CN203951578U - A kind of wireless mobile monitoring system - Google Patents
A kind of wireless mobile monitoring system Download PDFInfo
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- CN203951578U CN203951578U CN201420379134.4U CN201420379134U CN203951578U CN 203951578 U CN203951578 U CN 203951578U CN 201420379134 U CN201420379134 U CN 201420379134U CN 203951578 U CN203951578 U CN 203951578U
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Abstract
The utility model relates to a kind of wireless mobile monitoring system, comprise terminal video recording equipment, IMAQ reflector, signal forward relay, described IMAQ reflector is fixed in the limp using in overhead transmission line drawing tension unwrapping wire process and moves with it, the trace of described limp is recorded and the fore-and-aft direction working condition of described limp gathers automatically, described signal forward relay is installed on the steel tower of overhead transmission line, in the time that described limp advances to the signal range of receiving of described signal forward relay, described signal forward relay is opened, receive the trace of described limp of described IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, and described signal is forwarded to described terminal video recording equipment shows in real time with video image.This wireless mobile monitoring system can prevent from card line wire jumper or cross the phenomenons such as traction occurring, and ensures unwrapping wire quality and safe overhead transmission line drawing tension unwrapping wire.
Description
Technical field
The utility model relates to a kind of wireless mobile monitoring system, is applicable to the complete monitoring to overhead transmission line drawing tension unwrapping wire process.
Background technology
Traditional stringing mode of overhead transmission line is tension stringing, by traction net, wire to be connected with limp, carry out tension stringing, after hanging wire, require the sag between conducting wire sag, alternate sag and the upper and lower sub-conductor of homophase all must meet designing requirement, thus wire put logical after, each strain section needs to carry out repeatedly stringing and sag observation, then calculate scant length, then carry out crimping and tension-resisting clip hanging wire in high-altitude.This stringing mode construction technology is loaded down with trivial details, waste wire and in work high above the ground, cause long construction period, safety work dangerous matter sources many, and in the time of line transfer and sag observation, due to the impact of the factor such as wind-engaging, mist, make execute-in-place inconvenience, and the data that obtain are inaccurate.
Summary of the invention
Technical problem to be solved in the utility model is to provide one and can prevents from card line wire jumper or cross the phenomenons such as traction occurring, and ensures unwrapping wire quality and safe overhead transmission line drawing tension unwrapping wire wireless mobile monitoring system.
The utility model is achieved through the following technical solutions:
A kind of wireless mobile monitoring system, comprise terminal video recording equipment, IMAQ reflector, signal forward relay, described IMAQ reflector is fixed in the limp using in overhead transmission line drawing tension unwrapping wire process and moves with it, the trace of described limp is recorded and the fore-and-aft direction working condition of described limp gathers automatically, described signal forward relay is installed on the steel tower of overhead transmission line, in the time that described limp advances to the signal range of receiving of described signal forward relay, described signal forward relay is opened, receive the trace of described limp of described IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, and described signal is forwarded to described terminal video recording equipment shows in real time with video image.
Technical scheme further, described signal forward relay can be multiple, in the time that described limp advances to the signal range of receiving of first signal forward relay, described first signal forward relay is opened, receive the trace of described limp of described IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, and described signal is forwarded to described terminal video recording equipment shows in real time with video image; In the time that described limp advances to the signal range of receiving of secondary signal forward relay, described secondary signal forward relay is opened, receive the trace of described limp of IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, and described signal is forwarded to described first signal forward relay, by described first signal forward relay, described signal is forwarded to described terminal video recording equipment and shows in real time with video image; By that analogy, described signal is forwarded to previous adjacent signal forward relay by a rear signal forward relay, until the most described signal is forwarded to described terminal video recording equipment and shows in real time with video image.
