Relocation module and methods for surgical equipment

What is claimed is: 1 . A network of automated data consolidation modules including a system to receive and record data produced by medical equipment, the network of automated data consolidation modules comprising: two or more modules in electronic communication with each other to at least partially form the network of automated consolidation modules, each module comprising: at least one machine vision digital camera in electronic communication with processing circuitry and software, the processing circuitry and software configured to document healthcare events based on images generated by the at least one machine vision digital camera; wherein each of the at least one machine vision digital camera is mounted in a fixed position relative to a medical equipment item or a patient that is being observed by the at least one machine vision digital camera, thereby creating a structured scene based on the images, for the processing circuitry and software to analyze; wherein the processing circuitry and software is programmed or taught where germane areas are located within the structured scene and wherein the processing circuitry and software is programmed or taught to focus image identification on the germane areas; wherein the at least one machine vision digital camera is locatable to generate the images of IV fluids in an IV fluid drip chamber, wherein the structured scene is a lower portion of a bag of IV fluids including the IV fluid drip chamber and tubing, and wherein the germane areas of the structured scene includes the IV fluid drip chamber; and wherein the processing circuitry and software are configured to count a number of drops in the IV fluid drip chamber using the images of the IV fluids in the IV fluid drip chamber. 2 . The network of automated data consolidation modules of claim 1 , wherein the two or more modules are connected by one or more hard wires to support electronic communications between the two or more modules. 3 . The network of automated data consolidation modules of claim 1 , wherein the two or more modules are configured to wirelessly communicate therebetween. 4 . The network of automated data consolidation modules of claim 1 , wherein the two or more modules are locatable at patient care locations throughout an institutional healthcare setting, including one or more of an operating room (OR), an emergency department (ED), an intensive care unit (ICU), a ward, a radiology department, a physical therapy department, a laboratory, and a long-term care department. 5 . The network of automated data consolidation modules of claim 4 , wherein the two or more modules are configured to interface with a patient as the patient passes through the institutional healthcare setting, and wherein the two or more modules are configured to communicate with each other through the network. 6 . The network of automated data consolidation modules of claim 5 , wherein the two or more modules are configured to: determine a first module of the two or more modules with which the patient is interfacing; determine a second module of the two or more modules with which the patient was interfacing; determine whether the first module has received a patient data set associated with the patient from the second module; and transmit the patient data set from the first module to the second module when the first module has not received the patient data set from the second module. 7 . The network of automated data consolidation modules of claim 5 , wherein the two or more modules interfacing with a patient are configured to communicate directly with each other through the network as the patient passes through the institutional healthcare setting, allowing transfer of a patient data set directly to the module currently interfacing with the patient and avoiding transfer of data through an electronic medical record of the institutional healthcare setting. 8 . The network of automated data consolidation modules of claim 1 , wherein the two or more modules are configured to operate as nodes in batch computing, and are configured to cooperate to break big computing tasks into multiple smaller computing tasks. 9 . The network of automated data consolidation modules of claim 1 , comprising: a hanger configured to support an IV bag; and an electronic scale in electronic communication with a processor, wherein the electronic scale is configured to measure a combined weight of the IV bag, the IV fluid drip chamber, IV tubing, and fluids in the IV bag, and wherein the processor is configured to determine a reduction in the measured combined weight over time to determine a weight of the IV fluids infused over time and convert the measured combined weight over time to a fluid flow rate and an infused fluid volume. 10 . The network of automated data consolidation modules of claim 1 , comprising: a hanger configured to receive an IV bag; an electronic scale in electronic communication with a processor, wherein the hanger is configured to support the IV bag; wherein the at least one machine vision digital camera is located adjacent to the IV fluid drip chamber, and wherein the processing circuitry is configured to determine a volume of fluid flowing from the IV bag by determining a size of drops and a number of the drops per unit time to calculate a fluid flow rate, wherein the electronic scale is configured to measure a combined weight of the IV bag, the IV fluid drip chamber, IV tubing, and the fluid in the IV bag, and wherein the processing circuitry is configured to determine a reduction in the measured combined weight over time to determine a weight of the IV fluids infused over time and convert the measured combined weight over time to the fluid flow rate and an infused fluid volume, wherein at higher flow rates, when the drops in the IV fluid drip chamber coalesce into a fluid stream that is un-interpretable by the at least one machine vision digital camera, and processing circuitry and software fail to identify individual drops, the processing circuitry and software are configured to measure the fluid flow rate by determining a reduction of the combined weight of the IV bag, the IV fluid drip chamber, the IV tubing and the fluid in the IV bag over time. 11 . The network of automated data consolidation modules of claim 1 , wherein the at least one machine vision digital camera is locatable to document delivery of IV medication from a syringe by measuring a distance of movement of a plunger of the syringe, wherein the structured scene includes a syringe barrel, and wherein the germane areas of the structured scene includes a rubber plunger seal. 12 . The network of automated data consolidation modules of claim 1 , wherein the at least one machine vision digital camera is locatable to document delivery of IV medication from a syringe by measuring a distance of movement of a plunger of the syringe, wherein the structured scene includes a syringe barrel, and wherein the germane area of the structured scene includes a visible scale printed on the syringe barrel. 13 . The network of automated data consolidation modules of claim 12 , wherein the at least one machine vision digital camera is locatable to document delivery of the IV medication from the syringe by measuring the distance of movement of the plunger of the syringe, by detecting the movement of a rubber plunger seal against the visible scale printed on the syringe barrel and recognizing numerical markings printed on the visible scale to determine an injected volume. 14 . The network of automated data consolidation modules of claim 13 , wherein the processing circuitry