態のエアゾール噴射構造を示す部分 断面図である。 図 5、 (C) は、 図 4の状態からバルブステムを所定角度位置方向へ 回転させて第 1の開閉弁を閉じた状態の部分断面図であり、 図 5、 (D) は図 (C) の状態からバルブステムを軸方向へ限界まで変移させて噴射 弁を開いた状態の部分断面図である。 FIG. 4 is a partial sectional view showing an aerosol injection structure according to a second embodiment of the present invention. FIGS. 5 and (C) are partial cross-sectional views of the state in which the first on-off valve is closed by rotating the valve stem toward the predetermined angular position from the state of FIG. 4, and FIGS. 3) is a partial cross-sectional view showing a state in which the injection valve is opened by shifting the valve stem to the limit in the axial direction from the state of FIG.
発明の実施の形態 Embodiment of the Invention
以下、 図面を参照しながら、 本発明によるエアゾール噴射方法及びェ ァゾール噴射構造の好ましい 2つの実施形態をさらに詳細に説明する。  Hereinafter, two preferred embodiments of an aerosol injection method and an aerosol injection structure according to the present invention will be described in more detail with reference to the drawings.
第 1の実施形態:  First embodiment:
本発明による第 1の実施形態のエアゾール噴射構造の好適態様を、 図 1、 図 2及び図 3 (A) 、 (B) に示す。  Preferred embodiments of the aerosol injection structure according to the first embodiment of the present invention are shown in FIGS. 1, 2 and 3 (A) and (B).
エアゾール容器 (1) は、 有底円筒状の胴部 (10) と、 この胴部 The aerosol container (1) has a bottomed cylindrical body (10) and this body
(10) の上部へ気密に被せられた蓋 (11) とから構成され、 蓋(10) and a lid (11) which is hermetically covered on the upper part.
(11) の上部中央には開口部 (12) が形成されている。 An opening (12) is formed in the upper center of (11).
エアゾール容器 (1) 内には、 所定のガス圧力をもった内容物が充填 される。  The aerosol container (1) is filled with contents having a predetermined gas pressure.
エアゾール容器 (1) 内には、 ガスケッ トその他のシール部材 (24) を介して開口部 (12) へ臨むように力ップ状の計量室 (2) が設けら れ、 この計量室 (2) は蓋 (11) の外周壁に形成されたリ ング状の凹 部 (13) により、 カシメ られた状態でシール部材 (24) へ気密に押 し付けられている。  In the aerosol container (1), there is provided a measuring chamber (2) having a force-up shape so as to reach the opening (12) through a gasket or other sealing member (24). ) Is hermetically pressed against the sealing member (24) in a crimped state by a ring-shaped concave portion (13) formed on the outer peripheral wall of the lid (11).
この実施形態においては、 計量室 (2) は、 仕切壁 (23) により下 部の第 1計量室 (21) とその上部の第 2計量室 (22) とに区分され、 第 2計量室 (22) の容積は第 1計量室 (21) の容積以下 (例えば、 1 2以下) になるように設計される。 計量室 (2) 内には、 上端部側方に向けて噴射部 (31) を有するバ ルブステム (3) が、 エアゾール容器 (1) の前記開口部 (12) を通 じて挿入されている。 In this embodiment, the weighing chamber (2) is divided by a partition wall (23) into a lower first weighing chamber (21) and an upper second weighing chamber (22). The volume of 22) is designed to be less than the volume of the first measuring chamber (21) (for example, less than 12). A valve stem (3) having an injection part (31) is inserted into the measuring chamber (2) through the opening (12) of the aerosol container (1) toward the upper end side. .
バルブステム (3) は、 その括れ部 (32) が前記シ ル材 (24) に形成された貫通孔 (62) へ収まるようにシール材 (24) を貫通し、 その先端部が仕切壁 (23) に形成された貫通孔 (52) へ一定のスト ローク摺動可能に挿通されている。 このバルブステム (3) は、 例えば 第 1計量室 (21) 内に設置されたコイルばねからなる付勢部材 (7) によって常時付勢され、 バルブステム (3) の下端部に形成された鍔部 (33) を仕切壁 (23) の下面へ当接させることにより、 図 1で示す 一定の姿勢に保たれるように構成されている。  The valve stem (3) penetrates through the sealing material (24) so that the constricted portion (32) fits into the through-hole (62) formed in the sealing material (24), and the distal end portion of the valve stem (3) A certain stroke is slidably inserted into the through hole (52) formed in 23). The valve stem (3) is constantly urged by an urging member (7) formed of a coil spring, for example, installed in the first measuring chamber (21), and a flange formed at the lower end of the valve stem (3). By contacting the part (33) with the lower surface of the partition wall (23), it is configured to maintain the fixed posture shown in FIG.
この第 1の実施形態の噴射構造では、 エアゾール容器 (1) と計量室 (2) との間を開閉する第 1の開閉弁 (4) と、 バルブステム (3) が 前記定姿勢に保たれているときに第 1計量室 (21) と第 2計量室 (22) との間を開き、 そしてバルブステム (3) の操作により第 1計 量室 (21) と第 2計量室 (22) との間を閉じることができる第 2の 開閉弁 (5) と、 バルブステム (3) の操作により、 第 2の開閉弁 (5) が閉じているときに噴射部 (31) と第 2計量室 (22) との間を開く ことができる噴射弁 (6) とが設けられている。  In the injection structure of the first embodiment, the first on-off valve (4) for opening and closing between the aerosol container (1) and the measuring chamber (2), and the valve stem (3) are maintained in the fixed position. Open the space between the first weighing chamber (21) and the second weighing chamber (22), and operate the first weighing chamber (21) and the second weighing chamber (22) by operating the valve stem (3). By operating the second on-off valve (5) that can close between the valve and the valve stem (3), when the second on-off valve (5) is closed, the injection part (31) and the second metering An injection valve (6) capable of opening between the chamber (22) is provided.
また、 第 1の開閉弁 (4) は、 エアゾール容器 (1) 内に設けられた 計量室 2の室壁に形成された連通孔 (41) と、 バルブステム (3) を 所定角度回転させることにより連通孔 (41) を開閉するようにバルブ ステム (3) に設けられたバルブ片 (42) とからなる。  The first on-off valve (4) rotates a communication hole (41) formed in the chamber wall of the measuring chamber 2 provided in the aerosol container (1) and the valve stem (3) by a predetermined angle. And a valve piece (42) provided on the valve stem (3) so as to open and close the communication hole (41).
しかして、 第 1の開閉弁 (4) は、 例えば、 エアゾール容器 (1) と 計量室 (2) とを連通するように第 1計量室 (21) の室壁に形成され た連通孔 (41) と、 バルブステム (3) の外周の一部へ周方向へ逆 L 字状に張り出すように形成されたバルブ片 (42) とから構成すること ができる。 Thus, the first on-off valve (4) is, for example, an aerosol container (1) A communication hole (41) formed in the chamber wall of the first weighing chamber (21) so as to communicate with the weighing chamber (2), and a part of the outer periphery of the valve stem (3) that has an inverted L-shape in the circumferential direction And a valve piece (42) formed so as to protrude to the outside.
バルブ片 (42) は、 第 1計量室 (21) の内周面へ摺接しており、 例えば、 バルブステム (3) を図 1の状態から所定角度(例えば 180°) 回転させることにより連通孔 (41) を気密に閉じるように構成するこ とができる。  The valve piece (42) is in sliding contact with the inner peripheral surface of the first measuring chamber (21). For example, the communication hole is formed by rotating the valve stem (3) at a predetermined angle (for example, 180 °) from the state shown in FIG. (41) can be configured to be closed airtightly.
さらに、 バルブステム (3) は、 一定角度正逆に回転するように規制 され、 一方向へ一定角度回転させたときにバルブ片 (42) が連通孔 (41) を閉じ、 他方向へ一定角度回転させたときにバルブ片 (42) が連通孔 (41) を開くように構成することもできる。  Further, the valve stem (3) is regulated so as to rotate forward and backward at a constant angle, and when rotated at a constant angle in one direction, the valve piece (42) closes the communication hole (41) and moves at a constant angle in the other direction. The valve piece (42) may be configured to open the communication hole (41) when rotated.
