The present invention relates to a fixed quantity discharge squeeze container, and in particular, relates to a fixed quantity discharge squeeze container to discharge content liquid from a discharge opening with squeeze deformation of a container body.
A squeeze container discharges specific quantity of content liquid from a discharge opening toward a discharge position owing to squeeze deformation of a container body by being squeezed (i.e., compressed) as a barrel portion of the plastic-made squeeze-deformable container body being held with a hand, for example. There has been developed a so-called fixed quantity discharge squeeze container devised to discharge constant quantity or approximately constant quantity of content liquid each time squeeze operation is repeated without variation of deformation quantity of the container occurring when the barrel portion of the container body is squeezed (see Patent Literature 1 and Patent Literature 2, for example).
A fixed quantity discharge squeeze container of Patent Literature 1 is provided with an abutment member inside a container body to restrict depression quantity of the container body. Squeeze deformation quantity of the container body is restricted within a specific range by abutting a depressing operating portion to the abutment member when squeeze deformation of the container body is performed, so that constant quantity of content liquid is discharged each time. Meanwhile, in a fixed quantity discharge squeeze container of Patent Literature 2, a cylindrical cover body covers an outer peripheral wall of a container body and a bridge portion capable of being flipped toward the outer peripheral wall of the container body is formed at the cylindrical cover body. Constant quantity of content liquid is discharged each time as the outer peripheral wall of the container body deforms by specific quantity with squeeze deformation by flipping of the bridge portion.
Patent Literature 1: JP 10-24950 A
Patent Literature 2: Japanese Patent No. 4074227
The present invention provides a fixed quantity discharge squeeze container which includes a plastic-made squeeze-deformable container body and which discharges specific quantity of content liquid from a discharge opening with squeeze deformation of the container body. The container body is provided with a squeeze operating portion between a shoulder portion and a bottom portion, the squeeze operating portion including a squeeze face portion arranged as being perpendicular to or approximately perpendicular to a squeeze direction, a pair of lateral support wall portions arranged along the squeeze direction at both side sections sandwiching the squeeze face portion, and inclined linking face portions which project the squeeze face portion to the direction opposite to the squeeze direction against the pair of lateral support wall portions as being arranged between the squeeze face portion and the lateral support wall portions respectively in an inclined manner. Each inclined linking face portion is arranged as being continued from the squeeze face portion and the lateral support wall portion via a joint edge line extending vertically. When a predetermined position of the squeeze face portion is compressed to the squeeze direction as being pressed with a finger, areas of the inclined linking face portions adjacent to the predetermined position expand the distance between the pair of lateral support wall portions of both sides at sections of the joint edge lines against the inclined linking face portions as deforming along the squeeze face portion from an inclined state against the squeeze face portion. After deformation completes as the expansion force vanishes, the inclined linking face portions are restricted so as not to be flipped in the squeeze direction side. Thus, variation of squeeze deformation quantity of the container body does not occur among repeated squeeze operations performed by pressing the predetermined position with the finger.
a) is a perspective view of a container body of a fixed quantity discharge squeeze container according to a first embodiment preferable for the present invention.
b) is a front view of the container body of the fixed quantity discharge squeeze container according to the first embodiment preferable for the present invention.
c) is a sectional view along A-A of
a) is an explanatory schematic sectional view illustrating a state of restricting squeeze deformation quantity of the container body at the time of squeeze operation of the fixed quantity discharge squeeze container according to the first embodiment preferable for the present invention.
b) is an explanatory schematic sectional view illustrating a state of restricting squeeze deformation quantity of the container body at the time of squeeze operation of the fixed quantity discharge squeeze container according to the first embodiment preferable for the present invention.
a) is a perspective view of a container body of a fixed quantity discharge squeeze container according to a second embodiment preferable for the present invention.
b) is a front view of the container body of the fixed quantity discharge squeeze container according to the second embodiment preferable for the present invention.
c) is a sectional view along B-B of
a) is an explanatory schematic sectional view illustrating a state of restricting squeeze deformation quantity of the container body at the time of squeeze operation of the fixed quantity discharge squeeze container according to the second embodiment preferable for the present invention.
b) is an explanatory schematic sectional view of illustrating a state of restricting squeeze deformation quantity of the container body at the time of squeeze operation of the fixed quantity discharge squeeze container according to the second embodiment preferable for the present invention.
a) is a perspective view of a container body of a fixed quantity discharge squeeze container according to a third embodiment preferable for the present invention.
