Abstract: Disclosed are a method and device for winding a foil coil of a stereoscopic wound iron core transformer. The device includes a rotating assembly, a driving device and a plurality of loading assemblies; the rotating assembly is provided with a through hole matched with an iron core post, the rotating assembly is provided with a gear plate and a track ring around the through hole, and the gear plate and the track ring are fixedly connected by a fixing block; the loading assembly includes a cylinder and a tension device, and the cylinder is movably connected with the rotating assembly; and a driving end of the driving device is connected with the gear plate.

Abstract: A winding die is disclosed, including: a gear baffle, where a middle portion of the gear baffle is provided with a first opening for placing an iron core post, and the gear baffle is provided with a first surface; and a cylinder, where the cylinder is arranged on the first surface of the gear baffle and connected with the gear baffle. The middle portion of the gear baffle is provided with the first opening for placing the iron core post, the gear baffle is fixedly connected with the cylinder, an external device is connected with a gear, and the cylinder on the gear baffle is driven to rotate around the iron core post by pulling the gear, so that a foil or an insulating material on the cylinder can be wound on the iron core post, finally realizing a foil winding.

Abstract: A winding cylinder of a stereoscopic wound iron core transformer is disclosed, including an outer cylinder, an inner cylinder and a tension assembly. The outer cylinder is movably connected with the inner cylinder through a bearing assembly, and the outer cylinder rotatable around an axis of the inner cylinder. The tension assembly includes a screw, a spring and a connecting assembly. The connecting assembly includes a fixing portion, a friction portion and a transmission portion, the friction portion and the transmission portion are both arranged around the inner cylinder, and the transmission portion is fixedly connected with the outer cylinder. A side face of the inner cylinder is provided with a through hole, and the fixing portion penetrates through the through hole and is fixedly connected with the friction portion.

Abstract: Disclosed is a method and device for detecting a viscoelastic parameter of a viscoelastic medium. The method comprises: applying a mechanical vibration at a single predetermined frequency to the viscoelastic medium to generate a shear wave in the viscoelastic medium (101); emitting ultrasonic waves to the viscoelastic medium, and receiving ultrasonic echo signals (102); acquiring maximum displacement data of the shear wave at various depths according to the ultrasonic echo signals (103), each of the maximum displacement data representing a maximum oscillation amplitude of the shear wave when the shear wave propagates to different depths in the viscoelastic medium; fitting each of the maximum displacement data to obtain a maximum displacement attenuation curve (104); and determining the viscoelastic parameter of the viscoelastic medium according to the maximum displacement attenuation curve (105). The method and device can provide a more accurate measurement result of tissue fibrosis.

Abstract: Provided is an azobenzene-based photothermal energy storage molecule represented by Formula I which contains two types of azobenzene unit: two biscarboxyl azobenzene units and one monoamino azobenzene unit. By utilizing the energy difference between the two configurations of the azobenzene units, energy is stored during the transition from trans to cis, and in reverse, energy is released. The carboxyl and amino groups on different azobenzene units can form strong intermolecular and intramolecular hydrogen bonds, which leads to a great improvement in energy density and reversion half-life compared with the traditional azobenzene materials in which a single type of an azobenzene unit is grafted. Moreover, the release of thermal energy can be controlled by light and heating, which is beneficial to fully utilize the solar energy for photothermal energy conversion and storage, and used as a solar thermal fuel to the field of heating technology and new generation of light-driven spacecrafts.

Abstract: Disclosed is a method and device for detecting a viscoelastic parameter of a viscoelastic medium. The method comprises: applying a mechanical vibration at a single predetermined frequency to the viscoelastic medium to generate a shear wave in the viscoelastic medium (101); emitting ultrasonic waves to the viscoelastic medium, and receiving ultrasonic echo signals (102); acquiring maximum displacement data of the shear wave at various depths according to the ultrasonic echo signals (103), each of the maximum displacement data representing a maximum oscillation amplitude of the shear wave when the shear wave propagates to different depths in the viscoelastic medium; fitting each of the maximum displacement data to obtain a maximum displacement attenuation curve (104); and determining the viscoelastic parameter of the viscoelastic medium according to the maximum displacement attenuation curve (105). The method and device can provide a more accurate measurement result of tissue fibrosis.