EP3498135A1 - Réceptacle pour dispenser matériaux granulaires - Google Patents

Réceptacle pour dispenser matériaux granulaires Download PDF

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Publication number
EP3498135A1
EP3498135A1 EP17208151.5A EP17208151A EP3498135A1 EP 3498135 A1 EP3498135 A1 EP 3498135A1 EP 17208151 A EP17208151 A EP 17208151A EP 3498135 A1 EP3498135 A1 EP 3498135A1
Authority
EP
European Patent Office
Prior art keywords
wall
container
channel
section
guide
Prior art date
Legal status (The legal status 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 status listed.)
Withdrawn
Application number
EP17208151.5A
Other languages
German (de)
English (en)
Inventor
Alexander Grohs
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
4gourmet Innovation GmbH
Original Assignee
Individual
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 Individual filed Critical Individual
Priority to EP17208151.5A priority Critical patent/EP3498135A1/fr
Publication of EP3498135A1 publication Critical patent/EP3498135A1/fr
Withdrawn legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47GHOUSEHOLD OR TABLE EQUIPMENT
    • A47G19/00Table service
    • A47G19/30Other containers or devices used as table equipment
    • A47G19/32Food containers with dispensing devices for bread, rolls, sugar, or the like; Food containers with movable covers
    • A47G19/34Food containers with dispensing devices for bread, rolls, sugar, or the like; Food containers with movable covers dispensing a certain quantity of powdered or granulated foodstuffs, e.g. sugar
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47GHOUSEHOLD OR TABLE EQUIPMENT
    • A47G19/00Table service
    • A47G19/24Shakers for salt, pepper, sugar, or the like

