JP2014210600A - Shutoff trigger mechanism, and aerosol product and pump product, comprising the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To achieve a reliable seal action of a trigger lever on a content injection hole of a shutoff trigger mechanism, and to make a user's feeling of finger contact with a trigger lever operation surface part proper.SOLUTION: In a stationary mode shown in Fig., a content injection hole 5j is sealed with a soft seal action part 7h of a trigger lever 7. The seal action part 7h is made by performing two-color molding together with a trigger lever body 7k. Additionally, an operation surface part 7a of the trigger lever 7 is set by a soft member continuing from the seal action part 7h.

Description

  In the present invention, the discharge port for discharging the contents of the container main body to the external space area is changed from the sealed state by the trigger lever to the external space area based on the content discharge operation using the trigger lever. The present invention relates to a shut-off trigger mechanism that shifts to an exposed state.

  More particularly, the present invention relates to a shut-off trigger mechanism in which a stationary mode discharge port is closed by a soft-acting sealing portion set as a separate element in the trigger lever main body.

  Further, the present invention relates to a shut-off trigger mechanism in which the sealing action portion is also formed on the operation surface portion of the trigger lever in an enlarged manner so as to improve the feeling of the finger in the contents discharge operation of the user.

  The shutoff trigger mechanism according to the present invention can be applied to both aerosol type products and pump type products.

  In this specification, the front / rear / right / left positional relationship is described as “front” on the side of the operation surface portion 7a of the trigger lever 7 and “rear” on the side of, for example, the convex shaft portion 7b opposite thereto.

  A direction that is substantially orthogonal to the front-rear direction in a horizontal plane is defined as “left-right”. The vertical direction is also referred to as “vertical”, and an arbitrary direction substantially orthogonal to the vertical direction is referred to as “horizontal”. Here, in addition to the “left-right direction”, the “front-rear direction” can also be said to be a “lateral direction” with respect to the “vertical direction (up-down direction)”.

  In addition, the state in which the content outlet is blocked by the trigger lever other than during the content discharge operation, that is, sealed and not exposed to the external space area is called “static mode”. The state in which the content discharge port is exposed to the external space area and the content is discharged therefrom is called “operation mode”.

  In the stationary mode, the applicant covers and holds the content discharge port and the like with the trigger lever and the dome-shaped collar member, and the content discharge port is exposed by the movement of the trigger lever according to the operation mode setting operation. Then, the stem moves down to the operation mode position, and the trigger lever automatically returns to the stationary mode position by the action of the elastic member when the content discharge operation is released, that is, the content discharge port is covered with the trigger lever. A shut-off trigger mechanism of the above type has been proposed (see Patent Document 1).

Japanese Patent Application No. 2012-278431

  The proposed shut-off trigger mechanism covers and protects the contents discharge port with an operation member, etc. in the stationary mode, and pulls the contents for release (rotation operation) while resisting the elastic force of the trigger lever By shifting the operation mode to the operation mode in which the contents discharge port is exposed, and when the pulling operation is canceled, the operation mode is automatically returned to the stationary mode.

  In the present invention, for example, by providing a seal acting portion of the trigger lever in such a shut-off trigger mechanism with respect to the content discharge port as a separate element from the trigger lever main body, the content discharge port is covered. In other words, it is an object of the present invention to ensure the sealing operation of the contents discharge port in the stationary mode by configuring the sealing action portion with a specialized soft member, for example.

  In addition, the operation part of the trigger lever is molded into the sealing part in an enlarged manner to improve the sense of touching the finger when the user releases the contents, and the design of the operation part is further improved. The purpose is to improve.

The present invention solves the above problems by using the following shut-off trigger mechanism.
(1) A trigger lever (for example, a trigger lever 7 to be described later) is used as a discharge port (for example, a discharge port 5j to be described later) for discharging the contents of the container body (for example, a container body 1 to be described later) to the external space. In the shut-off trigger mechanism that shifts from the sealed state by the trigger lever so far to the exposed state to the external space area based on the content discharge operation,
The trigger lever is
It is urged by an elastic force (for example, an elastic force of a spring member 9 described later) to a stationary mode position where the content discharge operation is not performed,
A sealing action portion (for example, a sealing action portion 7h described later) that closes the discharge port in the stationary mode is provided as a separate element from a main body portion (for example, a trigger lever main body 7k described later) of the trigger lever. Yes,
The thing of a structure aspect is used.
(2) In (1) above,
The sealing action part is
Is of a soft nature,
The thing of a structure aspect is used.
(3) In the above (1) and (2),
The sealing action part is
The operation surface portion of the trigger lever (for example, an operation surface portion 7a described later) is also enlarged and processed.
The thing of a structure aspect is used.