しかして、 バルブステム (3) は、 例えば、 図 1の定姿勢にあるとき、 第 1計量室 (21) の内周壁に形成された上向きのストツパ (25) へ バルブ片 (42) が突き当たり、 図 1の状態からは下降しないように規 制されるとともに、 図 2のように、 バルブ片 (42) の回転方向の動き が、 第 1計量室 (21) の内周壁へ垂直方向に沿って形成された対のス トツパ (26) , (27) で制御され、 所定角度 (例えば 180° ) 以 上回転しないように規制される。  Thus, for example, when the valve stem (3) is in the fixed position shown in FIG. 1, the valve piece (42) abuts on the upward stop (25) formed on the inner peripheral wall of the first measuring chamber (21). It is regulated so that it does not descend from the state of Fig. 1, and as shown in Fig. 2, the movement of the valve piece (42) in the rotation direction moves vertically to the inner peripheral wall of the first weighing chamber (21). It is controlled by the formed pair of stoppers (26) and (27), and is controlled not to rotate beyond a predetermined angle (for example, 180 °).
この第 1の実施形態では、 第 1計量室 (21) の室壁に連通孔 (41) を形成し、 バルブステム (3) の第 1計量室 (21) 内への突出部へバ ルブ片 (42) を形成しているが、 場合によりエアゾール容器 (1) と 第 2計量室 (22) とを連通するように連通孔 (41) を形成しても差 し支えない。 この場合には、 バルブステム (3) の第 2計量室 (22) 内に位置する部分にバルブ片 (42) を形成する。 In the first embodiment, a communication hole (41) is formed in the chamber wall of the first measuring chamber (21), and the valve piece is protruded from the valve stem (3) to the projecting portion into the first measuring chamber (21). Although (42) is formed, a communication hole (41) may be formed so as to communicate the aerosol container (1) and the second measuring chamber (22) in some cases. In this case, the second measuring chamber (22) of the valve stem (3) The valve piece (42) is formed in the part located inside.
第 2の開閉弁 (5) は、 バルブステム (3) が図 1の定姿勢にあると きに、 第 1計量室 (21) と第 2計量室 (22) とを連通するようにバ ルブステム (3) に形成された連通部 (51) と、 バルブステム (3) の一部が摺動自在に挿通するように仕切壁 (23) へ形成された貫通孔 (52) とから構成されている。  The second on-off valve (5) is connected to the valve stem (3) so that the first measuring chamber (21) and the second measuring chamber (22) communicate with each other when the valve stem (3) is in the fixed position shown in FIG. (3) and a through hole (52) formed in the partition wall (23) so that a part of the valve stem (3) can be slidably inserted therethrough. I have.
この第 2の開閉弁 (5) は、 バルブステム (3) を下限まで押し下げ たとき、 バルブステム (3) へ形成された先下がり状の円錐面 (55) と、 貫通孔 (52) の上縁部の凹円錐面状の座 (54) とが接触し、 連 通部 (51) が貫通孔 (52) の内周面によって塞がれることにより閉 じられるように構成されている。  When the valve stem (3) is pushed down to the lower limit, the second on-off valve (5) is provided with a tapered conical surface (55) formed on the valve stem (3) and a hole above the through hole (52). It is configured such that the concave conical seat (54) of the edge portion comes into contact with and the communication portion (51) is closed by being closed by the inner peripheral surface of the through hole (52).
噴射弁 (6) は、 噴射部 (31) と第 2計量室 (22) とを連通する ようにバルブステム (3) に形成された連通孔 (61) と、 バルブステ ム (3) が図 1のような定姿勢にあるときに、 連通孔 (61) を塞ぐシ ール材 (24) の貫通孔 (62) とから構成されている。  The injection valve (6) has a communication hole (61) formed in the valve stem (3) so as to connect the injection part (31) and the second measuring chamber (22), and a valve stem (3) as shown in FIG. And the through-hole (62) of the seal material (24) that closes the communication hole (61) when it is in the fixed position as described above.
この噴射弁 (6) は、 バルブステム (3) を下限まで押し下げたとき、 バルブステム (3) に形成された連通孔 (61) が第 2計量室 (22) 側へ通じることによって開かれるように構成されている。  When the valve stem (3) is pushed down to the lower limit, the injection valve (6) is opened by the communication hole (61) formed in the valve stem (3) leading to the second measuring chamber (22). Is configured.
かく して、 本発明によるエアゾール噴射構造の第 1の実施形態によれ ば、 好適には、  Thus, according to the first embodiment of the aerosol injection structure according to the present invention, preferably,
バルブステム (3) は、 エアゾール容器 (1) の開口部 (12) を第 2計量室 (22) の側から塞ぐように設けられたシール材 (24) の貫 通孔 (62) へ貫通されるとともに、 付勢部材 (7) により噴射部 (31) の方向へ押圧された状態で前記定姿勢に保たれ、 第 2の開閉弁 (5) は、 バルブステム (3) が前記定姿勢にあるとき に第 1計量室 (21) と第 2計量室 (22) とを連通するようにバルブ ステム (3) に形成された連通部 (51) と、 バルブステム (3) の一 部が摺動自在に貫通するように仕切壁 (23) ベ形成された貫通孔 (52) とから構成され、 The valve stem (3) is passed through the through hole (62) of the sealing material (24) provided so as to close the opening (12) of the aerosol container (1) from the side of the second measuring chamber (22). The urging member (7) keeps the fixed posture while being pressed in the direction of the injection portion (31), The second on-off valve (5) is connected to the valve stem (3) so that the first measuring chamber (21) and the second measuring chamber (22) communicate with each other when the valve stem (3) is in the fixed position. A communication part (51) formed, and a partition wall (23) through which a part of the valve stem (3) slidably penetrates;
噴射弁 (6) は、 噴射部 (31) と第 2計量室 (22) とを連通する ようにバルブステム (3) に形成された連通孔 (61) と、 バルブステ ム (3) が前記定姿勢にあるときに連通孔 (61) を塞ぐシール材 (24) の貫通孔 (62) とから構成され、  The injection valve (6) has a communication hole (61) formed in the valve stem (3) so as to communicate the injection part (31) and the second measuring chamber (22), and the valve stem (3) has the above-mentioned configuration. A through hole (62) of a sealing material (24) that closes the communication hole (61) when in the posture,
バルブステム (3) を付勢部材 (7) の付勢に杭して軸方向へ限界ま で変位させたときに、 バルブステム (3) に形成された連通部 (51) が仕切壁 (23) に形成された貫通孔 (52) の内周面によって塞がれ て第 2の開閉弁 (5) が閉じられるとともに、 バルブステム (3) の連 通孔 (61) が第 2計量室 (22) 側に通じて噴射弁 (6) が開かれる ように構成される。  When the valve stem (3) is piled on the bias of the biasing member (7) and displaced in the axial direction to the limit, the communicating part (51) formed on the valve stem (3) is divided by the partition wall (23). ) Is closed by the inner peripheral surface of the through hole (52) formed in the second opening / closing valve (5), and the communication hole (61) of the valve stem (3) is connected to the second measuring chamber ( 22) The injection valve (6) is configured to open to the side.
次に、 以上に述べた本発明による第 1の実施形態のエアゾール噴射構 造の作用とともに、 該噴射構造を使用したエアゾール噴射方法の実施例 を説明する。  Next, an operation of the aerosol injection structure according to the first embodiment of the present invention described above and an example of an aerosol injection method using the injection structure will be described.
前記エアゾール噴射構造の噴射操作の第 1の工程では、 噴射弁 (6) を閉じた状態で、 第 2の開閉弁 (5) を開いて第 1計量室 (21) と第 2計量室 (22) とを連通させるとともに、 第 1の開閉弁 (4) を開い てエアゾール容器 (1) と計量室 (2) とを連通させることにより、 ェ ァゾール容器 (1) 内の内容物を計量室 (2) へ、 計量室 (2) [第 1 計量室 (21) と第 2計量室 (22) とからなる] の容積分だけ導入し. 計量室 (2) にエアゾール内容物を充満させる。 In the first step of the injection operation of the aerosol injection structure, with the injection valve (6) closed, the second on-off valve (5) is opened to open the first measurement chamber (21) and the second measurement chamber (22). ), And by opening the first on-off valve (4) to connect the aerosol container (1) with the measuring chamber (2), the contents in the azole container (1) are transferred to the measuring chamber (1). To 2), introduce only the volume of the measuring chamber (2) [comprising the first measuring chamber (21) and the second measuring chamber (22)]. Fill the measuring chamber (2) with aerosol contents.
