CN205430700U - Experimental power monitoring device of wireless multichannel - Google Patents

Abstract

The utility model provides an experimental power monitoring device of wireless multichannel is including experimental power, the instrument power, three remote controller and a receiver, the work director, the guardian, remote controller of wiring personnel ge na, three people have the control to experimental power, all confirm and press after the combined floodgate key just closure of relay, experimental power can be for instrument mains operated, everyone follows a street lamp of the remote controller switch status display module on the remote controller simultaneously, two street lamps and three street lamps just can know whether other two people confirm, and during dangerous the emergence, anyone can both press separating brake opening of bond relay the very first time, make experimental power stop to instrument mains operated, the safety of assurance personnel and equipment, site work's security improves.

Description

Wireless multi-path experiment power supply supervising device

Technical field

This utility model relates to the experiment power supply remote control unit in electrical network field, particularly relates to wireless multi-path experiment power supply supervising device.

Background technology

One day, certain high examination class carries out newly-built 2386 wiretap equalizing capacitance capacitance tests in certain 220kV transformer station, and the artificial high examination long Zheng of every class is responsible in work.The on-the-spot division of labor is responsible for applied voltage test for Wang, and week, certain was responsible for recording data；Zheng is responsible for tearing open, connecing high-pressure side test lead.When 8 55 points, start test from B phase, when 9 about 30 points, do second the equalizing capacitance test of A phase switching line trackside, after data are recorded in Wang's pressurization, do not exhale and sing off-test, do not inform that other staff think repetition measurement data once yet again, press again the Self-pressurizing agri button on instrument, and now Zheng identifies oneself to test and completed, remove to tear open test lead the most without authorization, cause getting an electric shock, Zheng's paralysis subsequently falls, and dies after ineffectual treatment for 35 points when 17.Be can be seen that by above case and there is serious potential safety hazard in experiment work, on the one hand before on-test, not agreeing to through work director, operating crew has just had begun to work.On the other hand, in process of the test, power controling box only rests in operation staff, work director (or guardian) and wiring personnel do not have experiment power supply control, when dangerous situations such as running into replacing test connection, equipment electric discharge or personnel's electric shock needs to stop pressurization, only operator can cut off the electricity supply, if maloperation occurs in operator, other people feel simply helpless, and this brings unnecessary loss to the safety of wiring personnel and testing equipment.

Summary of the invention

For work director, guardian, wiring personnel lack the problem being directly monitored by experiment power supply and controlling, technical problem to be solved in the utility model is to provide a kind of wireless multi-path experiment power supply supervising device, make work director, guardian, wiring personnel have the control to experiment power supply, after three people all confirm, experiment power supply can be powered for instrument power source, everyone knows whether other two people confirm simultaneously, and during dangerous generation, anyone can cut off experiment power supply the very first time, guarantee personnel and the safety of equipment, improve the safety of work on the spot.

This utility model solves its technical problem and be the technical scheme is that

Wireless multi-path experiment power supply supervising device, including experiment power supply, instrument power source, three remote controllers and a receptor；nullExperiment power supply、Receptor and instrument power source are in sequential series，Three remote controllers are a remote controller respectively，No. two remote controllers and No. three remote controllers，Each remote controller includes shell、Remote controller controls judge module、First communication module、Remote controller on off state display module and Keysheet module，First communication module、Remote controller on off state display module and Keysheet module control judge module with remote controller respectively and are connected，Wherein remote controller controls judge module and first communication module is arranged in the enclosure，Remote controller on off state display module includes a street lamp、Two street lamps and three street lamps，One street lamp and a remote controller are corresponding，Two street lamps and No. two remote controllers are corresponding，Three street lamps and No. three remote controllers are corresponding，Keysheet module includes combined floodgate key and separating brake key，One street lamp、Two street lamps、Three street lamps、Combined floodgate key and separating brake key are arranged on case surface，And have the Chinese mark of correspondence.

