CN104901196A - Movable low-voltage electric leakage protection power cabinet - Google Patents
Movable low-voltage electric leakage protection power cabinet Download PDFInfo
- Publication number
- CN104901196A CN104901196A CN201510252210.4A CN201510252210A CN104901196A CN 104901196 A CN104901196 A CN 104901196A CN 201510252210 A CN201510252210 A CN 201510252210A CN 104901196 A CN104901196 A CN 104901196A
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- China
- Prior art keywords
- circuit breaker
- current circuit
- residual current
- indicator light
- iii
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02B—BOARDS, SUBSTATIONS OR SWITCHING ARRANGEMENTS FOR THE SUPPLY OR DISTRIBUTION OF ELECTRIC POWER
- H02B1/00—Frameworks, boards, panels, desks, casings; Details of substations or switching arrangements
- H02B1/26—Casings; Parts thereof or accessories therefor
- H02B1/52—Mobile units, e.g. for work sites
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02B—BOARDS, SUBSTATIONS OR SWITCHING ARRANGEMENTS FOR THE SUPPLY OR DISTRIBUTION OF ELECTRIC POWER
- H02B1/00—Frameworks, boards, panels, desks, casings; Details of substations or switching arrangements
- H02B1/015—Boards, panels, desks; Parts thereof or accessories therefor
- H02B1/04—Mounting thereon of switches or of other devices in general, the switch or device having, or being without, casing
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02B—BOARDS, SUBSTATIONS OR SWITCHING ARRANGEMENTS FOR THE SUPPLY OR DISTRIBUTION OF ELECTRIC POWER
- H02B1/00—Frameworks, boards, panels, desks, casings; Details of substations or switching arrangements
- H02B1/20—Bus-bar or other wiring layouts, e.g. in cubicles, in switchyards
- H02B1/207—Cross-bar layouts
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Breakers (AREA)
Abstract
The invention discloses a movable low-voltage electric leakage protection power cabinet, and the cabinet comprises a roller, a compact-type cabinet body, and a power loop system. The cabinet is a multi-loop small-size power cabinet which is mainly formed by the assembly of the compact-type cabinet body and power loops. Meanwhile, the bottom of the multi-loop small-size power cabinet is additionally provided with a roller. The power loop system III consists of a public vertical bus, a multi-layer small bus, a circuit breaker, and a wire. All switches employ circuit breakers with electric leakage protection. The cabinet can provide more wiring positions, and is not liable to cause short circuit and overload conditions. Meanwhile, the cabinet has a function of electric leakage protection.
Description
Technical field
The present invention relates to protective circuit device, specifically a kind of low-voltage leakage protection power cabinet.
Background technology
In some temporary construction electricity consumption occasions, be all connect power supply with terminal block plate or patchboard from position far away under many circumstances, often have plug work a terminal block or the patchboard of several power consumption equipment.
The terminal block plate of current use or patchboard have following defect: 1, the wire diameter of terminal block plate or patchboard is less, and easy overload, causes the accidents such as short circuit.2, when power consumption equipment is too much, terminal block plate or patchboard can not provide many wiring positions; 3, terminal block plate or patchboard do not have creepage protection function.
Summary of the invention
The object of the invention is to provide a kind of moveable low-voltage leakage protection power cabinet for the problems referred to above.
In order to solve the problems of the technologies described above, the present invention is achieved by the following technical solutions: a kind of moveable low-voltage leakage protection power cabinet, comprising: roller I, compact cabinet II, power loop system III;
Described moveable low-voltage leakage protection power cabinet is assembled into a kind of multiloop minitype motivation cabinet after a kind of compact cabinet is added power loop, meanwhile, bottom described multiloop minitype motivation cabinet, installs roller additional.
Described power loop system (III) is made up of public perpendicular bus, the little bus of multilayer and circuit breaker and wire; Wherein all switches all adopt the circuit breaker of band electric leakage.
Described compact cabinet comprises: skeleton, residual current circuit breaker installation position I, residual current circuit breaker installation position II, indicator light mounting panel I, residual current circuit breaker panel I, door lock, indicator light mounting panel II, residual current circuit breaker panel II, glass door, the perpendicular gear of L shape, side shelves I, side block II, side block III, terminal mounting panel I, terminal mounting panel II, terminal mounting panel III, U-type groove plate;
Described side shelves I, side block II, side block III are arranged on skeleton 1 with bolt respectively.
