Overview
LW36-126 outdoor high-voltage sulfur hexafluoride circuit breaker is a three-phase AC 50HZ outdoor High-voltage Switchgear, suitable for control and protection of 126KV power transmission and transformation system; it can also be used in the occasions of contact breaking and groups of opening and closing.
LW36-126 type circuit breaker adopts the principle of "thermal expansion + blowing aid" which can only extinguish the arc, and it is equipped with a CTB-1 spring-operated mechanism.
The circuit breaker conforms to GB1984-2003 "AC High Voltage Circuit breakers" and meets the requirements of IEC62271-100:2001 "High voltage switchgear and controlgear - Part 100: High voltage AC Circuit Breakers" of the International Electrotechnical Commission.
The circuit breaker adopts the principle of self-energy arc extinguishing, with excellent breaking performance, short arc-burning time, long electrical life and low operating noise. SF6 gas with excellent insulation and arc extinguishing performance is used as the insulation and arc extinguishing medium, with no danger of combustion and explosion, and can be used in densely populated areas. The circuit breaker is equipped with spring actuating mechanism, simple and compact structure, safe and reliable.
1.3.1 Ambient temperature -30 ℃ ~ +40 ℃ (special requirements of -40 ℃ ~ +40 ℃)
1.3.2 Altitude ≤4000m
1.3.3 Air temperature
Relative temperature: daily average not more than 95%
Monthly average not more than 90% (25°C)
Saturation vapor pressure:daily average not more than 2.2×10-3 MPa
1.3.4 Wind pressure not greater than 700 Pa
1.3.5 Ice cover thickness 10 mm
1.3.6 Seismic intensity: Horizontal acceleration: ≤0.3g
Vertical acceleration: ≤0.15g
1.3.7 Intensity of sunlight: 0.1 W/cm2 (at 0.5 m/s wind speed)
1.3.8 Maximum daily temperature difference of 25°C
1.3.9 Nominal creepage ratio distance: 31mm/kV
1.3.10 No flammable and explosive hazards and
chemical corrosion, violent vibration occasions
| serial numbe | Item | unit (of measure) | Technical Parameters |
| 1 | rated voltage | KV | 126 |
| 2 | Rated frequency | Hz | 50 |
| 3 | rated current | A | 3150 |
| 4 | Rated short-circuit breaking current | short-circuit current | kA | 31.5 |
| DC component | - | 40% |
| 5 | Rated short circuit duration | s | 4 |
| 6 | Rated short-time withstand current | kA | 40 |
| 7 | Rated short-circuit closing current (peak) | kA | 100 |
| 8 | Rated peak withstand current | 100 |
| 9 | Rated 1min frequency withstand voltage (RMS)) | with respect to ground, between phases | kV | 230 |
| between contacts | 265 |
| 10 | Rated lightning impulse withstand voltage (peak) | with respect to ground, between phases | 550 |
| 650 |
| 11 | 5min zero gauge pressure withstand (RMS) | between contacts,with respect to ground | 95 |
