Abstract: An inflatable charging device is applied to a shoe. The shoe includes a shoe body and a bottom part connected therewith. The inflatable charging device includes an inflatable cushion, an air pump, an air passage, a weight sensor, an air pressure sensor, a control module, and a charging power source. When the weight sensor detects a load, the weight sensor sends an enabling signal to the control module, and the control module drives the air pump to operate according to the enabling signal, so that the inflatable cushion is inflated and expanded. When the air pressure sensor detects the pressure inside the inflatable cushion is higher than a specific threshold interval, the air pressure sensor sends a disabling signal to the control module and the control module accordingly stops the operation of the air pump.

Abstract: An electronic cigarette includes a power supply device, an atomizer, a liquid storage structure, a fluid transportation device and a sensing unit. The atomizer includes an electric heater. The liquid storage structure includes a passageway and a liquid container for storing cigarette liquid. The fluid transportation device is in communication with the liquid container and the atomizer for transferring the cigarette liquid to the atomizer at a certain amount. Consequently, an atomized vapor is generated. The sensing unit includes an airflow sensor and an air pressure sensor. The power supply device is selectively enabled or disabled according to a result of detecting the airflow by the airflow sensor, and the air pressure sensor issues a detection signal to the control module according to a result of detecting a pressure of the airflow so as to adjust a speed of atomizing the cigarette liquid and the speed of providing the cigarette liquid.

Abstract: An electronic cigarette includes a power supply device, a sensing unit, an atomizer, a liquid storage structure and a fluid transportation device. The atomizer includes an electric heater and a liquid conduit. The liquid conduit has an input port at one end and plural perforations at the other end, and the electric heater is disposed around the liquid conduit. The liquid storage structure includes a passageway and a liquid container. A cigarette liquid is stored in the liquid container. The fluid transportation device includes an input channel and an output channel. The input channel is in communication with the liquid container. The output channel is in communication with the liquid conduit of the atomizer. The cigarette liquid is transferred to the atomizer at a certain amount. Consequently, an atomized vapor is generated.

Abstract: A pneumatic elastic band includes an outer portion, an inflatable portion and a nozzle. The outer portion has a strip-shaped structure with elasticity. The inflatable portion includes a plurality of expansion portions and a plurality of communication portions. Each of the communication portions is connected between two of the expansion portions adjacent to each other for defining a plurality of gaps. The nozzle is disposed on a surface of the outer portion and communicated with the inflatable portion. When a gas is guided into the inflatable portion through the nozzle, the plurality of expansion portions of the inflatable portion are inflated to fill the gaps and make the inflatable portion contract inwardly, so that the outer portion contracts inwardly and deforms, wherein when the gas is guided out of the inflatable portion, the inflatable portion is deflated and loosened to return to an uninflated state to loosen the shoe.

Abstract: An electronic device includes a casing, a speaker enclosure and an actuating and sensing module. The casing has an opening. The speaker enclosure is disposed within the casing to enclose a speaker. The speaker enclosure is in communication with the opening of the casing. The actuating and sensing module is disposed within the speaker enclosure. The actuating and sensing module comprises a fluid transportation device and a sensor. The fluid transportation device is driven to transport a fluid from outside the casing into the speaker enclosure through the opening of the casing to make the fluid sensed by the sensor.

Abstract: The actuator includes a suspension plate, an outer frame, at least one bracket and a piezoelectric plate. The suspension plate includes a first surface and a second surface and is capable of bending and vibrating. The outer frame surrounds a periphery of the suspension plate. The at least one bracket is connected between the suspension plate and the outer frame for supporting the suspension plate. The piezoelectric plate includes a first electrode and a second electrode made of silver palladium alloy doped with graphene. The first electrode is coated with a conducting layer made of graphene-doped paint, and the second electrode is coated with an adhesive layer made of graphene-doped epoxy glue. The adhesive layer is configured to attach and in adhesion with the first surface of the suspension plate. A voltage is applied to the first electrode and the second electrode to make the suspension plate bend and vibrate.

Abstract: A three-dimensional integrated circuit cooling system is provided for removing heat from a three-dimensional integrated circuit. Plural fluid microchannels are formed among plural middle chip layers and a main chip layer of the three-dimensional integrated circuit. The three-dimensional integrated circuit cooling system comprises a base and a fluid pump. The base has an introduction opening, a discharge opening and a fluid passage. The fluid pump is fixed on the base and seals the edge of the introduction opening. When the fluid pump is enabled, an ambient fluid is driven by the fluid pump, introduced into the fluid passage through the introduction opening, and discharged through the discharge opening. The discharged fluid passes along every fluid microchannel of the three-dimensional integrated circuit as flowing through the plural middle chip layers and the main chip layer so as to perform heat exchange therewith.

