CN205692695U - A kind of lattice type anti-seismic power capacitor framework, fixed mount, tower and device - Google Patents
A kind of lattice type anti-seismic power capacitor framework, fixed mount, tower and device Download PDFInfo
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- CN205692695U CN205692695U CN201620695658.3U CN201620695658U CN205692695U CN 205692695 U CN205692695 U CN 205692695U CN 201620695658 U CN201620695658 U CN 201620695658U CN 205692695 U CN205692695 U CN 205692695U
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- power capacitor
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Abstract
This utility model relates to a kind of lattice type anti-seismic power capacitor framework, fixed mount, tower and device, its framework includes the first capacitor framework and the second capacitor framework, first capacitor framework and the second capacitor framework all include underframe, power capacitor bank and two side frames, and power capacitor bank is placed in the upper end of underframe;Silicane rubber plate it is provided with between power capacitor bank and underframe;Two side frames fix the both sides being placed in power capacitor bank, and the bottom of two side frames is fixed with underframe and is connected;The front side of power capacitor bank upper end and rear side are provided with first and fix steelframe, and two first two ends fixing steelframe are all connected by T-shaped plate is fixing with the upper end of two side frames;Second two ends fixing steelframe are fixed with the upper end of two side frames respectively and are connected.This utility model stabilized structure, shock resistance are strong, can be verified by 9 degree of shock tests, and safety is high;Less, in-site installation and maintenance workload are little, low cost in simple in construction, occupation of land simultaneously.
Description
Technical field
This utility model relates to capacitor technology field, particularly to a kind of lattice type anti-seismic power capacitor framework, admittedly
Determine frame, tower and device.
Background technology
Along with the fast development of extra-high voltage AC and DC technology of transmission of electricity, in order to provide reactive power compensation, strengthen the steady of system
Qualitative, reduce via net loss and improve quality of voltage, need to use substantial amounts of high-voltage capacitor device.Multiple stage capacitor is through string
And after coupling, be directly connected on AC and DC bus, these capacitor devices are required for using graded insulation, namely every two-layer
Must separate with insulator between capacitor and between capacitor and ground.And the rating operating voltage of capacitor device, specified appearance
Amount and creep distance require the highest, and the number of plies of capacitor device is a lot, and the height of pylon is the highest.Ultra-high voltage AC transmission engineering is used
The height of 110kV brace type capacitor pylon just surpasses 7m;Single tower weight reaches 16 tons;Ultra-high voltage AC transmission engineering is used
The height of 500kV brace type capacitor pylon just surpasses 9m;Single tower weight reaches 24 tons.And to capacitor pylon antidetonation shadow
Ringing height and weight that two maximum parameters are pylons, therefore the anti-seismic problem ratio of capacitor pylon is more prominent, needs to do deeply
Enter research.
China is positioned at the place that several plates such as Pacific Rim plate, eurasian plate, Indian Ocean plate connect, at least
495 Earthquake Fault Zones, Seismicity frequency is high, intensity is big, focus is shallow, and distribution is wide, is the country that an earthquake calamity is serious.Extra-high
The design of pressure AC and DC power transmission engineering capacitor device pylon must take into anti-seismic problem, and according to GB GB50260, " electric power sets
Execute earthquake resistant design code " regulation: seismic fortification intensity improve 1 degree set up defences.Earthquake intensity when geographical position residing for transformer station
When being 8 degree, the design of extra-high voltage AC and DC power transmission engineering capacitor device pylon needs to set up defences by 9 degree.
In order to solve extra-high voltage AC and DC 9 degree of high anti-seismic problems of power transmission engineering capacitor device pylon, use suspension knot
Structure and leaning tower structure can be effectively improved the shock resistance of capacitor pylon, but face that cost is the highest, floor space big, produce and add
Work difficulty is big, install complicated, maintenance and the shortcoming such as difficult in maintenance.Along with the maturation of high strength insulator technology, capacitor device
More employing upright support formula pylon structure.But the shock resistance of upright support formula pylon structure is poor, design was upright in the past
Brace type pylon structure cannot meet 9 degree of high anti-seismic, it is necessary to solves this technical problem.
