CN211929846U - Visual optical line-seeking system - Google Patents
Visual optical line-seeking system Download PDFInfo
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- CN211929846U CN211929846U CN202020617134.9U CN202020617134U CN211929846U CN 211929846 U CN211929846 U CN 211929846U CN 202020617134 U CN202020617134 U CN 202020617134U CN 211929846 U CN211929846 U CN 211929846U
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- cable
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Abstract
The utility model relates to a visual light system of hunting, can be under the condition that does not influence the transmission of integrated wiring, accomplish visual hunting, realize this network wire jumper quick maintenance when the maintenance, and the crooked passageway of 180 degrees of design in light source transmission passageway department, the light source can follow the direct transmission of joint rear end, transmit in entering into the plastic optical fiber through the bend, reach and need not pull out the network wire jumper and just can seek the line, can practice thrift a large amount of manpower and materials, and guarantee the not disconnected net of maintenance process, and be equipped with plastic optical fiber in the overcoat, network wire jumper tensile strength has been improved, the iron wire that the production and processing needs to add has been practiced thrift, machining process has been reduced.
Description
Technical Field
The utility model relates to a comprehensive wiring field, concretely relates to visual optical hunting system.
Background
The integrated wiring is composed of components of different series and specifications, including: transmission cables, associated connection hardware (such as patch panels, connectors, sockets, plugs, adapters), electrical protection equipment, etc. The components can be used for constructing various subsystems, have respective specific purposes, are easy to implement and can be smoothly upgraded along with the change of requirements, and in the comprehensive wiring operation and maintenance process, a great deal of time is needed to be spent for searching the lines in the maintenance process because the lines are distributed too much, the operation of the whole machine room is required to be suspended, and the maintenance cost and the maintenance difficulty are increased.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to prior art's weak point, provide a visual light hunting system to reach the purpose of looking for the cable both ends fast.
Realize the utility model discloses visual light hunting system's technical scheme is:
a visual optical line-seeking system comprises a network device, a device jumper, a distribution frame, a network cable, a module, a terminal jumper and a terminal device, wherein the network device sequentially passes through the device jumper, the distribution frame, the network cable, the module and the terminal jumper to be connected with the terminal device, the device jumper comprises a first cable, a first joint, a second joint and a first plastic optical fiber, the first joint and the second joint are arranged at two ends of the first cable, the first plastic optical fiber is arranged in the first cable, the first joint is connected with the network device, the second joint is connected with the distribution frame, the first joint is provided with a light path, one end of the light path is a first plastic optical fiber access groove, the other end of the light path is a light source emission channel, and a bend is arranged between the first plastic optical fiber access groove and the light source emission channel, the surface of the bend is provided with a reflective material, the first plastic optical fiber access groove is connected with the starting end of the first plastic optical fiber, the second joint is provided with a first plastic optical fiber placing hole, the tail end of the first plastic optical fiber is placed in the first plastic optical fiber placing hole, the distribution frame comprises N pairs of joint jacks, each joint jack comprises a first joint jack and a second joint jack, the second joint is inserted into the first joint jack, each of the first joint jack and the second joint jack is provided with a first pair of interfaces, the first pair of interfaces of the first joint jack and the second joint jack are communicated, the first pair of interfaces are matched with the first plastic optical fiber placing hole, one end of the network cable is inserted into the second joint jack, the other end of the network cable is inserted into the module, and the second plastic optical fiber is arranged in the network cable, the second plastic optical fiber is opposite to a first pair of interfaces of the second joint jack, the module is provided with a third joint jack and a fourth joint jack, the third joint jack and the fourth joint jack are respectively provided with a second pair of interfaces, the third joint jack and the second pair of interfaces of the fourth joint jack are communicated, the other end of the network cable is inserted into the third joint jack, the second plastic optical fiber is opposite to a second pair of interfaces of the third joint jack, the terminal jumper comprises a second cable, a third joint, a fourth joint and a third plastic optical fiber, the third joint and the fourth joint are arranged at two ends of the second cable, the third plastic optical fiber is arranged in the second cable, the third joint is inserted into the fourth joint jack, and the fourth joint is connected with the terminal equipment, the third joint is provided with a third plastic optical fiber placing hole, the starting end of the third plastic optical fiber is placed in the third plastic optical fiber placing hole, the fourth joint is provided with an alarm module, and the third plastic optical fiber is connected with the alarm module.
