CN115144281B - Device and method for testing flexural fatigue of snake bone of endoscope - Google Patents

Abstract

The invention discloses a device and a method for testing bending fatigue of a snake bone of an endoscope, wherein the device comprises an endoscope snake bone fixing device, a three-axis acceleration sensor, a steering engine driving device and a wire drawing fixing and clamping device; the endoscope snake bone fixing device is used for clamping a bent snake bone of an endoscope; the three-axis acceleration sensor is arranged at one end of the bent snake bone of the endoscope and used for measuring and testing bending force and creep deformation conditions in real time; the other end of the endoscope bending snake bone is uniformly provided with an upward bending wire drawing, a downward bending wire drawing, a leftward bending wire drawing and a rightward bending wire drawing in the circumferential direction; the wire drawing fixing and clamping device is used for clamping upward bent wire drawing, downward bent wire drawing, leftward bent wire drawing and rightward bent wire drawing respectively; the steering engine driving device is used for driving the wire drawing fixing and clamping device, and the bending angles of the bent snake bone of the endoscope in the four directions of upward, downward, left and right are controlled by controlling the drawing distance of the wire drawing. The device has good wire drawing clamping effect and high testing efficiency.

Description

Device and method for testing flexural fatigue of snake bone of endoscope

Technical Field

The invention relates to the field of endoscope product reliability testing, in particular to a device and a method for testing bending fatigue of an endoscope snake bone.

Background

The endoscope is a common medical device product, and the function of the endoscope comprises that the head can be bent at different angles in four directions, namely upward, downward, left and right directions, so that the gastrointestinal endoscope cavity can be observed in real time at multiple angles. This function is mainly performed by the snake bone device, and thus the reliability of the snake bone bending fatigue is very critical. Four steel wires are welded on the snake bone, bending in the upper direction, the lower direction, the left direction and the right direction is controlled respectively, and according to market application requirements, the bending angle is up to 210 degrees, down to 90 degrees, left to 100 degrees and right to 100 degrees.

If the bending fatigue test limit life and the aging process of the endoscope are finished through manual test, uncontrollable factors such as poor repeatability and accuracy are caused, counting is not good, simple and rapid test is not good, and manpower is consumed. Therefore, it is necessary to develop a testing system, which can automatically test and count the fatigue bending times, and is convenient for the automatic mass production detection control of the production line, and the operation process is simple.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a device and a method for testing bending fatigue of a snake bone of an endoscope.

The invention achieves the purpose by the following technical scheme: the first aspect of the embodiment of the invention provides a testing device for bending fatigue of a snake bone of an endoscope, which comprises an endoscope snake bone fixing device, a three-axis acceleration sensor, a steering engine driving device and a wire drawing fixing and clamping device;

the endoscope snake bone fixing device is used for clamping a bent snake bone of an endoscope;

the three-axis acceleration sensor is arranged at one end of the bent snake bone of the endoscope and used for measuring and testing bending force and creep deformation conditions in real time;

the other end of the endoscope bending snake bone is uniformly provided with an upward bending wire drawing, a downward bending wire drawing, a leftward bending wire drawing and a rightward bending wire drawing in the circumferential direction;

the wire drawing fixing and clamping device is used for clamping upward bent wire drawing, downward bent wire drawing, leftward bent wire drawing and rightward bent wire drawing respectively;

the steering engine driving device is used for driving the wire drawing fixing and clamping device, and the bending angles of the bent snake bone of the endoscope in the four directions of upward, downward, left and right are controlled by controlling the drawing distance of the wire drawing.

Further, the endoscope snake bone fixing device is a clamping vice.

