A method for depositing a structure comprising interdigitated materials includes merging flows of at least two materials in a first direction into a first combined flow, dividing the first combined flow in a second direction to produce at least two separate flows, wherein the second direction is perpendicular to the first direction, and merging the two separate flows into a second combined flow.

A coating system and a coating method are provided. The coating system includes: a coating device, a detecting device, and an adjusting device, wherein, the coating device is configured for applying a coating material on a substrate; the detecting device is configured for detecting a film thickness of the coating material at a measuring point when the coating device is applying the coating material and sending the detected film thickness to the adjusting device; the adjusting device is configured for selectively generating a preset feeding speed according to the film thickness and sends the preset feeding speed to the coating device. The coating system and the coating method are capable of adjusting film thickness in real time.

A coating system and a coating method are provided. The coating system includes: a coating device, a detecting device, and an adjusting device, wherein, the coating device is configured for applying a coating material on a substrate; the detecting device is configured for detecting a film thickness of the coating material at a measuring point when the coating device is applying the coating material and sending the detected film thickness to the adjusting device; the adjusting device is configured for selectively generating a preset feeding speed according to the film thickness and sends the preset feeding speed to the coating device. The coating system and the coating method are capable of adjusting film thickness in real time.

A fluid dispensing apparatus and method is disclosed. Systems include an in-line or linear bladder apparatus array configured to expand to collect a charge of fluid, and contract to assist with fluid delivery and dispensing. The bladder array is disposed within a chamber of pressure control fluid common to exterior surfaces of each bladder in the bladder array. Simultaneously, some bladders within the array of linear bladders can be dispensing fluid or maintaining fluid while some bladders are collecting fluid. A given filtration rate can be less than a dispense rate and thus the system herein compensates for filter-lag that often accompanies fluid filtering for microfabrication, while providing a generally linear configuration that reduces chances for defect creation. With multiple bladders, multiple different types of fluid can be readied for selective dispense.

A fluid dispensing apparatus and method is disclosed. Systems include an in-line or linear bladder apparatus array configured to expand to collect a charge of fluid, and contract to assist with fluid delivery and dispensing. The bladder array is disposed within a chamber of pressure control fluid common to exterior surfaces of each bladder in the bladder array. Simultaneously, some bladders within the array of linear bladders can be dispensing fluid or maintaining fluid while some bladders are collecting fluid. A given filtration rate can be less than a dispense rate and thus the system herein compensates for filter-lag that often accompanies fluid filtering for microfabrication, while providing a generally linear configuration that reduces chances for defect creation. With multiple bladders, multiple different types of fluid can be readied for selective dispense.

A seed treatment system having a central computerized data store, a user interface, and network connections from the data store to a plurality of retail facilities and a plurality of agricultural produce suppliers. Each retail facility having a seed treatment system configured to uniformly treat batches of seeds with any of a variety of precisely measured chemical formulations. The seed treatment apparatus having a treatment applicator coupled to a plurality of dispensing stations. Each dispensing stations having a pump in fluid communication with a container disposed on a scale. The pump and scale of each dispensing station coupled to a system controller. The system controller is coupled to the data store, configured to provide on-demand agricultural seed treatments to the applicator and chemical usage data from each station to the data store. The data store configured to provide centralized remote monitoring inventory control, supply chain monitoring, and container recycling compliance.

A fluid application device includes an applicator head and a nozzle assembly fluidically coupled to the applicator head. The nozzle assembly includes a first conduit configured to receive a first fluid from the applicator head, the first conduit having a first inlet configured to receive the first fluid and a flow-distributing channel downstream from, and in fluid communication with the fluid inlet, the flow-distributing channel configured to direct the first fluid in a lateral direction. The nozzle assembly further includes an application conduit having a first fluid receiving section configured to receive the first fluid from the flow-distributing channel, and an orifice fluidically connected to the application conduit, the orifice configured to discharge the first fluid for application onto a strand of material.

A seed treatment system having a central computerized data store, a user interface, and network connections from the data store to a plurality of retail facilities and a plurality of agricultural produce suppliers. Each retail facility having a seed treatment system configured to uniformly treat batches of seeds with any of a variety of precisely measured chemical formulations. The seed treatment apparatus having a treatment applicator coupled to a plurality of dispensing stations. Each dispensing stations having a pump in fluid communication with a container disposed on a scale. The pump and scale of each dispensing station coupled to a system controller. The system controller is coupled to the data store, configured to provide on-demand agricultural seed treatments to the applicator and chemical usage data from each station to the data store. The data store configured to provide centralized remote monitoring inventory control, supply chain monitoring, and container recycling compliance.

An automated seed treatment system is adapted for on-site operation at a retail seed distributor. A sealed seed-treater vessel is configured to apply a plurality of chemical treatments to a batch of seed based on a recipe. A programmable system controller is electrically coupled to pump controllers of pump-stations. The controller is configured to receive a material transfer indication from each pump-stations and control the pump controllers in accord with the seed treatment recipe. The programmable system controller is configured to collect operational data representing at least consumption of chemical from the chemical container at each of the pump-stations based on the corresponding material transfer indication during seed treatment and to provide the operational data to a remotely hosted information system located remotely from the site of the retail seed distributor and accessible to at least one third party that is distinct from the retail seed distributor.

A fluid application device having a contact nozzle assembly with a fluidic oscillator is provided. The fluid application device includes an applicator head and a nozzle assembly. The nozzle assembly includes a first conduit configured to receive a first fluid from the applicator head, a second conduit configured to receive a second fluid from the applicator head and an application conduit including a receptacle and first and second branches. The receptacle is fluidically connected with the first conduit and configured to receive the first fluid. The first and second branches are fluidically connected to the second conduit and receptacle and are configured to receive the second fluid. The nozzle assembly further includes an orifice fluidically connected to the application conduit and configured to discharge the first fluid for application onto a strand of material, and a guide slot extending from the orifice and configured to receive the strand of material.