A label peeler system includes a first outer bracket having a first angled surface and a second outer bracket having a second angled surface. The label peeler system comprises a first movable bracket pivotably coupled to the first outer bracket and a second movable bracket pivotably coupled to the second outer bracket. A peel bar is secured to the first angled surface and the second angled surface, and a peel roller is rotatably disposed above the peel bar. A first roller is rotatably coupled to the first outer bracket and the second outer bracket. A second roller is rotatably coupled to the first movable bracket and the second movable bracket. The first roller and the second roller are configured to collectively pull the liner away from the label after the label is peeled by the peel bar.

The invention relates to a device (1) for labeling individual products (2), comprising an advancing device (3) for transporting each product (2) in a transport direction (X), a label dispensing device (4) for dispensing a label, which can be removed from a material strip (5), from a discharge point (6) in a dispensing direction (S), and a label transporting device (7) with a movable label transporting means (8) for transporting the dispensed label (5) from a transfer region (9), where the dispensed label (5) is transferred to the label transporting mean (8), to a delivery point (10), where the label (5) is applied onto the respective product (2). The label transport means (8) has a surface (11) which is brought into contact with the label (5). The aim of the invention is to simplify the labeling of individual products (2) and apply the labels (5) as precisely as possible. According to the invention, this is achieved in that the device (1) additionally has a label aligning device (12) with a roller (13) which has a roller axis (14) that is parallel to the surface (11) of the label transporting means (8) and a lateral surface (15) that is arranged circumferentially about the roller axis (14). The roller (13) is arranged such that an imaginary straight line (G) running from the discharge point (6) in the dispensing direction (S) intersects the lateral surface (15). The invention further relates to a corresponding method for labeling individual products (2).

A labelling machine comprises a supply spool support for supporting a supply spool comprising label stock comprising a web and a plurality of labels attached to the web and which are separable from the web; a take-up spool support adapted to take up a portion of web; a first motive means configured to propel the web along a web path from the supply spool support towards the take up spool support, the first motive means comprising a first motor including a first stator and a first rotor; a labelling peel beak located along the web path and configured to peel the labels from label web as the label stock passes the labelling peel beak; and a printer for printing on the labels. The printer includes a ribbon supply spool support for supporting a ribbon supply spool comprising printer ribbon for the printer; a ribbon take-up spool support adapted to take up a portion of the printer ribbon; and a second motive means configured to propel the printer ribbon from the supply spool support towards the take up spool support, the second motive means comprising a second motor including a second stator and a second rotor. The labelling machine further comprises a base plate. The following components are mounted to the base plate such that the majority of each component is located on one side of a first surface of the base plate: supply spool support, take-up spool support, first stator, labelling peel beak, ribbon supply spool support, ribbon take-up spool support and second stator.

A peeling device includes a driving roller that transports backing paper and a drive transmission mechanism that transmits driving force from a driving motor to the driving roller. The peeling device also includes a peeling plate (a peeling portion) located between the driving roller, and a printhead and platen (a printing section) in a transport path of the backing paper, and bends the transport path. The drive transmission mechanism includes a first torque limiter and a second torque limiter. The drive transmission mechanism changes to a first state in which the first torque limiter is included between the driving roller and the driving motor in a transmission system of the driving force or a second state in which the second torque limiter is included therebetween.

According to one embodiment, a label peeling device includes a tray, a pressing unit, and a control unit. The tray is configured to support a label sheet thereon. The pressing unit is configured to be driven in a direction perpendicular to a conveyance direction of the label sheet. The control unit is configured to drive the pressing unit toward a central portion of the label sheet supported on the tray. The control unit performs peeling control to peel a liner sheet and a label body of the label sheet from each other by pressing an edge of the label sheet and thereby curving the label sheet.

A labeling station in labeling machines for pre-adhesive labels, including a feeding assembly with unwinding rollers of a respective spool of backing tape with adhesive labels applied thereto and at least one assembly for applying the labels which has a peeling device located proximate to the containers to be labeled and adapted to separate the individual labels from the backing tape for application, and at least two mutually composable parts, respectively a first part, which includes a first support which forms a first worktable, on which the application assembly is mounted, and a second part, which includes a second support, on which at least the feeding assembly is mounted. The feeding assembly further includes a splicing system for joining the backing tapes which are unwound from the unwinding rollers and a group of dandy rolls, while at least one first redirection roller is mounted on the first worktable.

A method of labeling products includes providing a labeling machine, performing on command, by a splicing device, a splicing between a first splicing region, obtained from a backing ribbon being wound onto a first winding element, and a second splicing region, which is formed on a connection element that is connected to a second winding element, cutting on command, by a first cutting device, said backing ribbon at the portion that extends between said first splicing region and the backing ribbon wound onto the first winding element, and continuously splicing the backing ribbon of the adhesive labels unwound from the feeder spools and of the backing ribbon being wound onto the winding elements, cutting said backing ribbon, by a first cutting device, simultaneously or after the splice between said first splicing region and said second splicing region on the part of said first splicing device, and labeling said products with said labels.

An automatic high speed labeling machine with an improved label stripper is provided capable of applying 700 to 1,000 labels to individual produce items in a single lane, without tearing the label carrier strip. The improved label stripper has a contoured surface wherein only the center section contacts the label carrier strip. The edges of the carrier strip are prevented from contacting the label stripper surface.

A label applicator, system, and method for applying labels to curved sides of objects, such as cell culture dishes, is provided. In an aspect, the label applicator includes a body having a first side and a second side, the second side comprising a curved surface; a base; at least one first resilient member having a defined length between a first end and a second end; and at least one second resilient member engaging the body and the base, wherein the second end of the at least one first resilient member is configured to removably attach to a label and, when the label is in contact with the second end and an object, to apply a pressure to the label that increases as the at least one first resilient member and at least one second resilient member are compressed. The system may also include a label verifier and/or label verification system.

The present Invention discloses two robot assisted automated methods for application of decals on complex 3 dimensional surfaces without wrinkle and bubble. The method includes loading of objects having 3D surfaces on an object holding fixture manually from a conveyor belt, picking up a first application fixture automatically by a robot, peeling off the liner disposed on the decal manually and placing the decal on the first application fixture which holds the decal by suction, positioning the decal with exposed adhesive accurately on a first 3D surface of the object and switching off the suction automatically leaving the decal placed on the 3D surface of the object, placing the first application fixture back and picking up a second application fixture automatically by the robot for squeegee application, applying the second application fixture to complete the squeegee application by pressurizing the decal. The first application fixture is configured to be programmed to hold decals of different shape and size and the second application fixture is configured to be programmed to identify the 3D direction of squeezing pad motion within each region of such decals to eliminate the bubbles without wrinkling. The second method uses a mechatronic pick and place mechanism for picking up a decal from the decal stack and placing of the decal on the 3D surface of the object automatically.