Further, the wire drawing fixing and clamping device comprises an upper and lower bending rotary table and a left and right bending rotary table, wherein the upper and lower bending rotary table is connected with an upward bending wire drawing and a downward bending wire drawing to control the snake bone of the endoscope to be bent upwards and downwards respectively; the left and right bending turntables are connected with the left bending wire drawing and the right bending wire drawing to control the snake bones of the endoscope to be bent left and right respectively; the diameter of the upward bending rotary disc is slightly larger than that of the downward bending rotary disc, and the diameter of the leftward bending rotary disc is equal to that of the rightward bending rotary disc.

Furthermore, the upper and lower bent turntables comprise a first turntable connecting part, two ends of the first turntable connecting part are respectively provided with an upward bent turntable and a downward bent turntable, and the bottom of the first turntable connecting part is connected with a steering engine driving device; the left and right bending turnplates comprise second turnplate connecting parts, the two ends of the second turnplate connecting part are respectively provided with a left bending turnplate and a right bending turnplate, and the bottom of the second turnplate connecting part is connected with a steering engine driving device.

Further, the first and second turntable connecting parts are designed to be of a runway type.

Furthermore, the bottoms of the upward bending rotary table, the downward bending rotary table, the leftward bending rotary table and the rightward bending rotary table are at least provided with two fixing holes, and the fixing holes are used for fixing the drawn wires; and the upward bending rotary table, the downward bending rotary table, the leftward bending rotary table and the rightward bending rotary table are provided with threaded grooves for winding and drawing wires.

Further, the threaded grooves arranged on the upward bending rotary table, the downward bending rotary table, the leftward bending rotary table and the rightward bending rotary table are U-shaped, V-shaped, arc-shaped, square or trapezoidal.

Further, the aperture of the fixing hole is slightly larger than the diameter of the bent snake bone wire of the endoscope.

Further, the steering engine driving device comprises an up-and-down bending driving motor and a left-and-right bending driving motor; and the output ends of the upper bending driving motor, the lower bending driving motor and the left bending driving motor and the right bending driving motor are respectively connected with a first rotary table connecting part and a second rotary table connecting part in the wire drawing fixing and clamping device through a steering wheel.

A second aspect of the embodiments of the present invention provides a method for testing flexural fatigue of a snake bone of an endoscope, which is implemented based on the above apparatus for testing flexural fatigue of a snake bone of an endoscope, and the method specifically includes the following steps:

s1, fixing the bent end of the snake bone of the endoscope by using a fixing device, respectively fixing drawn wires on a drawn wire fixing and clamping device, and rotating a steering engine driving device to adjust the lengths of the drawn wires until the snake bone of the endoscope is bent in place;

s2, an up-and-down bending driving motor rotates, an up-bending turntable drives an up-bending wire drawing to stretch, and a snake bone of the endoscope bends upwards by 210 degrees; the up-and-down bending driving motor is reset and then rotates in the opposite direction, the downward bending turntable drives the downward bending wire drawing to stretch, the snake bone of the endoscope bends downwards by 90 degrees, the up-and-down bending driving motor is reset, and the snake bone state of the endoscope is also reset; the left and right bending driving motors rotate, the left bending turntable drives the left bending wire drawing to stretch, and the snake bone of the endoscope bends 100 degrees to the left; the left and right bending driving motors reset and then rotate in the opposite direction, the right bending turntable drives the right bending wire to stretch, the snake bone of the endoscope bends 100 degrees rightwards, the left and right bending driving motors reset, and the snake bone state of the endoscope also resets.

And S3, circulating the step S2 to measure the bending fatigue for a specified number of times.