  A shut-off trigger mechanism having such a configuration, an aerosol-type product that includes the shut-off trigger mechanism and contains a gas, contents, and the like described later in a container body, and a content that includes the shut-off trigger mechanism and is described later. The pump type product which accommodated etc. in the container main body is made into the object of this invention.

The present invention takes the above problem solving means,
(11) It is possible to ensure the sealing operation of the contents discharge port in the stationary mode,
(12) It is possible to improve the feeling per finger at the time of the user's content release operation, and further improve the design of the operation surface portion.

It is explanatory drawing which shows the longitudinal cross-section of the still mode of a shut-off trigger mechanism (the 1). The initial stage when the trigger lever 7 of the shut-off trigger mechanism of FIG. 1 is rotated counterclockwise in the drawing (the contents where the discharge port 5j of the stem joint 5 is exposed but the stem 4 has not yet moved downward) It is explanatory drawing which shows the longitudinal cross-section of an unreleased state. It is explanatory drawing which shows the longitudinal cross-section of the content discharge | release state (operation mode) when the trigger lever 7 of the shut-off trigger mechanism of FIG. It is explanatory drawing which shows the longitudinal cross-section of the still mode of a shut-off trigger mechanism (the 2: shut-off trigger mechanism by which the sealing action part was also shape | molded enlargedly also to the operation surface part of the trigger lever). It is explanatory drawing which shows the perspective state of each of the trigger lever 7 and the spring member 9 which comprise the shut-off trigger mechanism of FIG.

The best mode for carrying out the present invention will be described with reference to FIGS.
As described above, the shut-off trigger mechanism of the present invention can be applied to both aerosol type products and pump type products. However, in the following description of the embodiment, for the sake of convenience of explanation, examples of application to aerosol type products are in principle. It is said.

  The components of the reference numbers with the following alphabets (for example, the horizontal hole portion 4a) indicate that they are part of the components (for example, the stem 4) of the reference numeral numbers in principle.

  1 to 4 includes a mounting cap 2, a housing 3, a stem 4, a stem joint 5, a collar member 6, a trigger lever 7, an upper cover 8, a spring member 9, and the like.

1 to 5,
1 is a well-known container body containing the contents and gas for injection described later,
2 is a known mounting cap attached to the open end of the container body 1;
2a is a well-known annular concave portion which is set in the outer lower end region of the mounting cap and to which a later-described collar member 6 (annular convex portion on the lower end side of the inner peripheral surface of the cylindrical base portion 6a) is strongly engaged;
3 is a housing that is engaged and held in the central portion of the mounting cap 2 and operates as a storage area and passage area for the contents to be released;
Respectively.

Also,
4 is a sheath-shaped stem which is disposed in the interior of the housing 3 and in the space above the housing 3 and has a known valve action in a state of being biased upward by an elastic force.
4a is a lateral hole part as a valve action part formed in the stem peripheral surface part,
4b is an intermediate passage area formed inside the stem and communicating with the lateral hole 4a,
4c is a well-known stem gasket that selectively sets the open / closed state of the lateral hole portion 4a and exhibits a sealing action inside the housing;
4d is a known coil spring that biases the stem upward,
Respectively.