この実施形態では、 バルブステム (3) が図 1のように定姿勢にある とき、 噴射弁 (6) が閉じ、 第 1の開閉弁 (4) 及び第 2の開閉弁 (5) が開いているので、 バルブステム (3) を図 1のような定姿勢に位置さ せることにより、 第 1の工程が実行される。  In this embodiment, when the valve stem (3) is in a fixed position as shown in FIG. 1, the injection valve (6) closes, the first on-off valve (4) and the second on-off valve (5) open. Therefore, the first step is executed by positioning the valve stem (3) in a fixed position as shown in FIG.
次いで、 第 2の工程において、 バルブステム (3) を図 1の状態から 図 3、 (A) 図において矢印 aで示すように平面視において 180° 回 転させ、 同図に示すように第 1の開閉弁 (4) を閉じることによりエア ゾール容器 (1) と計量室 (2) との連通を遮断する。  Next, in the second step, the valve stem (3) is rotated 180 ° in plan view from the state of FIG. 1 as shown by the arrow a in FIGS. By closing the on-off valve (4), the communication between the aerosol container (1) and the measuring chamber (2) is cut off.
この実施形態の噴射構造では、 図 2で示すストツパ (26) , (27) によりバルブステム (3) が 180° 回転すると停止するように規制さ れているので、 前記バルブステム (3) を停止するまで矢印 a方向へ回 転させればよい。  In the injection structure of this embodiment, since the valve stem (3) is regulated by the stoppers (26) and (27) shown in FIG. 2 to stop when the valve stem (3) rotates 180 °, the valve stem (3) is stopped. Rotate in the direction of arrow a until you do.
図 1の状態では、 バルブステム (3) はストツバ (25) により内部 に押し下げることができないように規制されているが、 前記回転により、 図 3、 (A) に示すように付勢部材 (7) の付勢に杭して押し下げるこ とができるようになる。  In the state shown in FIG. 1, the valve stem (3) is regulated so as not to be pushed down by the stopper (25). However, the rotation causes the urging member (7) as shown in FIG. ) And can be pushed down.
第 3の工程では、 図 3、 (B) に示すように、 バルブステム (3) を 矢印 bに沿って下限に達するまで押し下げると、 第 2の開閉弁 (5) が 閉じて第 1計量室 (21) と第 2計量室 (22) との連通が遮断される とともに、 噴射弁 (6) が開いて第 2計量室 (22) 内の内容物が噴射 部 (31) から噴射される。  In the third step, as shown in Fig. 3, (B), when the valve stem (3) is pushed down to the lower limit along arrow b, the second on-off valve (5) closes and the first weighing chamber is closed. The communication between (21) and the second measuring chamber (22) is cut off, and the injection valve (6) is opened, so that the contents in the second measuring chamber (22) are jetted from the jetting section (31).
バルブステム (3) に対する矢印 b方向の押圧力を解除すると、 図 3、 (A) に示すように噴射弁 (6) が閉じるとともに第 2の開閉弁 (5) が開くので、 第 1計量室 (21) 内のエアゾール内容物は第 2計量室へ 充満すな o When the pressure on the valve stem (3) in the direction of arrow b is released, the injection valve (6) closes and the second on-off valve (5) as shown in Fig. 3 (A). The aerosol contents in the first weighing chamber (21) do not fill the second weighing chamber.
第 2計量室 (22) の容積は第 1計量室 (21) の容積以下であるの で、 第 1計量室 (21) の内容物がなくなるまで以上のようなバルブス テム (3) の操作を繰り返すことにより、 第 2計量室 (22) の容積と 同じ量のエアゾール内容物が二回以上噴射部 (31) から噴射される。 エアゾール容器 (1) 内の内容物をさらに噴射したい場合には、 バル ブステム (3) を図 3、 (A) の矢印 aの逆方向へ第 1の開閉弁 (4) が開く [連通孔 (41) が開く ] まで回転させて第 1の工程に戻し、 バ ルブステム (3) を再度矢印 a方向へ停止するまで回転させ、 第 1の開 閉弁 (4) を図 3、 (A) に示すように閉じて第 2の工程を実行し、 前 記のように第 3の工程を繰り返す。  Since the volume of the second measuring chamber (22) is less than the volume of the first measuring chamber (21), the operation of the valve system (3) as described above must be continued until the contents of the first measuring chamber (21) are exhausted. By repeating, the same amount of aerosol content as the volume of the second measuring chamber (22) is jetted from the jetting section (31) twice or more. To further inject the contents of the aerosol container (1), the first on-off valve (4) opens the valve stem (3) in the direction opposite to the arrow a in FIG. 41) to open], return to the first step, rotate the valve stem (3) again in the direction of arrow a until it stops, and move the first open / close valve (4) to the position shown in Fig. 3, (A). Close as shown, perform the second step, and repeat the third step as described above.
エアゾール容器 (1) 内の内容物をそれ以上噴射する必要がない場合 には、 バルブステムを図 3、 (A) の状態から矢印 aの逆方向へ停止す るまで回転させ、 図 1の状態に復帰させる。  If it is not necessary to inject the contents of the aerosol container (1) anymore, rotate the valve stem from the state shown in Fig. 3 (A) until it stops in the direction opposite to the arrow "a". To return to.
以上に述べた実施例の噴射方法によれば、 エアゾール容器 (1) 内の 内容物を一旦計量室 (2) 内に充満させ、 エアゾール容器 (1) 内と計 量室 (2) との連通を遮断した後、 第 1計量室 (21) と第 2計量室 (22) との連通を遮断する工程と、 第 2計量室 (22) 内の内容物を 噴射部 (31) から噴射させる工程と、 第 1計量室 (21) と第 2計量 室 (22) とを連通させる工程とを繰り返すことにより、 計量室 (2) 内の内容物が第 2計量室 (22) の容積分ずつ二回以上に分けて噴射部 (31) から噴射させることができるので、 エアゾール容器 (1) 内の 内容物を一定量計量し、 計量した一定量の内容物を確実に定量ずつ数回 に分けて噴射させることができる。 According to the injection method of the embodiment described above, the content in the aerosol container (1) is once filled in the measuring chamber (2), and the communication between the aerosol container (1) and the measuring chamber (2) is established. After the first measuring chamber (21) is disconnected from the second measuring chamber (22), and the step of injecting the contents in the second measuring chamber (22) from the injection section (31). And the step of communicating the first measuring chamber (21) and the second measuring chamber (22) are repeated, so that the content in the measuring chamber (2) is reduced by two times the volume of the second measuring chamber (22). The aerosol container (1) weighs a certain amount of the content in the aerosol container (1) because it can be sprayed from the spraying part (31) in several times or more. Can be sprayed separately.
したがって、 前記第 3の工程を繰り返すとき、 その都度噴射部 (31) を所定広さの患部のそれぞれ異なる局部に向けることにより、 所定広さ の患部に対して薬剤をより均一に分散投与することができる。  Therefore, each time the third step is repeated, the injection unit (31) is directed to different local areas of the affected area of the predetermined size each time, so that the medicine can be more uniformly dispersed and administered to the affected area of the predetermined size. Can be.
また、 前述の第 1の実施形態のエアゾール噴射構造によれば、 第 1に、 第 1計量室 (21) と、 この第 1計量室 (21) の容積以下の容積を有 する第 2計量室 (22) からなる計量室 (2) を設けるとともに、 エア ゾール容器 (1) 内と計量室 (2) との間を開閉する第 1の開閉弁 (4) と、 第 1計量室 (21) と第 2計量室 (22) との間を開閉する第 2の 開閉弁 (5) と、 第 2計量室 (22) と噴射部 (31) との間を開閉す る噴射弁 (6) とを設け、 第 2開閉弁 (5) が閉じられたとき噴射弁 (6) が開くように構成されているので、 上記実施例の噴射方法を円滑 かつ確実に実施することができる。  According to the aerosol injection structure of the first embodiment, first, the first measuring chamber (21) and the second measuring chamber having a volume equal to or less than the volume of the first measuring chamber (21). A first measuring valve (4), which opens and closes the space between the aerosol container (1) and the measuring chamber (2), while providing a measuring chamber (2) consisting of (22), and a first measuring chamber (21) A second on-off valve (5) that opens and closes between the second measuring chamber (22) and an injection valve (6) that opens and closes between the second measuring chamber (22) and the injection section (31). Since the injection valve (6) is configured to open when the second on-off valve (5) is closed, the injection method of the above embodiment can be smoothly and reliably performed.