The invention has the following beneficial effects: the invention provides a device and a method for testing bending fatigue of a snake bone of an endoscope, which are characterized in that bending test is driven by an automatic steering engine, automatic detection is realized, manpower is greatly reduced, a test result is more real, more accurate and more precise, the test efficiency is improved, the manufacturing cost is low, and the structure is simple. In the testing device provided by the invention, the bending end of the snake bone of the endoscope is connected with the three-axis acceleration sensor, so that the defect that the prior art cannot sense the tiny changes such as the creep deformation of a steel wire in the testing process is overcome, the judgment of whether the bending is completely bent or not and whether the bending is consistent or not is facilitated, and the testing precision, the accuracy and the consistency are improved. In the testing device provided by the invention, the steering engine driving device adopts two steering engines to realize stretching in four directions through reciprocating motion, wherein the steering engines have the characteristics of simple structure, easiness in maintenance, low power consumption, high control precision and the like. The wire drawing fixing and clamping device adopts a thread structure and hole positions to fix the wire drawing, and can conveniently realize disassembly and position adjustment. The device also comprises a counting screen for displaying the bending fatigue times and the progress of the test in the upper, lower, left and right directions, and is more intuitive.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention.

FIG. 1 is a schematic view of the device for restoring the state of snake bone according to the present invention;

FIG. 2 is a schematic structural view of an endoscope snake bone;

FIG. 3 is a schematic structural view of a snake bone wire drawing fixation;

FIG. 4 is a schematic view of the device with the snake bone bent upward by 210;

FIG. 5 is a schematic view of the device with the snake bone bent downwardly by 90;

FIG. 6 is a schematic view of the device with the snake bone bent 100 to the left;

FIG. 7 is a schematic view of the device with the snake bone bent 100 to the right;

in the drawing, 1-endoscope bending snake bone, 2-clamping vice, 3-three-axis acceleration sensor, 41-up and down bending driving motor, 42-left and right bending driving motor, 51-upward bending turntable, 52-downward bending turntable, 53-leftward bending turntable, 54-rightward bending turntable, 61-upward bending wire drawing, 62-downward bending wire drawing, 63-leftward bending wire drawing, 64-rightward bending wire drawing and 7-fixing hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

As shown in figure 1, the invention provides a testing device for bending fatigue of a snake bone of an endoscope, which saves testing manpower and material resources, can synchronously perform bending tests of four angles, namely up, down, left and right angles, is adjustable in testing angle, is visual in testing times and other processes, and can perform bending tests in four directions only by two steering engines. Through the rational fixed steel wire of helicitic texture and aperture, actual measurement pulling force 2N can be fine fixed, can increase fixed orifices and thread length under the big a little circumstances of pulling force, and the welding can be adjusted the position of steel wire in a flexible way to this kind of structure, can dismantle advantages such as. And the head is equipped with triaxial acceleration sensor, can test bending force, contains the creep process that takes place, improves the measuring accuracy, can judge simultaneously whether totally crooked, whether crooked unanimity.

Specifically, the testing device for the bending fatigue of the snake bone of the endoscope comprises an endoscope snake bone fixing device (a common easily-obtained clamping vice 2 is selected in the embodiment of the invention), a three-axis acceleration sensor 3, a steering engine driving device and a wire drawing fixing and clamping device; the endoscope snake bone fixing device is used for clamping the endoscope bent snake bone 1, the three-axis acceleration sensor 3 is pasted at one end of the endoscope bent snake bone 1 and used for measuring and testing bending force and creep deformation conditions in real time, so that the bending angle of the snake bone at the front end is accurately controlled, and the bending fatigue testing precision is improved. As shown in fig. 2, the other end of the bending snake bone 1 of the endoscope is uniformly provided with an upward bending wire 61, a downward bending wire 62, a leftward bending wire 63 and a rightward bending wire 64 in the circumferential direction. The wire drawing fixing and clamping device is used for respectively and fixedly clamping an upward bent wire drawing 61, a downward bent wire drawing 62, a leftward bent wire drawing 63 and a rightward bent wire drawing 64. The steering engine driving device is used for driving the wire drawing fixing and clamping device, and further controlling the bending angles of the bent snake bone 1 of the endoscope in the four directions of up, down, left and right by controlling the drawing distance of the wire drawing.