Definitions

  • the invention relates to a container for a grit, in particular a giant good, such as salt or spices.
  • the container has an inner wall, an outer wall surrounding the inner wall, and a bottom connecting the inner wall to the outer wall, wherein a receiving volume of the container disposed between the inner wall and the outer wall is bounded on one side by the bottom, the inner wall, the outer wall and the soil is impermeable to the spreading material, the inner wall being disposed between the receiving volume and an elongate channel, and wherein the elongated channel passes through the soil.
  • the invention relates to a cartridge for a dispenser, as in WO 2017/121625 A1 shown.
  • a spice container with an inner wall and an outer wall surrounding the inner wall is for example already out of the US 2,340,841 known. It shows a spice tax for two different spices.
  • the control has an outer chamber with an annular base and a lid with a plurality of openings for dispensing, for example, salt. Within the outer chamber, a sealed on both sides inner chamber for receiving a second spice is provided. Since this container does not have an elongate channel passing through the bottom, it is not suitable for use in a dispenser with a metering device in the form of a piston slidably disposed in the channel.
  • a container for spreading material with a cylindrical channel disposed therein is also in US 2005/0224088 A1 shown.
  • a cylindrical chamber for receiving a whistle is provided in a tobacco chamber.
  • this "channel" is firmly closed on one side.
  • a different container is in the DE 603 11 767 T2 shown.
  • This capsule is not used for receiving and dispensing of grit, but contains a liquid that can be removed with a special game device.
  • a container of the initially mentioned type according to the invention that the elongated channel at least in a first section beginning at the bottom has a non-rotationally symmetrical with respect to a longitudinal axis of the elongated channel cross-section, the container a preferred direction transverse to the longitudinal axis of the elongated Channels has. Due to the non-rotationally symmetric or non-circular cross-section, or - accordingly - the non-cylindrical shape, a metering device with a likewise non-rotationally symmetrical cross section within the elongated channel can be secured against rotation or twisting at least limited.
  • non-rotationally symmetric is to be understood any shape or geometry in which at least an angular amount exists, with a rotation by this angular amount does not form the shape or geometry on itself, and wherein the angular amount not a multiple of 360 ° (or 2 pi radians).
  • the cartridge can act as a rotation or as Verfitbegrenzung for a arranged in the elongated channel metering. These functions can be achieved regardless of the exact shape of the cross section of the elongated channel or the metering device.
  • the longitudinal axis of the elongate channel designates an axis extending substantially parallel to the inner wall bounding the elongate channel.
  • the longitudinal axis is preferably parallel to a direction of movement of a slidably disposed in the elongated channel metering device, when the container is used together with a dispenser.
  • the elongated channel is preferably designed wholly or partly as a sliding bearing for such a metering device.
  • the metering device is for example a displaceable piston, wherein the piston is longer than the elongated channel of the container.
  • the above-mentioned cross section of the elongate channel is a cross section transverse to the longitudinal axis.
  • the preferred direction defines a particular preferred orientation of a metering device with respect to rotation about the longitudinal axis within the elongate channel.
  • the preferred direction may be determined, for example, by the shape of the cross-section of the elongate channel, the general shape of the container, or a visible mark on an outside of the container.
  • the container On a side opposite the bottom of the receiving volume, the container has at least one discharge opening, through which a grit received in the container can be dispensed during operation.
  • the inner wall has at least one longitudinal guide on an outer surface delimiting the elongate channel, wherein the longitudinal guide is arranged parallel to a longitudinal axis of the elongate channel.
  • the outer surface of the inner wall corresponds to a receiving volume of the opposite side of the inner wall.
  • the outer surface is accordingly the radially inner side of the inner wall.
  • a longitudinal guide may be provided for a metering device arranged in the elongated channel. The longitudinal guide thereby guides the movement of the metering device in the direction along the longitudinal axis of the elongated channel.
  • the longitudinal guide is arranged parallel to the longitudinal axis of the elongated channel, this movement of the metering device is performed as a pure displacement movement, ie without a rotating component, within the elongate channel.
  • the outer surface may have exactly one longitudinal guide, so that the longitudinal guide also defines the preferred direction.
  • the at least one longitudinal guide may have, for example, guide cheeks, between which an angular range is limited. A stop of a metering device on one of the guide cheeks can thus limit a rotation of the metering device relative to the longitudinal guide.
  • the longitudinal guide may preferably at least in sections have a constant depth (normal to the outer surface of the inner wall), which corresponds, for example, to the engagement of a metering device with the longitudinal guide, so that during operation a constant engagement of the metering device with the longitudinal guide is achieved, independent of a displacement along the longitudinal axis becomes.
  • the at least one longitudinal guide may be formed by a guide groove.
  • the guide groove can be formed, for example, as a depression in the outer surface of the inner wall or between two projecting from the outer surface guide rails.
  • a spring or a projection can thus be received guided on a piston forming the metering device.
  • the metering device is limited in this case by the stop of the spring or the projection on lateral guide cheeks of the guide against rotation.
  • a flange or collar may be provided on the respective edge of the inner wall opposite the floor, which structurally reinforces the inner wall in general and the longitudinal guide or guide groove in particular and counteracts deformation.
  • the inner wall can have at least one guide spring or at least one guide pin on an outer surface delimiting the elongated channel.
