CN107669233B - A kind of production method of endoscope probe - Google Patents

Abstract

The present invention provides a kind of endoscope probes; including interior thin-wallconduit, lighting fiber, outer thin-wallconduit, imaging fibre, self-focusing lens and protective layer; wherein; the imaging fibre, self-focusing lens and protective layer are separately positioned in the interior thin-wallconduit; the interior thin-wallconduit, lighting fiber are separately positioned in the outer thin-wallconduit, and the lighting fiber is tightly attached to the outer wall surrounding of the interior thin-wallconduit.The present invention also provides a kind of production methods of endoscope probe.The present invention also provides a kind of endoscopes.The beneficial effects of the present invention are: it is easy to operate, low in cost, and endoscope probe is more miniaturized, structural stability greatly enhances.

Description

A kind of production method of endoscope probe

Technical field

The present invention relates to endoscope more particularly to a kind of production methods of endoscope probe.

Background technique

Endoscope is to have concentrated traditional optical, ergonomics, precision machinery, hyundai electronics, mathematics, software etc. in one Detecting instrument, with imaging sensor, optical lens, light source illumination, mechanical device etc..It can be entered in stomach with direct oral cavity Or enter through other natural holes internal.Using endoscope it can be seen that the lesion that X-ray cannot be shown, therefore it is non-to doctor Chang Youyong.And the important component popped one's head in as endoscope, structure size and stability certainly will influence the application of endoscope, Therefore, how preferably to reduce the structure size of endoscope and improve stability to be that those skilled in the art are urgently to be resolved ask Topic.

Summary of the invention

In order to solve the problems in the prior art, the present invention provides a kind of more micromation, structural stabilities to increase The production method of strong endoscope probe, endoscope and endoscope probe.

The present invention provides a kind of endoscope probes, including interior thin-wallconduit, lighting fiber, outer thin-wallconduit, imaging Fine, self-focusing lens and protective layer, wherein the imaging fibre, self-focusing lens and protective layer are separately positioned on described interior thin In wall conduit, the interior thin-wallconduit, lighting fiber are separately positioned in the outer thin-wallconduit, and the lighting fiber is tightly attached to The outer wall surrounding of the interior thin-wallconduit.

As a further improvement of the present invention, the protective layer is optical clear material, one end of the protective layer and institute It states self-focusing lens to fit closely, the other end is concordant with the interior thin-wallconduit, outer thin-wallconduit, the end face of lighting fiber.

As a further improvement of the present invention, the outer thin-wallconduit is multi-lumen tube.

As a further improvement of the present invention, the diameter of the endoscope probe is 0.3-2mm.

The present invention also provides a kind of endoscopes, including described in any item endoscope probes among the above, the endoscope Probe is connected separately with eyepiece and Optic transmission fiber, and the Optic transmission fiber is connected with xenon lamp cold light source, and the eyepiece is available for users to Directly observation or the eyepiece are connected with photosensitive element, and the photosensitive element is connected with computer.

The present invention also provides a kind of endoscope, a kind of production method of endoscope probe, comprising the following steps:

S1, steel wire is connected in one end of interior thin-wallconduit using binder；

S2, by the evenly distributed outer wall surrounding for being tightly attached to the interior thin-wallconduit of lighting fiber, and by the lighting fiber It is connect with the fixation with steel wire；

S3, the steel wire is penetrated from the penetrating end of outer thin-wallconduit, in the penetrating end edge of the outer thin-wallconduit Binder is added dropwise to the lighting fiber, while slowly pulling the steel wire, the interior thin-wallconduit and lighting fiber is driven to wear Enter into the outer thin-wallconduit, until the interior thin-wallconduit is pierced by from the traversing through end of the outer thin-wallconduit, at this point, There is part steel wire to be located in the outer thin-wallconduit；

S4, the part for having the steel wire in the outer thin-wallconduit is truncated, forms truncation end face, retains without described The part of steel wire；

S5, imaging fibre is inserted into the interior thin-wallconduit from the other end opposite with the polished end faces, described Optical clear adhesive is added dropwise to the end face of the imaging fibre in one end of polished end faces, and will from one end of the polished end faces Self-focusing lens is inserted into the interior thin-wallconduit, fits closely the imaging fibre with the self-focusing lens, described Optical clear adhesive is added dropwise far from the end of the imaging fibre in self-focusing lens, forms a protective layer；

S6, the solidification optical clear adhesive keep the imaging fibre Nian Jie with the self-focusing lens securely, make institute It is Nian Jie with the protective layer securely to state self-focusing lens；

S7, the end face where the exposed face of the protective layer is polished directly, forms light pass surface, and make described interior thin Wall conduit, outer thin-wallconduit, lighting fiber, the end face of protective layer are concordant.

