JP5593626B2 - Measuring spoon - Google Patents

Measuring spoon Download PDF

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JP5593626B2
JP5593626B2 JP2009085304A JP2009085304A JP5593626B2 JP 5593626 B2 JP5593626 B2 JP 5593626B2 JP 2009085304 A JP2009085304 A JP 2009085304A JP 2009085304 A JP2009085304 A JP 2009085304A JP 5593626 B2 JP5593626 B2 JP 5593626B2
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measuring
part
spoon
powder
handle
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JP2010237037A (en
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野口  裕雄
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凸版印刷株式会社
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Description

  The present invention relates to a spoon for measuring granular materials, powders, and the like, and more particularly to a measuring spoon used for measuring seasonings and the like when cooking.

  A spoon for measuring a relatively small amount of material such as a seasoning or sweetener measuring spoon has, for example, a measuring part (1) shaped like a spherical surface cut as shown in FIG. 4 and a handle connected to the measuring part. Generally, it is composed of a part (3) and a part (operation holding part) (4) that is gripped with a finger during measurement.

  Conventional measuring spoons for measuring powders such as powder and granules have a circular edge (2), and the depth of the measuring part is often shallow with a ratio of 1 or less compared to its diameter. This is set so that the object to be weighed in the container can be received by inserting a measuring spoon from the container entrance, and if the measuring part is deep, it is difficult to operate when receiving powder etc. The measuring section with a shallow depth is easy to use, and for the same reason, the rising angle of the circular edge part is more obtuse.

  However, it is difficult to spill the powder without spilling to the end when the amount is reduced from the bag-like container, and it may not be possible to measure directly easily. There were many.

  Further, the upper surface (3A) of the handle portion connecting the height of the edge of the measuring unit and the operation holding unit is often on the same surface and the upper surface is flat in many conventional measuring spoons. An example of a cross section at the handle portion (X-X ′) is shown in the lower right of FIG.

  In order to improve accuracy when weighing, the edge of the measuring spoon is scraped off the object to be weighed up with a scraping bar (sometimes substituted with chopsticks, etc.) or the edge of an overcap. This is to make it easier to perform the scraping work such as that illustrated in FIG. 4B, in which the powder is measured, and if this is not done, excess powder will be placed on the handle. It became easier and functional and design restrictions were imposed.

  For the purpose of more easily measuring powder and granular materials, as shown in Patent Document 1 and Patent Document 2, in order to enable two types of measurement with one measuring spoon, These are double-sided measuring spoons that have a back weighing unit on the back of the front weighing unit and the quantity to be weighed on the front and back is different, that is, measuring spoons that have a convex part in the center of the concave part of the measuring part of the measuring spoon. With the measuring spoon, it was difficult to know the height of the powder surface, which is the standard for measurement, and there was a limit to the leveling of the powder inside the measuring unit with only one hand.

  Further, in Patent Document 3, a plurality of types of capacities can be weighed, and the necessary amount can be obtained by superimposing a side part rotatable around a fulcrum on the bottom so that the weighing capacity can be easily selected with one hand. Measuring spoons have been proposed for measuring With this spoon, the volume can be changed with one hand, but the above-mentioned scraping operation is indispensable for accurate weighing, and there is a limit to the operation with only one hand.

Japanese Utility Model Publication No. 6-69750 Japanese Utility Model Publication No. 7-38922 JP 2004-12453 A

As described above, omitting the work of scraping the edge of the measuring spoon and weighing the object to be weighed, such as powder and granules, just lightly shake the powder that has been scooped up with one hand Therefore, it is an object of the present invention to provide a measuring spoon that remains in a certain amount and can be easily measured visually.
Furthermore, it is a problem to provide a measuring spoon that can be directly weighed to the end when the amount is reduced from a bag-like container.

The invention according to claim 1 of the present invention for solving the above problems is a measuring spoon comprising a measuring part and a handle, wherein the measuring part is a part for storing and measuring powder, and the handle is a measuring part. Connected to the
The measuring part is composed of a measuring part main body and an auxiliary edge part,
The measuring unit body has an elongated shape in plan view, and includes a bottom and a wall that rises from four rounds of the bottom,
The side walls extending in the longitudinal direction of the four circumferential walls are provided with the auxiliary edge portion that rises upward from the upper edge portion of the walls on both sides,
The measuring spoon is characterized in that an opening is formed by the upper edge of both walls extending in the lateral direction of the four walls and the upper edge of the auxiliary edge .

