RU2597881C1 - Synchronous generator - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to electrical engineering, particularly to design of synchronous self-excited brushless generators for prolonged operation in power plants as a source of independent, as well as emergency and/or backup power supply. Synchronous generator comprises stator with winding, rotor, exciter, enclosed in housing and electrically connected to the generator equipment of systems of excitation, control and correction, terminal clamps and a connector for connection of external generator control devices installed under detachable protective casing on the chassis, fixed on the stator of the exciter. Chassis is made in u-shape to form separate sites for installation of equipment. Besides, at least at one of the chassis sites a system of parallel operation and/or safety system for identifying the type of accidents can be installed.

EFFECT: technical result-increasing compactness, maintainability and reduction of overall dimensions.

1 cl, 3 dwg

Description

The invention relates to electrical engineering, in particular to the design of self-excited synchronous brushless generators designed for continuous operation in power plants as a source of autonomous and emergency and / or backup power supply.

Synchronous generators have a brushless excitation, regulation and correction system and, as options, a built-in parallel operation system, a protection system and recognition of the type of accident and are designed for continuous operation in stationary and mobile electrical installations as a three-phase current source, as well as for parallel operation with industrial network and other generators (power units, power plants), and / or autonomous power supply to consumers requiring high quality electric energy, and akzhe quickly enter into force and the load receiving.

The prior art synchronous generators BG and BGO, developed by specialists of the Baranchinsky Electromechanical Plant Limited Liability Company, in which the equipment of the excitation, regulation and correction system, terminal clamps and connectors for external control are located in the control box, mounted at the top of the generator housing, are known (Catalog of Baranchinsky Electromechanical Plant LLC), and the pathogen - the pathogen stator and the pathogen rotor with rotating rectifiers - in the rear end torus.

A known synchronous brushless generator with self-excitation (patent No. 2230416, IPC Н02Н 7/06, 2004.06.10), containing the main stator winding, rotor, exciter, enclosed in the housing, equipment of the excitation, regulation and correction system, parallel operation system, protection system and fault recognition and terminal clamps and control connectors.

This design is used in synchronous brushless generators with self-excitation produced by Open Joint-Stock Company Elektroagregat, Kursk (catalog of Elektrogagreg OJSC), in which all of the above components are located in a separate control box mounted on the end of the generator housing, and the pathogen the pathogen stator and the pathogen rotor with rotating rectifiers are also in the rear end of the generator, while the equipment in the control box is located around the pathogen stator.

Such an arrangement, including a number of additional functions (options), frees up space above the generator for the equipment of the power plant and power plant and allows maintenance only from the end, which facilitates electrical installation and operation (maintenance, diagnostics, troubleshooting), however, this design has several disadvantages, namely, a relatively high level of vibration on the upper components of the control box and, in particular, on the circuit board of the excitation, regulation and correction system and the protection and recognition system accident type, as well as an insufficiently aesthetic appearance of the generator with the end-face placement of the control box.

Known for the closest set of essential features to the claimed technical solution is a synchronous generator, comprising a housing and a control box mounted on the upper part of the generator housing, comprising a base with at least one mounting pad for mounting at least one electronic unit and, according to at least one output for connecting an external source (patent WO 2014/002071, IPC Н02К 5/22, Н02К, 11/00, 2014.01.03). According to the invention, mounting pads for mounting electronic blocks and terminals for connecting an external source are installed in a control box, which can be located, for example, at the top of the synchronous generator housing, on one or more of its sides, or at the rear. We take it for the closest analogue.

The disadvantages of this device include the following:

- whatever the position of the control box in the known solutions, access to the equipment installed inside it should be possible with maximum ease to carry out adjustment of electronic units, quick troubleshooting, replacement, if necessary, of any element. However, the above construction does not provide such ease of access. In addition, the well-known technical solution does not provide for the placement of the above options inside the control box: a parallel operation system and a protection and recognition system for the type of accident. If necessary, a parallel operation system and a protection and recognition system for the type of accidents are installed in the control panel of an electric plant or power plant.

When developing the proposed design of the synchronous generator, the task was to create a unified design that provides ease of installation and dismantling, ease of checking and adjustment, increasing functionality and reducing material and labor costs.

The technical result to which the invention is directed is to increase compactness, ease of use, maintainability and reduce the size and weight of the synchronous generator.

To solve this problem, a synchronous generator is proposed, containing a stator with a winding, a rotor, a pathogen enclosed in a housing, and excitation, regulation and correction system equipment electrically connected to the generator, terminal clamps and a connector for connecting external generator control devices, in which the excitation system equipment , regulation and correction, the terminal clamps and the connector are installed under the removable protective cover on the chassis, mounted on the exciter stator and made U-shaped to form separate areas for their installation.

