Abstract: A filling device for a machine for filling containers, includes a spout having an outlet orifice and a feed orifice, and a feed duct connected to the feed orifice. A first actuating system is able to move a valve, which is mounted in the spout, between a closed position for closing the outlet orifice and at least one open position. A flow-regulating rod is mounted in a sliding manner in a hole in the feed duct and is able to be moved by a second actuating system between a high flow-rate position, in which the rod is located substantially outside the internal passage in the feed duct, and a low flow-rate position, in which the rod extends into the internal passage in order to reduce the passage cross section of the feed duct.

Abstract: Disclosed is an assembly (10) for fastening, with fluid connection, a mold bottom to a holder (12), in which the mold bottom, of principal axis (O), is able to be removably fastened to a plate (14) forming an interface between the mold bottom and the holder (12), the assembly (10) including at least one locking device and a fluid connection device, respectively placed between the plate (14) and the holder (12), characterized in that the movement of a first locking element (44) and a first connecting element (46) is coupled via a moveable part (88) so that together they form a moveable element.

Abstract: Disclosed is a blowing device (10) for forming containers (24) from thermoplastic material preforms. The device (10) includes a blowing nozzle (12) including a bottom outlet opening (28) for a pressurized blowing fluid to leave along a vertical outlet axis (28) and a single duct (14) for supplying the nozzle (12) with blowing fluid that leads into the nozzle (12), via a top supply opening (31), along an axis that is completely radial relative to the outlet axis (A2) of the nozzle (12). The blowing device is characterized in that the upstream end section of the supply duct (14) leads into the nozzle (12) along a branching axis (B) that forms an obtuse angle (a) with the outlet axis (A1) of the nozzle (12) such that the blowing fluid leaving the supply duct (14) is directed downward.

Abstract: A control system for controlling a machine for the temperature processing of containers for food products, having a movement element for moving containers to be processed on a movement path along which at least one temperature-processing zone is defined, the temperature-processing zone being divided into sub-zones each having a respective injection assembly for injecting processing fluid on the containers and a respective adjusting assembly for setting the temperature of the injected processing fluid. The control system is provided with a control unit coupled to the adjusting assemblies of the sub-zones for regulating the temperature of the processing fluid by performing a prediction of the output temperature of the containers located on the movement path based on a current operating condition of the machine and a past thermal trend for the containers, and controlling the adjusting assemblies based on the predicted output temperature.

Abstract: The invention relates to a method for manufacturing a container (2), by drawing and blowing in a mould (8), from a blank (3) made of plastic material, which includes the following operations: inserting the blank (3) in the mould (8); controlling the opening of a pre-blowing solenoid valve (17) at a predetermined pre-blowing rate (DP); measuring the current pressure (P) inside the blank (3); detecting an actual time (tA) for starting the pre-blowing step; calculating a time (tF) for ending the pre-blowing step such that: tF=tA+?t??, wherein: ?t is a predetermined time for opening the pre-blowing solenoid valve and ? is a predetermined constant; deducing therefrom an actual pressure (PF) at the end of the pre-blowing step; comparing said pressure to a theoretical pressure (Pth); and if said pressures are found to be non-identical, ordering a modification of the pre-blowing rate (DP).

Abstract: A member (22) for gripping vessels (16) includes: a support (32) that moves along a transport trajectory of the vessel (16); a nose (38) including a mandrel (40) capable of holding a neck (26) of the vessel (16), the nose (38) being fixed removably to a bottom axial end of the support (32); characterized in that the nose (38) includes an ejection plate (46) which is mounted to slide axially around the mandrel (40) between a cladding position towards which it is elastically returned and in which the mandrel (40) protrudes axially downwards and an uncladding position in which the mandrel (40) is axially retracted above a bottom face of the plate (46). A device for replacing such a gripping member is also described.

Abstract: A forming method, in a mold fitted with a wall forming a cavity, of a container from an intermediate container including at least one lateral protrusion projecting toward the exterior of the container. The method includes a boxing operation of pushing back the lateral protrusion in order to form, by turning it around an articulation zone, a hollow reserve projecting toward the interior of the container and a local cooling operation, after turning the protrusion over, of sweeping a circulation fluid over the articulation zone.

Abstract: A nozzle (10) for forming containers made of a thermoplastic material by injecting a pressurized fluid into a neck (14) of a preform (12), includes: a mounting (24) which is provided with an inlet pipe (36) for a pressurized fluid along a vertical axis (A); a nozzle tip (26) which axially extends the inlet pipe (36), and which can be sealingly coupled to the neck (14) of the preform (12) via at least one element (42, 44) matching the format of the neck (14); an element for removably attaching the nozzle tip (26) onto the mounting (24); and a stabilizing tube (106) resiliently biased toward the lower stop position thereof via a resilient member (116) that is permanently accommodated in the mounting.

Abstract: A device for transporting hollow bodies, includes: —at least one element for grasping a hollow body, the element including at least one cam follower (30A) made of an electrically conductive material; —at least one fixed cam (32) which is intended to engage with the cam follower (30A), the cam (32) being made of an electrically conductive material; —a contact layer (34) which is made of an electrically insulating material and is interposed between the cam (32) and the cam follower (30A); characterized in that the cam follower (30A) is connected to a first electrical signal (P1) whereas the cam (32) is connected to a second electrical signal (P2), a member (36) being positioned so as to detect electrical contact between the cam follower (30A) and the cam (32).

Abstract: A controlled valve fittings device (22) for an installation for the blow-molding of containers, includes: a low-pressure first valve (24A) which includes elements (58) for shutting off a low-pressure supply line (32); a high-pressure second valve (24B) which includes elements (58) for shutting off a high-pressure supply line (34); an exhaust third valve (24C) which includes elements (58) for shutting off an exhaust line (52); wherein each valve (24A, 24B, 24C) includes an individual actuator (60) and individual shut-off elements (58) which are controlled by the associated actuator (60) that makes them move between an open position and a shut-off position.

