WO2022124269A1 - 吐出システム - Google Patents

吐出システム Download PDF

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Publication number
WO2022124269A1
WO2022124269A1 PCT/JP2021/044764 JP2021044764W WO2022124269A1 WO 2022124269 A1 WO2022124269 A1 WO 2022124269A1 JP 2021044764 W JP2021044764 W JP 2021044764W WO 2022124269 A1 WO2022124269 A1 WO 2022124269A1
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WO
WIPO (PCT)
Prior art keywords
container
hole
discharge
nozzle
discharge system
Prior art date
Application number
PCT/JP2021/044764
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
基治 青木
素樹 ▲高▼田
洋平 小林
Original Assignee
株式会社資生堂
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 株式会社資生堂 filed Critical 株式会社資生堂
Priority to JP2022568269A priority Critical patent/JPWO2022124269A1/ja
Publication of WO2022124269A1 publication Critical patent/WO2022124269A1/ja

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    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D34/00Containers or accessories specially adapted for handling liquid toiletry or cosmetic substances, e.g. perfumes
    • A45D34/04Appliances specially adapted for applying liquid, e.g. using roller or ball
    • 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
    • B65D83/76Containers or packages with special means for dispensing contents for dispensing fluent contents by means of a piston

Definitions

  • the present invention relates to a discharge system capable of discharging a plurality of types of contents, particularly a plurality of cosmetics.
  • the present invention can discharge a plurality of types of contents, avoids the viscous contents from solidifying under the nozzle and remaining in an icicle-like state, and a plurality of contents.
  • the purpose is to provide a discharge system in which the types do not mix in the middle of discharge.
  • a discharge system that can discharge multiple types of contents.
  • a first container for accommodating the first viscous content and discharging the first content from the first nozzle.
  • a second container that houses the non-viscous second content and discharges the second content from the second nozzle.
  • the first hole through which the first nozzle is inserted and the first content passes upward and the discharge port of the second nozzle are arranged close to each other so that the second content passes downward.
  • the first content is extruded and discharged from the first nozzle, and then stays around the first hole.
  • the second content provides a discharge system, which is dropped or ejected downward.
  • a discharge system capable of discharging a plurality of types of contents, it is possible to prevent the contents from remaining in an icicle shape under the nozzle, and the plurality of types are not mixed in the middle of discharge.
  • Sectional drawing of the main part of the discharge system which concerns on 1st Embodiment of this invention The figure explaining the pushing of the main body part of a container by the drive part of this invention.
  • Explanatory drawing which contains a lot of contents in a container included in this invention.
  • Explanatory drawing which has little content in the container of FIG. 9A.
  • the whole view of the discharge system which concerns on the modification 2 of 1st Embodiment.
  • FIG. 3 is a perspective view of an internal mechanism of the discharge system according to the third embodiment with the outer cover removed.
  • FIG. 1 An exploded perspective view of the internal mechanism of the discharge system according to the third embodiment with the outer cover removed.
  • FIG. 1 is a diagram illustrating the movement of the position adjusting plate before and after the nozzle of the first second container reaches the position facing the prepared hole in the discharge system according to the third embodiment (No. 1).
  • FIG. 2 is a diagram illustrating the movement of the position adjusting plate before and after the nozzle of the first second container reaches the position facing the prepared hole in the discharge system according to the third embodiment (No. 2).
  • the figure which shows the modification which the moving trajectory of the axis of a container is a circular shape with a vertical notch.
  • the figure which shows the modification which the moving trajectory of the axis of a container is a quadrangle with rounded corners in the discharge system which concerns on 3rd Embodiment.
  • the conceptual diagram of the discharge system which concerns on the modification of 3rd Embodiment. The transmission perspective view of the discharge system which concerns on 4th Embodiment.
  • the conceptual diagram of the discharge system which concerns on the modification of 4th Embodiment. The perspective view of the internal mechanism which removed the outer cover of the discharge system which concerns on 5th Embodiment of this invention.
  • the present invention relates to a discharge system capable of discharging a plurality of types of contents.
  • contents included in the discharge system for example, cosmetics (basic makeup, makeup cosmetics (base makeup cosmetics, point makeup cosmetics)), kneaded perfumes, seasonings and the like are contained.
  • FIG. 3 is an overall view of the discharge system according to the first embodiment of the present invention.
  • FIG. 4 is an exploded explanatory view of the front plate, the sideways cylinder portion, and the container from which the outer cover is removed of the discharge system according to the first embodiment.
  • the discharge system 100 is a discharge system capable of discharging a plurality of types of contents.
  • the discharge system 100 has a front plate 10 having an opening 11 and a substantially semi-cylindrical shape having a side surface and an upper surface in which a part of a cross-sectional cylinder is linear (a missing circle is extended in the depth direction) as the outer shape of the main body.
  • the outer cover 12 is provided with a leg portion 13 at the lower portion of the outer cover 12.
  • the opening 11 has a missing circular shape with the lower end lacking a bow shape.
  • the back of the opening 11 of the front plate is a cylindrical discharge space D that opens in the depth direction.
  • the discharge space D extending to the back of the opening 11 is a space surrounded by the upper, lower, left, right, and back surfaces.
  • the width direction in the discharge system will be described as X, the depth direction as Y, and the height direction as Z.
  • the front plate 10, the outer cover 12, the legs 13, and the back surface function as a housing 1 for accommodating a plurality of containers 30a and 30b inside.
  • the outer housing 1 is made of a polyester resin such as polypropylene (PP), polyethylene (PE), acrylonitrile, butadiene, styrene (ABS), polybutylene terephthalate (PBS), polyacetal (POM), polyethylene terephthalate (PET), and the like.
  • Consists of resins such as biodegradable resins. Alternatively, some or all of them may be made of wood or glass.
  • the front plate 10 located on the front surface is irradiated with UV in order to make it difficult for dirt to adhere to the front plate 10.
  • the discharge system 100 has a lateral bottom that is connected to the edge of the opening 11 of the front plate 10 and extends rearward inside the outer cover 12.
  • a tubular laterally oriented tubular portion 20 is provided.
  • the inner peripheral surface (inner wall surface) of the laterally oriented tubular portion 20 defines a tubular discharge space D.
  • the discharge system 100 is provided with a plurality of containers 30a and 30b for accommodating a plurality of contents, respectively.
  • the rear ends of the containers 30a and 30b are covered with push holders 34a and 34b.
  • the cartridge holder 37 (see FIG. 7) that supports the push holders 34a and 34b is not shown.
  • discharge drive units 40a and 40b are provided on the rear end sides of the containers 30a and 30b and the push holders 34a and 34b.
  • the discharge system according to the present embodiment is a cosmetic discharge system, and an example in which a plurality of contents are all cosmetics will be described.
  • FIG. 5A and 5B are perspective views of the sideways tubular portion 20 of the discharge system 100 according to the first embodiment, FIG. 5A is a top perspective view, and FIG. 5B is a bottom perspective view.
  • the lateral tubular portion 20 has a lateral tubular portion 21 that opens from the front to the back and whose inner peripheral surface defines the discharge space D.
  • the tubular portion 21 has a missing circular shape in which the opening portion lacks a lower end in an arch shape, and the tubular portion 21 has a circumferential tubular portion 21C and a flat surface 21F at the lower end.
  • the sideways tubular portion 20 is an example of an inner wall member that defines a discharge space (opening space) into which a hand can be inserted and continuously surrounds an opening space other than the front end.
  • An upper hole 22 is formed on the upper surface (zenith portion) which is the inner upper surface of the circumferential tubular portion 21C of the tubular portion 21, and a pilot hole 23 is formed on the flat surface 21F on the lower end side which is the inner lower surface.
  • the prepared hole 23 in the present embodiment functions as a first hole
  • the upper hole 22 functions as a second hole.
  • the circumferential tubular portion 21C and the flat surface 21F at the lower end function as a hole forming member.
  • the lateral cylinder portion 20 is provided with a cylinder rear end wall 24 which is a lateral bottom surface of the cylinder portion 21 and defines the rear end of the discharge space D. Further, a rear end columnar portion 26 is provided behind the cylinder rear end wall 24.
  • a disk 25 is provided in the vicinity of the front end of the tubular portion 21 of the laterally oriented tubular portion 20 so as to project outward in a brim shape.
  • the front end of the tubular portion 21 is an annular protruding portion 21R that protrudes slightly to the front end of the disk 25.
  • the disc 25 has, for example, a missing circular shape at the lower end, which is lacking in a bow shape.
  • the front side of the disk 25 is provided with screw fastening portions 27a, 27b, 27c, 27d that can be connected to the front plate 10 of the housing 1.
  • a user's finger or cotton can be inserted into the discharge space D, which is a hollow portion of the laterally oriented tubular portion 20, and the user's finger or cotton can be inserted into the contents (particularly from above) in the discharge space D. You can receive the contents of 2).
  • FIG. 6 is a diagram illustrating the positions of a plurality of containers 30a and 30b with respect to the lateral cylinder portion 20 of the discharge system 100 according to the first embodiment. Note that FIG. 6 is a view of the inside of the discharge system 100 as viewed from the rear except for the discharge drive units 40a and 40b.
  • the plurality of containers are two fixed containers, upper and lower, including a lower first container 30a and an upper second container 30b, which are accommodated sideways.
  • the second container 30b is provided so that the discharge port located at the lower end of the nozzle 33b is arranged close to the upper hole 22 of the lateral cylinder portion 20.
  • the first container 30a is provided so that the discharge port located at the upper end of the nozzle 33a is arranged close to the prepared hole 23 of the lateral cylinder portion 20.
  • FIG. 7 is a cross-sectional view of a main part of the discharge system 100 according to the first embodiment of the present invention.
  • the portion on the rear end side of the lateral cylinder portion 20 is omitted.
  • the container 30 has a bottle 31 which is a container (container main body), a head portion 32, and a nozzle 33. As shown in FIG. 4, the container 30 is in a sideways state, and the sideways cylinder portion 20 is missing. It is set on the outside of the circumferential tubular portion 21.
  • the container 30 has a dispenser function in which a fixed head portion 32 is pressed by a moving bottle 31 to discharge a fixed amount.
  • the head portion 32 is elongated in the same direction as the bottle 31, and the head portion 32 is integrally formed with a nozzle 33 extending in a direction orthogonal to the stretching direction of the bottle 31.
  • the bottle 31 is extended in the front-rear direction, and the head portion 32 is directed so that the sucking direction of the contents in the bottle 31 which is the container is from the back to the front. It is set so that it is located on the front end side.
