CN103340656B - Energy storage self-luminous composite film, processing method of energy storage self-luminous composite film, laparoscopic probe sensor and probe - Google Patents

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

A kind of energy storage self-luminous laminated film, processing method and laparoscope probe sensor, probe

Technical field

The present invention relates to probe field, be specifically related to a kind of energy storage self-luminous laminated film, processing method and laparoscope probe sensor, probe.

Background technology

In laparoscopy ultrasound of being expert at checking process, user needs to irradiate ultrasonic probe using peritoneoscope as light source.Patient, by observing diffusing of ultrasonic probe, obtains image and carries out positioning action.The intensity diffused and the factors that produce due to ultrasonic probe about: as the angle and distance etc. of pop one's head in material, color, surface smoothness, probe and light source.These factors can affect the picture quality of acquisition, weaken the judgement of user to probe positions and attitude information.

Prior art: existing laparoscope probe head is generally black plastic housing, after probe enters abdominal cavity, reflecting effect is not fine, and its border is easily mixed in background, is not easy the clear position distinguishing sonac.

Summary of the invention

The embodiment of the present invention provides a kind of energy storage self-luminous laminated film, processing method and laparoscope probe sensor, probe, to solve the problem that in prior art, peritoneoscope ultrasonic probe optical visible is bad.

The invention provides a kind of energy storage self-luminous laminated film, comprising: basic unit, accumulation energy type self-luminescent material thin layer, diffuse-reflectance enhanced film layer, outer package layer; The composite molding from the bottom to top encapsulating at described trilaminate material outer cladding encapsulated layer successively of described basic unit, accumulation energy type self-luminescent material thin layer, diffuse-reflectance enhanced film layer.

Further, described accumulation energy type self-luminescent material thin layer is the thin layer containing accumulation energy type self-luminescent material.

Further, described basic unit adopts flexible high molecular material to make.

Further, described diffuse-reflectance enhanced film layer is the organic film of printing opacity, by chemical etching in the rugged multiple slight ramp of its surface etching, increases apparent emitting area, to strengthen the diffuse-reflecting power to incident illumination.

Further, described encapsulated layer adopts corrosion-resistant engineering plastics thin film to make.

The present invention also provides a kind of energy storage self-luminous laminated film processing method, comprising: by mixing cured to described energy storage self-luminescent material powder and film substrate become accumulation energy type self-luminescent material thin film; By described diffuse-reflectance enhanced film by chemical etching in the rugged multiple slight ramp of its surface etching; Basic unit, accumulation energy type self-luminescent material thin film, diffuse-reflectance enhanced film are carried out being combined into a thin film in order successively; Described thin film is cut into the shape of needs as required and encapsulates.

The present invention also provides a kind of laparoscope probe sensor, described sensor comprises housing and is arranged on the agent structure of enclosure interior, described housing offers and looks sound window, for launching and receiving ultrasonic signal, described housing also has working region tag line, described sensor housing embeds at least just like upper described energy storage self-luminous laminated film.

Further, described energy storage self-luminous laminated film axially embeds along described housing.

Further, described energy storage self-luminous laminated film is arranged on and is positioned at depending on sound window on coaxial or adjacent housing face or with working region tag line on coaxial or adjacent housing face.

The present invention also provides a kind of laparoscope probe, and described laparoscope probe has sensor as above.

Adopt of the present invention improve physical positioning accuracy laparoscopy ultrasound probe sensor and probe there is following beneficial effect:

1, due to thin layer that described accumulation energy type self-luminescent material thin layer is containing accumulation energy type self-luminescent material, storage light 10 ~ 20min, just can continuous illumination 8 ~ 12h, this kind of material is best to ultraviolet absorption efficiency, uses ultraviolet to irradiate in advance to obtain and better store up light effect; Because described diffuse-reflectance enhanced film layer is the organic film of printing opacity, by chemical etching in the rugged multiple slight ramp of its surface etching, increase apparent emitting area, strengthen the diffuse-reflecting power to incident illumination, improve optics observability; Again because described encapsulated layer adopts corrosion-resistant engineering plastics thin film, by the encapsulation of encapsulated layer, described energy storage self-luminous laminated film can entirety be protected, and prevents from being polluted when putting into human body.