b) is a front view of the container body of the fixed quantity discharge squeeze container according to the third embodiment preferable for the present invention.
c) is a sectional view along C-C of
a) is a perspective view of a container body of a fixed quantity discharge squeeze container according to a fourth embodiment preferable for the present invention.
b) is a front view of the container body of the fixed quantity discharge squeeze container according to the fourth embodiment preferable for the present invention.
c) is a sectional view along D-D of
a) is a perspective view of a container body of a fixed quantity discharge squeeze container according to a fifth embodiment preferable for the present invention.
b) is a front view of the container body of the fixed quantity discharge squeeze container according to the fifth embodiment preferable for the present invention.
c) is a sectional view along E-E of
The conventional fixed quantity discharge squeeze container described above is required to attach the abutment member to the inside of the container body or to attach the cylindrical cover member at which a bridge portion is formed covering the outer peripheral wall of the container body. Therefore, the structure becomes complicated and the cost of manufacturing increases. Accordingly, development of new technology has been desired which enables to discharge constant quantity of content liquid each time by restricting the squeeze deformation quantity of the container body to prevent occurrence of variation among repeated squeeze operations owing to devising of the shape of the container body without utilizing the abutment member or the cylindrical cover member.
The present invention relates to a fixed quantity discharge squeeze container which enables to discharge constant quantity of content liquid each time by restricting the squeeze deformation quantity of the container body to prevent occurrence of variation among repeated squeeze operations owing to devising of the shape of the container body.
The present invention provides a fixed quantity discharge squeeze container which includes a plastic-made squeeze-deformable container body and which discharges specific quantity of content liquid from a discharge opening with squeeze deformation of the container body. The container body is provided with a squeeze operating portion between a shoulder portion and a bottom portion, the squeeze operating portion including a squeeze face portion arranged as being perpendicular to or approximately perpendicular to a squeeze direction, a pair of lateral support wall portions arranged along the squeeze direction at both side sections sandwiching the squeeze face portion, and inclined linking face portions which project the squeeze face portion to the direction opposite to the squeeze direction against the pair of lateral support wall portions as being arranged between the squeeze face portion and the lateral support wall portions respectively in an inclined manner. Each inclined linking face portion is arranged as being continued from the squeeze face portion and the lateral support wall portion via a joint edge line extending vertically. When a predetermined position of the squeeze face portion is compressed to the squeeze direction as being pressed with a finger, areas of the inclined linking face portions adjacent to the predetermined position expand the distance between the pair of lateral side support wall portions of both sides at the joint edge lines against the inclined linking face portions as deforming along the squeeze face portion from an inclined state against the squeeze face portion. After deformation completes as the expansion force vanishes, the inclined linking face portions are restricted so as not to be flipped in the squeeze direction side. Thus, variation of squeeze deformation quantity of the container body does not occur among repeated squeeze operations performed by pressing the predetermined position with the finger.
A fixed quantity discharge squeeze container 10 according to a first embodiment preferable for the present invention as illustrated in
That is, the squeeze container 10 is a squeeze container which includes the plastic-made squeeze-deformable container body 11 and which discharges specific quantity of content liquid from the discharge opening with squeeze deformation of the container body 11. As illustrated in
The inclined linking face portions 18 are respectively arranged as being continued from the squeeze face portion 16 and the lateral support wall portion 17 via two joint edge lines 19, 20 extending vertically. When a predetermined position of the squeeze face portion 16 is compressed to the squeeze direction X as being pressed with a finger (see
Further in the first embodiment, the inclined linking face portions 18 have a ship-like front shape, while the joint edge lines 19, 20 at both sides are curved so that the width of the upper and lower end sections being adjacent to the shoulder portion 15 and the bottom portion 14 is narrowed and that the width is gradually extended toward the center section (see
Further in the first embodiment, a squeeze position guide portion 21 is formed as a concave portion caved in a round shape which guides the predetermined position to perform squeeze operation for constant quantity discharge with the finger. The squeeze position guide portion 21 is arranged at the center section of the squeeze face portion 16 and preferably at the position where the width of the squeeze face portion 16 is most narrowed (i.e., the width of the inclined linking face portion 18 is most extended).