In the embodiment of the present invention, the three-axis acceleration sensor 3 is an MPU6050 three-axis acceleration sensor, as shown in fig. 1, the three-axis acceleration sensor 3 is fixed to the curved front end of the snake bone of the endoscope by a wire, and the wire can be fixed to the curved front end of the snake bone of the endoscope by an adhesive. The triaxial acceleration sensor 3 can sense the bending force during testing, can sense and feed back when creep occurs or abnormality occurs in the testing process, and can suspend testing to readjust resetting when necessary, so that the testing precision can be improved, and the change in the testing process can be obtained.

The wire drawing fixing and clamping device comprises an upper bending rotary table, a lower bending rotary table, a left bending rotary table and a right bending rotary table, and is shown in figure 3. The upper and lower bending turntables are connected with the upward bending wire drawing and the downward bending wire drawing, and the left and right bending turntables are connected with the leftward bending wire drawing and the rightward bending wire drawing.

The upper and lower bending turntables comprise a first turntable connecting part, an upward bending turntable 51 and a downward bending turntable 52 are respectively arranged at two ends of the first turntable connecting part, and the bottom of the first turntable connecting part is fixed with a steering wheel on an upper and lower bending driving motor 41 in the steering engine driving device. Correspondingly, the left and right bending turnplates comprise a second turnplate connecting part, a left bending turnplate 53 and a right bending turnplate 54 are respectively arranged at two ends of the second turnplate connecting part, and the bottom of the second turnplate connecting part is fixed with a steering wheel on the left and right bending driving motor 42 in the steering engine driving device. The first turntable connecting part and the second turntable connecting part in the embodiment of the invention are designed to be of a runway shape. Wherein, the upward bending turntable 51, the downward bending turntable 52, the leftward bending turntable 53 and the rightward bending turntable 54 are provided with threads for increasing friction force during winding and drawing. Illustratively, the cross-section of the thread groove is U-shaped, V-shaped, circular arc-shaped, square, trapezoid, or the like. The bottoms of the upward bending turntable 51, the downward bending turntable 52, the leftward bending turntable 53 and the rightward bending turntable 54 are at least provided with two fixing holes 7, the hole diameter of each fixing hole 7 is slightly larger than the diameter of the wire drawing of the endoscope bending snake bone, the tail of the wire drawing is fixed, and the wire drawing is enabled to be adjustable and movable (namely, the wire drawing is enabled to stretch around the bending turntable under the driving of the steering engine driving device to drive the endoscope bending snake bone to bend). When the test tension is 2N in the embodiment of the invention, the bent snake bone 1 of the endoscope can be bent in place. In the case of a higher tension application, the thread length can be increased, and/or the fixing hole 7 can be increased.

Preferably, in the embodiment of the present invention, the upward bending rotary disk 51, the downward bending rotary disk 52, the leftward bending rotary disk 53 and the rightward bending rotary disk 54 are cylindrical, wherein the diameter of the upward bending rotary disk 51 is slightly larger than that of the downward bending rotary disk 52, because the upward bending angle is larger than that of the downward bending angle. The leftward curved turntable 53 is equal in diameter to the rightward curved turntable 54.

The steering engine driving device comprises an upper bending driving motor 41, a lower bending driving motor 41, a left bending driving motor 42 and a right bending driving motor 42, wherein the upper bending driving motor 41, the lower bending driving motor 41, the left bending driving motor 42 and the right bending driving motor 42 are both MG996R steering engines, and the MG996R steering engines are economical and practical and have small testing energy consumption. The up-down bending driving motor 41 and the left-right bending driving motor 42 are fixed on the rack through a steering engine bracket. The output ends of the up-and-down bending driving motor 41 and the left-and-right bending driving motor 42 are connected with the wire drawing fixing and clamping device through a rudder disc.

Furthermore, the testing device for the bending fatigue of the snake bone of the endoscope further comprises a microcontroller MCU, wherein the microcontroller MCU calculates data collected by the triaxial acceleration sensor and displays the testing times and states through a display screen, and the testing times comprise the times in the upper direction, the lower direction, the left direction and the right direction. The microcontroller MCU sets up on PCB circuit board, and PCB circuit board is connected with external power supply. In the embodiment of the invention, the microcontroller MCU includes but is not limited to STC15 series, STM8 series or STM32 series. The display screen includes but is not limited to an LCD display screen and the like.

