CN206559044U - A kind of electrical power transmission system - Google Patents

Abstract

The utility model discloses a kind of electrical power transmission system, its structure includes user, low-voltage distribution wire, step-down transformer, high-tension distributing line, region transformer station, high-voltage output line, buck controller, decompression monitor, step-up transformer, boost pressure controller, boosting monitor, opening-closing controller, generator, data collection station, dispatching control center, the user is connected with low-voltage distribution wire, the low-voltage distribution wire is connected with step-down transformer, the step-down transformer is connected with high-tension distributing line, and the high-tension distributing line is connected with region transformer station.A kind of electrical power transmission system of the present utility model by provided with controller can control the voltage raising and reducing process of electric power, make the process of voltage raising and reducing more convenient, voltage raising and reducing process can be monitored by monitor, it can be appreciated that in the very first time of failure, by provided with dispatching control center each voltage raising and reducing controller can be controlled, make in power transmission effectively.

Description

A kind of electrical power transmission system

Technical field

The utility model is a kind of electrical power transmission system, belongs to power domain.

Background technology

Electrical power transmission system makes power transmitting device and current-collecting device field coupling or magnetic coupling, by the coupling come from defeated Electric installation transmits electric power to current-collecting device., will be low-loss in the gimmick of efficiency of transmission of electrical power transmission system is typically improved It is effective that resonance circuit, which is arranged at power transmitting device and current-collecting device,.Via resonance circuit from the power supply of power transmitting device to by In the case that the load of electric installation carries out power transmission, there is the load resistance for making efficiency maximum.Usually, the load resistance quilt It is set as making efficiency in rated power greatest aroundization.But, in the case where not knowing using what as load, Huo Zhe In the case of the impedance variations of load, when deviateing nominal load, efficiency reduction.

Prior art discloses Application No.：201280065960.5 a kind of electrical power transmission system, scheme is：First to 3rd coupling electrode centering at least the 3rd coupling electrode to being the reference electrode pair being connected with reference potential, the first communication unit One end is connected with the reference potential of power transmission device, and one end of the second communication unit is connected with the reference potential of current-collecting device.The The other end of one communication unit is connected with any one in the first or second coupling electrode of power transmission device side, the second communication unit The other end be connected with any one in the first or second coupling electrode of current-collecting device side, it is possible to increase communication it is sensitive Degree, and data communication can be made more to stablize.But power transmission can not in real time be monitored without monitor.

Utility model content

In view of the deficienciess of the prior art, the utility model purpose is to provide a kind of electrical power transmission system, with solution never The problems such as power transmission can not in real time being monitored with monitor.

To achieve these goals, the utility model is to realize by the following technical solutions：A kind of power transmission system System, its structure includes user, low-voltage distribution wire, step-down transformer, high-tension distributing line, region transformer station, high-voltage output line, decompression Controller, decompression monitor, step-up transformer, boost pressure controller, boosting monitor, opening-closing controller, generator, data acquisition Stand, dispatching control center, supply station, the user is connected with low-voltage distribution wire, and the low-voltage distribution wire connects with step-down transformer Connect, the step-down transformer is connected with high-tension distributing line, the high-tension distributing line is connected with region transformer station, the region power transformation It is connected with standing on step-down transformer, the step-down transformer and is connected with buck controller, is connected with the step-down transformer Monitor is depressured, the region transformer station is connected with high-voltage output line, and the high-voltage output line is connected with step-up transformer, described It is connected with step-up transformer on boost pressure controller, the step-up transformer and is connected with boosting monitor, the step-up transformer It is connected with supply station, is connected with the supply station on generator, the generator and is connected with opening-closing controller, the supply station It is connected with dispatching control center, the dispatching control center is connected with data collection station, the buck controller is by the first decompression Controller main body, cut-off switch, power-on switch, controller display screen, data processing centre, controller antenna, controller control Panel is constituted, and is connected with cut-off switch, the first buck controller main body and is connected in the first buck controller main body Have and controller display screen, the first buck controller main body are connected with power-on switch, the first buck controller main body On be connected with data processing centre, the first buck controller main body and be connected with controller antenna, the first decompression control Control surface controller plate is connected with device main body processed, the decompression monitor is by monitor control panel, the second buck controller Prison is connected with main body, monitor display screen, monitor antenna, voltage sensor composition, the second buck controller main body Control and be connected with monitor display screen, the second buck controller master in device control panel, the second buck controller main body It is connected with body in monitor antenna, the second buck controller main body and is connected with voltage sensor.

Further, the user is connected by low-voltage distribution wire with step-down transformer.

Further, the step-down transformer is connected by high-tension distributing line with region transformer station.

Further, the region transformer station is connected by high-voltage output line with step-up transformer.