  • the guide spring or the guide pin engage in a corresponding guide groove in a metering device. In this way, a rotation of the metering device can be limited within the elongated channel.
  • the outer wall has exactly one guide spring or exactly one guide pin, which in this case define a preferred direction of the container.
  • the elongated channel has a non-rotationally symmetrical cross section at least in a first section beginning at the bottom.
  • Non-rotationally symmetric is understood to mean any shape or geometry in which no angular amount exists, with a rotation by this angle representing the shape or geometry on itself, and wherein the angular amount is not a multiple of 360 ° (or 2 ⁇ radians). In other words, only a 360 ° turn can map a non-rotationally symmetric shape to itself. This can ensure that a metering device with a corresponding cross-section can only be received in a clearly aligned position.
  • the cross section of the elongated channel thus already defines the preferred direction out of itself. There is only one possible orientation of the metering device within the elongate channel. Accordingly, a rotation of the metering device with a corresponding cross section can be reliably prevented or at least limited.
  • the outer wall and / or the bottom have an at least partially non-rotationally symmetrical cross section.
  • the cross section refers to a section transverse to the longitudinal axis of the elongate channel.
  • the highest elevation of the floor may be formed on a side facing away from the receiving volume by a projection.
  • a projection or pin may be received, for example, in operation in a recess in the dispenser, wherein the recess is arranged in a limited angular range with respect to a rotation about the longitudinal axis of the elongated channel, so that the projection or pin must be disposed in said limited angular range, so the container in the dispenser can be completely absorbed.
  • a collar which delimits the elongate channel and is provided with an annular collar is provided on an edge of the inner wall which is opposite the bottom, wherein the collar preferably tapers off from the inner wall.
  • the collar may alternatively or additionally be made of an elastic material (for example thermoplastic material).
  • the collar thus corresponds to a web with a sealing lip: d. H. an annular, tapered projection of the same material, the inner wall or the entire body of the cartridge.
  • the elongated channel of the container has the smallest diameter. The collar thus seals the elongated channel against the metering device. It can be designed, for example, as a sliding bearing for the metering device and serve.
  • the collar may also be formed as part of a cover for the container.
  • an outwardly projecting web is provided on an edge of the outer wall opposite the bottom.
  • Such a particular radially outwardly projecting web can serve, for example, the attachment of the container in a housing.
  • the web can also be formed as part of a cover.
  • this variant In connection with the above-described collar on the inner wall and the web on the outer wall, it is favorable in terms of production, when the collar and the web are arranged substantially in one plane, wherein the plane is arranged normally on a longitudinal axis of the elongate channel. In addition to the simpler production, this variant also has the advantage of defining a comparatively small area for a cover of the container lying opposite the bottom.
  • the receiving volume may be limited on a side opposite the bottom by a cover, wherein the cover preferably comprises a grid, a screen, a mesh or a perforated disc.
  • the cover is preferably annular and penetrated by the elongated channel. It serves as a kind of "lid" for the subject container.
  • the cover may be formed with one or more dispensing openings.
  • a mesh size, number, arrangement and a cross-section of the discharge openings in the cover are adapted to the size and cross-sections of the grit so that the grit in an isolated state, the discharge openings can pass unhindered or the discharge openings are at least partially permeable to the grit, while lumps of the grit are retained by the cover.
  • the cover can also participate in the sealing of the elongated channel.
  • a cover provided between the metering device and an inner wall of the container may comprise a seal between the metering device and the container.
  • the inner wall, outer wall and floor are produced unanimously.
  • said parts or the entire container (with or without the cover) are made of one and the same material (e.g., a food grade plastic) and cast, especially in a single manufacturing step.
  • the outer wall of the container has a substantially cylindrical shape. Since the shape of the container is usually in the form of a container receptacle and thus a dispenser for use with the container, the substantially cylindrical shape has the advantage that the dispenser used with the container is well in the hands of a user.
  • the container or its outline has an outer diameter between 2 and 8 cm.
  • the outer wall is transparent or translucent, at least in areas. These areas form windows, through which the contents of the receiving volume, in particular a level of the container, can be seen from the outside.
  • a dispenser for use of the container may have openings in the region of the windows. These openings prevent grit from being poured directly into the dispenser (ie without using a cartridge). The required relative orientation between the openings of the dispenser and the windows in the outer wall of the container is ensured by the preferred direction of the container or other of the measures described in more detail above.
  • Fig. 1 shows a container 1 for a spreading material (not shown).
  • the container 1 is arranged in a dispenser 2.
  • the container 1 has an inner wall 3, an outer wall 4 and a bottom 5.
  • the inner wall 3, the outer wall 4 and the bottom 5 are made in one piece, ie in a manufacturing step (for Example die-cast) and of the same material.
  • the outer wall 4 surrounds the inner wall 3 (cf. Fig. 3 ).
  • the bottom 5 connects a in Fig. 1 upper edge of the inner wall 3 with an upper edge of the outer wall 4.
  • a receiving volume 6 is enclosed.
  • the receiving volume 6 is bounded on one side by the bottom 5.
  • the container 1 On a side 7 opposite the bottom 5 of the container 1, the container 1 has an opening 8, through which the receiving volume 6 is connected to an environment of the container 1.
  • the inner wall 3, the outer wall 4 and the bottom 5 are impermeable to the grit received in the container during operation.
