CN204241663U - A kind of direct supply ring network fault diagnostic device - Google Patents
A kind of direct supply ring network fault diagnostic device Download PDFInfo
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- CN204241663U CN204241663U CN201420748666.0U CN201420748666U CN204241663U CN 204241663 U CN204241663 U CN 204241663U CN 201420748666 U CN201420748666 U CN 201420748666U CN 204241663 U CN204241663 U CN 204241663U
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- 239000004973 liquid crystal related substance Substances 0.000 claims abstract description 10
- 238000005259 measurement Methods 0.000 claims description 6
- 238000000034 method Methods 0.000 abstract description 10
- 238000012544 monitoring process Methods 0.000 abstract description 8
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Abstract
The utility model proposes the monitoring method judging two cover DC power system generation ring network fault in a transformer station accurately, fast and automatically, include signal source, I section of return circuit coupling circuit, II section of return circuit coupling circuit, current sampling circuit, current signal treatment circuit, A/D change-over circuit, single-chip microcomputer, liquid crystal display, warning circuit composition.With realize two cover DC power system occur ring network fault time Real-Time Monitoring and warning, if there occurs ring network fault, warning circuit action generation looped network failure alarm signal.Meet the needs that electric power power transformation keeps the scene intact comprehensively.
Description
Technical field
The utility model relates to a kind of transforming plant DC power-supply system assembly detection apparatus, particularly installs the above DC power system of two covers for a transformer station and occurs to alter trouble-shooter mutually.
Background technology
The DC power system of transformer station is mainly relay protection and control loop provides power supply; there is the features such as earth-free, uninterrupted power supply, short-circuit current are large, discharge capability is strong; in order to ensure the power supply reliability of direct supply, a transformer station or generating plant usually arrange two cover independent operating DC power system.When normal work, two cover direct supplys are point open shops, work alone, independently supplying load, mutually back up, except bus is communicated except switch, do not have the connection that other are electric.
The DC power system of two cover independent operatings, often overlap direct supply and be provided with respective battery pack, charging set, insulation monitoring and warning device, feeder line etc., only adopt bar coupler to connect between it when finding that certain section of DC power system occurs abnormal, make the equipment of fault out of service, now its current supply circuit is just electrically connected.Due to DC power system, its branch is many, loop power supply is complicated, wiring is many, often be difficult to determine that terminal supplying power is the direct supply from which section in construction and maintenance process, cause the problem such as swinging cross, cross-line, misconnection between two cover direct supplys, usually occur that a terminal has two power supplys and connects phenomenon, same load has occurred and powers by two sections simultaneously, load operation cannot be completed down.This phenomenon is usually called ring network fault, alters fault mutually also referred to as direct current.
Two overlap independently DC power system; when there occurs ring network fault; the potential safety hazards such as the malfunction of relay protection device, tripping may be caused; also may make positive and negative voltage-to-ground generation deviation and cause direct current lost territory phenomenon; also power loss may be made; likely greatly can reduce the life of storage battery time more serious, cause direct supply and burn, even the consequence that can not estimate such as fire.DC power system ring network fault is a recessive potential safety hazard, does not have professional equipment to measure, and hidden danger is difficult to judge.Insulation monitoring and warning device relevant at present, direct current (DC) monitoring device all effectively cannot judge ring network fault.
Usually adopt disconnection to close when having generation to alter fault (ring network fault) mutually when operations staff cannot determine two cover direct supplys, draw insurance, separate terminal, survey the method for voltage to judge that direct supply is altered mutually.Because DC power system is a uninterrupted system, its load is all the continual power supply of requirement, said method is adopted all to have larger security risk, likely can cause the safety responsibility accident that cannot determine, in order to quick and precisely judge whether two cover DC power system have ring network fault, become the difficult problem that work about electric power person is badly in need of solving automatically.
Summary of the invention
In view of current present situation, the utility model proposes the monitoring method judging that two cover direct supply looped networks break down accurately, fast and automatically, with realize two cover DC power system occur ring network fault time Real-Time Monitoring and warning, meet the on-the-spot needs of work about electric power person comprehensively.
