Medical device, and multi-working mode monitoring configuration method and apparatus used for medical device

What is claimed is: 1. A method for setting multiple working modes of a medical device, performed by the medical device and comprising: obtaining medical data of a monitored object; determining a vital sign state of the monitored object according to the medical data, wherein the vital sign state comprises a surgical induction state, a surgical maintenance state, and a surgical recovery state; determining from a working mode library, a target working mode corresponding to the vital sign state, wherein the working mode library comprises a plurality of working modes, and provides a correspondence between each working mode and a corresponding vital sign state, wherein the target working mode is selected from a surgical induction mode corresponding to the surgical induction state, a surgical maintenance mode corresponding to the surgical maintenance state, and a surgical recovery mode corresponding to the surgical recovery state; automatically executing the target working mode on the medical device; and switching among the surgical induction mode, the surgical maintenance mode and the surgical recovery mode according to changes in the vital sign state of the monitored object, wherein the target working mode comprises a workflow set, a tool set associated with the workflow set, and constraint conditions for executing workflows in the workflow set, the tool set associated with the workflow set is a set of application tools, and each of the application tools is a module used during execution of a workflow of the medical device for implementing a specific function; and automatically executing the target working mode comprises: automatically executing in sequence the workflows in the workflow set according to the constraint conditions, calling application tools associated with the workflows during execution, and loading functions implemented by the application tools. 2. The method of claim 1 , wherein the medical data comprises any one or more of: personal information data, physiological data, nursing data, or treatment data of the monitored object. 3. The method of claim 1 , wherein obtaining the medical data of the monitored object comprises any one or more of: reading the medical data of the monitored object from a wearable device of the monitored object; searching for the medical data corresponding to the monitored object from an electronic medical record system; identifying the medical data from a signal of a vital sign parameter acquired by a vital sign parameter acquisition apparatus; and receiving the medical data about the monitored object that is entered by a user. 4. The method of claim 1 , wherein the vital sign state comprises a neonatal intensive care state and a neonatal general care state, and the target working mode comprises a neonatal intensive care mode corresponding to the neonatal intensive care state and a neonatal general care mode corresponding to the neonatal general care state; and the method further comprises: when it is determined that the vital sign state of the monitored object has changed from the neonatal intensive care state to the neonatal general care state, determining that the target working mode is to be switched from the neonatal intensive care mode to the neonatal general care mode; or the vital sign state comprises a condition monitoring state and a condition recovery state, and the target working mode comprises a condition monitoring mode corresponding to the condition monitoring state and a condition recovery mode corresponding to the condition recovery state; and the method further comprises: when it is determined that the vital sign state of the monitored object has changed from the condition monitoring state to the condition recovery state, determining that the target working mode is to be switched from the condition monitoring mode to the condition recovery mode. 5. The method of claim 1 , comprising: when it is determined that the vital sign state of the monitored object is the surgical induction state, selecting the target working mode as the surgical induction mode, wherein the surgical induction mode comprises display interface layout configuration information and workflow configuration information related to the medical device during a surgical induction stage; when it is determined that the vital sign state of the monitored object has changed from the surgical induction state to the surgical maintenance state, switching the target working mode from the surgical induction mode to the surgical maintenance mode, wherein the surgical maintenance mode comprises display interface layout configuration information and workflow configuration information related to the medical device during a surgical maintenance stage; and when it is determined that the vital sign state of the monitored object has changed from the surgical maintenance state to the surgical recovery state, switching the target working mode from the surgical maintenance mode to the surgical recovery mode, wherein the surgical recovery mode comprises display interface layout configuration information and workflow configuration information related to the medical device during a surgical recovery stage. 6. The method of claim 1 , wherein determining the vital sign state of the monitored object according to the medical data comprises: obtaining a monitoring scenario selected by a user for the monitored object, wherein the monitoring scenario is associated with one or more vital sign states; and determining, based on the medical data, one of the vital sign states associated with the monitoring scenario as a current vital sign state of the monitored object. 7. The method of claim 1 , wherein the target working mode comprises at least one of display interface layout configuration information of the medical device and workflow configuration information of the medical device. 8. The method of claim 1 , further comprising: receiving a processing instruction for the target working mode, wherein the processing instruction comprises any one or more of: editing, addition, and deletion of the plurality of working modes in the working mode library; and processing the target working mode according to the processing instruction. 9. The method of claim 1 , wherein in a neonatal intensive care mode, the workflow set comprises a multi-parameter monitoring workflow, and the tool set associated with the workflow set comprises four application tools: an apnea analyzer, a physiological parameter value distribution statistics module, a critical congenital heart disease screening module, and a discharge evaluation module.