  • the discharge port of the nozzle 33a is set on the outer lower side of the lateral cylinder portion 20 so as to face upward
  • the discharge port of the nozzle 33b is set. Is set on the outer upper side of the sideways tubular portion 20 so as to face upward.
  • the first content (first cosmetic) contained in the lower first container 30a is a viscous fluid.
  • the nozzle 33a of the first container 30a on the upper side extends upward from the vicinity of the front end and is inserted into the prepared hole 23 of the lateral cylinder portion 20. Therefore, in the lower first container 30a, the first content discharged from the upward discharge port of the nozzle 33a passes through the prepared hole 23 of the lateral cylinder portion 20 and is below the discharge space D. Stay around the hole 23.
  • the second content (second cosmetic) contained in the upper second container 30b is a non-viscous fluid.
  • the nozzle 33b of the second container 30b extends downward from the vicinity of the front end and is arranged close to the upper hole 22 of the lateral cylinder portion 20. Therefore, in the upper second container 30b, the contents discharged from the downward discharge port of the nozzle 33b pass through the upper hole 22 of the lateral cylinder portion 20 and drop into the discharge space D, or the discharge space D. It is sprayed inside. Details of the discharge of the contents will be described later together with FIGS. 10 and 11.
  • FIG. 8 is a diagram illustrating pushing of the main body of the container by the discharge drive unit of the present invention.
  • (a) shows a state in which the discharge drive unit does not press the bottle of the container during standby
  • (b) shows a state in which the discharge drive unit during use presses the bottle of the container.
  • the rotation of the eccentric cam 43 causes the rod shaft 46 to project forward, the push holder (bottle holder) 34 to be pressed, and the head unit 32 to the bottle 31. By sinking, it is a mechanism to discharge the contents.
  • each container 30 the rear end of the bottle 31 is pressed toward the front end side by the discharge drive unit 40, so that the head portion 32 is pushed into the bottle 31 and the dispenser functions to function the respective contents. To discharge.
  • the mechanism for discharging the contents from the container will be described below.
  • the bottle 31 of the container 30 is supported by the push holder 34, and the outside of the push holder 34 is supported by the cartridge holder 37.
  • the push holder 34 and the cartridge holder 37 are container covers.
  • the bottle 31 of the container 30 can be moved to the front end side together with the push holder 34.
  • the head portion 32 of the container 30 is fixed in the front-rear direction ( ⁇ Y direction). Therefore, the bottle 31 of the container 30 is pushed toward the front end side, and the head portion 32 is pushed toward the bottle 31 side, so that the dispenser functions and the contents are discharged.
  • a flange portion 31P extending in an annular shape is provided on the outer peripheral side, and behind the flange portion 31P, an annular shape recessed in an annular shape on the inner peripheral side.
  • a recess 31R is provided at the front end of the bottle 31 of the container.
  • the push holder 34 is a laterally oriented cylindrical holder having a cylindrical portion 35 and a rear end wall 36.
  • the push holder 34 can be moved toward the front end side with respect to the cartridge holder 37 by pressing the rear end wall 36 by the discharge drive unit 40.
  • the bottle 31 and the push holder 34 are connected so that the front-back movement is restricted so that the bottle 31 of the container 30 also moves with the movement of the push holder 34.
  • the rear end wall 36 of the push holder 34 and the bottom portion on the rear end side of the bottle 31 are in contact with each other, and the front end of the cylinder portion 35 of the push holder 34 is the rear end surface of the flange portion 31P of the bottle 31.
  • the push holder 34 advances to the front end side, the bottle 31 is also pushed and moved by hitting the bottle 31.
  • the inner peripheral protrusion 35P provided on the tubular portion 35 of the push holder 34 fits into the annular recess 31R of the bottle 31, so that when the push holder 34 returns to the rear end side, the bottle 31 is not left behind. The rear end side also moves.
  • the cartridge holder 37 is a holder (container holder) that holds the container 30 and the push holder 34 from the outside, and has a tubular portion 38 and a front end surface 39.
  • the cylinder portion 38 of the cartridge holder 37 has a small diameter cylinder on the front end side and a large diameter cylinder on the rear end side, and the boundary is a step 38S.
  • the flange portion 31P of the bottle 31 of the container 30 comes into contact with the step 38S of the cartridge holder 37, thereby defining the frontmost position of the push holder 34 and the bottle 31 when pressed.
  • the front end surface 39 of the cartridge holder 37 comes into contact with the front end surface of the head portion 32 of the container 30. With the front end surface of the head portion 32 in contact with (pressed against) the front end surface 39 of the cartridge holder 37, the bottle 31 is moved so as to be pushed toward the head portion 32, and the head portion 32 sinks into the bottle 31. By squeezing it, it is possible to discharge the contents.
  • the cylinder portion 38 of the lower cartridge holder 37a is formed with a nozzle hole 38Na which is an opening at the upper end on the front end side, and the container is formed from the nozzle hole 38Na.
  • the nozzle 33a of 30a protrudes upward. Further, the nozzle 33a of the lower first container 30a protrudes above the pilot hole 23 of the lateral cylinder portion 20.
  • the discharge system 100 As described above, in the discharge system 100 according to the first embodiment of the present invention, there is no discharge path between the nozzle 33a for discharging the first viscous content and the prepared hole 23. Then, as shown in S12 of FIG. 10 described later, when the first viscous content is wiped with a finger, the nozzle 33a protruding from the prepared hole 23 is also wiped off. Therefore, after being wiped off, almost no first viscous content remains around the prepared hole 23, so that almost no first viscous content remains on the outside of the nozzle 33a.
  • the first content is extruded from the upper end of the nozzle 33a as much as it is used, and even immediately after use, the next content to be discharged exists inside the nozzle 33a without any gap. Therefore, solidification of the contents in the nozzle is unlikely to occur. Therefore, since there is no discharge path outside the nozzle, there is no residual viscous content in that path, and it is unlikely that the path will be blocked by the air and contents outside the nozzle and the quality of the content will deteriorate.
  • the viscous fluid as the first content is a non-Newtonian fluid in which the "Newtonian viscosity law" does not hold and the influence of viscosity cannot be ignored. Therefore, it is preferable that the first cosmetic is a highly viscous one such as a thickening lotion, a milky lotion, and a cream.
  • the viscous fluid as the first content is 4500 mPa ⁇ s or more at a temperature of 25 ° C, a rotation speed of 12 rpm, and a viscosity at 60 seconds in a B-type viscometer (TVB-10M) manufactured by Toki Sangyo. It is preferably 10000 mPa ⁇ s or more, and more preferably 25000 mPa ⁇ s or more.
  • the non-viscous fluid that is the second content is a Newtonian fluid in which the "Newton's law of viscosity" is generally established and the influence of viscosity can be ignored. Therefore, it is preferable that the second cosmetic is a liquid having a low viscosity, such as an introductory liquid or a cosmetic water.
  • the non-viscous fluid to be the second content is 25000 mPa ⁇ s or less at a temperature of 25 ° C, a rotation speed of 12 rpm, and a viscosity at 60 seconds in a B-type viscometer (TVB-10M) manufactured by Toki Sangyo. More preferably, it is 10000 mPa ⁇ s or less, and further preferably 4500 mPa ⁇ s or less.
  • the second drop of cosmetic means that the lotion is made into droplets and dropped with almost no momentum.
  • the second spraying of cosmetics includes spraying a droplet of cosmetic water with force, spraying the cosmetics in the form of a mist, and spraying the cosmetics in the form of bubbles.
  • the upper cartridge holder 37b has a nozzle hole 38Nb formed at the lower end on the front end side, and the nozzle 33b of the container 30b protrudes downward from the nozzle hole 38Nb. Then, as shown in FIG. 7, the nozzle 33b of the upper second container 30b is located above the upper hole 22 of the lateral tubular portion 20, and the nozzle 33b and the upper hole 22 are located above each other. There is no route or the like.
  • the discharge may cause bending of the orbit during free fall of the discharged droplet due to the influence of viscosity. , Hard to occur. Therefore, the second content can be dropped or ejected into the discharge space D through the upper hole without contacting the upper hole without providing the discharge path.
  • the present invention by not providing the discharge path as described above, it is possible to prevent the contents from remaining in the discharge path. Furthermore, by discharging the first content, which is a viscous fluid, upward and wiping the holes during use, it is possible to avoid the formation of an icicle-like hanging solid due to the solidification of the viscous content. Can be done.
  • discharge drive unit In the container and the discharge mechanism of FIG. 8, (a) shows a standby state, and (b) shows a state at the time of discharge.
  • the discharge drive portions 40a and 40b have an eccentric cam mechanism 41, a rod member 44, and a rod support portion 47.
  • the eccentric cam mechanism 41 has an eccentric shaft 42 and an eccentric cam 43.
  • the rod member 44 has an elliptical frame 45 and a rod shaft 46.
  • the elliptical frame 45 is in contact with the eccentric cam 43 of the eccentric cam mechanism 41, and a slide hole 46H is formed in the rod shaft 46.
  • the rod support portion 47 has a shaft support portion 48 and a slide pin 49.
  • the shaft support portion 48 is a member that supports the rod shaft 46 of the rod member 44. As shown in FIG. 8B, the support rear end 48R of the shaft support portion 48 is opened outward at the time of discharge, so that the elliptical frame 45 of the rod member 44 can move to the front end side.
  • the slide pin 49 is slidably fitted into the slide hole 46H of the rod shaft 46 of the rod member 44, but the slide pin 49 is fixed.
  • the long side of the eccentric cam 43 is located below the eccentric shaft 42.
  • the eccentric shaft 42 rotates due to the driving force, and as shown in FIG. 8B, the long side of the eccentric cam 43 is on the front end side of the eccentric shaft 42.
  • the position of the elliptical frame 45 of the rod member 44 moves to the front end side, so that the rod shaft 46 of the rod member 44 presses the rear end of the push holder 34, and the push holder 34 presses the rear end. Pressed to the side. Then, the bottle 31 of the container 30 is pushed together with the push holder 34, and the bottle 31 is pushed toward the head portion 32 to operate the dispenser and eject the contents from the nozzle 33.
  • FIGS. 4 and 7 show the discharge drive units 40a and 40b in a floating state in the drawings
  • the discharge drive unit 40 is shown in the discharge system 100 by the housing 1 or other support portions.
  • the shaft support portion 48 is fixed.
  • FIG. 9A and 9B are explanatory views of the inside of the container included in the present invention.
  • FIG. 9A shows a diagram in which the contents of the container 30 are large
  • FIG. 9B shows a diagram in which the contents of the container 30 are small.