In another aspect, the embodiment of the invention provides a method for testing flexural fatigue of a snake bone of an endoscope, which comprises the following steps:

s1, fixing the bent end of the snake bone of the endoscope by using a fixing device, respectively fixing drawn wires (an upward bent drawn wire 61, a downward bent drawn wire 62, a leftward bent drawn wire 63 and a rightward bent drawn wire 64) on a drawn wire fixing and clamping device (an upward bent turntable 51, a downward bent turntable 52, a leftward bent turntable 53 and a rightward bent turntable 54), and rotating a steering engine driving device to adjust the length of the drawn wires until the snake bone of the endoscope is bent in place;

s2, as shown in FIG. 4, the up-and-down bending driving motor 41 rotates, the upward bending turntable 51 drives the upward bending wire 61 to stretch, and the snake bone of the endoscope bends upwards by 210 degrees; as shown in fig. 5, the up-and-down bending driving motor 41 is reset and then rotates in the opposite direction, the downward bending turntable 52 drives the downward bending wire 62 to stretch, the endoscope snake bone bends downward by 90 degrees, the up-and-down bending driving motor 41 is reset, and the endoscope snake bone state is also reset; as shown in FIG. 6, the left-right bending drive motor 42 is rotated, the left bending turntable 53 drives the left bending wire 63 to stretch, and the endoscope snake bone bends 100 degrees to the left, as shown in FIG. 7, the left-right bending drive motor 42 is reset and then rotated in the opposite direction, the right bending turntable 54 drives the right bending wire 64 to stretch, and the endoscope snake bone bends 100 degrees to the right, and the left-right bending drive motor 42 is reset, and the state of the endoscope snake bone is also reset.

And S3, circulating the step S2 to measure the bending fatigue for a specified number of times.

Example 1

The embodiment 1 of the invention provides a testing device and a testing method for bending fatigue of a snake bone of an endoscope, and the testing device comprises a clamping vice 2, a three-axis acceleration sensor 3, an up-and-down bending driving motor 41, a left-and-right bending driving motor 42, a display counting device and a wire drawing fixing clamping device (an up-bending turntable 51, a down-bending turntable 52, a left-bending turntable 53 and a right-bending turntable 54). Wherein, the steering wheel adopts MG996R, and is economical and practical, and the test energy consumption is little. Even there are four wire drawing (kickup wire drawing 61, kickdown wire drawing 62, kickdown wire drawing 63 and kickdown wire drawing 64) to the fixed clamping device of wire drawing control respectively about, down, a left side, four directions of the right side are crooked, can carry out the circulation bending test of four directions simultaneously, clamping device's size and steering wheel turned angle control steel wire stretching distance further control snake bone bending angle through the clamping position of adjustment steel wire, crooked snake bone department is with triaxial acceleration sensor test bending force and creep condition, thereby accurate control front end snake bone bending angle, improve bending fatigue test precision.

The invention adopts two steering engines (an up-down bending driving motor 41 and a left-right bending driving motor 42) and can control the stretching in four directions through reciprocating motion. And under the conventional condition, four steering engines are required to respectively control the stretching in four directions. The up-down bending driving motor 41 and the left-right bending driving motor 42 are fixed on the test board by adopting matched steering engine supports.