The utility model provides the device of the monitoring method of two cover direct supply ring network fault, and its feature is: include signal source, I section of return circuit coupling circuit, II section of return circuit coupling circuit, current sampling circuit, current signal treatment circuit, A/D change-over circuit, single-chip microcomputer, liquid crystal display, warning circuit composition.Its circuit connects and is connected with I section of return circuit coupling circuit, II section of return circuit coupling circuit respectively for signal source; Signal connects with current sampling circuit; I section of return circuit coupling circuit is connected with I section of DC power cathode; II section of return circuit coupling circuit is connected with II section of DC power cathode; Current sampling circuit is connected with current signal treatment circuit and connects; Current signal treatment circuit connects with A/D change-over circuit; A/D change-over circuit connects with single-chip microcomputer; Single-chip microcomputer and liquid crystal display; Single-chip microcomputer connects with warning circuit; Current sampling circuit is serially connected with between I section of return circuit coupling circuit and I section of DC power cathode, the electric current between sampled measurements signal source and I section of DC power cathode.Signal source produces an ac current signal and has been fed on I section of DC power cathode bus by I section of return circuit coupling circuit, and the other end that signal source exports has been fed on II section of DC power cathode bus by II section of return circuit coupling circuit.When the connection electrically occurs the direct supply of the direct supply of I section and II section, I section of direct supply and II section define loop between direct supply and signal.The current signal of an alternation will be produced between two output terminals of signal source.This ac supply signal that signal source produces will be sampled by current sampling circuit.This current signal that current sampling circuit samples delivers to current signal treatment circuit, carries out signal and amplifies process voltage.A/D change-over circuit forms analog to digital conversion according to the 0-5V voltage signal that current signal treatment circuit is brought and becomes digital signal, and single-chip microcomputer carries out calculating according to the data between its A/D converter circuit and judges whether it ring network fault occurs.Cutoff current size and result that whether ring network fault and measurement occur are delivered to liquid crystal display by single-chip microcomputer respectively, if there occurs ring network fault, warning circuit action sends ring network fault alerting signal.
The utility model compared with prior art has the following advantages: 1, structure is simple, reasonable in design, circuit connection convenient and input cost is low, and processing and fabricating is convenient.2, this method measurement range wide, be appropriate to different direct supplys.3, use easy and simple to handle and result of use good, practical value is high.
Accompanying drawing explanation
Below in conjunction with accompanying drawing and embodiment, the utility model is described further.
Fig. 1 is principle schematic of the present utility model.
Fig. 2 is of the present utility model with two connection diagrams of overlapping DC power system.
The present embodiment there is provided two cover direct supplys and judges ring network fault monitoring principle schematic diagram, includes: signal source (3), I section of return circuit coupling circuit (1), II section of return circuit coupling circuit (2), current sampling circuit (4), current signal treatment circuit (5), A/D change-over circuit (6), single-chip microcomputer (7), liquid crystal display (8), warning circuit (9) form.Its circuit connects and is connected with I section of return circuit coupling circuit (1), II section of return circuit coupling circuit (2) respectively for signal source (3); I section of return circuit coupling circuit (1) is connected with I section of DC power cathode; II section of return circuit coupling circuit (2) is connected with II section of DC power cathode; Signal source (3) connects with current sampling circuit (4); Current sampling circuit is connected with current signal treatment circuit (5); Current signal treatment circuit (5) connects with A/D change-over circuit (6); A/D change-over circuit (6) connects with single-chip microcomputer (7); Single-chip microcomputer (7) connects with liquid crystal display (8), warning circuit (9); Current sampling circuit (4) is connected between I section of return circuit coupling circuit (1) and I section of DC power cathode, its current value of sampled measurements.Signal source (3) produces an ac current signal and has been fed on I section of DC power cathode bus by I section of return circuit coupling circuit (10), and the other end that signal source (3) exports has been fed on II section of DC power cathode bus by II section of return circuit coupling circuit.When the connection electrically occurs the direct supply of the direct supply of I section and II section, I section of direct supply and II section define loop between direct supply and signal.The current signal of an alternation will be produced between two output terminals of signal source.This ac supply signal that signal source (3) produces will be sampled by current sampling circuit (4).Current sampling circuit sampling (4) to this current signal deliver to current signal treatment circuit (5), carry out signal amplify process voltage.A/D change-over circuit (6) forms analog to digital conversion according to the 0-5V voltage signal that current signal treatment circuit is brought and becomes digital signal, and single-chip microcomputer carries out calculating according to the data between its A/D converter and judges whether it ring network fault occurs.Cutoff current size and result that whether ring network fault and measurement occur are delivered to liquid crystal display (8) by single-chip microcomputer respectively, if there occurs ring network fault, warning circuit (9) action sends ring network fault alerting signal.Signal source (3) is 4HZ frequency, and electric current is the perseverance source of 100mA, and I section of return circuit coupling circuit (1) and II section of return circuit coupling circuit (2) mainly ensure that by frequency be 4HZ, and electric current is the interchange perseverance source of 100mA, has stopping direct current, the logical characteristic exchanged.Current sampling circuit adopts small electric current sensor as employing point, current measuring range 0-200mA, and single-chip microcomputer adopts TA89C51, and liquid crystal display adopts the color display of list of dot matrix 12864.Chinese display, whether main display occurs to alter information mutually, the parameters such as current state information.Warning output loop is the idle contact circuit closed of 2A, and without being that idle contact disconnects when altering mutually, looped network earth fault occurs, alters fault alarm mutually, warning output contact closes.