Described L shape is erected gear bolt and is connected with side shelves I, side block II respectively;
Described terminal mounting panel I, terminal mounting panel II, terminal mounting panel III erect to keep off with L shape respectively with screw and are connected;
Described U-type groove plate bolt is connected with side block I, side block III respectively;
Described residual current circuit breaker panel I, residual current circuit breaker panel II screw are connected with U-type groove plate respectively;
Described indicator light mounting panel I, residual current circuit breaker panel I, indicator light mounting panel II, residual current circuit breaker panel II are connected with U-type groove plate with screw respectively;
Described power loop system comprises: A phase erects bus, B phase erects bus, C phase erects bus, little bus structure I, wire I, terminal I, frid I, wire II, terminal II, frid II, wire III, terminal III, frid III, zero-emission, insulator, indicator light A, indicator light B, indicator light C, indicator light D, indicator light E, indicator light F, little bus structure II, little bus I, little bus II, residual current circuit breaker A, residual current circuit breaker B, residual current circuit breaker C, residual current circuit breaker D, residual current circuit breaker E, residual current circuit breaker F, residual current circuit breaker G, residual current circuit breaker H, residual current circuit breaker J, residual current circuit breaker K, residual current circuit breaker L, residual current circuit breaker M, indicator light G, indicator light H, indicator light J, indicator light K, indicator light L, indicator light M, bundle conductor I, bundle conductor II.
Described little bus structure I, little bus structure II are connected with side block I and side block II with bolt respectively;
Described little bus I and little bus II are connected with little bus structure I, little bus structure II with bolt respectively;
Described A phase erects bus, B phase erects bus, the perpendicular bus of C phase is connected with little bus I and little bus II with bolt respectively;
Described little bus I coupling is connected with residual current circuit breaker A, residual current circuit breaker B, residual current circuit breaker C, residual current circuit breaker D, residual current circuit breaker E, residual current circuit breaker F; Little bus II coupling is connected with residual current circuit breaker G, residual current circuit breaker H, residual current circuit breaker J, residual current circuit breaker K, residual current circuit breaker L, residual current circuit breaker M.
Described A phase erects bus, B phase erects bus, the perpendicular bus wire I of C phase is connected with terminal I.
Described terminal I is arranged on terminal mounting panel III by frid I; Described terminal II is arranged on terminal mounting panel II by frid II; Described terminal III is arranged on terminal mounting panel I by frid III.
Described residual current circuit breaker A, residual current circuit breaker B, residual current circuit breaker C, residual current circuit breaker D, residual current circuit breaker E, residual current circuit breaker F wire II is connected with terminal II;
Described residual current circuit breaker G, residual current circuit breaker H, residual current circuit breaker J, residual current circuit breaker K, residual current circuit breaker L, residual current circuit breaker M wire III is connected with terminal III;
Described residual current circuit breaker A, residual current circuit breaker B, residual current circuit breaker C, residual current circuit breaker D, residual current circuit breaker E, residual current circuit breaker F, residual current circuit breaker G, residual current circuit breaker H, residual current circuit breaker J, residual current circuit breaker K, residual current circuit breaker L, residual current circuit breaker M bundle conductor I is connected with indicator light A, indicator light B, indicator light C, indicator light D, indicator light E, indicator light F, indicator light G, indicator light H, indicator light J, indicator light K, indicator light L, indicator light M respectively.
Described indicator light A, indicator light B, indicator light C, indicator light D, indicator light E, indicator light F, indicator light G, indicator light H, indicator light J, indicator light K, indicator light L, indicator light M bundle conductor II connects with in zero-emission;
Described zero-emission is installed on the insulator.
Device of the present invention can provide more wiring position, and is not easy to occur the problem such as short circuit, overload.Meanwhile, the present invention also has creepage protection function.
Accompanying drawing explanation
Fig. 1 is low-voltage leakage protection power cabinet schematic diagram of the present invention;
Fig. 2 is compact cabinet schematic diagram of the present invention;
Fig. 3 is compact cabinet schematic internal view of the present invention;
Fig. 4 is the left view of Fig. 2;
Fig. 5 is power loop system schematic of the present invention.