The wire drawing fixing and clamping device comprises an upper bending turntable, a lower bending turntable, a left bending turntable and a right bending turntable. The upward bending turntable 51, the downward bending turntable 52, the leftward bending turntable 53 and the rightward bending turntable 54 are all provided with threads for increasing the friction force of steel wires, the cross section of a thread groove can be designed into a U shape, a V shape, an arc shape, a square shape or a trapezoid shape, and the cross section of the thread groove arranged in the embodiment 1 of the invention is U-shaped. The bottoms of the upward bending rotary disc 51, the downward bending rotary disc 52, the leftward bending rotary disc 53 and the rightward bending rotary disc 54 are provided with at least two fixing holes 7. In the embodiment of the invention, the diameter of the drawn wire is 0.6mm. The aperture of the two fixing holes 7 is slightly larger than the diameter of the drawn wire, and the two fixing holes are used for fixing the tail part of the drawn wire and are adjustable and movable. In the embodiment of the invention, when the tension is only 2N, the snake bone can be bent in place, and the thread length and the number of holes can be increased in a larger tension application scene. In the embodiment of the present invention, the diameter of the upward bending rotary disc 51 is slightly larger than that of the downward bending rotary disc 52, because the upward bending angle 210 degrees is larger than the downward bending angle 90 degrees. The leftward bending dial 53 is equal in diameter to the rightward bending dial 54 because both the leftward bending angle and the rightward bending angle are 100 degrees.

When the device is used for testing, an upward bending rotary disc 51 in the wire drawing fixing and clamping device fixedly clamps an upward bending wire drawing 61 and controls the downward bending of the snake bone of the endoscope, a downward bending rotary disc 52 in the wire drawing fixing and clamping device fixedly clamps a downward bending wire drawing 62 of a steel wire and controls the upward bending of the snake bone of the endoscope, a leftward bending rotary disc 53 in the wire drawing fixing and clamping device fixedly clamps a leftward bending wire drawing 63 and controls the leftward bending of the snake bone, and a rightward bending rotary disc 54 in the wire drawing fixing and clamping device fixedly clamps a rightward bending wire drawing 64 and controls the rightward bending of the snake bone.

The snake bone part at the bent front end of the endoscope is connected with a triaxial acceleration sensor 3 through a conductive connecting wire, and the conductive connecting wire can be fixed at the bent front end of a product through an adhesive. The triaxial acceleration sensor 3 can sense the bending force during testing, can sense and feed back when creep occurs or abnormality occurs in the testing process, and can suspend testing when necessary so as to readjust resetting, so that the testing precision can be improved, and the change in the testing process can be obtained. By adopting the triaxial acceleration sensor, the test precision can be greatly improved, the changes of steel wire creep deformation and the like in the test process can be sensed, the bending consistency at each time and the bending in place can be ensured, and the steel wire can be suspended and adjusted in place when the changes occur.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent structures or equivalent flow transformations made by using the contents of the specification and the drawings, or applied directly or indirectly to other related systems, are included in the scope of the present invention.

Claims (7)

1. A testing device for bending fatigue of an endoscope snake bone is characterized by comprising an endoscope snake bone fixing device, a three-axis acceleration sensor, a steering engine driving device and a wire drawing fixing and clamping device;

the endoscope snake bone fixing device is used for clamping a bent snake bone of an endoscope;

the three-axis acceleration sensor is arranged at one end of the bent snake bone of the endoscope and is used for measuring and testing the bending force and the creep deformation condition in real time;

the other end of the bent snake bone of the endoscope is uniformly provided with upward bent wire drawing, downward bent wire drawing, leftward bent wire drawing and rightward bent wire drawing according to the circumferential direction;

the wire drawing fixing and clamping device is used for clamping upward bent wire drawing, downward bent wire drawing, leftward bent wire drawing and rightward bent wire drawing respectively; the wire drawing fixing and clamping device comprises an upper and lower bending rotary table and a left and right bending rotary table, wherein the upper and lower bending rotary table is connected with an upward bending wire drawing and a downward bending wire drawing and is used for controlling the snake bone of the endoscope to be bent upwards and downwards respectively; the left and right bending turntables are connected with the left bending wire drawing and the right bending wire drawing and are used for controlling the snake bones of the endoscope to be bent left and right respectively;