Also,
5 is provided with a flexible L-shaped cylindrical portion composed of a vertical cylindrical portion and a horizontal cylindrical portion that follows the vertical cylindrical portion, and the vertical cylindrical portion is fitted and fixed to the output side outer peripheral surface of the stem 4 to A stem joint that works together and acts as an output-side passage area for the contents,
5a is a vertical cylindrical part,
5b is a horizontal cylindrical part continuing downstream of the vertical cylindrical part 5a,
5c is a lower-diameter side portion of the vertical cylindrical portion 5a, and a large-diameter cylindrical portion that is fitted and fixed to the output-side cylindrical portion of the stem 4;
5d is an annular ceiling step formed on the inner peripheral surface of the lower end side of the large-diameter cylindrical portion 5c and abutting against the annular upper end surface of the stem 4;
5e is formed in a substantially horizontal manner extending in the front and both sides on the upper part of the outer peripheral surface of the vertical cylindrical part 5a following the large-diameter cylindrical part 5c, and its upper surface part is a C-shape of a spring member 9 described later. A semicircular disk-like part that acts as a mounting surface for the base part 9b;
5f is formed on both left and right ends of the semicircular plate-like portion 5e, and the vertical cylindrical portion 5a is displaced in the front-rear direction and rotated by the guide action of the guide member (not shown) in the vertical direction of the collar member 6. A pair of convex parts to prevent twisting to the
5g is a ring-shaped part formed on the outer peripheral surface of the horizontal cylindrical part 5b,
5h is a nozzle for passing the contents attached to the outer peripheral surface of the horizontal cylindrical portion 5b so that the rear end surface of the horizontal cylindrical portion 5b comes into contact with the ring-shaped portion 5g;
5j is a discharge port for content injection formed at the tip of the nozzle 5h,
5k is an upper portion of the nozzle 5h, which is a flat top plate portion of a substantially triangular mountain shape plane that is engaged and held by a collar member 6 to be described later.
Respectively.

Also,
6 is a collar member that is fitted and held in the annular concave portion 2a of the mounting cap 2 and acts as an engagement holding portion of the nozzle 5h, a rotation center portion of the trigger lever 7, etc.
6a is a cylindrical base portion fitted and held in the annular concave portion 2a of the mounting cap 2;
6b is a substantially annular top surface formed with a substantially upward inclination from the upper end portion of the cylindrical base 6a,
6c is an upright portion formed on the left and right sides and the rear side of the opening edge portion of the top surface 6b,
6d is a pair of flat side plate-like portions in the left-right facing state that constitute the upright portion 6c
6e is a pair of holes that are formed on the rear side of the upper end of the flat plate-like portion 6d and act as a rotation center of a trigger lever 7 described later.
6f is a flat L-shaped horizontal space between the inner surface of the flat plate-shaped portion 6d and the upright portion 6c, the long side of which is separated from the rear inner surface in a shape in which the long side recedes outward from the front inner surface of the flat-side plate-shaped portion 6d. A pair of rail-shaped upper end surfaces that are formed in a manner and guide the lower surface portion of the upper convex portion 8e of the upper cover 8,
6g is a pair of rail-like outward lower convex portions that are formed below the rail-like upper end surface in the same horizontal manner as the rail-like upper end surface 6f and guide the lower concave portion 8f of the upper cover 8.
6h is a substantially V-shaped upper end frame portion (upper frame portion) formed in front of the upper end opening portion of the collar member and receiving the upper end surface portion of the trigger lever 7 on its lower surface (ceiling surface);
Respectively.

Also,
7 is a trigger lever of the upper and lower opening aspect attached to the hole 6e of the collar member 6 in a rotatable manner,
7a is an operation surface portion of the trigger lever,
7b is a pair of convex shaft portions that are formed at the rear end portion of the inner surface of the trigger lever and serve as the center of rotation due to the engagement with the hole 6e of the collar member 6.
7c is formed in such a manner that it is supported by three rib-like portions from the middle in the vertical direction of the back surface of the operation surface portion 7a in the internal space area of the trigger lever to the rear and the left and right, and is notched at the rear end portion A top plate having
7d is a pair of plate-like hanging portions formed downward from the left and right edge portions of the top plate-like portion 7c and exhibiting a cooperative action with a spring member 9 to be described later.
7e is a pair of linear lower end surfaces formed on the rear lower end surface of the plate-like hanging portion 7d,
7f is a pair of small curved corner end surfaces formed at the boundary region between the front end portion of the linear lower end surface 7e and the portion rising therefrom;
7g is an Ω-shaped part (concave part) that is formed in the front part of the linear lower end surface 7e of the plate-like hanging part 7d and engages with a connecting shaft-like part 9c of a spring member 9 described later,
7h is a soft acting sealing portion which is formed by two-color molding on the back side of the operation surface portion 7a and seals the discharge port 5j in the stationary mode of FIG.
7j is an elastic covering portion (see FIG. 4) that is formed on the surface of the operation surface portion 7a in an enlarged manner continuous from the sealing portion 7h by two-color molding.
7k is a trigger lever body in which the sealing action portion 7h and the elastic covering portion 7j are removed from the trigger lever,
Respectively.