第 2に、 第 1の開閉弁 (4) は、 計量室 (2) の室壁に形成された連 通孔 (41) と、 バルブステム (3) を所定角度回転させることにより 連通孔 (41) を開閉するようにバルブステム (3) に設けられたバル ブ片 (42) とから構成されているので、 バルブステム (3) を回転さ せることにより、 第 1の開閉弁 (4) を簡単に開閉することができ、 そ の結果、 エアゾール容器 (1) と計量室 (2) との連通 ·遮断の操作を 簡単に行うことができる。  Secondly, the first on-off valve (4) is formed by rotating the communication hole (41) formed in the chamber wall of the measuring chamber (2) and the valve stem (3) by a predetermined angle. ) Of the valve stem (3) so as to open and close the valve stem (3). By rotating the valve stem (3), the first on-off valve (4) is opened. The aerosol container (1) can be easily opened and closed, and as a result, the communication between the aerosol container (1) and the weighing chamber (2) can be easily controlled.
第 3に、 バルブステム (3) は、 一定角度正逆に回転するように規制 されており、 一方向へ一定角度回転させたときにバルブ片 (42) が前 記連通孔 (41) を閉じ、 他方向へ一定角度回転させたときにバルブ片 (42) が連通孔 (41) を開くように構成することができるので、 第 1の開閉弁 (4) を誤操作することなくより簡単にかつ確実に開閉する ことができる。 Third, the valve stem (3) is regulated so as to rotate forward and backward by a certain angle, and when rotated in one direction by a certain angle, the valve piece (42) closes the communication hole (41). Since the valve piece (42) can open the communication hole (41) when rotated by a certain angle in the other direction, The opening / closing valve (1) can be easily and reliably opened / closed without erroneous operation.
第 4に、 バルブステム (3) は、 バルブステム (3) が前記定姿勢に あって第 1の開閉弁 (4) を開く方向へ限界まで回転されているき、 軸 方向への変移が抑制されているので、 通常の保管状態においてバルブス テム (3) へ軸方向の外力が加わっても第 2の開閉弁 (5) や噴射弁 (6) が開かれることはなく、 したがって計量室 (2) 内のエアゾール 内容物が誤って噴射されるのを防止することができる。  Fourthly, when the valve stem (3) is rotated to the limit in the direction in which the first on-off valve (4) is opened with the valve stem (3) in the fixed position described above, displacement in the axial direction is suppressed. In the normal storage state, the second on-off valve (5) and the injection valve (6) do not open even if an external axial force is applied to the valve stem (3). The aerosol inside the) can be prevented from being accidentally ejected.
第 2の実施形態:  Second embodiment:
本発明による第 2の実施形態のエアゾール噴射構造の好適態様を図 4 及び図 5 (C) 、 (D) に示す。  Preferred embodiments of the aerosol injection structure according to the second embodiment of the present invention are shown in FIGS. 4 and 5C and 5D.
本発明による第 2の実施形態のエアゾール噴射構造の構成は、 前述し た第 1の実施形態のエアゾール噴射構造とは一部が異なっているのみで あるので、 ここでは、 第 1の実施形態の噴射構造と同じ構成部分につい ては、 同じ符号を付してその説明を省略し、 その相違する構成について のみ説明することを了解されたい。  The configuration of the aerosol injection structure of the second embodiment according to the present invention is only partially different from the aerosol injection structure of the above-described first embodiment. It should be understood that the same components as those of the injection structure are denoted by the same reference numerals, and the description thereof will be omitted, and only the different configuration will be described.
この第 2の実施形態において、 計量室 (2) は仕切壁 (23) によつ て、 下部 [噴射部 (31) から遠ざかった部分] の第 1の計量室 (21) と、 この第 1計量室 (21) の容量の 1Z 2以下、 好ましくは 1/3〜 1Z200の範囲内の容量を有し、 エアゾール容器 (1) の開口部 (1 2) 側に臨む第 2の計量室 (22) とに区分されている。  In the second embodiment, the measuring chamber (2) is divided by a partition wall (23) into a first measuring chamber (21) at a lower portion [part away from the injection section (31)] and a first measuring chamber (21). The second measuring chamber (22) having a capacity of 1Z2 or less, preferably in the range of 1/3 to 1Z200 of the capacity of the measuring chamber (21) and facing the opening (1 2) side of the aerosol container (1). ).
第 1の計量室 (21) と第 2の計量室 (22) との間を開閉する第 2 の開閉弁 (5) は、 バルブステム (3) が図 4のような定位置にあると き、 第 2計量室 (22) 側に位置するようにバルブステム (3) の外周 面に形成された環状の凹部 (53) と、 バルブステム (3) の下端部が 摺動自在に貫通するように仕切壁 (23) へ形成された貫通孔 (52) とによって構成される。 The second on-off valve (5), which opens and closes between the first weighing chamber (21) and the second weighing chamber (22), is used when the valve stem (3) is in a fixed position as shown in FIG. The outer circumference of the valve stem (3) is located on the side of the second weighing chamber (22). An annular recess (53) formed on the surface and a through hole (52) formed in the partition wall (23) so that the lower end of the valve stem (3) slidably penetrates.
この第 2の開閉弁 (5) は、 バルブステム (3) が付勢部材 (7) に 付勢されて定位置にあるときは、 図 4のように閉じられ、 第 1計量室 (21) と第 2計量室 (22) との連通を遮断する。  The second on-off valve (5) is closed as shown in FIG. 4 when the valve stem (3) is biased by the biasing member (7) and is in a fixed position, as shown in FIG. And the communication between the second weighing chamber (22).
第 2の開閉弁 (5) は、 バルブステム (3) を下限まで押し下げる間 に、 凹部 (53) が貫通孔 (52) の部分を通過するとき一旦開いて第 1計量室 (21) と第 2計量室 (22) とを連通させる。 そして、 バル ブステム (3) をさらに押し下げると、 バルブステム (3) へ形成され た先下がり状の円錐面 (55) と、 貫通孔 (52) の上縁部の凹円錐面 状の座 (54) とが接触して下限に達する。 バルブステム (3) が下限 に達すると、 凹部 (53) が第 1計量室 (21) 側へ移動するとともに、 凹部 (53) が貫通孔 (52) の座 (54) によって塞がれることによ り、 第 2の開閉弁 (5) が閉じられるように構成される。  The second on-off valve (5) opens once when the recess (53) passes through the through hole (52) while pushing down the valve stem (3) to the lower limit. 2 Connect the measuring chamber (22). When the valve stem (3) is further depressed, the conical surface (55) formed on the valve stem (3) and the concave conical seat (54) on the upper edge of the through hole (52). ) Comes in contact with and reaches the lower limit. When the valve stem (3) reaches the lower limit, the recess (53) moves toward the first measuring chamber (21) and the recess (53) is closed by the seat (54) of the through hole (52). Accordingly, the second on-off valve (5) is configured to be closed.
また、 第 1の開閉弁 (4) は、 計量室 (2) における第 1計量室 (21) 側の室壁に形成された連通孔 (41) と、 バルブステム (3) にバルブステム (3) を所定角度回転させることにより連通孔 (41) を開閉するように設けられたバルブ片 (42) とからなる。  The first on-off valve (4) has a communicating hole (41) formed in the chamber wall on the side of the first measuring chamber (21) in the measuring chamber (2) and a valve stem (3) in the valve stem (3). ) Is rotated by a predetermined angle to open and close the communication hole (41).