the upper and lower bending turntables comprise a first turntable connecting part, and an upward bending turntable and a downward bending turntable are respectively arranged at two ends of the first turntable connecting part; the left and right bending turnplates comprise second turnplate connecting parts, and a left bending turnplate and a right bending turnplate are respectively arranged at two ends of each second turnplate connecting part; the bottom parts of the upward bending turntable, the downward bending turntable, the leftward bending turntable and the rightward bending turntable are respectively provided with at least two fixing holes, the aperture of each fixing hole is slightly larger than the diameter of the wire drawing of the bent snake bone of the endoscope, the fixing holes are used for fixing the tail part of the wire drawing, and the wire drawing is adjustable and movable; threaded grooves are formed in the upward bending rotary table, the downward bending rotary table, the leftward bending rotary table and the rightward bending rotary table and are used for winding and drawing wires;

the steering engine driving device is used for driving the wire drawing fixing and clamping device, and controlling the bending angles of the bent snake bone of the endoscope in the four directions of upward, downward, left and right by controlling the drawing distance of the wire drawing;

the steering engine driving device comprises an up-and-down bending driving motor and a left-and-right bending driving motor; and the output ends of the upper bending driving motor, the lower bending driving motor and the left bending driving motor and the right bending driving motor are respectively connected with a first rotary table connecting part and a second rotary table connecting part in the wire drawing fixing and clamping device through a steering wheel.

2. The endoscopic snake bone bending fatigue testing device according to claim 1, wherein said endoscopic snake bone fixation device is a clamping vise.

3. The apparatus for testing flexural fatigue of an endoscope snake bone according to claim 1, wherein the diameter of said upward curving turntable is larger than that of said downward curving turntable, and the diameter of said leftward curving turntable is equal to that of said rightward curving turntable.

4. The device for testing the flexural fatigue of the snake bone of the endoscope as recited in claim 1, wherein the bottom of the first rotating disk connecting part is connected with a steering engine driving device; the bottom of the second turntable connecting part is connected with a steering engine driving device.

5. An endoscopic snake bone bending fatigue testing device according to claim 1 or 4, wherein said first and second turntable connecting parts are designed as a runway type.

6. The apparatus for testing flexural fatigue of an endoscope snake bone according to claim 1, wherein the threaded grooves formed on the upward bending rotary disk, the downward bending rotary disk, the leftward bending rotary disk and the rightward bending rotary disk are U-shaped, V-shaped, circular arc-shaped, square or trapezoid.

7. A method for testing the flexural fatigue of a snake bone of an endoscope, which is realized based on the device for testing the flexural fatigue of the snake bone of the endoscope as claimed in any one of the claims 1-6, and is characterized by comprising the following steps:

s1, fixing the bent end of the snake bone of the endoscope by using a fixing device, respectively fixing drawn wires on a drawn wire fixing and clamping device, and rotating a steering engine driving device to adjust the length of the drawn wires until the snake bone of the endoscope is bent in place;

s2, an up-and-down bending driving motor rotates, an up-bending turntable drives an up-bending wire drawing to stretch, and a snake bone of the endoscope bends upwards by 210 degrees; the up-and-down bending driving motor is reset and then rotates in the opposite direction, the downward bending turntable drives the downward bending wire drawing to stretch, the snake bone of the endoscope bends downwards by 90 degrees, the up-and-down bending driving motor is reset, and the snake bone state of the endoscope is also reset; the left and right bending driving motor rotates, the left bending turntable drives the left bending wire drawing to stretch, and the snake bone of the endoscope bends 100 degrees to the left; the left and right bending driving motors reset and then rotate in opposite directions, the right bending turntable drives the right bending wire drawing to stretch, the snake bone of the endoscope bends to the right by 100 degrees, the left and right bending driving motors reset, and the snake bone state of the endoscope also resets;

and S3, circulating the step S2 to measure the bending fatigue for a specified number of times.

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