Abstract: An egg cooking system includes two woks and each of the woks receives oil from an oil supply member. A support member is driven by a driving unit to allow one egg to be put in the at least one standby portion and the egg is pressed by the pressing member. A cracking member cracks the egg and the pressing unit moves toward the direction that the egg is located so that a claw is opened, and the egg flows into one of the woks. The egg is cooked for a pre-set time, and is dropped into the other wok to be cooked. The cooked egg is then dropped to a plate. The pressing unit presses the egg shell of the egg to further open the claw, and the egg shell drops into a garbage can.

Abstract: An exoskeleton apparatus driven by a pneumatic artificial muscle with functions of upper limb assist and rehabilitation training includes an upper limb frame, a shoulder joint mechanism, and an elbow joint mechanism which are driven by utilizing a processing unit, a first angle sensing unit, a second angle sensing unit, a first proportional pressure valve, a pressure sensing unit and a pneumatic muscle device. The exoskeleton apparatus can be independently used as an upper limb exoskeleton assistive device or can be combined to form an upper limb exoskeleton rehabilitation training system to simulate the upper limb movements in daily life through the upper limb frame to assist with the movements of the wearer's upper limbs, accomplishing the rehabilitation training of each upper and lower arm joint and neurological function.

Abstract: A pneumatic lower extremity gait rehabilitation training system includes a support device for reducing the burden of supporting a user's body weight by lower extremity in a walking therapy, an exoskeleton rehabilitation device for adjusting the user's walking coordination at a treadmill, a center-of-gravity adjusting device for adjusting a change of upper and lower centers of gravity, and a remote monitoring device for receiving and capturing a signal of an angle displacement of a joint mechanism in a walking cycle. The user may support her/his body weight by the support device and the center-of-gravity adjusting device to reduce the gravity exerted onto the user's legs. The exoskeleton rehabilitation device improves the flexibility, safety and lightweight of walking and requires fewer driving elements. The remote monitoring device sends analyzed signals to the treadmill to adjust the user's walking speed, so as to improve the rehabilitation effect.

Abstract: A wheeled jumping robot includes a body with two wheels, and a board is connected between the two wheels. A driving unit and a jumping unit are respectively connected on two sides of the board. The jumping unit has two rails, and a tubular member is located between the two rails and connected to a threaded rod. A bridge is connected between two rails. Rollers are located between a threaded portion of the threaded rod and a tapered contact face of the bridge. When the threaded rod is rotated, the rollers move toward a pre-set position, the bridge compresses resilient members on the two rails. When the tubular member moves toward the pre-set position, the rollers are separated from the threaded rod due to the tapered contact face, the resilient members bounce back. The wheeled jumping robot includes a processing unit for being communicated with a remote control unit.

Abstract: A multi-function lower limb ambulation rehabilitation and walking assist device is provided. Through a suspension unit to support the user, the tolerance of the user's leg is reduced. For users of different weights, it can be used for a walking rehabilitation training of the lower limbs to achieve the best training effect. An exoskeleton rehabilitation device has a hip joint linear actuator, a knee joint linear actuator, a first actuator, a second actuator, a third actuator, and a fourth actuator to drive the one-legged the exoskeleton rehabilitation device which is safe, comfortable, reliable, practical and convenient. An indoor and outdoor navigation auxiliary device can be used as a blind guiding device. Through a display unit, a navigation and positioning system displays the orientation of the user in a virtual map corresponding to the real operation environment and a desired location point.

Abstract: A plasma measurement device used for measuring plasma characteristics of radio frequency plasma a probe, a connector electronic wire, and a power supply device. The probe is used for entering the radio frequency plasma to measure the plasma characteristics. One end of the connector electronic wire is electrically connected to the probe. The power supply device is electrically connected to another end of the connector electronic wire, and the power supply device is used for providing a voltage to the probe. The connector electronic wire is a specific length, and the connector electronic wire and the radio frequency plasma would generate a standing wave effect. Thus, according to the standing wave effect, the plasma measurement device could eliminate high-frequency interference generated by the radio frequency plasma while measuring the plasma characteristics.

Abstract: The present invention discloses a touch screen system comprising LED infrared transceivers installed at appropriate positions on left and right sides of the screen respectively, and a transmitter end of the transceiver transmits LED infrared waves and spreads spherical waves all over the surface of the screen. If the surface of the screen receives an intrusion from a touch control element, the spherical waves will be interfered, interrupted and reflected, and the wave frequency of the reflection will be detected by the receiver end of the transceiver. After the receiver end has received a reflection signal, the position coordinates of the touch control element can be analyzed through the operation of a core logical unit. A display module is provided for showing the movement path of the touch control element in images or lines, so as to provide a touch screen with low manufacturing cost and long life expectancy.

Abstract: The present provides the improved structure of a chip package, comprising an electrical contact surface of at least a chip configured with a under fill layer, the first solder mask layer, the first metal layer, dielectric material layer, the second metal layer, the second solder mask layer, and metal ball layer, characterized in the electrical contact surfaces among the first metal layer, the second metal layer, and the chip accomplish the electrical connection by employing the contacts of the surfaces of the conducting layers

Abstract: The present invention provides the system design of the positioning analysis of a touch screen. It receives the signals from the wave sensor that employs the concept of the reflection of the light, sound, or supersonic, and the signals are calculated by the core logic circuit to obtain the position coordinate of an object. And then a display module is employed to show the moving path of the object in the manner of an image or line on a screen. The wave sensor may be implemented by a CMOS optical image sensor, infrared sensor, or supersonic sensor. The CMOS (Complementary metal oxide semiconductor) optical image sensor may additionally comprise fibers to transmit the optical wave to the CMOS sensor smoothly.