CN201319522Y - Energy supplying device with laser - Google Patents

Abstract

The utility model provides an energy supplying device with laser, comprising a laser module and a light splitting module, wherein the laser module is connected to the input end of the light splitting module through optical fiber. After the laser module outputs the laser to the light splitting module, the laser is divided into three beams by the light splitting module to be transmitted to A-phase equipment, B-phase equipment and C-phase equipment respectively. The device can simultaneously meet the power supply requirements of three-phase load, and has low cost, good reliability and easy maintenance.

Description

A kind of laser energy supply device

Technical field

The utility model relates to the high-voltage power supply field, particularly relates to a kind of Laser Power Devices.

Background technology

In recent years, the fast development of high power laser technology, existing large-scale the application in fields such as printing, medical treatment, illumination, engravings.Laser is also rising as the application of the energy, and the active electronic mutual inductor of digitlization is a direction of high-voltage mutual inductor equipment development.It is high-power that (optical-fiber laser of 1W～3W) is for the sensing device of electronic mutual inductor provides the energy, is one of active electronic mutual inductor energy supply method commonly used.The laser energy supply is that energy is transmitted by optical fiber, because the main component of fiber optic materials is insulating material silicon dioxide (SiO ₂), the excellent insulation property energy is arranged, so the laser energy supply is used widely in the very high high-tension apparatus of requirement of withstand voltage.

The energy supply of optical fiber substituted metal line, and transform light energy is become final electric energy by photoelectric conversion technique, make the power supply of high-tension apparatus become very safe.In high-tension electricity minor instrument transformer, a laser module commonly used is by the sensing device power supply of an optical fiber to a high-voltage mutual inductor.Because electric power is three-phase, so need three groups of equipment, as shown in Figure 1: LASER Light Source A, LASER Light Source B, LASER Light Source C are connected to A phase equipment, B phase equipment, C phase equipment by optical fiber respectively.This have some defectives with man-to-man laser energy-provision way: the one, and cost is very high; The 2nd, poor reliability in case the complete equipment that is out of order can't be worked, has a strong impact on production safety; The 3rd, be unfavorable for operation maintenance.

Summary of the invention

Technical problem to be solved in the utility model is: a kind of laser energy supply device is provided, and this device can satisfy the power demands of threephase load simultaneously, and cost is low, and good reliability is easy to safeguard.

The technical scheme that the utility model adopted is: laser energy supply device comprises laser module and spectral module, and laser module is connected to the input of spectral module by optical fiber.Laser module output laser is divided into three beams by spectral module with laser to spectral module, reach A phase equipment, B phase equipment and C equipment mutually respectively.

The utility model is with respect to the advantage of prior art:

(1) saves cost.The price of laser generator and its watt level do not have direct relation, laser price as 1w and 3w differs very little, and the cost ratio that laser light source module accounts in complete equipment is very high, so the utility model substitutes three low power power laser generators with two high power power laser generators, to arrive the purpose of saving cost;

(2) improve reliability.At load end, the laser from two light sources lumps together by splicer respectively, enters optical-electrical converter, in two light sources, controller is arranged all, the operating state of two light sources of monitoring when the output laser power variation appears in a laser module, is controlled it automatically and is got back to preset value in real time; When a laser module broke down, another laser module still also can satisfy the energy supply requirement in work, if this module is in stand-by state and then enters operating state at once.This structure makes load obtain uninterrupted power supply, ensures stable power-supplying.

(3) maintain easily.Two laser modules are arranged separately in respectively in the rack, dismounting separately when a laser module need be safeguarded, and another laser module continues energy supply, can not disturb the whole system operation.

Description of drawings

Fig. 1 is the laser energy supply structured flowchart of existing high-tension electricity minor instrument transformer.

Fig. 2 is a kind of example structure figure of the present utility model.

Fig. 3 is the more excellent example structure block diagram of another kind of the present utility model.

Fig. 4 is the concrete device connection layout of the described embodiment of Fig. 3.

Fig. 5 is the internal structure block diagram of the laser module of the described embodiment of Fig. 3.

Fig. 6 is the splicer structure chart that the utility model uses.

Embodiment

The power that the price of LASER Light Source and laser send does not have tangible relation, that is to say that the light source of a times power and the light source price of three times powers are more or less the same, and the cost ratio that each light source accounts in complete equipment is very high, if can on light source, reduce cost, will directly be lowered into the complete equipment cost greatly.

At fiber optic communication field, use coupler to realize that a road of light signal becomes multichannel, sets up fiber optic network.The utility model is subjected to this inspiration to utilize optical splitter and splicer, after branch closes earlier high-power energy laser again, reaches and saves the purpose that reduces cost, protects mutually, improves reliability and stability.

