公开(公告)号：US11944935B2

公开(公告)日：2024-04-02

申请号：US17109370

申请日：2020-12-02

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Yung-Lung Han ,  Chi-Feng Huang ,  Chang-Yen Tsai ,  Wei-Ming Lee ,  Tsung-I Lin

IPC: A61L9/00 ,  B01D53/75 ,  B03C3/01 ,  F24F8/10 ,  F24F8/158 ,  F24F8/192 ,  F24F8/22 ,  F24F8/80 ,  F24F8/95 ,  F24F11/72 ,  G01N33/00 ,  F24F110/66

CPC classification number: B01D53/75 ,  F24F8/10 ,  F24F8/158 ,  F24F8/192 ,  F24F8/22 ,  F24F8/80 ,  F24F8/95 ,  F24F11/72 ,  G01N33/0004 ,  F24F2110/66

Abstract: A gas detection purification device is disclosed and includes a main body, a purification unit, a gas guider, a gas detection module and a controlling-driving module. The main body includes an inlet, an outlet, an external socket and a gas-flow channel disposed between the inlet and the outlet. The purification unit is disposed in the gas-flow channel for filtering gas introduced through the gas-flow channel. The gas guider is disposed in the gas channel and located at a side of the purification unit. The gas is inhaled through the inlet, flows through the purification unit and is discharged out through the outlet. The gas detection module is plugged into or detached from the external socket. The controlling driving module is disposed within the main body and electrically connected to the gas guider to control the operation of the gas guider in an enabled state and a disabled state.

公开(公告)号：US11937903B2

公开(公告)日：2024-03-26

申请号：US17136237

申请日：2020-12-29

Applicant: MICROJET TECHNOLOGY CO., LTD.

Inventor： Hao-Jan Mou ,  Yung-Lung Han ,  Chi-Feng Huang ,  Chang-Yen Tsai ,  Wei-Ming Lee ,  Chun-Yi Kuo ,  Chin-Wen Hsieh

IPC: A61B5/021 ,  A61B5/00 ,  A61B5/022 ,  A61B5/0235 ,  A61B5/024

CPC classification number: A61B5/02125 ,  A61B5/02233 ,  A61B5/0235 ,  A61B5/681 ,  A61B5/02416 ,  A61B2562/0247

Abstract: A blood pressure device includes a first blood pressure measuring device, a second blood pressure measuring device, and a controller. The first blood pressure measuring device is to be worn on a first position of a wrist so as to obtain a first blood pressure information of the first position. The second blood pressure measuring device is to be worn on a second position of the wrist so as to obtain a second blood pressure information of the second position. The controller is electrically coupled to the first blood pressure measuring device and the second blood pressure measuring device so as to adjust tightness between the expanders and the user's skin, respectively. The controller receives, processes, and calculates a pulse transit time between the first blood pressure information and the second blood pressure information, and the controller obtains at least one blood pressure value based on the pulse transit time.

公开(公告)号：US11905168B2

公开(公告)日：2024-02-20

申请号：US17072863

申请日：2020-10-16

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Hsien-Chung Tai ,  Lin-Huei Fang ,  Yung-Lung Han ,  Chi-Feng Huang ,  Chang-Yen Tsai ,  Wei-Ming Lee

IPC: B81C1/00 ,  F04B43/04 ,  H10N30/067 ,  H10N30/081 ,  H10N30/082 ,  F16K99/00

CPC classification number: B81C1/00182 ,  B81C1/00119 ,  B81C1/00166 ,  F04B43/046 ,  H10N30/067 ,  H10N30/081 ,  H10N30/082 ,  B81C2201/013 ,  B81C2201/0156 ,  F16K99/0048 ,  F16K2099/0074 ,  F16K2099/0094

Abstract: A manufacturing method of miniature fluid actuator is disclosed and includes the following steps. A flow-channel main body manufactured by a CMOS process is provided, and an actuating unit is formed by a deposition process, a photolithography process and an etching process. Then, at least one flow channel is formed by etching, and a vibration layer and a central through hole are formed by a photolithography process and an etching process. After that, an orifice layer is provided to form at least one outflow opening by an etching process, and then a chamber is formed by rolling a dry film material on the orifice layer. Finally, the orifice layer and the flow-channel main body are flip-chip aligned and hot-pressed, and then the miniature fluid actuator is obtained by a flip-chip alignment process and a hot pressing process.