  The invention according to claim 2 of the present invention is the measuring spoon according to claim 1, characterized in that the opening in the longitudinal direction is narrower than the measuring part main body.

  The invention according to claim 3 of the present invention is the measuring spoon according to claim 1 or 2, wherein the upper side of the handle connected to the measuring portion is a curved surface.

  The invention according to claim 4 of the present invention is the measuring spoon according to any one of claims 1 to 3, wherein measuring portions having different sizes are provided on both sides of the handle.

According to the measuring spoon of the invention according to claim 1 of the present invention, in the measuring spoon for measuring powder, the measuring spoon comprising a handle, the measuring unit is connected to the measuring unit main body for measuring powder, the measuring unit main body. It is a measuring spoon consisting of an opening where the provided powder is put in and out,
The opening is composed of auxiliary edge portions on both sides with respect to the longitudinal direction provided so as to rise above the upper end portion of the measuring portion main body, and upper and lower edge portions of the measuring portion main body in the longitudinal direction. This makes it possible to measure with high accuracy just by lightly shaking the operation holding part with one hand without having a special structure such as a scraped bar, and on the inner surface of a soft and unstable container (such as a bag) When weigh up along the line, we can measure efficiently without waste.

First, when performing rough weighing in the first step, the upper end surfaces of the pair of auxiliary edges are raised toward the center in the longitudinal direction of the measuring spoon. It swells in a mountain shape from the reference position (the upper end of the main body of the measuring unit), and can be surely scooped.

Next, as the second step of weighing, hold the operation holding part that is part of the handle of the measuring spoon and shake it lightly to shake off excess powder and perform more accurate weighing. However, according to the measuring spoon of the present invention, an almost constant amount close to the amount to be measured can be left in the measuring unit in the following state transition regardless of the direction of shaking. .

When the measuring spoon is shaken to the left and right with respect to the longitudinal direction, the powder is regulated between the surfaces of the opposing auxiliary edges, so the powder can fall out of the measuring section in the front-rear direction. Only the upper end (including the handle connection side) of the measuring unit main body, which is the measurement reference position, is a stable and small amount of discharge, so that the powder can be adjusted to be substantially horizontal.

  When the measuring spoon is shaken back and forth with respect to the longitudinal direction, the powder distribution tends to be wave-like (like a sine curve) in the measuring part because it is shaken obliquely forward. Distributes so that there is a slight bulge between the surfaces of the auxiliary edge in the front of the unit, and a dent is formed in the rear of the measuring unit, which is offset as plus and minus at the front and back, resulting in a horizontal plane at the height of the measurement reference position. It becomes almost equivalent to the case.

In addition, when a measuring spoon is inserted directly into a pouch-shaped bag, etc., the weighing part can be laid down with the auxiliary edge gently curved in the longitudinal direction along the inner surface of the bag. Even if there is little remaining, it will be possible to crawl and weigh until the end.

  According to the measuring spoon of the invention according to claim 2 of the present invention, the width of the longitudinal direction is narrower in the opening than in the measuring unit main body, so that the powder can be reliably removed from the storage body storing the powder. Can be incorporated into the measuring unit. Further, even when the container is deep, the powder does not spill from the opening body, so that the powder can be reliably taken into the measuring body.

  In addition, in order to make it easier to scoop from the bag containing the powder, the shape seen from above the opening is not rectangular but curved, such as a curved shape. It is also possible to ensure.

  According to the measuring spoon of the invention according to claim 3 of the present invention, since the upper side of the handle connected to the measuring unit is a curved surface, there is no flat part on which the powder is placed. This is because the powder does not remain on the handle when it is beaten, and is effective when more weighing accuracy is required.

  When removing powder remaining on the handle with a conventional scraping bar, etc., the portion of the handle connected from the operation holding unit to the measuring unit is on the same plane as the measuring unit edge and the upper side of the handle is flat However, in the case of the measuring spoon of the present invention which does not use a scraping bar or the like, the upper side of the handle portion is a curved surface, so that the powder does not easily stick and is easy to shake off.