Utility model content
This utility model provides a kind of lattice type anti-seismic power capacitor framework, fixed mount, tower and device, and its structure is steady
Gu, shock resistance strong, can be verified by 9 degree shock tests, meet the regional of 9 degree Seismic Design Requirements and use, safety height;With
Time simple in construction, low to manufacturing technique requirent, labor content is little, low cost;The attachment structure of each parts is simple, in-site installation
Little with maintenance workload, risk is little, low cost.
The technical scheme that this utility model solves above-mentioned technical problem is as follows: a kind of lattice type anti-seismic power capacitor frame
Frame, including the first capacitor framework and the second capacitor framework, described second capacitor framework and described first capacitor framework
Vertically stacking, described first capacitor framework and the second capacitor framework all include underframe, power capacitor bank and two side frames,
Described power capacitor bank is placed in the upper end of described underframe;It is provided with silicone rubber between described power capacitor bank and described underframe
Plate;Two described side frames fix the both sides being placed in described power capacitor bank, and the bottom of two described side frames and described underframe
Fixing connection;The front side of described power capacitor bank upper end and rear side are provided with first and fix steelframe, and described first fixes steel
The two ends of frame are all connected by T-shaped plate is fixing with the upper end of two described side frames;Often organize on front side of described power capacitor bank and after
The first of side is fixed and is provided with second between steelframe and fixes steelframe, described second fix the two ends of steelframe respectively with described in two
The upper end of side frame is fixing to be connected.
The beneficial effects of the utility model are: underframe, side frame, first fix steelframe and second fix steelframe build framework
Power capacitor bank carrying out parcel firm, two first can be made to fix steelframe for T-shaped plate and two side frames connect more firm, then
Person is connected by the bottom of two side frames and underframe are fixing, mutually promotes and prevents two side frames from tilting, promotes the antidetonation of this framework
Ability;Silicane rubber plate can provide cushioning effect for power capacitor bank, improves the shock resistance of this framework, effectively protects electric power
Capacitor banks;And this frame structure is simple, low to manufacturing technique requirent, labor content is little;Each parts in capacitor device
Attachment structure is simple, and in-site installation and maintenance workload are little, and risk is little, low cost.
On the basis of technique scheme, this utility model can also do following improvement.
Further, steelframe all companies of being screwed are fixed with two described first in the upper end of described power capacitor bank
Connect;The front side of described power capacitor bank lower end and rear side are screwed even with the front side of described underframe and rear side respectively
Connect.
Scheme provides the benefit that further: power capacitor bank and first fixes steelframe and the fixing connection of underframe so that
Power capacitor bank is connected more firm with this framework, promotes the shock resistance of this device.
Further, multiple corners of the underframe of described first capacitor framework are all fixedly installed the first steel strut;Institute
The first insulation column all it is fixedly installed on multiple corners of the underframe stating the second capacitor framework.
Scheme provides the benefit that further: can be promoted the firm work of support of the first capacitor framework by the first steel strut
With;It is firm that first insulation column can carry out insulation to the second capacitor framework, ensures the antidetonation insulating effect of this framework.
Further, described first capacitor framework is two, and two described first capacitor frameworks fix vertical superposition structure
Build up the first power capacitor framework, and the fixing connection of the first steel strut of two described first capacitor framework correspondence positions;
Described second capacitor framework is two, and a described second capacitor framework is fixed and is placed in a described first capacitor framework
On the first insulation column of being built on the second power capacitor framework, and described second capacitor framework and described first electric capacity
On device framework, the first steel strut of correspondence position is fixing connects.
Scheme provides the benefit that further: fix vertical superposition and the second capacitor by two the first capacitor frameworks
Framework is fixed on the first capacitor framework so that the first power capacitor framework and the second power capacitor framework take up an area relatively
Less, advantage of lower cost, cost performance is high, can reduce AC and DC engineering construction cost, good in economic efficiency.
Further, at described first power capacitor framework and the second power capacitor framework its first steel strut corresponding
Lower end is all fixedly installed the second steel strut.
