CN208400677U - A kind of contravariant transformer - Google Patents

Abstract

The utility model discloses a kind of contravariant transformers, and big to solve contravariant transformer occupancy volume in the prior art, operating cost is high, and the problem that transfer efficiency is relatively low.Include: that primary side c-type iron core and the first secondary side c-type iron core by sliding block are connected to become the first magnetic circuit, the second magnetic circuit is connected to become by sliding block with the second pair side c-type iron core；Main coil is the primary side winding being wound on primary side c-type iron core, and the first secondary coil is the vice-side winding being wound on the first secondary side c-type iron core, and the second secondary coil is the vice-side winding being wound on the second secondary side c-type iron core；Sliding block moves reciprocatingly between the first magnetic circuit and the second magnetic circuit；It insulate between first magnetic circuit and the second magnetic circuit；Main coil both ends connect DC power supply.It has the beneficial effect that and solves the problems, such as that DC voltage conversion is different voltages grade alternating voltage, electric energy conversion is realized as AC transformer, reduce cost, operation and maintenance are convenient.

Description

A kind of contravariant transformer

Technical field

The utility model relates to electric system direct current electric transmission and transformation technical field more particularly to a kind of contravariant transformers.

Background technique

Transformer is a kind of AC energy of voltage to be transformed into another voltage of same frequency using electromagnetic induction principle AC energy, only realize AC energy between voltage conversion.

Currently, direct current transportation is compared to exchange as the development of extra-high voltage technology and the mature of HVDC Transmission Technology are applied Transmission of electricity, have following advantages: 1. when conveying equal-wattage, DC line low cost, overhead transmission line tower structure is simpler, line Road corridor is narrow, and the cable with dielectric level can run on higher voltage；2. the power and energy loss of direct current transportation are small；③ It is small to Communication Jamming；4. line steady-state does not have capacitance current when running, there is no reactance pressure drop, voltage's distribiuting is more steady along the line, line Road itself is not necessarily to reactive compensation；5. the both ends AC system of DC transmission line connection does not need to run simultaneously, therefore can be used to reality Asynchronous connection between existing different frequency or identical frequency AC system；6. there is no ac transmissions to consolidate for DC transmission line itself Some stable problems, conveying distance and power are not also limited by electric system synchronous operation stability；7. by DC transmission line The respective capacity of short circuit of the AC system interknited will not be significantly increased because of interconnection；8. the power and electric current of DC transmission line Adjusting control be easier and rapidly, various adjustings, control may be implemented.If AC and DC paired running helps to mention The stability of high AC system and the operation characteristic for improving whole system.

Existing direct current transportation mainly by converter station (converting plant with Inverter Station), DC line, exchange side and DC side Electric-power filter, reactive power compensator, converter power transformer, direct current reactor and protection, control device etc. are constituted.The wherein change of current Station is the core of DC transmission system, it completes the transformation between AC and DC.

It can thus be seen that the existing contravariant transformer for completing direct current transportation, it is very big not only take up volume, and run at This and maintenance cost are high, and transfer efficiency is low.The commutator transformer of similar AC transformer principle in Operation of Electric Systems simultaneously Do not occur.

Summary of the invention

The utility model embodiment provides a kind of contravariant transformer, occupies to solve contravariant transformer in the prior art Volume is big, and operating cost is high, and the problem that transfer efficiency is relatively low.

The utility model embodiment provides a kind of contravariant transformer, comprising: primary side c-type iron core, the first secondary side c-type iron core, Second secondary side c-type iron core, sliding block, main coil, the first secondary coil and the second secondary coil；

Primary side c-type iron core and the first secondary side c-type iron core are connected to become the first magnetic circuit by sliding block, with the second pair side c-type Iron core is connected to become the second magnetic circuit by sliding block；

Main coil is the primary side winding being wound on primary side c-type iron core, and the first secondary coil is to be wound on the first secondary side c-type iron core Vice-side winding, the second secondary coil is the vice-side winding being wound on the second secondary side c-type iron core；

Sliding block moves reciprocatingly between the first magnetic circuit and the second magnetic circuit；It insulate between first magnetic circuit and the second magnetic circuit；It is main Coil both ends connect DC power supply.

Preferably, DC power supply is the DC source that current direction is identical and constant magnitude is constant.

Preferably, primary side c-type iron core, the first secondary c-type iron core and sliding block in c-type iron core, the second pair are using identical Material is made.

Preferably, sliding block moves back and forth between the first magnetic circuit and the second magnetic circuit so that the first magnetic circuit and the second magnetic circuit The magnetic flux distributed sinusoidally changes at any time.

The beneficial effects of the utility model include: the method by the constant flux of DC power supply excitation by change magnetic circuit, So that generating period changes the magnetic flux in two other magnetic circuit at any time, to induce the potential of alternation in secondary winding It solves the problems, such as that DC voltage conversion is different voltages grade alternating voltage, electric energy conversion, drop is realized as AC transformer Low cost, operation and maintenance are convenient.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of contravariant transformer provided by the embodiment of the utility model.

Specific embodiment

The utility model embodiment provides a kind of contravariant transformer, below in conjunction with Figure of description to the utility model Preferred embodiment is illustrated, it should be understood that and preferred embodiment described herein is only used for describing and explaining the present invention, It is not used to limit the utility model.And in the absence of conflict, the features in the embodiments and the embodiments of the present application It can be combined with each other.

In current electric system, transformer cannot still convert DC voltage, be primarily due to DC power supply in iron The magnetic flux motivated in core is constant flux, can not generate induced potential in secondary side, therefore commutator transformer is in electric system Do not occur always in operation.