  • the bottle 31 of the container 30 has a middle plate 311 which is a rising bottom of the container.
  • the middle plate 311 rises as shown in FIGS. 9A ⁇ 9B. Therefore, as shown in FIGS. 7 and 8, even if the bottle 31 is arranged sideways, the middle plate 311 which is the rising bottom of the container moves to the head portion 32 side (front end side) as the contents decrease. At this time, the middle plate 311 moves so as to maintain the balance of the pressure in the space between the region on the front end side where the contents are stored and the region where the contents are not contained.
  • the container 30 can continue the quantitative discharge operation until the end.
  • the container of the present invention is provided with a shrinkable inner bag inside the container and is double-layered.
  • the container may be a container that can be discharged to the end while ensuring confidentiality.
  • FIG. 10 is a flow showing a flow of operation when the first content is used in the discharge system according to the first embodiment.
  • step S11 the user presses the switch of the discharge system 100 (see the arrow in FIG. 10) that selects the first cosmetic that is a viscous fluid.
  • step S12 the first cosmetic is extruded upward from the prepared hole 23 of the discharge space D of the discharge system 100, and the first cosmetic stays on the inner peripheral surface around the prepared hole 23 of the discharge space D. ..
  • step S13 the user's finger touches the discharge space D at the back of the opening 11 of the discharge system 100, and puts the first cosmetic that remains on the inner peripheral surface around the prepared hole 23 of the discharge space D. Or wipe it off with cotton.
  • the first cosmetic wiped off by hand or cotton to the desired part (for example, the skin such as the face).
  • the viscosity of the first cosmetic is, for example, temperature so as to spread around the prepared hole 23 and stay around the prepared hole 23 without leaking from the opening 11 of the front plate 10 on the front end side.
  • a rotation speed of 12 rpm, and a viscosity at 60 seconds it is preferably 4500 mPa ⁇ s or more, more preferably 10000 mPa ⁇ s or more, and further preferably 25000 mPa ⁇ s or more.
  • FIG. 11 is a flow showing a flow of operation when the second content is used in the discharge system according to the first embodiment.
  • step S21 the user presses a switch for selecting a second cosmetic that is a non-viscous fluid.
  • step S22 the user's finger or the finger with the cotton spread is inserted into the discharge space D at the back of the opening 11 of the front plate 10 of the discharge system 100.
  • step S23 the second cosmetic is sprayed (dropped) onto the hand or cotton from the upper hole 22 of the discharge space D.
  • the user applies the second cosmetic dropped or sprayed on the hand or cotton to the desired site (for example, the skin such as the face).
  • the desired site for example, the skin such as the face.
  • the second cosmetic is a non-viscous fluid, it is possible to prevent the cosmetic from hanging down like an icicle at the lower end of the nozzle even if it is sprayed from above.
  • the viscosity of the second cosmetic is, for example, 25000 mPa ⁇ s or less, more preferably 10000 mPa ⁇ s or less, and further 4500 mPa ⁇ s at a temperature of 25 ° C., a rotation speed of 12 rpm, and a viscosity at 60 seconds because it does not become squishy. The following is preferable.
  • the discharge system 100 discharges the second cosmetic. It is more preferable that a non-contact detection unit (object detection unit) for detecting that the user's hand has been inserted is provided in the space D.
  • the non-contact detection unit permits the spraying of the second cosmetic only during the period in which the user's hand is detected in the discharge space D, the second cosmetic is prevented from entering the prepared hole and the nozzle 33a. can.
  • the upper hole 22 and the lower hole 23 face inward in the lateral tubular portion 20 which is a hole forming member, and are formed so that the contents are discharged inward. Therefore, although the first container and the second container are always arranged so as to face each other vertically, the discharge ports of the nozzles also face each other vertically. That is, if the positions in the depth and width directions of the upper hole and the lower hole are the same, when the hand is held slowly or the hand is retracted quickly, the nozzle 33a of the lower container 30a is used. The above non-viscous fluid may get in.
  • the positions in the depth direction ( ⁇ Y direction) or the width direction ( ⁇ X direction) are different between the upper hole and the lower hole. be.
  • the prepared hole 23 is located on the front side (-Y side), and the upper hole 22 is located on the back side (+ Y side) of the prepared hole 23.
  • the non-contact detection unit When the non-contact detection unit is provided, it is possible to detect the insertion of a hand or cotton into the discharge space, and in order to prevent the above-mentioned problems in advance, the positions of the upper hole 22 and the prepared hole 23 in the depth direction and the width direction in the discharge space D are located. There is no problem even if they are prepared.
  • FIG. 12 is an overall view of the discharge system 100A according to the modified example of the first embodiment.
  • the front end of the horizontal tubular portion 20 and the opening 11 of the front plate has a notched circular shape with the lower edge cut out in an arc shape, but the user's finger or cotton.
  • the shape of the opening 11A of the front plate 10A into which the front plate 10A is inserted may be circular as shown in FIG.
  • the discharge space Da is a horizontal cylindrical hollow surrounded by the horizontal cylindrical portion 21CC which is a hole forming member and the rear end wall 24A of the cylinder which is the back wall.
  • the opening 11 (11A) into which the hand is inserted may have other shapes such as an ellipse, an oval (land track shape), a quadrangle, and a hexagon in addition to the above configuration. There may be.
  • the outer shape of the housing 1A is a horizontal cylindrical shape similar to that of the first embodiment shown in FIG. 3, except for the shape of the front plate 10A.
  • FIG. 13 is an overall view of the discharge system 100B according to the second modification of the first embodiment.
  • the housing of the discharge system of the present invention may have an outer shape that matches the shape of the discharge space into which a hand can be inserted.
  • the shape of the opening 11B of the front plate 10B is a quadrangular shape, and in this configuration, the discharge space Db is a rectangular parallelepiped hollow.
  • the inner wall defining the discharge space Db is composed of an upper wall 211 and a lower wall 212 which are hole forming members, side walls 213 and 214, and a cylinder rear end wall 24B which is a back wall, which surrounds the discharge space Db from the top, bottom, left and right. There is.
  • the outer cover 12B of the discharge system 100B has a box-shaped outer shape that can accommodate a plurality of containers in a common housing. Therefore, the housing 1B has a horizontal square tube shape that continuously surrounds the discharge space (opening space) Db extending to the back of the opening 11B of the front plate 10B in a box shape (square shape) on the top, bottom, left, right, and back surface.
  • the outer shape of the discharge system and the shape of the discharge space in the first embodiment may be other shapes such as an ellipse, an oval (land track type), a quadrangle, a semicircle, and a hexagon.
  • FIG. 14 is an overall view of the discharge system 100C according to the third modification of the first embodiment.
  • the opening space (discharge space) is seamlessly surrounded except for the front end, and the first container and the second container have a second structure.
  • the structure in which the container is housed between the inner wall member (horizontal tubular portion, lateral square tubular portion) and the outer housing has been described.
  • the first container and the second container do not have to be housed in one common housing.
  • the first container 30a is housed in the lower support 101
  • the second container 30b is housed in the upper support 104.
  • the inner wall member constituting the hole forming member is composed of an upper inner wall 105 which is the lower surface of the upper support 104 and a lower inner wall 102 which is the upper surface of the lower support 101, and is composed of the upper inner wall 105 and the lower side.
  • the side inner wall 102 and the back stand 107 define an opening space (discharge space) Dc that is interrupted in the left-right direction.
  • the lower support 101 and the upper support 104 are supported by the back stand 107 on the back side, so that the position of the discharge space Dc in the vertical direction is defined and the distance is maintained.
  • the first hole is the prepared hole 103 formed in the lower inner wall (inner lower surface) 102 which is the upper surface of the lower support 101
  • the second hole is the lower surface of the upper support 104.
  • It is an upper hole 106 formed in the upper inner wall (inner upper surface) 105.
  • the discharge system 100C of this modified example separately housed in the two supports 101 and 104 in this way, it is possible to discharge two types of contents, a viscous fluid and a non-viscous fluid, as in the first embodiment.
  • the nozzle 33a for discharging the viscous fluid is configured to discharge upward, so that the contents are in the shape of a sword under the nozzle. It can be prevented from hanging down and remaining on the surface.
  • the nozzle 33a extending from the bottom to the top discharges the viscous fluid in a state of being pushed out from the prepared hole (first hole) 103 of the lower support 101. It is possible to prevent a plurality of types from being mixed in the middle of discharge. Further, in the second container 30b for discharging the non-viscous fluid downward, a discharge path is not provided between the nozzle 33b and the upper hole (second hole) 106 of the upper support 104, so that the discharge path is not provided during the discharge. There is no possibility of mixing.
  • the example in which the first container 30a is housed in the lower support 101 in the shape of a housing and the second container 30b is housed in the upper support 104 in the shape of a case has been described.
  • the first container 30a and the second container 30b do not have to be housed in the box-shaped housing.
  • at least the lower inner wall (lower plate) 102 and the upper inner wall (upper plate) 105, which are vertically facing inner walls in which holes 103 and 106 through which the contents discharged from the nozzle pass are formed.
  • the containers 30a and 30b may be exposed to the outside.
  • the longitudinal surface of the exposed container 30a is arranged close to the lower surface of the lower inner wall 102
  • the longitudinal surface of the exposed container 30b is arranged close to the upper surface of the upper inner wall 105. ..
  • FIG. 15 is an overall view of the discharge system 100D according to the fourth modification of the first embodiment.
  • the inside of the bottle 31 is contained. It had a nozzle 33 that was placed sideways so that the suction direction of the contents was directed from the back to the front, and extended from the vicinity of the front end of the bottle 31 in a direction orthogonal to the suction direction. However, the extending direction of the nozzle does not have to be orthogonal to the suction direction.
  • the nozzle 330b with a saucer which is an example of the nozzle, may be extended in the same direction as the suction direction of the bottle 310b and the pump portion 320b.
  • the plurality of bottles 310a and 310b are set in the vertical direction, that is, the contents in the bottle 310a are sucked upward and the contents in the bottle 310b are sucked downward. Set to be done.
  • the discharge drive unit 400a for driving the container 300a for discharging the contents upward is provided on the lower side of the container 300a.
  • the lower end of the bottle 310a is pushed upward by the discharge drive unit 400a, so that the nozzle 330a with a saucer is pressed against the lower surface of the inner wall 20D that defines the discharge space Dd, and the pump unit 320a is pressed.
  • the bottle 310a moves upward.
