CN104569644A - Test system and test control device thereof - Google Patents
Test system and test control device thereof Download PDFInfo
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- CN104569644A CN104569644A CN201310501126.2A CN201310501126A CN104569644A CN 104569644 A CN104569644 A CN 104569644A CN 201310501126 A CN201310501126 A CN 201310501126A CN 104569644 A CN104569644 A CN 104569644A
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Abstract
The invention provides a test system and a test control device thereof. The test control device comprises a first control cabinet, a second control cabinet and a third control cabinet, wherein the first control cabinet comprises a first master control switch, a first by-pass switch and a main power source input terminal, and the first by-pass switch comprises a first input terminal and a first output terminal; the second control cabinet comprises a first load switch, a second by-pass switch and a first load connecting terminal, wherein the second by-pass switch comprises a second input terminal and a second output terminal, and the second input terminal is electrically connected with the first output terminal; the third control cabinet comprises a third by-pass switch and a second load connecting terminal used for connecting with a second load, wherein the third by-pass switch comprises a third input terminal and a third output terminal, and the third input terminal is electrically connected with the second output terminal. For the test system and the test control device thereof disclosed by the invention, the switches in the test system are intensively arranged on three switch cabinets, so that each switch can be conveniently controlled by a tester, and the condition of each switch can be more conveniently examined by the tester.
Description
Technical field
The present invention relates to test field, more specifically, relate to a kind of pilot system and experimental control device thereof.
Background technology
The various switches of pilot system of the prior art are dispersed placement, because the number ratio of switch is more, so testing crew can not control each switch easily, make the enforcement difficulty of test larger; In addition, switch is distributed in different positions, is also unfavorable for checking each switch of testing crew, easy circuit for generating fault.
Summary of the invention
The present invention aims to provide a kind of pilot system and experimental control device thereof, is dispersed in makes staff be inconvenient to the problem controlled everywhere with the switch solved in the pilot system of prior art.
For solving the problems of the technologies described above, according to an aspect of the present invention, provide a kind of experimental control device, comprise: the first switch board, comprise the first master switch, the first by-pass switch comprises first input end and the first output terminal with the primary power input end for being connected with main electric supply installation, the first by-pass switch; One end of first master switch is electrically connected with primary power input end, and the other end of the first master switch is electrically connected with first input end; Second switch board, comprise the first load switch, the second by-pass switch and the first load link for being connected with the first load, the second by-pass switch comprises the second input end and the second output terminal, and the second input end is electrically connected with the first output terminal; One end of first load switch is electrically connected with the second input end, and the other end of the first load switch is electrically connected with the first load link; 3rd switch board, comprise the 3rd by-pass switch and the second load link for being connected with the second load, 3rd by-pass switch comprises the 3rd input end and the 3rd output terminal, and the 3rd input end is electrically connected with the second output terminal, and the 3rd output terminal is electrically connected with the second load link.
Further, the first switch board also comprises the first gauge tap and the first equipment access end for being connected with the first testing equipment, and one end of the first gauge tap is electrically connected with first input end, and the other end of the first gauge tap is electrically connected with the first equipment access end; Second switch board also comprises the second gauge tap and picks out end with the first equipment for being connected with the first testing equipment, and one end of the second gauge tap is used for picking out to hold with the first equipment being electrically connected, and the other end of the second gauge tap is used for being electrically connected with the first output terminal.
Further, second switch board also comprises the 3rd gauge tap and the second equipment access end for being connected with the second testing equipment, one end of 3rd gauge tap is electrically connected with the second input end of the second by-pass switch, and the other end of the 3rd gauge tap is electrically connected with the second equipment access end; 3rd switch board also comprises the 4th gauge tap and picks out end with the second equipment for being connected with the second testing equipment, one end and second equipment of the 4th gauge tap pick out to hold and are electrically connected, and the other end of the 4th gauge tap is electrically connected with the 3rd input end of the 3rd by-pass switch.