In this application, a rear signal forward relay can be interpreted as, and second signal forward relay is a rear signal forward relay for first signal forward relay, and first signal forward relay is previous signal forward relay accordingly; The 3rd signal forward relay is a rear signal forward relay for second signal forward relay, and corresponding second signal forward relay is previous signal forward relay; N+1 signal forward relay is a rear signal forward relay with respect to N signal forward relay, previous signal forward relay when corresponding N signal forward relay; Wherein N is positive integer, and N+1 signal forward relay is adjacent with N signal forward relay, and remaining signal forward relay is non-conterminous.
Technical scheme further, described signal forward relay can be multiple, in the time that described limp advances to the signal range of receiving of any one signal forward relay, this signal forward relay is all opened, receive the trace of described limp of IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, when the signal range of receiving of last signal forward relay that described limp advances to is opened, described signal can be transmitted to the non-adjacent or adjacent signal forward relay of opening above, the like, until the most described signal is forwarded to described terminal video recording equipment and shows in real time with video image.
Technical scheme further, described terminal video recording equipment is made up of directional receiving antenna and automatic video recording backup LED high definition monitor, described directional receiving antenna range of receiving 3-5km, described automatic video recording backup LED high definition monitor once charges can working 12 hours.
Technical scheme further, described IMAQ reflector is made up of front collection mirror, image processor, rear collection mirror, master control and antenna, described IMAQ reflector dome-type transmitting effective range: radius 3-4km, its power supply once charges can continuous operation 20 hours, in described master control, establish time power source control, can effectively manage the time of electricity consumption.
Technical scheme further, described terminal video recording equipment comprises that signal input part, terminal control unit, screen, memory device and parameter arrange module.
Technical scheme further, the bottom that described figure gathers reflector has adjustable strong magnetic pin, utilizes described adjustable strong magnetic pin to be fixed in described limp, makes each described adjustable strong magnetic pin energy comprehensive engagement limp face; In described IMAQ reflector, also establish dome-type signal transmitting antenna, be arranged in limp, along with causing limp 90 degree swings all around in unwrapping wire process, what IMAQ reflector also can be stable is transferred to relay forwarding signal.
Technical scheme further, described signal forward relay comprises window machine controller, relaying primary control box, power supply and signal repeater and signal conversion module, its inside is provided with debugging testing tool, power-supply controller of electric and address code, signal range of receiving radius 3-4km, signal forwards the directed 6km of scope, and once charging can continuous operation 60 hours.
Technical scheme further, described relaying primary control box comprises processor, signal output part, control input end, power input and signal input part, described power-supply controller of electric and address code can be manipulated by SMS.
The beneficial effects of the utility model are: the utility model is convenient to floor manager, can be applicable to the dispatch control of different electric pressure unfolding conductors or production scene, be particularly suitable for the whole process supervision commander at the stretching unwrapping wire scene of overhead transmission line, thereby while can wire crossing coaster and cause card line wire jumper or cross the phenomenon generations such as traction (and inclination of institute's wire that draw and limp), guarantee unwrapping wire quality and safety.
Brief description of the drawings
In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.
Fig. 1 is wireless mobile monitoring system work on the spot schematic diagram of the present utility model;
Fig. 2 is embodiment bis-schematic diagrames of wireless mobile monitoring system of the present utility model;
Fig. 3 is embodiment tri-schematic diagrames of wireless mobile monitoring system of the present utility model;
Fig. 4 is the embodiment tri-variation schematic diagrames of wireless mobile monitoring system of the present utility model;
Fig. 5 is IMAQ reflector internal structure schematic diagram of the present utility model;
Fig. 6 is terminal video recording equipment structural representation of the present utility model.
Fig. 7 is relaying primary control box internal structure schematic diagram of the present utility model;
Embodiment
Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail, thereby so that advantage of the present utility model and feature can be easier to be it will be appreciated by those skilled in the art that, protection range of the present utility model is made to more explicit defining.
Embodiment mono-
As shown in Figure 1, wireless mobile monitoring system work on the spot schematic diagram of the present utility model, wireless mobile monitoring system comprises terminal video recording equipment, IMAQ reflector, signal forward relay, described IMAQ reflector is fixed in the limp using in overhead transmission line drawing tension unwrapping wire process and moves with it, the trace of described limp is recorded and the fore-and-aft direction working condition of described limp gathers automatically, signal forward relay is installed on the steel tower of overhead transmission line, in the time that described limp advances to the signal range of receiving of described signal forward relay, described signal forward relay is opened, receive the trace of described limp of IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, and described signal is forwarded to described terminal video recording equipment shows in real time with video image.