  • the nozzle 330a with a saucer sinks into the pump portion 320a, so that the dispenser functions and the container 300a discharges the contents.
  • the discharged contents are extruded onto the prepared hole 23D formed in the inner wall 20D.
  • the discharge drive unit 400b that drives the container 300b that discharges the contents downward is provided on the upper side of the container 300b.
  • the discharge drive unit 400b pushes the upper end of the bottle 310b downward, so that the nozzle 330b with a saucer is pressed against the upper surface of the inner wall 20D that defines the discharge space Dd, and the pump unit 320b is pressed. And the bottle 310b moves downward.
  • the nozzle 330b with a saucer sinks into the pump portion 320b, so that the dispenser functions and the container 300b discharges the contents.
  • the discharged contents are dropped or ejected downward from the upper hole 22D formed in the inner wall 20D.
  • the housing 1D of the modified example is in the center. It has a substantially rectangular parallelepiped shape with holes.
  • FIG. 15 an example in which the vertically oriented containers 300a and 300b are arranged vertically and accommodated in the housing 1D has been described, but even when the containers are vertically oriented, as shown in FIG. 14, 2
  • the two enclosures may be housed by separate upper and lower supports.
  • the plurality of containers 300a and 300b do not have to be surrounded by a housing or a support, and the discharge system faces at least the top and bottom where the holes 103 and 106 through which the contents discharged from the nozzle pass are formed. If the lower inner wall (lower plate) 102 and the upper inner wall (upper plate) 105, which are the inner walls, are provided, the containers 300a and 300b may be exposed to the outside. In this case, the surface of the saucer of the nozzle 330a of the exposed container 300a is arranged close to the lower surface of the lower inner wall 102, and the surface of the saucer of the nozzle 330b of the exposed container 300b is close to the upper surface of the upper inner wall 105. Will be placed.
  • the placement of the container included in the discharge system according to the first embodiment is not limited to the horizontal orientation and the vertical orientation, and may be arranged so as to be inclined. In any case, it is preferable that the extending direction of the nozzle is set at a predetermined angle with respect to the bottle so as to be substantially orthogonal to the hole.
  • FIG. 16 is an overall perspective view of the discharge system 500 according to the second embodiment of the present invention.
  • the system capable of discharging a plurality of types of contents of the present invention is a housing.
  • the sideways tubular portion does not have to have an opening as a discharge space.
  • the lateral tubular portion 9 has an axis in the front-rear direction, and the front end surface 94 is closed.
  • the plurality of containers 30c and 30d are arranged inside the lateral cylinder portion 9.
  • the lateral tubular portion 9 is an example of an outer member that accommodates a plurality of containers, and the peripheral surface 91 is a hole forming member. The following description will focus on the differences from the first embodiment.
  • an upper hole 92 visible from the outside is formed in the zenith portion of the outer upper wall of the peripheral surface 91 of the lateral tubular portion 9, and a pilot hole penetrating the outside is formed in the bottom portion of the outer lower wall. 93 is formed.
  • the upper hole 92 in the present embodiment functions as a first hole
  • the lower hole 93 functions as a second hole.
  • the lateral cylinder portion 9 is supported by a back stand (support member) 15 rising from the rear end portion of the case bottom 14L, and the lower end of the peripheral surface 91 of the lateral cylinder portion 9 and the case bottom 14L.
  • a lower space L which is a space into which a hand can be inserted.
  • the first container 30c for accommodating the first viscous content is provided on the inner upper part of the peripheral surface 91 of the laterally oriented tubular portion 9.
  • the second container 30d for accommodating the non-viscous second content is provided in the lower part inside the peripheral surface 91 of the laterally oriented tubular portion 9.
  • the first container 30c is placed on the inner upper part of the sideways tubular portion 9 so that the suction direction of the first content in the bottle 31c, which is the container, is directed from the back to the front, and is placed from the vicinity of the front end to the upper side.
  • the second container 30d is placed in the lower part of the inside of the lateral cylinder portion 9 so that the suction direction of the second content in the bottle 31d, which is the container, is directed from the back to the front, and is placed from the vicinity of the front end to the bottom. It has a nozzle 33d that extends to the side and can be inserted into the prepared hole 93 of the lateral cylinder portion 9.
  • the first content when the viscous first content is discharged from the first container 30c, the first content is above the upper hole 92, which is the first hole of the lateral tubular portion 9, from the nozzle 33c. It is pushed up and stays on the outer peripheral surface around the upper hole 92 of the lateral cylinder portion 9.
  • the user wipes off the first viscous content that remains around the upper hole 92 during use.
  • the second content does not come into contact with the prepared hole 93, which is the second hole of the lateral tubular portion 9, and the nozzle 33d Drops or is ejected from below the lateral cylinder portion 9.
  • the second content is non-viscous, it is discharged with a hand or cotton inserted into the space between the lower end of the peripheral surface 91 of the lateral tubular portion 9 and the case bottom 14D. Therefore, it is preferable to provide a non-contact object detection unit 16 that detects that the user's finger or cotton is inserted into the space.
  • the upper hole 92 and the prepared hole 93 are provided so as to face the outside of the lateral tubular portion 9, for example, the timing of discharging the viscous fluid upward from the upper hole 92 and the prepared hole 93. Even if the non-viscous fluid is discharged downward from the same timing, it is possible to avoid mixing the two types of contents.
  • the timing at which the first container 30c discharges the first content and the timing at which the second container 30d discharges the second content may be different or simultaneous. ..
  • a first container 30c for discharging the viscous fluid is provided on the upper side
  • a second container 30d for discharging the non-viscous fluid is provided on the lower side.
  • the push holder 34c and the first container 30c are supported by an upper cartridge holder (not shown), and the push holder 34d and the second container 30d are supported by a lower cartridge holder (not shown). ) Is supported by. Therefore, when the viscous fluid is discharged, the upper discharge drive unit (not shown) presses and drives the bottle 31c of the upper first container 30c to the front side, and when the non-viscous fluid is discharged, the lower side is discharged.
  • a driving unit (not shown) pushes and drives the bottle 31d of the lower second container 30d to the front side.
  • the nozzle 33c for discharging the viscous fluid is directed upward on the upper surface of the lateral cylinder portion 9 so as to be under the nozzle. It is possible to prevent the contents from remaining as a solid hanging like a sword. Further, in the first container 30c for discharging the viscous fluid above, the nozzle 33c extending from the bottom to the top discharges in a state of being extruded from the discharge hole (upper hole) 92, so that a plurality of types are mixed during the discharge. Can be avoided. Further, in the second container 30d for discharging the lower non-viscous fluid, since the discharge path is not provided between the nozzle 33d and the prepared hole 93, there is no possibility of mixing during the discharge.
  • FIG. 17 is an overall view of the discharge system 500A according to the first modification of the second embodiment.
  • outer member 9 is a lateral tubular portion
  • outer member (outer housing) 9A accommodating a plurality of containers surrounds the plurality of containers in a box shape as shown in FIG. It may have a horizontal square cylinder shape.
  • outer shape of the outer member 9A in the second embodiment may have other shapes such as an ellipse, an oval (land track type), a semicircle, and a hexagon.
  • the rear end of the laterally rectangular tubular outer member 9A is supported by the support member 15 so as to have a predetermined height, and a hand is inserted under the lower surface of the outer member 9A.
  • a possible lower space La is formed.
  • FIG. 18 is an overall view of the discharge system 500B according to the second modification of the second embodiment. Also in this embodiment, the first container 30c and the second container 30d do not have to be housed in one common housing.
  • the first container 30c is housed in the upper support 904, and the second container 30d is housed in the lower support 901.
  • the lower support 901 and the upper support 904 are supported by a back stand (support member) 15 rising from the rear end of the case bottom 14L, and are between the lower end of the lower support 901 and the case bottom 14L. Is the lower space Lb, which is a space into which a hand can be inserted.
  • the first hole is the upper hole 906 formed in the outer upper wall 905 which is the upper surface of the upper support 904, and the second hole is the outer lower side which is the lower surface of the lower support 901.
  • a pilot hole 903 formed in the wall 902.
  • the outer upper wall 905 and the outer lower wall 902 each function as a hole forming member.
  • the discharge system in the present embodiment has at least an outer upper wall (upper plate) 905, which is an outer wall member on which the upper hole 906 is formed, through which the contents discharged from the nozzle pass, and a pilot hole. If the outer lower wall (lower plate) 902 on which the 903 is formed is provided, the container 30c and the container 30d may be exposed to the outside.
  • the outer member (hole forming member) in the present embodiment may be two plate-shaped members that sandwich the first container 30c and the second container 30d from above and below.
  • the first container 30c is arranged on the lower side in the longitudinal direction close to the lower side of the upper plate 905
  • the second container 30d is arranged on the lower side in the longitudinal direction close to the upper side of the lower plate 902. It is placed on the upper side.
  • FIG. 19 is an overall view of the discharge system 500C according to the third modification of the second embodiment.
  • the nozzles 330c and 330d may be extended in the same direction as the suction direction of the bottles 310c and 310d.
  • the containers 300c and 300d are set so that the suction direction in the bottles 310c and 310d is the vertical direction.
  • the lower end of the bottle 310c is pushed upward by the discharge drive unit 400c provided in the lower part of the outer housing 9C, so that the nozzle 330c with a saucer is placed on the zenith surface of the outer housing 9C.
  • the pump portion 320c and the bottle 310c move upward while being pressed against the lower surface.
  • the dispenser functions in the container 300a, and the contents (viscous contents) sucked from the bottom to the top are made into the first hole formed in the top surface (outer upper wall) of the outer housing 9C. Discharge from a certain upper hole 92C.
  • the upper end of the bottle 310d is pushed downward by the discharge drive unit 400d provided in the upper part of the outer housing 9C, so that the nozzle 330d with a saucer is pushed to the upper surface of the bottom surface of the outer housing 9C.
  • the pump unit 320d and the bottle 310d move downward in the contacted state.
  • the dispenser functions in the container 300b, and the contents (non-viscous contents) sucked from the bottom to the top are formed in the second hole formed in the lower surface (outer lower wall) of the outer housing 9C. Discharge from a prepared hole 93C.
  • the apparatus can be miniaturized by arranging a plurality of vertically oriented containers 300c and 300d so as to be adjacent to each other in the vertical direction.
  • FIG. 19 shows an example in which the containers 300c and 300d are adjacent to each other in the width direction, a plurality of containers may be arranged adjacent to each other in the depth direction.
  • the rear end of the outer housing is set to a predetermined height by the back stand (support member) 15. It is supported, and a lower space Lc into which a hand can be inserted is formed on the lower side of the lower surface of the outer member 9C.
