Abstract: The present invention provides an inspection apparatus for osseointegration of implants, which comprises an inspection base, a holding end, and an inspection end. The holding end is disposed at one end of the inspection base; the inspection end is disposed at the other end of the inspection base. Beside, the inspection end is disposed on one side of the holding end. The holding end includes a signal processing module and a wireless transmission module therein. The inspection end includes an inspection probe, disposed at one end of the inspection end. The inspection probe includes one or more excitation device and a receiver located on the same side of the inspection probe. According to the present invention, the inspection apparatus detects the condition of an object under inspection in a non-contact manner by using an excitation source. An acquired displacement difference is then transmitted to an electronic apparatus through wireless transmission.

Abstract: The present invention provides an inspection apparatus for osseointegration of implants, which comprises an inspection base, a holding end, and an inspection end. The holding end is disposed at one end of the inspection base; the inspection end is disposed at the other end of the inspection base. Beside, the inspection end is disposed on one side of the holding end. The holding end includes a signal processing module and a wireless transmission module therein. The inspection end includes an inspection probe, disposed at one end of the inspection end. The inspection probe includes one or more excitation device and a receiver located on the same side of the inspection probe. According to the present invention, the inspection apparatus detects the condition of an object under inspection in a non-contact manner by using an excitation source. An acquired displacement difference is then transmitted to an electronic apparatus through wireless transmission.

Abstract: A system for detecting bone defects includes a dental implant contacting member, at least one electromagnetic source, at least one first magnetic field detecting device, at least one second magnetic field detecting device and a computing device. The dental implant contacting member has a magnetic body. The electromagnetic source is used to generate a variable magnetic field to vibrate the magnetic body. The first magnetic field detecting device is used to detect a magnetic field of the magnetic body and the variable magnetic field, so as to generate first detected data. The second magnetic field detecting device is used to detect the variable magnetic field, so as to generate second detected data. The computing device is used to obtain vibration data based on the difference between the first detected data and the second detected data.

Abstract: A system for detecting bone defects includes a dental implant contacting member, at least one electromagnetic source, at least one first magnetic field detecting device, at least one second magnetic field detecting device and a computing device. The dental implant contacting member has a magnetic body. The electromagnetic source is used to generate a variable magnetic field to vibrate the magnetic body. The first magnetic field detecting device is used to detect a magnetic field of the magnetic body and the variable magnetic field, so as to generate first detected data. The second magnetic field detecting device is used to detect the variable magnetic field, so as to generate second detected data. The computing device is used to obtain vibration data based on the difference between the first detected data and the second detected data.

Abstract: The present invention provides an antiglare film, which includes a transparent resin layer, a plurality of transparent hollow particles and a plurality of transparent solid particles. The hollow particles and the solid particles are distributed in the transparent resin layer, while the hollow particles are partially exposed thereon. The refraction index of the hollow particles and the refraction index of the solid particles are different from the refraction index of the transparent resin layer. Applying both the solid particles and the hollow particles mixed together can lead the antiglare film to have an excellent antiglare property, a high contrast and a great clarity.

Abstract: A low reflective, anti-static and anti-fouling optical film, and a forming method thereof are disclosed. The forming method includes mixing an alkoxy silane, a fluoride-modified alkoxy silane, a conductive material and a pores formation agent to form a coating composition. Subsequently, the coating composition is solidified to form an optical film. The optical film includes a silicon oxide compound with fluorine element, the conductive material mixed therein, and a plurality of three-dimensional mesoporous. Therefore, the optical film of the present invention can simultaneously provide a low reflection, an anti-static effect and an anti-fouling effect.

Abstract: Disclosed is a reactive polymer of the following representative formula: R4—R3b—NH—CO—R2b—CO—NH—R1—NH—CO—R2a—CO—NH—R3a—R4 wherein R1 is alkylene, arylene or the combination thereof, R2a or R2b is a linker, R3a and R3b is a cross-linked poly —Si—O— group, and R4 is a vinyl functional group.