Also,
8 is an upper cover attached to the upper opening of the collar member 6;
8a is an upper part of the upper cover, and a top plate portion (top plate action portion) having an oval shape or a modified ellipse shape,
8b is a front end portion of the top plate portion 8a,
8c is a plate-like columnar hanging portion formed in the left-right direction of the rear side portion of the ceiling surface of the top plate portion 8a,
8d is a reinforcing rib formed in the state of a hanging plate in the front-rear direction from the ceiling surface of the top plate portion 8a at the left and right central portions of the front surface of the columnar hanging portion 8c.
8e is a pair of upper convex portions formed on the lower portions of the left and right outer surfaces of the columnar hanging portion 8c, the lower surface portion of which is guided by the rail-shaped upper end surface 6f of the collar member 6.
8f is formed below the upper convex portion 8e of the left and right outer surfaces of the columnar hanging portion 8c, and is guided to the outward lower convex portion 6g of the collar member 6 similarly to the upper convex portion. Lower concave part,
Respectively.

Also,
9 is a spring member (elastic member) that is placed on the stem joint 5 and urges the trigger lever 7 to rotate clockwise in FIG. 1 about its convex shaft portion 7b.
9a is a pair of left and right, respectively, a front opening in the front-rear direction, a substantially U-shaped elastic action part consisting of two layers,
9b has a shape in which the lower end portions of each of the elastic acting portions 9a are connected to each other, and includes a rear opening placed on the semicircular plate-like portion 5e of the stem joint 5, a horizontal C-shaped base portion,
9c is a connecting shaft-shaped portion formed between the upper front end side portions of the elastic action portions 9a,
9d is formed so as to project inward from the rear end side of the C-shaped base portion 9b to the lower end portion of the elastic action portion 9a, and the curved corner end surface 7f is brought into contact with the trigger lever 7 when the trigger lever 7 is pulled. Outing,
Respectively.

  Here, the sealing action portion 7h and the elastic covering portion 7j of the trigger lever 7 are made of soft elastomer, plastic, or rubber.

  As the elastomer, styrene elastomer, polyolefin elastomer, vinyl chloride elastomer, ester elastomer and the like are used.

  As the plastic, polyester resin (for example, polyethylene terephthalate, polybutylene terephthalate), polyolefin resin (for example, polyethylene, polypropylene), fluorine resin (for example, tetrafluoroethylene resin), vinyl chloride, polyurethane, and the like are used.

  As the rubber, chloroprene rubber, nitrile rubber, silicone rubber, fluorine rubber and the like are used.

  The housing 3, the stem 4, the stem joint 5, the collar member 6, the trigger lever body 7k, the upper cover 8, and the like are made of plastic made of, for example, polypropylene, polyethylene, polyacetal, nylon, polybutylene terephthalate, or the like.

  The container body 1 and the mounting cap 2 are made of metal, the stem gasket 4c is made of rubber, and the coil spring 4d and the spring member 9 are made of plastic or metal.

The basic features of the illustrated shutoff trigger mechanism are:
(21) The sealing action portion 7h for the content discharge port 5j is composed of a soft property member separate from the trigger lever body,
(22) An elastic covering portion 7j continuous from the sealing action portion 7h is also formed on the operation surface portion 7a of the trigger lever 7 in an enlarged manner.
That is.

The assembly procedure of the shut-off trigger mechanism shown in FIGS. 1 to 4 is as follows, for example.
(31) The nozzle 5h is attached to and integrated with the horizontal cylindrical portion 5b of the stem joint 5,
(32) Next, the integrated stem joint 5 is attached downward from the upper front end side opening of the collar member 6 and integrated,
(33) Next, the connecting shaft-like portion 9c of the spring member 9 is attached to and integrated with the Ω-like portion 7g of the trigger lever 7,
(34) Next, the upper cover 8 is attached to and integrated with the upper opening of the stem joint 5 and the collar member 6 integrated in the procedure of (32) above,
(35) Next, the trigger lever 7 and the spring member 9 integrated in the procedure of (33) are inserted rearward from the front opening of the collar member 6.