かく して、 本発明によるエアゾール噴射構造の第 2の実施形態によれ ば、 好適には、  Thus, according to the second embodiment of the aerosol injection structure according to the present invention, preferably
バルブステム (3) は、 エアゾール容器 (1) の開口部 (12) を第 2計量室 (22) の側から塞ぐように設けられたシール材 (24) の貫 通孔 (62) へ貫通されるとともに、 付勢部材 (7) により噴射部 (31) の方向へ押圧された状態で前記定姿勢に保たれ、 The valve stem (3) is passed through the through hole (62) of the sealing material (24) provided so as to close the opening (12) of the aerosol container (1) from the side of the second measuring chamber (22). And the urging member (7) (31) is maintained in the fixed posture in a state pressed in the direction,
第 (2) の開閉弁 (5) は、 バルブステム (3) が定姿勢にあるとき に第 2計量室 (22) 内に位置するようにバルブステム (3) の外周部 に形成された凹部 (53) と、 バルブステム (3) の一部が摺動自在に 貫通するように仕切壁 (23) へ形成された貫通孔 (52) とから構成 され、  The second (2) on-off valve (5) is a recess formed in the outer periphery of the valve stem (3) so that it is located in the second measuring chamber (22) when the valve stem (3) is in a fixed position. (53) and a through hole (52) formed in the partition wall (23) so that a part of the valve stem (3) slidably penetrates,
噴射弁 (6) は、 噴射部 (31) と第 2計量室 (22) とを連通する ようにバルブステム (3) に形成された連通孔 (61) と、 バルブステ ム (3) が前記定姿勢にあるときに連通孔 (61) を塞ぐシール材 (24) の貫通孔 (62) とから構成され、  The injection valve (6) has a communication hole (61) formed in the valve stem (3) so as to communicate the injection part (31) and the second measuring chamber (22), and the valve stem (3) has the above-mentioned configuration. A through hole (62) of a sealing material (24) that closes the communication hole (61) when in the posture,
バルブステム (3) を付勢部材 (7) の付勢に杭して軸方向へ変位さ せる過程において、 凹部 (53) が仕切壁 (23) へ形成された貫通孔 (52) を通過する際に第 1計量室 (21) と第 2計量室 (22) との 間を一旦連通することにより第 2の開閉弁 (5) が一旦開かれ、  In the process of displacing the valve stem (3) in the axial direction with the bias of the biasing member (7), the recess (53) passes through the through-hole (52) formed in the partition wall (23). At this time, the second on-off valve (5) is once opened by once communicating between the first measuring chamber (21) and the second measuring chamber (22),
バルブステム (3) を付勢部材 (7) の付勢に杭して軸方向へ限界ま で変移させたときに、 凹部 (53) が仕切壁 (23) へ形成された貫通 孔 (52) によって第 1計量室 (21) と第 2計量室 (22) との間を 再度遮断することにより第 2の開閉弁 (5) が再度閉じられるとともに- バルブステム (3) の連通孔 (61) が第 2計量室 (22) 側に通じて 噴射弁 (6) が開かれるように構成されている。  When the valve stem (3) is pushed to the limit by the bias of the biasing member (7) and displaced to the limit in the axial direction, the recess (53) forms a through hole (52) formed in the partition wall (23). The second on-off valve (5) is closed again by shutting off again between the first weighing chamber (21) and the second weighing chamber (22) by means of-the communication hole (61) of the valve stem (3). Is connected to the second measuring chamber (22) and the injection valve (6) is opened.
次に、 以上に述べた本発明による第 2の実施形態のエアゾール噴射構 造の作用とともに、 該噴射構造を使用したエアゾール噴射方法の実施例 を説明する。  Next, an operation of the aerosol injection structure according to the second embodiment of the present invention described above and an example of an aerosol injection method using the injection structure will be described.
前記第 2の実施形態のエアゾール噴射構造を使用した噴射方法の第 1 の工程では、 噴射弁 (6) を閉じた状態で、 第 2の開閉弁 (5) を閉じ て第 1計量室 (21) と第 2計量室 (22) との連通を遮断するととも に、 第 1の開閉弁 (4) を開いてエアゾール容器 (1) と計量室 (2) とを連通させることにより、 エアゾール容器 (1) 内のエアゾール内容 物を第 2計量室 (21) へ、 第 1計量室 (21) の容積分だけ導入し、 第 1計量室 (21) に内容物を充満させる。 The first of the injection methods using the aerosol injection structure of the second embodiment In the step (3), with the injection valve (6) closed, the second on-off valve (5) is closed to cut off the communication between the first measuring chamber (21) and the second measuring chamber (22), By opening the first on-off valve (4) and connecting the aerosol container (1) and the measuring chamber (2), the contents of the aerosol in the aerosol container (1) are transferred to the second measuring chamber (21). Introduce only the volume of 1 weighing chamber (21) and fill the 1st weighing chamber (21) with the contents.
この実施形態では、 バルブステム (3) が図 4のように定姿勢にある とき、 噴射弁 (6) が閉じ、 第 1の開閉弁 (4) が開き、 第 2の開閉弁 (5) が閉じているので、 バルブステム (3) を図 4のような定姿勢に 位置させることにより、 第 1の工程が実行される。  In this embodiment, when the valve stem (3) is in a fixed position as shown in FIG. 4, the injection valve (6) closes, the first on-off valve (4) opens, and the second on-off valve (5) opens. Since it is closed, the first step is executed by positioning the valve stem (3) in the fixed position as shown in FIG.
次いで、 第 2の工程において、 バルブステム (3) を図 4の状態から 図 5、 (B) 図において矢印 aで示すように平面視において 180° 回 転させ、 同図に示すように第 1の開閉弁 (4) を閉じることによりエア ゾール容器 (1) と第 1計量室 (21) との連通を遮断する。  Next, in the second step, the valve stem (3) is rotated 180 ° in plan view from the state of FIG. 4 as shown by the arrow a in FIGS. By closing the on-off valve (4), the communication between the aerosol container (1) and the first measuring chamber (21) is cut off.
この第 2の実施形態の噴射構造においても、 第 1の実施形態の噴射構 造と同様に、 図 2で示すストツパ (26) , (27) によりバルブステ ム (3) が 180° 回転すると停止するように規制されているので、 バ ルブステム (3) を停止するまで矢印 a方向へ回転させればよい。 バルブステム (3) は、 図 5、 (C) の状態まで回転させることによ り、 バルブ片 (42) がストツバ (25) から外れ、 同図のように付勢 部材 (7) の付勢に杭して押し下げることができるようになる。  In the injection structure according to the second embodiment, similarly to the injection structure according to the first embodiment, the valve stops when the valve stem (3) rotates 180 ° by the stoppers (26) and (27) shown in FIG. The valve stem (3) can be rotated in the direction of arrow a until it stops. By rotating the valve stem (3) to the state shown in Fig. 5 and (C), the valve piece (42) comes off the stopper (25), and the urging member (7) is urged as shown in the figure. You can stake and push down.
第 3の工程では、 図 5、 (D) に示すように、 バルブステム (3) を 矢印 bに沿って下限に達するまで数回押し下げる。  In the third step, the valve stem (3) is pushed down several times along arrow b until the lower limit is reached, as shown in Figure 5, (D).
前述のように、 第 2の開閉弁 (5) は、 バルブステム (3) が軸方向 に沿って下方に移動する過程において一旦開かれるので、 このときに第As mentioned above, the second on-off valve (5) has the valve stem (3) Once opened during the process of moving down along
1計量室 (21) 内の内容物が第 2計量室に移動して充満する。 バルブ ステム (3) がさらに押し下げられて下限に達すると、 第 2の開閉弁 (5) が再度閉じて第 1計量室 (21) と第 2計量室 (22) との連通 が再度遮断され、 第 1の実施形態の噴射構造と同様に噴射弁 (6) が図(1) The contents in the weighing chamber (21) move to the second weighing chamber and become full. When the valve stem (3) is further depressed and reaches the lower limit, the second on-off valve (5) is closed again, and the communication between the first measuring chamber (21) and the second measuring chamber (22) is cut off again. The injection valve (6) is similar to the injection structure of the first embodiment.
5、 (D) に示すように開くので、 第 2計量室 (22) 内の内容物が噴 射部 (31) から噴射される。 5, As shown in (D), the contents in the second measuring chamber (22) are jetted from the jetting section (31).
第 2計量室 (22) の容積は第 1計量室 (21) の容積の 1 2以下 であるので、 第 1計量室 (21) の内容物がなくなるまで以上のような バルブステム (3) の操作を二回以上繰り返すことにより、 その操作の 都度第 2計量室 (22) の容積分の内容物が噴射部 (31) から噴射さ れる。  Since the volume of the second measuring chamber (22) is less than or equal to 12 of the volume of the first measuring chamber (21), the valve stem (3) is maintained until the contents of the first measuring chamber (21) are exhausted. By repeating the operation twice or more, the content of the volume of the second measuring chamber (22) is jetted from the jetting section (31) each time the operation is performed.