Scheme provides the benefit that further: promote the first power capacitor framework and the second electric power by the second steel strut
The firm effect of the support of capacitor framework.
Another technical scheme that this utility model solves above-mentioned technical problem is as follows: a kind of lattice type anti-seismic power capacitor
Fixed mount, including a kind of lattice type anti-seismic power capacitor framework, described first power capacitor framework is fixing is placed in described the
The upper end of two power capacitor frameworks.
The beneficial effects of the utility model are: the first power capacitor framework is fixed and is placed in the second power capacitor framework
Upper end so that this plant area is relatively fewer, advantage of lower cost, cost performance is high, can reduce AC and DC engineering construction
This, good in economic efficiency;This device passes through steel structure, the first steel strut and the first insulation column in succession, can promote the anti-of this device
Shake and insulating capacity, this device can be by degree shock test checking, the area use of satisfaction Seismic Design Requirements, safety
High.
Further, described second power capacitor framework is provided with two, and two described second power capacitor frameworks erect
Straight superposition, and two described second power capacitor frameworks are placed in the lower end of described first power capacitor framework.
Scheme provides the benefit that further: this plant area is relatively fewer, advantage of lower cost, and cost performance is high, permissible
Reduce AC and DC engineering construction cost, good in economic efficiency;This device passes through steel structure, the first steel strut and the first insulation column
In succession, can promote antidetonation and the insulating capacity of this device, safety is high.
Another technical scheme that this utility model solves above-mentioned technical problem is as follows: a kind of lattice type anti-seismic power capacitor
Tower, including a kind of lattice type anti-seismic power capacitor fixed mount and multiple second insulation column, multiple described second insulation columns
The lower end of corresponding multiple second steel struts being in bottom described a kind of lattice type anti-seismic power capacitor fixed mount respectively.
The beneficial effects of the utility model are: can be promoted the insulation energy of this power capacitor tower by the second insulation column
Power, guarantees safety;This power capacitor tower can be verified by degree shock test simultaneously, the area of satisfaction Seismic Design Requirements
Using, safety is high.
Further, the lower end of multiple described second insulation columns is all fixedly installed footing steel plate, and described footing steel plate leads to
Cross foundation bolt to be fixedly connected with the ground.
Further scheme provides the benefit that: what footing steel plate can strengthen that this power capacitor tower is connected with ground consolidates
Property, promote shock resistance.
Another technical scheme that this utility model solves above-mentioned technical problem is as follows: a kind of lattice type anti-seismic power capacitor
Device, including antidetonation power capacitor tower, described antidetonation power capacitor tower is provided with two, two described antidetonation electric capacitors
Device tower is connected by bus.
The beneficial effects of the utility model are: native system takes up an area relatively fewer, advantage of lower cost, and cost performance is high, permissible
Reduce AC and DC engineering construction cost, good in economic efficiency;Can be verified by 9 degree of shock tests, meet 9 degree of Seismic Design Requirements
Area use, safety is high.
Accompanying drawing explanation
Fig. 1 is the front view of the first capacitor framework of this utility model a kind of lattice type anti-seismic power capacitor framework;
Fig. 2 is the front view of the second capacitor framework of this utility model a kind of lattice type anti-seismic power capacitor framework;
Fig. 3 is the front view of underframe;
Fig. 4 is the front view of side frame;
Fig. 5 is the first side view fixing steelframe;
Fig. 6 is the second side view fixing steelframe;
Fig. 7 is the front view of the first power capacitor framework;
Fig. 8 is the front view of the second power capacitor framework;
Fig. 9 is the front view of this utility model a kind of lattice type anti-seismic power capacitor fixed mount;
Figure 10 is the front view of this utility model a kind of lattice type anti-seismic power capacitor tower;
Figure 11 is the front view of this utility model a kind of lattice type anti-seismic power capacitor apparatus;
Figure 12 is the side view of Figure 11;
Figure 13 is the top view of Figure 11.