Further, the decompression monitor is connected by buck controller with step-down transformer.

Further, the boosting monitor is connected by boost pressure controller with step-up transformer.

A kind of electrical power transmission system of the present utility model by provided with controller can control the voltage raising and reducing mistake of electric power Journey, makes the process of voltage raising and reducing more convenient, voltage raising and reducing process can be monitored by monitor, the first of failure Time can be appreciated that, by provided with dispatching control center each voltage raising and reducing controller can be controlled, make in electricity In power transmission effectively.

Brief description of the drawings

By reading the detailed description made with reference to the following drawings to non-limiting example, other spies of the present utility model Levy, objects and advantages will become more apparent upon：

Fig. 1 is a kind of structural representation of electrical power transmission system of the utility model；

Fig. 2 is a kind of buck controller structural representation of electrical power transmission system of the utility model；

Fig. 3 is a kind of decompression monitor structural representation of electrical power transmission system of the utility model；

In figure：User -1, low-voltage distribution wire -2, step-down transformer -3, high-tension distributing line -4, region transformer station -5, high pressure Output line -6, buck controller -7, decompression monitor -8, step-up transformer -9, boost pressure controller -10, boosting monitor -11, Opening-closing controller -12, generator -13, data collection station -14, dispatching control center -15, supply station -16, the first decompression control Device main body -701, cut-off switch -702, power-on switch -703, controller display screen -704, data processing centre -705, controller Antenna -706, control surface controller plate -707, monitor control panel -801, the second buck controller main body -802, monitor Display screen -803, monitor antenna -804, voltage sensor -805.

Embodiment

To be easy to understand technological means, creation characteristic, reached purpose and effect of the utility model realization, below With reference to embodiment, the utility model is expanded on further.

Refer to Fig. 1, Fig. 2 and Fig. 3, the utility model provides a kind of electrical power transmission system, its structure includes user 1, low It is press-fitted electric wire 2, step-down transformer 3, high-tension distributing line 4, region transformer station 5, high-voltage output line 6, buck controller 7, decompression prison Control device 8, step-up transformer 9, boost pressure controller 10, boosting monitor 11, opening-closing controller 12, generator 13, data collection station 14th, dispatching control center 15, supply station 16, the user 1 are connected with low-voltage distribution wire 2, the low-voltage distribution wire 2 and decompression Transformer 3 is connected, and the step-down transformer 3 is connected with high-tension distributing line 4, and the high-tension distributing line 4 connects with region transformer station 5 Connect, be connected with the region transformer station 5 on step-down transformer 3, the step-down transformer 3 and be connected with buck controller 7, it is described Decompression monitor 8 is connected with step-down transformer 3, the region transformer station 5 is connected with high-voltage output line 6, the High voltage output Line 6 is connected with step-up transformer 9, is connected with boost pressure controller 10, the step-up transformer 9 and is connected on the step-up transformer 9 Boosting monitor 11 is connected to, the step-up transformer 9 is connected with supply station 16, and generator 13 is connected with the supply station 16, Opening-closing controller 12 is connected with the generator 13, the supply station 16 is connected with dispatching control center 15, the scheduling control Center 15 processed is connected with data collection station 14, and the buck controller 7 is by the first buck controller main body 701, cut-off switch 702nd, power-on switch 703, controller display screen 704, data processing centre 705, controller antenna 706, control surface controller plate Cut-off switch 702, the first buck controller main body are connected with 707 compositions, the first buck controller main body 701 It is connected with 701 in power-on switch 703, the first buck controller main body 701 and is connected with controller display screen 704, it is described It is connected with data processing centre 705, the first buck controller main body 701 and connects in first buck controller main body 701 Have and control surface controller plate 707 is connected with controller antenna 706, the first buck controller main body 701, the decompression prison Control device 8 by monitor control panel 801, the second buck controller main body 802, monitor display screen 803, monitor antenna 804, Voltage sensor 805 is constituted, and monitor control panel 801, described second are connected with the second buck controller main body 802 It is connected with monitor display screen (803), the second buck controller main body (802) and connects in buck controller main body 802 Have and be connected with voltage sensor 805 in monitor antenna 804, the second buck controller main body 802, the user 1 passes through Low-voltage distribution wire 2 is connected with step-down transformer 3, and the step-down transformer 3 is connected by high-tension distributing line 4 with region transformer station 5, The region transformer station 5 is connected by high-voltage output line 6 with step-up transformer 9, and the decompression monitor 8 passes through buck controller 7 are connected with step-down transformer 3, and the boosting monitor 11 is connected by boost pressure controller 10 with step-up transformer 9.