  • the inner wall 3 is arranged between the receiving volume 6 and an elongate channel 9.
  • the elongated channel 9 passes through the bottom 5 of the container 1; ie, the bottom 5 has an opening 10, which is an in Fig. 1 defined upper end of the elongate channel 9.
  • the elongated channel 9 is located at a bottom 5 opposite (in Fig. 1 bottom) end constricted by an annular collar 11.
  • the annular collar 11 starts from a bottom 5 of the opposite edge of the inner wall 3.
  • a first portion 12 of the elongate channel 9 begins at the opening 10 in the bottom 5 and extends to the front in front of the annular collar 11.
  • the elongated channel 9 has a non-rotationally symmetrical with respect to a longitudinal axis 13 of the elongated channel 9 and even non-rotationally symmetrical cross section (cf. Fig. 3 ).
  • the inner wall 3 has a longitudinal guide in the form of a guide groove 15 on an outer surface 14 delimiting the elongate channel 9.
  • the guide groove 15 and thus the longitudinal guide is arranged parallel to the longitudinal axis 13 of the elongate channel 9. It extends from the bottom 5 to in front of the annular collar 11, ie substantially to a bottom 5 opposite edge of the inner wall 3.
  • the guide groove 15 is formed between two of the inner wall 3 in the elongated channel 9 projecting guide springs 16.
  • the guide springs 16 are each arranged parallel to each other and to the longitudinal axis 13 of the elongated channel 9.
  • the two opposite side surfaces of the guide springs 16 each form a guide cheek, so that between the two guide cheeks, an angular range of the cross section is limited.
  • the container 1 Due to the position of the guide groove 15, the container 1 has a preferred direction transverse to the longitudinal axis 13 of the elongated channel 9; This preferred direction is clearly marked and displayed by the position of the guide groove 15. Accordingly, the elongated channel 9 in the in Fig. 1-4 shown embodiment in the first section 12 non-rotationally symmetrical cross section.
  • a projection 17 is formed at a side facing away from the receiving volume 6 outside of the bottom 5.
  • the projection 17 is the highest elevation of the bottom 5 on the outside thereof. Even without the uniqueness of the guide groove 15, the projection 17 would define a preferential direction of the container transverse to the longitudinal axis 13 of the elongate channel 9. In a corresponding manner, the preferred direction could also be defined and defined only by a visible, for example colored, marking of the container 1.
  • an outwardly projecting web 18 is provided at a bottom 5 opposite edge of the outer wall 4.
  • the annular collar 11 and the web 18 are arranged substantially in a plane 19.
  • the plane 19 is arranged normally on the longitudinal axis 13 of the elongated channel 9.
  • the container 1 may also have a cover (not shown), wherein the cover limits the receiving volume 6 on the bottom 5 opposite side 7 and even one or more comparatively smaller openings.
  • the cover may for example be formed by a grid or a sieve.
  • the outer wall 4 In contrast to the outer surface 14 of the inner wall 3, the outer wall 4, more precisely its outer surface 20, has a substantially cylindrical shape. In the embodiment shown, this shape is not exactly cylindrical, but frustrokonisch, ie it has a starting from the bottom 5 to the web 18 continuously increasing diameter. In the region of the bottom 5, the diameter of the container 1 transverse to the longitudinal axis 13 of the elongated channel 9 in this embodiment is about 2.8 cm; the diameter of the web 18 in the plane 19 is about 3.8 cm.
  • the container 1 is as in Fig. 1 shown in a dispenser 2 recorded; more specifically, in a cartridge chamber 21.
  • the cartridge chamber 21 has a substantially tubular chamber wall 22.
  • the cartridge chamber 21 is at one end (in Fig. 1 above) bounded by a chamber bottom 23.
  • the cartridge chamber 21 has an opening 24, through which a container 1 can be inserted into the free cartridge chamber 21 or a container 1 contained therein can be removed from the cartridge chamber 21.
  • the opening 24 is in operation, as in Fig. 1 illustrated, covered with a chamber cover 25 and substantially closed.
  • the chamber cover 25 may be connected, for example by means of a bayonet closure 26 with the chamber wall 22 of the cartridge chamber 21 and secured thereto.
  • the web 18 of the container 1 can be clamped and held between the chamber cover 25 and the chamber wall 22.
  • the cartridge chamber 21 facing inside 27 of the chamber cover 25 is funnel-shaped. It tapers from the opening 24 to an outlet channel 28 of the chamber cover 25, whose outer end forms an opening of the dispenser 2.
  • the outside of the chamber cover 25 is formed as a substantially cylindrical continuation of the chamber wall 22.
  • the chamber bottom 23 has a recess 29 for receiving the projection 17 of the container 1.
  • the recess 29 (see. Fig. 2 ) is arranged in a narrow angular range of the chamber bottom 23 with respect to the longitudinal axis 13. When the projection 17 is received in the recess 29, thereby the container 1 is secured against rotation within the cartridge chamber 21.
  • the entire cartridge chamber 21 and the mouth channel 28 extends an elongated metering device 30 in the manner of a displaceable piston.
  • the metering device 30 In the region of a mouth-side end 31, the metering device 30 has an annular recess 32.
  • the cross section of the metering device 30 on both sides of the recess 32 substantially corresponds to the cross section of the mouth channel 28.
  • the funnel-shaped area between the chamber cover 25 and the opening 8 of the container 1 is sealed off from the elongate channel 9 by the collar 11, the collar 11 enclosing the metering device 30 in a ring-shaped and tight manner. This prevents spreading material from entering the elongated channel 9 or the chamber 21 from the funnel-shaped region.
  • the metering device 30 In a central region 33 of the metering device 30 arranged inside the cartridge chamber 21 and in operation in the oblong channel 9 of a container 1, the metering device has a spring 34.
  • the spring 34 is received in operation in the guide groove 15 of the container 1 and is guided therein parallel to the longitudinal axis 13 of the elongate channel 9.
  • a rotation metering device 30 relative to the container 1 can be reliably prevented or at least limited.
  • the metering device 30 At an opposite end of the recess 32 (in Fig. 1 above), the metering device 30 has an actuating region 35 adjacent to the middle region 33. In the actuation region 35, the metering device 30 has a stop element 36.
