CN210323470U - System capable of automatically identifying optical fiber connectors of different models - Google Patents

Abstract

The utility model discloses a system capable of automatically identifying optical fiber connectors of different models, which comprises a host and optical fiber connectors, wherein a color sensor is arranged in the host; the optical fiber connector comprises a connector body and an inserting part, wherein the surface of the connector body, which faces the host and is inserted into the host, is provided with a color identified by the color sensor; the color sensor is characterized by further comprising a controller arranged in the host, wherein the input end of the controller is electrically connected with the output signal of the color sensor and used for setting the parameters of the optical fiber connector according to the color signal received by the color sensor. The utility model discloses automatic discernment and parameter setting to fiber connector have practiced thrift the plenty of time, have improved work efficiency to through system automatic identification and settlement, can also protect good optic fibre, reduce the damage when, more can create good operation environment and operation effect.

Description

System capable of automatically identifying optical fiber connectors of different models

Technical Field

The utility model relates to the technical field of medical equipment, concretely relates to but different model fiber splice's of automatic identification system.

Background

Because of the characteristic that the urinary tract is communicated with the outside of the body, the examination and treatment of urinary system diseases are selected by a non-invasive endoscopic surgery, if stones exist in the urethra of a patient, a natural channel is generally adopted for lithotripsy treatment of the stones of the urethra, but the urethra is narrow, the requirement of the general traditional lithotripsy on the channel is limited, and a lot of adverse effects can be generated on the effect of the surgery, so that the optical fiber enters the natural channel through the optical fiber (because the diameter of the optical fiber is smaller), wherein the optical fiber needs to be installed in an optical fiber connector, and compared with the traditional surgery, the method has the advantages of convenient operation, not small improvement on the quantity of other instruments entering the channel, and greatly improves the quality of the surgery. At present, before inserting an optical fiber connector into a host, a doctor needs to identify the type of the optical fiber connector, and then sets the optical fiber connector according to the parameters required by the optical fiber connector, if one or more optical fiber connectors need to be replaced in the operation process, a lot of time is needed for identifying the optical fiber connector and setting the parameters, and the optical fiber connector is identified wrongly under the condition of confusion, so that the parameter adjustment is wrong, the damage to the optical fiber is caused, and the operation effect is possibly influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a overcome not enough of above technique, provide a but different model fiber splice's of automatic identification system.

The utility model overcomes the technical scheme that its technical problem adopted is:

a system capable of automatically identifying different types of optical fiber connectors comprises a host and the optical fiber connectors,

a color sensor is arranged in the main machine;

the optical fiber connector comprises a connector body and an inserting part, wherein the surface of the connector body, which faces the host and is inserted into the host, is provided with a color identified by the color sensor;

the color sensor is characterized by further comprising a controller arranged in the host, wherein the input end of the controller is electrically connected with the output signal of the color sensor and used for setting the parameters of the optical fiber connector according to the color signal received by the color sensor.

Furthermore, the host is provided with a matching joint matched with the insertion part of the optical fiber connector, the matching joint is provided with a limit switch, the limit switch comprises a switch pressing sheet and a contact, and the contact is electrically connected with the color sensor.

Furthermore, the switch pressing sheet is in a ring shape, and a round hole in the middle of the switch pressing sheet is sleeved on the matching joint in a penetrating mode.

Furthermore, the contact is fixed on the shell of the host and is positioned in the stroke range of the switch pressing sheet; the switch pressing sheet is obliquely fixed on the shell of the host machine through a fastener, and in an initial state, the switch pressing sheet is not in contact with the contact.

Further, the fastener is a bolt.

Further, the controller includes:

the preset module is configured to set a parameter value range corresponding to each color according to different colors of the optical fiber connector;

an input module configured to receive an output signal of a color sensor;

the main control module is electrically connected with the output end of the preset module and the output end of the input module and is configured to judge the output signal of the color sensor and output a judgment result after the optical fiber connector is inserted into the host; and the number of the first and second groups,

and the setting module is electrically connected with the output end of the main control module and is configured to be used for setting the parameters of the optical fiber connector.

Further, the color which is set on the joint body and is identified by the color sensor is the color which is sprayed on the joint body.

