CN211293351U - Wireless charging tracking jumper wire, wireless power supply and wireless charging tracking assembly - Google Patents

Abstract

The utility model provides a wireless charging pursuit wire jumper, wireless power supply and wireless charging pursuit subassembly, wireless charging pursuit wire jumper includes mixed cable of photoelectricity and connects the connector at mixed cable both ends of photoelectricity, the connector is equipped with LC connector, connector epitheca, connector inferior valve and tail cover, connector epitheca top is equipped with circular arc cavity and square hole, be fixed with receiving terminal PCB board and strong magnet in the connector inferior valve, be equipped with receiving coil and connector pilot lamp on the receiving terminal PCB board; wireless power source includes wireless power source epitheca and wireless power source inferior valve, and wireless power source inferior valve bottom is equipped with the circular arc convex surface, and wireless power source inferior valve internal fixation has transmitting terminal PCB board, lithium cell and iron plate, and transmitting terminal PCB board is equipped with transmitting coil, the interface that charges, charge button and power indicator. The utility model can conveniently and quickly track the optical fiber movable connector, efficiently complete the fault maintenance of network transmission, and ensure the normal operation of the network; the installation and debugging are convenient, the production cost and the later maintenance cost are low, and the service life is longer.

Description

Wireless charging tracking jumper wire, wireless power supply and wireless charging tracking assembly

Technical Field

The utility model relates to a wireless tracer technical field that charges, concretely relates to wireless pursuit wire jumper that charges, wireless power supply and subassembly structure thereof.

Background

With the rapid development of fiber to the home and 5G, the investment of operators on machine rooms and jumpers is increasing. In the face of the rapidly-increased machine room construction of operators, the pressure and investment in construction are increasingly large, and more energy and cost are also required to be invested in later-stage maintenance.

A large amount of optical fiber communication line have brought very big trouble for wiring and later maintenance, intermingle and alternate between the wire jumper, especially bury in the inside dark line of carriers such as walls, when optical fiber connector one end goes wrong, hardly find the optical fiber connector of the other end fast, installation and later maintenance all are very inconvenient earlier, the tracking method who adopts at present is: according to the identification on the optical fiber movable connector, the identification is confirmed, so that time is wasted, especially in different areas such as different cabinets, different machine rooms and different floors, the two ends of the jumper wire are difficult to identify rapidly, and the difficulty in construction and maintenance of operators is increased.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to above-mentioned prior art not enough and provide a wireless tracking wire jumper that charges, wireless power supply and wireless tracking subassembly that charges, solved the one end that wireless power supply is close to the wire jumper and just can carry out the technical problem of fixing a position to the hookup location of optic fibre wire jumper fast and effectively.

The utility model discloses a solve the technical scheme that above-mentioned problem adopted and do:

the utility model provides a wireless charging tracking jumper wire, which comprises a photoelectric hybrid cable and connectors connected at two ends of the photoelectric hybrid cable, wherein each connector is provided with an LC connector, an upper connector shell, a lower connector shell and a tail sleeve, the upper connector shell and the lower connector shell are buckled to form a connector shell, the LC connector is connected with the front end of the connector shell, and the tail sleeve is connected with the rear end of the connector shell through a compression ring and a stop ring; the connector upper shell top is equipped with circular arc cavity and square hole, and connector inferior valve internal fixation has receiving terminal PCB board and strong magnet, is equipped with receiving coil and connector pilot lamp on the receiving terminal PCB board, is equipped with the printing opacity piece on the connector pilot lamp, and the printing opacity piece gomphosis is in the square hole of connector upper shell.

Furthermore, the tail sleeve is sleeved on the crimping ring, the crimping ring is connected with the stopping ring, and the stopping ring is connected with the rear end of the connector shell.

Furthermore, the middle of the two sides of the receiving end PCB is provided with a side hole, the middle of the inner side of the lower connector shell is provided with a connecting column, and a screw penetrates through the side hole and is fixedly connected with the connecting column.

Furthermore, corner holes are formed in opposite corners of two sides of the receiving end PCB, positioning columns are arranged on opposite corners of the inner side of the lower connector shell, and the corner holes are matched and fixed with the positioning columns.