As shown in fig.1, a kind of contravariant transformer, comprising: the secondary side c-type iron core 2, second of primary side c-type iron core 1, first is secondary Side c-type iron core 3, sliding block 4, main coil 5, the first secondary coil 6 and the second secondary coil 7；Primary side c-type iron core 1 and the first secondary side c-type Iron core 2 is connected to become the first magnetic circuit by sliding block 4, is connected to become the second magnetic circuit by sliding block 4 with the second secondary side c-type iron core 3； Main coil 5 is the primary side winding being wound on primary side c-type iron core 1, and the first secondary coil 6 is the pair being wound on the first secondary side c-type iron core 2 Side winding, the second secondary coil 7 are the vice-side winding being wound on the second secondary side c-type iron core 3；Sliding block 4 is in the first magnetic circuit and the second magnetic It moves reciprocatingly between road；It insulate between first magnetic circuit and the second magnetic circuit；5 both ends of main coil connect DC power supply.

Wherein, DC power supply is the DC source that current direction is identical and constant magnitude is constant.Primary side c-type iron core 1, first is secondary When c-type iron core 2, second is secondary, c-type iron core 3 and sliding block 4 are made of identical material.Sliding block 4 is in the first magnetic circuit and second It is moved back and forth between magnetic circuit so that the magnetic flux that the first magnetic circuit is distributed with the second magnetic circuit sinusoidally changes at any time.

Working principle: the primary side winding of the contravariant transformer adds constant DC voltage, when aliving in coil, just Space of the meeting around coil forms magnetic field, constant magnetic flux Φ is generated in primary side c-type iron core 1, due to the magnetic conductivity of iron core Can be more much better than air, so most magnetic flux will pass through in iron core, this part magnetic flux is known as main flux, by with iron core The constant flux generated in primary side c-type iron core 1 is dynamically distributed or is conducted to the first pair by the sliding of the sliding block 4 of same material When c-type iron core 2 and second are secondary in c-type iron core 3.The first secondary c-type iron core 3 when c-type iron core 2 and second are secondary is not considered herein Magnetic saturation problem can receive in primary side c-type iron core 1 depending on the first secondary c-type iron core 3 when c-type iron core 2 and second are secondary and generate most Big magnetic flux, when 4 fully switched on first magnetic circuit of sliding block, the magnetic flux Φ 1 in the first secondary side c-type iron core 2 reaches maximum value at this time, connects Magnetic flux Φ in nearly primary side c-type iron core 1, when moving to the second magnetic circuit, Φ 1 reduces sliding block 4 at any time, and the second secondary side c-type Magnetic flux Φ 2 in patch row becomes larger, and when 4 fully switched on second magnetic circuit of sliding block, 1 value of Φ reaches minimum, and Φ 2 reaches most Greatly, close to the magnetic flux Φ in primary side c-type iron core 1；When magnetic flux reduces in the first magnetic circuit and the second magnetic circuit as a result, vice-side winding An opposite electric current is generated, the reduction of magnetic flux is prevented, and when magnetic flux increases, vice-side winding generates an electric current in the same direction, To prevent the increase of magnetic flux.During magnetic flux reduces and increases, vice-side winding also produces electric current in the same direction and reversed, is formed Alternating current, i.e., the first secondary side c-type iron core 2 can induce alternating potential E21, and the second secondary side c-type iron core 3 can incude place's alternation electricity Gesture E22.The transient process that magnetic circuit converts in sliding process of sliding block 4 is put aside, when sliding block 4 is according to certain rules in the first magnetic circuit When moving reciprocatingly with the second magnetic circuit, the magnetic flux for enabling to two magnetic circuits to be distributed is changed by sinusoidal rule at any time.Therefore Sinusoidal alternating potential can be induced in secondary winding.And the driving problems of sliding block 4, it needs according to the rule to move reciprocatingly It does suitable selection, wouldn't be considered in the utility model.The first secondary c-type iron core 3 when c-type iron core 2 and second are secondary is distinguished Formed the first magnetic circuit and the second magnetic circuit it is completely insulated, between be independent of each other.

Claims (4)

1. a kind of contravariant transformer characterized by comprising primary side c-type iron core, the first secondary c-type in c-type iron core, the second pair Iron core, sliding block, main coil, the first secondary coil and the second secondary coil；

Primary side c-type iron core and the first secondary side c-type iron core are connected to become the first magnetic circuit by sliding block, with the second pair side c-type iron core The second magnetic circuit is connected to become by sliding block；

Main coil is the primary side winding being wound on primary side c-type iron core, and the first secondary coil is the pair being wound on the first secondary side c-type iron core Side winding, the second secondary coil are the vice-side winding being wound on the second secondary side c-type iron core；

The sliding block moves reciprocatingly between first magnetic circuit and the second magnetic circuit；First magnetic circuit and second magnetic circuit Between insulate；The main coil both ends connect DC power supply.

2. contravariant transformer as described in claim 1, which is characterized in that the DC power supply is that current direction is identical and size Invariable DC source.

3. contravariant transformer as described in claim 1, which is characterized in that the primary side c-type iron core, first secondary side c-type Iron core, the second secondary side c-type iron core and the sliding block are made of identical material.

4. contravariant transformer as described in claim 1, which is characterized in that the sliding block is in first magnetic circuit and the second magnetic circuit Between move back and forth so that the magnetic flux that is distributed of first magnetic circuit and second magnetic circuit at any time sinusoidally Variation.