The present invention concerns a multi-flow cap which comprises: a main body with means for connecting to the neck of a recipient two flow outlet openings of unequal sizes, such that they define a large opening and a small opening.

To provide an improved multi-flow cap which also reduces or minimizes spurting of the fluid contained in the recipient, it is proposed according to the invention that the two openings of the multi-flow cap are comprised in an insert connected to the main body and in that the insert additionally comprises a plurality of baffles distributed along an inner perimeter and arranged such that each opening is partially coincident with at least one baffle in the outlet direction of the flow.

A resealable, tamper-evident, low cost plug for an edible oil (or other foodstuffs) container is contemplated. The plug includes a single-piece, hinged construction with the base panel having a removable diaphragm revealing an opening that is sealed by structure provided on the hinged panel. Smooth pouring features may also be incorporated within and/or beneath the opening.

A plastic screw cap (100) for large containers, comprises a cylindrical outer jacket (1) having a first internal thread (2) of larger diameter and a head plate (3), which at least partially closes the outer jacket (1) at an axial end, wherein the head plate has an opening (4), which accommodates a removal sleeve (20) having an approximately cylindrical inner jacket having a second internal thread (12) of smaller diameter, which inner jacket protrudes into the interior of the outer jacket, wherein the head plate (3) and the removal sleeve (20) are integrally joined to each other. In order to provide caps of the same functionality that can be produced more simply, the outer jacket (1), according to the invention, together with the head plate (3) on the one hand and the removal sleeve (20) together with the internal thread (2) on the other hand are produced separately from each other by injection molding and are joined to each other fixedly and tightly by welding in order to form the complete screw cap (100).

A plastic container product, in particular produced by a blow molding, filling and sealing method, comprising a container body (10) having a content of the container and an adjoining head part (12) which delimits an extraction area (14), which is closed by a head membrane (16), which has a connecting seam (38), which passes through a plane (20) spanned by the head membrane (16) and separates at least two penetrable areas (22, 24) on the free end face (26) of the head membrane (16) from each other for extracting the content of the containers, characterized in that the connecting seam (38) seen on the free end face (26) of the head membrane (16) has a course of the seam (36) at least partially deviating from a fictitious rectilinear course (32) extending within this plane (20), which is longer than the rectilinear course (32) and at least partially comprises the penetrable areas (22, 24).

A one-piece drink-through cup lid with a straw section includes a conic section and a detachable tube section. The conic section is axially protruding at a center of the cup lid and forming a rim at a top surface of the conic section. The detachable tube section is axially protruding from the rim of the conic section with a closed surface at a top thereof and an annular tear line at a bottom periphery thereof. The conic section and the tube section are formed in one-piece to ensure the cup lid is fully closed and sealed for practical use, and when the tube section is removed by manually tearing along the tear line, a through hole is formed at a top of the conic section so as to form a conic straw section for easily consuming the drink.

A fitment (20, 20A) is provided for a flexible, collapsible container (22) with an opening. The fitment (20, 20A) has a body (24, 24A) with an inner end (31) and an outer end (32) and an access passage (30) for communicating with an interior of the container (22). The body (24, 24A) has a height defined between the inner end (31) and outer end (32). The body (24, 24A) has a sealing portion (36, 36A) for being attached to the interior of the container (22). The sealing portion (36) has a major dimension (MD) oriented generally transverse of the height of the body (24, 24A). The fitment (20, 20A) further has a pour lip (46, 46A) that extends from the body outer end (32) and projects laterally relative to the access passage (30). The pour lip (46, 46A) defines a pour path (PP).

Pouring closure for liquid containers with pour spout sealingly fixed to a container neck, the cross section of which is closed by a membrane before use. A portion of the membrane extends transversely, approximately pear-shaped, and connected to the remaining portion via an easily tearable line of weakness and can be detached from the membrane. After detachment, an opening in the membrane is released that is correspondingly pear-shape, and liquid poured selectively out of a relatively narrower section or wider section. The pouring closure is produced by tearing out a membrane section and facilitates dosed pouring. Webs on the inner surface at a close distance parallel to the line of weakness and outside the tear-out section run on both sides of the narrow section of the tear-out portion or of the opening and along at least a portion of a transition region between the narrower and the wider sections.

A synthetic resin container lid (2) has a shape including a body (4), which is mounted on a mouth-neck portion (56) of a container by locking a locking means (26) to a locked means (58) of the mouth-neck portion (56), and an upper lid (6) coupled to the body (4) via a hinge means (32). The synthetic resin container lid (2) is improved so that the entire container lid (2) is fully and easily detached from the mouth-neck portion of the container.

The axial depth of an annular or arcuate groove (46) formed in a hanging wall (10) of the body (4) and extending in a circumferential direction is changed as required. At least in a second break region (B) and a third break region (C), a circumferential breakable line (53) extending continuously in the circumferential direction along an axially lower end part of the groove (46) is formed in the hanging wall (10).

Provided are a spout stopper that prevents a decrease in sealing performance to a cap without deterioration of liquid-shutting-off performance of a stopper body, and a packaging container using the spout stopper. The spout stopper includes: a stopper body including a cylindrical side wall; and a cap to be mounted from an upper end side that is one end of the side wall. A projection is formed at an upper end edge of the side wall so as to project outward from the side wall, and a top surface at an upper end of the side wall is in surface contact with a predetermined contact surface inside a cap over an entire circumference thereof in a state where the cap is mounted on the side wall.

A plastic screw cap (100) for large containers, comprises a cylindrical outer jacket (1) having a first internal thread (2) of larger diameter and a head plate (3), which at least partially closes the outer jacket (1) at an axial end, wherein the head plate has an opening (4), which accommodates a removal sleeve (20) having an approximately cylindrical inner jacket having a second internal thread (12) of smaller diameter, which inner jacket protrudes into the interior of the outer jacket, wherein the head plate (3) and the removal sleeve (20) are integrally joined to each other. In order to provide caps of the same functionality that can be produced more simply, the outer jacket (1), according to the invention, together with the head plate (3) on the one hand and the removal sleeve (20) together with the internal thread (2) on the other hand are produced separately from each other by injection molding and are joined to each other fixedly and tightly by welding in order to form the complete screw cap (100).