CN216312682U - Reactive compensation arrangement structure based on intelligent capacitor - Google Patents

Abstract

The utility model belongs to the technical field of reactive power compensation devices of capacitors, and provides a reactive power compensation arrangement structure based on an intelligent capacitor, which comprises the following components: the single-sided outer cabinet is provided with an opening on one side and is connected with a cabinet door in a sliding manner, the double-sided inner cabinet is rotatably connected inside the single-sided outer cabinet, and the two sides of the double-sided inner cabinet are symmetrical and are provided with openings and used for arranging and installing corresponding capacitor compensation components; the inside both ends of one side of cabinet are provided with reactor chamber and condenser chamber respectively in the two-sided, and reactor chamber and condenser intracavity portion are used for installing some electrical components respectively. The utility model has the advantages that: the rotary operation is convenient for replacement and maintenance, and the space is sufficient.

Description

Reactive compensation arrangement structure based on intelligent capacitor

Technical Field

The utility model belongs to the technical field of reactive power compensation devices of capacitors, and particularly relates to a reactive power compensation arrangement structure based on an intelligent capacitor.

Background

The parallel reactive power compensation device of the capacitor is an important device and an effective means for improving the power factor of a power system, reducing the line loss and saving electric energy. General condenser compensation arrangement adopts two cabinet mechanisms more, and is mostly the form that distributes from top to bottom moreover, because the too big excessive height of external shape of condenser cabinet, when installing and maintaining, the operation degree of difficulty is higher, and inside components and parts of general condenser are installed more in same space moreover, and adjacent nearer each other, and the security is lower, need design the condenser compensation arrangement structure that can solve above-mentioned problem to this.

SUMMERY OF THE UTILITY MODEL

An object of an embodiment of the present invention is to provide a reactive compensation arrangement based on a smart capacitor, aiming at solving the above-mentioned problems.

The utility model is realized in this way, the reactive compensation arrangement structure based on intelligent capacitor includes: the single-sided outer cabinet is provided with an opening on one side and is connected with a cabinet door in a sliding manner, the double-sided inner cabinet is rotatably connected inside the single-sided outer cabinet, and the two sides of the double-sided inner cabinet are symmetrical and are provided with openings; and the two ends inside one side of the double-sided inner cabinet are respectively provided with a reactor cavity and a capacitor cavity.

Preferably, the opening side of the single-sided outer cabinet is provided with transverse slide rails up and down, the inner side of the cabinet door corresponding to the slide rails is fixedly provided with slide bars, and the slide bars are connected in the slide rails in a sliding manner.

Preferably, the upper top and the lower top of the double-sided inner cabinet are fixedly provided with fixed columns, the fixed columns are rotatably sleeved with rotating rods towards one end inside the single-sided outer cabinet, the tail ends of the rotating rods are fixedly provided with rotating columns, the tail ends of the rotating columns are rotatably connected to rotating grooves formed in the upper inner side wall and the lower inner side wall of the single-sided outer cabinet, the upper side wall and the lower side wall of the end part of the double-sided inner cabinet, which is far away from one side of the rotating grooves, are fixedly provided with sliding blocks, and sliding grooves are formed in the upper side wall and the lower side wall of the single-sided outer cabinet, which correspond to the positions of the sliding blocks.

Preferably, the reactor cavity comprises a reactor, a lightning arrester and an isolating switch, the capacitor cavity comprises a capacitor and a current-limiting fuse, and all electrical components in the reactor cavity and the capacitor cavity are electrically connected by adopting built-in wires; wherein the condenser is provided with three groups side by side, and its top is connected with current-limiting fuse respectively, the condenser is connected to the reactor towards reactor intracavity inside, and one side of reactor is connected with the arrester, and reactor and arrester are connected with the isolator of fixing on reactor intracavity wall simultaneously.