In the first embodiment, the container body 11 is made of various types of synthetic resin known as being suitable for forming squeeze-deformable plastic container such as polyethylene terephthalate, polypropylene, high density polyethylene, and chloroethene, for example. The container body 11 is formed by blow molding, for example, into a hollow bottle shape including the bottom portion 14, the barrel portion 13, the shoulder portion 15, and the mouth neck portion 12. The container body 11 is formed such that the shoulder portion 15 and the mouth neck portion 12 at the upper end section and the bottom portion 14 at the lower end section are thicker than the barrel portion 13 and that the shoulder portion 15 and the bottom portion 14 are formed as being approximately quadrate in plane view. Accordingly, the approximately quadrate sectional shape at the top end section and the bottom end section is strongly and stably maintained.
In the first embodiment, the entire barrel portion 13 sandwiched between the shoulder portion 15 and the bottom portion 14 is to be the squeeze operating portion 13a having an approximately rectangular projected shape which is vertically long in view from the front face direction being the squeeze direction X (see
In the first embodiment, the barrel portion 13 is structured with the squeeze face portion 16, the pair of inclined linking face portions 18 arranged at both sides sandwiching the squeeze face portion 16, the pair of lateral support wall portions 17 arranged to be approximately perpendicular to the squeeze face portion 16 as being continued from the inclined linking face portions 18, and a back wall portion 22 arranged as facing to the squeeze face portion 16 to be approximately parallel thereto as integrally connecting the end sections of the pair of lateral support wall portions 17 at the opposite side to the inclined linking face portions 18.
The joint edge lines 19 between the inclined linking face portions 18 and the squeeze face portion 16 and the joint edge lines 20 between the inclined linking face portions 18 and the lateral support wall portions 17 are extended vertically between the shoulder portion 15 and the bottom portion 14 respectively in a curved state so that the inclined linking face portions 18 have a ship-like front shape as mentioned above. Corner portion joint edge lines 23 between the pair of the lateral support wall portions 17 and the back wall portion 22 are edge lines having approximately an arc sectional shape of quarter round extended vertically between the shoulder portion 15 and the bottom portion 14 respectively with larger curvature than that of the joint edge lines 19, 20 between the inclined linking face portions 18 and the squeeze face portion 16 and the lateral support wall portions 17.
With the above structure, at the back face side, the cross-sectional shape of the barrel portion 13 except for the sections of the upper end and the lower end is shaped as the pair of the lateral support wall portions 17 being jointed with the back wall portion 22 via the corner portion joint edge lines 23 as being approximately perpendicular as illustrated in
According to the fixed quantity discharge squeeze container 10 of the first embodiment having the above structure, compressing force is to be applied to the squeeze face portion 16 as pressing the concave squeeze position guide portion 21 with a thumb, for example, in a state that the discharge opening is oriented toward the discharge position after the container 10 is tilted or inverted by holding the barrel portion 13 of the container body 11 in order to discharge constant quantity of content liquid with squeeze deformation of the container body 11. Accordingly, as illustrated in
In the first embodiment, when the inclined linking face portions 18 deform by a position being approximately parallel to the squeeze face portion 16, the inclined linking face portions 18 cannot expand the distance between the pair of lateral support wall portions 17 any more as the section having sectional isosceles trapezoid shape formed with the pair of inclined linking face portions 18 and the squeeze face portion 16 is fully stretched to be flat, as illustrated in
According to the fixed quantity discharge squeeze container 10 of the first embodiment, constant quantity of content liquid can be discharged by restricting the squeeze deformation quantity of the container body 11 so that variation does not occur among repeated squeeze operations owing to devising of only the shape of the container body 11.
a) to 3(c) illustrate a container body 31 of a fixed quantity discharge squeeze container 30 according to a second embodiment preferable for the present invention. According to the second embodiment, the container body 31 is made of synthetic resin and is formed into a hollow bottle shape including a barrel portion 33, a bottom portion 34, a shoulder portion 35, and a mouth neck portion 32 as being similar to the container body 11 of the fixed quantity discharge squeeze container 10 of the above first embodiment. In the second embodiment, the thin barrel portion 33 sandwiched between the thick shoulder portion 35 and bottom portion 34 as a whole is to be a squeeze operating portion 33a having an approximately rectangular projected shape which is vertically long in view from the front face direction being a squeeze direction X (see
In the second embodiment, a pair of segments structuring the barrel portion 33, each including a squeeze face portion 36 arranged as being perpendicular to or approximately perpendicular to the squeeze direction X and inclined linking face portions 38 arranged at both sides thereof, is arranged in an opposed manner at front face portions (i.e., a front face portion and a back face portion) of both front and back sides sandwiching a pair of lateral support wall portions 37.
