An apparatus, system and method for seaming an end cap to an end of a target object using a fixed, rigid roller carriage that is configured to move along a direction that is orthogonal to a rotation axis of the end cap and the target object. The end cap seaming apparatus and system preferably comprise servo motors that move the roller carriage and rotate the end cap and the target object. The end cap seaming apparatus and system may be configured to learn the shape of the end cap and the target object by learning a shape of an end cap holding member on which the end cap is held. An automated method of seaming the end cap to the target object is executed based on the learned shape of the end cap holding member.

Provided is a seaming device that makes it possible to easily adjust an axial load applied to a can during seaming and that makes it possible to prevent the buckling of the can without any shock load being applied, apply a constant axial load according to a decrease in the height of the can during the seaming, and achieve the high speed of a seaming process. The seaming device has a can placement unit (110) that places a can (C), a chuck unit (120) provided opposite the can placement unit, and a seaming roll (131) that seams a lid (F) onto the can (C). The can placement unit (110) has a pressing mechanism (111) that operates by fluid pressure and elastically upwardly presses a plate (112) on which the can (C) is placed.

A continuous motion position controlled in-line linear seamer allows a manufacturer or brewery such as a microbrewery to have high speed can seaming (attachment of lids to full cans of beverage) with a single compact, inexpensive, independent and repositionable seaming machine. The seaming is carried out in-line with production, and is done using a linear can path with no need for a large carousel. The motion is continuous because a variable pitch worm drive is constantly operating, driving cans at different speeds for different portions of the can path, including one portion of the path at which the can may remain motionless while being seamed.

Provided is a seaming device capable of preventing dents, caused by a can guide or a seaming turret pocket, and buckling resulting from the dents during seaming, and capable of improving seaming accuracy, by stabilizing the posture of the can being transferred when the can is supplied from an infeed conveyor. The seaming device (100) includes a can placement unit (110) that places a can (C), a seaming chuck unit (120) provided opposite thereto, and a seaming roll (131) that seams an opening of a can (C) and a lid (F). The can placement unit (110) includes a pressing mechanism (111) that presses a plate (112), on which a can is placed, resiliently upward. The seaming chuck unit (130) and the seaming roll (131) are configured to be capable of moving up and down.

A can for packaging food, comprising a metal can body and a diaphragm lid (16) formed of lidding material which comprises a multilayer structure with at least an aluminum layer of from 6 to 90 microns thickness and a bond layer for fixing the lid (16) directly to the can body. One method for forming the can forms the lidding material by using an outwardly extending curl (20) at one end of the metal can body as the draw die. Lidding material which is carried by the body maker punch is drawn around the curl of the can body draw die so as to form the lidding material into a cup shape.

To manufacture a metal can having a tear-open lid and having a storage space for an object above the tear-open lid, the following procedure is used: first, a top edge of the can which has a smaller diameter than the inside diameter of the can body is formed, wherein a transition region (6) is formed. After the tear-open lid has been attached, this transition region is deep drawn so that the tear-open lid (2) is displaced towards the bottom (5) of the can. This produces the storage space. This procedure allows previously formed tear-open lids to be used, which safely guarantees the imperviousness of the seal of the tear-open lid.

A seaming device can prevent the leakage of a lubricating oil from the in-machine housing of a chuck unit into a seaming operation space, prevent the occurrence of a defective product contaminated by the lubricating oil, and eliminate heat elongation due to heat generation to accurately maintain a seaming dimension. A seaming device includes: a chuck unit that positions a lid mounted on a can; and a seaming unit that seams the lid to the can, wherein the chuck unit has a spindle having a chuck for positioning the lid attached at a lower end thereof, a bearing that rotatably supports the spindle, and a non-contact type oil seal mechanism for sealing between the spindle and the in-machine housing at a position below the bearing.

A method for seaming a seam in a can using a seaming unit having a first plate (10) a first lever pivotably mounted on the first plate (10) at a first pivot point (53) to describe a first trajectory along a first diameter (D1); and a second plate (20) to which a second end (55) of the first lever is connected. The method includes a step of determining a value of the first diameter (D1) so as to decrease a first angular clearance of the first lever (50) about the first pivot point (53). A seaming unit using said method.

An automatic seam detection machine is disclosed herein, including a conveying device and a seam detection device. The conveying device includes a feeding station, provided with a feed valve. When a sample can is conveyed to the feeding station, the feed valve opens and the sample can arrives at the detecting station of the seam detection device through the feed valve. Since more sample cans can be placed in the conveying device, operators can place batches of sample cans in the conveying device in one time; and the sample cans can be automatically conveyed to the feeding station by the conveying device, then conveyed to the seam detection device for detection automatically by opening the feed valve. Compared with prior arts, this invention can achieve automatic feeding, so as to facilitate the batch detection, with high degree of automation.

A method for producing a receptacle which is closed by a sheet by transmission laser welding, and to an apparatus suitable to carry out same. The method and the apparatus are configured in such a way that a weld seam is formed between the wall structure of the receptacle and the sheet so as to be wider than the end faces of the wall structure.