  • a damping element 37 for example, a rubber ring, attached.
  • the stop element 36 limits the movement of the metering device 30 in the direction of the mouth channel 28 in that the damping element 37 abuts against a side of the chamber bottom 23 facing away from the cartridge chamber 21.
  • the stop element 36 has a notch 38 on one side for engagement with a blade mechanism 39.
  • the blade mechanism 39 is part of an actuator 40 of the dispenser 2.
  • the actuator 40 includes a trigger lever 41 which is pivotally mounted about a fulcrum 42.
  • the fulcrum 42 of the trigger 41 is in the dispenser 2 set.
  • the blade mechanism 39 includes a blade 43 which is pivotally connected to the trigger lever 41 about another fulcrum 44.
  • the blade 43 can between a driving position (according to Fig. 1 and 5a ) and an approximate to the fulcrum 42 return position (see. Fig. 5d ) are pivoted.
  • the movement of the blade 43 is limited in each case by stops 47, 48 of the trigger 41.
  • the trigger lever 41 is by a spring (not shown) in a standby position according to Fig. 5a held.
  • An ejection spring between the stopper member 36 and a cap 49 of the dispenser housing 50 biased and pushes the metering device 30 in the direction of the mouth channel 28. In this standby position, the trigger lever 41 extends substantially obliquely to the longitudinal axis 13.
  • the cap 49 is in the manufacture of the dispenser second after the introduction of the metering device in the dispenser housing 50 permanently connected to the dispenser housing 50, for example glued or welded.
  • a gap 51 is provided in the chamber bottom 23 for the implementation of the spring.
  • the trigger lever 41 For actuation of the dispenser 2, the trigger lever 41 is brought closer to the dispenser housing 50 against the spring forces, wherein the blade 43 engaging in the notch 38 feeds the metering device 30 through the mouth channel 28 until a release position according to FIG Fig. 5b is reached. If the actuation movement continues, the blade 43 is thereby lifted out of the notch 38 because of the limitation of the pivoting movement by the stop 48.
  • the ejection spring accelerates the metering device 30 back through the mouth channel 28 until the stop member 36 abuts the chamber bottom 23 and the metering device 30 abruptly stops (see. Fig. 5c ).
  • the container 52 comprises an inner wall 3, an outer wall 4 surrounding the inner wall 3, and a base 5 connecting the two walls 3, 4 with an annular base.
  • the container 52 is in accordance with Fig. 6 in addition, a cover 53 which limits the receiving volume 6.
  • the cover 53 includes a grid 54 having a plurality of openings 55 (see in particular FIGS. 8 and 10 ).
  • the cover 53 is arranged in a plane with the web 18 of the outer wall 4. Instead of in Fig. 1 shown annular collar 11 of the inner wall 3, the cover 53 extends beyond the lower edge of the inner wall 3 away and forms a sealing lip 56 around the lower end of the elongated channel 9.
  • the cover 53 closes with the lower edge of the inner wall 3 tight (see Fig. 10 ) and may be connected to the inner wall 3, for example by gluing or welding.
  • the sealing lip 56 constricts the elongated channel 9 and is in operation with an annular inner side of a metering device 30 and surrounds them tight (see Fig. 11 ). As a result, the sealing lip 56 prevents spreading material from penetrating from outside the cover 53 into the elongated channel 9 and between the metering device 30 and the inner wall 3.
  • the sealing lip 56 may be made of the same material as the cover 53 and preferably integral with the cover 53, for example of thermoplastic material. Alternatively, a sealing lip may be made of a different material than the inner wall 3 and / or as the cover 53 and secured to the cover 53 or to the inner wall 3.
  • the container 52 differs according to Fig. 6 also by the way in which the guide groove 15 is formed, from the container 1 according to Fig. 1 (see Figures 3 and 8th ): Specifically, the container 52, the guide groove 15 as Recess formed in the outer surface 14 of the inner wall 3, wherein the inner wall 3 in the region of the guide groove 15 corresponding bulges in the receiving volume 6 into or along the guide groove 15 has a corresponding bulge in the receiving volume 6.
  • the lateral guide cheeks 57 of the guide groove 15 form a stop for a spring or a projection of a metering device.
  • Fig. 7 shows a plan view of the container 52, more precisely its bottom 5.
  • the opening 10 in the bottom 5 is a keyhole opening, that is, it is substantially annular with a notch, which forms the beginning of the guide groove 15.
  • the annular inner side of the sealing lip 56 can be seen, wherein the sealing lip 56 limits the guide groove 15.
  • the base surface of the protruding from the outer wall 4 annular ridge 18 can be seen.
  • the double contour lines between the inner wall 3 and bottom 5 and between the bottom 5 and outer wall 4 represent the rounding of the edges at which the respective parts are connected or connected.
  • the structure of the grid 54 can be seen more specifically, in particular, that the grid 54 is bounded by an outer annular portion without openings of the cover 53.
  • the grid 54 has openings 55 arranged in a square grid, the cross section of the openings 55 tapering outwards (see FIG Fig. 10 ).
  • the grit received in the receiving volume 6 of the container 52 can leave the receiving volume 6 only through these openings 55.
  • Fig. 9 the container 52 is shown without the cover 53. In this state, the container 52 is filled with spreading material before the cover 53 is disposed to terminate the receiving volume within the annular ridge 18 and connected to the web 18 and the inner wall 3.
  • the container 52 is transparent, ie at least the inner wall 3, the bottom 5 and the outer wall 4 are made of a substantially transparent material.
  • the dispenser 2 can have an opening 58 in the area of the cartridge chamber 21, through which one in the cartridge chamber 21 arranged container 52 is visible from outside the dispenser 2.
  • the outer wall 4 of the container 52 remains in the area 59 of the opening 58 of the dispenser 2 free of labels or pressure. This allows a user through the opening 58 and the transparent outer wall 4 see the contents of the receiving volume 6 and recognize the level of the container 52.
  • the remaining parts of the outer wall 4, ie outside the area 59, can be labeled without hindering the view.
  • the in Fig. 11 illustrated section is along a line transverse to the spring 34 of the metering device 30, so that the spring 34 is not visible in this view.