As a further improvement of the present invention, in step s 2, the junction and institute of the lighting fiber and the steel wire Interior thin-wallconduit is stated not to be overlapped with the junction of the steel wire.

As a further improvement of the present invention, in step s 4, smaller than the internal diameter of the interior thin-wallconduit by diameter Elongated rods are inserted into from the other end of the interior thin-wallconduit Yu steel wire abutting edge opposite side, detect the steel wire deeply extremely Position in the interior thin-wallconduit, and marked in the outer wall of the outer thin-wallconduit, then it is truncated in this position.

As a further improvement of the present invention, in step s 5, the optical clear adhesive be uv-curable glue or thoroughly Ming tree rouge.

As a further improvement of the present invention, in step s 6, pass through optics described in ultraviolet light or heating cure Translucent adhesive.

The beneficial effects of the present invention are: it is easy to operate, low in cost, and endoscope probe is more miniaturized, stable structure Property greatly enhances.

Detailed description of the invention

Fig. 1 is a kind of schematic diagram of the interior thin-wallconduit of the production method of endoscope probe of the present invention.

Fig. 2 is a kind of schematic diagram of the step S1 of the production method of endoscope probe of the present invention.

Fig. 3 is a kind of schematic diagram of the step S2 of the production method of endoscope probe of the present invention.

Fig. 4 is a kind of schematic diagram of the step S3 of the production method of endoscope probe of the present invention.

Fig. 5 is a kind of schematic diagram of the step S3 of the production method of endoscope probe of the present invention.

Fig. 6 is a kind of schematic diagram of the step S4 of the production method of endoscope probe of the present invention.

Fig. 7 is a kind of schematic diagram of the step S4 of the production method of endoscope probe of the present invention.

Fig. 8 is a kind of schematic diagram of the step S6 of the production method of endoscope probe of the present invention.

Fig. 9 is a kind of schematic diagram of endoscope of the present invention.

Specific embodiment

The present invention is further described for explanation and specific embodiment with reference to the accompanying drawing.

Drawing reference numeral of the Fig. 1 into Fig. 9 are as follows: thin-wallconduit 1；Steel wire 2；Lighting fiber 3；Outer thin-wallconduit 4；Imaging fibre 5；Self-focusing lens 6；Protective layer 7；Optic transmission fiber 8；Xenon lamp cold light source 9；CMOS/CCD system 10；Computer 11；Eyepiece 12；Inside peep Mirror probe 100.

As shown in figure 8, a kind of endoscope probe 100, including interior thin-wallconduit 1, lighting fiber 3, outer thin-wallconduit 4, at As optical fiber 5 and self-focusing lens 6, wherein the imaging fibre 5, self-focusing lens 6 are separately positioned on the interior thin-wallconduit 1 Interior, the imaging fibre 5 is fitted closely with the self-focusing lens 6, and the interior thin-wallconduit 1, lighting fiber 3 are separately positioned on In the outer thin-wallconduit 4, the lighting fiber 3 is tightly attached to the outer wall surrounding of the interior thin-wallconduit 1.

As shown in figure 8, the outer thin-wallconduit 4 is preferably multi-lumen tube (containing image acquisition units, irrigation channel etc.).

As shown in figure 9, a kind of endoscope, including the endoscope probe 100 as described in any one of above-mentioned.

As shown in figure 9, the endoscope probe 100 is connected separately with eyepiece 12 and Optic transmission fiber 8, the Optic transmission fiber 8 It is connected with xenon lamp cold light source 9, the eyepiece 12 is available for users to direct observation or the eyepiece 12 is connected with photosensitive element, The photosensitive element is connected with computer 11, and the photosensitive element is preferably CMOS/CCD system 10.

A kind of production method of endoscope probe, comprising the following steps:

S1, as shown in Figure 1, 2, is also known as finer wire for steel wire 2() be connected to using binder (such as super glue) in In 1 one end of thin-wallconduit；

3 diameter of outer diameter and single lighting fiber further accordance with interior thin-wallconduit 1, calculates required lighting fiber 3 Quantity.Calculation formula is as follows:

S2, as shown in figure 3, be tightly attached to interior 1 outer wall surrounding of thin-wallconduit for lighting fiber 3 is evenly distributed, and selected in steel wire 2 Take and be fixed at one, herein should apart from interior thin-wallconduit 1 with 2 abutting edge of steel wire farther out；

S3, as shown in Figure 4,5, steel wire 2 is penetrated from outer 4 one end of thin-wallconduit, in the penetrating end edge of outer thin-wall steel tube 4 Binder (such as super glue) is added dropwise to lighting fiber 3, while slowly pulling steel wire 2, drives interior thin-wallconduit 1 and illumination light Fibre 3 penetrates into outer thin-wallconduit 4, until interior thin-wallconduit 1 is pierced by from outer 4 other end of thin-wallconduit；

