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公开(公告)号:EP3517930A1
公开(公告)日:2019-07-31
申请号:EP18213479.1
申请日:2018-12-18
发明人: Mou, Hao-Jan , Hu, Hung-Chun , Kuo, Young-Chih , Chu, Jui-Yuan , Huang, Chien-Chih , Liu, Wen-Hsiung , Huang, Yi-Cheng , Liao, Wei-Chen , Hsieh, Chi-Chiang , Huang, Chi-Feng , Han, Yung-Lung
摘要: A gas detecting device (100) includes a casing (1), an optical mechanism (2), a gas transporting actuator (3), a laser module (4), a particle detector (5) and an external sensing module (6). The casing (1) includes a chamber (11), an inlet (12), an outlet (13) and a communication channel (14). The optical mechanism (2) is disposed in the chamber (11). The optical mechanism (2) includes an airflow channel (21) and a light-beam channel (22). The airflow channel (21) is in fluid communication with the at least one inlet (12) and the outlet (13). The light-beam channel (22) is in communication with the airflow channel (21). The gas transporting actuator (3, 8) is disposed on the optical mechanism (2). The laser module (4) is disposed in the optical mechanism (2) for emitting a light beam to the airflow channel (21). The particle detector (5) detects sizes and a concentration of the suspended particles in the air. The external sensing module (6) is installed in the communication channel (14) to measure the air.
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公开(公告)号:EP3456967A8
公开(公告)日:2019-07-10
申请号:EP18189127.6
申请日:2018-08-15
IPC分类号: F04B43/04 , F04B45/047
摘要: A gas transportation device (1) includes an inlet plate (17), a substrate (11), a resonance plate (13), an actuating plate (14), a piezoelectric component (15) and an outlet plate (16) stacked sequentially. The gas transportation device (1) includes a valve (10) disposed within at least one of the inlet (170) of the inlet plate (17) and the outlet (160) of the outlet plate (16). A first chamber (18) is formed between the resonance plate (13) and the actuating plate (14), and a second chamber (19) is formed between the actuating plate (14) and the outlet plate (16). When the piezoelectric component (15) drives the actuating plate (14), a pressure gradient is formed between the first and second chambers (18, 19) and the valve (10) is opened. Accordingly, gas is inhaled into the convergence chamber (12) via the inlet (170), transported into the first chamber (18) through a central aperture (130) of the resonance plate (13), transported into the second chamber (19) through a vacant space (143) of the actuating plate (14), and then discharged out from the outlet (160), so as to transport the gas.
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公开(公告)号:EP3457370A3
公开(公告)日:2019-06-12
申请号:EP18179000.7
申请日:2018-06-21
发明人: Mou, Hao-Jan , Hsueh, Ta-Wei , Mo, Li-Pang , Chen, Shih-Chang , Lin, Ching-Sung , Huang, Chi-Feng , Han, Yung-Lung
摘要: A driving and information transmitting system for an actuating and sensing module includes an actuating and sensing device (1), a power supply device (2) and a connection device (3). The actuating and sensing device (1) includes a sensor (12), an actuating device (13), a microprocessor (14), a power controller (15) and a data transceiver (16). The power supply device (2) transfers energy to the power controller (15), thereby enabling the sensor (12) and the actuating device (13). After a monitored data sensed by the at least one sensor (12) is transmitted to the microprocessor (14), the monitored data is processed into an output data by the microprocessor (14). After the output data is received by the data transceiver (16), the output data is transmitted from the data transceiver (16) to the connection device (3). After a control command from the connection device (3) is received by the data transceiver (16), the control command is transmitted to the microprocessor (14) to control the sensor (12) and enable the actuating device (13) according to the control demand.