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  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
EP17208151.5A 2017-12-18 2017-12-18 Réceptacle pour dispenser matériaux granulaires Withdrawn EP3498135A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP17208151.5A EP3498135A1 (fr) 2017-12-18 2017-12-18 Réceptacle pour dispenser matériaux granulaires

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP17208151.5A EP3498135A1 (fr) 2017-12-18 2017-12-18 Réceptacle pour dispenser matériaux granulaires

Publications (1)

Publication Number Publication Date
EP3498135A1 true EP3498135A1 (fr) 2019-06-19

Family

ID=60856871

Family Applications (1)

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EP17208151.5A Withdrawn EP3498135A1 (fr) 2017-12-18 2017-12-18 Réceptacle pour dispenser matériaux granulaires

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EP (1) EP3498135A1 (fr)

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2340841A (en) 1940-09-26 1944-02-01 Black Paul Condiment shaker
US20030047630A1 (en) * 2001-09-10 2003-03-13 Hua-Te Wu Pepper grinding tool with a sideways lever operated with one hand
US20050224088A1 (en) 2004-04-09 2005-10-13 Philip Willis Pocket flask apparatus
DE60311767T2 (de) 2003-03-24 2007-10-31 Nestec S.A. Wegwerfpackung zur Verteilung einer pumpbaren Flüssigkeit von einer Venturi-Vorrichtung
WO2017121625A1 (fr) 2016-01-15 2017-07-20 Alexander Grohs Distributeur

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2340841A (en) 1940-09-26 1944-02-01 Black Paul Condiment shaker
US20030047630A1 (en) * 2001-09-10 2003-03-13 Hua-Te Wu Pepper grinding tool with a sideways lever operated with one hand
DE60311767T2 (de) 2003-03-24 2007-10-31 Nestec S.A. Wegwerfpackung zur Verteilung einer pumpbaren Flüssigkeit von einer Venturi-Vorrichtung
US20050224088A1 (en) 2004-04-09 2005-10-13 Philip Willis Pocket flask apparatus
WO2017121625A1 (fr) 2016-01-15 2017-07-20 Alexander Grohs Distributeur

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