That is, in the second embodiment, the thick shoulder portion 35 and bottom portion 34 are respectively formed to have an approximately hexagonal plane shape in view from the upper side and lower side, so that the approximately hexagonal sectional shape at the upper end section and lower end section of the barrel portion 33 is strongly and stably maintained. The squeeze face portions 36 at front face portions of both front and back sides of the thin barrel portions 33 have a ship-like front shape and joint edge lines 39 respectively between the squeeze face portion 36 and the inclined linking face portions 38 at both sides are extended vertically between the shoulder portion 35 and the bottom portion 34 in a curved state. Further, joint edge lines 40 respectively between the pair of lateral support wall portions 37 and the inclined linking face portions 38 at both sides of the squeeze face portion 36 are extended vertically in a linear state between the shoulder portion 35 and the bottom portion 34.
With the above structure, as illustrated in
According to the fixed quantity discharge squeeze container 30 of the second embodiment having the above structure, compressing force is to be applied to the squeeze face portion 36 of both front and back sides by sandwiching from both sides (see
As illustrated in
a) to 5(c) illustrate a container body 51 of a fixed quantity discharge squeeze container 50 according to a third embodiment preferable for the present invention. According to the third embodiment, the container body 51 is made of synthetic resin and is formed into a hollow bottle shape including a barrel portion 53, a bottom portion 54, a shoulder portion 55, and a mouth neck portion 52 as being similar to the container body 11 of the fixed quantity discharge squeeze container 10 of the above first embodiment. In the third embodiment, the thin barrel portion 53 sandwiched between the thick shoulder portion 55 and bottom portion 54 as a whole is to be a squeeze operating portion 53a having an approximately rectangular projected shape which is vertically long in view from the front face direction being a squeeze direction X (see
In the third embodiment, a pair of segments structuring the barrel portion 53, each including a squeeze face portion 56 arranged as being perpendicular to or approximately perpendicular to the squeeze direction X and inclined linking face portions 58 arranged at both sides thereof, is arranged in an opposed manner at front face portions (i.e., a front face portion and a back face portion) of both front and back sides as sandwiching a pair of lateral support wall portions 57.
That is, in the third embodiment, the thick shoulder portion 55 and bottom portion 54 are respectively formed to have an approximately square plane shape in view from the upper side and lower side, so that the approximately square sectional shape at the upper end section and lower end section of the barrel portion 53 is strongly and stably maintained. The inclined linking face portions 58 at both sides of the squeeze face portions 56 at front face portions of both front and back sides of the of the thin barrel portions 53 have a ship-like front shape and joint edge lines 59, 60 respectively between the inclined linking face portions 58 and the squeeze face portions 56 and lateral support wall portions 57 are extended vertically in a curved state between the shoulder portion 55 and the bottom portion 54.
With the above structure, as illustrated in
According to the fixed quantity discharge squeeze container 50 of the third embodiment having the above structure, compressing force is to be applied to the squeeze face portion 56 of both front and back sides by sandwiching from both sides as pressing concave squeeze position guide portions 61 with a thumb and an index finger, for example. Then, squeeze deformation of the container body 51 is performed with constant deformation quantity at any time. Thus, the fixed quantity discharge squeeze container 50 of the third embodiment can obtain similar operational effects to the fixed quantity discharge squeeze container 10 of the first embodiment.
a) to 6(c) illustrate a container body 71 of a fixed quantity discharge squeeze container 70 according to a fourth embodiment preferable for the present invention. According to the fourth embodiment, the container body 71 is made of synthetic resin and is formed into a hollow bottle shape including a barrel portion 73, a bottom portion 74, a shoulder portion 75, and a mouth neck portion 72 as being similar to the container body 11 of the fixed quantity discharge squeeze container 10 of the above first embodiment. In the fourth embodiment, a section between an upper cylindrical portion 73b and a lower cylindrical portion 73c within the thin barrel portion 73 sandwiched between the thick shoulder portion 75 and bottom portion 74 is to be a squeeze operating portion 73a (see
In the fourth embodiment, a pair of segments structuring the squeeze operating portion 73a of the barrel portion 73, each including a squeeze face portion 76 arranged as being perpendicular to or approximately perpendicular to the squeeze direction X and inclined linking face portions 78 arranged at both sides thereof, is arranged in an opposed manner at front face portions (i.e., a front face portion and a back face portion) of both front and back sides as sandwiching a pair of lateral support wall portions 77.
