CN218724718U - Illumination detection system of capsule endoscope - Google Patents

Abstract

The utility model discloses a capsule endoscope illumination detection system, which comprises a terminal device and a test fixture, wherein the terminal device is in communication connection with the test fixture; the test fixture comprises a test module, an illumination detection module, an illumination fixing device and an optical fiber; the test module is used for positioning, placing and supplying power to the capsule endoscope to be tested; the illumination fixing device is used for fixing the optical fiber and positioning an illumination sensor on the illumination detection module; the optical fiber is used for conducting light emitted by the capsule endoscope to be detected; the terminal equipment is used for sending a control instruction to the illumination detection module; the illumination detection module is used for acquiring illumination data of the capsule endoscope to be detected according to the control instruction and sending the illumination data to the terminal equipment; the terminal equipment determines whether the illumination of the capsule endoscope to be detected is qualified or not according to the illumination data; the automatic detection of the illumination of the capsule endoscope is realized, the detection efficiency is improved, and the accuracy, consistency and stability of the detection result are improved.

Description

Illumination detection system of capsule endoscope

Technical Field

The utility model relates to the field of machinary, concretely relates to capsule endoscope illuminance detecting system.

Background

The existing method for detecting the illumination of the LED lamp of the capsule endoscope comprises the steps that an operator places the capsule endoscope to be detected on a corresponding jig, the capsule endoscope to be detected works after power is supplied, the lighting conditions of the LED lamp of the capsule endoscope to be detected, such as lighting and non-lighting, flashing frequency and the like, are observed through human eyes, and whether the illumination of the capsule endoscope to be detected is qualified or not is judged according to the observation result. The existing detection method has large subjectivity through manual observation and judgment, cannot accurately judge the flicker frequency, the lighting degree and the like of the LED lamp, is easy to generate misjudgment or missed judgment, and has low efficiency, large product first pass rate fluctuation and large input cost fluctuation.

SUMMERY OF THE UTILITY MODEL

In order to overcome at least one technical problem who exists among the above-mentioned prior art, the utility model provides a capsule endoscope illuminance detecting system, this system can realize the automated inspection of capsule endoscope illuminance, has improved the uniformity and the stability of the accurate nature of detection efficiency, testing result.

The embodiment of the utility model provides a capsule endoscope illumination detecting system, including terminal equipment and test fixture, the terminal equipment with test fixture communication connection;

the test fixture comprises a test module, an illumination detection module, an illumination fixing device and an optical fiber, wherein one end of the optical fiber is connected with the test module, and the other end of the optical fiber is connected with the illumination fixing device;

the test module is used for positioning, placing and supplying power to the capsule endoscope to be tested;

the illumination fixing device is used for fixing the optical fiber and positioning an illumination sensor on the illumination detection module;

the optical fiber is used for conducting light emitted by the capsule endoscope to be detected;

the terminal equipment is used for sending a control instruction to the illumination detection module;

the illumination detection module is used for acquiring illumination data of the capsule endoscope to be detected according to the control instruction and sending the illumination data to the terminal equipment;

and the terminal equipment determines whether the illumination of the capsule endoscope to be detected is qualified or not according to the illumination data.

In some embodiments, the test module comprises a platen, a dial, and a probe;

the dial is used for placing the capsule endoscope to be detected, and the probe is arranged at the bottom of the dial;

the pressing plate is used for pressing and fixing the capsule endoscope to be detected on the needle dial.

In some embodiments, the dial is provided with at least two light guide holes, and after the capsule endoscope to be tested is placed on the dial, the at least two light guide holes are respectively aligned with the LED lamp beads of the capsule endoscope to be tested one by one.

In some embodiments, the bottom surface of the dial is provided with a first optical fiber fixing hole, the first optical fiber fixing hole is concentrically designed with the light guide hole, and the one end of the optical fiber is inserted into the first optical fiber fixing hole.

In some embodiments, a top surface of the illumination fixture is provided with a second optical fiber fixing hole, and the other end of the optical fiber is inserted into the second optical fiber fixing hole.