Below by embodiment the utility model is described, but does not represent that the utility model is subjected to the restriction of specific embodiment.

As shown in Figure 2, laser energy supply device comprises laser module and spectral module, and laser module is connected to the input of spectral module by optical fiber.Laser module output laser is divided into three beams by spectral module with laser to spectral module, reach A phase equipment, B phase equipment and C equipment mutually respectively.That shown in Figure 3 is the more excellent embodiment of another kind.For improving reliability, this device can comprise converging module, and spectral module is connected to the input of converging module by Transmission Fibers.As shown in Figure 4, particularly, laser module comprises that spectral module comprises first optical branching device 3 and second optical branching device 4 by holding wire interconnected first laser 1 and second laser 2, and converging module comprises first splicer 5, second splicer 6 and the 3rd splicer 7.The output of first laser 1 is divided into three tunnel, the second laser by first optical branching device 3 output is divided into three the tunnel by second optical branching device 4, and each road branch laser can both satisfy the required laser power of load.Three tunnel outputs of two lasers are connected to first splicer 5, second splicer 6, the 3rd splicer 7 respectively.Splicer is a kind of Multiplexing apparatus, the laser from two different optical splitter branches is respectively lumped together, with communication go up coupler different be that the utility model is combined in two Transmission Fibers output jointly in the joint of optical fiber connector, do not close optical loss.As shown in Figure 6, the optical fiber connector comprise first connector 11, second connector 12 and the joint among three members 13.The input of splicer comprises first connector 11 and second connector 12 that connects single fiber, article two, laser is respectively by after first connector 11 and 12 inputs of second connector, two optical fiber lump together in joint among three members 13, at last by joint among three members 13 outputs.Because the capture area of laser pick-off module is big, the laser of two long and slender core inputs does not close optical loss.First splicer 5, second splicer 6, the 3rd splicer 7 respectively with A mutually the optical-electrical converter on equipment, B phase equipment, the C phase equipment link to each other.

As shown in Figure 5, first laser 1 and second laser 2 include laser generator 8, laser driver 9 and laser controller 10.With first laser 1 is example, the light output end of laser generator 8 is connected to first optical branching device 3, laser generator 8 is electrically connected with laser driver 9, laser controller 10 links to each other with laser generator 8 by the laser power monitor terminal, and laser controller 10 links to each other with laser driver 9 by the drive current control terminal.Laser controller 10 also is connected to second laser 2.Laser driver 9 is used to produce drive current, 8 work of driving laser generator.Laser generator 8 is used to produce powerful laser.The power output of laser controller 10 detection laser is also controlled its size, monitors the operating state of another laser simultaneously.

Laser generator 8 is as the energy light source, and the size of its actual Output optical power is determined by the size of load (A phase equipment, B phase equipment and C be equipment mutually) power demand.Two laser generators also produce the voltage signal that is directly proportional with luminous power, and this signal is reached power monitoring terminal on the laser controller 10.The voltage of laser controller 10 detection power monitoring terminal is adjusted the laser pumping electric current, by the drive current control terminal this exciting current is reached laser generator 8, thus the power output of control laser module.The working method of first laser 1 and second laser 2 is optional, and standby or two lasers of another laser of laser works are worked simultaneously.

Claims (5)

1. a ray laser power supply device comprises laser module, it is characterized in that: also comprise spectral module, laser module is connected to the input of spectral module by optical fiber.

2. laser energy supply device as claimed in claim 1 is characterized in that: also comprise converging module, spectral module is connected to the input of converging module by Transmission Fibers.

3. laser energy supply device as claimed in claim 2, it is characterized in that: laser module comprises by holding wire interconnected first laser (1) and second laser (2), spectral module comprises first optical branching device (3) and second optical branching device (4), and converging module comprises first splicer (5), second splicer (6) and the 3rd splicer (7); The output of first laser (1) is divided into three the tunnel by first optical branching device (3), the output of second laser is connected to first splicer (5), second splicer (6), the 3rd splicer (7) respectively by three tunnel outputs that second optical branching device (4) is divided into three tunnel, two lasers.

4. laser energy supply device as claimed in claim 3, it is characterized in that: described first laser (1) and second laser (2) include laser generator (8), laser driver (9) and laser controller (10), the light output end of laser generator (8) is connected to the corresponding light splitter, laser generator (8) is electrically connected with laser driver (9), laser controller (10) links to each other with laser generator (8) by the laser power monitor terminal, and laser controller (10) links to each other with laser driver (9) by the drive current control terminal.

5. as claim 3 or 4 described laser energy supply devices, it is characterized in that: first splicer (5), second splicer (6), the 3rd splicer (7) are coupled two bundle input laser by optical fiber connector respectively.

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