Techniques for sensing material flow rate in automated extrusion

摘要

An extrusion construction system may include an extrusion nozzle, a channeling element coupled to the extrusion nozzle and to a source of construction material, the channeling element configured to transport the material to the extrusion nozzle for extruding the material onto a surface, wherein a surface of the channeling element comprises a transparent substrate such that a flow of the material is viewable through the substrate, an imaging device configured to capture a plurality of images through the substrate of the material flow, and a controller configured to estimate a flow rate based on the plurality of images.

主权项

1. An extrusion construction system comprising:
an extrusion nozzle; a channeling element coupled to the extrusion nozzle and configured to be coupled to a source of construction material, the channeling element configured to transport the material to the extrusion nozzle for extruding the material onto a surface; wherein a surface of the channeling element comprises a transparent substrate such that a flow of the material is viewable through the substrate; an optical imaging device configured to view the material through the substrate and, in conjunction with a related imaging algorithm, provide a signal that is indicative of the flow rate of the material through the channeling element based on the material flow that is viewed, wherein at least one of the following:
the construction material is uncured cement that includes sand particles and the optical imaging device and related imaging algorithm are configured to provide a signal that is indicative of the flow rate based on the flow that is viewed of the sand within the uncured cement;the channeling element further comprises at least one additional transparent substrate disposed at one or more other locations on the surface, the material flow being visible through the at least one additional substrate, and wherein the optical imaging device and related algorithm are configured to provide a signal that is indicative of the flow rate of the material based on an average of the material flow that is viewed by the optical imaging device through all of the transparent substrates;the channeling element further comprises one or more tubes located downstream of where the channeling element is coupled to the source of construction material and upstream of the substrate that inject gas bubbles into the material flow, the gas bubbles being visible through the substrate, and wherein the signal which is indicative of the flow rate is indicative of the flow rate of the gas bubbles; orthe channeling element further comprises one or more tubes located upstream of the substrate and downstream of a source of the construction material that inject a plurality of substantially discrete masses within the material flow that are visible through the substrate and that are visibly distinguishable from the material, and wherein the signal is indicative of the flow rate of the discrete masses.