  • FIG. 19 an example in which the vertically oriented containers 300c and 300d are arranged side by side and housed in one outer housing 9C has been described, but even when the containers are vertically oriented, the two containers 300c have been described. , 300d may be housed by separate supports on the left and right.
  • the plurality of containers 300c and 300d do not have to be surrounded by a housing or a support, and as another modification of the discharge system according to the present embodiment, at least, an upper hole through which the contents discharged from the nozzle pass. If the outer upper wall on which the (first hole) is formed and the outer upper wall on which the pilot hole (second hole) is formed are provided, the containers 300c and 300d may be exposed to the outside. good. In this case, the surface of the saucer of the nozzle 330c of the exposed container 300c is arranged close to the lower surface of the outer upper wall, and the surface of the saucer of the nozzle 330d of the exposed container 300d is close to the upper surface of the outer lower wall. Be placed.
  • the placement of the container included in the discharge system according to the second embodiment is not limited to the horizontal orientation and the vertical orientation, and may be arranged so as to be inclined. In either case, it is preferable that the stretching direction of the nozzle is set at a predetermined angle with respect to the bottle so as to be substantially orthogonal to the hole.
  • FIG. 20 is an overall view of the discharge system 200 according to the third embodiment of the present invention.
  • FIG. 21 is a perspective view of the internal mechanism of the discharge system 200 according to the third embodiment with the outer cover 12E removed.
  • FIG. 22 is an exploded perspective view of the internal mechanism of the discharge system 200 according to the third embodiment with the outer cover removed.
  • the discharge system according to the present embodiment is provided with a rotation mechanism RM that rotates a plurality of containers in the vertical direction on the outside of the peripheral wall of the cylinder portion of the lateral cylinder portion 20E. Therefore, the plurality of containers are not fixed in the circumferential direction and can rotate and move in the vertical direction.
  • a plurality of containers mounted on the discharge system 200 shall be provided in a larger number than the number of holes (two holes, upper hole and lower hole) of the lateral cylinder portion 20E.
  • the first container for discharging the viscous contents upward from the lower hole may be one or a plurality.
  • the number of second containers for discharging the non-viscous contents downward from the upper hole may be one or a plurality.
  • a configuration example in which five containers can be mounted as a plurality of containers is shown.
  • the prepared hole is not directly formed in the lateral tubular portion 20E, and the prepared hole (discharge hole) is formed in the position adjusting plate 71 which is a position adjusting portion capable of adjusting the position of the prepared hole. ) Is provided.
  • the case bottom 14 (see FIG. 21), which is the bottom surface, is provided instead of the leg portion 13 in FIG.
  • FIG. 23 is a diagram in which the outer cover 12E of the discharge system 200 according to the third embodiment is removed and disassembled into a fixed portion ⁇ , a movable portion ⁇ , and a discharge drive portion ⁇ .
  • FIGS. 20 to 23 the differences between the configuration according to the third embodiment and the first embodiment will be mainly described.
  • the fixed portion ⁇ , the movable portion ⁇ , the discharge drive unit ⁇ , the position adjustment unit ⁇ , and the rotation drive unit are roughly classified. It has ⁇ (see FIG. 26).
  • the fixing portion ⁇ has a front plate panel 10E, a front case 51, an outer disk 52, a sideways tubular portion 20E, a case bottom 14, a rotary pedestal 53, and a case rear 54.
  • a rotation drive unit ⁇ is connected to the case rear 54 of the fixed portion ⁇ . The configuration of the rotation drive unit ⁇ will be described later together with FIG. 26.
  • the movable portion ⁇ includes two or more containers 30 supported by the cartridge holder 37 and the push holder 34, a rotating base 61 supporting them, and two rotating sleeves 62e provided for each container. , 63e and rotating caps 64e, 65e.
  • the discharge drive unit ⁇ has a lower discharge drive unit 40a and an upper discharge drive unit 40b, as in the first embodiment.
  • the position adjusting unit ⁇ has a position adjusting plate 71 and a push-up mechanism (not shown).
  • the front case 51, the outer disk 52, the disk 25 of the lateral cylinder portion 20E, the rotation base 61, the rotation sleeves 62e and 63e provided for each container, and the rotation caps 64e and 65e are provided. Functions as a rotation mechanism RM.
  • FIG. 23 is a rear perspective view of the fixed portion ⁇ , the movable portion ⁇ , and the discharge drive portion ⁇ .
  • the front plate panel 10E is a plate on the front surface of the housing 2, and a missing circular opening 11E whose lower end is lacking in a bow shape is formed.
  • the front case 51 is provided behind the front plate panel 10E and has an upper plate-shaped ring and a lower plate-shaped leg portion.
  • the lower end of the front case 51 is fixed to the case bottom 14, the front plate panel 10E is fitted on the front side, and the outer disc 52 and the disc 25 of the lateral cylinder portion 20E are fastened to the back side by screws.
  • the front case 51 is formed with screw holes (511a, 511b, 511c, 511d), (512a, 512b, 512c, 512d), 513, 514 used for fastening.
  • the outer disc 52 has a larger diameter than the outer peripheral edge of the disc 25 of the lateral tubular portion 20E, and is provided at substantially the same position as the disc 25 in the front-rear direction after assembly. Further, screwed portions 521a, 521b, 521c, 521d are formed on the front surface side of the outer disk 52.
  • the lateral tubular portion 20E has a tubular portion 21E of the lateral tubular portion that opens from the front to the back and the inner peripheral surface defines the discharge space De.
  • the tubular portion 21E has a missing circular shape in which the opening portion lacks a lower end in an arch shape, and the tubular portion 21E has a circumferential tubular portion 21C and a flat surface 21FE at the lower end.
  • An upper hole 22 is formed on the upper surface (zenith portion) of the circumferential tubular portion 21C of the tubular portion 21E of the horizontal tubular portion 20E as in the first embodiment.
  • the flat surface 21FE at the lower end of the tubular portion 21E of the lateral tubular portion 20E is formed with a notch 28 extending rearward from the front end instead of a pilot hole.
  • a tongue-shaped position adjusting plate 71 which is a position adjusting portion, is fitted into the notch 28 of the lateral cylinder portion 20E.
  • the position adjusting plate 71 is formed with a hole portion 711 that functions as a pilot hole for the discharge space De in the assembled state. Details of the operation of the position adjusting unit including the position adjusting plate 71 will be described later together with FIGS. 27 to 29.
  • the lateral cylinder portion 20E includes a cylinder rear end wall 24 which is a lateral bottom surface of the cylinder portion 21E and defines the rear end of the discharge space De, and a rear end tubular portion behind the cylinder rear end wall 24. 26E is provided.
  • the outer peripheral side of the rear end cylindrical portion 26E is inserted into the central hole PO of the rotation base 61, and the shaft protrusion 531 (see FIG. 22) on the front end side of the rotation pedestal 53 is fitted on the inner peripheral side.
  • a disk 25 is provided so as to project outward in a brim shape.
  • the disc 25 has a missing circular shape whose lower end is lacking in a bow shape.
  • the front side of the disk 25 is provided with screw fastening portions 27a, 27b, 27c, 27d that can be connected to the front case 51 (see FIG. 22).
  • the screw fastening portions 27a, 27b, 27c, 27d of the disk 25 of the lateral tubular portion 20E are provided with respect to the screw holes 512a, 512b, 512c, 512d formed on the inner peripheral side of the plate-shaped ring above the front case 51. It is screwed by a screw. Further, the screwed portions 521a, 521b, 521c, 521d of the outer disk 52 are screwed to the screw holes 511a, 511b, 511c, 511d formed near the peripheral edge of the plate-shaped ring of the front case 51. ..
  • the distance from the front case 51 to the disc 25 and the distance from the front case 51 to the outer disc 52 can be assembled so as to be substantially equal.
  • the outer disc 52 and the disc 25 can be provided at substantially the same position in the front-rear direction to form a track rail RR described later.
  • the case bottom 14 is the bottom surface of the discharge system 200 and supports the fixed portion ⁇ .
  • screw-fastening protrusions 141 and 142 into which screws are inserted sideways are provided on the upper surface of the front end of the case bottom 14, so that the front case 51 maintains an upright state. It is fastened with screws to the screw holes 513 and 514 of the plate-shaped leg on the lower side of the case 51.
  • a fastening recess 143 is provided on the rear end side of the case bottom 14, and the lower end of the support column 541 of the case rear 54 is inserted and fixed in the fastening recess 143.
  • the track regulation plate 144 stands on the front side of the fastening recess 143.
  • the upper end of the track control plate 144 is composed of a horizontal upper end 145 in the center in the width direction and two inclined upper ends 146 and 147 on both end sides that are higher on both ends than the horizontal upper end 145.
  • the case rear 54 has a support column 541 extending vertically and a cylindrical shaft 542 extending from the upper end of the support column 541 to the front end side, and the tubular shaft 542 is provided with fastening portions 543 (not shown), 544. Has been done.
  • the lower end of the support column 541 is fixed by the case bottom 14, and the rear end side of the rotary pedestal 53 is supported by the cylindrical shaft 542 and the fastening portions 543 and 544.
  • the rotary pedestal 53 has a notched circular vertical disk 532 with a notched lower edge cut out in an arc shape, and a shaft protrusion 531 is provided on the front surface side of the disk 532.
  • the shaft protrusion 531 is fitted into the central hole PO of the rotation base 61 and the hollow portion of the rear end cylindrical portion 26E of the lateral cylinder portion 20E from the rear end side, and can rotate the rotation base 61 together with the lateral cylinder portion 20E. Support.
  • a rear end cylinder portion 533 and a pair of left and right screw fastening portions 534 (not shown) and 535 are provided on the rear end side of the disk 532 of the rotary pedestal 53.
  • the rotary pedestal 53 is formed by fastening the screwed portions 534 (not shown) and the fastening portions 543 and 544 with the cylindrical shaft 542 on the upper side of the case rear 54 fitted in the rear end cylindrical portion 533. , Is fastened to the case rear 54.
  • the rotary pedestal 53 is a rotary pedestal through which a rotary shaft 502 that rotates together with the rotary motor 501 (see FIG. 26) is inserted to guide the rotary shaft 502.
  • the container (cartridge) 30e is a dispenser having a nozzle 33e orthogonal to the bottle 31e which is the container body as described above.
  • the head portion 32e including the nozzle 33e is fixed in the front-rear direction, and the bottle 31e is pushed toward the front end side, so that the contents are discharged.