Abstract: The present invention relates to a multiple-coating particle and an anti-glare film having the same. The anti-glare film includes a transparent resin and a plurality of multiple-coating particles. The multiple-coating particles are evenly distributed in the transparent resin. The multiple-coating particle is composed of at least two layers of the distinct transparent materials so as to scatter and refract light due to different refractive indexes and to provide anti-glaring effect.

Abstract: The present invention provides an antiglare film, which includes a transparent resin layer, a plurality of transparent hollow particles and a plurality of transparent solid particles. The hollow particles and the solid particles are distributed in the transparent resin layer, while the hollow particles are partially exposed thereon. The refraction index of the hollow particles and the refraction index of the solid particles are different from the refraction index of the transparent resin layer. Applying both the solid particles and the hollow particles mixed together can lead the antiglare film to have an excellent antiglare property, a high contrast and a great clarity.

Abstract: A control structure for a power supply cluster which has a primary power supply and a secondary power supply that are independently linked to AC power and transform the AC power to DC power to supply electric power required by an electronic device in a computer equipment. A switch unit is provided to be linked to the primary power supply and the secondary power supply to get a start signal from the primary power supply and transfer to the secondary power supply. Electric power of the primary power supply also is transferred to the electronic device to present a first power supply status. A judgment unit also is provided to be linked to the primary power supply and the switch unit to get the start signal and defer sending a switch signal to the switch unit so that the electronic device can get electric power from the secondary power supply and present a second power supply status.

Abstract: An optical coating equipment, which includes a delivery device, a coater head, and an ultraviolet irradiative device. The delivery device delivers a film. A liquid coating is coated on the film by the coater head. The ultraviolet irradiative device includes a board assembly. When the coated film is delivered through the ultraviolet irradiative device, irradiative dose is controlled by the board assembly of the ultraviolet irradiative device.

Abstract: The present invention relates to an antiglare film, which comprises a cured transparent resin layer and a type of transparent hollow particles. The hollow particles are distributed in the transparent resin layer and partially exposed therefrom. The ratio of the inner diameter to the outer diameter of the hollow particle is within a range of 0.1 to 0.9, and the ratio of the outer diameter of the hollow particle to the thickness of the transparent resin layer is within a range of 0.1 5 to 1. The hollow particle and the transparent resin layer have different refractive indexes. The hollow particles are partially exposed from the surface of the transparent resin layer, leading the antiglare film to have excellent antiglare properties.

Abstract: A low reflection film and the forming method for making the same are disclosed. The low reflection film includes at least one siloxane resin and a plurality of silicon dioxide particles. The siloxane resin has at least two alkoxylates. The silicon dioxide particles are fixed by the siloxane resin and protrude from the surface of the siloxane resin. The method includes preparing a first solution by adding a first solvent to a mixture of a catalyst and a siloxane resin after sol-gel reaction, preparing a second solution by mixing the first solution with silicon dioxide particles, coating the second solution onto a surface, and performing a drying process to form the low reflection film.

Abstract: This invention provides an antistatic coating composition and antistatic hard coating film coated with the composition. The antistatic coating composition, which comprises curable hard coating solution mixed with antistatic coating recipe, contains no conductive fine powder or fine particle, thus can be preserved longer. The antistatic hard coating film has superior antistatic ability, higher transmittance=and has no visible color shift.

Abstract: A device for dissipating heat from a car and having discharge ports the angle of which is adjustable. The device includes a body, an air discharge rotary cylinder having discharge ports, a fan blade shaft, and a securing device. The body is comprised of left and right casings that together define upper and lower cylindrical receiving chambers for receiving the rotary cylinder and the fan blade shaft respectively. The securing device includes a wedge-shaped insert plate and an elastic clamp plate. The insert plate extends downwardly from the bottom of the body and is adapted to insert into a gap between a window glass pane and a window frame of a car, with the clamp plate clamping against the car door. The body is connected via a main body to a car window drive circuit. Before the driver enters the car, the window can be lowered using a remote controller and the fan blade shaft in the body can be actuated to begin drawing out the hot air inside the car to thereby lower the temperature inside the car.