Fig. 6 is power loop internal system schematic diagram of the present invention;
Fig. 7 is the left view of Fig. 5;
Fig. 8 is embodiments of the invention schematic diagram;
Fig. 9 is embodiments of the invention schematic internal view;
Figure 10 is the left view of Fig. 8.
In figure: I-roller, II-compact cabinet, III-power loop system, 1-skeleton, 2-residual current circuit breaker installation position I, 3-residual current circuit breaker installation position II, 4-indicator light mounting panel I, 5-residual current circuit breaker panel I, 6-door lock, 7-indicator light mounting panel II, 8-residual current circuit breaker panel II, 9-glass door, the perpendicular gear of 10-L shape, 11-side shelves I, 14-side block II, 18-side block III, 20-terminal mounting panel I, 22-terminal mounting panel II, 25-terminal mounting panel III, 27-U type frid, 35-A phase erects bus, 36-B phase erects bus, 37-C phase erects bus, the little bus structure I of 38-, 41-wire I, 42-terminal I, 43-frid I, 44-wire II, 45-terminal II, 46-frid II, 47-wire III, 48-terminal III, 49-frid III, 50-zero-emission, 51-insulator, 52-indicator light A, 53-indicator light B, 54-indicator light C, 55-indicator light D, 56-indicator light E, 57-indicator light F, the little bus structure II of 58-, the little bus I of 59-, the little bus II of 61-, 62-residual current circuit breaker A, 63-residual current circuit breaker B, 64-residual current circuit breaker C, 65-residual current circuit breaker D, 66-residual current circuit breaker E, 67-residual current circuit breaker F, 68-residual current circuit breaker G, 69-residual current circuit breaker H, 70-residual current circuit breaker J, 71-residual current circuit breaker K, 72-residual current circuit breaker L, 73-residual current circuit breaker M, 79-indicator light G, 80-indicator light H, 81-indicator light J, 82-indicator light K, 83-indicator light L, 84-indicator light M, 85-bundle conductor I, 86-bundle conductor II.
Embodiment
As shown in Figure 1, a kind of moveable low-voltage leakage protection power cabinet, comprising: roller I, compact cabinet II, power loop system III.
As shown in Figure 2, described compact cabinet II comprises: skeleton 1, residual current circuit breaker installation position I 2, residual current circuit breaker installation position II 3, indicator light mounting panel I 4, residual current circuit breaker panel I 5, door lock 6, indicator light mounting panel II 7, residual current circuit breaker panel II 8, glass door 9, L shape erect gear 10, side shelves I 11, side block II 14, side block III 18, terminal mounting panel I 20, terminal mounting panel II 22, terminal mounting panel III 25, U-type groove plate 27;
Described side shelves I 11, side block II 14, side block III 18 are arranged on skeleton 1 with bolt respectively.
Described L shape is erected gear 10 bolt and is connected with side shelves I 11, side block II 14 respectively;
Described terminal mounting panel I 20, terminal mounting panel II 22, terminal mounting panel III 25 erect gear 10 with L shape respectively with screw and are connected;
Described U-type groove plate 27 bolt is connected with side block I 11, side block III 18 respectively;
Described residual current circuit breaker panel I 5, residual current circuit breaker panel II 8 screw are connected with U-type groove plate 27 respectively;
Described indicator light mounting panel I 4, residual current circuit breaker panel I 5, indicator light mounting panel II 7, residual current circuit breaker panel II 8 are connected with U-type groove plate 27 with screw respectively.
As shown in Figure 3, described power loop system III comprises: A phase erects bus 35, B phase erects bus 36, C phase perpendicular female 37, little bus structure I 38, wire I 41, terminal I 42, frid I 43, wire II 44, terminal II 45, frid II 46, wire III 47, terminal III 48, frid III 49, zero-emission 50, insulator 51, indicator light A52, indicator light B53, indicator light C54, indicator light D55, indicator light E56, indicator light F57, little bus structure II 58, little bus I 59, little bus II 61, residual current circuit breaker A62, residual current circuit breaker B63, residual current circuit breaker 64C, residual current circuit breaker D65, residual current circuit breaker E66, residual current circuit breaker F67, residual current circuit breaker G68, residual current circuit breaker H69, residual current circuit breaker J70, residual current circuit breaker K71, residual current circuit breaker L72, residual current circuit breaker M73, indicator light G79, indicator light H80, indicator light J81, indicator light K82, indicator light L83, indicator light M84, bundle conductor I 85, bundle conductor II 86.
