Abstract:
There is provided a method of forming a coat on an inner surface of a bearing, in which a jig 13 is attached to a rotor 2 while holding four bearings 12 for example, so as to form those in a cylinder shape. Then, while the rotor 2 is rotated at a circumferential speed of 0.3 m/sec, a nozzle 8 for airless spraying is inserted into the rotor 2, so that the nozzle 8 injects a coating material 30 from the inside of the bearings 12 toward an inner surfaces of the bearings 12 to apply the coating material thereon. Because the coating material 30 is injected from the nozzle 8 without using compressed air, the fly amount of the coating material is made less as compared to air spray painting.
Abstract:
Drums are supported for rotation on idler rollers carried by an intermittently operable conveyor, and when the drums reach a predetermined position in which their longitudinal axes are aligned with telescopically movable coating material applicator heads the conveyor movement of the drums is stopped and an overhead assembly is moved downwardly into engagement with the drum shells to hold them down and rotate them while the coating applicator heads move inwardly and outwardly of the shells.
Abstract:
The invention relates to a method of coating a surface (2) of a hollow body (1), said method comprising: a step of positioning said hollow body (1) on a support (7) designed to receive said hollow body (1); and a step of spraying at least one coating material onto said surface (2) of said hollow body (1) by means of a spray device (9), relative movement being imparted to said support (7) and to said spray device (9); said coating method being characterized in that said relative movement takes place at a velocity that varies as a function of the distance (d) between the spray device (9) and said surface (2). Coating machines.
Abstract:
A system and method for coating an endoprosthesis involves an applicator capable of delivering a coating substance to the endoprosthesis without spraying. The applicator may have a tube or die through which a coating substance is moved upwards by capillary action or by means of a pump so as to form an accumulation of the coating substance at an upper portion of the applicator. The endoprosthesis can be lowered onto the accumulation, then axially translated or rotated in order to transfer the coating substance to selected portions of the endoprosthesis. The applicator is lowered and/or the endoprosthesis is raised in order to form gaps in the coating. Selective coating of abluminal or luminal surface of the endoprosthesis may also be performed by allowing the surface to skip on a liquid surface of a pool of the coating substance.
Abstract:
There is provided a method of forming a coat on an inner surface of a bearing, in which a jig 13 is attached to a rotor 2 while holding four bearings 12 for example, so as to form those in a cylinder shape. Then, while the rotor 2 is rotated at a circumferential speed of 0.3 m/sec, a nozzle 8 for airless spraying is inserted into the rotor 2, so that the nozzle 8 injects a coating material 30 from the inside of the bearings 12 toward an inner surfaces of the bearings 12 to apply the coating material thereon. Because the coating material 30 is injected from the nozzle 8 without using compressed air, the fly amount of the coating material is made less as compared to air spray painting.
Abstract:
A powder coating apparatus for forming a resin coating on the inner periphery of a container (2) having a barrel (21), a shoulder (22) and a mouth (23) does have a holder (3) for temporarily holding the container in place, a spray gun (4) for blowing into the container a powder through an open skirt (21a) of the container. The apparatus further has a first passage (51) for guiding to the spray gun a first air stream together with the powder, a second passage (61) for feeding a second air stream for stirring the powder into the spray gun. The apparatus still further has a third passage (81) for collecting a first surplus of the powder from the container mouth (23), a fourth passage (71) for collecting a second surplus of the powder from the open skirt of the container, and control unit respectively connected to the first to fourth passages. Each control unit does effect a feedback control such that flow rate through and/or internal pressure in each passage are maintained at respective target levels, so that the resin powder is applied uniformly to the tube inner periphery ranging from the shoulder to barrel, with the proximity of the skirt being surely masked not to be covered with the powder.