The sensor outer housing of 2, popping one's head in due to described laparoscopy ultrasound embeds energy storage self-luminous laminated film, when the light that peritoneoscope cold light source sends can normal illumination to laparoscopy ultrasound probe sensor and scanning zone thereof time, due to the diffuse-reflectance enhancement effect of thin slice, the working region tag line of what user can be eye-catching observe scanning zone or ultrasonic probe sensor.When affecting due to various unfavorable factor, the light that can arrive ultrasonic probe sensor surface is caused to weaken, or due to the covering of various tissue (as tissue fluid, blood etc.), when making probe sensor surface reflection reduced capability, now energy storage self-luminous thin film starts to show as strong light radiation ability, like this, even if when illumination condition is poor, user still can clear view to the working region tag line of scanning zone or laparoscopy ultrasound probe sensor, ensure normally to use.

accompanying drawing explanation

Fig. 1 is that laparoscopy ultrasound probe enters abdominal quadrants structural representation;

Fig. 2 is the energy storage self-luminous laminated film decomposing schematic representation of the specific embodiment of the invention.

Detailed description of the invention

The embodiment of the present invention provides a kind of energy storage self-luminous laminated film, processing method and laparoscope probe sensor, probe, by increasing energy storage self-luminous laminated film on laparoscopy ultrasound probing shell, weaken the interference of various unfavorable factor, to solve the problem that in prior art, peritoneoscope ultrasonic probe optical visible is bad.Below be described in detail respectively.

Embodiment one,

As shown in Figure 1, be a kind of energy storage self-luminous laminated film described in this specific embodiment, described energy storage self-luminous laminated film comprises: basic unit, accumulation energy type self-luminescent material thin layer, diffuse-reflectance enhanced film layer, outer package layer.The composite molding from the bottom to top encapsulating described trilaminate material outer cladding encapsulated layer (scheming not shown) successively of described basic unit 311, accumulation energy type self-luminescent material thin layer 312, diffuse-reflectance enhanced film layer 313.

Described basic unit 311, adopts flexible high molecular material to make, as the base material of laminated film.

Described accumulation energy type self-luminescent material thin layer 312, for the thin layer containing accumulation energy type self-luminescent material, accumulation energy type self-luminescent material refines from rare earth, storage light 10 ~ 20min, just can continuous illumination 8 ~ 12h, this kind of material is best to ultraviolet absorption efficiency, and use ultraviolet irradiates in advance to obtain and better stores up light effect.Luminescent material is nontoxic, "dead".

Described diffuse-reflectance enhanced film layer 313 is the organic film of printing opacity, by chemical etching in the rugged multiple slight ramp of its surface etching, increases apparent emitting area, strengthens the diffuse-reflecting power to incident illumination, improve optics observability.

Described encapsulated layer adopts corrosion-resistant engineering plastics thin film.By the encapsulation of encapsulated layer, described energy storage self-luminous laminated film can entirety be protected, and prevents from being polluted when putting into human body.

It should be noted that, described three layers of laminated film general thickness are not more than 1mm, require good biological safety, can pass through biocompatibility test after the encapsulation of this laminated film.

Embodiment two,

For energy storage self-luminous laminated film processing method described in the present embodiment, comprising:

By mixing cured to described energy storage self-luminescent material powder and film substrate become accumulation energy type self-luminescent material thin film; By described diffuse-reflectance enhanced film by chemical etching in the rugged multiple slight ramp of its surface etching;

Basic unit, accumulation energy type self-luminescent material thin film, diffuse-reflectance enhanced film are carried out being combined into a thin film in order successively;

Described thin film is cut into the shape of needs as required and encapsulates.

Be understandable that, described film substrate can be organic solvent or packing material etc., does not limit here.

Be understandable that, basic unit, accumulation energy type self-luminescent material thin film, diffuse-reflectance enhanced film carried out successively being in order combined into a thin film, described compound can connect agent bonding by glue or by high-temperature laminating etc., here not limit.

It should be noted that, described thin film is cut into strip usually according to the shape of peritoneoscope sensor outer housing, and its concrete specification determines according to the shape of the shell of peritoneoscope sensor.