公开(公告)号：US11879665B2

公开(公告)日：2024-01-23

申请号：US17559880

申请日：2021-12-22

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Yung-Lung Han ,  Chi-Feng Huang ,  Chang-Yen Tsai ,  Wei-Ming Lee ,  Chin-Wen Hsieh

IPC: F24F8/10 ,  F24F8/108 ,  F24F13/28 ,  F24F8/20 ,  F24F8/15 ,  F24F11/58 ,  F24F13/08 ,  F24F110/65

CPC classification number: F24F8/108 ,  F24F8/15 ,  F24F8/20 ,  F24F11/58 ,  F24F13/08 ,  F24F13/28 ,  F24F2110/65

Abstract: A gas exchange device for filtering a gas is provided. The gas exchange device includes a gas-intake channel having a gas-intake-channel inlet and a gas-intake-channel outlet, a gas-exhaust channel disposed aside the gas-intake channel and including a gas-exhaust-channel inlet and a gas-exhaust-channel outlet, a purification unit disposed in the gas-intake channel for filtering the gas passing through the gas-intake channel, a gas-intake guider and a gas-exhaust guider for guiding the gas, a driving controller disposed in the gas-intake channel near the gas-intake guider for controlling enablement and disablement of the purification unit, the gas-intake guider and the gas-exhaust guider, and a gas detection main body for detecting the gas and generating detection data.

公开(公告)号：US11686715B2

公开(公告)日：2023-06-27

申请号：US17016987

申请日：2020-09-10

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Ching-Sung Lin ,  Chin-Chuan Wu ,  Chih-Kai Chen ,  Yung-Lung Han ,  Chi-Feng Huang ,  Wei-Ming Lee

IPC: G01N33/00 ,  G01N15/06 ,  G01N1/24 ,  F04D25/06 ,  G01N15/00 ,  H04M1/72409 ,  H04M1/02

CPC classification number: G01N33/0073 ,  F04D25/06 ,  G01N1/24 ,  G01N15/06 ,  G01N33/0063 ,  H04M1/72409 ,  G01N2015/0046 ,  G01N2015/0693 ,  H04M1/026

Abstract: A mobile power device capable of detecting gas is disclosed and includes a main body, a gas detection module, a driving and controlling board, a power module and a microprocessor. The main body includes a ventilation opening, a connection port and an accommodation chamber. The ventilation opening is in communication with the accommodation chamber. The gas detection module and the driving and controlling board are disposed within the accommodation chamber. The gas detection module, the power module and the microprocessor are fixed on and electrically connected to the driving and controlling board. The power module is capable of storing an electric energy and outputting the electric energy outwardly. The microprocessor enables the gas detection module to detect and operate. The microprocessor converts the detection information of the gas detection module into a detection data, which is stored and transmitted to the mobile device or an external device.

公开(公告)号：US11534587B2

公开(公告)日：2022-12-27

申请号：US16177668

申请日：2018-11-01

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Chi-Feng Huang ,  Yung-Lung Han ,  Wei-Ming Lee ,  Hsuan-Kai Chen ,  Chang-Yen Tsai

IPC: A61M37/00 ,  G16H20/17 ,  A61B5/00 ,  A61B5/145 ,  A61B5/15 ,  A61B5/157

Abstract: A blood glucose monitoring and controlling system includes a detecting device and a liquid supplying device. The detecting device includes a first microneedle patch, a liquid pumping actuator, a sensor and a monitoring and controlling chip. The liquid supplying device includes a second microneedle patch, a liquid supplying actuator, a liquid supplying chamber and a liquid supplying and controlling chip. The detecting device is used to measure the blood glucose level of the user, and the liquid supplying device is used to supply insulin liquid. While the detecting device measures that the blood glucose level of the user is abnormal, the liquid supplying device is actuated to inject the insulin liquid into the user's body, thereby stabilizing the user's blood glucose level constantly.

