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Energy storage self-luminous composite film, processing method of energy storage self-luminous composite film, laparoscopic probe sensor and probe

A composite film and processing method technology, applied in the field of probes, can solve the problems of poor optical visibility of laparoscopic ultrasonic probes, and achieve the effects of improving optical visibility, good light storage effect, and enhanced diffuse reflection ability

Active Publication Date: 2015-01-21
SONOSCAPE MEDICAL CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The embodiment of the present invention provides an energy-storage self-luminous composite film, a processing method and a laparoscopic probe sensor and a probe to solve the problem of poor optical visibility of laparoscopic ultrasonic probes in the prior art

Method used

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  • Energy storage self-luminous composite film, processing method of energy storage self-luminous composite film, laparoscopic probe sensor and probe
  • Energy storage self-luminous composite film, processing method of energy storage self-luminous composite film, laparoscopic probe sensor and probe

Examples

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Embodiment 1

[0023] Such as figure 1 As shown, it is an energy-storage self-luminous composite film described in this specific embodiment. The energy-storage self-luminous composite film includes: a base layer, an energy-storage self-luminous material film layer, a diffuse reflection enhanced film layer, and an outer packaging layer . The base layer 311 , the energy storage type self-luminous material film layer 312 , and the diffuse reflection enhancement film layer 313 are sequentially composited and molded from bottom to top, and the three-layer material is covered with an encapsulation layer (not shown in the figure) for encapsulation.

[0024] The base layer 311 is made of flexible polymer material and serves as the base material of the composite film.

[0025] The energy storage type self-luminous material thin film layer 312 is a thin film layer containing an energy storage type self-luminous material. The energy storage type self-luminous material is extracted from rare earth, an...

Embodiment 2

[0030] The energy storage self-luminous composite film processing method described in this embodiment includes:

[0031] mixing and curing the energy storage self-luminous material powder with the film substrate to form an energy storage type self-luminous material film; chemically etching the surface of the diffuse reflection enhancing film with a plurality of uneven micro-slopes;

[0032] Composite the base layer, energy storage type self-luminous material film, and diffuse reflection enhancement film in order to form a film;

[0033] The film is cut into a desired shape and packaged as required.

[0034] It can be understood that the film substrate may be an organic solvent or a filling material, etc., which is not limited here.

[0035] It can be understood that the base layer, the energy storage type self-luminous material film, and the diffuse reflection enhancing film are sequentially combined into a film, and the compounding can be bonded by adhesive or pressed at hig...

Embodiment 3

[0038] Such as figure 1 As shown, it is a partial structure diagram of the laparoscopic ultrasound probe described in this specific embodiment, the probe includes a sensor 1 and an insertion tube 2, the sensor includes a housing and a main structure disposed inside the housing, the housing A visual and acoustic window (not shown in the figure) is opened on the top for transmitting and receiving ultrasonic signals, and some of the casings also have working area identification lines. At least one energy storage self-luminous composite film 3 is embedded on the sensor housing. The structure of the energy-storage self-luminous composite thin film 3 is as described in the first embodiment and will not be repeated here.

[0039] It should be understood that the energy-storage self-luminous composite film can be embedded in the housing of the sensor in various structures, such as being integrally embedded along the axial direction of the housing, or a plurality of embeddings are pr...

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Abstract

The invention provides an energy storage self-luminous composite film which comprises a base layer, an energy storage self-luminous material film layer, a diffuse reflection reinforced film layer and an outer package layer. The base layer, the energy storage self-luminous material film layer, and the diffuse reflection reinforced film layer are formed in a composite mode from bottom to top, and the package layer wraps the three layers of materials for packaging. The invention further provides a processing method of the energy storage self-luminous composite film, a laparoscopic probe sensor and a probe. According to the technical scheme, the energy storage self-luminous composite film, the processing method of the energy storage self-luminous composite film, the laparoscopic probe sensor and the probe solve the problem that the optical visibility of a laparoscopic ultrasound probe is poor in the prior art.

Description

technical field [0001] The invention relates to the field of probes, in particular to an energy-storage self-luminous composite film, a processing method and a laparoscopic probe sensor and probe. Background technique [0002] During laparoscopic ultrasonography, the user needs to use the laparoscope as a light source to irradiate the ultrasound probe. The operator obtains images and performs positioning operations by observing the diffuse reflection light of the ultrasound probe. The intensity of the diffuse reflection light generated by the ultrasonic probe is related to many factors: such as probe material, color, surface finish, angle and distance between the probe and the light source, etc. These factors will affect the quality of the obtained image and weaken the user's judgment on the position and attitude information of the probe. [0003] Existing technical solutions: The head of the existing laparoscopic probe is generally a black plastic shell. When the probe e...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61B8/12
Inventor 邵敏周曙光陈雄何伟
Owner SONOSCAPE MEDICAL CORP