In accompanying drawing, the list of parts representated by each label is as follows:
1, the first capacitor framework, the 2, second capacitor framework, 3, underframe, 4, power capacitor bank, 5, side frame, 6, silicon rubber
Offset plate, 7, first fixes steelframe, and 8, T-shaped plate, 9, second fixes steelframe, the 10, first steel strut, the 11, first insulation column, 12,
First power capacitor framework, the 13, second power capacitor framework, the 14, second steel strut, 15, a kind of lattice type anti-seismic electric power
Capacitor fixed mount, the 16, second insulation column, 17, footing steel plate, 18, antidetonation power capacitor tower, 19, bus.
Detailed description of the invention
Being described principle of the present utility model and feature below in conjunction with accompanying drawing, example is served only for explaining this practicality
Novel, it is not intended to limit scope of the present utility model.
As shown in Fig. 1 to Fig. 6, Figure 13, a kind of lattice type anti-seismic power capacitor framework, including the first capacitor framework 1
With the second capacitor framework 2, described second capacitor framework 2 and the described first vertical stacking of capacitor framework 1, described first electricity
Container frame 1 and the second capacitor framework 2 all include underframe 3, power capacitor bank 4 and two side frames 5, described power capacitor
Group 4 is placed in the upper end of described underframe 3;It is provided with silicane rubber plate 6 between described power capacitor bank 4 and described underframe 3;Two institutes
State the fixing both sides being placed in described power capacitor bank 4 of side frame 5, and the bottom of two described side frames 5 is fixing even with described underframe 3
Connect;The front side of described power capacitor bank 4 upper end and rear side are provided with first and fix steelframe 7, and described first fixes steelframe 7
Two ends are all connected by T-shaped plate 8 is fixing with the upper end of two described side frames 5;Often organize on front side of described power capacitor bank 4 and rear side
First fix and be provided with second between steelframe 7 and fix steelframe 9, described second fix the two ends of steelframe 9 respectively with two institutes
State the fixing connection in upper end of side frame 5;
Underframe 3, side frame 5, first fix steelframe 7 and second fix steelframe 9 build framework power capacitor bank is carried out
Parcel is firm, and T-shaped plate 8 can make two first to fix steelframe 7 to be connected more firm with two side frames 5, furthermore passes through two side frames 5
Bottom and underframe 3 fixing be connected, mutually promote and prevent two side frames 5 from tilting, promote the shock resistance of this framework;Silicane rubber plate
6 can provide cushioning effect for power capacitor bank, improve the shock resistance of this framework, effectively protect power capacitor bank;And
This frame structure is simple, low to manufacturing technique requirent, and labor content is little;The attachment structure letter of each parts in capacitor device
Single, in-site installation and maintenance workload are little, and risk is little, low cost.
Preferably, steelframe 7 all companies of being screwed are fixed with two described first in the upper end of described power capacitor bank 4
Connect;The front side of described power capacitor bank 4 lower end and rear side are screwed even with the front side of described underframe 3 and rear side respectively
Connect;Power capacitor bank 4 fixes steelframe 7 with first and underframe 3 is fixed and is connected so that power capacitor bank 4 is connected with this framework
More firm, promote the shock resistance of this device.
Preferably, multiple corners of the underframe 3 of described first capacitor framework 1 are all fixedly installed the first steel strut
10;The first insulation column 11 all it is fixedly installed on multiple corners of the underframe 3 of described second capacitor framework 2;By first
Steel strut 10 can promote the firm effect of support of the first capacitor framework 1;First insulation column 11 can be to the second capacitor framework 2
Carry out insulation firm, ensure the antidetonation insulating effect of this framework.
Preferably, as shown in Figure 7 and Figure 8, described first capacitor framework 1 is two, two described first capacitor frames
Frame 1 is fixed vertical superposition and is built into the first power capacitor framework 12, and two described first capacitor framework 1 correspondence positions
First steel strut 10 is fixing to be connected;Described second capacitor framework 2 is two, and a described second capacitor framework 2 is fixed and put
It is built on the second power capacitor framework 13, and described second capacitor framework 2 on a described first capacitor framework 1
The first insulation column 11 be connected with on described first capacitor framework 1, the first steel strut 10 of correspondence position is fixing;By two
Individual first capacitor framework 1 fixes vertical superposition and the second capacitor framework 2 is fixed on the first capacitor framework 1 so that first
Power capacitor framework 12 and the second power capacitor framework 13 take up an area relatively fewer, advantage of lower cost, and cost performance is high, permissible
Reduce AC and DC engineering construction cost, good in economic efficiency.