  In the spring member 9 integrated with the trigger lever 7 in the procedure (33), the front portion of the upper end surface of the elastic action portion 9a is in contact with the top plate portion 7c of the trigger lever. Therefore, the spring member 9 attached to the Ω-shaped portion 7g of the trigger lever 7 does not rotate.

  In the procedure of (34) above, the outward lower convex portion 6g of the collar member 6 is relative to the lower concave portion 8f of the upper cover 8 and the lower convex portion of the lower concave portion. It enters while producing elastic compression deformation.

  In the above procedure (35), the pair of convex shaft portions 7b of the trigger lever 7 are spread outward while being guided to the outside of the flat side plate-like portion 6d of the collar member 6, respectively, and are engaged holes. Move to 6e.

When the trigger lever 7 is not operated and is in the stationary mode (see FIGS. 1 and 4),
(41) The stem 4 is moved up by the elastic force of the coil spring 4d and held in the housing 3 in a known state in which the stem gasket 4c closes the lateral hole portion 4a.
(42) The trigger lever 7 is clockwise as shown in the figure by the elastic force of the spring member 9 placed on the semicircular plate-like portion 5e of the stem joint 5 fitted to the stem 4 (elastic force weaker than the coil spring 4d). And the upper end surface portion of the trigger lever comes into contact with the upper end frame-like portion 6h of the collar member 6, and the sealing action portion 7h comes into contact with the discharge port 5j and is held closed.
(43) The linear lower end surface 7e and the curved angular end surface 7f of the trigger lever 7 (plate-like hanging portion 7d) in this abutting and holding state are sufficiently spaced above the bulging portion 9d of the spring member 9 above. .

  From the start of the pulling operation of the trigger lever 7 in the stationary mode (see FIGS. 1 and 4), the stem joint 5 and the stem joint 5 are integrated with the linear lower end surface 7e and the curved angular end surface 7f and the bulging portion 9d. In other words, there is a delay until the stem 4 is driven downward while it resists the strong elastic force in the upward direction of the coil spring 4d and shifts to the content discharge state.

  During this delay, the stem joint 5 urged upward by the strong elastic force of the coil spring 4d does not move downward, and the trigger lever 7 moves around the convex shaft portion 7b. It rotates counterclockwise in FIG. 1 while resisting weak elastic force.

  As the trigger lever 7 rotates, the discharge port 5j of the stem joint 5 that has been sealed with the trigger lever until then is exposed to the external space (see FIG. 2).

  As described above, the elastic force of the spring member 9 that urges the trigger lever 7 clockwise in FIGS. 1 to 4 is sufficiently smaller than that of the coil spring 4d that urges the stem 4 upward.

Due to the difference in elastic force, when the trigger lever 7 is pulled backward (counterclockwise) in the stationary mode of FIGS.
(51) First, the spring member 9 integral with the trigger lever is displaced through the connecting shaft-like portion 9c in such a manner that the upper portion of each elastic acting portion 9a is moved downward (see FIG. 2).
(52) With the further trigger lever pulling operation after the end of the displacement of the elastic action portion 9a, the coil spring 4d is displaced downward in a manner resisting the elastic force (see FIG. 3).

That is, as the trigger lever 7 is pulled,
(61) At the initial stage where only the weak elastic force spring member 9 is displaced without displacing the highly elastic coil spring 4d, the discharge port 5j of the nozzle 5h is exposed to the external space region, but from the discharge port. The contents are not jetted,
(62) The state in which the contents are not jetted is that when the trigger lever 7 rotates counterclockwise about the convex shaft portion 7b, the curved corner end surface 7f of the bulging portion 9d of the spring member 9 Continue until it touches the top surface (see Figure 2)
(63) After the curved corner end surface 7f and the bulging portion 9d abut, the stem joint 5 on which the spring member 9 is placed and the stem 4 integral with the stem member 5 are removed from the curved corner end surface 7f of the trigger lever 7. In other words, receiving the driving force,
(64) The stem 4 receiving this driving force moves downward while resisting the upward elastic force of the coil spring 4d,
(65) The shut-off trigger mechanism shifts to the well-known operation mode of the content discharge state by the downward movement of the stem 4 (see FIG. 3).