公开(公告)号：US11531015B2

公开(公告)日：2022-12-20

申请号：US16696703

申请日：2019-11-26

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Yung-Lung Han ,  Chi-Feng Huang ,  Chang-Yen Tsai ,  Wei-Ming Lee ,  Hsuan-Kai Chen ,  Chun-Yi Kuo

IPC: H04L67/55 ,  G01N33/00 ,  G01N1/22 ,  G16Y20/10 ,  G01S19/13 ,  H04L67/12

Abstract: A method of air quality notification is disclosed. The method includes steps of providing a portable air quality monitoring device for monitoring air quality. The portable air quality monitoring device monitors the ambient air quality at a location in a monitoring period of time to generate a monitoring data, and has a GPS component to generate a position data of the location, both of them can be integrated as a notification data and delivered. A cloud data processing device is provided for receiving the notification data delivered from the portable air quality monitoring device, wherein the notification data is processed, calculated and converted to generate a push data, and the push data is delivered at a push period through a push notification service. A notification receiving device is provided for receiving the push data delivered from the cloud data processing device, so as to display the push data immediately.

公开(公告)号：US11530970B2

公开(公告)日：2022-12-20

申请号：US17368297

申请日：2021-07-06

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Ching-Sung Lin ,  Chin-Chuan Wu ,  Chi-Feng Huang ,  Yung-Lung Han ,  Chang-Yen Tsai ,  Wei-Ming Lee

IPC: G01N15/06

Abstract: A particle detecting device is provided. The particle detecting device includes a resonator and a piezoelectric actuator. The piezoelectric actuator is used to transport a gas into the resonator, and a mass and a concentration of the screened and required-diameter particles are detected through the resonator. Thus, the air quality can be monitored immediately anytime and anywhere.

公开(公告)号：US11497277B2

公开(公告)日：2022-11-15

申请号：US17314377

申请日：2021-05-07

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Ching-Sung Lin ,  Chih-Kai Chen ,  Chi-Feng Huang ,  Yung-Lung Han ,  Chang-Yen Tsai ,  Wei-Ming Lee

IPC: A43B23/00 ,  A43B23/02 ,  A43B3/26 ,  A43B3/38 ,  A43B3/34 ,  A43B3/44

Abstract: A dynamic pressure controlling footwear is disclosed and includes a main body, a control box and plural dynamic pressure controlling components. The main body includes a vamp disposed on an airbag. The control box includes a microprocessor and is disposed on a top surface region of the vamp. Each dynamic pressure controlling component is positioned on the airbag and includes an actuating pump and a pressure sensor packaged on a substrate by a semiconductor process. The substrate is positioned on the airbag and electrically connected to the microprocessor of the control box through a conductor. The actuating pump is in fluid communication with the airbag for inflating the airbag. The pressure sensor detects an inner pressure of the airbag to generate a pressure information. The microprocessor enables or disables the actuating pump according to the pressure information, so that the inner pressure of the airbag is adjusted.

公开(公告)号：US20220196277A1

公开(公告)日：2022-06-23

申请号：US17521947

申请日：2021-11-09

Applicant: MICROJET TECHNOLOGY CO., LTD.

Inventor： Hao-Jan Mou ,  Ching-Sung Lin ,  Chin-Chuan Wu ,  Yung-Lung Han ,  Chi-Feng Huang ,  Wei-Ming Lee

IPC: F24F11/63 ,  F24F8/10 ,  F24F11/58 ,  G01N15/06 ,  G01N33/00 ,  G05B17/02

Abstract: A method for intelligently preventing and handling indoor air pollution is adapted to be implemented in an indoor space and includes providing a cloud processing device to receive and intelligently compare an outdoor gas detection data, an indoor gas detection data, and device gas detection data with each other. Then, the cloud processing device remotely transmits a control signal to the communication relay station and further to an indoor gas exchange system, so that the indoor gas exchange system is capable of intelligently enabling the gas processing device and controlling the operation time of the gas processing device for exchanging a polluted gas in the indoor space with the outdoor gas. Moreover, the gas exchanger can perform purification for the polluted gas at the location of the gas exchanger, thereby allowing the polluted gas in the indoor space to be exchanged into a clean, safe, and breathable gas.