Wearable device used for detection of cardiovascular system of user

What is claimed is: 1. A wearable device capable of measuring a blood pressure of a cardiovascular system of a user, and the wearable device can be operable in a connected state and a disconnected state, the wearable device comprising: an attachment component capable of attaching the wearable device to a limb part of the user comprising a connecting mechanism used to determine whether the attachment component is in a connected configuration or in a disconnected configuration, wherein the attachment component is capable of being switched between the connected configuration and the disconnected configuration; a blood pressure measurement module comprising an expander, an actuator, and a blood pressure measurement sensor, wherein the expander is capable of being disposed on the limb part and contacting the user in a non-invasive manner, wherein the expander is in communication with the actuator through a ventilation channel, wherein the actuator comprises a valve device and at least one gas transmission device, and wherein the at least one gas transmission device is disposed on one side of the valve device, wherein the valve device comprises a convergence plate, at least one chamber plate, and at least one valve sheet, wherein the convergence plate has a convergence outlet and a plurality of guiding channels in communication with the convergence outlet, wherein a plurality of convergence plate assembly areas is defined on the convergence plate, wherein the convergence outlet is on the center of the convergence plate, wherein the convergence plate assembly areas are on a periphery of the convergence outlet, and each of the convergence plate assembly areas has a convergence trough, a convergence plate convex portion, a discharge trough, and a discharge outlet, wherein each of the guiding channels extends outward from the discharge outlet to communicate with the convergence trough in each of the plurality of convergence plate assembly areas, and each of the guiding channels is in communication between the convergence trough and the discharge trough in each of the plurality of convergence plate assembly areas, and wherein the convergence plate convex portion protrudes from the discharge trough and is surrounded by the discharge trough, and wherein the discharge outlet is disposed at a central portion of the convergence plate convex portion, wherein the convergence plate is disposed on each of the at least one chamber plate, and wherein a flow guiding chamber and a receiving trough are disposed in a portion of the at least one chamber plate corresponding to each of the plurality of convergence plate assembly areas of the convergence plate, wherein the flow guiding chamber and the receiving trough are respectively disposed on two opposite surfaces of the at least one chamber plate, and the flow guiding chamber corresponds to the convergence trough of the convergence plate and is in communication with the convergence trough, wherein a confluence chamber is disposed on a bottom of the receiving trough, and a plurality of communication holes are disposed on a bottom of the confluence chamber to communicate with the flow guiding chamber, and wherein a chamber plate convex portion is disposed in the flow guiding chamber and is surrounded by the communication holes, and wherein a second hole is disposed on a portion of the at least one chamber plate corresponding to the discharge trough of each of the plurality of convergence plate assembly areas of the convergence plate, and the second hole is in communication with the confluence chamber, wherein the at least one valve sheet is between the convergence plate and the at least one chamber plate, and the at least one valve sheet correspondingly abuts against the chamber plate convex portion in the at least one chamber plate, wherein a valve hole is disposed on the at least one valve sheet and corresponds to the chamber plate convex portion, so that the valve hole is sealed by the chamber plate convex portion, and wherein the at least one valve sheet abuts against the convergence plate convex portion in each of the plurality of convergence plate assembly areas of the convergence plate so as to seal the discharge outlet, and wherein the expander is capable of being controlled by the actuator to be inflated and enable the blood pressure measurement sensor to measure a blood pressure or a pulse in the cardiovascular system of the user; a sensor capable of detecting the limb part of the user; wherein the wearable device determines a timing when the attachment component is switched from the disconnected configuration to the connected configuration based on a condition of the connecting mechanism, and the wearable device is switched to the connected state from the disconnected state as the attachment component is determined to be connected to the wearable device; and wherein when the wearable device is operated in the disconnected state and determines that the attachment component is switched from the disconnected configuration to the connected configuration, the wearable device checks whether the sensor detects the limb part of the user. 2. The wearable device according to claim 1 , wherein the sensor comprises a photo-plethysmographic sensor. 3. The wearable device according to claim 2 , wherein the blood pressure measurement module drives the actuator to inflate the expander so as to measure the blood pressure or the pulse of the user, to generate a measured data, and to transmit the measured data to a processor; and wherein the measured data is processed by the processor so as to be served as a basis for the photo-plethysmography sensor to perform initial calibration calculation. 4. The wearable device according to claim 1 , wherein the sensor comprises a proximity sensor. 5. The wearable device according to claim 1 , wherein the wearable device is configured to be operated in the connected state when the attachment component is attached to the limb part of the user. 6. The wearable device according to claim 1 , wherein the wearable device is configured to be operated in the disconnected state when the attachment component is not attached to the limb part of the user. 7. The wearable device according to claim 1 , further comprising a first contact and a second contact, wherein the wearable device determines whether the attachment component is in the disconnected configuration or in the connected configuration by measuring the conductivity coefficient between the first contact and the second contact. 8. The wearable device according to claim 1 , wherein the attachment component comprises a first portion and a second portion, wherein the first portion is coupled to the second portion by a first magnetic element and a second magnetic element when the attachment component is in the connected configuration; the first portion is detached from the second portion by decoupling between the first magnetic element and the second magnetic element when the attachment component is in the disconnected configuration; and the wearable device measures a magnetic field of the first magnetic element and a magnetic field of the second magnetic element by a Hall-effect sensor so as to determine whether the attachment component is in the connected configuration or in the disconnected configuration. 9. The wearable device according to claim 1 , wherein when the gas transmission device is not in operation, gas at the convergence outlet of the convergence plate is capable of being guided into the convergence trough through each of the guiding channels, whereby the gas pushes the valve sheet to move, so that the valve hole of the valve sheet abuts against the chamber plate convex portion so as to be sealed, and the gas further flows into the dischar