Printing systems may include a rotatable tamp head that may be repositioned, as necessary, in order to cause a label to be printed in a specific location or in a certain alignment on an object. Such tamp heads may be repositioned as necessary where the label may cross a seam, a crease, a fold or another surface feature which might cause the label to be bowed or damaged in transit. The tamp head may be positioned in a manner that would enable any information, markings or bar codes thereon to remain legible and intact even if the label is applied across such a surface feature. An orientation of the object may be determined using one or more sensors aligned at various angles with respect to a direction of travel of the object.

A system combining a machine for blow-molding articles with a universal in-mold labeling apparatus. The apparatus has a frame on which turntables are mounted. Each turntable has an air rotary union, facilitating rotation of the respective turntable, and suction cups adapted to pick, hold, and release labels. The turntables deliver labels to the open molds of the machine. The apparatus also has a vertical slide positioned between the turntables. A placement head engages the turntables and moves up the vertical slide to a position in the open molds. At least one label magazine is affixed to the frame and retains the labels. Strategically placed air valves provide air and vacuum to pick, hold, and release labels. A human machine interface facilitates communication between an operator of the system and the system. Finally, a control system is provided to allow the operator to program and control both the machine and apparatus.

A system combining a machine for blow-molding articles with a universal in-mold labeling apparatus. The apparatus has a frame on which turntables are mounted. Each turntable has an air rotary union, facilitating rotation of the respective turntable, and suction cups adapted to pick, hold, and release labels. The turntables deliver labels to the open molds of the machine. The apparatus also has a vertical slide positioned between the turntables. A placement head engages the turntables and moves up the vertical slide to a position in the open molds. At least one label magazine is affixed to the frame and retains the labels. Strategically placed air valves provide air and vacuum to pick, hold, and release labels. A human machine interface facilitates communication between an operator of the system and the system. Finally, a control system is provided to allow the operator to program and control both the machine and apparatus.

Disclosed are an automatic labeling machine and an automatic labeling machine control method. The automatic labeling machine is used for adhering an identification label on a surface of a test tube. The automatic labeling machine comprises: a tube insertion port (80) used for inserting a test tube; a controller (4) used for determining the type of test tube to be inserted; and a prompting apparatus (3) connected to the controller (4) and used for outputting prompting information corresponding to the type of the test tube to be inserted. The problem of automatic labeling machines easily causing a test tube selection error in the prior art is solved.

This invention relates to a machine and a method for labelling and inspecting containers for liquids, automatically applying a label on each container on a seamless zone of it, using an optical inspection device provided with an illuminator having a collimator interposed between a light generator of the illuminator and a carousel of the machine.

This invention relates to a machine and a method for labelling and inspecting containers for liquids, automatically applying a label on each container on a seamless zone of it, using an optical inspection device provided with an illuminator having a collimator interposed between a light generator of the illuminator and a carousel of the machine.

A label rewind machine counts labels on a label roll having an elongated web with labels attached. The rewind machine has an unwind spindle and a rewind spindle, and a first label sensor and a second label sensor. The label roll is placed on the unwind spindle, and the web is threaded through the first and second sensors and attached to the rewind spindle, creating a web path. As the web is drawn along the web path, each sensor detects the presence or absence of a label on the web proximate that sensor and generates an electronic signal. Together, the sensors generate a specific quadrature sequence dictated by the presence of labels on the web. If the detected sequence mimics a selected sequence, the rewind machine records a unitary count of one label. The label count is indexed by one each time the rewind machine detects the selected sequence.

A labeling device for a syringe that includes a first labeling subsystem adapted to print a first label having machine readable information and a second labeling subsystem adapted to print a second label having human readable information is disclosed. The first labeling subsystem includes a label applicator adapted to automatically apply the first label to a portion of the syringe. The first labeling subsystem includes a syringe clamp assembly that securely holds the syringe while the label applicator automatically applies a first label to the syringe. The second labeling subsystem includes a removal device adapted to automatically remove a backing material from the second label.

An overhead label print and apply system includes a conveyance path, a common label applier located above the conveyance path, a first label print and dispense unit and a second label print and dispense unit. The first label print and dispense unit is positionable to feed printed labels to the common label applier. The second label print and dispense unit is positionable to feed printed labels to the common label applier.

A method further includes the following steps. Firstly, a three-dimensional picture under a generated background condition is generated, wherein the three-dimensional picture includes a three-dimensional object image. Then, a two-dimensional picture of the three-dimensional picture is captured, wherein the two-dimensional picture includes a two-dimensional object image of the three-dimensional object image. Then, an object region of the two-dimensional object image is recognized. Then, an exposed ratio of an exposed area of an exposed region of the object region to an object area of the object region is obtained. Then, whether the exposed ratio is greater than a preset ratio is determined. Then the exposed region is defined as the pick-and-place region when the exposed ratio is greater than the preset ratio.