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公开(公告)号:EP3479762A1
公开(公告)日:2019-05-08
申请号:EP18201151.0
申请日:2018-10-18
发明人: Mou, Hao-Jan , Hsueh, Ta-Wei , Han, Yung-Lung , Huang, Chi-Feng , Lee, Wei-Ming , Chen, Hsuan-Kai
IPC分类号: A61B5/022 , A61B5/0235
CPC分类号: A61B5/022 , A61B5/02141 , A61B5/02241 , A61B5/0235 , A61B5/02438 , A61B5/681 , A61B5/6824 , A61B5/6831 , A61B2560/0406 , A61B2562/0247
摘要: A wearable blood pressure measuring device (2) includes a strap structure (21), a micro gas pump (22) and a pressure sensor (24). The strap structure (21) is adapted to be worn by a user and has an outer surface (210) and an inner surface (211). The micro gas pump (22) is disposed on the strap structure (21). The pressure sensor (24) is combined with the micro gas pump (22) through an elastic medium (23), disposed on the inner surface (211) of the strap structure (21) and in contact with skin (11c) of the user for monitoring blood pressure. The micro gas pump (22) is operated to drive gas, wherein the gas is transported into the elastic medium (23) to inflate the elastic medium (23) with the gas. The expanded elastic medium (23) pushes the pressure sensor (24) to press against the skin (11c) of the user for facilitating measurement of a blood pressure of a target artery (11b) by a flattening and scanning operation.
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公开(公告)号:EP3447470A8
公开(公告)日:2019-04-10
申请号:EP18186769.8
申请日:2018-08-01
发明人: Mou, Hao-Jan , Liao, Jia-Yu , Chen, Shih-Chang , Chen, Shou-Hung , Chen, Mei-Yen , Huang, Chi-Feng , Lee, Wei-Ming
IPC分类号: G01N1/22 , G01N33/00 , H01L41/053 , H01L41/09 , H04M1/02
摘要: An actuating and sensing apparatus (1) includes a circuit board (10), a housing (11), an actuating device (12) and a sensor (13). The housing (11) is disposed on the circuit board (10) and has an inhale aperture (111a), a discharge aperture (111b) and a compartment (115). The compartment (115) is in communication with the exterior of the housing (11) through the inhale aperture (111a) and the discharge aperture (111b). The actuating device (12) is disposed within the compartment (115). The sensor (13) is disposed within the compartment (115) and corresponding in position to the inhale aperture (111a). When the actuating device (12) is driven, gas within the compartment (115) is guided to the exterior of the housing (11), and a pressure gradient is generated in the compartment (115) so as to introduce the gas from the exterior of the housing (11) into the compartment (115) through the inhale aperture (111a) to make the gas measured by the sensor (13).
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公开(公告)号:EP3462025A1
公开(公告)日:2019-04-03
申请号:EP18190134.9
申请日:2018-08-22
发明人: Mou, Hao-Jan , Chen, Shih-Chang , Mo, Li-Pang , Liao, Jia-Yu , Huang, Che-Wei , Huang, Chi-Feng
IPC分类号: F04B43/04 , F04B45/047
摘要: A fluid system (100) includes a fluid active region (10), a fluid channel (20), a convergence chamber (30) and plural valves (50, 50a, 50b, 50c, 50d). The fluid active region (10) includes at least one fluid-guiding unit (10a). The fluid-guiding unit (10a) is enabled under control to transport fluid to be discharged out through the outlet aperture (160). The fluid channel (20) is in communication with the outlet aperture (160) of the fluid active region (10), and has plural branch channels (20a, 20b, 21a, 22a, 21b, 22b) to split the fluid discharged from the fluid active region (10). The convergence chamber (30) is in communication with the fluid channel (20). The valves (50, 50a, 50b, 50c, 50d) each of which is disposed in the corresponding branch channel (21a, 22a, 21b, 22b), wherein the fluid is discharged out through the branch channels (21a, 22a, 21b, 22b) according to opened/closed states of the valves (50, 50a, 50b, 50c, 50d) under control. The fluid system (100) of the present disclosure is capable of acquiring required flow rate, pressure and amount of the fluid to be transported.
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公开(公告)号:EP3450756A1
公开(公告)日:2019-03-06
申请号:EP18187214.4
申请日:2018-08-03
发明人: Mou, Hao-Jan , Tseng, Chun-Lung , Huang, Che-Wei , Wen, Chien-Tang , Chen, Shih-Chang , Han, Yung-Lung , Huang, Chi-Feng
IPC分类号: F04B39/12 , F04B45/047
摘要: A gas transportation device (1) includes a casing (11), a nozzle plate (12), a chamber frame (13), an actuator (14), an insulating frame (17) and a conducting frame (18), which are stacked sequentially. The nozzle plate (12) includes at least one bracket (120), a suspension plate (121) and a through hole (124). The bracket (120) includes a fixing part (122) and a connecting part (123). A shape of the fixing part (122) matches a shape of the fixing recess (113). The nozzle plate (12) is accommodated within the accommodation space (111). A resonance chamber (130) is defined by the actuator (14), the chamber frame (13) and the suspension plate (121) collaboratively. When the actuator (14) is enabled, the nozzle plate (12) is subjected to resonance and the suspension plate (121) of the nozzle plate (12) vibrates in the reciprocating manner. Consequently, the gas is transported to a gas-guiding chamber (19) through the at least one vacant space (125) and outputted from the discharging opening (112), thereby achieving the gas transportation and circulation.
