Class / Patent application number | Description | Number of patent applications / Date published |
427231000 | Rotating the article | 10 |
20090238967 | Process and Apparatus for Introducing a Potting Composition Into a Filter Apparatus - This invention relates to a method for introducing a sealing compound into a filter device, sealing caps being attached for the purpose of producing the sealing compound, and the sealing compound being distributed from a sealing chamber via the sealing caps onto the ends of the filter device. In accordance with the invention, the sealing compound is passed from the sealing chamber into a rotationally symmetrical cantilevered projection of the respective sealing cap, from where it penetrates into the housing via corresponding slots of the sealing cap. The invention furthermore relates to an apparatus for introducing the sealing compound into a filter device. | 09-24-2009 |
20100189895 | METHOD FOR COATING THE INNER WALLS OF PIPES AND DEVICE SUITABLE THEREFOR - In a method for coating the inner walls of pipes ( | 07-29-2010 |
20150321205 | SEAMLESS CAPSULE MANUFACTURING METHOD AND SEAMLESS CAPSULE MANUFACTURING DEVICE - The present invention manufactures a seamless capsule by discharging multilayer liquid droplets from a nozzle into coolant to cause a surface portion of each of the liquid droplets to be cured. There are provided below the nozzle a straight tubular shaped straight forming tube and a rotary forming tube having a diameter larger than that of the straight forming tube. A rotary elbow section is rotatably connected to a lower end portion of the straight forming tube. Multilayer liquid droplets are discharged into the straight forming tube, and after the liquid droplets are cooled inside the straight forming tube, the liquid droplets are discharged from the rotary elbow section into the rotary forming tube. The liquid droplets are discharged from the rotating rotary elbow section while being rotated. The released liquid droplets fall in a vertical direction while being scattered in a peripheral direction in the rotary forming tube to be cured. | 11-12-2015 |
427233000 | Spraying | 6 |
20110052806 | SPRAY COATING WITH UNIFORM FLOW DISTRIBUTION - A spray nozzle is disclosed that produces a flat spray pattern for liquid coating material, the spray pattern having a generally uniform flow distribution of quantity of coating material across the spray pattern. The spray nozzle may include a rectangular cut spray orifice to produce such a spray pattern. The spray pattern may further have distinct edges so that the pattern exhibits substantially reduced tailings of coating material outside these edges. In one embodiment, the spray pattern produces a “rectangular” drip pattern. In another embodiment, the spray pattern may include a middle region having reduced flow of coating material as compared to side regions of the spray pattern. | 03-03-2011 |
20120034376 | APPARATUS AND METHOD FOR APPLYING A LUBRICANT TO A THREADED PORTION OF A STEEL PIPE - An apparatus which can thinly and uniformly apply a highly viscous lubricant on the threaded portion of a threaded joint for pipes comprises a steel pipe support unit which supports a steel pipe P having a pin while rotating the pipe, a lubricant circulation system in which a lubricant having its viscosity adjusted so as to be sprayable is circulated, a metering unit having a metering pump capable of metering the lubricant, a lubricant spraying unit having spray guns for spraying lubricant through nozzles toward the pin, a spray gun support unit which supports the spray guns so as to be movable in the axial and/or radial directions of the steel pipe P; and a controlling unit which controls the rotational speed of the steel pipe P by the steel pipe support unit and the speeds of movement of the spray guns by the spray gun support unit. | 02-09-2012 |
20120082788 | COATING METHOD AND A CORRESPONDING COATING MACHINE - The invention relates to a method of coating a surface ( | 04-05-2012 |
20120183688 | METHOD OF COATING A POROUS SUBSTRATE WITH A THERMOPLASTIC MATERIAL FROM THE OUTSIDE OF THE SUBSTRATE - A method of coating a first porous substrate with a thermoplastic material comprises the steps of: rotating the substrate about an axis of the substrate; and applying the material in a liquefied state onto the substrate, wherein the step of applying is performed from the outside of the substrate. According to another embodiment, a method of coating a porous substrate with a thermoplastic material comprises the steps of: connecting a first porous substrate to a rotator; rotating the substrate about an axis of the substrate; pumping the material in a liquefied state from a receptacle to an application head; and applying the material in a liquefied state onto the substrate, wherein the step of applying is performed from the outside of the substrate. In certain embodiments, the material coated on the substrate is used to help remove at least a portion of a filtercake. | 07-19-2012 |
20160074894 | CONTINUOUS VERTICAL SPRAYING OF BODIES SUCH AS CANS - A vertical internal coating machine is taught, which may be used with bodies such as cans ( | 03-17-2016 |
20160074901 | PROCESS FOR COATING CONTAINERS - A process for coating inside a container includes rotating the container about its imaginary vertical axis while simultaneously lowering airless spray nozzles along the vertical axis of the container into the cavity through the opening end and moving the nozzles back up and out of the container. Spray nozzles are used to apply a liquid coating at a spray pressure of about 100 to about 800 psi (6.89 to 55.16 bar) and at an angle of about 0 to about 120 degrees relative to the vertical axis, simultaneously with nozzle movement, to at least a portion of the inner surface while the container is rotating and the nozzles are moving along the vertical axis. The container is thereby coated on its inner surface to form an internally coated container. | 03-17-2016 |
427234000 | Metal base | 1 |
20150093505 | Rotolined Articles - The present invention relates to the field of steel pipes and vessels rotolined with metallocene-produced polyethylene. | 04-02-2015 |