An apparatus and method for producing a coated analytic substrate using a compact and portable automated instrument located in the laboratory setting at the point of use which can consistently produce one or a plurality of coated analytic substrates “on demand” for using the analytic substrate immediately after coating, preferably without a step of rinsing the coated analytic substrate before use. The apparatus preferably uses applicator cartridges having a reservoir containing the coating compositions used to form the coatings. Preferably the cartridges are removable and interchangeable to facilitate the production of individual analytic substrates having different coatings or different coating patterns. These coated analytic substrates have superior specimen adhesion characteristics due to the improved quality of the coatings applied by the coating apparatus and due to the quickness with which the coated analytic substrates can be used in the lab after production.

The present disclosure provides a coating method for suppressing variations in a coating amount, a coating apparatus and a method for manufacturing a component. A coating method is employed, which includes: discharging a coating needle adhering to an adhesive from a nozzle; separating the adhesive into the tip of the coating needle and the nozzle; and adhering the adhesive to a first member. A coating apparatus is employed, which includes: a nozzle which holds the adhesive; a coating needle which is discharged from the nozzle in a state where the adhesive is adhered to the tip; and a control unit which controls moving speed of the coating needle to separate the adhesive into the tip of the coating needle and the nozzle.

A system for automatically dispensing a fluid from a deformable container onto a panel includes a primer head having a container receiver and a container deformer, the container receiver receiving and holding a container of primer thereat. An adapter is received into an opening of the container and is secured to a portion of the primer head, and the container is retained at the container receiver of the primer head. A primer tip is disposed at the adapter. With the container held at the container receiver and retained at the primer head, the primer head moves to position the primer tip at the panel. When the primer tip is positioned at the panel, the container deformer automatically operates to deform the container to cause a predetermined amount of primer to be dispensed from the container, through the adapter and to the primer tip and onto the panel.

A method of preparing a blank for forming a carton includes obtaining a blank, positioning the blank in a blank feeder assembly of a system for preparing blanks, moving the blank from the blank feeder assembly to a conveyor assembly of the system, and activating the conveyor assembly to move the blank along a coating applicator assembly of the system, the coating applicator assembly having a container defining a reservoir holding a volume of a coating and an applicator wheel rotatably supported at least partially in the reservoir of the coating applicator assembly. The method further includes applying a portion of the coating from the reservoir to a portion of the blank.

A fluid applicator for use in a fluid application system includes a base plate comprising at least one rail and a housing slidably coupled to the base plate. The fluid applicator also includes a plurality of fluid permeable pads positioned within the housing and a fluid delivery conduit coupled to the base plate and to the housing. The fluid applicator further includes an actuator configured to selectively move the housing and the plurality of pads along the rails between a first position and a second position. The plurality of fluid permeable pads are in flow communication with the fluid delivery conduit in the first position, and the plurality of fluid permeable pads are prevented from being in flow communication with the fluid delivery conduit in the second position.

An apparatus and method for producing a coated analytic substrate using a compact and portable automated instrument located in the laboratory setting at the point of use which can consistently produce one or a plurality of coated analytic substrates “on demand” for using the analytic substrate immediately after coating, preferably without a step of rinsing the coated analytic substrate before use. The apparatus preferably uses applicator cartridges having a reservoir containing the coating compositions used to form the coatings. Preferably the cartridges are removable and interchangeable to facilitate the production of individual analytic substrates having different coatings or different coating patterns. These coated analytic substrates have superior specimen adhesion characteristics due to the improved quality of the coatings applied by the coating apparatus and due to the quickness with which the coated analytic substrates can be used in the lab after production.

A fluid application system includes a pair of identical, spaced apart, fluid applicators that each include a fluid permeable pad saturated with fluid. In one implementation, each applicator includes a pair of conduits coupled to a base plate, wherein each conduit includes a slot configured to receive an end of the pad. In another embodiment, each applicator defines a reservoir between adjacent plates and channels fluid from the reservoir though openings in the plate to the pad. In another implementation, each of the applicators includes a base plate, a conduit coupled to the base plate, and a housing slidably coupled to the base plate. The housing includes a plurality of pads and is moveable to selectively prevent fluid flow between the conduit and the pads in a first position or to couple the pads in fluid communication with the conduit in the second position.

An apparatus and method for producing a coated analytic substrate using a compact and portable automated instrument located in the laboratory setting at the point of use which can consistently produce one or a plurality of coated analytic substrates “on demand” for using the analytic substrate immediately after coating, preferably without a step of rinsing the coated analytic substrate before use. The apparatus preferably uses applicator cartridges having a reservoir containing the coating compositions used to form the coatings. Preferably the cartridges are removable and interchangeable to facilitate the production of individual analytic substrates having different coatings or different coating patterns. These coated analytic substrates have superior specimen adhesion characteristics due to the improved quality of the coatings applied by the coating apparatus and due to the quickness with which the coated analytic substrates can be used in the lab after production.

A flow aid for an infusion arrangement for infiltrating a resin into a fiber material, wherein at least two different resin-permeable plies, which lie atop one another and are joined to one another in the region of their faces lying atop one another, with one ply being a peel ply which on its exposed face is covered sectionally or over the full area with an adhesive agent, which is covered with a removable protective ply, or which can be activated after the mounting of the flow aid.

The present disclosure provides a coating method for suppressing variations in a coating amount, a coating apparatus and a method for manufacturing a component. A coating method is employed, which includes: discharging a coating needle adhering to an adhesive from a nozzle; separating the adhesive into the tip of the coating needle and the nozzle; and adhering the adhesive to a first member. A coating apparatus is employed, which includes: a nozzle which holds the adhesive; a coating needle which is discharged from the nozzle in a state where the adhesive is adhered to the tip; and a control unit which controls moving speed of the coating needle to separate the adhesive into the tip of the coating needle and the nozzle.