In some embodiments, the bottom surface of the illumination fixing device is provided with a sensor positioning hole, and the second optical fiber fixing hole is concentrically designed with the sensor positioning hole;

the top surface of the illumination detection module is provided with the illumination sensor at a position corresponding to the sensor positioning hole. In some embodiments, the distance of the cross section of the optical fiber to the illuminance sensor is between [2,4] mm. In some embodiments, the illuminance detection module is provided with a communication port and a power input socket, and the communication port is configured to communicate with the terminal device and receive the control instruction of the terminal device.

In some embodiments, the capsule endoscope illumination detection system further comprises a power conversion module comprising an ACDC module and a DCDC module.

The embodiment of the utility model provides a capsule endoscope illumination detecting system, including terminal equipment and test fixture, terminal equipment with test fixture communication connection; the test fixture comprises a test module, an illumination detection module, an illumination fixing device and an optical fiber; the test module is used for positioning, placing and supplying power to the capsule endoscope to be tested; the illumination fixing device is used for fixing the optical fiber and positioning an illumination sensor on the illumination detection module; one end of the optical fiber is fixedly connected with the test module, and the other end of the optical fiber is fixedly connected with the illumination fixing device; the optical fiber is used for conducting light emitted by the capsule endoscope to be detected; the terminal equipment is used for sending a control instruction to the illumination detection module; the illumination detection module is used for acquiring illumination data of the capsule endoscope to be detected according to the control instruction and sending the illumination data to the terminal equipment; the terminal equipment determines whether the illumination of the capsule endoscope to be detected is qualified or not according to the illumination data; the automatic detection of the illumination of the capsule endoscope is realized, and the detection efficiency, the accuracy of the detection result, the consistency and the stability of the detection result are improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the embodiments of the invention, but do not constitute a limitation of the embodiments of the invention.

In the drawings:

fig. 1 is a schematic view of a capsule endoscope illumination detection system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a test fixture 02 of a capsule endoscope illumination detection system according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a test module 021 of a capsule endoscope illuminance detection system according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a dial of a capsule endoscope illumination detection system and a capsule endoscope to be detected provided by an embodiment of the present invention;

fig. 5 is a schematic structural view of a dial of another capsule endoscope illumination detection system according to an embodiment of the present invention;

fig. 6 is a schematic structural view of an illumination detection module and an illumination fixing device of a capsule endoscope illumination detection system according to an embodiment of the present invention;

fig. 7 is a schematic structural view of an illumination detection module and an illumination fixing device of another capsule endoscope illumination detection system according to an embodiment of the present invention.

Description of reference numerals:

the terminal device (01) is connected to the terminal device,

the test fixture 02, the test module 021, the pressure plate 0211, the dial 0212, the light guide hole 02121, the first optical fiber fixing hole 02122, the probe 0213, the illuminance detection module 022, the illuminance sensor 0221, the communication port 0222, the power input socket 0223, the illuminance fixing device 023, the second optical fiber fixing hole 0231, the sensor positioning hole 0232 and the optical fiber 024,

the capsule endoscope 03 to be tested and the LED lamp bead 031.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

As shown in fig. 1 and 2, an embodiment of the present invention provides a capsule endoscope illuminance detection system, including a terminal device 01 and a test fixture 02, where the terminal device 01 and the test fixture 02 are in communication connection; the test fixture 02 comprises a test module 021, an illuminance detection module 022, an illuminance fixing device 023 and an optical fiber 024, wherein one end of the optical fiber 024 is connected with the test module 021, and the other end of the optical fiber 024 is connected with the illuminance fixing device 023; the test module 021 is used for positioning and power supply of the capsule endoscope 03 (not shown in fig. 1 and 2) to be tested; the illuminance fixture 023 is used to fix the optical fibers 024 and position an illuminance sensor 0221 (not shown in fig. 1 and 2) on the illuminance detection module 022; the optical fiber 024 is used for conducting light emitted by the capsule endoscope 03 to be tested; the terminal device 01 is configured to send a control instruction to the illuminance detection module 022; the illumination detection module 022 is configured to collect illumination data of the capsule endoscope 03 to be detected according to the control instruction and send the illumination data to the terminal device; and the terminal equipment determines whether the illumination of the capsule endoscope 03 to be detected is qualified or not according to the illumination data.

Specifically, the system for detecting the illumination intensity of the capsule endoscope comprises a terminal device 01 and a test fixture 02, wherein the terminal device 01 is in communication connection with the test fixture 02, detection software is installed in the terminal device 01 and used for sending a detection control instruction to the test fixture 02 and determining whether the illumination intensity of the capsule endoscope 03 to be detected is qualified or not according to illumination intensity data of the capsule endoscope 03 to be detected fed back by the test fixture 02 and a preset standard illumination value range.