Useful technique effect of the present utility model accordingly, when advancing to signal forward relay when limp, just this opening signal forward relay, do like this self signal emissivities that can make full use of the signal forward relay opened above or IMAQ reflector, forward a signal to terminal video recording equipment and show in real time stringing monitoring image, prevent from card line wire jumper or cross the phenomenon such as traction occurring, when guarantee unwrapping wire quality and safe technical problem, also have a little energy-conservation.
Embodiment bis-
The working site of level terrain for overhead transmission line drawing tension unwrapping wire, preferred version further, as shown in Figure 2, described signal forward relay can be three, when described limp (comprises IMAQ reflector fixed thereon, all not shown in Fig. 2-4) while advancing to the signal range of receiving of first signal forward relay, first signal forward relay is opened, receive the trace of described limp of IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, and described signal is forwarded to described terminal video recording equipment shows in real time with video image, in the time that described limp advances to the signal range of receiving of secondary signal forward relay, secondary signal forward relay is opened, receive the trace of described limp of IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, and described signal is forwarded to first signal forward relay, by first signal forward relay, described signal is forwarded to described terminal video recording equipment and shows in real time with video image, in the time that described limp advances to the signal range of receiving of the 3rd signal forward relay, the 3rd signal forward relay is opened, receive the trace of described limp of IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, and described signal is forwarded to first signal forward relay by secondary signal forward relay.
For the situation of signal forward relay that exceedes three, by that analogy, described signal is forwarded to previous adjacent signal forward relay by a rear signal forward relay, until the most described signal is forwarded to described terminal video recording equipment and shows in real time with video image.
The further useful technique effect of the utility model accordingly: can pass through some signal forward relays, layer by layer signal be forwarded, can make terminal equipment show clearly stringing monitoring image.
Embodiment tri-
The working site of complex-terrain for overhead transmission line drawing tension unwrapping wire, further preferred version, as shown in Figure 3, described signal forward relay can be three, in the time that described limp advances to the signal range of receiving of any one signal forward relay, this signal forward relay is all opened, receive the trace of described limp of IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, when the 3rd signal forward relay that described limp advances to is opened, the 3rd signal forward relay can be transmitted to described signal the non-adjacent first signal forward relay opened above, secondary signal forward relay through opening can be transmitted to adjacent first signal forward relay described signal, first signal forward relay the most described signal is forwarded to described terminal video recording equipment and shows in real time with video image.
For the situation that exceedes three signal forward relays, the like, until the most described signal is forwarded to described terminal video recording equipment and shows in real time with video image.
Embodiment tri--variation
The working site of complex-terrain for overhead transmission line drawing tension unwrapping wire, can do following distortion for embodiment tri-, as shown in Figure 4, described signal forward relay can be three, in the time that described limp advances to the signal range of receiving of any one signal forward relay, this signal forward relay is all opened, receive the trace of described limp of IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, when the 3rd signal forward relay that described limp advances to is opened, the 3rd signal forward relay can be transmitted to described signal the non-adjacent first signal forward relay opened above, first signal forward relay is forwarded to described terminal video recording equipment by described signal and shows in real time with video image, while secondary signal forward relay can directly be forwarded to described terminal route equipment described signal described signal and show in real time with video and graphic.
For the situation that exceedes three signal forward relays, the like, until the most described signal is forwarded to described terminal video recording equipment and shows in real time with video image.
Accordingly, the useful technique effect that embodiment tri-and variation thereof are brought is: for the working site of complex-terrain, can make full use of the signal forward relay that is conducive to reception and transmits, the popularity in the application of raising overhead transmission line drawing tension unwrapping wire supervisory control system.