Further, the 3rd switch board also comprises: pick out end for the 3rd equipment access end that is connected with the 3rd testing equipment and the 3rd equipment; 5th gauge tap, one end of the 5th gauge tap is electrically connected with the 3rd input end of the 3rd by-pass switch, and the other end of the 5th gauge tap is electrically connected with the 3rd equipment access end; 6th gauge tap, one end of the 6th gauge tap picks out to hold with the 3rd equipment and is electrically connected, and the other end of the 6th gauge tap is electrically connected with the 3rd output terminal of the 3rd by-pass switch.
Further, 3rd switch board also comprises: the 7th gauge tap and the 4th equipment connection end for being connected the 4th testing equipment, one end of 7th gauge tap is electrically connected with the 3rd output terminal of the 3rd by-pass switch, and the other end of the 7th gauge tap is electrically connected with the 4th equipment connection end.
Further, the first switch board also comprises: the second master switch, and the second master switch comprises the first link and the second link, and the first link is electrically connected with primary power input end; 4th by-pass switch, the 4th by-pass switch comprises four-input terminal and the 4th output terminal, and four-input terminal is electrically connected with the second link of the second master switch; 8th gauge tap; For the second equipment incoming end be along separate routes connected with the second testing equipment, one end of the 8th gauge tap is electrically connected with the 4th output terminal, and the other end of the 8th gauge tap is electrically connected with the second equipment shunt incoming end.
Further, the first switch board also comprises: pick out end for the 5th equipment access end that is connected with the 5th testing equipment and the 5th equipment; First branch switch, one end of the first branch switch is electrically connected with the four-input terminal of the 4th by-pass switch, and the other end of the first branch switch is electrically connected with the 5th equipment access end; Second branch switch, one end of the second branch switch picks out to hold with the 5th equipment and is electrically connected, and the other end of the second branch switch is electrically connected with the 4th output terminal of the 4th by-pass switch.
Further, first switch board also comprises: the 3rd master switch, for the branch supply input end that is connected with branch feeding device and the 6th equipment access end for being connected with the 6th testing equipment, one end of 3rd master switch is electrically connected with branch supply input end, and the other end of the 3rd master switch is electrically connected with the 6th equipment access end; Second switch board also comprises branch switch and picks out end with the 6th equipment for being connected with the 6th testing equipment, and one end of branch switch picks out to hold with the 6th equipment and is electrically connected, and the other end of branch switch is electrically connected with the first output terminal of the first by-pass switch.
Another aspect of the present invention, provides a kind of pilot system, comprising: the experimental control device of any one in claim 1 to 8; Main electric supply installation, is electrically connected with the primary power input end of the first switch board of experimental control device; First load, is electrically connected with the first load link of the second switch board of experimental control device; Second load, is electrically connected with the second load link of the 3rd switch board of experimental control device.
Further, pilot system also comprises: branch feeding device, is electrically connected with the branch supply input end of the first switch board; First testing equipment, one end of the first testing equipment is electrically connected with the first equipment access end of the first switch board, and the other end of the first equipment picks out to hold with the first equipment of the second switch board and is electrically connected; Second testing equipment, one end of the second testing equipment is electrically connected with the second equipment shunt incoming end of the first switch board and the second equipment access end of the second switch board respectively, and the other end of the second testing equipment picks out to hold with the second equipment of the 3rd switch board and is electrically connected; 3rd testing equipment, one end of the 3rd testing equipment is electrically connected with the 3rd equipment access end of the 3rd switch board, and the other end of the 3rd testing equipment picks out to hold with the 3rd equipment of the 3rd switch board and is electrically connected; 4th testing equipment, is electrically connected with the 4th equipment connection end of the 3rd switch board; 5th testing equipment, one end of the 5th testing equipment is electrically connected with the 5th equipment access end of the first switch board, and the other end picks out to hold with the 5th equipment of the first switch board and is electrically connected; 6th testing equipment, one end of the 6th testing equipment is electrically connected with the 6th equipment access end of the first switch board, and the other end of the 6th testing equipment picks out to hold with the 6th equipment of the second switch board and is electrically connected.
Switch concentrated setting in pilot system on three switch cubicles, makes testing crew can control each switch easily, and testing crew can be made to check the state of each switch more easily by the present invention.