Test fixture 02 includes test module 021, illuminance detection module 022, illuminance fixing device 023 and optic fibre 024's one end with test module 021 fixed connection, the other end of optic fibre 024 with illuminance fixing device 023 fixed connection. The test module 021 is used for positioning and placing the capsule endoscope 03 to be tested in the detection process and supplying power to the capsule endoscope 03 to be tested. The optical fiber 024 is used for conducting light emitted by an LED lamp bead 031 of the capsule endoscope 03 to be detected. Illuminance fixing device 023 with illuminance detection module 022 is closely installed, illuminance fixing device 023 is used for fixing optic fibre 024 to and the illuminance sensor on location illuminance detection module 022 to guarantee that illuminance sensor can gather the light that optic fibre 024 derived. Illuminance detection module 022 is provided with illuminance sensor 0221, and illuminance sensor 0221 also can replace with other photosensitive devices, illuminance sensor 0221's quantity with the quantity of the LED lamp pearl 031 of the capsule endoscope 03 that awaits measuring is the same, illuminance sensor 0221 is used for gathering the light of the LED lamp pearl 031 transmission of the capsule endoscope 03 that awaits measuring converts light signal into the signal of telecommunication, rethread electric signal conversion into digital signal to demonstrate specific illumination intensity numerical value, unit: lux.

The embodiment of the utility model provides a capsule endoscope illuminance detection system, including terminal equipment 01 and test fixture 02, terminal equipment 01 with test fixture 02 communication connection; the test fixture 02 comprises a test module 021, an illuminance detection module 022, an illuminance fixing device 023 and an optical fiber 024; the test module 021 is used for positioning, placing and supplying power to the capsule endoscope 03 to be tested; the illuminance fixture 023 is used for fixing the optical fiber 024 and positioning an illuminance sensor 0221 on the illuminance detection module 022; one end of the optical fiber 024 is fixedly connected with the test module 021, and the other end of the optical fiber 024 is fixedly connected with the illumination fixing device 023; the optical fiber 024 is used for conducting light emitted by the capsule endoscope 03 to be tested; the terminal device 01 is configured to send a control instruction to the illuminance detection module 022; the illumination detection module 022 is configured to collect illumination data of the capsule endoscope 03 to be detected according to the control instruction and send the illumination data to the terminal device; the terminal equipment determines whether the illumination of the capsule endoscope 03 to be detected is qualified or not according to the illumination data; the automatic detection of the illumination of the capsule endoscope is realized, and the detection efficiency, the accuracy of the detection result, the consistency and the stability of the detection result are improved. As shown in FIG. 3, in some embodiments, the test module 021 includes a pressure plate 0211, a dial 0212, and a probe 0213; the dial 0212 is used for placing the capsule endoscope 03 to be tested, and the probe 0213 is arranged at the bottom of the dial 0212; the pressing plate 0211 is used for pressing and fixing the capsule endoscope 03 to be tested on the dial 0212.

Specifically, the dial 0212 is provided with a groove matched with the shape of the capsule endoscope 03 to be tested, and the groove is used for placing the capsule endoscope 03 to be tested; the probe 0213 is arranged at the bottom of the dial 0212, and the probe 0213 is used for supplying power to the capsule endoscope 03 to be tested; the pressure plate 0211 is used for pressing and fixing the capsule endoscope 03 to be tested placed on the dial 0212 so as to prevent the capsule endoscope 03 to be tested from moving under the action force of the probe 0213.

As shown in fig. 4, in some embodiments, the dial 0212 is provided with at least two light guide holes 02121, and after the capsule endoscope 03 to be tested is placed on the dial 0212, the at least two light guide holes 02121 are respectively aligned with the LED lamp beads 031 of the capsule endoscope 03 to be tested.

Specifically, the number of the light guide holes 02121 is the same as the number of the LED lamp beads of the capsule endoscope 03 to be tested. Light guide 02121 and LED lamp pearl 031 one-to-one, the capsule endoscope 03 that awaits measuring is placed back on the dial 0212, LED lamp pearl 031 falls in light guide 02121 centrally, and light guide 02121's effect is with the light conduction to optic fibre 024 that LED lamp pearl 031 sent, and light guide 02121 still plays the effect of light-proof simultaneously, prevents the light diffusion that sends between a plurality of LED lamp pearls 031 to influence the accuracy of testing result.