That is, in the fourth embodiment, the thick shoulder portion 75 and bottom portion 74 are respectively formed to have a circulate plane shape in view from the upper side and lower side, so that the circulate sectional shape at the upper cylindrical portion 73b and lower cylindrical portion 73c of the barrel portion 73 is strongly and stably maintained. The sectional shape of the squeeze operating portion 73a which is between the upper cylindrical portion 73b and the lower cylindrical portion 73c of the thin barrel portion 73 is to be an approximately octagonal shape as a whole as the squeeze face portion 76 of front face portions in both front and back side is shaped to be an isosceles trapezoid shape protruded in the direction opposite to the squeeze direction X against the lateral support wall portions 77 via the linear shaped pairs of joint edge lines 79 and inclined linking face portions 78 at both sides (see
According to the fixed quantity discharge squeeze container 70 of the fourth embodiment having the above structure, compressing force is to be applied to the squeeze face portion 76 of both front and back sides by sandwiching from both sides as pressing a squeeze position guide portions 81 with a thumb and an index finger, for example. Then, squeeze deformation of the container body 71 is performed with constant deformation quantity at any time. Thus, the fixed quantity discharge squeeze container 70 of the fourth embodiment can obtain similar operational effects to the fixed quantity discharge squeeze container 10 of the first embodiment.
a) to 7(c) illustrate a container body 91 of a fixed quantity discharge squeeze container 90 according to a fifth embodiment preferable for the present invention. According to the fifth embodiment, the container body 91 is made of synthetic resin and is formed into a hollow bottle shape including a barrel portion 93, a bottom portion 94, a shoulder portion 95, and a mouth neck portion 92 as similar to the container body 11 of the fixed quantity discharge squeeze container 10 of the above first embodiment. In the fifth embodiment, approximately an upper one third part of the thin barrel portion 93 sandwiched between the thick shoulder portion 95 and bottom portion 94 is to be a squeeze operating portion 93a (see
In the fifth embodiment, the squeeze operating portion 93a of the barrel portion 93 is structured with a squeeze face portion 96, a pair of inclined linking face portions 98 arranged at both sides sandwiching the squeeze face portion 96, a pair of lateral support wall portions 97 arranged as being continued to the inclined linking face portions 98 and on a face approximately being perpendicular to the squeeze face portion 96, and an arc-shaped back wall portion 102 which is arranged opposing to the squeeze face portion 96 integrally connecting the end sections of the pair of lateral support wall portions 97 at the opposite side to the inclined linking face portions 98.
That is, in the fifth embodiment, the thick shoulder portion 95 is formed to have an approximately half oval shape at the back face side and an approximately isosceles mountain shape at the front face side in view from the upper side and the bottom portion 94 is formed to have a circular plane shape in view from the lower side. The thin barrel portion 93 is formed to have approximately two thirds of the lower section being an approximately cylindrical shape. Further, at the back face side, the squeeze operating portion 93a being approximately the upper one third section of the barrel portion 93 has a cross-sectional shape as an approximately half oval shape formed as the pair of lateral support wall portion 97 and the back wall portion 102 continued, as illustrated in
According to the fixed quantity discharge squeeze container 90 of the fifth embodiment having the above structure, compressing force is to be applied to the squeeze face portion 96 by pressing with a thumb, for example. Then, squeeze deformation of the container body 91 is performed with constant deformation quantity at any time. Thus, the fixed quantity discharge squeeze container 90 of the fifth embodiment can obtain similar operational effects to the fixed quantity discharge squeeze container 10 of the first embodiment.
Here, not limited to the above embodiments, the present invention may be modified variously. For example, a squeeze position guide portion is not necessarily arranged at a squeeze surface portion. Here, a position to perform squeeze operation with a finger may be indicated by modifying the surface of the container to be rough as partially modifying roughness of a mold surface or by printing, and the like. Further, the position to arrange the squeeze position guide portion and the position to perform squeeze operation are not necessarily required to be the center section of the squeeze face portion. Instead, squeeze operation may be performed with compressing at an arbitrary position of the squeeze face portion to compress. Furthermore, the discharge quantity of the content liquid to be constant quantity discharged with the squeeze operation may be appropriately adjusted by selecting a squeezing position.
According to the fixed quantity discharge squeeze container of the present invention, constant quantity of content liquid can be discharged by restricting the squeeze deformation quantity of the container body to prevent occurrence of variation among repeated squeeze operations owing to devising of only the shape of the container body.
Number | Date | Country | Kind |
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2009-264013 | Nov 2009 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2010/070172 | 11/12/2010 | WO | 00 | 7/12/2012 |