Receptor includes that receptor controls judge module, relay, second communication module, control remote controller switch module and receptor on off state display module, second communication module, receptor on off state display module, control switch module and relay controls judge module with receptor respectively and is connected, wherein control remote controller switch module and include a control remote controller switch, No. two control remote controller switches and No. three control remote controller switches, a number control remote controller switch is corresponding with a remote controller, No. two control remote controller switches are corresponding with No. two remote controllers, No. three control remote controller switches are corresponding with No. three remote controllers, receptor on off state display module includes a signal lamp, two signal lamps and three signal lamps, one signal lamp and a remote controller are corresponding, two signal lamps and No. two remote controllers are corresponding, three signal lamps and No. three remote controllers are corresponding；Communicate to connect between first communication module and second communication module；In the case of receptor control judge module judges that three remote controllers are all combined floodgate, receptor controls judge module and controls relay Guan Bi, and experiment power supply starts to power for instrument power source；Receptor controls in the case of judge module judges three remote controllers at least one is separating brake, and receptor controls judge module and controls relay and disconnect, and experiment power supply stopping is powered for instrument power source.

Optimum, described first communication module and second communication module are encryption electromagnetic wave radio receiving transmitting module.

Optimum, described remote controller also includes alarm modules, during signal interruption between first communication module and second communication module, and starting shock buzzing alarming.

Optimum, described remote controller also includes converse module and talk key, and the content described in press-to-talk key is sent to two other remote controller by call module.

Optimum, described remote controller also includes logging modle and computer, and remote controller is controlled all data of judge module and is sent to computer by logging modle in real time.

Optimum, described remote controller also includes that keyboard containment vessel, keyboard containment vessel are buckled in outside combined floodgate key and separating brake key, and keyboard containment vessel one side shaft is connected on remote controller casing, and relative opposite side is snap close end, and snap close end is connected with remote controller casing opposite position snap close.

Optimum, all there is LED inside described combined floodgate key and separating brake key, when pressing combined floodgate key or separating brake key, its internal LED is bright.

Optimum, described remote controller casing is that resin material is made, and the place that shell contacts with hands is provided with anti-skidding lines.

nullAs shown from the above technical solution，This utility model provides a kind of wireless multi-path experiment power supply supervising device，Work director、Guardian、Mono-remote controller of wiring personnel Ge Na，Three people have the control to experiment power supply，And there is a control remote controller switch on receptor、No. two control remote controller switches and No. three control remote controller switches can manually boot or close corresponding remote controller，So can select to use a remote controller or two remote controllers or three，After all confirming to press combined floodgate key, relay just closes，Experiment power supply can be powered for instrument power source，A street lamp of everyone the remote controller on off state display module from remote controller simultaneously、Two street lamps and three street lamps are it is known that whether other two people confirm，And during dangerous generation，Anyone can press separating brake key the very first time and just disconnect relay，It is cut to the experiment power supply that instrument power source is powered，Guarantee personnel and the safety of equipment，Improve the safety of work on the spot.

Accompanying drawing explanation

Accompanying drawing 1 is the module diagram of wireless multi-path experiment power supply supervising device.

Accompanying drawing 2 is the front view of the receptor of wireless multi-path experiment power supply supervising device.

Accompanying drawing 3 is the front view of the remote controller of wireless multi-path experiment power supply supervising device.

In figure: experiment power supply 10, instrument power source 20, remote controller 30, remote controller controls judge module 31, first communication module 32, remote controller on off state display module 33, one street lamp 331, two street lamps 332, three street lamps 333, Keysheet module 34, combined floodgate key 341, separating brake key 342, receptor 40, receptor controls judge module 41, relay 42, second communication module 43, receptor on off state display module 44, one signal lamp 441, two signal lamps 442, three signal lamps 443, control remote controller switch module 45, a number control remote controller switch 451, No. two control remote controller switches 452 and No. three control remote controller switches 453.

Detailed description of the invention

In conjunction with the accompanying drawing in this utility model embodiment, the technical scheme of the embodiment of utility model is further elaborated.

A kind of experiment power supply 10 remote monitoring device, including experiment power supply 10,20, three remote controllers 30 of instrument power source and a receptor 40；Three remote controllers 30 are a remote controller respectively, and No. two remote controllers and No. three remote controllers, experiment power supply 10, receptor 40 and instrument power source 20 are in sequential series.

