A foam dispensing cap includes a cap body having a ceiling wall and a cylindrical side wall, and a partition member. An ejection pipe is erected on the upper surface of the ceiling wall. An air chamber is in the space below the ceiling wall. A liquid entry opening is in the partition member. In the air chamber, an air passage for flowing air within the air chamber and a liquid flow path for flowing the content liquid, which has passed through the partition wall and entered the air chamber, communicate with each other. The air passage and the liquid flow path are formed to merge, and a region ranging from the point of merging to the ejection pipe defines an air-liquid mixture flow path. When the squeeze container is tilted and squeezed, the content liquid is ejected in a foamy state from the leading end of the ejection pipe.

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 food arrangement with at least one receptacle which is filled with a liquid, sterile food; a connector, which is introduced into the receptacle and has a pierced membrane arranged in a filler neck; and a tamper-evident seal, which is connected to the connector and closes the filler neck. A sterile food arrangement is thus made available, without the need for final autoclaving of the entire filled receptacle.

A container 10 for mixing and dispensing of material having a liquid receptacle 14 and a plunger 18. The receptacle 14 has a front portion 36 and the plunger 18 has a forwardly projecting sharp protrusion 42 having a shaft 72 which terminates in a sharp outer end 78, 82. Upon the plunger 18 being depressed the sharp protrusion 42 pierces a front portion 36 of the liquid receptacle 14 and the liquid in the receptacle 14 is pushed hydraulically through the front portion 36 into the main chamber 17. Thus the liquid contacts material in the main chamber 17 to form a mixture. The plunger 18 can continue to be depressed so as to break the front portion 36 of the liquid receptacle 14 away and then push the material in the main chamber 17 towards a dispensing nozzle 26. The main chamber 17 has a frangible membrane 22 at a distal end 13 thereof which is hydraulically broken by pressure applied from the material in the main chamber 17 so that the material can be dispensed from the container 10. The container 10 is particularly envisaged for use with mixing and dispensing of dental materials.

The present invention provides a cup lid that utilizes fracturing lines to form a novel drinking spout, a cover piece, and a connection part. These fracturing lines include a press-down fracturing line defines a press-down part and a raised fracturing line defines a raised part. The press-down part and the raised part have an overlap area due to the width difference, and the press-down part and the raised part open in opposite. The press-down part and the raised part are transformed as the cover piece and the overlapped area as a connection part. The cover piece can be fixed on the cup plate by using their width difference or clamp structure.

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).

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 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.

Provided is a liquid storage bottle that can ensure sufficient sealing performance when a liquid tank is replenished with a liquid. A liquid storage bottle stores a liquid with which a liquid tank is replenished, has a bottle body and a discharge port that discharges a liquid stored in the bottle body, and has a discharge nozzle in which a liquid injection tube of the liquid tank can be inserted via the discharge port and an annular fixed seal member that is provided to the discharge port and seals a part between the discharge port and the liquid injection tube inserted in the discharge port. The fixed seal member has a plurality of annular seal portions that are arranged apart from each other in the axis direction of a discharge nozzle and are individually in contact with the liquid injection tube inserted in the discharge port.

A plastic container product, particularly produced according to a blow-moulding, filling and sealing method, includes a container body having a container content and a head part (12) connected to the container body. The head part defines a removal region (14) closed by a head membrane (16) with joint seam (38) that passes through a surface (20) spanned by the head membrane (16) and that separates at least two penetrable regions (22, 24) on the free front side (26) of the head membrane (16), for the removal of the content. The joint seam (38), observed from the free front side (26) of the head membrane (16), has a seam line (36) that at least partially deviates from an imaginary straight line (32), extends inside the surface (20), is longer than the straight line (32) and at least partially encompasses the penetrable regions (22, 24).