CN205426962U - Intelligent substation combined test wiring dish - Google Patents

Abstract

The utility model provides an intelligent substation combined test wiring dish, includes that top handle, anchor post form the positive electric test line wiring hole that has, the back has the intelligent substation combined test wiring dish of ST type optic fibre flange wiring mouth. Carrying on can organizing electric test lines and 4 these intelligent substation combined test wiring dish of optical fiber access of group with maximum 4 simultaneously when intelligent substation is experimental, the longest 70m cable, the cable channel that utilize this intelligent substation combined test wiring dish to provide test.

Description

A kind of intelligent substation compbined test patchboard

Technical field

This utility model relates to a kind of intelligent substation compbined test patchboard, is the wiring switching device carrying out intelligent terminal, combining unit and intelligent relay protection device compbined test at intelligent substation.

Background technology

At present; along with electrical network intelligent construction; the work of intelligent substation Commissioning of Relay Protection produces new test method and requirement; in intelligent substation, intelligent terminal, combining unit, intelligent relay protection device debugging are required for carrying out test connection apart from longer optical fiber and cable; now general use tail optical fiber and long cable to carry out wiring in process of the test, be easily generated that test connection mistake, open field test wiring be chaotic, test wire limited length affects the problems such as wiring.

Summary of the invention

In order to overcome existing test connection method in problems such as test connection mistake, open field test wiring confusion, test wire limited length, this utility model provides a kind of with 4 channel fiber flange converting interfaces and the test connection dish of 4 passage power test line wiring holes, this test connection dish possesses longer optical fiber and cable length, possess multichannel optical fiber and power test line wiring hole, can realize greater depth cable and optical fiber test connection requirement simultaneously, optical fiber flange converting interface uses ST type optical fiber flange connection jaws.

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

Make a radius 20cm, wide 50cm cable drum, above cable drum with below handle with fixing pillar, prepare 4 groups in reel front, often organize 4 phase power test line wiring holes, prepare 4 groups at the reel back side, often 2 ST type optical fiber flange connection jaws of group.Being divided into 2 spaces by insulation barrier from centre inside cable drum, front space is wound around 4, and every root length 70m includes the 1.5mm2 cable of 4 core mutually insulateds, and back space is wound around 4, and every root length 70m includes 2 core multimode optical cables.4 groups of power test line wiring holes connect with 4 groups of test cables inside cable drum respectively, and 4 groups of ST type optical fiber flange connection jaws connect with 4 groups of test optical cables inside cable drum respectively.

The beneficial effects of the utility model are, when carrying out intelligent substation test, utilize this utility model the longest can access 70m cable and optical cable, and cable connection is satisfied accesses 4 groups of three-phase alternating current amounts simultaneously, and optical cable wiring is satisfied accesses 4 groups of optical-fibre channels simultaneously.

Accompanying drawing explanation

With embodiment, this utility model is further illustrated below in conjunction with the accompanying drawings.

Fig. 1 is front of the present utility model structural map；Fig. 2 is the back side of the present utility model structural map；Fig. 3 is side view of the present utility model；Fig. 4 is cabling diagram of the present utility model；Fig. 5 is optical cable wiring diagram of the present utility model.

Handle, 2. reel, 3. power test line wiring hole above 1. in Fig. 1,4. fix pillar.

5.ST type optical fiber flange connection jaws in Fig. 2.

In Fig. 3,6. are wound around cable, are 7. wound around optical cable, 8. power test line lug, 9.ST type optical cable lug, 10. insulation barrier.

Detailed description of the invention

In figure 3,4 groups of power tests line wiring hole (3) are wound around cable (6) method as shown in Figure 4 with 4 groups and are connected, after reel (2) is wound around, expose power test line lug (8).

In figure 3,4 groups of ST type optical fiber flange connection jaws (5) are wound around optical cable (7) method as shown in Figure 5 with 4 groups and are connected, after reel (2) is wound around, expose ST type optical cable lug (9).

In FIG, power test line wiring hole (3) uses standard power test wire wiring hole, when needs test connection, power test line wiring hole (3) draws and connects power test line and make it be connected with other end power test line lug (8), 4 tunnels can be realized simultaneously and connect.

In fig. 2, ST type optical fiber flange connection jaws (5) uses standard ST type optical fiber flange connection jaws, when needs optical cable connects, is that ST mouth optical fiber is connected with ST type optical fiber flange connection jaws (5) and makes it be formed with other end ST type optical cable lug (9) to be connected by one end.

This utility model can carry out 4 road cable passages simultaneously and 4 road fiber channels connect.

Claims (1)

1. an intelligent substation compbined test patchboard, including radius 20cm, wide 50cm cable drum, with handle above cable drum, lower section, with fixing pillar, prepares 4 groups in reel front, often organizes 4 phase power test line wiring holes；4 groups are prepared, often 2 ST type optical fiber flange connection jaws of group at the reel back side；Being divided into 2 spaces by insulation barrier from centre inside cable drum, front space is wound around 4, and every root length 70m includes the 1.5mm2 cable of 4 core mutually insulateds, and back space is wound around 4, and every root length 70m includes 2 core multimode optical cables；4 groups of power test line wiring holes connect with 4 groups of test cables inside cable drum respectively, and 4 groups of ST type optical fiber flange connection jaws connect with 4 groups of test optical cables inside cable drum respectively.