nullReferring to the drawings shown in 1 and accompanying drawing 3，Each remote controller 30 includes shell、Remote controller controls judge module 31、First communication module 32、Remote controller on off state display module、Keysheet module 34、Alarm modules、Call module、Talk key、Keyboard containment vessel and logging modle，Shell is that resin material is made，The place that shell contacts with hands is provided with anti-skidding lines，First communication module 32、Remote controller on off state display module 33、Keysheet module 34 alarm modules、Call module and logging modle control judge module 31 with remote controller respectively and are connected，Wherein remote controller controls judge module 31 and first communication module 32 is arranged in the enclosure，Remote controller on off state display module 33 includes a street lamp 331、Two street lamp 332 and three street lamps 333，One street lamp 331 is corresponding with a remote controller，Two street lamps 332 are corresponding with No. two remote controllers，Three street lamps 333 are corresponding with No. three remote controllers，Keysheet module 34 includes combined floodgate key 341 and separating brake key 342，One street lamp 331、Two street lamps 332、Three street lamps 333、Combined floodgate key 341 and separating brake key 342 are arranged on case surface，And have the Chinese mark of correspondence，All there is LED combined floodgate key 341 and separating brake key 342 inside，When pressing combined floodgate key 341 or separating brake key 342，Its internal LED is bright，Keyboard containment vessel is buckled in outside Keysheet module 34，Keyboard containment vessel one side shaft is connected on remote controller 30，Opposite side is snap close end，Snap close end is connected with remote controller 30 snap close.

When alarm modules judges the signal interruption between first communication module 32 and second communication module 43, starting shock buzzing alarming, after namely staff is beyond range of signal, alarm modules starting shock buzzing alarming, inform staff.Also having talk key on remote controller 30, the content described in press-to-talk key is sent to two other remote controller 30 by call module, needing to inform staff's thing at a distance when, can keep call, very convenient.Remote controller is controlled all data of judge module 31 and is sent to computer by logging modle on remote controller 30 in real time, so computer can store the everything of remote controller 30, after afterwards fortuitous event occurring, the black box of similar aircraft, accident treatment personnel are allowed to know the work process of each remote controller 30 at that time, the process that understanding accident occurred at that time, and the reason that accident occurs.Keyboard containment vessel is buckled in outside Keysheet module 34, prevents imprudence from pressing combined floodgate key 341 or the situation of separating brake key 342, and staff, only after opening keyboard containment vessel, just can press combined floodgate key 341 or separating brake key 342.

nullReferring to the drawings shown in 1 and accompanying drawing 2，Receptor 40 includes that receptor controls judge module 41、Relay 42、Second communication module 43、Control remote controller switch module 45 and receptor on off state display module 44，Second communication module 43、Receptor on off state display module 44、Control remote controller switch module 45 and relay 42 controls judge module 41 with receptor respectively and is connected，Wherein control remote controller switch module 45 and include a control remote controller switch 451、No. two control remote controller switches 452 and No. three control remote controller switches 453，A number control remote controller switch 451 is corresponding with a remote controller，No. two control remote controller switches 452 are corresponding with No. two remote controllers，No. three control remote controller switches 453 are corresponding with No. three remote controllers，Wherein receptor on off state display module 44 includes a signal lamp 441、Two signal lamp 442 and three signal lamps 443，One signal lamp 441 is corresponding with a remote controller，Two signal lamps 442 are corresponding with No. two remote controllers，Three signal lamps 443 are corresponding with No. three remote controllers，Communicate to connect between first communication module 32 and second communication module 43；In the case of receptor control judge module 41 judges that three remote controllers 30 are all combined floodgate, receptor control judge module 41 controls relay 42 and closes, and experiment power supply 10 starts to power for instrument power source 20；Receptor controls in the case of judge module 41 judges three remote controllers 30 at least one is separating brake, and receptor controls judge module 41 and controls relay and disconnect, and experiment power supply 10 stops powering for instrument power source 20.

Remote controller controls judge module 31 and is used for judging Keysheet module 34 state, in the case of judging that combined floodgate key 341 is pressed, a switching signal containing this remote controller 30 numbering is sent to receptor 40 by first communication module 32, receptor 40 receives a switching signal containing this remote controller 30 numbering by second communication module 43, and the switching signal transmission numbered containing this remote controller 30 is controlled judge module 41 to receptor by second communication module 43.

After receptor controls judge module 41 response switching signal containing this remote controller numbering, control receptor on off state display module 44 is numbered a corresponding signal lamp with remote controller 30, the lamp of two signal lamps or three signal lamps is bright, send No. two switching signals containing this remote controller 30 numbering to each remote controller 30 by second communication module 43 simultaneously, after remote controller 30 contains No. two switching signals of this remote controller 30 numbering by first communication module 32 response, control remote controller on off state display module 33 is numbered a corresponding street lamp with remote controller 30, the lamp of two street lamps or three street lamps is bright.