S4, as shown in Figure 6,7, the elongated rods that can be used tool such as diameter smaller than interior thin-wallconduit 1, from interior thin-wallconduit 1 is inserted into the other end of 2 abutting edge opposite side of steel wire, detects steel wire 2 deeply to the position in interior thin-wallconduit 1, in outer thin-walled 4 outer wall of conduit marks, and is then truncated in this position, discards the part with steel wire 2；

S5, the works such as cleaned, dried to the truncated position end face of the above-mentioned remainder after removing the part with steel wire 2 Skill processing；

S6, as shown in figure 8, by imaging fibre 5 from the other end opposite with polished end faces be inserted into thin-wallconduit 1, by One end of polished end faces is added dropwise a little optical clear adhesive (such as: uv-curable glue) to 5 end face of imaging fibre, and from polishing End face one end is inserted into self-focusing lens 6 in interior thin-wallconduit 1, fits closely imaging fibre 5 with self-focusing lens 6, and A little optical clear adhesive (such as: uv-curable glue) is added dropwise far from the end face at 5 end of imaging fibre in self-focusing lens 6, is formed Protective layer 7；

S7, the solidification optical clear adhesive keep the imaging fibre 5 be bonded with the self-focusing lens 6 securely, make The self-focusing lens 6 is be bonded with the protective layer 7 securely；

S8, the end face where the exposed face of the protective layer 7 is polished directly, forms light pass surface, and made in described Thin-wallconduit 1, outer thin-wallconduit 4, lighting fiber 3, the end face of protective layer 7 are concordant.

The production method of a kind of endoscope probe provided by the invention, endoscope and endoscope probe, easy to operate, cost It is cheap, and endoscope probe is more miniaturized, structural stability greatly enhances.

The above content is a further detailed description of the present invention in conjunction with specific preferred embodiments, and it cannot be said that Specific implementation of the invention is only limited to these instructions.For those of ordinary skill in the art to which the present invention belongs, exist Under the premise of not departing from present inventive concept, a number of simple deductions or replacements can also be made, all shall be regarded as belonging to of the invention Protection scope.

Claims (5)

1. a kind of production method of endoscope probe, which comprises the following steps:

S1, steel wire is connected in one end of interior thin-wallconduit using binder；

S2, by the evenly distributed outer wall surrounding for being tightly attached to the interior thin-wallconduit of lighting fiber, and by the lighting fiber and institute State fixation with steel wire connection；

S3, the steel wire is penetrated from the penetrating end of outer thin-wallconduit, in the penetrating end edge of the outer thin-wallconduit to institute It states lighting fiber and binder is added dropwise, while slowly pulling the steel wire, the interior thin-wallconduit and lighting fiber is driven to penetrate into In the outer thin-wallconduit, until the interior thin-wallconduit is pierced by from the traversing through end of the outer thin-wallconduit, at this point, there is portion Steel splitting silk is located in the outer thin-wallconduit；

S4, the part for having the steel wire in the outer thin-wallconduit is truncated, forms truncation end face, retains no steel wire Part；

S5, imaging fibre is inserted into the interior thin-wallconduit from the other end opposite with polished end faces, in the polished end faces One end optical clear adhesive is added dropwise to the end face of the imaging fibre, and it is from one end of the polished end faces that self-focusing is saturating Mirror is inserted into the interior thin-wallconduit, fits closely the imaging fibre with the self-focusing lens, saturating in the self-focusing Optical clear adhesive is added dropwise in the end face of end of the mirror far from the imaging fibre, forms a protective layer；

S6, the solidification optical clear adhesive keep the imaging fibre Nian Jie with the self-focusing lens securely, make described in oneself Condenser lens is Nian Jie with the protective layer securely；

S7, the end face where the exposed face of the protective layer is polished directly, forms light pass surface, and lead the interior thin-walled Pipe, outer thin-wallconduit, lighting fiber, the end face of protective layer are concordant.

2. the production method of endoscope probe according to claim 1, it is characterised in that: in step s 2, the illumination Optical fiber is not overlapped with the junction of the steel wire with the interior thin-wallconduit with the junction of the steel wire.

3. the production method of endoscope probe according to claim 1, it is characterised in that: in step s 4, pass through diameter The elongated rods smaller than the internal diameter of the interior thin-wallconduit, from the other end of the interior thin-wallconduit and steel wire abutting edge opposite side Insertion detects the position that the steel wire gos deep into the interior thin-wallconduit, and does in the outer wall of the outer thin-wallconduit Then label is truncated in this position.

4. the production method of endoscope probe according to claim 1, it is characterised in that: in step s 5, the optics Translucent adhesive is uv-curable glue or transparent resin.

5. the production method of endoscope probe according to claim 1, it is characterised in that: in step s 6, by ultraviolet Optical clear adhesive described in light irradiation or heating cure.