エアゾール容器 (1) 内の内容物をさらに噴射したい場合には、 バル ブステム (3) を図 5、 (C) に示す矢印 aとは逆方向へ第 1の開閉弁 (4) が開く [連通孔 (41) が開く] まで回転させて第 1の工程に戻 し、 バルブステム (3) を再度矢印 a方向へ停止するまで回転させ、 第 1の開閉弁 (4) を図 5、 (C) に示すように閉じて第 2の工程を実行 し、 前記のように第 3の工程を繰り返す。  To further inject the contents of the aerosol container (1), the first on-off valve (4) opens the valve stem (3) in the direction opposite to the arrow a shown in Fig. 5 and (C). Hole (41) is opened], return to the first step, rotate the valve stem (3) again in the direction of arrow a until it stops, and rotate the first on-off valve (4) as shown in Fig. 5, (C ), The second step is executed, and the third step is repeated as described above.
エアゾール容器 (1) 内の内容物をそれ以上噴射する必要がない場合 には、 バルブステムを図 5、 (C) の状態から矢印 aとは逆方向へ停止 するまで回転させ、 図 4の状態に復帰させる。  If it is not necessary to inject the contents of the aerosol container (1) any more, rotate the valve stem from the state shown in Fig. 5 and (C) until it stops in the direction opposite to the arrow a, and the state shown in Fig. 4 To return to.
以上の実施例に述べた第 2の実施形態のエアゾール噴射構造を使用し た噴射方法によれば、 エアゾール容器 (1) 内の内容物を計量室 (2) の第 1計量室 (21) 内へ充満させておき、 エアゾール容器 (1) 内と 計量室 (2) との連通を遮断した後、 第 1計量室 (21) と第 2計量室 (22) とを一旦連通させ、 この連通を再度遮断させるとともに第 2計 量室 (22) 内の内容物を噴射させる工程を繰り返すことにより、 第 1 計量室 (21) 内の内容物が第 2計量室 (22) の容積分ずつ二回以上 に分けて噴射部 (31) から噴射させることができるので、 エアゾール 容器 (1) 内の内容物を一定量計量し、 計量した一定量の内容物を確実 に定量ずつ数回に分けて噴射させることができる。 According to the injection method using the aerosol injection structure of the second embodiment described in the above example, the contents in the aerosol container (1) are stored in the first measurement chamber (21) of the measurement chamber (2). To the aerosol container (1) After the communication with the weighing chamber (2) is cut off, the first weighing chamber (21) and the second weighing chamber (22) are once connected, and the communication is cut off again and the inside of the second weighing chamber (22) is cut off. By repeating the process of injecting the contents of the first measuring chamber (21), the contents in the first measuring chamber (21) are sprayed from the spraying section (31) twice or more by the volume of the second measuring chamber (22). Therefore, a certain amount of the contents in the aerosol container (1) can be weighed, and the measured amount of the contents can be surely sprayed several times in fixed quantities.
したがって、 前記第 3の工程を繰り返すとき、 その都度噴射部 (31) を所定広さの患部のそれぞれ異なる局部に向けることにより、 所定広さ の患部に対して薬剤をより均一に分散投与することができる。  Therefore, each time the third step is repeated, the injection unit (31) is directed to different local areas of the affected area of the predetermined size each time, so that the medicine can be more uniformly dispersed and administered to the affected area of the predetermined size. Can be.
また、 上記の第 2の実施形態のエアゾール噴射構造によれば、 第 1計 量室 (21) と、 この第 1計量室 (21) の容積の 1 2以下の容積を 有する第 2計量室 (22) からなる計量室 (2) を設けるとともに、 ェ ァゾール容器 (1) 内と第 1計量室 (21) との間を開閉する第 1の開 閉弁 (4) と、 バルブステム (3) が定姿勢に保たれているとき第 1計 量室 (21) と第 2計量室 (22) との間を閉じ、 バルブステム (3) の操作により第 1計量室 (21) と第 2計量室 (22) との間を開閉す る第 2の開閉弁 (5) と、 バルブステム (3) の操作により、 第 2の開 閉弁 (5) が閉じているときに噴射部 (31) と第 2計量室 (22) と の間を開く噴射弁 (6) とを設けたので、 上記実施例の噴射方法を円滑 かつ確実に実施することができる。  According to the aerosol injection structure of the second embodiment, the first measuring chamber (21) and the second measuring chamber (12) having a volume of 12 or less of the volume of the first measuring chamber (21) are also provided. A measuring chamber (2) consisting of 22) is provided, and a first opening / closing valve (4) that opens and closes between the azole container (1) and the first measuring chamber (21), and a valve stem (3) When the is maintained in a fixed position, close the space between the first weighing chamber (21) and the second weighing chamber (22), and operate the first weighing chamber (21) and the second weighing chamber by operating the valve stem (3). By operating the second on-off valve (5) that opens and closes the chamber (22) and the valve stem (3), the injection part (31) is opened when the second on-off valve (5) is closed. Since the injection valve (6) that opens between the second measuring chamber (22) and the second measuring chamber (22) is provided, the injection method of the above embodiment can be smoothly and reliably performed.
第 2の実施形態のエアゾール噴射構造によれば、 勿論、 第 1の実施形 態のエアゾール噴射構造について前述したと同様の作用、 効果を達成す ることができることは言うまでもない。 その他の実施形態: According to the aerosol injection structure of the second embodiment, it goes without saying that the same operation and effect as described above can be achieved for the aerosol injection structure of the first embodiment. Other embodiments:
前述の本発明のよる第 1及び第 2の実施形態においては、 第 1の開閉 弁 (4 ) は、 その連通孔 (4 1 ) がバルブステム (3 ) の回転方向への 操作により開閉するように構成されているが、 連通孔は他の操作片の操 作によって開閉するように変更することもできる。  In the above-described first and second embodiments of the present invention, the first on-off valve (4) has its communication hole (41) opened and closed by operation of the valve stem (3) in the rotation direction. However, the communication hole can be changed to be opened and closed by operation of another operation piece.

Claims

請求の範囲 The scope of the claims
1. 噴射部 (31) と開閉可能に連通し且つエアゾール容器 (1) 内 と開閉可能に連通する計量室 (2) に、 エアゾール容器 (1) 内の内容 物を充満させる第 1の工程と、 1. The first step of filling the contents of the aerosol container (1) into the weighing chamber (2) which is openably and closably connected to the injection unit (31) and openably and closably connected to the inside of the aerosol container (1). ,
計量室 (2) とエアゾール容器 (1) 内との連通を遮断する第 2のェ 程と、  A second step of blocking communication between the weighing chamber (2) and the aerosol container (1);
計量室 (2) 内の内容物を、 少なくとも二回、 所定量ずつ噴射部 (31) から噴射させる第 3の工程、  A third step of injecting the contents in the measuring chamber (2) at least twice from the injection section (31) by a predetermined amount,
とを含むことを特徴とする Is characterized by including
エアゾール噴射方法。  Aerosol injection method.
2. 計量室 (2) は、 第 1計量室 (21) と、 噴射部 (31) と開閉 可能に連通しそして容積が第 1計量室 (21) の容積以下であって且つ 第 1計量室 (21) と開閉可能に連通する第 2計量室 (22) とからな り、  2. The measuring chamber (2) is in openable and closable communication with the first measuring chamber (21) and the injection section (31), and has a volume less than or equal to the volume of the first measuring chamber (21) and the first measuring chamber. (21) and a second weighing chamber (22) that can be opened and closed.
前記第 1の工程において、 第 1計量室 (21) と第 2計量室 (22) とを連通させた状態で計量室 (2) にエアゾール容器 (1) 内の内容物 を充満させ、  In the first step, the contents in the aerosol container (1) are filled in the measuring chamber (2) with the first measuring chamber (21) and the second measuring chamber (22) in communication with each other,
前記第 3の工程において、 第 1計量室 (21) と第 2計量室 (22) との連通を遮断する工程と、 第 2計量室 (22) 内の内容物を噴射部 (31) から噴射させる工程と、 再度第 1計量室 (21) と第 2計量室 (22) とを連通させる工程とを少なくとも二回繰り返す  In the third step, the step of interrupting the communication between the first measuring chamber (21) and the second measuring chamber (22), and the step of jetting the contents in the second measuring chamber (22) from the jetting section (31). And repeating the step of communicating the first measuring chamber (21) and the second measuring chamber (22) again at least twice.