Further, the first cable and the second cable comprise an outer sheath and a mesh wire arranged on the inner side of the outer sheath, the mesh wire is provided with four twisted pairs, an insulating protection material is arranged outside the twisted pairs, and the first joint, the second joint, the third joint and the fourth joint are crystal joints.
Furthermore, an angle formed between the first plastic optical fiber access groove and the light source emission channel is 150-180 degrees.
Further, the first pair of interfaces of the first connector jack is a raised cylinder, and the diameter of the outer ring of the raised cylinder is equal to the diameter of the first plastic optical fiber placing hole.
Further, the second pair of interfaces of the fourth connector jack is a raised cylinder, and the diameter of the outer ring of the raised cylinder is equal to the diameter of the third plastic optical fiber placing hole.
Further, alarm module is including being used for placing recess, power, photo resistance switch circuit and the alarm of third plastic optical fiber, photo resistance installs the bottom of recess, power, photo resistance switch circuit and alarm are all installed the upper surface of fourth joint, the power passes through photo resistance and photo resistance switch circuit connection the alarm.
Further, the power supply adopts a button power supply.
Further, the photoresistor switch circuit comprises a resistance value detection module and a switch control module, the photoresistor is connected with the resistance value detection module, and the resistance value detection module is connected with the switch control module.
The utility model has the advantages that: the utility model discloses can be under the condition that does not influence the transmission of integrated wiring, accomplish visual hunting, realize this network jumper quick maintenance when the maintenance, and the crooked passageway of 180 degrees of design in light source transmission passageway department, the light source can be followed and connect the direct transmission of rear end, transmit in entering into the plastic fiber through the bend, it just can seek the line to reach and need not pull out the network jumper, can practice thrift a large amount of manpower and materials, and guarantee the uninterrupted network of maintenance process, and be equipped with plastic fiber in the overcoat, network jumper tensile strength has been improved, it is the iron wire that needs to add to have practiced thrift production and processing, machining processes has been reduced.
Drawings
Fig. 1 is a schematic diagram of a visual optical hunting system according to the present invention;
fig. 2 is a schematic diagram of a device jumper in the visual optical hunting system according to the present invention;
fig. 3 is a schematic diagram of a first joint in the visual optical hunting system according to the present invention;
fig. 4 is a schematic diagram of a distribution frame in the visual optical hunting system according to the present invention;
fig. 5 is a front view of the connector jacks of the distribution frame in the visual optical cable tracing system of the present invention;
fig. 6 is a schematic diagram of a network cable in the visual optical hunting system according to the present invention;
fig. 7 is a schematic diagram of a module in the visual optical hunting system according to the present invention;
fig. 8 is a front view of a module connector jack in the visual optical hunting system according to the present invention;
fig. 9 is a schematic diagram of a terminal jumper in the visual optical hunting system according to the present invention;
fig. 10 is a schematic diagram of a fourth joint in the optical visualization hunting system according to the present invention;
fig. 11 is a cross-sectional view of a first cable and a second cable in the optical visualization hunting system according to the present invention;
the names of the components identified in the figures are as follows:
1. a network device; 2. a device jumper; 21. a first cable; 22. a first joint; 23. a second joint; 24. a first plastic optical fiber; 25. a first plastic optical fiber access slot; 26. a light source emission channel; 27. a bend; 28. a first plastic optical fiber placement hole; 3. a distribution frame; 31. a first connector receptacle; 32. a second connector receptacle; 33. a first pair of interfaces; 4. a network cable; 41. a second plastic optical fiber; 5. a module; 51. a third joint jack; 52. a fourth joint jack; 53. a second pair of interfaces; 6. a terminal jumper wire; 61. a second cable; 62. a third joint; 63. a fourth joint; 64. a third plastic optical fiber; 65. a third plastic optical fiber placement hole; 7. a terminal device; 8. an outer sheath; 81. a network cable; 91. a groove; 92. a power source; 93. a photoresistor; 94. a photoresistor switching circuit; 95. an alarm.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Example (b): a visual optical line seeking system comprises a network device 1, a device jumper 2, a distribution frame 3, a network cable 4, a module 5, a terminal jumper 6 and a terminal device 7, wherein the network device 1 sequentially passes through the device jumper 2, the distribution frame 3, the network cable 4, the module 5 and the terminal jumper 6 to be connected with the terminal device 7, the device jumper 2 comprises a first connector 22 and a second connector 23 which are arranged at two ends of a first cable 21, a first plastic optical fiber 24 is arranged in the first cable 21, the first connector 22 is connected with the network device 1, the second connector 23 is connected with the distribution frame 3, the first connector 22 is provided with a light path, one end of the light path is a first plastic optical fiber access slot 25, the other end of the light path is a light source emission channel 26, a bend 27 is arranged between the first plastic optical fiber access slot 25 and the light source emission channel 26, the surface of the curved path 27 is provided with a light reflecting material, the first plastic optical fiber access groove 25 is connected with the beginning end of the first plastic optical fiber 24, the second connector 23 is provided with a first plastic optical fiber placing hole 28, the end of the first plastic optical fiber 24 is placed in the first plastic optical fiber placing hole 28, the distribution frame 3 comprises N pairs of connector jacks, the connector jacks comprise a first connector jack 31 and a second connector jack 32, the second connector 23 is inserted into the first connector jack 31, the first connector jack 31 and the second connector jack 32 are both provided with a first pair of interfaces 33, the first connector jack 31 is communicated with the first pair of interfaces 33 of the second connector jack 32, the first pair of interfaces 33 are matched with the first plastic optical fiber placing hole 28, one end of the network cable 4 is inserted into the second connector jack 32, the other end of the network cable 4 is inserted into the module 5, a second plastic optical fiber 41 is arranged in the network cable 4, the second plastic optical fiber 41 is opposite to the first pair of interfaces 33 of the second connector jack 32, the module 5 is provided with a third connector jack 51 and a fourth connector jack 52, the third connector jack 51 and the fourth connector jack 52 are both provided with a second pair of interfaces 53, the third connector jack 51 is communicated with the second pair of interfaces 53 of the fourth connector jack 52, the other end of the network cable 4 is inserted into the third connector jack 51, the second plastic optical fiber 41 is opposite to the second pair of interfaces 53 of the third connector jack 51, the terminal jumper 6 comprises a second cable 61, a third connector 62, a fourth connector 63 and a third plastic optical fiber 64, the third connector 62 and the fourth connector 63 are arranged at two ends of the second cable 61, the third plastic optical fiber 64 is disposed in the second cable 61, the third joint 62 is inserted into the fourth joint insertion hole 52, the fourth joint 63 is connected to the terminal device 7, the third joint 62 is provided with a third plastic optical fiber placing hole 65, a starting end of the third plastic optical fiber 64 is placed in the third plastic optical fiber placing hole 65, the fourth joint 63 is provided with an alarm module, and the third plastic optical fiber 64 is connected to the alarm module.
The first cable 21 and the second cable 61 comprise an outer sheath 8 and a mesh wire 81 arranged inside the outer sheath 8, the mesh wire 81 is provided with four twisted pairs, an insulating protective material is arranged outside the twisted pairs, and the first joint 22, the second joint 23, the third joint 62 and the fourth joint 63 are crystal joints.