Remote controller controls judge module 31 and is used for judging Keysheet module 34 state, in the case of judging that separating brake key 342 is pressed, a sub-gate signal containing this remote controller 30 numbering is sent to receptor 40 by first communication module 32, receptor 40 receives a sub-gate signal containing this remote controller 30 numbering by second communication module 43, and the sub-gate signal transmission numbered containing this remote controller is controlled judge module 41 to receptor by second communication module 43.

After receptor controls judge module 41 response sub-gate signal containing this remote controller numbering, control receptor on off state display module 44 is numbered a corresponding signal lamp with remote controller 30, the lamp of two signal lamps or three signal lamps goes out, receptor 40 sends No. two sub-gate signals containing this remote controller 30 numbering to each remote controller 30 by second communication module 43 simultaneously, after remote controller 30 contains No. two sub-gate signals of this remote controller 30 numbering by first communication module 32 response, control remote controller on off state display module 33 is numbered a corresponding street lamp with remote controller 30, the lamp of two street lamps or three street lamps goes out.

Relay 42 original state is off state, and in the case of receptor control judge module 41 judges that three remote controllers 30 are all combined floodgate, receptor control judge module 41 controls relay 42 and closes, and experiment power supply 10 starts to power for instrument power source 20；Receptor controls in the case of judge module 41 judges three remote controllers 30 at least one is separating brake, and receptor controls judge module 41 and controls relay 42 and disconnect, and experiment power supply 10 stops powering for instrument power source 20.

First communication module 32 and second communication module 43 are encryption electromagnetic wave radio receiving transmitting module, and transmission range 300 meters, because electromagnetic transmission easily disturbing by close frequency signal, after software cryptography, with regard to exclusive PCR, using effect is fine.

If remote controller 30 sends a switching signal containing this remote controller 30 numbering to receptor 40 by first communication module 32, receptor 40 does not has a block response switching signal containing this remote controller 30 numbering, then control receptor on off state display module 44 is numbered with remote controller 30 corresponding LED also have remote controller on off state display module 33 numbers corresponding LED with remote controller 30 would not be bright.

Having a control remote controller to switch 451, No. two control remote controller switches 452 on receptor and No. three control remote controller switches 453 can manually boot or cut out corresponding remote controller, namely can select to control remote controller 30 number is three or two or one.

During specific works, work director, guardian, mono-remote controller 30 of wiring personnel Ge Na, and relay 42 original state is also off state, and namely experiment power supply 10 is not power for instrument power source 20.The director that such as works presses the combined floodgate key 341 of a remote controller in oneself hands, receptor controls judge module 41 and judges that a remote controller combined floodgate key 341 is pressed, sending signal makes a street lamp 331 corresponding with remote controller on three remote controllers 30 the brightest, and simultaneously corresponding with remote controller on a receptor signal lamp 441 is bright.Then, guardian presses the combined floodgate key 341 of No. two remote controllers in assistant, receptor controls judge module 41 and judges that No. two remote controller combined floodgate keys 341 are pressed, sending signal makes two street lamps 332 corresponding with No. two remote controllers on three remote controllers 30 the brightest, and two simultaneously corresponding with No. two remote controllers on receptor signal lamps 442 are bright.Next, wiring personnel press the combined floodgate key 341 of No. three remote controllers in assistant, receptor controls judge module 41 and judges that No. three remote controller combined floodgate keys 341 are pressed, sending signal makes three street lamps 333 corresponding with No. three remote controllers on three remote controllers 30 the brightest, and three signal lamps 443 corresponding with No. three remote controllers on receptor are bright.In this time, the receptor of receptor 40 controls judge module 41 and judges that three remote controllers 30 are all the states closed a floodgate, controls relay 42 and close, and experiment power supply 10 starts to power for instrument power source 20.

The director that now works is found to have abnormal conditions, press the separating brake key 342 of a remote controller in oneself hands, receptor controls judge module 41 and judges that a remote controller separating brake key 342 is pressed, a street lamp 331 corresponding with remote controller on three remote controllers 30 goes out, a signal lamp 441 corresponding with remote controller on receptor goes out, the receptor of receptor 40 controls judge module 41 and judges that three remote controllers 30 have one to be the state of separating brake, controlling relay 42 to disconnect, experiment power supply 10 stops powering for instrument power source 20.

