High-sensitivity anti-interference photoacoustic imaging system

Abstract

The invention relates to the technical field of photoacoustic imaging equipment, and discloses a high-sensitivity anti-interference photoacoustic imaging system which comprises a light source emitter body; the light source emitter body is movably connected with a photoacoustic imaging system body through a first-order buffer mechanism, and the light source emitter body shifts to drive a first sphere to push a first circular plate. A first circular plate pushes a second sphere to slide on a corresponding second arc piece so that an opening of the corresponding second arc piece can be enlarged, the second sphere slides into the second arc piece, so that the second arc piece deforms to absorb part of vibration generated by the light source emitter body, and the second sphere slides in the second arc piece. The force of the second sphere to the second arc piece is transmitted to the corresponding first arc piece through the second arc piece, so that the corresponding first arc piece is deformed, vibration generated by the light source emitter body is further absorbed, the amplitude of vibration generated by the light source emitter body when the photoacoustic imaging system body is impacted by the outside is reduced, and the service life of the light source emitter body is prolonged; and the sensitivity of the light source emitter body is improved.

Description

technical field [0001] The invention relates to the technical field of photoacoustic imaging equipment, in particular to a highly sensitive anti-interference photoacoustic imaging system. Background technique [0002] The photoacoustic imaging system is often used as a means of detecting patients in medical treatment. The light source emitted by the transmitter is used to irradiate the designated area of ​​​​the patient to check the disease. The light source transmitter in the existing photoacoustic imaging system is usually used in conjunction with the photoacoustic imaging system. The main body is fixedly connected. This connection method has certain disadvantages. The photoacoustic imaging system itself is a precision instrument, and there are many small parts inside the light source transmitter. However, the photoacoustic imaging system needs to be close to the patient when examining the patient. Even direct contact will cause a certain vibration when accidentally touchi...

AI Technical Summary

Problems solved by technology

[0002] The photoacoustic imaging system is often used as a means of detecting patients in medical treatment. The light source emitted by the transmitter is used to irradiate the designated area of ​​​​the patient to check the disease. The light source transmitter in the existing photoacoustic imaging system is usually used in conjunction with the photoacoustic imaging system. The main body is fixedly connected. This connection method has certain disadvantages. The photoacoustic imaging system itself is a precision instrument, and there are many small parts inside the light source transmitter. However, the photoacoustic imaging system needs to be close to the patient when examining the patient. Even direct contact will cause a certain vibration when accidentally touching or hitting the body of the photoacoustic imaging system, and frequent purchases will affect the sensitivity of the entire device of the photoacoustic imaging system to a certain extent

Images