The utility model has the advantages that:

the utility model discloses automatic discernment and parameter setting to fiber connector have practiced thrift the plenty of time, have improved work efficiency to through system automatic identification and settlement, can also protect good optic fibre, reduce the damage when, more can create good operation environment and operation effect.

Drawings

Fig. 1 is a schematic perspective view of a system capable of automatically identifying optical fiber connectors of different models according to an embodiment of the present invention.

Fig. 2 is a schematic side view of a system capable of automatically identifying optical fiber connectors of different models according to an embodiment of the present invention.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a schematic diagram of a controller according to an embodiment of the present invention.

In the figure, 1, a host, 11, a color sensor, 12, a matching joint, 13, a limit switch, 131, a switch pressing sheet, 132, a contact, 14, a fastener, 15, a laser emitting device, 2, an optical fiber joint, 21, a joint body, 22, a plug-in part, 3, a controller, 31, a preset module, 32, an input module, 33, a main control module, 34 and a setting module.

Detailed Description

In order to facilitate better understanding of the present invention for those skilled in the art, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments, which are given by way of illustration only and thus do not limit the scope of the present invention.

As shown in fig. 1 to 3, the system capable of automatically identifying different types of optical fiber connectors according to the present embodiment includes a host 1 and an optical fiber connector 2.

As the utility model discloses improve the biggest place in:

the main machine 1 is internally provided with a color sensor 11, the principle of the color sensor is a device for detecting colors by comparing the colors of an object with preset reference colors, and when the two colors are matched within a certain error range, a detection result is output. The optical fiber connector 2 comprises a connector body 21 and an inserting part 22, wherein a color recognized by the color sensor 11 is arranged on one surface, which faces the host 1, of the connector body 21, and the color recognized by the color sensor 11 is preferably a color sprayed on the connector body 21; furthermore, the host 1 is provided with a matching connector 12 matched with the insertion part 22 of the optical fiber connector, and a laser emitting device 15 is arranged in the host 1 at a position corresponding to the matching connector 12 and used for matching with the optical fiber connector 2.

The surgical instrument further comprises a controller 3 arranged in the host 1, wherein the input end of the controller 3 is electrically connected with the output signal of the color sensor 11 and is used for setting the parameters of the optical fiber connector 2 according to the color signal received by the color sensor 11 so as to ensure the normal operation and good surgical effect of the optical fiber connector 2.

Further, the fitting joint 12 is provided with a limit switch 13, the limit switch 13 includes a switch pressing sheet 131 and a contact 132, the contact 132 is electrically connected to the color sensor 11, further, the switch pressing sheet 131 is circular, a circular hole in the middle of the switch pressing sheet 131 is inserted into the fitting joint 12, the contact 132 is fixed on the housing of the host 1 and is located within a stroke range of the switch pressing sheet 131, the switch pressing sheet 131 is obliquely fixed on the housing of the host 1 through a fastening member 14, and in an initial state (i.e., the optical fiber connector 2 is not inserted into the host 1), the switch pressing sheet 131 is not in contact with the contact 132, and the oblique fixation of the switch pressing sheet 131 on the housing of the host 1 means that other parts of the switch pressing sheet 131 except for a connection part with the fastening member 14 are not in contact with the housing of the host 1 in the initial state, and it is critical that. In this embodiment, the fastening member 14 is preferably a bolt.

Further, as shown in fig. 3, the controller 3 includes a preset module 31, an input module 32, a main control module 33, and a setting module 34, wherein:

the presetting module 31 is configured to set a parameter value range corresponding to each color according to different colors of the optical fiber connector 2, each color identifiable by the color sensor 11 has a corresponding value, for example, the red corresponding value is 800, and then the identifiable red corresponding value range is preset to 800 ± 30, that is, if the color sensor 11 identifies a value in the range 770-830, the color is determined to be red.

The input module 32 is configured for receiving the output signal of the color sensor 11.

The input end of the main control module 33 is electrically connected to the output end of the preset module 31 and the output end of the input module 32, and is configured to determine the output signal of the color sensor 11 and output a determination result after the optical fiber connector 2 is inserted into the host 1.

The setting module 34 is electrically connected to the output end of the main control module 33 and configured to set parameters of the optical fiber connector 2.