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公开(公告)号:EP3444533A1
公开(公告)日:2019-02-20
申请号:EP18183717.0
申请日:2018-07-16
发明人: Mou, Hao-Jan , Hsueh, Ta-Wei , Chen, Shih-Chang , Mo, Li-Pang , Lin, Ching-Sung , Han, Yung-Lung , Huang, Chi-Feng , Chen, Hsuan-Kai
摘要: A portable air cleaning apparatus (100) includes a housing (101), an actuating and sensing device (1) and an air cleaning unit (2). The housing (101) includes an inlet through hole (1011) and an outlet through hole (1012). The actuating and sensing module (1) and the air cleaning unit (2) are disposed inside the housing (101). The actuating and sensing module (1) includes an actuating device (13) and a sensor (12). The actuating device (13) drives an external air to flow into an interior of the housing (101) via the inlet through hole (1011) and discharge the air via the outlet through hole (1012), so as to form an internal air flow. The sensor (12) detects the internal air flow to generate an air-sensing result, such that the actuating and sensing module (1) can accordingly control the air cleaning unit (2) to turn on, turn off, or adjust cleaning intensity. Thus, the portable air cleaning apparatus (100) can monitor and automatically clean the ambient air at the same time.
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公开(公告)号:EP3441116A1
公开(公告)日:2019-02-13
申请号:EP18183402.9
申请日:2018-07-13
发明人: Mou, Hao-Jan , Huang, Chi-Feng , Han, Yung-Lung , Tsai, Chang-Yen , Lee, Wei-Ming , Chen, Hsuan-Kai
IPC分类号: A62B9/00
摘要: A driving and information transmitting system for an air-filtering protection device includes a filtering mask (2), an actuating and sensing device (1) mounted on the filtering mask (2), a power supply device (3) and a connection device (4). The actuating and sensing device (1) includes at least one senor (12), at least one actuating device (13), a microprocessor (14), a power controller (15) and a data transceiver (16). The actuating device (13) is enabled to transfer air to flow toward the sensor (12). The power supply device (3) transfers an energy to the power controller (15) for enabling the sensor (12) and the actuating device (13). After monitored information is generated by the sensor (12) and processed into an output data by the microprocessor (14), the data transceiver (16) receives and transmits the output data to the connection device (4). After a control command is given by the connection device (4), the data transceiver (16) receives and transmits the control command to the microprocessor (14) to control the sensor (12) and enable the actuating device (13).
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公开(公告)号:EP3435301A1
公开(公告)日:2019-01-30
申请号:EP18179763.0
申请日:2018-06-26
发明人: Mou, Hao-Jan , Hsueh, Ta-Wei , Mo, Li-Pang , Chen, Shih-Chang , Lin, Ching-Sung , Huang, Chi-Feng , Han, Yung-Lung , Chen, Hsuan-Kai
IPC分类号: G06Q10/06
摘要: A system (100) for providing an air quality information (AI) is disclosed. The system (100) includes plural mobile devices (1a, 1b, 1c), a cloud data processing device (2) and a client device (3). Each mobile device (1a, 1b, 1c) has a positioning module (12) and an actuating and sensing module (13) to generate a single-point air quality data (SIa, SIb, SIc) to transmit to the cloud data processing device (2). The cloud data processing device (2) collects the plural single-point air quality data (SIa, SIb, SIc) transmitted from the plural mobile devices (1a, 1b, 1c), and combines these data with a map data (211) and a meteorological data (212) to generate an instant air quality map (21). When the cloud data processing device (2) receives a current location data (CL) transmitted from the client device (3), an information (AI) is processed based on the instant air quality map (21) and the current location data (CL), so as to transmit the information (AI) including a motion direction, a designated route, an air quality information, an abnormal-air-quality notification or an evacuated route for the client device (3).
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