  The upper end portion of the measuring unit main body may be provided with a measuring line (8) serving as a mark for measurement by printing, engraving, or a device for shaping.

  According to the measuring spoon of the invention according to claim 4 of the present invention, the measuring parts having different sizes are provided on both sides of the handle. You can easily weigh without changing the spoon.

  Thus, according to the measuring spoon of the present invention, it does not have a special structure such as a scraped bar, it can perform high-precision weighing by simply grasping the operation holding part and shaking it lightly, and it is also soft and stable such as a bag. No (easy to deform) When weighing up and measuring along the inner surface of the container, it is possible to efficiently measure without waste.

  Furthermore, not only can different amounts be measured with a single measuring tool, but there is no restriction on the position of the handle extending from the measuring unit and the operation holding unit, and the design can be widely developed.

Schematic which shows an example of the measuring spoon of this invention. (A) Longitudinal section when used from top (B). Schematic which shows another example of the measuring spoon of this invention. (A) Longitudinal section when used from top (B). Schematic which shows another example of the measuring spoon of this invention. (A) Longitudinal section when used from top (B). Schematic which shows an example of the conventional measuring spoon. (A) Longitudinal section when used from top (B). Schematic which shows an example of the measuring spoon of this invention. (A) From the top surface (B) From the longitudinal direction (C) From the front-back direction.

  Below, the measuring spoon of this invention is demonstrated concretely using drawing.

  FIG. 1 is a schematic view showing an example of a measuring spoon of the present invention. FIG. 1A is a schematic view of a measuring spoon as viewed from above, and FIG. 1B is a schematic view of a cross section in the longitudinal direction when powder is weighed. The upper figure of (B) shows a state after a large amount of powder is scooped out, and the lower figure shows a state after the operation holding part is held by hand and lightly shaken to drop excess powder.

FIG. 2 is a schematic view showing another example of the measuring spoon of the present invention. FIG. 3 is a schematic view showing another example of the measuring spoon of the present invention.
Here, the example of FIG. 1 will be mainly described, and only the differences from the example of FIG. 1 will be supplemented for the examples of FIGS.

  The measuring spoon of the present invention shown in FIG. 1 is a measuring spoon composed of a measuring part (1) for measuring powder and a handle (3), and a measuring line (1) for measuring powder is placed on the measuring part (1). 8) a measuring spoon comprising a measuring unit main body and an opening (6) connected to the measuring unit main body for taking in and out the powder, wherein the opening (6) is a measuring unit Auxiliary edge (7) on both sides with respect to the longitudinal direction, provided so as to rise above the measuring line (8) of the main body, and weighing in the longitudinal direction with the same height as the measuring line (8) It is a measuring spoon comprised by a part main body upper edge part (2), (2 ').

  Unlike a normal measuring spoon, the peripheral edge of the measuring unit (1) is not a horizontal plane, and the measuring unit has a wall surface that is symmetrical with respect to the longitudinal direction of an elongated, substantially rectangular (although not necessarily rectangular) sectional shape. A pair of auxiliary edges (7) are formed by rising from the depth direction.

  The end in the longitudinal direction of the surface of the auxiliary edge (7) has a shape that converges in the height direction on the substantially shorter corner of the substantially rectangular shape. Further, the surface of the auxiliary edge portion becomes higher toward the vicinity of the center in the longitudinal direction.

  In the measuring spoon of the present invention, the powder can be easily taken from the original bag into the measuring unit main body, and even if the bag is deep, the powder does not spill from the opening. The width of the opening is narrower than the main body of the measuring unit. FIG. 5 shows a schematic diagram of some specific examples.

  5A is a schematic view of the measuring spoon of the present invention viewed from the top, FIG. 5B is a schematic view of the longitudinal direction viewed from the side surface, and FIG. 5C is a schematic view viewed from the front-rear direction. The figure is shown.

In the upper diagram of FIG. 5A, the opening (6) is rectangular when viewed from above, the wall of the measuring unit main body is curved outward, and the inner width is wider than the width of the opening. Shows the case. Although not shown, the front and rear ends of the opening (6) are located at the upper edges (2) and (2 ') of the measuring unit main body, and are sandwiched between the pair of auxiliary edges (7).