Described little bus structure I 38, little bus structure II 58 are connected with side block I 11 and side block II 14 with bolt respectively;
Described little bus I 59 and little bus II 61 are connected with little bus structure I 38, little bus structure II 58 with bolt respectively;
Described A phase erects bus 35, B phase erects bus 36, C phase perpendicular female 37 is connected with little bus I 59 and little bus II 61 with bolt respectively;
Described little bus I 59 coupling is connected with residual current circuit breaker A62, residual current circuit breaker B63, residual current circuit breaker 64C, residual current circuit breaker D65, residual current circuit breaker E66, residual current circuit breaker F67; Little bus II 61 coupling is connected with residual current circuit breaker G68, residual current circuit breaker H69, residual current circuit breaker J70, residual current circuit breaker K71, residual current circuit breaker L72, residual current circuit breaker M73.
Described A phase erects bus 35, B phase erects bus 36, C phase perpendicular female 37 is connected with terminal I 42 with wire I 41.
Described terminal I 42 is arranged on terminal mounting panel III 25 by frid I 43; Described terminal II 45 is arranged on terminal mounting panel II 22 by frid II 46; Described terminal III 48 is arranged on terminal mounting panel I 20 by frid III 49.
Described residual current circuit breaker A62, residual current circuit breaker B63, residual current circuit breaker 64C, residual current circuit breaker D65, residual current circuit breaker E66, residual current circuit breaker F67 wire II 44 is connected with terminal II 45;
Described residual current circuit breaker G68, residual current circuit breaker H69, residual current circuit breaker J70, residual current circuit breaker K71, residual current circuit breaker L72, residual current circuit breaker M73 wire III 47 is connected with terminal III 48;
Described residual current circuit breaker A62, residual current circuit breaker B63, residual current circuit breaker 64C, residual current circuit breaker D65, residual current circuit breaker E66, residual current circuit breaker F67, residual current circuit breaker G68, residual current circuit breaker H69, residual current circuit breaker J70, residual current circuit breaker K71, residual current circuit breaker L72, residual current circuit breaker M73 with bundle conductor I 85 respectively with indicator light A52, indicator light B53, indicator light C54, indicator light D55, indicator light E56, indicator light F57, indicator light G79, indicator light H80, indicator light J81, indicator light K82, indicator light L83, indicator light M84 connects.
Described indicator light A52, indicator light B53, indicator light C54, indicator light D55, indicator light E56, indicator light F57, indicator light G79, indicator light H80, indicator light J81, indicator light K82, indicator light L83, indicator light M84 bundle conductor II 86 connects with in zero-emission 50;
Described zero-emission 50 is arranged on insulator 51.
As shown in Figure 4; the present invention is in the application: owing to being equipped with roller I bottom the low-voltage leakage protection power cabinet of movement; the low-voltage leakage protection power cabinet of movement can be pushed into the place needing temporary electricity; terminal 42 to be connected with the mains line IV; on terminal II 45, connect load V according to electricity consumption situation, terminal III 48 connects load VI.Power supply flows through wire I 41 from terminal I 42 and arrives the perpendicular bus 35 of A phase, B phase erects bus 36, C phase perpendicular female 37, little bus I 59 and little bus II 61 all charged, residual current circuit breaker A62 is arrived through coupling, residual current circuit breaker B63, residual current circuit breaker 64C, residual current circuit breaker D65, residual current circuit breaker E66, residual current circuit breaker F67, residual current circuit breaker G68, residual current circuit breaker H69, residual current circuit breaker J70, residual current circuit breaker K71, residual current circuit breaker L72, the upper terminals of residual current circuit breaker M73, close after stating residual current circuit breaker, power supply arrives indicator light A52 through bundle conductor I 85, indicator light B53, indicator light C54, indicator light D55, indicator light E56, indicator light F57, indicator light G79, indicator light H80, indicator light J81, indicator light K82, indicator light L83, indicator light M84, zero-emission 50 is arrived through bundle conductor II 86, now above-mentioned indicator light brightens.Meanwhile, close after stating residual current circuit breaker, power supply arrives terminal 45 and terminal 48 respectively through wire 44 and wire 47, and now load V, load VI energising are started working.