Accompanying drawing explanation
The accompanying drawing forming a application's part is used to provide a further understanding of the present invention, and schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 diagrammatically illustrates the structural representation of the experimental control device in the present invention;
Reference numeral in figure: 10, the first switch board; 11, the first master switch; 12, the first by-pass switch; 13, the first gauge tap; 14, the second master switch; 15, the 4th by-pass switch; 16, the 8th gauge tap; 17, the first branch switch; 18, the second branch switch; 19, the 3rd master switch; 20, the second switch board; 21, the first load switch; 22, the second by-pass switch; 23, the second gauge tap; 24, the 3rd gauge tap; 25, branch switch; 30, the 3rd switch board; 31, the 3rd by-pass switch; 32, the 4th gauge tap; 33, the 5th gauge tap; 34, the 6th gauge tap; 35, the 7th gauge tap; 40, main electric supply installation; 50, the first load; 60, the second load; 71, the first testing equipment; 72, the second testing equipment; 73, the 3rd testing equipment; 74, the 4th testing equipment; 75, the 5th testing equipment; 76, the 6th testing equipment; 80, branch feeding device.
Embodiment
Below in conjunction with accompanying drawing, embodiments of the invention are described in detail, but the multitude of different ways that the present invention can be defined by the claims and cover is implemented.
One aspect of the present invention, please refer to Fig. 1, provide a kind of experimental control device, comprise: the first switch board 10, comprise the first master switch 11, first by-pass switch 12 and the primary power input end for being connected with main electric supply installation 40, the first by-pass switch 12 comprises first input end and the first output terminal; One end of first master switch 11 is electrically connected with primary power input end, and the other end of the first master switch 11 is electrically connected with first input end; Second switch board 20, comprise the first load switch 21, second by-pass switch 22 and the first load link for being connected with the first load 50, the second by-pass switch 22 comprises the second input end and the second output terminal, and the second input end is electrically connected with the first output terminal; One end of first load switch 21 is electrically connected with the second input end, and the other end of the first load switch 21 is electrically connected with the first load link; 3rd switch board 30, comprise the 3rd by-pass switch 31 and the second load link for being connected with the second load 60,3rd by-pass switch 31 comprises the 3rd input end and the 3rd output terminal, and the 3rd input end is electrically connected with the second output terminal, and the 3rd output terminal is electrically connected with the second load link.
As shown in Figure 1, three switch boards are linked together by by-pass switch, and the first load link and the second load link is also respectively arranged with on the second switch board 20 and the 3rd switch board 30, when after upper first load 50 of connection and/or the second load 60, be just communicated with the first load 50 and/or the second load 60 by the switch controlled on each switch cubicle.
Switch concentrated setting in pilot system on three switch cubicles, makes testing crew can control each switch easily, and testing crew can be made to observe the state of each switch more intuitively by the present invention.
Preferably, first switch board 10 also comprises the first gauge tap 13 and the first equipment access end for being connected with the first testing equipment 71, one end of first gauge tap 13 is electrically connected with first input end, and the other end of the first gauge tap 13 is electrically connected with the first equipment access end; Second switch board 20 also comprises the second gauge tap 23 and picks out end with the first equipment for being connected with the first testing equipment 71, one end of second gauge tap 23 is used for picking out to hold with the first equipment being electrically connected, and the other end of the second gauge tap 23 is used for being electrically connected with the first output terminal.Like this, first testing equipment 71 is picked out with the first equipment access end and the second equipment respectively after holding and being connected, then the first testing equipment 71 just can be connected between the first switch board 10 and the second switch board 20 by closed first gauge tap 13 and the second gauge tap 23.Preferably, first switch board 10 comprises five the first gauge tap 13 and five the first equipment input end one to one with it, the second switch board 20 comprise five with the first gauge tap 13 second gauge tap 23 and five and this second gauge tap 23 second equipment access end one to one one to one.