  In the lower figure of FIG. 5A, the opening (6) has a substantially rectangular shape with the center portion swollen when viewed from above, and the wall of the measuring section main body and the auxiliary edge (7) are formed vertically. Shows the case. In this case, as the width of the opening, the positions of the measuring section main body upper edges (2) and (2 ') sandwiched between the pair of auxiliary edges (7) are employed.

  The upper diagram in FIG. 5C is a schematic view seen from the front-rear direction corresponding to the upper diagram in FIG. 5A, and the lower diagram in FIG. 5C is the front and rear corresponding to the lower diagram in FIG. It is the schematic seen from the direction. The opening (6) is indicated by a white arrow.

  The structure in which the width in the longitudinal direction is narrower in the opening than in the main body of the measuring part is not limited to the case shown in FIG. 5 and can be freely set without departing from the spirit of the present invention.

  Thus, for example, as in the conventional measuring spoon shown in FIG. 4, the operation holding part (4) is grasped with one hand, and the powder ( 5) It does not require the complicated operation of scraping off the excess part, and grasps the operation holding part (4) and shakes it lightly, and the longitudinal section is larger as shown in the upper figure of FIG. 1 (B). When the crushing of the powder (5) that is raised from the upper edge (2), (2 ') of the scooping and measuring unit main body is broken and dropped from the upper edge of the measuring unit main body, FIG. 1 (B) As shown in the lower figure, since the upper surface (9) of the powder (5) is substantially horizontal, the measurement is easily completed.

FIG. 1 (B) shows a typical example when the measuring spoon is shaken to the left and right with respect to the longitudinal direction, and the powder is regulated between the surfaces of the auxiliary edges (7) facing each other. Therefore, the powder can fall out of the measuring unit (1) only at the upper end (2), (2 ') of the measuring unit main body at the height of the measurement reference position in the front-rear direction. Since the discharge is stable and a small amount with a short width, the upper surface (9) of the powder (5) is almost horizontal, and the measurement can be performed almost accurately at the measurement reference position.

  The measuring spoon of the present invention is intended to enable accurate measurement by a simple operation of grasping the operation holding part and shaking lightly, but it is also one of the features that the measurement result hardly changes depending on how to shake. is there.

  FIG. 2 schematically shows the influence on weighing when the measuring spoon is shaken back and forth with respect to the longitudinal direction.

  When the measuring spoon is shaken back and forth with respect to the longitudinal direction, the shape of the upper surface of the powder (9) is corrugated (like a sine curve) in the measuring part (1) in order to swing out obliquely forward. In the front of the measuring unit, there is a slight swell between the surfaces of the auxiliary edge (7), and a recess is created in the rear of the measuring unit (1). As a result, it becomes almost equivalent to the case where the measurement line (8), which is the measurement reference position, is distributed so as to become a horizontal plane at the height.

  In this way, it is possible to accurately measure a powder having a relatively high fluidity such as a powder and a granular material without an operation of sliding with one hand.

  FIG. 3 is an example of a measuring spoon according to the present invention, and is a schematic view of another example in which different amounts can be measured with one measuring tool.

In the measuring spoon shown in FIG. 3, two measuring parts having different sizes, i.e., a measuring part (large) (11) and a measuring part (small) (13), are provided on both sides of the handle (3). Each weighing unit has an edge (12) of the weighing part (large) and an edge (14) of the weighing part (small), like the weighing part (1) of FIG. 1 or FIG. Each structure is the same as that of the measuring spoon having one measuring portion shown in FIG.

  FIG. 3A shows a case where the entire cross section of the handle (3) along the line XX ′ including not only the handle upper surface (3A) but also the handle lower surface is formed of a curved surface. In the measuring spoon, it is only necessary that the upper surface of the handle is a curved surface, but the other surface may of course be a curved surface.

  FIG. 3B shows an example in which the weighing unit (large) (11) is used for weighing among the two weighing units having different sizes. In this figure, the weighing unit (small) is not used for weighing, but here is an example of the weighing procedure, and it has no particular meaning.

  Since the measuring spoon of the present invention is a measuring tool that can be measured by an operation with only one hand, by providing two measuring parts having different sizes as described above, one measuring tool can be used without replacing the measuring tool. This makes it possible to easily weigh different quantities of objects.

