Subject matter described in this disclosure relates to a label applicator for varied surfaces. In some instances, the label applicator may include one or more elements that may adjust to individual package properties and may adjust from one package to the next. For example, in one aspect the label applicator may include a label-retaining surface that is nonlinear. In other examples, the label applicator may include a force attenuator that dampens compressive forces between the label applicator and the package. In a further example, the label applicator may include an articulating joint that permits pivotable adjustment when a label applicator contacts a package. In yet another example, the label applicator may include a magnetic coupling attaching the label applicator to an actuator to provide a breakaway and reattachment mechanism.

The invention relates to a container handling machine (1) having at least one operative unit (18) comprising first support means (21) to support a base (12) of a filled and closed container (3), second support means (24) cooperating with an end (17) of the container (3) opposite the base (12), a plunger (31) selectively moved along its axis (E) to perform a deformation operation on the base (12) of the container (3) from a first swollen configuration to a second inwardly-retracted configuration, and actuator means (35) selectively activated to move the plunger (31) along its axis (E) between a first position, detached from the base (12) of the container (3), and a second position, in which the plunger (31) defines the second configuration of the base (12); the machine (1) further comprises a control unit (41) configured to selectively activate the actuator means (35) for moving the plunger (31) along its axis (E); the second support means (24) are maintained at a constant distance from the first support means (21) during the deformation operation; the control unit (41) comprises measuring means (42) for measuring the maximum deforming force (F) exerted by the plunger (31) on the base (12) of the container (3) during the deformation operation in order to determine whether the container (3) is correctly filled.

The invention relates to a container handling machine (1) having at least one operative unit (18) comprising first support means (21) to support a base (12) of a filled and closed container (3), second support means (24) cooperating with an end (17) of the container (3) opposite the base (12), a plunger (31) selectively moved along its axis (E) to perform a deformation operation on the base (12) of the container (3) from a first swollen configuration to a second inwardly-retracted configuration, and actuator means (35) selectively activated to move the plunger (31) along its axis (E) between a first position, detached from the base (12) of the container (3), and a second position, in which the plunger (31) defines the second configuration of the base (12); the machine (1) further comprises a control unit (41) configured to selectively activate the actuator means (35) for moving the plunger (31) along its axis (E); the second support means (24) are maintained at a constant distance from the first support means (21) during the deformation operation; the control unit (41) comprises measuring means (42) for measuring the maximum deforming force (F) exerted by the plunger (31) on the base (12) of the container (3) during the deformation operation in order to determine whether the container (3) is correctly filled.

A method for preparing a resizing sleeve for lining a joining point in a pipe assembly having pipes of thicker and thinner diameter. The method includes stretching the resizing sleeve in diameter to the size of the thicker pipe in diameter of the pipe assembly, installing an installation hat according to the thicker pipe in diameter of the pipe assembly by airtightly gluing it onto the stretched resizing sleeve, and returning the resizing sleeve to the size of the thinner pipe in diameter of the pipe assembly to be lined. A suitable tool for implementing the method is also disclosed.

The invention provides a heat-shrinkable polyester film in which the differences in physical properties in the width direction are reduced even if the film has a small thickness. The heat-shrinkable polyester film has a main shrinkage direction in a width direction of the film and has (1) a thickness of 6-27 m; (2) a maximum value of the molecular orientation angle of 5 degrees or less; (3) a hot-water shrinkage at 90 C. in the width direction of the film 40-85%; (4) a difference between a maximum value and a minimum value of the hot-water shrinkage at 90 C. in the width direction of the film of 2% or less; and (5) a difference between a maximum value and a minimum value of the maximum shrinkage stress at 90 C. in the width direction of the film of less than 0.3 MPa.

The invention provides a heat-shrinkable polyester film in which the differences in physical properties in the width direction are reduced even if the film has a small thickness. The heat-shrinkable polyester film has a main shrinkage direction in a width direction of the film and has (1) a thickness of 6-27 m; (2) a maximum value of the molecular orientation angle of 5 degrees or less; (3) a hot-water shrinkage at 90 C. in the width direction of the film 40-85%; (4) a difference between a maximum value and a minimum value of the hot-water shrinkage at 90 C. in the width direction of the film of 2% or less; and (5) a difference between a maximum value and a minimum value of the maximum shrinkage stress at 90 C. in the width direction of the film of less than 0.3 MPa.

A beverage bottling plant having an information adding station for adding information to bottles and a method of operating a beverage bottling plant information adding station. The abstract of the disclosure is submitted herewith as required by 37 C.F.R. 1.72(b). As stated in 37 C.F.R. 1.72(b): A brief abstract of the technical disclosure in the specification must commence on a separate sheet, preferably following the claims, under the heading Abstract of the Disclosure. The purpose of the abstract is to enable the Patent and Trademark Office and the public generally to determine quickly from a cursory inspection the nature and gist of the technical disclosure. The abstract shall not be used for interpreting the scope of the claims. Therefore, any statements made relating to the abstract are not intended to limit the claims in any manner and should not be interpreted as limiting the claims in any manner.

A beverage bottling plant having an information adding station for adding information to bottles and a method of operating a beverage bottling plant information adding station. The abstract of the disclosure is submitted herewith as required by 37 C.F.R. 1.72(b). As stated in 37 C.F.R. 1.72(b): A brief abstract of the technical disclosure in the specification must commence on a separate sheet, preferably following the claims, under the heading Abstract of the Disclosure. The purpose of the abstract is to enable the Patent and Trademark Office and the public generally to determine quickly from a cursory inspection the nature and gist of the technical disclosure. The abstract shall not be used for interpreting the scope of the claims. Therefore, any statements made relating to the abstract are not intended to limit the claims in any manner and should not be interpreted as limiting the claims in any manner.

A system is provided for storage and reconstitution of IV solutions. The system may include one or more storage and reconstitution devices each configured to store and manipulate IV solution containers containing IV solutions in crystalline form that include hydration chemicals and therapeutic drugs. Crystalline hydration chemicals may include crystalline salts and sugars. The containers may be dimensionally precise enough for mechanical manipulation and configured such that sharp objects such as needles are not needed for fluid delivery to or from the container. Each storage and reconstitution device may store stacked containers and may include components for retrieval of a container from the storage and for reconstitution of the contents therein using a sterile water source within the device. IV doses may be manufactured, under appropriate standards, that can be mechanically reconstituted to produce high-quality doses in real time on the patient care unit or in the pharmacy.

A system is provided for storage and reconstitution of IV solutions. The system may include one or more storage and reconstitution devices each configured to store and manipulate IV solution containers containing IV solutions in crystalline form that include hydration chemicals and therapeutic drugs. Crystalline hydration chemicals may include crystalline salts and sugars. The containers may be dimensionally precise enough for mechanical manipulation and configured such that sharp objects such as needles are not needed for fluid delivery to or from the container. Each storage and reconstitution device may store stacked containers and may include components for retrieval of a container from the storage and for reconstitution of the contents therein using a sterile water source within the device. IV doses may be manufactured, under appropriate standards, that can be mechanically reconstituted to produce high-quality doses in real time on the patient care unit or in the pharmacy.