| 12 | Rated out-of-step breaking current | kA | IeX25% |
| 13 | Near-area fault opening current | IeX90%�����,IeX75% |
| 14 | Rated line charging breaking current | A | 50 |
| 15 | Rated sequence of operation | - | O-0.3s-CO-180s-CO |
| 16 | First open pole factor | - | 1.5 |
| 17 | Closing time | ms | ≤100 |
| 18 | Split time | 30≤t≤45 |
| 19 | breaking time | ≤60 |
| 20 | Opening and closing time | 60 |
| 21 | Opening synchronization | 4 |
| 22 | Closing synchronization | 5 |
| 23 | Rated SF6 gas pressure (20°C) | Mpa | 0.60 |
| 24 | Annual SF6 gas leakage rate | - | ≤0.5% |
| 25 | Gas Moisture Content | ppm (v/v) | ≤150 |
| 26 | radio interference level | μV | ≤2500 |
| 27 | mechanical life span | times | 6000 |
| 28 | Quality per breaker | kg | 1400 |
| 29 | Mass of SF6 gas per unit | 6 |
| 30 | Main circuit resistance per pole | μΩ | 70 |
1.4.2 Mechanical parameters of circuit breakers and actuators are shown in Table 2.
1.4.1 The main technical parameters of the circuit breaker are shown in Table 1.
| serial number | Item | unit (of measure) | digital | Remarks |
| 1 | Dynamic contact travel | mm | 130+2-3 |
|
| 2 | Angle Stroke | 27±2 |
|
| 3 | Spring Mechanism Stroke | 1000-3 |
|
| 4 | Clearance between arm rollers and mechanical cams | 1.4±0.3 | Breaker in open state, closing spring energized. |
| 5 | Distance between closing spring locating nut and locating rod B | 12~47 |
| 6 | Closing solenoid travel C | 5.0~5.5 | Circuit breaker in open state |
| Trigger and release gap D | 2.0~2.5 |
| C-D | 3.0~3.5 |
|
|
| 7 | Split solenoid travel F | 2.8~3.2 | Circuit breaker in closed state |
| Trigger and release gap G | 0.8~1.2 |
| F-G | 1.6~2.4 |
1.4.3 Control loop and auxiliary loop parameters in Table 3
| serial number | Item | unit (of measure) | Remarks |
| 1 | Switching and closing circuit control voltage | v | DC220 | DC110 |
| 2 | Switching coil current | A | 小于2.3 | 5.5 |
| 3 | Closing coil current | A | 2 | 3.5 |
| 4 | Energy Storage Motors | Supply Voltage | V | DC220(110)/AC220 |
| Normal operating voltage range | - | 65%~110% |
| power (output) | W | 450 |
| Energy storage time | s | ≤15 |
| number of revolutions per minute | r.p.m | 750 |
| amps | A | 3.6 | 5.5 |
| 5 | Heater has lighting circuit voltage | V | AC220 |
| 6 | Heater power | W | 100 |
1.4.4 SF6 gas pressure parameters are given in Table 4 (20°C).
| serial number | Item | unit (of measure) | Remarks |
| 1 | Rated inflation pressure | Mpa | 0.6 |
| 2 | Charge Air Alarm Pressure | 0.55±0.03 |
| 3 | lockout pressure | 0.50±0.03 |
Product structure and principle
2.1 General structure and principle
The overall structure of this product adopts self-energizing arc extinguishing chamber, each pole is a single column with a single interrupter, referred to as pole. Each circuit breaker consists of three poles, and three poles are installed on the same frame, operated by a spring mechanism, mechanical linkage between the three poles. The upper part of the product is the arc extinguishing chamber ceramic sleeve, the middle part is the pillar ceramic sleeve and frame, the mechanism box is centered and suspended in the lower part of the frame, the mechanism box is equipped with a spring-operated mechanism, the electrical control part, the mechanism's output tie rod is connected with the actuating arm of B. The SF6 gas density controller is installed in the front side of the frame, and both ends of the frame are supported by the pillars.
The control principle is categorized into two schemes: single-split circuit and double-split circuit. Annex III: Electrical Control Schematic and Annex IV: Secondary Wiring Diagrams are for reference and are based on the double-split circuit. The engineering agreement shall prevail, and the corresponding electrical control schematic and secondary wiring diagrams will be supplied randomly.
1.Single-pole circuit breakers (poles) 2.frames 3. nameplates 4. density controllers
5.gas fills and inspection ports 6. mechanism boxes 7. poles Figure 1 Overall structure of circuit breaker
Figure 1 Overall structure of circuit breaker
2.1.1 Single-pole circuit breakers
2.1.1.1 The structure of the single-pole circuit breaker is shown in Figure 2
Packing list - One copy
Electrical control principle diagram, secondary wiring diagram - One copy
Product qualification certificate - One copy
Factory inspection report of the product - One copy
On-site installation inspection test report (see Appendix I, to be filled) - Two copies
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