Claims (3)
1. a moveable low-voltage leakage protection power cabinet, is characterized in that comprising: roller (I), compact cabinet (II), power loop system (III);
Described moveable low-voltage leakage protection power cabinet is assembled into a kind of multiloop minitype motivation cabinet after a kind of compact cabinet is added power loop, meanwhile, bottom described multiloop minitype motivation cabinet, installs roller additional.
2. moveable low-voltage leakage protection power cabinet according to claim 1, is characterized in that: described power loop system (III) is made up of public perpendicular bus, the little bus of multilayer and circuit breaker and wire; Wherein all switches all adopt the circuit breaker of band electric leakage.
3. moveable low-voltage leakage protection power cabinet according to claim 1, is characterized in that: comprise roller (I), compact cabinet (II), power loop system (III);
Described compact cabinet (II) comprising: skeleton (1), residual current circuit breaker installation position I (2), residual current circuit breaker installation position II (3), indicator light mounting panel I (4), residual current circuit breaker panel I (5), door lock (6), indicator light mounting panel II (7), residual current circuit breaker panel II (8), glass door (9), the perpendicular gear (10) of L shape, side shelves I (11), side block II (14), side block III (18), terminal mounting panel I (20), terminal mounting panel II (22), terminal mounting panel III (25), U-type groove plate (27),
Described side shelves I (11), side block II (14), side block III (18) are arranged on skeleton (1) with bolt respectively;
The perpendicular gear (10) of described L shape is connected with side shelves I (11), side block II (14) respectively with bolt;
Described terminal mounting panel I (20), terminal mounting panel II (22), terminal mounting panel III (25) keep off (10) be connected with screw are perpendicular with L shape respectively;
Described U-type groove plate (27) is connected with side block I (11), side block III (18) respectively with bolt;
Described residual current circuit breaker panel I (5), residual current circuit breaker panel II (8) screw are connected with U-type groove plate (27) respectively;
Described indicator light mounting panel I (4), residual current circuit breaker panel I (5), indicator light mounting panel II (7), residual current circuit breaker panel II (8) are connected with U-type groove plate (27) with screw respectively;
Described power loop system (III) comprising: A phase erects bus (35), B phase erects bus (36), C phase erects bus (37), little bus structure I (38), wire I (41), terminal I (42), frid I (43), wire II (44), terminal II (45), frid II (46), wire III (47), terminal III (48), frid III (49), zero-emission (50), insulator (51), indicator light A(52), indicator light B(53), indicator light C(54), indicator light D(55), indicator light E(56), indicator light F(57), little bus structure II (58), little bus I (59), little bus II (61), residual current circuit breaker A(62), residual current circuit breaker B(63), residual current circuit breaker C(64), residual current circuit breaker D(65), residual current circuit breaker E(66), residual current circuit breaker F(67), residual current circuit breaker G(68), residual current circuit breaker H(69), residual current circuit breaker J(70), residual current circuit breaker K(71), residual current circuit breaker L(72), residual current circuit breaker M(73), indicator light G (79), indicator light H (80), indicator light J (81), indicator light K (82), indicator light L (83), indicator light M (84), bundle conductor I (85), bundle conductor II (86),
Described little bus structure I (38), little bus structure II (58) are connected with side block I (11) and side block II (14) with bolt respectively;
Described little bus I (59) and little bus II (61) are connected with little bus structure I (38), little bus structure II (58) with bolt respectively;
Described A phase erects bus (35), B phase erects bus (36), the perpendicular bus (37) of C phase is connected with little bus I (59) and little bus II (61) with bolt respectively;
Described little bus I (59) coupling and residual current circuit breaker A(62), residual current circuit breaker B(63), residual current circuit breaker C(64), residual current circuit breaker D(65), residual current circuit breaker E(66), residual current circuit breaker F(67) be connected; Little bus II (61) coupling and residual current circuit breaker G(68), residual current circuit breaker H(69), residual current circuit breaker J(70), residual current circuit breaker K(71), residual current circuit breaker L(72), residual current circuit breaker M(73) be connected;