The utility model provides a wireless power supply again, include the wireless power supply casing that is formed by the combination of wireless power supply epitheca and wireless power supply inferior valve, wireless power supply inferior valve bottom is equipped with the circular arc convex surface, and the wireless power supply inferior valve internal fixation has transmitting terminal PCB board, lithium cell and iron plate, and transmitting terminal PCB board is equipped with transmitting coil, the interface that charges, charge button and power indicator, the interface connection lithium cell that charges.

Furthermore, a groove is formed in the wireless power supply lower shell, and glue is coated in the groove to fix the iron block.

Furthermore, the edge of the wireless power supply lower shell is provided with an ultrasonic line, and the wireless power supply upper shell is welded with the wireless power supply lower shell through an ultrasonic welding machine.

The utility model also provides a wireless tracking subassembly that charges, including aforementioned wireless tracking wire jumper and aforementioned wireless power supply that charges, the circular arc cavity of connector epitheca with the circular arc convex surface of wireless power supply inferior valve cooperatees, the receiving coil of receiving terminal PCB board and the transmitting coil position of transmitting terminal PCB board correspond, the strong magnet with the connection is inhaled to the iron plate magnetism.

The utility model discloses wireless charging tracking jumper wire, wireless power supply and wireless charging tracking subassembly's beneficial effect lies in: the utility model discloses as long as wireless power supply is close to the one end of wire jumper and just can fix a position the hookup location of optic fibre wire jumper fast and effectively, need not break off optical transmission signal, has realized convenient and fast ground and has tracked optic fibre connector, and network transmission's troubleshooting is accomplished to the high efficiency, makes network normal operating. The utility model discloses installation and debugging convenience, manufacturing cost and later maintenance cost are low, and life is longer.

Drawings

Fig. 1 is a structural diagram of the wireless charging tracking jumper of the present invention;

fig. 2 is an exploded view of the connector in the wireless charging tracking jumper of the present invention;

fig. 3 is a structural diagram of the upper case of the connector in the wireless charging tracking jumper of the present invention;

fig. 4 is a structural diagram of a receiving end PCB board in the wireless charging tracking jumper of the present invention;

fig. 5 is a structural diagram of the wireless power supply of the present invention;

fig. 6 is an exploded view of the wireless power supply of the present invention;

fig. 7-1 and 7-2 are structural diagrams of the transmitting end PCB board in the wireless power supply of the present invention;

FIGS. 8-1 and 8-2 are diagrams of the upper and lower casings of the wireless power supply of the present invention;

fig. 9 is a structural diagram of the wireless charging tracking assembly of the present invention.

1-connector, 2-photoelectric hybrid cable, 3-wireless power supply, 4-LC connector, 5-connector upper shell, 6-receiving end PCB, 7-strong magnet, 8-screw, 9-transparent piece, 10-connector lower shell, 11-stop ring, 12-crimping ring, 13-tail sleeve, 14-wireless power supply upper shell, 15-transmitting end PCB, 16-iron block, 17-screw, 18-lithium battery and 19-wireless power supply lower shell.

Detailed Description

The following embodiments of the present invention are specifically explained with reference to the accompanying drawings, which are used for reference and illustration only and do not limit the scope of the present invention.

As shown in fig. 1-4, the present embodiment provides a wireless charging tracking jumper, including a hybrid cable 2 and a connector 1 connected to two ends of the hybrid cable 2, where the connector 1 is provided with an LC connector 4, an upper connector shell 5, a lower connector shell 10, and a tail sleeve 13, the upper connector shell 5 and the lower connector shell 10 are fastened to form a connector shell, the LC connector 4 is connected to a front end of the connector shell, and the tail sleeve 13 is connected to a rear end of the connector shell through a press-fit ring 12 and a stop ring 11; 5 tops of connector epitheca 5 are equipped with circular arc cavity 501 and square hole 502, connector inferior valve 10 internal fixation has receiving terminal PCB board 6 and strong magnet 7, establish ties the return circuit with two receiving terminal PCB boards 6 with two copper conductors, be equipped with receiving coil 601 and connector pilot lamp 602 on the receiving terminal PCB board 6, be equipped with printing opacity piece 9 on the connector pilot lamp 602, the gomphosis of printing opacity piece 9 is in the square hole 502 of connector epitheca 5, outside connector 1 was penetrated to the light of connector pilot lamp, but the human eye discovers fast.

