Proximity sensor assembly, display assembly and electronic equipment
A technology of proximity sensors and display components, which is applied in the direction of converting sensor output, using optical devices to transmit sensing components, electronic switches, etc., which can solve the problems of display effects that are difficult to display, restrict the expressiveness of the full-screen appearance, and hollow out areas that cannot be displayed and other issues to achieve the effect of avoiding potential adverse effects and meeting the requirements for 100% full-screen development
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Embodiment 1
[0056] Such as Figure 1-Figure 3 As shown, the proximity sensor assembly 10 according to the embodiment of the present application includes a light emitting body 1, a light guide structure 2 and a non-transparent package 3, the light emitting body 1 includes a light source 11 and a convex lens 12, and the light source 11 is an infrared point The light source, the convex lens 12 is arranged between the light source 11 and the filter 21, one side of the package 3 has an opening, the light guide structure 2 is a filter 21, the light emitting body 1 and the filter 21 are packaged in the package 3 and the filter 21 is opposite to the opening.
[0057] Such as figure 2 As shown, the filter 21 is provided with through-holes 21a passing through it in the thickness direction. The through-holes 21a are multiple and distributed in a matrix of four rows and four columns. The lateral spacing between the centers of adjacent through-holes 21a W and the longitudinal spacing L are respecti...
Embodiment 2
[0060] Such as Figure 4As shown, according to the proximity sensor assembly 10 of the embodiment of the present application, the proximity sensor assembly 10 includes a light emitting body 1, a light guide structure 2 and a non-transparent package 3, the light emitting body 1 includes a light source 11 and a convex lens 12, and the light source 11 is an infrared point light source, and the convex lens 12 and the light source 11 are arranged in sequence along a direction parallel to the OLED screen 20 and packaged in the package 3 .
[0061] Such as Figure 4 As shown, the light guide structure 2 includes a plurality of optical fibers 22 and is distributed in a matrix of four rows and four columns, and each optical fiber 22 includes a first conductive segment 221 perpendicular to the OLED screen 20 and a second conductive segment parallel to the OLED screen 20 222 , the first conduction segment 221 is located outside the package 3 , and the end of the second conduction segmen...
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