An angle formed between the first plastic optical fiber access groove 25 and the light source emission channel 26 is 150-180 degrees.
The first pair of interfaces 33 of the first connector jack 31 is a raised cylinder having an outer diameter equal to the diameter of the first plastic optical fiber placement hole 28.
The second pair of interfaces 53 of the fourth connector jack 52 is a raised cylinder, and the diameter of the outer ring of the raised cylinder is equal to the diameter of the third plastic optical fiber placing hole 65.
Alarm module is including being used for placing recess 91, power 92, photo resistance 93, photo resistance switch circuit 94 and the alarm 95 of third plastic optical fiber, photo resistance 93 is installed the bottom of recess 91, power 92, photo resistance switch circuit 94 and alarm 95 are all installed the upper surface of fourth joint 63, power 92 passes through photo resistance 93 and photo resistance switch circuit 94 connects alarm 95.
The power supply 92 is a button power supply.
The photoresistor switch circuit 94 comprises a resistance value detection module and a switch control module, the photoresistor 93 is in resistance connection with the resistance value detection module, and the resistance value detection module is connected with the switch control module.
The use mode of the embodiment is as follows: during maintenance, the light source is accessed through a light source transmitting channel on the equipment jumper, light is transmitted to the distribution frame through the first optical plastic optical fiber on the first optical plastic optical fiber of the equipment jumper through the bend and the first plastic optical fiber access groove, then the light is transmitted to the second plastic optical fiber of the network cable through the first pair of interfaces of the distribution frame, then the light is transmitted to the terminal jumper through the second pair of interfaces of the module, and therefore the alarm module of the terminal jumper is started, the alarm module is excited, and the whole loop for quickly searching the transmission path is achieved.
The utility model has the advantages that: the utility model discloses can be under the condition that does not influence the transmission of integrated wiring, accomplish visual hunting, realize this network jumper quick maintenance when the maintenance, and the crooked passageway of 180 degrees of design in light source transmission passageway department, the light source can be followed and connect the direct transmission of rear end, transmit in entering into the plastic fiber through the bend, it just can seek the line to reach and need not pull out the network jumper, can practice thrift a large amount of manpower and materials, and guarantee the uninterrupted network of maintenance process, and be equipped with plastic fiber in the overcoat, network jumper tensile strength has been improved, it is the iron wire that needs to add to have practiced thrift production and processing, machining processes has been reduced.
Claims (8)
1. The utility model provides a visual optical hunting system, includes network equipment, equipment wire jumper, distribution frame, net twine, module, terminal wire jumper and terminal equipment, network equipment loops through the equipment wire jumper the distribution frame the net twine the module with terminal wire jumper connection terminal equipment, its characterized in that: the equipment jumper comprises a first cable, a first joint, a second joint and a first plastic optical fiber, wherein the first joint and the second joint are arranged at two ends of the first cable, the first plastic optical fiber is arranged in the first cable, the first joint is connected with the network equipment, the second joint is connected with the distribution frame, the first joint is provided with a light path, one end of the light path is a first plastic optical fiber access groove, the other end of the light path is a light source emission channel, a bend is arranged between the first plastic optical fiber access groove and the light source emission channel, the surface of the bend is provided with a light reflecting material, the first plastic optical fiber access groove is connected with the starting end of the first plastic optical fiber, the second joint is provided with a first plastic optical fiber placing hole, and the tail end of the first plastic optical fiber is placed in the first plastic optical fiber placing hole, the distribution frame comprises N pairs of joint jacks, each joint jack comprises a first joint jack and a second joint jack, each second joint is inserted into the corresponding first joint jack, each first joint jack and each second joint jack are provided with a first pair of interfaces, the first joint jacks and the first pairs of interfaces of the second joint jacks are communicated, the first pairs of interfaces are matched with the first plastic optical fiber placing holes, one end of the network cable is inserted into the corresponding second joint jack, the other end of the network cable is inserted into the module, the second plastic optical fibers are arranged in the network cable, the second plastic optical fibers are opposite to the first pairs of interfaces of the second joint jacks, the module is provided with a third joint jack and a fourth joint jack, and the third joint jack and the fourth joint jack are provided with a second pair of interfaces, the second pair of interfaces of the third joint jack and the fourth joint jack are communicated, the other end of the network cable is inserted into the third joint jack, the second plastic optical fiber is opposite to the second pair of interface positions of the third joint jack, the terminal jumper comprises a second cable, a third joint, a fourth joint and a third plastic optical fiber, the third and fourth splices being disposed at both ends of the second cable, the third plastic optical fiber being disposed within the second cable, the third connector is inserted into a fourth connector jack, the fourth connector is connected with the terminal equipment, the third splice is provided with a third plastic optical fiber placing hole in which a starting end of the third plastic optical fiber is placed, the fourth joint is provided with an alarm module, and the third plastic optical fiber is connected with the alarm module.