Abstract: Method for producing a vessel (2) by blowing in a mould (11) from a preform (3) made of plastic material, comprising the operations consisting in: introducing the preform (3) into the mould; at a predetermined moment, called pre-blowing cue (tP), controlling the opening of an electrovalve (22) for establishing a communication between the inside of the preform (3) and a source (20) of gas at a predetermined pre-blowing pressure; measuring the pressure (P) inside the preform (3); detecting the so-called real moment (tA), of the beginning of the pre-blowing, at which the (P) in the preform (3) starts to increase; comparing this moment (tA) with a theoretical pre-blowing beginning moment; if the real moment (tA) of the beginning of the pre-blowing follows the theoretical pre-blowing beginning moment, advance the pre-blowing cue (tP); if the real moment (tA) of the beginning of the pre-blowing precedes the theoretical pre-blowing beginning moment, delay the pre-blowing cue (tP).

Abstract: Process for manufacturing a container (2) from a plastic preform (3) by blow-molding in a mold (11), comprising: an operation of introducing the preform (3) into the mold (11); a blow-molding operation consisting of pressurizing the preform (3) by introducing a gas under a blow-molding pressure into it; a flushing operation subsequent to the blow-molding operation consisting of partially pressurizing the container (2) by introducing a gas under a flushing pressure lower than the blow-molding pressure into it; an operation of at least partial depressurization of the container down to a pressure lower than the flushing pressure, wherein this depressurization operation is subsequent to the blow-molding operation and prior to the flushing operation.

Abstract: A container of plastic material, having a body extending along a principal axis and a bottom in the extension of the body at a lower end thereof. The bottom has an annular seat defining a seating plane; and a conical arch that extends from near the seat towards the interior of the container to a central apex, the arch having in transverse cross-section a star-shaped profile inscribed between two circles, the ratio of the diameters of which is greater than or equal to 0.7.

Abstract: A container (1) made from a plastic material, provided with a body and with a bottom (6) extending from a lower end of the body, the bottom FIG.2 (6) comprising: a peripheral seat (7) defining a positioning plane (8);—a concave arch (10) that extends from a central zone (11) to the seat (7); and a series of main reinforcement grooves (13) that extend radially from the central zone (11) at least to the seat (7). The arch (10) has two concentric regions, i.e. a central region (15) and a peripheral region (16), separated by a median axial step (17) that extends annularly in a continuous manner around the central zone (11), such that the central region (15) is raised relative to the peripheral region (16).

Abstract: A device (10) for the manufacture of containers by blow moulding, includes:—a mould (12) equipped with a line for the circulation of a heat transfer fluid, having on an external face (34) of the mould (12) a heat transfer fluid inlet orifice (30) and a heat transfer fluid outlet orifice (32);—a mould carrier (20, 22) in which the mould (12) is removably mounted;—a plug (38) fitted with a duct (40) for conveying the heat transfer fluid and with a duct (42) for removing the heat transfer fluid, the plug (38) being mounted so that it can slide longitudinally on the mould carrier (20, 22) between a position of connection with the orifices (30, 32) of the mould (12) and a position of disconnection of the orifices of the mould, and elements for clamping the plug against the mould in the position of connection.

Abstract: A gripper (42) for gripping an object (14), intended for a transfer device includes two jaws (64, 66). Each of the jaws includes: a recess (92), and a first clamping portion (94) and a second locking portion (96). The first clamping portion (94) of each jaw (64, 66) of the gripper (42) includes a supporting surface and, when the gripper (42) is closed around an object (14) occupying a predetermined reference position, the supporting surface is intended to engage with a portion of a bearing surface of a radial collar of the object.

Abstract: A forming method, in a mold provided with a wall forming a cavity, of a container from a blank, which includes a boxing operation of pushing back the material of the blank by an insert movably mounted with respect to the wall of the mold between a retracted position in which the insert is retracted into the wall, and a deployed position in which the insert protrudes with respect to the wall, in order to form on the container, by pushing back, a hollow reserve projecting toward the interior of the container. Additionally, a local pressurization operation is performed, after formation of the hollow reserve, of injecting a pressurized fluid between the insert and the hollow reserve.

Abstract: The invention relates to an automatic automated installation in which at least one robot (2) is used in at least one mode of operation in at least one work zone (3). The installation comprises a closed space (1) equipped with at least one door (4) offering access to at least one operator intervention work station (6) which is situated in said work zone (3) of said robot, and means (7) for detecting the presence of an element (25; 26) in said closed space (1) at said operator intervention work station (6). The detection means (7) are arranged in said closed space (1) to delimit at least two zones (8, 9, 10) and are also associated with means (21) for control of said at least one mode of operation of the robot (2), each zone (8, 9, 10) being associated with one mode of operation of the robot (2). The detection means (7) are positioned a predetermined height from a floor (18) of said space (1), said height being greater than the height of an empty pallet (12).

Abstract: The support cooperates with the half-molds (2, 3) of a molding unit used to shape a container from thermoplastic material. This support comprises: a pedestal in the form of an actuating cylinder (11), the rod (12) of which is solidly connected to the mold base (1); and, between the rod (12) of the actuating cylinder (11) and the mold base (1), an assembly system (13) formed by a female part in the form of a nut (14) and of a male part in the form of a screw (15). The nut (14) is trapped at the end of the rod (12) of the actuating cylinder (11) and the screw (15) is associated directly or indirectly with the mold base (1). A system of shim(s) (40, 41) can be used to adjust the working stroke of the rod (12) of the actuating cylinder (11) as required.