A modular system for blow molding a container. The system may include a first portion, a second portion, and a third portion. The first portion and second portion may each include a shell, a mold removably coupled to the shell, and a top plate. The third portion may include a base and a base mold. The molds may be 3D printed. The molds together may define a blow mold cavity. The modular system may be used at lab scale, pilot scale, or full production scale. The molds may be durable and smooth enough for full production scale. Some embodiments are directed to methods for making a modular system for blow molding a container.

A method of making a bottle (1) made of at least one thermoplastic polymer of at least one FuranDiCarboxylic Acid (FDCA) monomer and at least one diol monomer, comprising the steps of: providing a preform, placing the preform in a mold, blowing the preform to form the bottle (1) comprising an envelop (2) defining a housing, wherein, at the step of blowing the preform, the mold is heated at a temperature greater than or equal to 50 C., preferably comprised between 50 C. and 100 C., more preferably between 65 C. and 85 C.

Apparatus (1) for reshaping plastic preforms (10) into plastic containers (20) has a blow moulding device (14) which has at least two side parts (14a, 14b) and a base mould (14c) which form a hollow space inside which the plastic preforms (10) are reshaped into the plastic containers (20), wherein the apparatus has a changing device (40) which is suitable and intended either to remove the complete blow moulding device (14) or only parts (14a, 14b, 14c) of the blow moulding device (14) from the blow mould supports (16) thereof and/or to arrange them on the blow mould supports (16), wherein the base mould (14c) is arranged on a base mounting (19), and in a changing mode, through a lifting movement (H) and in particular a lifting and/or lowering of the base mounting (19), the base mould (14c) can be connected to the base mounting (19) or can be disconnected from the base mounting (19), and between the base mounting (19) and the base mould (14c) at least one first disconnectable media connection (21) is provided, by means of which a flowable medium can be supplied to the base mould (14c) and/or by means of which the flowable medium can be discharged from the base mould (14c). According to the invention the media connection (21) between the base mounting (19) and the base mould (14c) can also be made and/or can be broken by the lifting and/or lowering of the base mounting (19).

Apparatus (1) for transforming plastic preforms (10) to form plastic containers (20) with a plurality of blow moulding stations (8), wherein these blow moulding stations (8) each have a blow moulding device (14) which consists of two blow mould halves and a base mould, and wherein the blow moulding device in each case forms a cavity inside which the plastic preforms (10) can be transformed to form the plastic containers (20), and which is releasably arranged indirectly or directly on blow mould supports (16), wherein each blow moulding device has at least one temperature control device (30) with at least one electrical heating element (32) for temperature control of at least some regions of the blow moulding device (14). According to the invention the apparatus (1) has at least one electrical connection (34) which can be automatically released and/or automatically made between at least one electrical heating element (32) and the blow moulding station (8).

A construction that prevents liquid from dripping from a nozzle and adhering to a product when the nozzle is separated from a mouth of the product after liquid-blow molding. A preform includes a mouth, a body, and a neck support portion, and is provided with a step surface on an inner peripheral face adjacent to the neck support part. A liquid blow molding apparatus includes a nozzle that is inserted in the mouth of the preform, a pressurized liquid-supply unit that supplies pressurized liquid to the nozzle, and a sealing member that is formed in a cylinder and fits on an outer peripheral face of the nozzle abuts the step surface, in an axial direction, when the nozzle is inserted in the mouth of the preform to seal the gap between the nozzle and the inner peripheral face of the preform.

A Molding unit for the forming of a container includes: a mold provided with a side wall defining a cavity bearing the impression of a portion of the container; an insert having a frontal surface bearing the impression of a local portion of the container, movable between a retracted position and a deployed position, with this insert being penetrated by ducts; a pierced piston to which the insert is attached and which ensures the mobility of the latter between its retracted position and its deployed position; and at least one pierced screw by which the insert is attached to the piston.

A heat-insulating transparent PVC sheet is formed from a PVC substrate having a thickness of 0.02-2.0 mm and contains heat-insulation pastes evenly distributed over the PVC substrate, since the heat-insulation paste contains an essential component of wolfram cesium powder (WCs) with a chemical formula of Cs.sub.XN.sub.YWO.sub.3-ZCl.sub.C and having a particle size of 0.005-2 m, the heat-insulating transparent PVC sheet has an excellent weatherability, and particularly before and after tested in 300-hour service life in line with ASTM G-154 specification, has a physical property of weatherability decay rate (%) small than 4%.

A method of manufacturing a pressure container including an in-mold label and a three-dimensional (3D) portion includes heating molds with a 3D groove formed therein to correspond to a 3D portion to be formed on a surface of the pressure container, separating the molds, attaching a label to an internal surface of the molds to allow at least a portion of the label to cover the 3D groove, positioning a pre-form of the pressure container in a cavity of the molds, closing the molds and injecting air into the pre-form at pressure in a specific range through a first route in a specific pressure range and expanding the pre-form, and three-dimensionally deforming a label attached to a surface of the pre-form to correspond to the 3D groove by air pressure along with the surface of the expanded pre-form while the expanded pre-form and the label are attached.

The invention relates to a method for assisting in the programming of an electronic control unit of a forming station comprising molding units, each of which has an interchangeable mold, the method comprising a manual programming step consisting in selecting a value for determined operating parameters through a data entry interface in the electronic control unit, wherein each mold has fastened thereto a storage component having values compatible with each mold for each determined parameter, is attached to said mold, the method comprising a prior step of reading the values stored in the storage component by means of a reader which automatically transmits the values to the electronic control unit to limit the choice of values of each parameter to the compatible values.

Apparatus (1) for transforming plastic parisons (10) to plastic containers (20) with a transport device (2) which transports the plastic parisons (10) along a predetermined transport path, wherein the transport device (2) has a movable station support (12) arranged at least indirectly on a stationary base support (6) on which a plurality of transforming stations (8) is arranged, wherein these transforming stations (8) each have blow mould devices (14) which each form cavities within which the plastic parisons (10) can be transformed into the plastic containers (20) and these blow mould devices (14) are each disposed on blow mould supports (16), wherein the apparatus (1) has a changing device (40) which is suitable and intended at least to remove the blow moulding devices (14) from their blow mould supports (16) and/or to arrange blow moulding devices (14) on the blow mould supports (16), wherein this changing device (40) has at least one gripping device for gripping the blow moulding device (14), wherein the gripping device is suitable for selectively changing a complete blow moulding device (14) or only parts (14a, 14b, 14c) of the blow moulding device (14), wherein the reshaping station (8) and in particular the blow moulding device (14) has at least one channel (60) for conveying a flowable medium as well as at least one coupling device (62) which can be separated from the channel (60). According to the invention the changing device (40) is suitable and intended to separate and/or to connect the coupling device (62) and/or to break and/or to make a flow connection between the channel (60) and the coupling device (62).