CN204559130U - A kind of splicing type dynamic reactive compensation device - Google Patents

Abstract

The utility model relates to a kind of splicing type dynamic reactive compensation device, it is characterized in that, described current sensor, voltage sensor all adopts high-speed fastening system to be connected with the input junction of Intelligent reactive controller with the output of described Intelligent reactive controller and thyristor junction, described high-speed fastening system comprises plug, socket two parts, described socket comprises socket body, shielding trench, Y type conducting terminal, the insulation crust of band shielding, described plug comprises plug body, shielding sheet, V-type conducting terminal, sidewall, it is convenient that this device has dismounting, easy to maintenance, signaling rate is fast, quality advantages of higher.

Description

A kind of splicing type dynamic reactive compensation device

Technical field

The utility model relates to No-Work Power Compensation Capacity in Electricity System equipment technical field, especially relates to a kind ofly having convenient, the easy to maintenance new electric energy low-voltage dynamic reactive power compensation of dismounting.

Background technology

In order to improve the factor of energy waste that power factor of electric network lowly brings and these unfavorable power supply productions, power factor of electric network must be made to be effectively improved.If obviously these reactive powers all will provide also Long Distant Transmit to be irrational by generator, are also impossible usually.Reasonable approach is exactly needing the place of reactive power to produce reactive power, namely increasing reactive power compensating apparatus and device.But connected mode is all fixing between the parts of existing reactive power compensator, if connecting line breaks down, dismounting inconvenience when change, simultaneously when signal transmission, this common connected mode can cause the distortion of signal, causes signal to have error.

Utility model content

Technical problem to be solved in the utility model is, provides a kind of and has the new electric energy low-voltage dynamic reactive power compensation that dismounting is convenient, easy to maintenance, signal quality is good.

For achieving the above object, technical solution of the present utility model is:

A kind of splicing type dynamic reactive compensation device, comprise current sensor, voltage sensor, Intelligent reactive controller, thyristor, Capacitor banks, described current sensor, voltage sensor are connected with the input of Intelligent reactive controller, the output of described Intelligent reactive controller is connected with thyristor, described thyristor, Capacitor banks are connected successively with electrical network, and described electrical network is connected with current sensor, voltage sensor.

Described current sensor, voltage sensor adopt high-speed fastening system to be connected with the input junction of Intelligent reactive controller with the output of described Intelligent reactive controller and thyristor junction, it comprises plug, socket two parts, plug and socket with the use of.Described socket comprises the insulation crust of socket body, shielding trench, Y type conducting terminal, band shielding, described socket body is provided with the shielding trench of stepped ring-like arrayed distribution, the height of described shielding trench successively decreases to matrix center gradually, be provided with Y type conducting terminal between shielding trench and shielding trench, the surrounding of described socket body is provided with the insulation crust of band shielding; Described Y type conducting terminal comprises Y type head, electric conductor, elastomer, and the bottom of described electric conductor is provided with elastomer, and described Y type head is positioned at the top of electric conductor.

Described plug comprises plug body, shielding sheet, V-type conducting terminal, sidewall, described plug body is provided with corresponding with the shielding trench on socket body shielding sheet, described shielding sheet is stepped ring-like arrayed distribution also, the height slot of described shielding sheet increases progressively to plug body center gradually, be provided with V-type conducting terminal between described shielding sheet and shielding sheet, the surrounding of described socket body is provided with sidewall; Described V-type conducting terminal comprises V-type head, electric conductor, elastomer, and the bottom of described electric conductor is provided with elastomer, and described V-type head is positioned at the top of electric conductor.

The beneficial effects of the utility model are:

The utility model current sensor, voltage sensor adopt high-speed fastening system to be connected with the input junction of Intelligent reactive controller with the output of described Intelligent reactive controller and thyristor junction, described high-speed fastening system adopts notch cuttype socket and the plug of band shielding trench, significantly reduce signal cross-talk, improve signal density and signal quality, and connect rapidly conveniently.High-speed fastening system of the present utility model have convenient, easy to maintenance, the signaling rate of dismounting soon, quality advantages of higher.

Accompanying drawing explanation

Fig. 1 is operation principle block diagram of the present utility model.

Fig. 2 is the structural representation of high-speed fastening system.

Fig. 3 is the vertical view of socket in high-speed fastening system.