  • the structure of the container 30e is the same as that of the containers 30a and 30b of the first embodiment, and the flange portion 31P is provided on the outer periphery of the bottle 31e of the container 30e.
  • the push holder 34e is a bottomed cylindrical holder that covers the bottle 31e, which is the main body of the container, of the container 30e.
  • the push holder 34e can move with the bottle 31e.
  • the configuration of the push holder 34e is the same as that of the first embodiment.
  • the cartridge holder 37e is a holder that holds the entire container 30e and the push holder 34e from the outside, and the bottle 31e and the push holder 34e are fixed in the front-rear direction even when moving in the push direction.
  • the front end surface of the cartridge holder 37e in the present embodiment is provided with two front end protrusions 391e and 392e extending toward the front end side.
  • the cartridge holder 37e is held by any of the annular support portions 611 to 615 of the flower-shaped rotating base 61.
  • the cartridge holder 37e, the container 30e supported by the cartridge holder 37e, and the push holder 34e rotate together with the rotation base 61 when a rotational force is applied from the rotation drive unit ⁇ (see FIG. 26).
  • a plurality of annular support portions 611, 612, 613, 614, 615 are provided in a flower shape so as to surround the central cylinder 616.
  • Each of the plurality of annular support portions 611, 612, 613, 614, 615 can support the cartridge holder 37e sideways.
  • up to five containers, which is the same number as the annular support portion, can be mounted.
  • the container in the case of mounting five is described as 30e, 30f, 30g, 30h, 30i.
  • the central cylinder 616 of the rotation base 61 is a shaft portion of rotation, and a central hole PO penetrating the front and rear is formed.
  • the rotary base 61 By inserting the shaft protrusion 531 of the rotary pedestal 53 and the rear end cylindrical portion 26E of the lateral tubular portion 20E into the central hole PO, the rotary base 61 has the lateral tubular portion 20E from the front and the rotary pedestal from the rear. It is rotatably supported by 53.
  • two rotating sleeves 62e and 63e are provided so as to wrap the outer periphery of the two front end protrusions 391e and 392e on the front end surface of the cartridge holder 37e.
  • the rotary sleeves 62e and 63e can move along the track rail RR (see FIGS. 23 and 24) composed of the outer peripheral edge of the disk 25 and the inner peripheral edge of the outer disk 52.
  • the front end side is defined by two front end protrusions 391e and 392e moving on the track rail RR, and the rear end side is horizontal at the center of the track control plate 144 at the rotation lower end position.
  • the container 30e rotates in the trajectory of the notched circle in the vertical rotation direction without being distorted in the front-rear direction. do.
  • the rotary caps 64e and 65e are provided on the front end side of the rotary sleeves 62e and 63e, and are fitted with the tips (front ends) of the two front end protrusions 391e and 392e of the cartridge holder 37e to position the head portion 32e in the front-rear direction. Is specified. Since the rotary caps 64e and 65e are provided according to the number of front end protrusions 391 and 392 provided for one cartridge holder 37, when five containers 30e, 30f, 30g, 30h and 30i are mounted, Ten rotary caps (64e, 65e), (64f, 65f), (64g, 65g), (64h, 65h), (64i, 65i) are provided according to the number of front end protrusions.
  • the discharge drive unit ⁇ has a lower discharge drive unit 40a and an upper discharge drive unit 40b.
  • the lower discharge drive unit 40a is a drive unit for discharging the viscous content
  • the upper discharge drive unit 40b is a drive unit for discharging the viscous content.
  • the configuration of the discharge drive units 40a and 40b is the same as that of the first embodiment, and the discharge drive units 40a and 40b push the push holder toward the front end side at different timings.
  • FIG. 24 is a diagram illustrating the movement of the positions of a plurality of containers with respect to the lateral cylinder portion 20E by the rotation mechanism in the discharge system according to the third embodiment.
  • the rotation mechanism has a configuration in which five containers can be mounted, and as two containers, one first container and one second container are in use. Shows. That is, in FIG. 24, (a) shows a state in which the nozzle of the second container 30e faces the upper hole 22 of the lateral tubular portion 20E, and the second container 30e is capable of discharging, and (b) is the first.
  • the nozzle of the container 30 g faces the prepared hole 711 of the lateral cylinder portion 20E, indicating a state in which the first container 30 g can be discharged.
  • the rotary sleeves (62e, 63e), (62g, 63g) is movably sandwiched and fastened from the front end side with rotary caps (64e, 65e) and (64g, 65g).
  • the groove-shaped space surrounded by the outer peripheral edge of the disk 25 and the inner peripheral edge of the outer disk 52 becomes a track rail RR for vertical rotational movement of the cartridge holders 37e and 37g.
  • the non-contact detection unit by providing the non-contact detection unit, it is possible to prevent the second content, which is located above and discharged from the upper hole by dropping, from being mixed into the first container 30a through the prepared hole. However, if a problem occurs in the non-contact detection unit, this contamination may occur. Further, if the nozzles of the upper and lower containers always face the holes (upper hole, lower hole) of the discharge space, the contents in the nozzle may be dried.
  • the position of the nozzle of the container is movable with respect to the hole at a position facing the hole and a position not facing the hole.
  • the annular support portions 611 to 615 sandwiching the central cylinder 616 in the rotary base 61 are provided. , It is preferable to set it so that it is not provided at a position 180 degrees away.
  • the annular support portions 611 to 615 in the rotation base 61 are provided at intervals of 72 °.
  • the nozzles of the lower first container are all prepared holes 711.
  • the nozzles of the upper second container are all the upper holes 22. Does not face.
  • the nozzles 33e to 33i of the upper and lower containers 30e to 30i faces the holes (upper hole, lower hole) 22 and 711 of the discharge space
  • the nozzles 33e to 711 are used from the discharge port through the holes 22 and 711.
  • the contents in the nozzles 33e to 33i will be dried. Therefore, in the standby state, it is more preferable to make the nozzles of either the upper or lower container stand by at a position not facing the holes 22 and 711.
  • three or more containers can be accommodated by rotating the container in the vertical direction. For example, by ejecting a series of cosmetics that are easily mistaken in order in the correct order, the user can be asked to use the cosmetics in an appropriate order and in an appropriate amount.
  • the accommodation area can be centralized, and a washroom or the like can be mounted. You can make the storage area look neat.
  • FIG. 25 is a diagram illustrating the position movement of one container and the position of the nozzle in the discharge system according to the third embodiment.
  • the track rail RR has a missing circular shape with the lower end of the circle missing in a bow shape, similar to the front shape of the opening 11E of the front plate panel 10E. Therefore, when the rotary sleeves 62g and 63g that move together with the container 30g move along the track rail RR and reach the flat portion at the lower end of the missing circle shape as shown in FIG. 25C, the nozzle 33g faces upward. It will be in the state of being.
  • the nozzle of the container that moves vertically along the track faces upward in advance before reaching the pilot hole.
  • the nozzle 33g can be surely turned upward when facing the prepared hole 711.
  • the nozzle 33g is surely substantially orthogonal to the prepared hole (hole) 711 before ejection, the nozzle 33g is tilted with respect to the prepared hole 711, and the first viscous content at the time of ejection becomes It is possible to prevent leakage under the prepared hole 711.
  • FIG. 26 is a cross-sectional view of a main part of the discharge system 200 according to the third embodiment of the present invention.
  • a rotary shaft 502 protrudes as a rotary drive portion ⁇ , and a rotary motor 501 for rotationally driving the rotary shaft 502 is provided. It is provided.
  • a rotation transmission rod 503 that rotates together with the rotation shaft 502 and a rotation transmission cylinder 504 with a flange are provided on the front end side of the rotation pedestal 53.
  • the discharge drive units 40a and 40b can press the rear end side (one end side) of the opposite discharge containers.
  • the function and structure of the discharge drive unit are the same as those in the first embodiment, and two discharge drive units 40a and 40b are provided at the top and bottom.
  • the container is not in a one-to-one relationship with the discharge drive units 40a and 40b, but three or more containers can be mounted and can move in the vertical direction.
  • the upper discharge drive unit 40b can press the second container 30e for discharging the non-viscous fluid among the plurality of containers, the container in which the nozzle faces the upper hole.
  • FIG. 26 shows a state in which the nozzle 33e of one second container 30e is located at a position facing the upper hole 22 and the discharge drive unit 40b can be pressed.
  • the first container for discharging the viscous fluid the container in which the nozzle faces the prepared hole (for example, the state of FIG. 24 (b)).
  • the first container 30 g) can be pressed by the lower discharge drive unit 40a.
  • the discharge drive portions 40a and 40b are fixed to the case rear 54 of the fixing portion ⁇ .
  • the amount of the contents discharged from the container in the discharge drive unit may be quantitative, or the number of pushes to the push holder in the discharge drive unit may be adjusted or the push amount may be adjusted.
  • the discharge amount may be adjusted according to the type of contents and the operation of the user.
  • a plurality of types of contents can be discharged, the viscous contents are prevented from remaining as an icicle-like hanging solid under the nozzle, and the plurality of types are in the process of being discharged. Do not mix with.
  • FIG. 27 is an enlarged view of the periphery of the position adjusting plate according to the third embodiment of the present invention.
  • the tongue-shaped position adjusting plate 71 is formed with a hole portion 711 that constitutes a pilot hole of the discharge space defined by the laterally oriented tubular portion 20E in the assembled state.
  • a dish-shaped recess 712 recessed in a hemisphere is formed around the hole 711, and a leaf spring 713 is provided below the rear end (root portion) of the position adjusting plate 71.
  • the position adjusting plate 71 that fits into the notch 28 is provided in the lateral cylinder portion 20E is shown, but in the configuration in which the container can rotate as in the third embodiment, the first embodiment is shown. Similar to the embodiment, the position adjusting plate 71 may not be provided, and the pilot hole may be directly formed in the lateral cylinder portion 20E which is a hole forming member.
  • FIG. 28 is a diagram (No. 1) for explaining the movement of the position adjusting plate 71 before and after facing the prepared hole in the discharge system according to the third embodiment.
  • FIG. 29 is a diagram (No. 2) illustrating the movement of the position adjusting plate 71 before and after facing the prepared hole in the discharge system according to the third embodiment.
  • FIGS. 28 and 29 are the positions shown by the broken line circles in FIG. 27 (c), and are views of the state before and after the state in which the container faces the prepared hole from the lower side after the state of FIG. 27 (c). Shown. Specifically, in FIG. 28, (a) is a state in which the nozzle 33 before ejection starts to come into contact with the dish-shaped recess 712, (b) is a state in which the nozzle 33 pushes up the dish-shaped recess 712, and (c) is a state in which the nozzle 33 is pushed up.