Preferably, described first power capacitor framework 12 and the second power capacitor framework 13 its first steel strut corresponding
Lower end at 10 is all fixedly installed the second steel strut 14;The first power capacitor framework 12 He is promoted by the second steel strut 14
The firm effect of the support of the second power capacitor framework 13.
As it is shown in figure 9, a kind of lattice type anti-seismic power capacitor fixed mount, including a kind of lattice type anti-seismic power capacitor
Framework, the described first fixing upper end being placed in described second power capacitor framework 13 of power capacitor framework 12;First electric power
The fixing upper end being placed in the second power capacitor framework 13 of capacitor framework 12 so that this plant area is relatively fewer, cost phase
To relatively low, cost performance is high, can reduce AC and DC engineering construction cost, good in economic efficiency;This device by steel structure framework, the
One steel strut 10 and the first insulation column 11 in succession, can promote antidetonation and the insulating capacity of this device, and this device can be by 9 degree
Shock test is verified, meets the area use of 9 degree of Seismic Design Requirements, and safety is high.
Preferably, described second power capacitor framework 13 is provided with two, two described second power capacitor frameworks
13 vertical superpositions, and two described second power capacitor frameworks 13 are placed in the lower end of described first power capacitor framework 12;
This plant area is relatively fewer, advantage of lower cost, and cost performance is high, can reduce AC and DC engineering construction cost, economic benefit
Good;This device by steel structure framework, the first steel strut 10 and the first insulation column 11 in succession, can promote this device antidetonation and
Insulating capacity, safety is high.
As shown in Figure 10, a kind of lattice type anti-seismic power capacitor tower, solid including a kind of lattice type anti-seismic power capacitor
Determining frame 15 and multiple second insulation column 16, multiple described second insulation column 16 correspondences respectively are in described a kind of lattice and resist
The lower end of multiple second steel struts 14 bottom shake power capacitor fixed mount 15;Can be promoted this anti-by the second insulation column 16
The insulating capacity of seismoelectric power Capacitor stack 18, guarantees safety;This antidetonation power capacitor tower 18 can be tried by 9 degree of antidetonations simultaneously
Checking, meets the area use of 9 degree of Seismic Design Requirements, and safety is high.
Preferably, the lower end of multiple described second insulation columns 16 is all fixedly installed footing steel plate 17, described footing steel
Plate 17 is fixedly connected with the ground by foundation bolt;Footing steel plate 17 can strengthen this antidetonation power capacitor tower 18 and be connected with ground
Steadiness, promote shock resistance.
As shown in Figure 11 to Figure 13, a kind of lattice type anti-seismic power capacitor apparatus, including antidetonation power capacitor tower 18,
Described antidetonation power capacitor tower 18 is provided with two, and two described antidetonation power capacitor towers 18 are connected by bus 19;This
System footprint is relatively fewer, advantage of lower cost, and cost performance is high, can reduce AC and DC engineering construction cost, economic benefit
Good;Can be verified by 9 degree of shock tests, meeting the area use of 9 degree of Seismic Design Requirements, safety is high.
The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all in this practicality
Within novel spirit and principle, any modification, equivalent substitution and improvement etc. made, should be included in guarantor of the present utility model
Within the scope of protecting.
Claims (10)
1. a lattice type anti-seismic power capacitor framework, it is characterised in that: include the first capacitor framework (1) and the second electric capacity
The vertically stacking of device framework (2), described second capacitor framework (2) and described first capacitor framework (1), described first capacitor
Framework (1) and the second capacitor framework (2) all include underframe (3), power capacitor bank (4) and two side frames (5), described electric power
Capacitor banks (4) is placed in the upper end of described underframe (3);It is provided with silicon between described power capacitor bank (4) and described underframe (3)
Rubber slab (6);Two fixing both sides being placed in described power capacitor bank (4) of described side frame (5), and two described side frames (5)
Bottom and described underframe (3) fixing be connected;It is solid that the front side of described power capacitor bank (4) upper end and rear side are provided with first
Determining steelframe (7), it is fixing that T-shaped plate (8) is all passed through with the upper end of two described side frames (5) in the described first two ends fixing steelframe (7)
Connect;Often organize the first of described power capacitor bank (4) front side and rear side to fix and be provided with second between steelframe (7) and fix steel
Frame (9), the described second two ends fixing steelframe (9) are fixed with the upper end of two described side frames (5) respectively and are connected.