Embodiment three,

As shown in Figure 1, for the laparoscopy ultrasound probe segment structural representation described in this specific embodiment, described probe comprises sensor 1 and insertion tube 2, described sensor comprises housing and is arranged on the agent structure of enclosure interior, described housing offer depending on sound window (scheming not shown), for launching and receiving ultrasonic signal, some housing described also has working region tag line.Described sensor housing embeds at least one energy storage self-luminous laminated film 3.The structure of described energy storage self-luminous laminated film 3 does not repeat them here as described in specific embodiment one.

Should be understood that, described energy storage self-luminous laminated film can with on the shell of sensor described in various structural embeddedness, such as embed along described housing axial integral, or along described housing horizontally set many embedding, be easy to process in this specific embodiment, preferably embed along described housing axial integral.

Should be understood that, described energy storage self-luminous laminated film can be arranged on described housing any, for the needs of illumination, its be preferably arranged on described to be positioned on coaxial or adjacent housing face depending on sound window in case increase viewing area brightness or with the working region tag line on described sensor housing on coaxial or adjacent housing face to facilitate the observation to described working region tag line.

Owing to the sensor outer housing that described laparoscopy ultrasound is popped one's head in embedding energy storage self-luminous laminated film, when the light that peritoneoscope cold light source sends can normal illumination to laparoscopy ultrasound probe sensor and scanning zone thereof time, due to the diffuse-reflectance enhancement effect of thin slice, the working region tag line of what user can be eye-catching observe scanning zone or ultrasonic probe sensor.When affecting due to various unfavorable factor, the light that can arrive ultrasonic probe sensor surface is caused to weaken, or due to the covering of various tissue (as tissue fluid, blood etc.), when making probe sensor surface reflection reduced capability, now energy storage self-luminous thin film starts to show as strong light radiation ability, like this, even if when illumination condition is poor, user still can clear view to the working region tag line of scanning zone or laparoscopy ultrasound probe sensor, ensure normally to use.

Work process is as follows: peritoneoscope mirror ultrasonic probe sonac position 1 and insertion tube 2 enter human body by abdominal part aperture.Described energy storage self-luminous laminated film 3 is positioned at the Acoustic focusing region of sonac.When outside light application ratio is stronger, the outermost diffuse-reflectance enhancement layer of strip thin film can improve diffuse-reflectance efficiency, is convenient to that doctor is clear observes the effective working region of sonac; When outside light application ratio is more weak, visible ray launched by the self-luminescent material in rectangular thin slice intermediate layer, and doctor can utilize this visible ray by observing the effective operating position determining sonac.

Embodiment four,

The specific embodiment of the invention also discloses a kind of laparoscope probe, and described laparoscope probe comprises the sensor as described in specific embodiment three, and described sensor, as described in specific embodiment three, does not repeat them here.

A kind of energy storage self-luminous laminated film, processing method and the laparoscope probe sensor thereof that there is provided the embodiment of the present invention above, probe are described in detail, but the explanation of above embodiment just understands method of the present invention and core concept thereof for helping, and should not be construed as limitation of the present invention.Those skilled in the art are in the technical scope that the present invention discloses, and the change that can expect easily or replacement, all should be encompassed within protection scope of the present invention.

Claims (5)

1. an energy storage self-luminous laminated film processing method, comprising:

By mixing cured to energy storage self-luminescent material powder and film substrate become accumulation energy type self-luminescent material thin film; By diffuse-reflectance enhanced film by chemical etching in the rugged multiple slight ramp of its surface etching;

Basic unit, accumulation energy type self-luminescent material thin film, diffuse-reflectance enhanced film are carried out being combined into a thin film in order successively;

Thin film after described compound is cut into the shape of needs as required and encapsulates.

2. a laparoscope probe sensor, described sensor comprises housing and is arranged on the agent structure of enclosure interior, described housing offers and looks sound window, for launching and receiving ultrasonic signal, described housing also has working region tag line, it is characterized in that, described sensor housing embeds the energy storage self-luminous laminated film of energy storage self-luminous laminated film processing method as claimed in claim 1 processing.

3. sensor according to claim 2, is characterized in that, described energy storage self-luminous laminated film axially embeds along described housing.

4. sensor according to claim 2, is characterized in that, described energy storage self-luminous laminated film is arranged on and is positioned at depending on sound window on coaxial or adjacent housing face or with working region tag line on coaxial or adjacent housing face.

5. a laparoscope probe, is characterized in that, described laparoscope probe has the arbitrary sensor as described in claim 2-4.