Preferably, second switch board 20 also comprises the 3rd gauge tap 24 and the second equipment access end for being connected with the second testing equipment 72, one end of 3rd gauge tap 24 is electrically connected with the second input end of the second by-pass switch 22, and the other end of the 3rd gauge tap 24 is electrically connected with the second equipment access end; 3rd switch board 30 also comprises the 4th gauge tap 32 and picks out end with the second equipment for being connected with the second testing equipment 72, one end and second equipment of the 4th gauge tap 32 pick out to hold and are electrically connected, and the other end of the 4th gauge tap 32 is electrically connected with the 3rd input end of the 3rd by-pass switch 31.Like this, second testing equipment 72 is picked out respectively after holding and being connected with the second equipment access end and the second equipment, the 3rd gauge tap 24 and the 4th gauge tap 32 will be closed again, just the second testing equipment 72 can be connected between the second switch board 20 and the 3rd switch board 30.Preferably, second switch board 20 comprises two the 3rd gauge tap 24 and the second equipment access end one to one with it, the 3rd switch board comprise two with the 3rd gauge tap 24 one to one the 4th gauge tap 32 and with the 4th gauge tap 32 one to one the second equipment pick out end.
Preferably, the 3rd switch board 30 also comprises: pick out end for the 3rd equipment access end that is connected with the 3rd testing equipment 73 and the 3rd equipment; One end of 5th gauge tap the 33, five gauge tap 33 is electrically connected with the 3rd input end of the 3rd by-pass switch 31, and the other end of the 5th gauge tap 33 is electrically connected with the 3rd equipment access end; One end of 6th gauge tap the 34, six gauge tap 34 picks out to hold with the 3rd equipment and is electrically connected, and the other end of the 6th gauge tap 34 is electrically connected with the 3rd output terminal of the 3rd by-pass switch 31.Like this, by the 3rd testing equipment 73 respectively at the 3rd equipment access end and the 3rd equipment pick out end be connected after, closed 5th gauge tap 33 and the 6th gauge tap 34, just can be connected to the 3rd testing equipment between the 5th gauge tap 33 and the 6th gauge tap 34 again.Preferably, the 3rd switch board 30 comprises four the 5th gauge tap 33 and four the 3rd equipment access end one to one with it, also comprise four the 6th gauge tap 34 and four and the 6th gauge tap 34 one to one the 3rd equipment pick out end.
Preferably, 3rd switch board 30 also comprises: the 7th gauge tap 35 and the 4th equipment connection end for being connected the 4th testing equipment 74, one end of 7th gauge tap 35 is electrically connected with the 3rd output terminal of the 3rd by-pass switch 31, and the other end of the 7th gauge tap 35 is electrically connected with the 4th equipment connection end.Like this, after being connected with the 7th gauge tap by the 4th testing equipment 74, then the 4th testing equipment 74 just can be connected in parallel on the 3rd switch board 30 by closed 7th gauge tap 35.
Preferably, the first switch board 10 also comprises: the second master switch 14, second master switch 14 comprises the first link and the second link, and the first link is electrically connected with primary power input end; 4th by-pass switch the 15, four by-pass switch 15 comprises four-input terminal and the 4th output terminal, and four-input terminal is electrically connected with the second link of the second master switch 14; 8th gauge tap 16; For the second equipment incoming end be along separate routes connected with the second testing equipment 72, one end of the 8th gauge tap 16 is electrically connected with the 4th output terminal, and the other end of the 8th gauge tap 16 is electrically connected with the second equipment shunt incoming end.Like this, after by the second testing equipment 72, along separate routes incoming end and the second equipment pick out and hold and be connected with the second equipment respectively, after closing the 8th gauge tap 16 and the 4th gauge tap 32 again, just the second testing equipment can be connected between the first switch board 10 and the 3rd switch board 30.Preferably, the first switch board 10 comprises two the 8th gauge tap 16 and the second equipment along separate routes incoming end one to one with it.