In accompanying drawing, 1-current sensor, 2-voltage sensor, 3-Intelligent reactive controller, 4-thyristor, 5-Capacitor banks, 6-electrical network, 7-high-speed fastening system, 701-socket, 702-plug, 703-socket body, the insulation crust of 704-band shielding, 705-Y type conducting terminal, 706-shielding trench, 707-V-type conducting terminal, 708-shielding sheet, 709-sidewall, 710-plug body.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

As shown in Fig. 1, a kind of splicing type dynamic reactive compensation device, comprise current sensor 1, voltage sensor 2, Intelligent reactive controller 3, thyristor 4, Capacitor banks 5, described current sensor 1, voltage sensor 2 are connected with the input of Intelligent reactive controller 3, the output of described Intelligent reactive controller 3 is connected with thyristor 4, described thyristor 4, Capacitor banks 5 are connected successively with electrical network 6, and described electrical network 6 is connected with current sensor 1, voltage sensor 2.

Current sensor 1, voltage sensor 2 adopt high-speed fastening system 7 to be connected with the output of described Intelligent reactive controller 3 with thyristor 4 junction with the input junction of Intelligent reactive controller 3, described high-speed fastening system 7 comprises plug 702, socket 701 two parts, plug 702 and socket 701 with the use of.As shown in Figure 2 and Figure 3, socket 701 comprises the insulation crust 704 of socket body 703, shielding trench 706, Y type conducting terminal 705, band shielding.Socket body 703 is rounded, adopts insulating material to make, and the surrounding of described socket body 703 is provided with the insulation crust 704 of band shielding, and described insulation crust inner surface is provided with spill gathering sill.Socket body 703 is provided with the shielding trench 706 of stepped ring-like arrayed distribution, and the height of described shielding trench 706 successively decreases to matrix center gradually, is provided with Y type conducting terminal 705 between shielding trench 706 and shielding trench 706.Y type conducting terminal 705 comprises Y type head, electric conductor, elastomer.The bottom of described electric conductor is provided with elastomer, and described Y type head is positioned at the top of electric conductor.

Plug 702 comprises plug body 710, shielding sheet 708, V-type conducting terminal 707, sidewall 709.Socket body 703 is rounded, also insulating material is adopted to make, surrounding is provided with the sidewall 709 vertical with matrix, plug body 710 is provided with corresponding with the shielding trench 706 on socket body 703 shielding sheet 708, described shielding sheet 708 is stepped ring-like arrayed distribution also, and the height slot of shielding sheet 708 increases progressively to plug body 710 center gradually.When plug 702 is connected with socket 701, shielding sheet 708 correspondence of stepped ring-like arrayed is inserted in the shielding trench 706 on socket body 703.Be provided with V-type conducting terminal 707 between shielding sheet 708 and shielding sheet 708, described V-type conducting terminal 707 comprises V-type head, electric conductor, elastomer, and the bottom of described electric conductor is provided with elastomer, and described V-type head is positioned at the top of electric conductor.

The above is only preferred implementation of the present utility model, protection range of the present utility model be not only confined to above-described embodiment, and all technical schemes belonged under the utility model thinking all belong to protection range of the present utility model.It should be pointed out that for those skilled in the art, do not departing from the some improvements and modifications under the utility model principle prerequisite, these improvements and modifications also should be considered as protection range of the present utility model.The all available prior art of each part not clear and definite in the present embodiment is realized.

Claims (1)

1. a splicing type dynamic reactive compensation device, comprise current sensor, voltage sensor, Intelligent reactive controller, thyristor, Capacitor banks, described current sensor, voltage sensor are connected with the input of Intelligent reactive controller, the output of described Intelligent reactive controller is connected with thyristor, described thyristor, Capacitor banks are connected successively with electrical network, described electrical network is connected with current sensor, voltage sensor, it is characterized in that:

Described current sensor, voltage sensor all adopt high-speed fastening system to be connected with the input junction of Intelligent reactive controller with the output of described Intelligent reactive controller and thyristor junction, described high-speed fastening system comprises plug, socket two parts, plug and socket with the use of;

Described socket comprises the insulation crust of socket body, shielding trench, Y type conducting terminal, band shielding, described socket body is provided with the shielding trench of stepped ring-like arrayed distribution, the height of described shielding trench successively decreases to matrix center gradually, be provided with Y type conducting terminal between shielding trench and shielding trench, the surrounding of described socket body is provided with the insulation crust of band shielding; Described Y type conducting terminal comprises Y type head, electric conductor, elastomer, and the bottom of described electric conductor is provided with elastomer, and described Y type head is positioned at the top of electric conductor;

Described plug comprises plug body, shielding sheet, V-type conducting terminal, sidewall, described plug body is provided with corresponding with the shielding trench on socket body shielding sheet, described shielding sheet is stepped ring-like arrayed distribution also, the height slot of described shielding sheet increases progressively to plug body center gradually, be provided with V-type conducting terminal between described shielding sheet and shielding sheet, the surrounding of described socket body is provided with sidewall; Described V-type conducting terminal comprises V-type head, electric conductor, elastomer, and the bottom of described electric conductor is provided with elastomer, and described V-type head is positioned at the top of electric conductor.