As shown in fig. 5, in some embodiments, a first optical fiber fixing hole 02122 is formed in a bottom surface of the dial 0212, the first optical fiber fixing hole 02122 is concentrically arranged with the light guide hole 02121, and the one end of the optical fiber 025 is inserted into the first optical fiber fixing hole 02122. The optical fiber fixing hole 02122 plays fixed and light-proof effect to optic fibre, can ensure that the luminous energy that the LED lamp pearl 031 of the capsule endoscope 03 that awaits measuring sent completely shines optic fibre 025's cross-section, does not receive other light influences simultaneously to guarantee the accuracy of testing result. As shown in fig. 6, in some embodiments, the illumination fixing device 023 is provided at a top surface thereof with a second fiber fixing hole 0231, and the other end of the optical fiber 024 is inserted into the second fiber fixing hole 0231.

As shown in fig. 6 and 7, in some embodiments, a sensor positioning hole 0232 is disposed on a bottom surface of the illumination fixture 023, and the second optical fiber fixing hole 0231 is designed to be concentric with the sensor positioning hole 0232; the top surface of the illuminance detection module 022 is provided with the illuminance sensor 0221 corresponding to the position of the sensor positioning hole 0232. Sensor locating hole 0232 corresponds to and aligns with illuminance sensor 0221 of illuminance detection module 022 one-to-one, and illuminance fixing device 023 and illuminance detection module 022 are closely installed, and each illuminance sensor 0221 of illuminance detection module 0204 can all independently gather the light that optical fiber 025 sent out in its corresponding sensor locating hole 0232.

Further, the optical fiber 025 is inserted into a second optical fiber fixing hole 0231 of the illuminance fixing device 023, and after the optical fiber 025 is inserted, the distance from the cross section of the optical fiber 024 to the corresponding illuminance sensor 0221 is controlled within a range of [2,4] mm, so that the light guided out by the optical fiber 024 can be sufficiently collected.

As shown in fig. 6, in some embodiments, the illuminance detection module 022 is provided with a communication port 0222 and a power input socket 0223, and the communication port 0222 is configured to communicate with the terminal device 01, receive the control instruction of the terminal device 01, and send illuminance data of the LED lamp bead 031 of the capsule endoscope 03 to be detected, which is collected by the illuminance sensor 0221, to the terminal device 01.

In some embodiments, the capsule endoscope illumination detection system further comprises a power conversion module (not shown in the figures) comprising an ACDC module and a DCDC module. The ACDC module is used for rectifying and filtering alternating current through a rectifying circuit so as to convert the alternating current into stable direct current. The DCDC module is used for converting high-voltage direct current into 12V direct current.

The following illustrates the detection process of the capsule endoscope illumination detection system:

when the power is turned on and the machine is started, an operator lifts the pressure plate 0211, puts the capsule endoscope 03 to be tested on the dial 0212 of the test fixture 02 and puts the pressure plate 0211 back. 220V power input back is through ACDC module conversion input DCDC module, DCDC module exports voltage to illumination detection module 022's power input socket 02 and probe 0213 respectively, illumination detection module 022 gets into standby state, begin to work after the capsule endoscope 03 that awaits measuring is activated, the LED lamp pearl 031 of the capsule endoscope 03 that awaits measuring is lighted, the light of LED lamp pearl 031 conveys to illumination sensor 0221 through optic fibre 024, terminal equipment 01 sends control command to illumination detection module 022, illumination detection module 022 gathers the illumination data that corresponding optic fibre 024 conveyed according to each illumination sensor 0221 of control command control, illumination detection module 022 sends each illumination data of gathering to terminal equipment 01 through communication port 0222 in real time, terminal equipment 01 confirms whether the illumination of the capsule endoscope 03 that awaits measuring is qualified according to illumination data and the standard illumination value scope of predetermineeing.