ことを特徴とする請求の範囲第 1項に記載のエアゾール噴射方法。  The aerosol injection method according to claim 1, wherein:
3. 計量室 (2) は、 第 1計量室 (21) と、 噴射部 (31) と開閉 可能に連通しそして容積が第 1計量室 (21) の容積の 1 2以下であつ て且つ第 1計量室 (21) と開閉可能に連通する第 2計量室 (22) と からなり、 3. The weighing chamber (2) opens and closes with the first weighing chamber (21) and the injection unit (31) A second weighing chamber (22) communicable with the first weighing chamber (21) and having a volume less than or equal to 12 of the volume of the first weighing chamber (21), and communicable with the first weighing chamber (21).
前記第 1の工程において、 第 1計量室 (21) と第 2計量室 (22) との連通を遮断した状態で第 1計量室 (21) にエアゾール容器 (1) 内の内容物を充満させ、  In the first step, the first weighing chamber (21) is filled with the contents in the aerosol container (1) while the communication between the first weighing chamber (21) and the second weighing chamber (22) is cut off. ,
前記第 3の工程において、 第 1計量室 (21) と第 2計量室 (22) とを連通させる工程と、 第 1計量室 (21) と第 2計量室 (22) との 連通を遮断し、 第 2計量室 (22) の内容物を噴射部 (31) から噴射 させる工程とを少なくとも二回繰り返す  In the third step, a step of making the first measuring chamber (21) communicate with the second measuring chamber (22); and a step of cutting off the communication between the first measuring chamber (21) and the second measuring chamber (22). And injecting the contents of the second measuring chamber (22) from the injection section (31) at least twice.
ことを特徴とする請求の範囲第 1項に記載のエアゾール噴射方法。  The aerosol injection method according to claim 1, wherein:
4. エアゾール容器 1と、  4. Aerosol container 1 and
噴射部 (31) と、  Injection unit (31),
第 1計量室 (21) と第 1計量室 (21) の容積以下の容積を有する 第 2計量室 (22) とが仕切壁 (23) を介して区分された計量室 (2) と、  A weighing chamber (2) in which a first weighing chamber (21) and a second weighing chamber (22) having a volume equal to or less than the volume of the first weighing chamber (21) are separated through a partition wall (23);
噴射部 (31) と第 2計量室 (22) を連通するとともに仕切壁 (23) を摺動自在に貫通し、 常時定姿勢を保つように付勢されている バルブステム (3) と、  A valve stem (3) communicating with the injection part (31) and the second measuring chamber (22) and slidably penetrating the partition wall (23), and biased to always maintain a fixed posture;
エアゾール容器 (1) と計量室 (2) との間を開閉する第 1の開閉弁 (4) と、  A first on-off valve (4) for opening and closing between the aerosol container (1) and the measuring chamber (2);
バルブステム (3) が定姿勢に保たれているときは第 1計量室 (21) と第 2計量室 (22) との間を開き、 そしてバルブステム (3) の操作 により第 1計量室 (21) と第 2計量室 (22) との間を閉じることが できる第 2の開閉弁 (5) と、 When the valve stem (3) is kept in the fixed position, open between the first measuring chamber (21) and the second measuring chamber (22), and operate the first measuring chamber (3) by operating the valve stem (3). It is possible to close between 21) and the second weighing chamber (22). A second on-off valve (5) that can be
バルブステム (3) の操作により、 第 2の開閉弁 (5) が閉じている ときに噴射部 (31) と第 2計量室 (22) との間を開く ことができる 噴射弁 (6) と、  By operating the valve stem (3), the opening between the injection part (31) and the second measuring chamber (22) can be opened when the second on-off valve (5) is closed. ,
を備えていることを特徴とするエアゾール噴射構造。  An aerosol injection structure comprising:
5. 計量室 (2) がエアゾール容器 (1) 内に設けられており、 第 1の開閉弁 (4) は、 計量室 (2) の室壁に形成された連通孔 5. The measuring chamber (2) is provided in the aerosol container (1), and the first on-off valve (4) is connected to a communication hole formed in the chamber wall of the measuring chamber (2).
(41) と、 バルブステム (3) を所定角度回転させることにより連通 孔 (41) を開閉するようにバルブステム (3) に設けられたバルブ片 ( 42 ) とからなる (41) and a valve piece (42) provided in the valve stem (3) so as to open and close the communication hole (41) by rotating the valve stem (3) by a predetermined angle.
ことを特徴とする請求の範囲第 4項に記載のエアゾール噴射構造。  5. The aerosol injection structure according to claim 4, wherein:
6. バルブステム (3) が、 一定角度正逆に回転するように規制され ており、 一方向へ一定角度回転させたときにバルブ片 (42) が連通孔 6. The valve stem (3) is regulated so as to rotate forward and backward by a certain angle.
(41) を閉じ、 他方向へ一定角度回転させたときにバルブ片 (42) が前記連通孔 (41) を開くように構成されていることを特徴とする、 請求の範囲第 5項に記載のエアゾール噴射構造。 6. The valve according to claim 5, wherein the valve piece (42) is configured to open the communication hole (41) when the (41) is closed and rotated by a certain angle in the other direction. Aerosol injection structure.
7. バルブステム (3) は、 エアゾール容器 (1) の開口部 (12) を第 2計量室 (22) の側から塞ぐように設けられたシール材 (24) の貫通孔 (62) へ貫通されるとともに、 付勢部材 (7) により噴射部 (31) の方向へ押圧された状態で定姿勢に保たれ、  7. The valve stem (3) penetrates into the through hole (62) of the sealing material (24) provided to close the opening (12) of the aerosol container (1) from the side of the second measuring chamber (22). And the urging member (7) is kept in a fixed posture while being pressed in the direction of the injection portion (31).