2. The visualization light hunting system of claim 1, wherein: the first cable and the second cable comprise an outer sheath and a mesh wire arranged on the inner side of the outer sheath, the mesh wire is provided with four twisted pairs, insulating protective materials are arranged outside the twisted pairs, and the first joint, the second joint, the third joint and the fourth joint are crystal joints.
3. The visualization light hunting system of claim 1, wherein: an angle formed between the first plastic optical fiber access groove and the light source emission channel is 150-180 degrees.
4. The visualization light hunting system of claim 1, wherein: the first pair of interfaces of the first joint jack is a raised cylinder, and the diameter of the outer ring of the raised cylinder is equal to that of the first plastic optical fiber placing hole.
5. The visualization light hunting system of claim 1, wherein: the second pair of interfaces of the fourth joint jack is a raised cylinder, and the diameter of the outer ring of the raised cylinder is equal to that of the third plastic optical fiber placing hole.
6. The visualization light hunting system of claim 1, wherein: alarm module is including being used for placing recess, power, photo resistance switch circuit and the alarm of third plastic optical fiber, photo resistance installs the bottom of recess, power, photo resistance switch circuit and alarm are all installed the upper surface of fourth joint, the power passes through photo resistance and photo resistance switch circuit connection the alarm.
7. The visualization light hunting system of claim 6, wherein: the power supply adopts a button power supply.
8. The visualization light hunting system of claim 6, wherein: the photoresistor switch circuit comprises a resistance value detection module and a switch control module, the photoresistor is connected with the resistance value detection module, and the resistance value detection module is connected with the switch control module.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202020617134.9U CN211929846U (en) | 2020-04-22 | 2020-04-22 | Visual optical line-seeking system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202020617134.9U CN211929846U (en) | 2020-04-22 | 2020-04-22 | Visual optical line-seeking system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN211929846U true CN211929846U (en) | 2020-11-13 |
Family
ID=73328150
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202020617134.9U Active CN211929846U (en) | 2020-04-22 | 2020-04-22 | Visual optical line-seeking system |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN211929846U (en) |
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2020
- 2020-04-22 CN CN202020617134.9U patent/CN211929846U/en active Active
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Address after: 518100 2nd floor, building A4, Tongxin Industrial Zone, Jiujiu Tongxin Road, Tongle village, Baolong street, Longgang District, Shenzhen City, Guangdong Province Patentee after: Laixun communication (Shenzhen) Co.,Ltd. Address before: 518100 2nd floor, building A4, Tongxin Industrial Zone, Jiujiu Tongxin Road, Tongle village, Baolong street, Longgang District, Shenzhen City, Guangdong Province Patentee before: SHENZHEN LIANXUN COMMUNICATION TECHNOLOGY Co.,Ltd. |