Preferably, the first switch board 10 also comprises: pick out end for the 5th equipment access end that is connected with the 5th testing equipment 75 and the 5th equipment; One end of first branch switch 17, first branch switch 17 is electrically connected with the four-input terminal of the 4th by-pass switch 15, and the other end of the first branch switch 17 is electrically connected with the 5th equipment access end; One end of second branch switch 18, second branch switch 18 picks out to hold with the 5th equipment and is electrically connected, and the other end of the second branch switch 18 is electrically connected with the 4th output terminal of the 4th by-pass switch 15.Like this, by the 5th testing equipment 75 respectively at the 5th equipment access end and the 5th equipment pick out end is connected after, then close the first branch switch 17 and the second branch switch 18, just the 5th testing equipment 75 can be connected in the first switch board 10.
Preferably, first switch board 10 also comprises: the 3rd master switch 19, for the branch supply input end that is connected with branch feeding device 80 and the 6th equipment access end for being connected with the 6th testing equipment 76, one end of 3rd master switch 19 is electrically connected with branch supply input end, and the other end of the 3rd master switch 19 is electrically connected with the 6th equipment access end; Second switch board 20 also comprises branch switch 25 and picks out end with the 6th equipment for being connected with the 6th testing equipment 76, one end of branch switch 25 picks out to hold with the 6th equipment and is electrically connected, and the other end of branch switch 25 is electrically connected with the first output terminal of the first by-pass switch 12.Like this, the 6th testing equipment 76 is picked out after end is connected respectively at the 6th equipment access end and the 6th equipment, then after closing the 3rd master switch 19 and branch switch 25, just the 6th testing equipment 76 can be connected between the first switch board 10 and the second switch board 20.
Another aspect of the present invention, provides a kind of pilot system, comprising: above-mentioned experimental control device; Main electric supply installation, is electrically connected with the primary power input end of the first switch board 10 of experimental control device; First load 50, is electrically connected with the first load link of the second switch board 20 of experimental control device; Second load 60, is electrically connected with the second load link of the 3rd switch board 30 of experimental control device.
Preferably, pilot system also comprises: branch feeding device 80, is electrically connected with the branch supply input end of the first switch board 10; One end of first testing equipment 71, first testing equipment 71 is electrically connected with the first equipment access end of the first switch board 10, and the other end of the first testing equipment 71 picks out to hold with the first equipment of the second switch board 20 and is electrically connected; Second testing equipment 72, one end of second testing equipment 72 is electrically connected with the second equipment shunt incoming end of the first switch board 10 and the second equipment access end of the second switch board 20 respectively, and the other end of the second testing equipment 72 picks out to hold with the second equipment of the 3rd switch board 30 and is electrically connected; One end of 3rd testing equipment the 73, three testing equipment 73 is electrically connected with the 3rd equipment access end of the 3rd switch board 30, and the other end of the 3rd testing equipment 73 picks out to hold with the 3rd equipment of the 3rd switch board 30 and is electrically connected; 4th testing equipment 74, is electrically connected with the 4th equipment connection end of the 3rd switch board 30; One end of 5th testing equipment the 75, five testing equipment 75 is electrically connected with the 5th equipment access end of the first switch board 10, and the other end picks out to hold with the 5th equipment of the first switch board 10 and is electrically connected; One end of 6th testing equipment the 76, six testing equipment 76 is electrically connected with the 6th equipment access end of the first switch board 10, and the other end of the 6th testing equipment 76 picks out to hold with the 6th equipment of the second switch board 20 and is electrically connected.
Like this, by controlling the different switches on three switch cubicles, can seal in easily and/or different testing equipment in parallel, and observing the state of the first load 50 and/or the second load 60.
The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (10)
1. an experimental control device, is characterized in that, comprising:
First switch board (10), comprises the first master switch (11), the first by-pass switch (12) comprises first input end and the first output terminal with the primary power input end for being connected with main electric supply installation (40), described first by-pass switch (12); One end of described first master switch (11) is electrically connected with described primary power input end, and the other end of described first master switch (11) is electrically connected with described first input end;
Second switch board (20), comprise the first load switch (21), the second by-pass switch (22) and the first load link for being connected with the first load (50), described second by-pass switch (22) comprises the second input end and the second output terminal, and described second input end is electrically connected with described first output terminal; One end of described first load switch (21) is electrically connected with described second input end, and the other end of described first load switch (21) is electrically connected with described first load link;
3rd switch board (30), comprise the 3rd by-pass switch (31) and the second load link for being connected with the second load (60), described 3rd by-pass switch (31) comprises the 3rd input end and the 3rd output terminal, described 3rd input end is electrically connected with described second output terminal, and described 3rd output terminal is electrically connected with described second load link.