  • FIG. 29 (a) corresponds to FIG. 28 (a), a state in which the nozzle 33 g before ejection starts to come into contact with the dish-shaped recess 712, (b) corresponds to FIG. 28 (b), and the nozzle 33 g corresponds to the dish.
  • the portion supporting the dish-shaped (tongue-shaped) position adjusting plate 71 is the leaf spring 713. It should be noted that this is not a leaf spring, and a compression coil spring may be set separately.
  • the position adjusting plate 71 returns to the original position by the springiness of the leaf spring 713.
  • the periphery of the upper end of the nozzle 33 protrudes above the hole portion 711.
  • the first viscous content is pushed upward from the upper end of the nozzle 33.
  • the nozzle 33 pushes up the dish-shaped recess 712 on the opposite side due to the movement of the container (FIG. 28 (e)), and when the nozzle 33 separates from the dish-shaped recess 712, the position adjusting plate 71 returns to the original position. , Returned by the springiness of the leaf spring 713 (FIG. 28 (f)).
  • the position adjusting plate 71 located at a position lower than the surroundings is lifted and lowered by the elastic force of the leaf spring 713 while the container moves in a linear trajectory which is the lower end of the missing circle shape.
  • the position adjusting plate 71 may be lifted by machine operation (not shown).
  • (Modification example of moving trajectory) 30A and 30B are diagrams showing a modified example of the movement trajectory of the axis of the container in the discharge system according to the third embodiment.
  • the moving trajectory that the rotary sleeves 62e and 63e, which are the axes of the container, come into contact with each other is not limited to the shape of a missing circle lacking the lower end as described above, and the upper and lower sides of the arc of the circle as shown in FIG. It may be an oval (track type) orbital RRA having a notched upper and lower notch circular shape, a rounded square orbital RRB as shown in FIG. 30B, or an elliptical shape or the like.
  • RRA track type orbital RRA having a notched upper and lower notch circular shape, a rounded square orbital RRB as shown in FIG. 30B, or an elliptical shape or the like.
  • FIG. 31 is a conceptual diagram of the discharge system 200A according to the modified example of the third embodiment.
  • the suction direction of the contents in the bottle is from the back. It was placed sideways so as to face forward, and had a nozzle extending from the vicinity of the front end of the bottle in a direction orthogonal to the suction direction. However, the extending direction of the nozzle does not have to be orthogonal to the suction direction.
  • the nozzles 330e to 330i may be extended in the same direction as the suction direction of the bottles 310e to 310i.
  • the bottles 310e to 310i are The nozzles 330e to 330i are set to be stretched in the substantially radial direction of the housing 2F, which is the same as the stretching direction.
  • the plurality of annular support portions in the rotation base holding each container are configured to be oriented according to the stretching direction of the bottle.
  • At least one first container and at least one second container, each of the containers 300e to 300i has a horizontal cylinder portion whose inner member is a saucer serving as a discharge port for nozzles 330e to 330i. It is possible to go around the inside of the housing 2F while facing the inside of the 20F. Therefore, in this configuration, the discharge drive units 400a and 400b for discharging the bottle are located at the upper end and the lower end of the housing 2F.
  • the lower end of any of the bottles 310e to 310i containing the first content (viscous content) is pushed upward by the discharge drive unit 400a provided at the lower portion in the housing 2F. Then, with the corresponding nozzles 330e to 330i with a saucer pressed against the lower surface of the inner wall (horizontal cylinder portion) 20F that defines the discharge space Df, the pump portions 320e to 320i and the bottles 310e to 310i are moved upward. Moving. As a result, the dispenser functions in any of the containers 300e to 300i located on the lower side, and the contents (viscous contents) sucked from the bottom to the top are made into the first hole formed in the inner wall 20F. It is discharged from the prepared hole 23F.
  • any of the bottles 310e to 310i containing the second content is pushed downward by the discharge drive unit 400b provided in the upper part of the housing 2F.
  • the pump portions 320e to 320i and the bottles 310e to 310i move downward while the corresponding nozzles 330e to 330i with a saucer are pressed against the upper surface of the inner wall (horizontal cylinder portion) 20F that defines the discharge space Df. do.
  • the dispenser functions in the containers 300e to 300i, and the contents (non-viscous contents) sucked from the top to the bottom are discharged from the upper hole 22F which is the second hole formed in the inner wall 20F.
  • the container can be rotated in the vertical direction to accommodate three or more containers, a series of cosmetics can be discharged in the correct order for use. You can have a person use the cosmetics in the proper order and in the proper amount.
  • FIG. 31 shows an example in which the vertical rotation trajectory of the containers 300e to 300i and the shape seen from the front of the inner wall 20F are circular for the sake of simplification of the description.
  • the shape of the rotation trajectory and the inner wall 20F seen from the front is a circular shape with a circular notch that cuts out the lower side of the arc of the circle as shown in FIG. 25, and a vertical notch as shown in FIGS. 30A and 30B. It may be circular or quadrangular with rounded corners. In that case, since the moving trajectory in the vicinity of the prepared hole 23F becomes flat, it is preferable to provide a position adjusting mechanism for pushing the nozzle into the prepared hole 23F as shown in FIGS. 27 to 29.
  • FIG. 32 is a transmission perspective view of the discharge system 600 according to the fourth embodiment.
  • a configuration in which a plurality of containers 30e to 30i are rotated in the vertical direction in a configuration in which a hand can be inserted and the container is discharged inward has been described.
  • a plurality of containers may be accommodated inside the lateral cylinder portion and discharged to the outside, or the plurality of containers 30j, 30k, 30l may be configured to be rotatable in the vertical direction.
  • the first hole is the outer upper wall of the peripheral surface 91G of the lateral tubular portion 9G which is the outer member (outer housing).
  • the upper hole 92G is formed on the surface
  • the second hole is the lower hole 93G formed on the bottom surface which is the outer lower wall of the peripheral surface 91G of the outer housing.
  • the lateral cylinder portion 9G is supported by the back stand 15G which is a support member rising from the rear end portion of the case bottom 14G, and the lower end of the peripheral surface 91G of the lateral cylinder portion 9G and the case bottom. Between 14G and 14G is the lower space Lg, which is a space into which a hand can be inserted.
  • the first viscous content is discharged from the nozzle (first nozzle) 33j, 33k, 33l of any of the containers 30j, 30k, 30l containing the first content into the upper hole 92G. After that, it is wiped off by the user's hand while staying on the outer upper wall of the lateral tubular portion 9G which is an outer member.
  • the non-viscous second content is a nozzle (second) of any of the containers 30j, 30k, and 30l for accommodating the second content while the user's hand is inserted into the lower space Lg. Nozzle) 33j, 33k, 33l is ejected by dropping or ejecting through the prepared hole 93G.
  • the three or more containers 30j, 30k, 30l including at least one first container and at least one second container are in a state where the discharge ports of the nozzles 33e to 33i are located on the outside. It is possible to go around the inside of the lateral cylinder portion G which is a housing. Therefore, in the rotation direction, the diameter of rotation when vertically rotating the bottles 31j, 31k, 31l of the containers 30j, 30k, 30l is larger than that of the third embodiment in which the nozzles 33e to 33i are located inside the bottles 31e to 31i. It is small, and the lateral cylinder portion 9G can be made smaller than the housing 2, and the entire device can be made compact.
  • the storage area can be further consolidated and the storage space such as a washroom can be clearly shown.
  • the nozzles 33j to 33l discharge toward the outside, and the upper hole 92G and the lower hole 93G do not face each other on the inside. It may be arranged so as to face each other, and the number of containers that can be mounted may be an even number.
  • the timing at which the first container discharges the first content and the timing at which the second container discharges the second content are discharged.
  • the timings may be different or simultaneous.
  • FIG. 32 shows an example in which the vertical rotation trajectory of the containers 30j to 30l and the shape seen from the front side of the side surface of the lateral cylinder portion 9G, which is the housing, are circular for the sake of simplification of the description.
  • the vertical rotation trajectory and the shape seen from the front of the housing are circular notches with the upper side of the arc of the circle turned upside down in a bow shape. It may have a shape, a circular shape with upper and lower cutouts as shown in FIGS. 30A and 30B, and a square shape with rounded corners.
  • the moving trajectory in the vicinity of the upper hole 92G becomes flat, it is preferable to provide a position adjusting mechanism for pushing the nozzle into the hole (upper hole 92G) as shown in FIGS. 27 to 29.
  • FIG. 33 is a conceptual diagram of the discharge system 600H according to the modified example of the fourth embodiment.
  • the sucking direction of the contents in the bottles 31e to 31i is rearward. It had a nozzle that was placed sideways so as to face forward from the bottle and extended in a direction orthogonal to the suction direction from the vicinity of the front end of the bottle. However, the extending direction of the nozzle does not have to be orthogonal to the suction direction.
  • the nozzle 330j may be extended in the same direction as the suction direction of the bottle 310j.
  • the bottles 310j to 310n are stretched in the radial direction of the circle, which is the same direction as the nozzle stretching direction. Is set to.
  • the plurality of annular support portions in the rotation base holding each container are configured to be oriented according to the stretching direction of the bottle.
  • the at least one first container and the at least one second container can orbit the inside of the outer housing with the nozzle discharge port facing the outside of the outer housing. be. Therefore, in this configuration, the discharge drive units 400c and 400d for discharging the bottle are arranged near the center of the housing 9H.
  • an upper hole 92H formed on the top surface is formed as a first hole on the peripheral surface 91H of the laterally tubular housing (outer housing) 9H.
  • a prepared hole 93H formed on the bottom surface is formed.
  • the housing 9H is supported by the back stand 15H rising from the rear end portion of the case bottom 14H, and between the lower end of the peripheral surface 91H of the housing 9H and the case bottom 14H. It is a lower space Lh that is a space where a hand can be inserted.
  • the lower end of any of the bottles 310j to 310n containing the first content (viscous content) is pushed upward by the discharge drive unit 400c provided on the upper side of the center of the housing 9H.
  • the pump portions 320j to 320n and the bottles 310j to 310n move upward while the corresponding nozzles 330j to 330n with a saucer are pressed against the top surface of the housing 9H from below.
  • the dispenser functions in the containers 300j to 300n located on the upper side, and the contents (viscous contents) sucked from the bottom to the top are made into the first hole formed in the top surface of the housing 9H. It is discharged from the upper hole 92H.
