A multilayer, metallized, laminate film employed to form in-mold labels, includes first and second multilayer structures adhesively bonded together. The first multilayer structure (12) includes a polymer core layer (16) and first and second outer polymer layers on opposed sides of the core layer. The first outer polymer layer (18) includes a metal layer (22) thereon, and the second polymer layer (20) having an outer matte surface that is adapted, in the in-mold label formed from laminate film, to engage and bond to a molded article. The second multilayer structure (14) is a clear structure including a core layer (16) and first (18) and second (20) outer polymer layers on opposed sides of the core layer. The bonded interface of the first and second multilayer structures is free of any printed indicia or other graphics. Preferably both outer surfaces of the film are bottom outer layers and include matte surfaces. A label in accordance with this invention is formed from the above-described laminate film by printing an outer surface of the film either before or after the film/label is printed.

A molded article comprising a container top is disclosed. The molded article includes a threadless frame defining an opening, a flip cap located substantially coplanar with, and integrally formed with, the frame, a compound hinge between the frame and the flip cap, the hinge allowing the flip cap to rotate about the hinge to rest on top of the frame, an in-mold lidding film having a perimeter molded to the frame such that the in-mold lidding film covers the opening defined by the frame, wherein the in-mold lidding film is removable from the frame, and a pull tab, formed from the in-mold lidding film, that extends past the opening defined by the frame.

A method for molding a molded product that includes a first molded part, a second molded part, and a label having a rear side provided on the first molded part, a front side opposite to the rear side, the front side having a peripheral border. The second molded part has an overlapping portion which overlaps the front side of the label only on the peripheral border.

A molded article comprising a container top is disclosed. The molded article includes a threadless frame defining an opening, a flip cap located substantially coplanar with, and integrally formed with, the frame, a compound hinge between the frame and the flip cap, the hinge allowing the flip cap to rotate about the hinge to rest on top of the frame, an in-mold lidding film having a perimeter molded to the frame such that the in-mold lidding film covers the opening defined by the frame, wherein the in-mold lidding film is removable from the frame, and a pull tab, formed from the in-mold lidding film, that extends past the opening defined by the frame.

A molded product that includes a first molded part, a second molded part, and a label having a rear side provided on the first molded part, a front side opposite to the rear side, the front side having a peripheral border. The second molded part has an overlapping portion which overlaps the front side of the label only on the peripheral border.

The present invention achieves cost reduction by simplifying the manufacturing process for a film-formed molded product provided with a metal coating film capable of transmitting electromagnetic waves therethrough. This method for manufacturing a film-formed molded product which includes a molded product and a metal coating film covering the molded product comprises: forming the molded product between a movable mold and a fixed mold; and then forming the metal coating film which covers the molded product by a film-forming part of a second mold without taking the molded product out from between the movable mold and the fixed mold. The metal coating film is capable of transmitting electromagnetic waves therethrough as a result of generation of cracks after being formed.

The present invention relates to a biological sample preservation tube with an identification code, wherein an information element which records the sample information is fused integrally with the bottom wall and/or side walls during molding the preservation tube, the preservation tube is suitable for the preservation of a biological sample at low temperature and can ensure the effectiveness and stability at low temperature; and at the same time also relates to a method for manufacturing the biological sample preservation tube, wherein the preservation tube is molded by a one-step process, without an additional secondary processes for manufacturing the identification code, the method improves the production efficiency, reduces the production cost, employs multi-point symmetrical feeding, and has good quality and stability of the product, so that the method is of great significance as it opens up a new idea for developing and producing the similar product in the industry, especially the small-sized preservation tube with an identification code.

Methods for producing a dispenser for dispensable products are disclosed. The method includes attaching a label to the front plate of the dispenser by an in-mold process. The label has a label height (H2) that is less than the front plate height (H1) and label width (W2) that is less than the front plate width (W1) such that a border is formed around at least a portion of the label in the front plate. The front plate can be formed from a transparent material while the label is formed from an opaque material.

A method for forming a container having an injection-molded feature. The method includes obtaining a blank, forming the blank into a three-dimensional article having at least one sidewall, and forming the injection-molded feature extending around the perimeter of the article. The injection-molded feature comprises an anchor portion and a flange portion. The anchor portion is in contact with an interior surface of the at least one sidewall and the flange portion extends from the anchor portion outwardly from the at least one sidewall.

A transfer device with unrolling device, intended for providing a label handling system in an IML machine (In Mould Labelling) with IML labels. The transfer device comprises at least four holders, which are movable between a first and a second position, wherein the first position has a first predetermined relationship between the four or several holders regarding the distance in the X-direction. The holders are intended for retrieval of IML labels from the unrolling device, which comprises a label web, the length of which extends in the Y-direction, with partially stamped out labels, connected to the web with micro connections. The second position has a second predetermined relationship between the four or several holders regarding distance in the X-direction. The holders are intended to deliver the IML labels to the label handling system. The unrolling device comprises adjustment means to make possible the retrieval of labels in the Y-direction, so that the distance in the Y-direction between delivered labels has a different distance in the Y-direction than between two adjacent labels in the web. Further, a method of providing an IML machine with IML labels.