2. experimental control device according to claim 1, it is characterized in that, described first switch board (10) also comprises the first gauge tap (13) and the first equipment access end for being connected with the first testing equipment (71), one end of described first gauge tap (13) is electrically connected with described first input end, and the other end of described first gauge tap (13) is electrically connected with the first equipment access end;
Described second switch board (20) also comprises the second gauge tap (23) and picks out end with the first equipment for being connected with described first testing equipment (71), one end of described second gauge tap (23) is used for picking out to hold with described first equipment being electrically connected, and the other end of described second gauge tap (23) is used for being electrically connected with described first output terminal.
3. experimental control device according to claim 1, it is characterized in that, described second switch board (20) also comprises the 3rd gauge tap (24) and the second equipment access end for being connected with the second testing equipment (72), one end of described 3rd gauge tap (24) is electrically connected with the second input end of described second by-pass switch (22), and the other end of described 3rd gauge tap (24) is electrically connected with described second equipment access end;
Described 3rd switch board (30) also comprises the 4th gauge tap (32) and picks out end with the second equipment for being connected with described second testing equipment (72), one end of described 4th gauge tap (32) picks out to hold with described second equipment and is electrically connected, and the other end of described 4th gauge tap (32) is electrically connected with described 3rd input end of described 3rd by-pass switch (31).
4. experimental control device according to claim 1, is characterized in that, described 3rd switch board (30) also comprises:
End is picked out for the 3rd equipment access end that is connected with the 3rd testing equipment (73) and the 3rd equipment;
5th gauge tap (33), one end of described 5th gauge tap (33) is electrically connected with described 3rd input end of described 3rd by-pass switch (31), and the other end of described 5th gauge tap (33) is electrically connected with described 3rd equipment access end;
6th gauge tap (34), one end of described 6th gauge tap (34) picks out to hold with described 3rd equipment and is electrically connected, and the other end of described 6th gauge tap (34) is electrically connected with described 3rd output terminal of described 3rd by-pass switch (31).
5. experimental control device according to claim 4, is characterized in that, described 3rd switch board (30) also comprises:
7th gauge tap (35) and the 4th equipment connection end for being connected the 4th testing equipment (74), one end of described 7th gauge tap (35) is electrically connected with described 3rd output terminal of described 3rd by-pass switch (31), and the other end of described 7th gauge tap (35) is electrically connected with described 4th equipment connection end.
6. experimental control device according to claim 3, is characterized in that, described first switch board (10) also comprises:
Second master switch (14), described second master switch (14) comprises the first link and the second link, and described first link is electrically connected with described primary power input end;
4th by-pass switch (15), described 4th by-pass switch (15) comprises four-input terminal and the 4th output terminal, and described four-input terminal is electrically connected with described second link of described second master switch (14);
8th gauge tap (16);
For the second equipment incoming end be along separate routes connected with the second testing equipment (72), one end of described 8th gauge tap (16) is electrically connected with described 4th output terminal, and the other end of described 8th gauge tap (16) is electrically connected with described second equipment shunt incoming end.
7. experimental control device according to claim 6, is characterized in that, described first switch board (10) also comprises:
End is picked out for the 5th equipment access end that is connected with the 5th testing equipment (75) and the 5th equipment;
First branch switch (17), one end of described first branch switch (17) is electrically connected with the described four-input terminal of described 4th by-pass switch (15), and the other end of described first branch switch (17) is electrically connected with described 5th equipment access end;
Second branch switch (18), one end of described second branch switch (18) picks out to hold with described 5th equipment and is electrically connected, and the other end of described second branch switch (18) is electrically connected with the 4th output terminal of described 4th by-pass switch (15).