  The measuring spoon of the present invention is preferably made of plastic because it can be easily manufactured by a known molding method.

  As a material of the measuring spoon of the present invention, as a moldable thermoplastic resin, one of styrene resin, vinyl chloride resin, polycarbonate resin, polyester resin, polyamide resin, polyolefin resin, and methacrylic resin is used. More than one type of resin can be used.

  Examples of the styrene resin include polystyrene, styrene-acrylonitrile copolymer, α-methylstyrene-acrylonitrile copolymer, styrene-α-methylstyrene-acrylonitrile copolymer, styrene-maleimide copolymer, styrene-maleimide-acrylonitrile copolymer. Polymer, styrene-α-methylstyrene-maleimide-acrylonitrile copolymer, styrene-maleimide-maleic anhydride-acrylonitrile copolymer, styrene-maleic anhydride copolymer, styrene-methyl methacrylate copolymer, etc. .

  Examples of the vinyl chloride resin include polyvinyl chloride, a vinyl chloride copolymer obtained by copolymerizing a vinyl monomer copolymerizable with vinyl chloride, and a post-chlorinated vinyl chloride resin. Examples of the polycarbonate resin include bisphenol polycarbonate and aliphatic polycarbonate.

  Examples of the polyester resin include polyethylene terephthalate and polybutylene terephthalate. Examples of the polyamide-based resin include nylon 6, nylon 6,6, nylon 12, and the like.

  Examples of the polyolefin resin include polypropylene, polyethylene, and cyclic polyolefin. Examples of the methacrylic resin include polymethyl methacrylate, a copolymer of methyl methacrylate and alkyl acrylate (methyl, ethyl, butyl, 2-ethylhexyl, etc.), a copolymer of methyl methacrylate and methacrylic acid, and the like.

Polymer alloys using one or more of these styrene resins, polycarbonate resins, polyester resins, polyamide resins, polyolefin resins, vinyl chloride resins, and methacrylic resins, for example, styrene-acrylonitrile copolymer Alloy of polycarbonate and polycarbonate, alloy of styrene-acrylonitrile copolymer and polyvinyl chloride,
An alloy of styrene-acrylonitrile copolymer and nylon 6, an alloy of polyethylene terephthalate and polycarbonate, an alloy of polystyrene and polyphenylene oxide, etc. are also within the range of usable resins.

  One or more of the above styrene resins, vinyl chloride resins, polycarbonate resins, polyester resins, polyamide resins, polyolefin resins, methacrylic resins and diene rubber polymers, acrylic rubber polymers, silicon A rubber-modified resin comprising a graft copolymer obtained by polymerizing a vinyl monomer copolymerizable with a olefin rubber polymer or an olefin rubber polymer is also within the range of usable resins.

  For the thermoplastic resin used as the material of the measuring spoon of the present invention, generally well-known antioxidants, heat stabilizers, ultraviolet absorbers, pigments, antistatic agents, and lubricants can be appropriately used as necessary.

In particular, stabilizers such as phenol-based, sulfur-based, phosphorus-based and hindered amine-based stabilizers used in styrene-based resins and vinyl chloride-based resins, stabilizers such as Sn-based stabilizers, Pb-based stabilizers, Ca-based stabilizers, Benzophenone-based, benzotriazole-based UV absorbers and organopolysiloxanes, aliphatic hydrocarbons, esters of higher fatty acids and higher alcohols, higher fatty acid amides or bisamides and their modified products, oligoamides, higher fatty acid metal salts, etc. An external lubricant or the like can be used as a molding resin for higher performance.

  Moreover, a well-known flame retardant, a reinforcing agent, a filler, etc. can also be added. Examples of the flame retardant include bromides such as tetrabisphenol A, phosphorus organic compounds such as triphenyl phosphite, inorganic metal compounds, and the like. Examples of the reinforcing agent and filler include glass fiber, carbon fiber, stainless steel fiber, aluminum flake, talc, mica, charcoal cal, whisker, and the like.

  These stabilizers, lubricants, flame retardants, reinforcing agents, fillers and the like can be used alone or in admixture of two or more. The thermoplastic resin as the material of the measuring spoon of the present invention can be used for any known molding method, but from the viewpoint of easily exerting the effect, it is particularly good in appearance by injection molding, extrusion molding, blow molding or the like. The body is obtained.

