Abstract: The invention relates to a device for integrally processing a housing of a Computing, Communication, and Consumer (3C) product. The device includes a loading frame and an upper frame, where a material receiving device is arranged in the loading frame, a width of the loading frame is greater than that of the housing, a grinding device is arranged below the upper frame, and the grinding device includes a grinding movement device; the grinding movement device is connected to a grinding installation block, an outer side of the grinding installation block is provided with grinding lifting balls, a grinding arc block is embedded in an inner side of an upper portion of the grinding installation block, and the upper frame is provided with a material pressing device. An outer side of the loading frame is provided with a feeding and discharging device.

Abstract: A method for preparing a pair of personalized three-dimensional (3D) printing medical isolation goggles includes the steps of S1: establishing a medical isolation goggles matrix; S2: acquiring the facial data of a user; S3: establishing a personalized medical isolation goggles model; S4: performing additive manufacturing, wherein a pair of medical isolation goggles is provided with high personalized fitness and high breathability for patients with eye diseases such as conjunctivitis, virus-susceptible patients, front-line clinical medical workers and related workers, and the compression damage to the face caused by the wearing of the medical isolation goggles for a long time is reduced in terms of fitness and comfort, where the medical isolation goggles are manufactured in a mode of additive manufacturing, small-batch rapid production can be performed after data merging, and a large number of processes and costs are reduced in the production cycle.

Abstract: An integrated device includes a rack (1) which holds three layers of conveying channels from top to bottom: a detection conveying channel (4), a loading conveying channel (3), and a discharge conveying channel (2). The detection conveying channel (4) matches with a detection device (6). One end of the detection conveying channel (4) is provided with a screening opening (7) equipped with a transfer device (8) configured to transfer a case (5) from the screening opening (7) to the loading conveying channel (3). A loading opening is provided in the middle of the loading conveying channel (3), which docks with a loading device (10) provided on the discharge conveying channel (2). The loading conveying channel (3) is positioned on both sides of the loading opening and transports a packaging box (9) and the case (5) to the loading opening.

Abstract: The present invention discloses a ceramic photosensitive resin based anti-precipitation three-dimensional (3D) printing apparatus, including a trough having a light transmitting area at the bottom, a projector directly below the light transmitting area, a printing platform directly above a containing cavity of the trough, a first lifting drive device for driving the printing platform into or out of the containing cavity, a lifting frame, a disturbing wheel mounted on the lifting frame and protruding downward from the lifting frame, a second lifting drive device for driving the lifting frame together with the disturbing wheel to reciprocate in the containing cavity, a rotating motor located outside the containing cavity and having an output shaft passing through the trough in a sealed manner, a friction driving wheel located in the containing cavity and mounted on the output shaft, and a friction driven wheel mounted coaxially with the disturbing wheel.

Abstract: A method for preparing a pair of personalized three-dimensional (3D) printing medical isolation goggles includes the steps of: establishing a medical isolation goggles matrix; S2: acquiring the facial data of a user; S3: establishing a personalized medical isolation goggles model; S4: performing additive manufacturing, wherein a pair of medical isolation goggles is provided with high personalized fitness and high breathability for patients with eye diseases such as conjunctivitis, virus-susceptible patients, front-line clinical medical workers and related workers, and the compression damage to the face caused by the wearing of the medical isolation goggles for a long time is reduced in terms of fitness and comfort, where the medical isolation goggles are manufactured in a mode of additive manufacturing, small-batch rapid production can be performed after data merging, and a large number of processes and costs are reduced in the production cycle.

Abstract: An orthopedic insole and a method of manufacturing a convex cushion structure for walking unsteadiness, the convex cushion structure being provided on an upper surface of an insole body. The method includes steps of data collection: measuring plantar static pressure data and plantar dynamic pressure data; data analysis: analyzing the plantar static pressure data and the plantar dynamic pressure data; preparing an insole body; performing insole modeling based on the plantar static pressure data; and importing the plantar dynamic pressure data to manufacture the insole body; partitioning the insole body; preparing the convex cushion structure: determining a shape of the convex cushion structure by using a test result of the dynamic pressure distributions; determining a specific location of the convex cushion structure by using a test result of the gait lines and the gait cycle; and printing the convex cushion structure on the upper surface of the insole body.

Abstract: The present invention relates to a device for integrally processing a housing of a Computing, Communication, and Consumer (3C) product. The device includes a loading frame and an upper frame, where a material receiving device is arranged in the loading frame, a width of the loading frame is greater than that of the housing, a grinding device is arranged below the upper frame, and the grinding device includes a grinding movement device; the grinding movement device is connected to a grinding installation block, an outer side of the grinding installation block is provided with grinding lifting balls, a grinding arc block is embedded in an inner side of an upper portion of the grinding installation block, and the upper frame is also provided with a material pressing device. An outer side of the loading frame is provided with a feeding and discharging device.

Abstract: Integrated devices for detecting and packaging a 3D printed phone case are disclosed. In an embodiment, the device includes a rack (1) which holds three layers of conveying troughs from top to bottom: a detection conveying trough (4), a packing conveying trough (3), and a discharge conveying trough (2). The detection conveying trough (4) matches with a detection device (6). An end of the detection conveying trough (4) is provided with a screening opening (7) equipped with a transfer device (8) configured to transfer a case (5) from the screening opening (7) to the packing conveying trough (3). A packing opening is provided in the middle of the packing conveying trough (3), which docks with a packing device (10) provided on the discharge conveying trough (2). The packing conveying trough (3) is positioned on both sides of the packing opening and transports a packing box (9) and the case (5) to the packing opening.

Abstract: The present invention discloses a ceramic photosensitive resin based anti-precipitation three-dimensional (3D) printing apparatus, including a trough having a light transmitting area at the bottom, a projector directly below the light transmitting area, a printing platform directly above a containing cavity of the trough, a first lifting drive device for driving the printing platform into or out of the containing cavity, a lifting frame, a disturbing wheel mounted on the lifting frame and protruding downward from the lifting frame, a second lifting drive device for driving the lifting frame together with the disturbing wheel to reciprocate in the containing cavity, a rotating motor located outside the containing cavity and having an output shaft passing through the trough in a sealed manner, a friction driving wheel located in the containing cavity and mounted on the output shaft, and a friction driven wheel mounted coaxially with the disturbing wheel.