Technical scheme further, described terminal video recording equipment is mainly made up of directional receiving antenna and automatic video recording backup LED high definition monitor, described directional receiving antenna range of receiving 3-5km, described automatic video recording backup LED high definition monitor once charges can working 12 hours.
Technical scheme further, as shown in Figure 5: described IMAQ reflector is mainly made up of front collection mirror, image processor, rear collection mirror, master control and antenna, described IMAQ reflector dome-type transmitting effective range: radius 3-4km, its power supply once charges can continuous operation 20 hours, in described master control, establish time power source control, can effectively manage the time of electricity consumption.
Further technical scheme, as shown in Figure 6: described terminal video recording equipment comprises that signal input part, terminal control unit, screen, memory device and parameter arrange module.
Further technical scheme, the bottom that described figure gathers reflector has adjustable strong magnetic pin, utilizes described adjustable strong magnetic pin to be fixed in described limp, makes each described adjustable strong magnetic pin energy comprehensive engagement limp face; In described IMAQ reflector, establish dome-type signal transmitting antenna, be arranged in limp, along with causing limp 90 degree swings all around in unwrapping wire process, what IMAQ reflector also can be stable is transferred to relay forwarding signal.
Technical scheme further, described signal forward relay comprises relaying isotropic receiving antenna, directional transmitting antenna, relaying primary control box, power supply and signal conversion module, its inside is provided with debugging testing tool, power-supply controller of electric and address code, signal range of receiving radius 3-4km, signal forwards the directed 6km of scope, and once charging can continuous operation 60 hours, in described power-supply controller of electric, establish timing controlled, can effectively manage the time of electricity consumption.
Technical scheme further, as shown in Figure 7, described relaying primary control box mainly comprises processor, signal output part, control input end, power input and signal input part, described power-supply controller of electric and address code can be manipulated by SMS.
The beneficial effects of the utility model are: the utility model is convenient to floor manager, can be applicable to the dispatch control of different electric pressure unfolding conductors or production scene, be particularly suitable for the whole process supervision commander at the stretching unwrapping wire scene of overhead transmission line, thereby can prevent from card line wire jumper or cross the phenomenons such as traction occurring, ensure unwrapping wire quality and safety.
The above, be only embodiment of the present utility model, but protection range of the present utility model is not limited to this, and any variation of expecting without creative work or replacement, within all should being encompassed in protection range of the present utility model.Therefore, protection range of the present utility model should be as the criterion with the protection range that claims were limited.
Claims (10)
1. a wireless mobile monitoring system, it is characterized in that: comprise terminal video recording equipment, IMAQ reflector, signal forward relay, described IMAQ reflector is fixed in the limp using in overhead transmission line drawing tension unwrapping wire process and moves with it, the trace of described limp is recorded and the fore-and-aft direction working condition of described limp gathers automatically, described signal forward relay is installed on the steel tower of overhead transmission line, in the time that described limp advances to the signal range of receiving of described signal forward relay, described signal forward relay is opened, receive the trace of described limp of described IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, and described signal is forwarded to described terminal video recording equipment shows in real time with video image.
2. wireless mobile monitoring system according to claim 1, it is characterized in that: described signal forward relay can be multiple, in the time that described limp advances to the signal range of receiving of first signal forward relay, described first signal forward relay is opened, receive the trace of described limp of described IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, and described signal is forwarded to described terminal video recording equipment shows in real time with video image; In the time that described limp advances to the signal range of receiving of secondary signal forward relay, described secondary signal forward relay is opened, receive the trace of described limp of IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, and described signal is forwarded to described first signal forward relay, by described first signal forward relay, described signal is forwarded to described terminal video recording equipment and shows in real time with video image; By that analogy, described signal is forwarded to previous adjacent signal forward relay by a rear signal forward relay, until the most described signal is forwarded to described terminal video recording equipment and shows in real time with video image.
