An elastic structure between two objects, consisting of a first object provided with at least one first side, a second object provided with at least one second side, and an elastic connecting object that is connected between the first object and the second object, wherein the first side and the second side mutually correspond. The elastic connecting object is provided with a first connecting portion that connects to the first side, a second connecting portion that connects to the second side, and an elastic connecting portion that connects between the first connecting portion and the second connecting portion. Accordingly, the elastic connecting portion is provided with an elastic restoring force, which enables the second connecting portion and the first connecting portion to realize an elastic displacement function that enables achieving mutually relative up/down elastic displacement positions between the first object and the second object.

A passive horn integrally formed by using liquid silicone rubber, includes a first outer casing, a second outer casing, an inner casing and an iron piece. The first outer casing includes a sealing ring, a folding ring and a vibrating membrane, and the sealing ring, the folding ring and the vibrating membrane are integrally injection molded into the first outer casing. A groove is disposed in the second outer casing, and the first outer casing is disposed in the groove. The back surface of the vibrating membrane is provided with a casing groove, which is sequentially embedded with the inner casing and the iron piece. A preparation method of a passive horn integrally formed by using liquid silicone rubber, under the condition of integrated injection molding, may improve the yield rate, ensure product quality, save assembly time and labor cost, and improve production efficiency.

A passive horn integrally formed by using liquid silicone rubber, includes a first outer casing, a second outer casing, an inner casing and an iron piece. The first outer casing includes a sealing ring, a folding ring and a vibrating membrane, and the sealing ring, the folding ring and the vibrating membrane are integrally injection molded into the first outer casing. A groove is disposed in the second outer casing, and the first outer casing is disposed in the groove. The back surface of the vibrating membrane is provided with a casing groove, which is sequentially embedded with the inner casing and the iron piece. A preparation method of a passive horn integrally formed by using liquid silicone rubber, under the condition of integrated injection molding, may improve the yield rate, ensure product quality, save assembly time and labor cost, and improve production efficiency.

The present disclosure provides a membrane. The membrane includes a central dome part, and a suspension part surrounding the dome part. The suspension part includes a number of first reinforcing parts, a number of third reinforcing parts spacing from the first reinforcing parts, and an included angle formed between each third reinforcing part and an adjacent first reinforcing part. The third reinforcing part includes a second master extension part, a second slave extension part, and a connecting part connecting the second master extension part and the second slave extension part. The second master extension part and the second slave extension part locate at two ends of the connecting part respectively, and a width of at least one of the second master extension part and the second slave extension part is less than a width of the connecting part.

The present disclosure provides a membrane. The membrane includes a central dome part, and a suspension part surrounding the dome part. The suspension part includes a number of first reinforcing parts, a number of third reinforcing parts spacing from the first reinforcing parts, and an included angle formed between each third reinforcing part and an adjacent first reinforcing part. The third reinforcing part includes a second master extension part, a second slave extension part, and a connecting part connecting the second master extension part and the second slave extension part. The second master extension part and the second slave extension part locate at two ends of the connecting part respectively, and a width of at least one of the second master extension part and the second slave extension part is less than a width of the connecting part.

Disclosed herein is a multi-row ultrasonic probe having improved heat dissipation capability. An ultrasonic probe includes a transducer configured to generate ultrasound and having multiple rows, a kerf dividing the transducer into multiple rows, and a heat dissipation member located inside the kerf and transferring heat generated by the transducer to the outside.

Disclosed herein is a multi-row ultrasonic probe having improved heat dissipation capability. An ultrasonic probe includes a transducer configured to generate ultrasound and having multiple rows, a kerf dividing the transducer into multiple rows, and a heat dissipation member located inside the kerf and transferring heat generated by the transducer to the outside.

A compression driver includes a magnet assembly and a waveguide mounted to the magnet assembly, the waveguide having a first side, an opposed second side, and a central aperture forming an exit of the compression driver. An annular diaphragm is disposed above the magnet assembly and adjacent the second side of the waveguide, the diaphragm having an external flat portion generally coplanar with an internal flat portion. A compression chamber is defined between the diaphragm and the second side of the waveguide, the second side of the waveguide having a final segment that tapers toward the central aperture, wherein part of the diaphragm is loaded by the compression chamber and part of the diaphragm radiates directly to the exit of the compression driver.

A stethoscope and binaural assembly are disclosed herein. The stethoscope includes a stethoscope chestpiece assembly and a binaural assembly including a first ear tube, a second ear tube, and an acoustic tube connected to the first and second ear tubes, the first ear tube being flexibly connected to the second ear tube by at least one spring member disposed inside the acoustic tube, a portion of the at least one spring member being located proximate to a sound transmission junction of the acoustic tube, the binaural assembly further including a junction blockage prevention member, the junction blockage prevention member configured to prevent one or more internal sound passageways of the sound transmission junction of the acoustic tube from becoming blocked or partially blocked by the at least one spring member when the first and second ear tubes are flexed outwardly away from one another by a user.

A stethoscope and binaural assembly are disclosed herein. The stethoscope includes a stethoscope chestpiece assembly and a binaural assembly including a first ear tube, a second ear tube, and an acoustic tube connected to the first and second ear tubes, the first ear tube being flexibly connected to the second ear tube by at least one spring member disposed inside the acoustic tube, a portion of the at least one spring member being located proximate to a sound transmission junction of the acoustic tube, the binaural assembly further including a junction blockage prevention member, the junction blockage prevention member configured to prevent one or more internal sound passageways of the sound transmission junction of the acoustic tube from becoming blocked or partially blocked by the at least one spring member when the first and second ear tubes are flexed outwardly away from one another by a user.