Abstract: A driving and information transmitting system for a sensing module includes a sensing device, a power supply device and a connection device. The sensing device includes a sensor, a microprocessor, a power controller and a data transceiver. The power supply device transfers an energy to the power controller, thereby enabling the sensor. After a monitored data sensed by the at least one sensor is transmitted to the microprocessor, the monitored data is processed into an output data by the microprocessor. After the output data is received by the data transceiver, the output data is transmitted from the data transceiver to the connection device. After a control command from the connection device is received by the data transceiver, the control command is transmitted to the microprocessor to control the sensor.

Abstract: A VOC detecting and warning method is provided. Firstly, an actuating-and-sensing module having a gas transportation actuator and a gas sensor is provided. Then, the gas transportation actuator guides a specified amount of gas to the gas sensor for obtaining plural monitored values, each of which is generated according to a result of detecting volatile organic compounds of the gas in each monitoring time interval by the gas sensor. All the monitored values obtained in a unit time period are added together and calculated, so that an average comparison value is obtained. If the average comparison value is determined greater than an injury threshold defined according to the VOC inhalation amount affecting the health of a human body, the actuating-and-sensing module issues a warning notification to notify the user to take protective measures.

Abstract: A gas detecting device includes an actuating-and-sensing module, a driving controller, a data storage device and a data processor. The actuating-and-sensing module includes a first gas sensor, a second gas sensor and a gas transportation actuator. The driving controller controls the actuations and non-actuations of the first gas sensor, the second gas sensor and the gas transportation actuator. The first gas sensor measures the target gas and transmits first gas measured information to the data storage device. The second gas sensor measures the target gas and transmits second gas measured information to the data storage device. The data processor calculates concentrations of the gases in the target gas by comparing the information stored in a gas database, the first gas measured information and the second gas measured information.

Abstract: A blood glucose detection device includes a carrier body, a flow-guiding actuator, a microneedle patch, a sensor and a controlling chip. The carrier body has a liquid guiding channel, a compressing chamber and a liquid storage chamber. The flow-guiding actuator seals the compressing chamber. The microneedle patch is attached on the carrier body and has plural hollow microneedles. The sensor is disposed within the liquid storage chamber. The controlling chip is disposed on the carrier body. The plural hollow microneedles puncture the skin of a human subject with minimal invasion. The controlling chip controls the flow-guiding actuator to actuate and the tissue fluid is sucked into the liquid storage chamber through the plural hollow microneedles, whereby the sensor detects the blood glucose of the tissue fluid to generate and transmit the measured data to the controlling chip. The controlling chip can generate monitoring information by calculating the measured data.

Abstract: A micro pump is applied to be implanted into human's blood vessels and includes a substrate, a flow-guiding-and-actuating unit, plural switching valves, a driving chip and a micro-mirror. The substrate has plural guiding channels including an inlet channel, an outlet channel and a branch channel. The flow-guiding-and-actuating unit covers a compressing chamber, and is enabled to change the volume of the compressing chamber so as to transport fluid. When a communication connector of the driving chip receives an external command, the driving chip enables the flow-guiding-and-actuating unit and the micro-mirror, and controls the open/closed states of the switching valves covering an outlet aperture and a storage outlet, thereby the flow-guiding-and-actuating unit drives the fluid medicine from a storage chamber to the outlet aperture, so as to deliver the fluid medicine to a target blood vessel.

Abstract: A wearable liquid supplying device for human insulin injection is fixed on a body of human through a ring belt and includes a substrate, a flow-guiding-and-actuating unit, a sensor and a driving chip. The substrate has a liquid storage chamber. The flow-guiding-and-actuating unit has a liquid guiding channel in communication with a liquid storage outlet of the liquid storage chamber and a liquid guiding outlet. The sensor measures a blood glucose level and generates measured data correspondingly. The driving chip receives the measured data from the sensor and controls the actuation of the flow-guiding-and-actuating unit and the open/closed states of the switching valves. The flow-guiding-and-actuating unit is enabled to generate a pressure difference so that the insulin liquid is transported to the liquid guiding outlet through the liquid guiding channel and flows into the microneedle patch for allowing the microneedles to inject the insulin liquid into the subcutaneous tissue.