  • the upper end of any of the bottles 310j to 310n containing the second content (non-viscous content) is pushed downward by the discharge drive unit 400d provided on the lower side of the center in the housing 9H.
  • the pump portions 320j to 320n and the bottles 310j to 310n move downward while the corresponding nozzles 330j to 330n with a saucer are pressed against the lower surface of the housing 9H from above.
  • the dispenser functions in the containers 300j to 300n, and the contents (non-viscous contents) sucked from the top to the bottom are sucked from the prepared hole 93H which is the second hole formed on the lower surface of the housing 9H. Discharge.
  • the timing at which the first container discharges the first content and the timing at which the second container discharges the second content are discharged.
  • the timings may be different or simultaneous.
  • FIG. 33 shows an example in which the vertical rotation trajectory of the container 300j to 300n and the shape seen from the front side of the side surface of the housing 9H are circular for the sake of simplification of the description. Also, the vertical rotation trajectory and the shape seen from the front of the housing 9H are shown in FIGS. 30A and 30B, as well as a circular shape with a notch on the upper side of the arc of the circle that is upside down in FIG. 25. It may be a circular shape with upper and lower cutouts as shown, or a quadrangle with rounded corners.
  • the container is rotatable in the vertical direction and two upper and lower holes are formed in the horizontal tubular portion has been described, but an icicle-like solid in which the viscous fluid solidifies and hangs down is described.
  • the lateral tubular portion which is a hole forming member, may be configured to provide only a lower hole without providing an upper hole.
  • FIG. 34 is a perspective view of the internal mechanism of the discharge system 300 according to the fifth embodiment of the present invention with the outer cover removed.
  • the dish shape formed in the notch 28 formed on the flat surface 21FI which is the discharge surface which is the lower end of the notch circular shape of the discharge space of the lateral tubular portion 20I, and the hole portion 711 is formed.
  • the position adjusting plate 71 is provided.
  • each container of the plurality of containers is set so that the suction direction of the contents in the bottle, which is the container, is substantially horizontal. It is placed so that it can be moved (see the dotted circle in FIG. 25 (c) above). Then, it has a nozzle extending upward from the vicinity of one end of the bottle in a direction orthogonal to the suction direction during a period located below the flat surface FI.
  • the plurality of containers have the notch 28 cut under the flat surface 21FI of the discharge space Di, which is the discharge surface, with the nozzle facing up. It is a direction orthogonal to the chipping direction (Y direction) and can move in a substantially horizontal direction ( ⁇ X direction).
  • the position adjusting plate 71 is moved so as to be lifted. After that, in a state where the discharge port at the upper end of the nozzle is pushed up so as to protrude upward from the hole 711 of the position adjusting plate 71, the viscous contents of one container are pushed out and discharged.
  • the discharge drive unit 40a is on the lower side. Only one is provided.
  • a plurality of viscous fluids are contained in different containers as a plurality of contents, and any one of them.
  • One viscous fluid is selectively ejected, or two or more viscous fluids are ejected in sequence.
  • the viscous fluid contained in the container in the present embodiment has a viscosity of 4500 mPa ⁇ s or more at a viscosity of 25 ° C., a rotation speed of 12 rpm, and a viscosity at 60 seconds, similar to the first contents in the first and second embodiments. , More preferably 10000 mPa ⁇ s or more, and further preferably 25000 mPa ⁇ s or more.
  • the plurality of viscous fluids in the present embodiment are, for example, different types of high-viscosity basic cosmetics (milky lotion, beauty essence), a plurality of high-viscosity makeup cosmetics, and a combination of basic cosmetics and makeup cosmetics. You may.
  • a combination of different cosmetics of a milky lotion and a beauty essence for the same purpose may be used.
  • a combination of different cosmetics of a milky lotion and a beauty essence or a combination of different types of milky lotions (or beauty essences) for the same purpose may be used.
  • “refreshing”, “moist”, “normal”, “sensitive”, “whitening”, “acne prevention”, “for packs”, etc. according to the skin condition, the temperature and humidity of the outside air, and the mood of the user. It may be possible to select emulsions having different uses and tactile sensations.
  • the viscous fluid may be a combination of different types such as high-viscosity base makeup, liquid foundation, liquid eye shadow, liquid lip, etc., or a plurality of types for the same purpose. It may be a combination of cosmetics (for example, liquid foundation) and the like.
  • make-up cosmetics for the same purpose are “fresh”, “moist”, “normal”, and “normal” according to, for example, the condition of the skin, the temperature and humidity of the outside air, and the mood of the user. It may have different uses and tactile sensations such as “sensitive”, “whitening”, “anti-acne”, and “for packs”.
  • the makeup cosmetics having a plurality of types and the same purpose may be cosmetics having different colors (for example, liquid eye shadow, liquid lip, liquid foundation, etc.).
  • cosmetics having different light reflectance to the skin such as "tural”, “gloss (glitter)", and "mat” may be used.
  • a plurality of types of viscous contents can be discharged, and by turning the nozzle for discharging the viscous fluid upward, the contents hang down and remain under the nozzle in an icicle shape. Can be prevented. Further, since the nozzle extending from the bottom to the top discharges in a state of being extruded from the discharge hole (discharge hole), it is possible to avoid mixing a plurality of types of viscous contents in the middle of discharge.
  • FIG. 35 is a perspective overall view of the discharge system 400 according to the sixth embodiment of the present invention.
  • the housing 8 of the discharge system 400 is a box-shaped housing.
  • the horizontal cylinder portion is not provided.
  • the upper surface 8U of the housing is a discharge surface, and the upper surface 8U is formed so that a tongue-shaped notch 81 is cut out from the front end to the rear.
  • the dish-shaped position adjusting plate 72 in which the hole portion 721 which is the discharge hole is formed is fitted into the notch 81 of the discharge surface (upper surface) 8U to be provided.
  • the hole portion 721 having the same function as the discharge hole (hole portion) 711 of the position adjusting plate 71 fitted in the horizontal cylinder shown in FIG. 34 is formed in the position adjusting plate 72.
  • the discharge system 400 since the discharge system 400 extrudes and discharges the hole portion 721 upward, each of the contents accommodated in the plurality of containers 30o and 30p is a viscous fluid.
  • the containers 30o and 30p of the plurality of containers located below the upper surface 8U are placed so that the suction direction of the contents in the bottles 31o and 31p which are the containers is substantially horizontal. There is. It also has nozzles 33o, 33p that extend upward from the vicinity of one end of the bottles 31o, 31p in a direction orthogonal to the suction direction.
  • the plurality of containers 30o and 30p are in a direction orthogonal to the notch direction and in a substantially horizontal direction (in the figure, the width direction (in the figure,) with the nozzles 33o and 33p facing up on the lower side of the upper surface 8U which is the discharge surface. It is possible to move in the + X direction)).
  • any of the containers 30o and 30p is used by extruding upward from the nozzles 33o and 33p with respect to the hole portion 721.
  • the push holder 34o and the container 30o are supported by the cartridge holder, and the push holder 34p and the second container 30p are supported by the cartridge holder. Therefore, only one discharge drive unit 40J is provided.
  • a plurality of types of viscous contents can be discharged, and by pointing the nozzle for discharging the viscous fluid upward, the contents solidify under the nozzle and remain in an icicle shape. You can prevent that. Further, by providing the position adjusting plate, the nozzles 33o and 33p extending from the bottom to the top are discharged in a state of being pushed upward from the hole 721. Therefore, even if the containers 30o and 30p to be used are replaced, a plurality of types are used. It is possible to prevent the contents of the above from being mixed in the middle of discharge.
  • a milky lotion or cream as an example of a highly viscous viscous fluid (first content) will be described as an example of viscosity.
  • a non-viscous fluid (second content) having a low viscosity a lotion was described as an example, but the first content and the second content are, for example, both a lotion (or a milky lotion).
  • the contents may have different tactile sensations.
  • Contents with different tactile sensations are component compositions that affect viscosity, and contents with different tactile sensations include, for example, basic components, tromi components (moisturizing components), astringent components, whitening components (vitamin C, etc.), acne control components, etc. , Different composition. For example, even for a lotion, you can select the type such as "moist” or "refreshing”. For a "moist” lotion, you can make it a viscous fluid by increasing the amount of tromi component, and for a "fresh” lotion, A non-viscous fluid may be obtained by reducing the amount of the tromi component.
  • the above example is just an example, and the contents have different textures of the lotion, and are "fresh”, “moist”, “normal”, and “sensitive” according to the skin condition, the temperature and humidity of the outside air, and the mood of the user. , “Whitening”, “Acne control”, “For packs”, etc. may be selectable.
  • the content has a liquid or viscous scent (perfume, body cream or hand cream as a kneaded perfume, etc.). May be accommodated.
  • perfume or kneaded perfume as the content, the user can use the scents in an appropriate order.
  • liquid or viscous seasonings may be contained as the contents.
  • the user can customize the taste and prepare the amount of the seasoning to be used for cooking in advance without using a surveying instrument.
  • a spoon or tableware into the discharge space (in the fourth embodiment, the space above the case bottom 14D) instead of cotton.
  • discharging a highly viscous viscous fluid use a spatula, a spoon, or the like to fill the vicinity of the pilot hole in the discharge space (near the upper hole in the second and fourth embodiments, and near the discharge hole in the sixth embodiment). You may wipe it.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
PCT/JP2021/044764 2020-12-07 2021-12-06 吐出システム WO2022124269A1 (ja)

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20120111885A1 (en) * 2010-11-08 2012-05-10 Horst Binderbauer Liquid dispenser
JP2013212878A (ja) * 2012-09-26 2013-10-17 Kaga Works Kk 空圧ディスペンサ用プランジャ
WO2019031358A1 (ja) * 2017-08-09 2019-02-14 株式会社資生堂 吐出容器、該吐出容器を有するカスタマイズ吐出システム、該吐出容器における吐出制御方法
WO2020217530A1 (ja) * 2019-04-26 2020-10-29 株式会社資生堂 液状体吐出装置及び容器

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20120111885A1 (en) * 2010-11-08 2012-05-10 Horst Binderbauer Liquid dispenser
JP2013212878A (ja) * 2012-09-26 2013-10-17 Kaga Works Kk 空圧ディスペンサ用プランジャ
WO2019031358A1 (ja) * 2017-08-09 2019-02-14 株式会社資生堂 吐出容器、該吐出容器を有するカスタマイズ吐出システム、該吐出容器における吐出制御方法
WO2020217530A1 (ja) * 2019-04-26 2020-10-29 株式会社資生堂 液状体吐出装置及び容器

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