The embodiment of the utility model provides a pair of capsule endoscope illuminance detecting system, capsule endoscope 03 that awaits measuring is fixed on test fixture 02's dial 0212, every LED lamp pearl 031 of capsule endoscope 03 that awaits measuring is through its leaded light hole 02121 that corresponds, conducts light to illuminance sensor 0221 from optic fibre 024, illuminance sensor 0221 gathers the illuminance data on the corresponding route, illuminance detection module 022 sends the illuminance data on each way to terminal equipment 01 through communication port 0222, terminal equipment 01 confirms according to each way illuminance data and predetermined standard illuminance value scope whether the illuminance of capsule endoscope 03 that awaits measuring is qualified. The accurate detection and judgment of a plurality of LED lamp beads 031 of the capsule endoscope 03 to be detected are realized, the detection efficiency is high, the consistency is high, and misjudgment are avoided.

The above describes in detail optional implementation manners of embodiments of the present invention with reference to the accompanying drawings, however, the embodiments of the present invention are not limited to the details in the above implementation manners, and in the technical concept scope of the embodiments of the present invention, it is possible to perform various simple modifications on the technical solutions of the embodiments of the present invention, and these simple modifications all belong to the protection scope of the embodiments of the present invention. It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. In order to avoid unnecessary repetition, the embodiments of the present invention do not separately describe various possible combinations.

In addition, various different implementation manners of the embodiments of the present invention can be combined arbitrarily, and as long as it does not violate the idea of the embodiments of the present invention, it should be considered as the disclosure of the embodiments of the present invention.

Claims (9)

1. The system for detecting the illumination of the capsule endoscope is characterized by comprising terminal equipment and a test fixture, wherein the terminal equipment is in communication connection with the test fixture;

the test fixture comprises a test module, an illumination detection module, an illumination fixing device and an optical fiber, wherein one end of the optical fiber is connected with the test module, and the other end of the optical fiber is connected with the illumination fixing device;

the test module is used for positioning, placing and supplying power to the capsule endoscope to be tested;

the illumination fixing device is used for fixing the optical fiber and positioning an illumination sensor on the illumination detection module;

the optical fiber is used for conducting light emitted by the capsule endoscope to be detected;

the terminal equipment is used for sending a control instruction to the illumination detection module;

the illumination detection module is used for acquiring illumination data of the capsule endoscope to be detected according to the control instruction and sending the illumination data to the terminal equipment;

and the terminal equipment determines whether the illumination of the capsule endoscope to be detected is qualified or not according to the illumination data.

2. The capsule endoscope illumination detection system of claim 1, wherein the test module comprises a pressure plate, a dial and a probe;

the dial is used for placing the capsule endoscope to be detected, and the probe is arranged at the bottom of the dial;

the pressing plate is used for pressing and fixing the capsule endoscope to be detected on the needle dial.

3. The system for detecting the illuminance of a capsule endoscope as claimed in claim 2, wherein the dial is provided with at least two light guide holes, and after the capsule endoscope to be detected is placed on the dial, the at least two light guide holes are respectively aligned with the LED lamp beads of the capsule endoscope to be detected one by one.

4. The system for detecting illuminance of a capsule endoscope as claimed in claim 3, wherein a first optical fiber fixing hole is formed on a bottom surface of the dial, the first optical fiber fixing hole is concentrically arranged with the light guide hole, and the one end of the optical fiber is inserted into the first optical fiber fixing hole.

5. The system for detecting illuminance of a capsule endoscope according to claim 1, wherein a second optical fiber fixing hole is provided on a top surface of the illuminance fixing device, and the other end of the optical fiber is inserted into the second optical fiber fixing hole.

6. The system for detecting the illuminance of a capsule endoscope as claimed in claim 5, wherein the bottom surface of the illuminance fixing device is provided with a sensor positioning hole, and the second optical fiber fixing hole is concentrically arranged with the sensor positioning hole;

the top surface of the illumination detection module is provided with the illumination sensor at a position corresponding to the sensor positioning hole.

7. The capsule endoscope illumination detection system of claim 6, wherein the distance of the cross section of the optical fiber to the illumination sensor is between [2,4] mm.

8. The system for detecting the illuminance of a capsule endoscope as claimed in claim 1, wherein the illuminance detection module is provided with a communication port and a power input socket, and the communication port is used for communicating with the terminal device and receiving the control command of the terminal device.

9. The capsule endoscopy illumination detection system of claim 1, further comprising a power conversion module, the power conversion module comprising an ACDC module and a DCDC module.

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