  When the stem joint 5 is displaced in the vertical direction between the stationary mode and the operation mode, the nozzle 5h corresponding to the front end portion thereof is integrated with the collar member 6, so that the vertical cylindrical portion 5a and the horizontal cylindrical portion The free intermediate portion of the flexible L-shaped cylindrical portion made of 5b is deformed.

  In the operation mode of FIG. 3, due to the deformation of the stem contact portion (inner portion) of the stem gasket 4 c that has closed the lateral hole portion 4 a of the stem 4, the lateral hole portion is changed from the closed state so far to the open state. It has changed.

  At this time, the contents of the container main body 1 are “the horizontal hole portion 4a of the stem 4—the intermediate passage area 4b of the stem 4—the vertical cylindrical portion 5a of the stem joint 5 and the horizontal cylindrical portion 5b—nozzle. It is discharged to the external space area through the 5h discharge port 5j ". The contents discharge operation based on the action of the injection gas is well known.

When the user releases the pulling operation to the rear of the trigger lever 7,
(71) The stem 4 and the stem joint 5, the spring member 9 and the like integrated with the stem 4 are driven upward by the elastic force of the coil spring 4d, and the valve action portions (the lateral hole portion 4a and the stem gasket 4c) Transition from open to closed,
(72) The trigger lever 7 in the free state is rotated clockwise by the elastic force of the spring member 9 so that the upper end surface portion of the trigger lever comes into contact with the upper end frame-like portion 6h of the collar member 6, And it transfers to the obstruction | occlusion state which the seal | sticker action part 7h contact | abutted to the discharge port 5j.

  That is, the shut-off trigger mechanism of FIG. 3 returns from the operation mode at the time of the contents discharge operation to the stationary mode of FIG.

Of course, the present invention is not limited to the illustrated embodiment, for example,
(81) The sealing action portion 7h and the elastic covering portion 7j are formed separately from the trigger lever body 7k, and then fixedly attached to the trigger lever body.
(82) forming a concave portion and a convex portion of the finger slip on the operation surface portion 7a of the trigger lever 7;
(83) When the operation mode setting operation of the trigger lever 7 is performed, the curved corner end surface 7f abuts on the upper surface of the semicircular plate-like portion 5e of the stem joint 5 and directly drives it downward.
(84) The sealing state in which the discharge port 5j is not exposed in the stationary mode of FIGS. 1 and 4 is set in the form of a small separation between the upper end frame-like portion 6h of the collar member 6 and the trigger lever 7.
(85) Use the shut-off trigger mechanism of FIGS.
You may do it.

  Aerosol-type products and pump-type products to which the present invention is applied include cleaning agents, cleaning agents, antiperspirants, cooling agents, muscle anti-inflammatory agents, hair styling agents, hair treatment agents, hair dyes, hair restorers, cosmetics, Shaving foam, food, liquid drops (vitamins, etc.), pharmaceuticals, quasi-drugs, paints, horticultural agents, repellents (insecticides), cleaners, deodorants, laundry glue, urethane foam, fire extinguishers, There are various applications such as adhesives and lubricants.

  The contents stored in the container body can be in various forms such as liquid, cream, gel, etc. Examples of ingredients blended in the contents include powdered substances, oil components, alcohols, interfaces Activators, polymer compounds, active ingredients according to each application, water and the like.

  As the powder, metal salt powder, inorganic powder, resin powder, or the like is used. For example, talc, kaolin, aluminum hydroxychloride (aluminum salt), calcium alginate, gold powder, silver powder, mica, carbonate, barium sulfate, cellulose, and a mixture thereof are used.

  As the oil component, silicone oil, palm oil, eucalyptus oil, camellia oil, olive oil, jojoba oil, paraffin oil, myristic acid, palmitic acid, stearic acid, linoleic acid, linolenic acid and the like are used.