In this embodiment, the receiving coil 601 transfers energy from the transmitting coil 1503 by electromagnetic induction to supply power to the connector indicator lamp 602, causing the connector indicator lamp 602 to blink and emit red light.

In this embodiment, the tail sleeve 13 is sleeved on the crimping ring 12, the crimping ring 12 is connected with the stop ring 11, and the stop ring 11 is connected with the rear end of the connector shell.

In this embodiment, the middle of the two sides of the receiving end PCB 6 is provided with a side hole, the middle of the inner side of the lower connector shell 10 is provided with a connecting column, and the screw 8 penetrates through the side hole and is fixedly connected with the connecting column.

In this embodiment, corner holes are formed in opposite corners of two sides of the receiving-end PCB 6, positioning columns are formed in opposite corners of the inner side of the lower connector shell, and the corner holes are matched and fixed with the positioning columns.

This embodiment provides a wireless power supply 3 again, include the wireless power supply casing that is formed by the combination of wireless power supply upper casing 14 and wireless power supply lower casing 19, the wireless power supply casing passes through screw 17 fixed connection, 19 bottoms of wireless power supply lower casing are equipped with circular arc convex surface 1903, 19 internal fixations of wireless power supply lower casing have transmitting terminal PCB board 15, lithium cell 18 and iron plate 16, transmitting terminal PCB board 15 is equipped with transmitting coil 1503, the interface 1504 charges, charge button 1501 and power indicator 1502, the interface 1504 that charges connects lithium cell 18.

When the button 1501 is pressed, the energy of the lithium battery 18 is transferred to the receiving coil 601 through the transmitting coil 1503 to generate a certain current.

In this embodiment, a groove 1902 is formed in the wireless power supply lower case 19, and glue is coated in the groove to fix the iron block 16. In this embodiment, the edge of the wireless power supply lower case 19 is provided with an ultrasonic line 1901, and the wireless power supply upper case 14 is welded to the wireless power supply lower case 19 by an ultrasonic welding machine.

The embodiment further provides a wireless charging tracking assembly, which includes the wireless charging tracking jumper and the wireless power supply, the arc concave 501 of the connector upper shell 5 is matched with the arc convex 1903 of the wireless power supply lower shell 19, the receiving coil 601 of the receiving end PCB 6 corresponds to the transmitting coil 1503 of the transmitting end PCB 15, and the strong magnet 7 is magnetically attracted to the iron block 16.

Strong magnet 7 adopts the neodymium iron boron strong magnet, and the neodymium iron boron strong magnet is small, light in weight, magnetism are strong, and when wireless power supply 3 was close to connector 1, strong magnet 7 firmly withheld wireless power supply 3's iron plate 16, and under the condition of no external force, both can not separate. The operator can leave this end connector and look for another end connector, and can not cut off the power supply, and especially to the jumper connection of different rack, different computer rooms, different floors etc., an operator just can accomplish the troubleshooting of network transmission.

In this embodiment, the arc concave 501 of the connector top case 5 matches with the arc convex 1903 of the wireless power supply 19 to perform a fast positioning function, so that the transmitting coil 1503 and the receiving coil 601 are overlapped, thereby improving the energy transmission efficiency.

The utility model discloses a working process does: first, the lithium battery 18 is charged by the charging interface 1504 connecting the commercial power and the wireless power supply 3 by a power line. During charging, the power indicator 1502 emits red light, after the lithium battery 18 is fully charged, the power indicator 1502 emits green light, and after the power cord is pulled out, the power indicator 1502 is not turned on. When the wireless power supply 3 approaches to any one end connector 1 for tracking the jumper, the wireless power supply 3 and the connector 1 are quickly positioned and firmly sucked under the action of the arc concave cavity 501 of the upper connector shell 5, the arc convex surface 1903 of the lower wireless power supply shell 19, the strong magnet 7 and the iron block 16; the button 1501 is pressed, the lithium battery 18 continuously supplies power to the transmitting coil 1503, the power indicator 1502 flickers to emit green light, the transmitting coil 1503 generates certain current in the receiving coil 601 through electromagnetic induction based on alternating current with certain frequency, so that energy is transferred from the transmitting end to the receiving end of the connector, power supply is started, the connector indicator 602 flickers to emit red light after being electrified, the connector indicator 602 flickers to emit red light at the same time, the red light is enhanced through the light-transmitting piece 9 and is transmitted to the outside of the connector, and therefore the connecting position of the optical fiber jumper can be quickly and effectively located, and faults are relieved. Pressing the button 1501 again stops the lithium battery 18, the circuit is open and all indicator lights go off.