According to the reactive compensation arrangement structure based on the intelligent capacitor, the double-sided inner cabinet capable of rotating 360 degrees is arranged in the single-sided outer cabinet, the reactor cavities and the capacitor cavities are symmetrically formed in the two sides of the double-sided inner cabinet, reactive compensation operation is guaranteed, and meanwhile, the electric parts in the reactor cavities and the capacitor cavities in the two sides of the double-sided inner cabinet can be maintained and replaced conveniently by adjusting the rotation of the double-sided inner cabinet; the utility model has the advantages that: the rotary operation is convenient for replacement and maintenance, and the space is sufficient.

Drawings

Fig. 1 is an external perspective view of a reactive compensation arrangement based on smart capacitors.

Fig. 2 is a schematic front view of a reactive compensation arrangement based on smart capacitors.

Fig. 3 is a schematic structural diagram of the interior of a main view in a reactive compensation arrangement based on smart capacitors.

FIG. 4 is an enlarged schematic view of A1 in FIG. 3;

in the drawings: the device comprises a single-sided outer cabinet 10, a cabinet door 11, a sliding rail 12, a double-sided inner cabinet 13, a fixed column 14, a rotating rod 15, a reactor cavity 16, a capacitor cavity 17, a sliding groove 18, a sliding block 19, a rotating column 20, a rotating groove 22, a capacitor 23, a current-limiting fuse 24, a reactor 25, a lightning arrester 26, an isolating switch 27 and a built-in wire 28.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1-2, a structure diagram of a reactive compensation arrangement structure based on a smart capacitor provided in an embodiment of the present invention includes: the single-sided outer cabinet 10 is provided with an opening on one side, the single-sided outer cabinet 10 is connected with a cabinet door 11 in a sliding mode, a double-sided inner cabinet 13 is rotatably connected inside the single-sided outer cabinet 10, and two sides of the double-sided inner cabinet 13 are symmetrical and are provided with openings for arranging and installing corresponding capacitor compensation components; two ends of the inside of one side of the double-sided inner cabinet 13 are respectively provided with a reactor cavity 16 and a capacitor cavity 17, and the reactor cavity 16 and the capacitor cavity 17 are respectively used for installing some electrical components; the upper part and the lower part of the opening side of the single-sided outer cabinet 10 are provided with transverse sliding rails 12, the inner side of the cabinet door 11 corresponding to the positions of the sliding rails 12 is fixedly provided with a sliding rod, and the sliding rod is connected in the sliding rails 12 in a sliding manner so as to be convenient for sliding opening and closing between the cabinet door 11 and the single-sided outer cabinet 10;

referring to fig. 3-4, a fixed column 14 is fixedly installed on the top and bottom of the double-sided inner cabinet 13, one end of the fixed column 14 facing the inside of the single-sided outer cabinet 10 is rotatably sleeved with a rotating rod 15, a rotating column 20 is fixedly installed on the end of the rotating rod 15, the end of the rotating column 20 is rotatably connected to a rotating groove 22 formed in the upper and lower inner side walls of the single-sided outer cabinet 10, a sliding block 19 is fixedly installed on the upper and lower side walls of the end portion of the double-sided inner cabinet 13 far away from the rotating groove 22, a sliding groove 18 is formed in the upper and lower side walls of the single-sided outer cabinet 10 corresponding to the position of the sliding block 19, by rotating the double-sided inner cabinet 13 and the sliding block 19 sliding in the sliding groove 18, then under the rotating connection of the rotating rod 15 connecting the fixed column 14 with one end of the inside of the single-sided outer cabinet 10, the 360-sided inner cabinet 13 is rotated in the inside of the single-sided outer cabinet 10, and one side of the double-sided inner cabinet 13 is selectively adjusted to face the outside of the single-sided outer cabinet 10, the replacement or maintenance of the electric elements inside the double-sided inner cabinet 13 is facilitated, so that the installation space of the electric components on the double-sided inner cabinet 13 is enlarged to keep the whole installation to have sufficient space on the premise of reducing the whole height of the single-sided outer cabinet 10.