第 2の開閉弁 (5) は、 バルブステム (3) が定姿勢にあるときに第 1計量室 (21) と第 2計量室 (22) とを連通するようにバルブステ ム (3) に形成された連通部 (51) と、 バルブステム (3) の一部が 摺動自在に貫通するように仕切壁 (23) へ形成された貫通孔 (52) とから構成され、 The second on-off valve (5) is formed in the valve stem (3) so that the first measuring chamber (21) and the second measuring chamber (22) communicate with each other when the valve stem (3) is in a fixed position. Through hole (52) formed in the partition wall (23) so that the communication part (51) and a part of the valve stem (3) slidably pass through. Is composed of
噴射弁 (6) は、 噴射部 (31) と第 2計量室 (22) とを連通する ようにバルブステム (3) に形成された連通孔 (61) と、 バルブステ ム (3) が定姿勢にあるときに連通孔 (61) を塞ぐシール材 (24) の貫通孔 (62) とから構成され、  In the injection valve (6), a communication hole (61) formed in the valve stem (3) so that the injection part (31) communicates with the second measuring chamber (22), and the valve stem (3) have a fixed posture. And a through hole (62) of a sealing material (24) that closes the communication hole (61) when the
バルブステム (3) を付勢部材 (7) の付勢に杭して軸方向へ限界ま で変位させたときに、 バルブステム (3) に形成された連通部 (51) が仕切壁 (23) に形成された貫通孔 (52) の内周面によって塞がれ て第 2の開閉弁 (5) が閉じられるとともに、 バルブステム (3) の連 通孔 (61) が第 2計量室 (22) 側に通じて噴射弁 (6) が開かれる ように構成されている  When the valve stem (3) is piled on the bias of the biasing member (7) and displaced in the axial direction to the limit, the communicating part (51) formed on the valve stem (3) is divided by the partition wall (23). ) Is closed by the inner peripheral surface of the through hole (52) formed in the second opening / closing valve (5), and the communication hole (61) of the valve stem (3) is connected to the second measuring chamber ( 22) The injection valve (6) is configured to open to the side
ことを特徴とする請求の範囲第 5項に記載のエアゾール噴射構造。 6. The aerosol injection structure according to claim 5, wherein:
8. エアゾール容器 1と、  8. Aerosol container 1 and
噴射部 (31) と、  Injection unit (31),
第 1計量室 (21) と第 1計量室 (21) の容積の 1Z 2以下の容積 を有する第 2計量室 (22) とが仕切壁 (23) を介して区分された計 量室 (2) と、  The first measuring chamber (21) and the second measuring chamber (22) having a volume of 1Z2 or less of the volume of the first measuring chamber (21) are separated by a partition wall (23). ) When,
噴射部 (31) と第 2計量室 (22) とを連通するとともに仕切壁 (23) を摺動自在に貫通し、 常時定姿勢を保つように付勢されている バルブステム (3) と、  A valve stem (3) communicating with the injection part (31) and the second measuring chamber (22) and slidably penetrating the partition wall (23) and urged to maintain a constant posture at all times;
エアゾール容器 (1) 内と第 1計量室 (21) との間を開閉する第 1 の開閉弁 (4) と、  A first on-off valve (4) for opening and closing between the inside of the aerosol container (1) and the first measuring chamber (21);
バルブステム (3) が定姿勢に保たれているときは第 1計量室 (21) と第 2計量室 (22) との間を閉じ、 そしてバルブステム (3) の操作 により第 1計量室 (21) と第 2計量室 (22) との間を開閉すること ができる第 2の開閉弁 (5) と、 When the valve stem (3) is in a fixed position, close the space between the first and second measuring chambers (21) and (22) and operate the valve stem (3). A second on-off valve (5) that can open and close between the first weighing chamber (21) and the second weighing chamber (22),
バルブステム (3) の操作により、 第 2の開閉弁 (5) が閉じている ときに噴射部 (31) と第 2計量室 (22) との間を開く ことができる 噴射弁 (6) と、  By operating the valve stem (3), the opening between the injection part (31) and the second measuring chamber (22) can be opened when the second on-off valve (5) is closed. ,
を備えていることを特徴とするエアゾール噴射構造。  An aerosol injection structure comprising:
9. 計量室 (2) がエアゾール容器 (1) 内に設けられており、 第 1の開閉弁 (4) は、 計量室 (2) における第 1計量室 (21) 側 の室壁に形成された連通孔 (41) と、 バルブステム (3) を所定角度 回転させることにより連通孔 (41 ) を開閉するようにバルブステム (3) に設けられたバルブ片 (42) とからなることを特徴とする請求 の範囲第 8項に記載のエアゾール噴射構造。  9. The measuring chamber (2) is provided in the aerosol container (1), and the first on-off valve (4) is formed in the chamber wall of the measuring chamber (2) on the side of the first measuring chamber (21). And a valve piece (42) provided in the valve stem (3) to open and close the communication hole (41) by rotating the valve stem (3) by a predetermined angle. The aerosol injection structure according to claim 8, wherein:
10. バルブステム (3) は、 一定角度正逆に回転するように規制さ れており、 一方向へ一定角度回転させたときにバルブ片 (42) が連通 孔 (41) を閉じ、 そして他方向へ一定角度回転させたときにバルブ片 (42) が連通孔 (41) を開くように構成されていることを特徴とす る請求の範囲第 9項に記載のエアゾール噴射構造。  10. The valve stem (3) is regulated so as to rotate forward and backward by a certain angle. When the valve stem (3) rotates by a certain angle in one direction, the valve piece (42) closes the communication hole (41). 10. The aerosol injection structure according to claim 9, wherein the valve piece (42) is configured to open the communication hole (41) when rotated by a predetermined angle in the direction.
11. バルブステム (3) は、 エアゾール容器 (1) の開口部 (12) を第 2計量室 (22) の側から塞ぐように設けられたシール材 (24) の貫通孔 (62) へ貫通されるとともに、 付勢部材 (7) により噴射部 (31) の方向へ押圧された状態で定姿勢に保たれ、  11. The valve stem (3) penetrates through the through hole (62) of the sealing material (24) provided so as to close the opening (12) of the aerosol container (1) from the side of the second measuring chamber (22). And the urging member (7) is kept in a fixed posture while being pressed in the direction of the injection portion (31).
第 2の開閉弁 (5) は、 バルブステム (3) が定姿勢にあるときに第 2計量室 (22) 内に位置するようにバルブステム (3) の外周部に形 成された凹部 (53) と、 バルブステム (3) の一部が摺動自在に貫通 するように仕切壁 (23) へ形成された貫通孔 (52) とから構成され、 噴射弁 (6) は、 噴射部 (31) と第 2計量室 (22) とを連通する ようにバルブステム (3) に形成された連通孔 (61) と、 バルブステ ム (3>が定姿勢にあるときに連通孔 (61) を塞ぐシール材 (24) の貫通孔 (62) とから構成され、 The second on-off valve (5) is provided with a concave portion (3) formed on the outer periphery of the valve stem (3) so as to be located in the second measuring chamber (22) when the valve stem (3) is in a fixed position. 53) and part of the valve stem (3) slidably penetrate And a through hole (52) formed in the partition wall (23) so that the injection valve (6) is connected to the valve stem so that the injection part (31) communicates with the second measuring chamber (22). A communication hole (61) formed in (3), and a through-hole (62) of a sealing material (24) that closes the communication hole (61) when the valve stem (3> is in a fixed position,
バルブステム (3) を付勢部材 (7) の付勢に杭して軸方向へ変位さ せる過程において、 凹部 (53) が仕切壁 (23) へ形成された貫通孔 (52) を通過する際に第 1計量室 (21) と第 2計量室 (22) との 間を一旦連通することにより第 2の開閉弁 (5) が一旦開かれ、  In the process of displacing the valve stem (3) in the axial direction with the bias of the biasing member (7), the recess (53) passes through the through-hole (52) formed in the partition wall (23). At this time, the second on-off valve (5) is once opened by once communicating between the first measuring chamber (21) and the second measuring chamber (22),
バルブステム (3) を付勢部材 (7) の付勢に杭して軸方向へ限界ま で変移させたときに、 凹部 (53) が仕切壁 (23) へ形成された貫通 孔 (52) によって第 1計量室 (21) と第 2計量室 (22) との間を 再度遮断することにより第 2の開閉弁 (5) が再度閉じられるとともに、 バルブステム (3) の連通孔 (61) が第 2計量室 (22) 側に通じて 噴射弁 (6) が開かれるように構成されている  When the valve stem (3) is pushed to the limit by the bias of the biasing member (7) and displaced to the limit in the axial direction, the recess (53) forms a through hole (52) formed in the partition wall (23). By shutting off the first measuring chamber (21) and the second measuring chamber (22) again, the second on-off valve (5) is closed again and the communication hole (61) of the valve stem (3) is opened. Is connected to the second measuring chamber (22) and the injection valve (6) is opened.
ことを特徴とする請求の範囲第 9項に記載のエアゾール噴射構造。  The aerosol injection structure according to claim 9, wherein:
12. バルブステム (3) は、 バルブステム (3) が定姿勢にあって かつ第 1の開閉弁 (4) が開かれている状態において、 軸方向への変移 が抑制されることを特徴とする請求の範囲第 4〜 11項のいずれかに記 載のエアゾール噴射構造。  12. The valve stem (3) is characterized in that axial displacement is suppressed when the valve stem (3) is in a fixed position and the first on-off valve (4) is open. The aerosol injection structure according to any one of claims 4 to 11, wherein
PCT/JP1998/005671 1997-12-16 1998-12-16 Method and structure for injecting aerosol WO1999030986A1 (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6871799B2 (en) 2001-05-10 2005-03-29 Bio Actis Limited Gas injection valve and filling jig used for filling gas

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4310466B1 (en) * 1965-06-25 1968-05-01
JPS5226923B2 (en) * 1974-03-12 1977-07-16
JPH0331405U (en) * 1989-08-02 1991-03-27
JPH07315462A (en) * 1994-05-25 1995-12-05 Mitani Valve:Kk Fixed-quantity valve for aerosol container

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4310466B1 (en) * 1965-06-25 1968-05-01
JPS5226923B2 (en) * 1974-03-12 1977-07-16
JPH0331405U (en) * 1989-08-02 1991-03-27
JPH07315462A (en) * 1994-05-25 1995-12-05 Mitani Valve:Kk Fixed-quantity valve for aerosol container

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6871799B2 (en) 2001-05-10 2005-03-29 Bio Actis Limited Gas injection valve and filling jig used for filling gas

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