The following is a description of the working principle of the system for automatically identifying optical fiber connectors of different models according to this embodiment:

assuming that there are three optical fiber splices 2 with different colors, i.e. representing three optical fiber splices of different models, wherein the colors of the first optical fiber splice, the second optical fiber splice and the third optical fiber splice are red, blue and yellow respectively, and the corresponding value of red is set to 800, the ranges of 800 ± 30 are all red, the corresponding value of blue is 500, the ranges of 500 ± 30 are all blue, the corresponding value of yellow is 300, and the ranges of 300 ± 30 are all yellow. When the optical fiber connector 2 is inserted into the mating connector 12 of the host 1, the optical fiber connector 2 touches the switch pressing piece 131 and deforms the switch pressing piece 131, when the optical fiber connector 2 is in contact with the contact 132, the color sensor 11 is started because the contact 132 is electrically connected with the color sensor 11, then the controller 3 identifies the color of the optical fiber connector 2 inserted into the host 1, when the value in the range of 770 plus 830 is identified, the controller 3 judges that the optical fiber connector is the first optical fiber connector, and automatically sets the parameters of the optical fiber connector; when the value in the range of 470-530 is identified, the controller 3 determines that the optical fiber connector is the second type of optical fiber connector, and automatically sets the parameters of the optical fiber connector; when the value in the range of 270-330 is identified, the controller 3 determines that the optical fiber connector is the first optical fiber connector, and automatically sets the parameters of the optical fiber connector.

The foregoing has described only the basic principles and preferred embodiments of the present invention and numerous changes and modifications may be made by those skilled in the art in light of the above teachings and shall fall within the scope of the present invention.

Claims (7)

1. A system capable of automatically identifying different types of optical fiber connectors comprises a host (1) and optical fiber connectors (2),

a color sensor (11) is arranged in the host (1);

the optical fiber connector (2) comprises a connector body (21) and an insertion part (22), wherein the surface, inserted towards the host (1), of the connector body (21) is provided with a color identified by the color sensor (11);

the optical fiber connector is characterized by further comprising a controller (3) arranged in the host (1), wherein the input end of the controller (3) is electrically connected with the output signal of the color sensor (11) and is used for setting the parameters of the optical fiber connector (2) according to the color signal received by the color sensor (11).

2. The system capable of automatically identifying optical fiber connectors of different models according to claim 1, wherein a matching connector (12) matched with the insertion part (22) of the optical fiber connector is arranged on the host (1), a limit switch (13) is arranged on the matching connector (12), the limit switch (13) comprises a switch pressing sheet (131) and a contact (132), and the contact (132) is electrically connected with the color sensor (11).

3. The system for automatically identifying different types of optical fiber connectors as claimed in claim 2, wherein the switch pressing sheet (131) is circular ring-shaped, and a circular hole in the middle of the switch pressing sheet is sleeved on the matching connector (12).

4. The system for automatically identifying different types of optical fiber connectors according to claim 3, wherein the contact (132) is fixed on a housing of the host (1) and is positioned in a travel range of the switch pressing sheet (131); the switch pressing sheet (131) is obliquely fixed on the shell of the host (1) through a fastener (14), and in an initial state, the switch pressing sheet (131) is not in contact with the contact (132).

5. System for the automatic identification of different types of optical fibre splices according to claim 4, characterized in that the fastener (14) is a bolt.

6. System for automatically identifying different types of optical fibre splices according to any of claims 1-5, characterized in that said controller (3) comprises:

the presetting module (31) is configured to set a parameter value range corresponding to each color according to different colors of the optical fiber connector (2);

an input module (32) configured for receiving an output signal of the color sensor (11);

the main control module (33) is electrically connected with the output end of the preset module (31) and the output end of the input module (32), and is configured to judge the output signal of the color sensor (11) and output a judgment result after the optical fiber connector (2) is inserted into the host (1); and the number of the first and second groups,

and the setting module (34) is electrically connected with the output end of the main control module (33) and is configured to set the parameters of the optical fiber connector (2).

7. The system capable of automatically identifying different types of optical fiber splices according to claim 1, wherein the color recognized by the color sensor (11) provided on the splice body (21) is a color painted on the splice body (21).

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