If there is guardian just situation on instrument side or the most at the scene in the case of, then can select to be manually pressed by No. two control remote controllers switches 452 that receptor controls in remote controller switch module 45, it is not necessary to use remote controller 30.

In sum, this utility model is the most remotely to be controlled by work director, guardian, wiring personnel, three people have the control to experiment power supply 10, and during dangerous generation, anyone can press separating brake key 342 very first time, make experiment power supply 10 stop powering for instrument power source 20, it is ensured that personnel and the safety of equipment, improve the safety of work on the spot.

Claims (8)

1. a wireless multi-path experiment power supply supervising device, it is characterised in that: include experiment power supply, instrument power source, three remote controllers and a receptor；nullExperiment power supply、Receptor and instrument power source are in sequential series，Three remote controllers are a remote controller respectively，No. two remote controllers and No. three remote controllers，Each remote controller includes shell、Remote controller controls judge module、First communication module、Remote controller on off state display module and Keysheet module，First communication module、Remote controller on off state display module and Keysheet module control judge module with remote controller respectively and are connected，Wherein remote controller controls judge module and first communication module is arranged in the enclosure，Remote controller on off state display module includes a street lamp、Two street lamps and three street lamps，One street lamp and a remote controller are corresponding，Two street lamps and No. two remote controllers are corresponding，Three street lamps and No. three remote controllers are corresponding，Keysheet module includes combined floodgate key and separating brake key，One street lamp、Two street lamps、Three street lamps、Combined floodgate key and separating brake key are arranged on case surface，And have the Chinese mark of correspondence；

nullReceptor includes that receptor controls judge module、Relay、Second communication module、Control remote controller switch module and receptor on off state display module，Second communication module、Receptor on off state display module、Control switch module and relay controls judge module with receptor respectively and is connected，Wherein control remote controller switch module and include a control remote controller switch、No. two control remote controller switches and No. three control remote controller switches，A number control remote controller switch is corresponding with a remote controller，No. two control remote controller switches are corresponding with No. two remote controllers，No. three control remote controller switches are corresponding with No. three remote controllers，Wherein receptor on off state display module includes a signal lamp、Two signal lamps and three signal lamps，One signal lamp and a remote controller are corresponding，Two signal lamps and No. two remote controllers are corresponding，Three signal lamps and No. three remote controllers are corresponding；

Communicate to connect between first communication module and second communication module；In the case of receptor control judge module judges that three remote controllers are all combined floodgate, receptor controls judge module and controls relay Guan Bi, and experiment power supply starts to power for instrument power source；Receptor controls in the case of judge module judges three remote controllers at least one is separating brake, and receptor controls judge module and controls relay and disconnect, and experiment power supply stopping is powered for instrument power source.

Wireless multi-path experiment power supply supervising device the most according to claim 1, it is characterised in that: described first communication module and second communication module are encryption electromagnetic wave radio receiving transmitting module.

Wireless multi-path experiment power supply supervising device the most according to claim 2, it is characterised in that: described remote controller also includes alarm modules, during signal interruption between first communication module and second communication module, starting shock buzzing alarming.

Wireless multi-path experiment power supply supervising device the most according to claim 3, it is characterised in that: described remote controller also includes converse module and talk key, and the content described in press-to-talk key is sent to two other remote controller by call module.

Wireless multi-path experiment power supply supervising device the most according to claim 4, it is characterised in that: described remote controller also includes logging modle and computer, and remote controller is controlled all data of judge module and is sent to computer by logging modle in real time.

Wireless multi-path experiment power supply supervising device the most according to claim 5; it is characterized in that: described remote controller also includes keyboard containment vessel; keyboard containment vessel is buckled in outside combined floodgate key and separating brake key; keyboard containment vessel one side shaft is connected on remote controller casing; relative opposite side is snap close end, and snap close end is connected with remote controller casing opposite position snap close.

Wireless multi-path experiment power supply supervising device the most according to claim 6, it is characterised in that: all having LED inside described combined floodgate key and separating brake key, when pressing combined floodgate key or separating brake key, its internal LED is bright.

Wireless multi-path experiment power supply supervising device the most according to claim 7, it is characterised in that: described remote controller casing is that resin material is made, and the place that shell contacts with hands is provided with anti-skidding lines.