8. experimental control device according to claim 1, it is characterized in that, described first switch board (10) also comprises: the 3rd master switch (19), for the branch supply input end that is connected with branch feeding device (80) and the 6th equipment access end for being connected with the 6th testing equipment (76), one end of described 3rd master switch (19) is electrically connected with described branch supply input end, and the other end of described 3rd master switch (19) is electrically connected with described 6th equipment access end;
Described second switch board (20) also comprises branch switch (25) and picks out end with the 6th equipment for being connected with described 6th testing equipment (76), one end of described branch switch (25) picks out to hold with described 6th equipment and is electrically connected, and the other end of described branch switch (25) is electrically connected with described first output terminal of described first by-pass switch (12).
9. a pilot system, is characterized in that, comprising:
Experimental control device described in any one in claim 1 to 8;
Main electric supply installation, is electrically connected with the primary power input end of first switch board (10) of described experimental control device;
First load (50), is electrically connected with the first load link of second switch board (20) of described experimental control device;
Second load (60), is electrically connected with the second load link of the 3rd switch board (30) of described experimental control device.
10. pilot system according to claim 9, is characterized in that, described pilot system also comprises:
Branch feeding device (80), is electrically connected with the branch supply input end of described first switch board (10);
First testing equipment (71), one end of described first testing equipment (71) is electrically connected with the first equipment access end of described first switch board (10), and the other end of described first testing equipment (71) picks out to hold with the first equipment of described second switch board (20) and is electrically connected;
Second testing equipment (72), one end of described second testing equipment (72) is electrically connected with the second equipment shunt incoming end of described first switch board (10) and the second equipment access end of described second switch board (20) respectively, and the other end of described second testing equipment (72) picks out to hold with the second equipment of described 3rd switch board (30) and is electrically connected;
3rd testing equipment (73), one end of described 3rd testing equipment (73) is electrically connected with the 3rd equipment access end of described 3rd switch board (30), and the other end of described 3rd testing equipment (73) picks out to hold with the 3rd equipment of described 3rd switch board (30) and is electrically connected;
4th testing equipment (74), is electrically connected with the 4th equipment connection end of described 3rd switch board (30);
5th testing equipment (75), one end of described 5th testing equipment (75) is electrically connected with the 5th equipment access end of described first switch board (10), and the other end picks out to hold with the 5th equipment of described first switch board (10) and is electrically connected;
6th testing equipment (76), one end of described 6th testing equipment (76) is electrically connected with the 6th equipment access end of described first switch board (10), and the other end of described 6th testing equipment (76) picks out to hold with the 6th equipment of described second switch board (20) and is electrically connected.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310501126.2A CN104569644B (en) | 2013-10-22 | 2013-10-22 | Pilot system and its experimental control device |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310501126.2A CN104569644B (en) | 2013-10-22 | 2013-10-22 | Pilot system and its experimental control device |
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| CN104569644A true CN104569644A (en) | 2015-04-29 |
| CN104569644B CN104569644B (en) | 2019-01-08 |
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| CN203241734U (en) * | 2013-03-20 | 2013-10-16 | 苏州中锦电气科技有限公司 | Control cabinet with two control systems for use and one for standby for steel mill production |
| CN203606441U (en) * | 2013-10-22 | 2014-05-21 | 国家电网公司 | Test system and test controlling device thereof |
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| US20060113845A1 (en) * | 2004-11-30 | 2006-06-01 | Hartmut Berger | Performance test board |
| CN102354183A (en) * | 2011-08-16 | 2012-02-15 | 新昌县盛大科技有限公司 | Spherical graphite production line centralization control system |
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| CN202562715U (en) * | 2012-04-01 | 2012-11-28 | 洛阳博特自动化工程有限公司 | Leak detection system |
| CN202901839U (en) * | 2012-09-18 | 2013-04-24 | 诺威尔(天津)能源装备股份有限公司 | Unattended operation pressure regulating box system |
| CN203241734U (en) * | 2013-03-20 | 2013-10-16 | 苏州中锦电气科技有限公司 | Control cabinet with two control systems for use and one for standby for steel mill production |
| CN203606441U (en) * | 2013-10-22 | 2014-05-21 | 国家电网公司 | Test system and test controlling device thereof |
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| CN104569644B (en) | 2019-01-08 |
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