The present embodiment be between two cover DC power system electrical connection signal, sensor be built in exactly I section of power supply and; Current sample point between II section of power supply, sensor signal delivers to the current sampling circuit (4) in implementation column 1, and I section of direct supply connects with I section of return circuit coupling circuit; II section of direct supply connects with II section of return circuit coupling circuit (2); What connect with two sections of direct supplys is all negative pole.If when there is the ring network fault that two sections of positive poles connect, the current signal that signal source produces is by by the accumulator of the Ith section and the charging set positive pole to the IIth section, the positive pole of the IIth section again can to the negative pole of the IIth section of direct supply by the charging set of the IIth section of direct supply and accumulator, make also to create loop between signal source and two sections of power supplys, between can measuring equally, looped network alters current signal mutually.The positive and negative electrode of two sections of direct supplys but there occurs looped network and alters mutually, charging set and the accumulator of wherein one section are passed through in capital, as long as so create looped network when two sections independently connection occurs electrically direct supply to alter fault mutually, this method can be measured automatically, accurately and fast and ring network fault warning message occur, the potential safety hazards the such as whether DC current sources grasping transformer station exactly for work about electric power person occurs is altered mutually, looped network, effectively provide the guarantee of safe operation.
Above-described embodiment is better embodiment of the present invention; present embodiment is not restricted to the described embodiments; change, modification that other any does under not deviating from the connotation of content of the present invention and principle, substitute, combine, simplify; all should be the substitute mode of equivalence, within the protection domain being included in content of the present invention.
Claims (1)
1. a direct supply ring network fault diagnostic device, is characterized in that: include signal source, I section of return circuit coupling circuit, II section of return circuit coupling circuit, current sampling circuit, current signal treatment circuit, A/D change-over circuit, single-chip microcomputer, liquid crystal display, warning circuit composition; Its circuit connects and is connected with I section of return circuit coupling circuit, II section of return circuit coupling circuit respectively for signal source; I section of return circuit coupling circuit is connected with I section of DC power cathode; II section of return circuit coupling circuit is connected with II section of DC power cathode; Current sampling circuit is connected with current signal treatment circuit; Current signal treatment circuit connects with A/D change-over circuit; A/D change-over circuit connects with single-chip microcomputer; Single-chip microcomputer and liquid crystal display; Single-chip microcomputer connects with warning circuit; Current sampling circuit is serially connected with between I section of return circuit coupling circuit and I section of DC power cathode, the electric current between sampled measurements signal source and I section of DC power cathode.
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CN201420748666.0U CN204241663U (en) | 2014-12-03 | 2014-12-03 | A kind of direct supply ring network fault diagnostic device |
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CN201420748666.0U CN204241663U (en) | 2014-12-03 | 2014-12-03 | A kind of direct supply ring network fault diagnostic device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104391256A (en) * | 2014-12-03 | 2015-03-04 | 浙江科畅电子有限公司 | Direct-current power supply looped network fault diagnosis device |
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2014
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104391256A (en) * | 2014-12-03 | 2015-03-04 | 浙江科畅电子有限公司 | Direct-current power supply looped network fault diagnosis device |
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150401 |