The wireless charging tracking jumper wire of the embodiment can be widely applied to FTTX, telecommunication rooms and data centers. Because the tracking jumper wire body has no battery, the problems of battery shelf life and battery power do not exist, and the service life can reach more than 20 years.

The wireless charging mode is adopted, a socket is not needed, the wireless power supply can be quickly positioned and powered, the operation is simple, and the time is saved. The utility model discloses a wireless charging tracking subassembly job stabilization, safety joint, work efficiency height, easy operation.

In the present embodiment, the detailed structures of the above components such as the connector 1, the wireless power supply 3, the receiving PCB 6 and the transmitting PCB 15 are modified, but the overall assembly structure and principle are similar to those shown in the present patent, and the structure of the present patent is still considered to be referred to.

This patent is also applicable to SC, FC, ST, etc. type connectors, as modified to other types of connectors, and is still considered to refer to this patent structure.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (8)

1. The utility model provides a wireless tracking wire jumper that charges which characterized in that: the connector is provided with an LC connector, an upper connector shell, a lower connector shell and a tail sleeve, the upper connector shell and the lower connector shell are buckled to form a connector shell, the LC connector is connected with the front end of the connector shell, and the tail sleeve is connected with the rear end of the connector shell through a compression ring and a stop ring; the connector upper shell top is equipped with circular arc cavity and square hole, and connector inferior valve internal fixation has receiving terminal PCB board and strong magnet, is equipped with receiving coil and connector pilot lamp on the receiving terminal PCB board, is equipped with the printing opacity piece on the connector pilot lamp, and the printing opacity piece gomphosis is in the square hole of connector upper shell.

2. The wireless charging tracking jumper of claim 1, wherein:

the tail sleeve is sleeved on the compression joint ring, the compression joint ring is connected with the stop ring, and the stop ring is connected with the rear end of the connector shell.

3. The wireless charging tracking jumper of claim 1, wherein:

the middle of the two sides of the receiving end PCB is provided with a side hole, the middle of the inner side of the lower connector shell is provided with a connecting column, and a screw penetrates through the side hole and is fixedly connected with the connecting column.

4. A wireless charging tracking jumper according to claim 1 or 3, wherein:

the two opposite corners of the receiving end PCB are provided with corner holes, the opposite corners of the inner side of the lower connector shell are provided with positioning columns, and the corner holes are matched and fixed with the positioning columns.

5. A wireless power supply, characterized by: including the wireless power supply casing that is formed by the combination of wireless power supply epitheca and wireless power supply inferior valve, wireless power supply inferior valve bottom is equipped with the circular arc convex surface, and wireless power supply inferior valve internal fixation has transmitting terminal PCB board, lithium cell and iron plate, and transmitting terminal PCB board is equipped with transmitting coil, the interface that charges, charge button and power indicator, the interface connection lithium cell that charges.

6. A wireless power supply as in claim 5, wherein:

a groove is formed in the lower casing of the wireless power supply, and glue is coated in the groove to fix the iron block.

7. A wireless power supply as in claim 5, wherein:

the edge of the wireless power supply lower shell is provided with an ultrasonic line, and the wireless power supply upper shell is welded with the wireless power supply lower shell through an ultrasonic welding machine.

8. A wireless charging tracking assembly comprising the wireless charging tracking jumper of any of the preceding claims 1-4 and the wireless power supply of any of the preceding claims 5-7, wherein: the circular arc cavity of the connector upper shell is matched with the circular arc convex surface of the wireless power supply lower shell, the receiving coil of the receiving end PCB corresponds to the transmitting coil of the transmitting end PCB in position, and the strong magnet is connected with the iron block in a magnetic attraction mode.

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