According to the second variant of the formula, at least one of the platforms of the chassis can be placed a system of parallel operation and / or a protection system and recognition of the type of accident.

The invention is industrially applicable, as it is based on an original layout solution that does not require complex manufacturing techniques.

The proposed synchronous generator has a higher level of quality, because Systems (options) built into the generator are more efficient than systems of the same functional orientation installed in cabinets with electrical equipment. Thus, a parallel operation system, the main component of which is a parallel operation transformer, is built directly for low and medium power generators directly into the generator output system, and for high power generators (from 200 kW) into one of the parallel output branches (connections), which reduces the size transformer parallel operation. The protection system is built with minimum wire lengths from sensors to the electronic unit of the system and the absence of additional connectors in their circuits. The protection system eliminates the use of bulky and ineffective devices of the relay-contactor protection system and microprocessor protection using various current sensors with the passage of rated current or short-circuit current through these devices.

The invention is illustrated by the following drawings.

In FIG. 1 shows a general view of a cut-out synchronous generator.

In FIG. 2 shows a general view of a synchronous generator without a removable casing.

In FIG. 3 shows a general view of a synchronous generator with a removable casing.

The synchronous generator (see Fig. 1) contains a stator 2 with a winding enclosed in a housing 1, a rotor 3, a pathogen stator 4, a pathogen rotor 5, electrically connected to a synchronous generator: excitation, regulation and correction system equipment 6, terminal clamps 7 and a connector 8 for connecting external generator control devices. The equipment of the excitation, regulation and correction system 6, terminal clamps 7 and connector 8 are installed on the chassis 9, mounted on the stator of the pathogen 4 (see Fig. 1 and 2). The chassis 9 is made in a U-shape with the formation of individual sites 10 (see Fig. 1 and 2) and closed with a removable protective casing 11 (see Fig. 1 and 3).

In one embodiment of the invention, at least one of the platforms 10 of the chassis 9 may have a parallel system 12 and / or a protection and recognition system for the type of accident 13 (see Fig. 2).

The synchronous generator operates as follows.

The synchronous generator operates on the principle of electromagnetic induction. The synchronous generator consists of two main parts: a fixed stator and a rotor rotating inside the stator. The rotor winding of the synchronous generator is powered by a rectifier rotating with the rotor. The rectifier, in turn, receives power from the rotor of the pathogen, having a three-phase winding, excited from the stator of the pathogen, the excitation current of which is regulated automatically by the excitation, regulation and correction system.

The electronic system of protection and recognition of the type of accidents provides protection for the consumer and the generator itself from emergency modes of its operation, remote shutdown of the automatic load switch and recognition and indication of the type of accident by which the generator excitation was switched off. The equipment of the excitation, regulation and correction system is located on the chassis. The chassis, made in a U-shape with the formation of separate sites, is installed on the stator of the pathogen and is closed by a casing. To perform installation and dismantling of installed equipment, as well as maintenance during operation (check and adjustment), the casing is removed and the consumer (operator) easily gets access to all control equipment, for example, to carry out adjustment of the voltage regulator, quick troubleshooting, and other work, which, in turn, significantly improves maintainability, diagnostics and troubleshooting.

In one embodiment of the synchronous generator, at least one of the chassis platforms has a parallel protection system and a type of accident protection and recognition system, which are usually installed in the control panel of an electric plant or power plant.

The design of the inventive synchronous generator in comparison with the prototype design allows, without increasing the dimension along the axial length, to reduce the height dimension, which, in turn, makes it possible to integrate the synchronous generator (as part of the diesel generator) into various systems, stations, complexes. Additional options built into the generator allow to obtain greater control efficiency while reducing the size, weight and cost of these systems.

The inventive device experimentally confirmed the possibility of obtaining the proposed result.

Claims (2)

1. Synchronous generator, containing a stator with a winding, a rotor, an exciter, enclosed in a housing, and electrically connected to the generator equipment of the regulation and correction excitation system, terminal clamps and a connector for connecting external generator control devices, characterized in that the equipment of the excitation and regulation system and corrections, the terminal clamps and the connector are installed under the removable protective cover on the chassis, mounted on the exciter stator and made in a U-shape with the formation of individual platforms for their installation. 2. Synchronous generator according to claim 1, characterized in that at least on one of the platforms of the chassis there is a parallel operation system and / or protection system and recognition of the type of accidents.

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