3. wireless mobile monitoring system according to claim 1, it is characterized in that: described signal forward relay can be multiple, in the time that described limp advances to the signal range of receiving of any one signal forward relay, this signal forward relay is all opened, receive the trace of described limp of IMAQ reflector record and the signal of the fore-and-aft direction working condition of described limp, when the signal range of receiving of last signal forward relay that described limp advances to is opened, described signal can be transmitted to the non-adjacent or adjacent signal forward relay opened above, the like, until the most described signal is forwarded to described terminal video recording equipment and shows in real time with video image.
4. according to the wireless mobile monitoring system described in claim 1-3 any one, it is characterized in that: described signal forward relay comprises relaying isotropic receiving antenna, directional transmitting antenna, relaying primary control box, power supply and signal conversion module, its inside is provided with debugging testing tool, power-supply controller of electric and address code, signal range of receiving radius 3-4km, signal forwards the directed 6km of scope, once charging can continuous operation 60 hours, in described power-supply controller of electric, establish timing controlled, can effectively manage the time of electricity consumption.
5. according to the wireless mobile monitoring system described in claim 1-3 any one, it is characterized in that: described terminal video recording equipment is made up of directional receiving antenna and automatic video recording backup LED high definition monitor, described directional receiving antenna range of receiving 3-5km, described automatic video recording backup LED high definition monitor once charges can working 12 hours.
6. according to the wireless mobile monitoring system described in claim 1-3 any one, it is characterized in that: described IMAQ reflector is mainly made up of front collection mirror, image processor, rear collection mirror, master control and antenna, described IMAQ reflector transmitting effective range radius 3-4km, its power supply once charges can continuous operation 20 hours, in described master control, establish time power source control, can effectively manage the time of electricity consumption.
7. according to the wireless mobile monitoring system described in claim 1-3 any one, it is characterized in that: described terminal video recording equipment comprises that signal input part, terminal control unit, screen, memory device and parameter arrange module.
8. according to the wireless mobile monitoring system described in claim 1-3 any one, it is characterized in that: the bottom that described figure gathers reflector has adjustable strong magnetic pin, utilize described adjustable strong magnetic pin to be fixed in described limp, make each described adjustable strong magnetic pin energy comprehensive engagement limp face; In described IMAQ reflector, also establish dome-type signal transmitting antenna, be arranged in limp, along with causing limp 90 degree swings all around in unwrapping wire process, what IMAQ reflector also can be stable is transferred to relay forwarding signal.
9. wireless mobile monitoring system according to claim 4, is characterized in that: described relaying primary control box mainly comprises processor, signal output part, control input end, power input and signal input part.
10. wireless mobile monitoring system according to claim 4, is characterized in that: described power-supply controller of electric and address code can be manipulated by SMS.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104079889A (en) * | 2014-07-10 | 2014-10-01 | 宁波天弘电力器具有限公司 | Wireless mobile monitoring system |
CN105305318A (en) * | 2015-09-30 | 2016-02-03 | 四川省明信投资有限公司 | Intelligent walking board |
WO2019148068A1 (en) * | 2018-01-26 | 2019-08-01 | Emerson Electric Co. | Intelligent electrical conductor installation system |
CN110505445A (en) * | 2019-07-17 | 2019-11-26 | 武汉科迪奥电力科技有限公司 | Conducting wire driving video monitoring system and method based on wireless transmission |
-
2014
- 2014-07-10 CN CN201420379134.4U patent/CN203951578U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104079889A (en) * | 2014-07-10 | 2014-10-01 | 宁波天弘电力器具有限公司 | Wireless mobile monitoring system |
CN105305318A (en) * | 2015-09-30 | 2016-02-03 | 四川省明信投资有限公司 | Intelligent walking board |
CN105305318B (en) * | 2015-09-30 | 2018-06-22 | 四川省明远电力集团有限公司 | A kind of intelligence limp |
WO2019148068A1 (en) * | 2018-01-26 | 2019-08-01 | Emerson Electric Co. | Intelligent electrical conductor installation system |
CN110505445A (en) * | 2019-07-17 | 2019-11-26 | 武汉科迪奥电力科技有限公司 | Conducting wire driving video monitoring system and method based on wireless transmission |
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