  As the resin that can be preferably used as the material of the measuring spoon of the present invention, various materials conventionally used in the production of molded products can be used without any particular limitation, for example, olefins such as polypropylene resin and polyethylene resin Resin, PET (polyethylene terephthalate) resin, polystyrene resin, ABS (acrylonitrile / styrene / butadiene) resin, and the like can be used.

  Polypropylene resin is a representative low-priced general-purpose resin and has good moldability, but has relatively low strength, especially bending elastic modulus, and there is a limit when proceeding to reduce the amount of resin by making it thinner. Can be used.

  In consideration of resource protection, it is preferable to use a recycled or recycled resin. For example, PET resin is suitable as a material because recycling and recycling are progressing and strength (flexural modulus) is also strong. Furthermore, biodegradable resins such as polylactic acid resins and plant-derived resins can be used.

  The measuring spoon of the present invention is manufactured by injection molding the above resin mainly. As the injection molding method, in addition to normal injection molding, a multicolor molding method such as two-color molding or a complex molding method such as insert molding can be used.

  According to these methods, variations such as changing the color of other parts above and below the measuring line or making the shape of the measuring part easy to scoop up the powder are likely to increase the price or use special manufacturing equipment. This is possible without the need.

  Of course, the material and manufacturing method of the measuring spoon of the present invention are not limited to the above exemplified materials and molding methods, and well-known molding materials and molding methods can be used.

DESCRIPTION OF SYMBOLS 1 ... Measuring part 2 ... Measuring part main body upper edge part 2 '... Measuring part main body upper edge part 3 ... Handle 3A ... Handle upper surface 4 ... Operation holding part 5 ... Powder 6 ... Opening part 7 ... Auxiliary edge part 8 ... Measuring line 9 ... Powder upper surface 10 ... Measuring unit body wall 11 ... Measuring unit (large)
12 ... Measuring unit (large) Main body upper edge 13 ... Measuring unit (small)
14 ... Measuring section (small), upper edge 15 of main body ... Auxiliary edge

Claims (4)

  1. A measuring spoon comprising a measuring part and a handle, wherein the measuring part is a part for storing and weighing powder, and the handle is provided in connection with the measuring part,
    The measuring part is composed of a measuring part main body and an auxiliary edge part,
    The measuring unit body has an elongated shape in plan view, and includes a bottom and a wall that rises from four rounds of the bottom,
    The side walls extending in the longitudinal direction of the four circumferential walls are provided with the auxiliary edge portion that rises upward from the upper edge portion of the walls on both sides,
    The measuring spoon characterized by comprising the opening part by the upper edge part of the wall of the both sides extended in a transversal direction among the said 4 round walls, and the upper edge part of the said auxiliary edge part.
  2. 2. The measuring spoon according to claim 1, wherein the width of the direction perpendicular to the longitudinal direction is narrower in the opening than in the measuring unit main body.
  3.   The measuring spoon according to claim 1 or 2, wherein the upper side of the handle connected to the measuring unit is a curved surface.
  4.   The measuring spoon according to any one of claims 1 to 3, wherein measuring portions having different sizes are provided on both sides of the handle.
JP2009085304A 2009-03-31 2009-03-31 Measuring spoon Active JP5593626B2 (en)

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Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH086748Y2 (en) * 1989-12-22 1996-02-28 重松 幸雄 Food can
JP3301982B2 (en) * 1998-12-28 2002-07-15 花王株式会社 Detergent goods
JP2001336965A (en) * 2000-05-29 2001-12-07 Kao Corp Measuring spoon for detergent
EP1730071A4 (en) * 2004-01-28 2009-01-28 Rjr Mfg Llc Device for dispensing media
CA2611964C (en) * 2005-06-27 2016-11-08 Glaxosmithkline Biologicals S.A. Process for manufacturing vaccines
JP2007278815A (en) * 2006-04-06 2007-10-25 Nitomuzu:Kk Assembly type measuring spoon
US7661310B2 (en) * 2006-04-07 2010-02-16 L'oreal Portion-taker device including a measuring scoop

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