A kind of lattice type anti-seismic power capacitor framework, it is characterised in that: described power capacitor
The upper end described with two first of group (4) is fixed steelframe (7) and is all screwed and is connected;Under described power capacitor bank (4)
Front side and the rear side of end are screwed are connected with front side and the rear sides of described underframe (3) respectively.
A kind of lattice type anti-seismic power capacitor framework the most according to claim 1 or claim 2, it is characterised in that: described first electricity
The first steel strut (10) all it is fixedly installed on multiple corners of the underframe (3) of container frame (1);Described second capacitor framework
(2) the first insulation column (11) all it is fixedly installed on multiple corners of underframe (3).
A kind of lattice type anti-seismic power capacitor framework, it is characterised in that: described first capacitor
Framework (1) is two, and two fixing vertical superpositions of described first capacitor framework (1) are built into the first power capacitor framework
, and first steel strut (10) of two described first capacitor framework (1) correspondence positions is fixing connects (12);Described second electric capacity
Device framework (2) is two, and a described second capacitor framework (2) is fixed and is placed on a described first capacitor framework (1)
It is built into the first insulation column (11) on the second power capacitor framework (13), and described second capacitor framework (2) and institute
State the fixing connection of the first steel strut (10) of the upper correspondence position of the first capacitor framework (1).
A kind of lattice type anti-seismic power capacitor framework, it is characterised in that: described first electric power electricity
The lower end at container frame (12) and the second power capacitor framework (13) its first steel strut (10) place corresponding is all fixedly installed
Second steel strut (14).
6. a lattice type anti-seismic power capacitor fixed mount, it is characterised in that include a kind of lattice described in claim 4 or 5
Structure formula antidetonation power capacitor framework, described first power capacitor framework (12) is fixing is placed in described second power capacitor frame
The upper end of frame (13).
A kind of lattice type anti-seismic power capacitor fixed mount, it is characterised in that described second electric power
Capacitor framework (13) is provided with two, the vertically superpositions of two described second power capacitor frameworks (13), and two described the
Two power capacitor frameworks (13) are placed in the lower end of described first power capacitor framework (12).
8. a lattice type anti-seismic power capacitor tower, it is characterised in that include a kind of lattice type anti-seismic described in claim 7
Power capacitor fixed mount (15) and multiple second insulation column (16), multiple described second insulation columns (16) corresponding position respectively
Lower end in multiple second steel struts (14) of described a kind of lattice type anti-seismic power capacitor fixed mount (15) bottom.
A kind of lattice type anti-seismic power capacitor tower, it is characterised in that multiple described second insulation
The lower end of pillar (16) is all fixedly installed footing steel plate (17), and described footing steel plate (17) is fixed with ground by foundation bolt
Connect.
10. a lattice type anti-seismic power capacitor apparatus, it is characterised in that include the antidetonation electric power electricity described in claim 9
Container tower (18), described antidetonation power capacitor tower (18) is provided with two, and two described antidetonations power capacitor tower (18) are led to
Cross bus (19) to connect.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105977017A (en) * | 2016-06-28 | 2016-09-28 | 桂林电力电容器有限责任公司 | Latticed anti-seismic power capacitor frame, fixing rack, tower and device |
-
2016
- 2016-06-28 CN CN201620695658.3U patent/CN205692695U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105977017A (en) * | 2016-06-28 | 2016-09-28 | 桂林电力电容器有限责任公司 | Latticed anti-seismic power capacitor frame, fixing rack, tower and device |
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Granted publication date: 20161116 Effective date of abandoning: 20171222 |
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AV01 | Patent right actively abandoned |