A pipe doping apparatus comprises a bucket assembly including a base and a bucket supported on the base and having an inside volume, a lubricating unit having at least one lubricant applicator inside the bucket; and a source of torque configured to rotate the bucket and/or the lubricating unit relative to a tubular. The apparatus may include a cleaning unit and/or a drying unit and the source of torque may be a fluid jet in either. At least one lubricant applicator may be retractable and may be actuated between a retracted position and an extended position by centripetal force. The apparatus may further include a positioning assembly supporting the base and the rotary bucket assembly and a controller connected to and controlling each of: the positioning assembly, the cleaning unit, the drying unit, and the lubricating unit.

The present invention generally relates to apparatus and method for applying an adhesive material to a substrate material, and more particularly to a method and system for the application of an adhesive to beading thread, string, jute, silk, yarn combinations of the same or the like.

The present invention generally relates to apparatus and method for applying an adhesive material to a substrate material, and more particularly to a method and system for the application of an adhesive to beading thread, string, jute, silk, yarn combinations of the same or the like.

A coating device includes: a coating liquid holding part provided with an upper opening portion and a lower opening portion and holding a coating liquid that is supplied from a coating liquid supply part; and an annular body that is disposed inside the coating liquid holding part, through which a cylindrical body penetrating the upper opening portion and the lower opening portion of the coating liquid holding part penetrates, and in which the coating liquid held by the coating liquid holding part flows in from an upper side and flows out from a lower side with a relative movement to the cylindrical body, the annular body being installed to be relatively displaceable along an installation surface intersecting a direction of the relative movement with respect to the coating liquid holding part.

A coating device includes: a coating liquid holding part provided with an upper opening portion and a lower opening portion and holding a coating liquid that is supplied from a coating liquid supply part; and an annular body that is disposed inside the coating liquid holding part, through which a cylindrical body penetrating the upper opening portion and the lower opening portion of the coating liquid holding part penetrates, and in which the coating liquid held by the coating liquid holding part flows in from an upper side and flows out from a lower side with a relative movement to the cylindrical body, the annular body being installed to be relatively displaceable along an installation surface intersecting a direction of the relative movement with respect to the coating liquid holding part.

A deposition apparatus includes deposition sources, a deposition chamber, a mask assembly, and a transfer unit. The mask assembly includes a support member, a shutter member, and a drive member. The support member has a first opening configured to allow the deposition materials to pass through while supporting the base substrate on which the passed-through deposition materials are deposited. The shutter member is accommodated in the support member and has a second opening smaller than the first opening. The drive member is configured to change a position of the second opening with respect to the base substrate in accordance with the movement of the mask assembly.

A deposition apparatus includes deposition sources, a deposition chamber, a mask assembly, and a transfer unit. The mask assembly includes a support member, a shutter member, and a drive member. The support member has a first opening configured to allow the deposition materials to pass through while supporting the base substrate on which the passed-through deposition materials are deposited. The shutter member is accommodated in the support member and has a second opening smaller than the first opening. The drive member is configured to change a position of the second opening with respect to the base substrate in accordance with the movement of the mask assembly.

A rectifying device including a first flow channel member provided between an inner peripheral wall and an outer peripheral wall; a second flow channel member provided upstream of the first flow channel in a flowing direction of the fluid and being connected with the first flow channel along an entire circumference. The device includes an inflow section at the second flow channel member for fluid to flow into a circumferential area of the second flow channel; a first guide wall in the second flow channel at a position away from the inflow section in a circumferential direction and to guide the fluid flowing toward a first side in the circumferential direction through the second flow channel toward the first flow channel; and a second guide wall in the second flow channel adjacent the first guide wall in the circumferential direction.

A rectifying device including a first flow channel member provided between an inner peripheral wall and an outer peripheral wall; a second flow channel member provided upstream of the first flow channel in a flowing direction of the fluid and being connected with the first flow channel along an entire circumference. The device includes an inflow section at the second flow channel member for fluid to flow into a circumferential area of the second flow channel; a first guide wall in the second flow channel at a position away from the inflow section in a circumferential direction and to guide the fluid flowing toward a first side in the circumferential direction through the second flow channel toward the first flow channel; and a second guide wall in the second flow channel adjacent the first guide wall in the circumferential direction.

The present invention relates to an application assembly for applying coating onto confectionary products comprising a housing (5) comprising a product coating void (6) for receiving the confectionery product (9) to be coated, at least one receptacle (8), the receptacle being adapted to receive coating material and comprising a supply hole or holes (11) through which coating material may flow from the housing (5) and into the coating void (6) where it becomes transferred onto the product, and wherein each receptacle comprises one or more applicator members (10) to transfer 16 coating material onto the confectionery product and wherein the supply hole or holes (11) are formed within said receptacles, and wherein the one or more applicator member comprises a cavity (14) to allow accumulated coating material to be collected and stored when a product remains static in the product void. The invention also relates to a method for applying a partial coating to a confection products.