Described A phase erects bus (35), B phase erects bus (36), perpendicular bus (37) wire I (41) of C phase is connected with terminal I (42);
Described terminal I (42) is arranged on terminal mounting panel III (25) by frid I (43); Described terminal II (45) is arranged on terminal mounting panel II (22) by frid II (46); Described terminal III (48) is arranged on terminal mounting panel I (20) by frid III (49);
Described residual current circuit breaker A(62), residual current circuit breaker B(63), residual current circuit breaker C(64), residual current circuit breaker D(65), residual current circuit breaker E(66), residual current circuit breaker F(67) be connected with terminal II (45) with wire II (44);
Described residual current circuit breaker G(68), residual current circuit breaker H(69), residual current circuit breaker J(70), residual current circuit breaker K(71), residual current circuit breaker L(72), residual current circuit breaker M(73) be connected with terminal III (48) with wire III (47);
Described residual current circuit breaker A(62), residual current circuit breaker B(63), residual current circuit breaker C(64), residual current circuit breaker D(65), residual current circuit breaker E(66), residual current circuit breaker F(67), residual current circuit breaker G(68), residual current circuit breaker H(69), residual current circuit breaker J(70), residual current circuit breaker K(71), residual current circuit breaker L(72), residual current circuit breaker M(73) with bundle conductor I (85) respectively with indicator light A(52), indicator light B(53), indicator light C(54), indicator light D(55), indicator light E(56), indicator light F (57), indicator light G (79), indicator light H (80), indicator light J (81), indicator light K(82), indicator light L(83), indicator light M(84) connect,
Described indicator light A(52), indicator light B(53), indicator light C(54), indicator light D(55), indicator light E(56), indicator light F (57), indicator light G (79), indicator light H (80), indicator light J (81), indicator light K(82), indicator light L(83), indicator light M(84) with bundle conductor II (86) connect with zero-emission (50) on;
Described zero-emission (50) is arranged on insulator (51).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510252210.4A CN104901196A (en) | 2015-05-18 | 2015-05-18 | Movable low-voltage electric leakage protection power cabinet |
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Application Number | Priority Date | Filing Date | Title |
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CN201510252210.4A CN104901196A (en) | 2015-05-18 | 2015-05-18 | Movable low-voltage electric leakage protection power cabinet |
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CN104901196A true CN104901196A (en) | 2015-09-09 |
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CN201510252210.4A Pending CN104901196A (en) | 2015-05-18 | 2015-05-18 | Movable low-voltage electric leakage protection power cabinet |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106654927A (en) * | 2016-12-09 | 2017-05-10 | 天津鼎电气成套设备股份有限公司 | Practical movable high-low voltage switch cabinet |
CN112977118A (en) * | 2021-04-12 | 2021-06-18 | 河南科技大学 | Mobile storage battery car charging device |
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GB1456308A (en) * | 1973-03-01 | 1976-11-24 | Westinghouse Electric Corp | Enclosed switchgear with a support assembly supporting load- side extensions |
CN2862448Y (en) * | 2005-08-09 | 2007-01-24 | 深圳市泰昂电子技术有限公司 | Power distribution cabinet for intelligent station |
CN201352680Y (en) * | 2008-10-23 | 2009-11-25 | 西安供电局 | Portable power distribution cabinet |
CN202633748U (en) * | 2012-05-14 | 2012-12-26 | 章丘市供电公司 | Multifunctional low-voltage distribution cabinet |
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2015
- 2015-05-18 CN CN201510252210.4A patent/CN104901196A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1456308A (en) * | 1973-03-01 | 1976-11-24 | Westinghouse Electric Corp | Enclosed switchgear with a support assembly supporting load- side extensions |
CN2862448Y (en) * | 2005-08-09 | 2007-01-24 | 深圳市泰昂电子技术有限公司 | Power distribution cabinet for intelligent station |
CN201352680Y (en) * | 2008-10-23 | 2009-11-25 | 西安供电局 | Portable power distribution cabinet |
CN202633748U (en) * | 2012-05-14 | 2012-12-26 | 章丘市供电公司 | Multifunctional low-voltage distribution cabinet |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106654927A (en) * | 2016-12-09 | 2017-05-10 | 天津鼎电气成套设备股份有限公司 | Practical movable high-low voltage switch cabinet |
CN112977118A (en) * | 2021-04-12 | 2021-06-18 | 河南科技大学 | Mobile storage battery car charging device |
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Application publication date: 20150909 |