  Examples of the alcohol include monovalent lower alcohols such as ethanol, monovalent higher alcohols such as lauryl alcohol, and polyhydric alcohols such as ethylene glycol, glycerin, and 1,3-butylene glycol.

  Surfactants include anionic surfactants such as sodium lauryl sulfate, nonionic surfactants such as polyoxyethylene oleyl ether, amphoteric surfactants such as lauryldimethylaminoacetic acid betaine, and cations such as alkyltrimethylammonium chloride. A surfactant is used.

  As the polymer compound, methyl cellulose, gelatin, starch, casein, hydroxyethyl cellulose, xanthan gum, carboxyvinyl polymer, or the like is used.

  Active ingredients according to each application include antiphlogistic analgesics such as methyl salicylate and indomethacin, disinfectants such as sodium benzoate and cresol, insecticides and insect repellents such as pyrethroid and diethyltoluamide, and zinc oxide. Perfumes such as sweat, rose oil and linalool, deodorants such as plant extracts, refreshing agents such as camphor and menthol, anti-asthma drugs such as ephedrine and adrenaline, sweeteners such as sucralose and aspartame, epoxy resins, urethane, etc. Adhesives and paints, dyes such as paraphenylenediamine and aminophenol, fire extinguishing agents such as ammonium dihydrogen phosphate, sodium and potassium hydrogen carbonate, etc. are used.

  Further, other than the above-mentioned contents, suspending agents, ultraviolet absorbers, emulsifiers, humectants, antioxidants, sequestering agents, etc. can be used.

  As gas for injecting contents in aerosol type products, compressed gas such as carbon dioxide, nitrogen gas, compressed air, oxygen gas, rare gas, and mixed gas thereof, and liquefied gas such as liquefied petroleum gas, dimethyl ether, and fluorocarbon are used. .

1: Container body 2: Mounting cap 2a: Ring concave portion 3: Housing 4: Stem 4a: Horizontal hole portion 4b: Intermediate passage region 4c: Stem gasket 4d: Coil spring 5: Stem joint 5a: Vertical tubular portion 5b: Horizontal Cylindrical part 5c: Large-diameter cylindrical part 5d: Ceiling step part 5e: Semi-disc part 5f: Convex part 5g: Ring-shaped part 5h: Nozzle 5j: Emission port 5k: Flat top plate part 6: Color member 6a: cylindrical base portion 6b: top surface 6c: upright portion 6d: flat side plate-like portion 6e: hole 6f: rail-like upper end surface 6g: rail-like outward lower convex portion 6h: upper-end frame-like portion 7: trigger lever 7a: Operation surface portion 7b: Convex shaft portion 7c: Top plate portion 7d: Plate-like hanging portion 7e: Linear lower end surface 7f: Curved corner end surface 7g: Ω-shape portion (concave portion)
7h: Sealing portion 7j: Elastic covering portion (FIG. 4)
7k: Trigger lever body 8: Upper cover 8a: Top plate portion 8b: Front end portion 8c: Columnar hanging portion 8d: Reinforcing rib 8e: Upper convex portion 8f: Lower concave portion 9: Spring member 9a: Elastic acting portion 9b: C Character base 9c: connecting shaft 9d: bulge

Claims (5)

Based on the contents discharge operation using the trigger lever, the discharge port for discharging the contents of the container main body to the external space area changes from the sealed state by the trigger lever so far to the exposed state to the external space area. In the shut-off trigger mechanism to transition,
The trigger lever is
It is urged by an elastic force to the position of the stationary mode where the content discharge operation is not performed,
The sealing action portion that closes the discharge port in the stationary mode is provided as a separate element from the main body portion of the trigger lever.
A shut-off trigger mechanism characterized by that. The sealing action part is
Is of a soft nature,
The shut-off trigger mechanism according to claim 1. The sealing action part is
The operation surface portion of the trigger lever is also enlarged and processed,
3. The shut-off trigger mechanism according to claim 1, wherein the shut-off trigger mechanism is provided. The shut-off trigger mechanism according to any one of claims 1 to 3 is provided, and the gas for injection and the contents are contained in the container body.
Aerosol type product characterized by that. The shut-off trigger mechanism according to any one of claims 1 to 3 is provided, and contents are stored in a container body.
This is a pump-type product.

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