Reactor chamber 16 is inside including reactor 25, arrester 26 and isolator 27, capacitor chamber 17 is inside including condenser 23, parts such as current-limiting fuse 24, adopt built-in wire 28 to carry out electric connection between each electric parts in reactor chamber 16 and capacitor chamber 17, wherein condenser 23 is provided with three groups side by side, and its top is connected with current-limiting fuse 24 respectively, condenser 23 is connected to reactor 25 towards reactor chamber 16 internal connection simultaneously, one side of reactor 25 is connected with arrester 26, reactor 25 and arrester 26 are connected with isolator 27 of fixing on reactor chamber 16 inner wall simultaneously, through isolator 27 control dwang 15 and the operation of the inside electric parts in reactor chamber 16.

The above-described embodiments of the present invention provide a reactive compensation arrangement based on smart capacitors which, in use, corresponding electrical components are first installed in the reactor chamber 16 and the capacitor chamber 17 inside both sides of the double-sided inner cabinet 13, namely a reactor 25, a lightning arrester 26 and a disconnector 27 etc. are installed in the reactor chamber 16, a capacitor 23, a current limiting fuse 24, and the like are mounted in the capacitor chamber 17, and the reactor chamber 16 and the electric components inside the capacitor chamber 17 are connected to each other, then the compensation operation of the capacitor is carried out by the joint operation, and then when the electric components in the double-sided inner cabinet 13 are maintained or replaced again, the sliding block 19 is driven to slide in the sliding groove 18 by rotating the double-sided inner cabinet 13, then under the rotating connection of the rotating rod 15, the double-sided inner cabinet 13 is controlled to rotate, and then the electric parts inside two sides of the double-sided inner cabinet 13 are processed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. Reactive compensation arrangement based on intelligent condenser, its characterized in that includes: the single-sided outer cabinet is provided with an opening on one side and is connected with a cabinet door in a sliding manner, the double-sided inner cabinet is rotatably connected inside the single-sided outer cabinet, and the two sides of the double-sided inner cabinet are symmetrical and are provided with openings; and the two ends inside one side of the double-sided inner cabinet are respectively provided with a reactor cavity and a capacitor cavity.

2. The reactive compensation arrangement structure based on the intelligent capacitor as claimed in claim 1, wherein the open side of the single-sided outer cabinet is vertically provided with a transverse slide rail, the inner side of the cabinet door corresponding to the slide rail is fixedly provided with a slide bar, and the slide bar is slidably connected in the slide rail.

3. The reactive compensation arrangement structure based on the intelligent capacitor as claimed in claim 1, wherein the upper and lower top portions of the double-sided inner cabinet are fixedly provided with a fixed column, one end of the fixed column facing the inside of the single-sided outer cabinet is rotatably sleeved with a rotating rod, the end of the rotating rod is fixedly provided with a rotating column, the end of the rotating column is rotatably connected to a rotating groove formed in the upper and lower inner side walls of the single-sided outer cabinet, the upper and lower side walls of the end portion of the double-sided inner cabinet on one side far away from the rotating groove are fixedly provided with a sliding block, and sliding grooves are formed in the upper and lower side walls of the single-sided outer cabinet corresponding to the position of the sliding block.

4. A reactive compensation arrangement based on intelligent capacitor according to claim 1, characterized in that reactor, lightning arrester and isolating switch are included in the reactor cavity, and capacitor, current limiting fuse are included in the capacitor cavity.

5. A smart capacitor-based reactive compensation arrangement according to claim 4, wherein the reactor cavity and the various electrical components inside the capacitor cavity are electrically connected using built-in wires; wherein the condenser is provided with three groups side by side, and its top is connected with current-limiting fuse respectively, the condenser is connected to the reactor towards reactor intracavity inside, and one side of reactor is connected with the arrester, and reactor and arrester are connected with the isolator of fixing on reactor intracavity wall simultaneously.

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