Described herein is a method for filling seal caps and a corresponding automated device for filling seal caps. The method for filling seal caps includes carrying out the filling of the seal caps using an automated process, wherein positioning a filling unit and/or positioning the seal caps by means of movement in an XYZ coordinate system as well as filling the seal caps is automated, and wherein the seal caps are positioned on a support plate.

An epoxy coating can be applied to a round surface by keeping the round surface in constant motion, thus defeating the tendency of the epoxy to run off the outer surface of the round object. The process is aided by mechanical equipment that rotates the cylindrical object about its center, while also permitting adjustment of rotational speed.

An expandable attachment for securing a beverage container to a turner can include a linkage with arms, each of the arms having opposite ends, a grip pad pivotably attached to an end of each of the arms, the grip pad being configured to grip an interior surface of the beverage container, a threaded member, a base, the threaded member being rigidly secured to the base, and an end of an arm being pivotably attached to the base, another base, the threaded member being axially displaceable through the second base, and an end of the other arm being pivotably attached to the second base, and an adjustment wheel having threads therein engaged with threads of the threaded member. A method can include inserting an expandable attachment into a beverage container, and rotating a portion of the expandable attachment, thereby radially outwardly displacing grip pads of the expandable attachment.

A system and method for rotating an egg-shaped object for decoration. The system uses a machine with an access opening. An open area exists within the interior of the housing between the access opening and a bottom surface. A support cradle is disposed within the interior. The support cradle has a first plurality of wheels that extend into the open area from a first direction and a second plurality of wheels that extend into the open area from a second direction. A gap space exists between the first plurality of wheels and the second plurality of wheels. The first plurality of wheels, the second plurality of wheels and the gap space form a cradle that receive and rotate an egg-shaped object. When in this cradle, at least half of the egg-shaped object is elevated above the top surface of the housing, where it can be easily decorated.

A coating carrier assembly for supporting a to-be-plated component includes at least one supporting unit. Each of the at least one supporting unit includes a first supporting portion, a second supporting portion, and at least two ribbed plates. An annular groove is defined between the first supporting portion and the second supporting portion. The at least two ribbed plates are formed in the annular groove and connected to the first supporting portion and the second supporting portion. Each of the at least two ribbed plates comprises an overflow plating groove facing the to-be-plated component. The overflow plating groove is connected to the annular groove. The disclosure also relates to a coating device. The coating carrier assembly and the coating device can obtain a coating without shielding traces.

Impregnation plant for internally hollow cylindrical components (stators) of electric motors including working stations arranged linearly and sequentially, managed and controlled by central processing unit; and a plurality of motor-driven elements to impart rotatory motion, in both directions of rotation, and tilting motion, in both directions respective to a predefined plane, to each component mounted onto a respective support device when such support device is inserted into the plant working stations. Each support device has a spring collet in turn has blocks clamping the component onto the inner diameter of its respective cylindrical body. Each spring collet entirely crosses the component cylindrical body to rest on both of its respective circumferential ends. An impregnation method for electric motor components using the impregnation plant, wherein the component is rotatable in both directions about a support device predefined axis, and tiltable respective to a predefined plane of such support device.

A preform coating device is provided with: a rotational holding part that horizontally holds a preform and rotates the preform about the axis of the preform, and that grasps a spout of the preform; a conveyance part that conveys the preform by moving the rotational holding part; a dispenser that discharges a coating liquid toward the preform; a preform support part that supports the bottom-side end of the cylindrical barrel of the preform while the dispenser is discharging the coating liquid; and a spout support part that supports the outer circumferential surface of the spout of the preform while the dispenser is discharging the coating liquid.

Techniques herein include systems and methods for dispensing liquids on a substrate with real-time coverage control and removal control. Techniques also encompass quality control of dispense systems. Systems and methods enable visual examination of liquids progressing on a surface of a substrate. This includes capturing and/or examining stroboscopic images of movement of a given liquid on a working surface of a substrate, and then generating feedback data for modifying a corresponding dispense. Dispenses can be modified by increasing/decreasing a dispense rate and increasing/decreasing a rotational velocity of a substrate. Feedback can be generated by automated and/or manual analysis of real time progression as well as post-process analysis of collections of images.

Coating apparatus for coating cylindrical hollow bodies, having a machine frame and a workpiece rotary table which is equipped with a plurality of holding mandrels mounted rotatably on the workpiece rotary table, and having a coating station arranged on the machine frame, wherein the coating station includes a rotatably mounted coating roller, wherein axes of rotation of the holding mandrels and an axis of rotation of the coating roller are aligned parallel to one another, wherein the coating roller has a coating region and a free-wheeling region on a circumferential surface, the coating region being designed as a circular cylinder segment with a constant circular radius coaxial with the axis of rotation of the coating roller, and the free-wheeling region being formed from surface sections which each have a distance from the axis of rotation of the coating roller which is smaller than the circular radius.

A system and method for rotating an egg-shaped object for decoration. The system uses a machine with an access opening. An open area exists within the interior of the housing between the access opening and a bottom surface. A support cradle is disposed within the interior. The support cradle has a first plurality of wheels that extend into the open area from a first direction and a second plurality of wheels that extend into the open area from a second direction. A gap space exists between the first plurality of wheels and the second plurality of wheels. The first plurality of wheels, the second plurality of wheels and the gap space form a cradle that receive and rotate an egg-shaped object. When in this cradle, at least half of the egg-shaped object is elevated above the top surface of the housing, where it can be easily decorated.