Abstract: A liquid supplying device for a human insulin injection includes a substrate, a liquid storage chamber, a flow-guiding-and-actuating unit, a sensor and a driving chip. The flow-guiding-and-actuating unit includes a liquid guiding channel having a liquid guiding outlet in fluid communication with a liquid storage outlet of the liquid storage chamber. The sensor contacts with the human skin to measure a blood glucose level contained in sweat. The driving chip is configured to control the actuation of the flow-guiding-and-actuating unit, control open/closed states of the switching valves and receive the measured data from the sensor for determination. By driving the flow-guiding-and-actuating unit, a pressure gradient is generated, and an insulin liquid stored in the liquid storage chamber is transported to the liquid guiding outlet through the liquid guiding channel, flowing into a microneedle patch, and injected into a subcutaneous tissue through a plurality of hollow microneedles.

Abstract: A wearable liquid supplying device for insulin injection is fixed on a user's body through a ring belt and includes a carrier body, a flow-guiding-and-actuating unit, a sensor, an air bag, a miniature air pump and a driving chip. The sensor measures sweat on human skin to detect a level of the blood glucose. The driving chip receives the glucose monitoring data and accordingly controls the actuation of the flow-guiding-and-actuating unit and the open/closed states of the switching valves. The miniature air pump is enabled to inhale gas into the air bag, so that the air bag is inflated and the ring belt contacts the human skin tightly. The flow-guiding-and-actuating unit is enabled to generate a pressure difference so that the insulin liquid is transported to a liquid guiding outlet through a liquid guiding channel and flows into the microneedle patch for being injected into the subcutaneous tissue.

Abstract: A driving module for an electronic cigarette is provided. The electronic cigarette includes a casing, a mouthpiece, a sensing unit, an atomization component, a liquid storage component and a fluid transportation device. The driving module includes a battery, a connection interface, a power board and a control board. According to a control signal, a voltage of the driving power is converted into a specified voltage, and a driving signal is generated according to the specified voltage. According to the driving signal, the driving power with the specified voltage value is provided to the fluid transportation device to enable the fluid transportation device to transfer the cigarette liquid to the atomization component, and the driving power with the specified voltage value is provided to the atomization component to enable the atomization component to atomize the cigarette liquid and generate an atomized vapor.

Abstract: A fluid system includes a fluid active region, a fluid channel, a convergence chamber and plural valves. The fluid active region includes at least one fluid-guiding unit. The fluid-guiding unit is enabled under control to transport fluid to be discharged out through the outlet aperture. The fluid channel is in communication with the outlet aperture of the fluid active region, and has plural branch channels to split the fluid discharged from the fluid active region. The convergence chamber is in communication with the fluid channel. The valves each of which is disposed in the corresponding branch channel, wherein the fluid is discharged out through the branch channels according to opened/closed states of the valves under control. The fluid system of the present disclosure is capable of acquiring required flow rate, pressure and amount of the fluid to be transported.

Abstract: An actuating and sensing module is provided. The actuating and sensing module includes at least one sensor, at least one actuating device and a power storage member. The sensor is disposed for measuring fluid. The actuating device is disposed proximate to the sensor and is disposed for transporting the fluid. The power storage member is configured as a graphene battery and is disposed for providing power to the at least one sensor and the at least one actuating device for driving the at least one sensor and the at least one actuating device. The actuating device is driven to transport the fluid toward the sensor so as to make the fluid measured by the sensor.

Abstract: The actuator includes a suspension plate, an outer frame, at least one bracket and a piezoelectric plate. The suspension plate includes a first surface and a second surface and is capable of bending and vibrating. The outer frame surrounds a periphery of the suspension plate. The at least one bracket is connected between the suspension plate and the outer frame for supporting the suspension plate. The piezoelectric plate includes a first electrode and a second electrode made of silver palladium alloy doped with graphene. The first electrode is coated with a conducting layer made of graphene-doped paint, and the second electrode is coated with an adhesive layer made of graphene-doped epoxy glue. The adhesive layer is configured to attach and in adhesion with the first surface of the suspension plate. A voltage is applied to the first electrode and the second electrode to make the suspension plate bend and vibrate.

Abstract: An actuating and sensing module includes a first substrate, a second substrate, an actuating device and a sensor. A gas flow channel is formed by stacking the first substrate and the second substrate. The gas inlet, the gas flow channel and the gas outlet are in communication with each other to define a gas flow loop. The actuating device is disposed in the gas inlet of the second substrate and electrically connected to a control circuit to obtain a driving power. The sensor is disposed in the gas flow loop and electrically connected to a control circuit of the first substrate to transmit sensed data. While the actuating device drives outside gas from the outside, the gas is transported into the gas flow loop and sensed by the sensor.