In progress in use, user 1 is connected by low-voltage distribution wire 2 with step-down transformer 3, step-down transformer 3 is led to Cross high-tension distributing line 4 to be connected with region transformer station 5, region transformer station 5 be connected by high-voltage output line 6 with step-up transformer 9, Decompression monitor 8 is connected by buck controller 7 with step-down transformer 3, boosting monitor 11 is passed through into boost pressure controller 10 It is connected, is generated electricity by generator 13 with step-up transformer 9, you can power supply is started by supply station 16, is monitored by being depressured Device 8, boosting monitor 11 can be monitored to voltage raising and reducing process, can be appreciated that, be passed through in the very first time of failure Dispatching control center 15 can be controlled to buck controller 7, boost pressure controller 10.

General principle of the present utility model and principal character and advantage of the present utility model has been shown and described above, for For those skilled in the art, it is clear that the utility model is not limited to the details of above-mentioned one exemplary embodiment, and without departing substantially from this In the case of the spirit or essential attributes of utility model, the utility model can be realized in other specific forms.Therefore, no matter From the point of view of which point, embodiment all should be regarded as exemplary, and be nonrestrictive, scope of the present utility model is by institute Attached claim rather than described above are limited, it is intended that will fall in the implication and scope of the equivalency of claim All changes are included in the utility model.Any reference in claim should not be considered as to the right involved by limitation It is required that.

Moreover, it will be appreciated that although the present specification is described in terms of embodiments, not each embodiment is only wrapped Containing an independent technical scheme, this narrating mode of specification is only that for clarity, those skilled in the art should Using specification as an entirety, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art It may be appreciated other embodiment.

Claims (6)

1. a kind of electrical power transmission system, it is characterised in that：Its structure includes user (1), low-voltage distribution wire (2), step-down transformer (3), high-tension distributing line (4), region transformer station (5), high-voltage output line (6), buck controller (7), decompression monitor (8), liter Pressure transformer (9), boost pressure controller (10), boosting monitor (11), opening-closing controller (12), generator (13), data acquisition Stand (14), dispatching control center (15), supply station (16), the user (1) is connected with low-voltage distribution wire (2), and the low pressure is matched somebody with somebody Electric wire (2) is connected with step-down transformer (3), and the step-down transformer (3) is connected with high-tension distributing line (4), the high voltage power distribution Line (4) is connected with region transformer station (5), and step-down transformer (3), the downconverter are connected with the region transformer station (5) It is connected with device (3) on buck controller (7), the step-down transformer (3) and is connected with decompression monitor (8), the region becomes Power station (5) is connected with high-voltage output line (6), and the high-voltage output line (6) is connected with step-up transformer (9), the boosting transformation It is connected with device (9) on boost pressure controller (10), the step-up transformer (9) and is connected with boosting monitor (11), the boosting Transformer (9) is connected with supply station (16), is connected with generator (13), the generator (13) and is connected in the supply station (16) Opening-closing controller (12) is connected to, the supply station (16) is connected with dispatching control center (15), the dispatching control center (15) It is connected with data collection station (14), the buck controller (7) is by the first buck controller main body (701), cut-off switch (702), power-on switch (703), controller display screen (704), data processing centre (705), controller antenna (706), control Device control panel (707) is constituted, and cut-off switch (702), described first are connected with the first buck controller main body (701) It is connected with power-on switch (703), the first buck controller main body (701) and is connected with buck controller main body (701) Data processing centre (705), described are connected with controller display screen (704), the first buck controller main body (701) It is connected with controller antenna (706), the first buck controller main body (701) and connects in one buck controller main body (701) Control surface controller plate (707) is connected to, the decompression monitor (8) is by monitor control panel (801), the second buck controller Main body (802), monitor display screen (803), monitor antenna (804), voltage sensor (805) composition, second decompression It is connected with monitor control panel (801), the second buck controller main body (802) and connects in controller main body (802) Have and monitor antenna (804) is connected with monitor display screen (803), the second buck controller main body (802), described Voltage sensor (805) is connected with two buck controller main bodys (802).

2. a kind of electrical power transmission system according to claim 1, it is characterised in that：The user (1) passes through low-voltage distribution Line (2) is connected with step-down transformer (3).

3. a kind of electrical power transmission system according to claim 1, it is characterised in that：The step-down transformer (3) passes through height Press-fitting electric wire (4) is connected with region transformer station (5).

4. a kind of electrical power transmission system according to claim 1, it is characterised in that：The region transformer station (5) passes through height Pressure output line (6) is connected with step-up transformer (9).

5. a kind of electrical power transmission system according to claim 1, it is characterised in that：The decompression monitor (8) passes through drop Pressure controller (7) is connected with step-down transformer (3).

6. a kind of electrical power transmission system according to claim 1, it is characterised in that：The boosting monitor (11) is by rising Pressure controller (10) is connected with step-up transformer (9).