CN111613493A - High-voltage current-limiting fusing protection device - Google Patents

Abstract

The invention discloses a high-voltage current-limiting fusing protection device, which comprises a fuse, a zinc oxide nonlinear element, a high-voltage isolating switch and a vacuum circuit breaker, wherein the zinc oxide nonlinear element is connected with the fuse in parallel; the high-voltage current-limiting fusing protection device has short fusing time and avoids the load from being damaged.

Description

High-voltage current-limiting fusing protection device

Technical Field

The invention belongs to the field of circuit protection, and particularly relates to a high-voltage current-limiting fusing protection device.

Background

The fuse is an electric appliance which uses a metal conductor as a melt to be connected in series in a circuit, and is fused due to self heating when overload or short-circuit current passes through the melt, so that the circuit is broken. The fuse has simple structure and convenient use, and can be widely used as a protective device in electric power systems, various electrical equipment and household appliances. In the prior art, a fuse has long fusing time and slow fusing, so that the load is seriously damaged.

Disclosure of Invention

The invention aims to provide a high-voltage current-limiting fusing protection device which is short in fusing time and capable of preventing a load from being damaged.

The invention provides a high-voltage current-limiting fusing protection device, which comprises a fuse, a zinc oxide nonlinear element, a high-voltage isolating switch and a vacuum circuit breaker, wherein the zinc oxide nonlinear element is connected with the fuse in parallel, the high-voltage isolating switch and the vacuum circuit breaker are respectively connected with two ends of the fuse in series, the fuse comprises a plurality of fuse pieces which are overlapped and connected in parallel, a plurality of fusing holes are uniformly distributed on the fuse pieces, and the fusing holes are in a semi-elliptical arc shape and are symmetrically arranged on two sides of the fuse pieces.

Preferably, the distance between the two fusing holes is one fourth of the width of the fuse link.

Preferably, the fusing hole having a semi-elliptical arc shape has an opening equal to a depth.

Preferably, the distance between two adjacent fusing holes on the same side of the fusing piece is greater than two times of the depth of the fusing hole and less than 3 times of the depth of the fusing hole.

Preferably, the fuse part is arranged between two fuse holes symmetrically arranged on the fuse piece, a soldering point is arranged between two adjacent fuse pieces, and the soldering point is arranged at the position of the fuse part.

Preferably, the fuse further comprises a main housing, two ends of the main housing are connected with the mounting housings, the fuse link passes through the two mounting housings and the main housing, and two ends of the fuse link are respectively arranged in the two mounting housings; the inside both ends of main casing body are provided with respectively and trigger the chamber, two it is provided with respectively with the fixed removal piece of fuse-link and the micro-gap switch who triggers by removing the piece to trigger the intracavity, the last alarm that is connected with of micro-gap switch.

Preferably, the alarm comprises a direct current power supply, an alarm circuit and a signal emitter, the direct current power supply supplies power to the alarm circuit and the signal emitter, the signal emitter is in wireless connection with a control background, and a buzzer and a flasher are arranged on the alarm circuit.

Preferably, quartz sand is filled in the main shell in the area between the two trigger chambers; and the fusing hole on the fusing sheet is arranged in the quartz sand area.

The high-voltage current-limiting fusing protection device of the technical scheme of the invention has the beneficial effects that:

the design of the fusing hole structure in the technical scheme of the invention effectively shortens the arcing time, namely shortens the fusing time of the fuse, cuts off the circuit more quickly and avoids the damage of the load in the circuit.

The design of the tin soldering point in the technical scheme of the invention further effectively shortens the arcing time, namely shortens the fusing time of the fuse, cuts off the circuit more quickly and avoids the load in the circuit from being damaged.

According to the technical scheme, due to the arrangement of the alarm, the control background can quickly and accurately know the fusing signal of the fuse, and can accurately judge that the fuse at a certain position is fused.

Drawings

FIG. 1 is a schematic diagram of a high-voltage current-limiting fuse protector according to the technical solution of the present invention,

figure 2 is a schematic diagram of a fuse link structure of the fuse in the technical solution of the present invention,

FIG. 3 is a schematic diagram showing the positions of solder points on a fuse element of the fuse according to the present invention,

fig. 4 is a schematic diagram of a fuse structure according to the technical solution of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

As shown in figure 1, the high-voltage current-limiting fusing protection device comprises a fuse FU, a zinc oxide nonlinear element FR connected with the fuse FU in parallel, a high-voltage isolating switch GL and a vacuum circuit breaker DL which are connected with two ends of the fuse FU in series respectively, wherein the fuse FU comprises a plurality of fuse links 1 which are overlapped and connected in parallel, a plurality of fusing holes 2 are uniformly distributed on each fuse link 1, and the fusing holes 2 are in a semi-elliptical arc shape and are symmetrically arranged on two sides of each fuse link 1.

In the above technical scheme, the high-voltage current-limiting fusing protection device is formed by combining a fuse FU, a zinc oxide nonlinear element FR and a vacuum circuit breaker DL in parallel. When a short circuit occurs, the current-limiting fuse FU is rapidly fused within 1-2 ms, and short-circuit current is cut off. At this moment, the current-limiting fuse FU is intercepted to generate an arc voltage, so that the arc current is forced to be transferred to a zinc oxide nonlinear element FR (high-energy zinc oxide resistor), the thermal capacity is large, the through-current performance is good, and the function of rapidly extinguishing the arc of the fuse is achieved. When the fuse FU is firstly fused at a certain short-circuit phase, the other two-phase fuses are not fused, and if the short-circuit current exceeds the breaking capacity of the vacuum switch, the three-phase current is broken by the fuse FU. When the device is matched with a vacuum circuit breaker for use, the vacuum circuit breaker is used for breaking rated current and general overload current.

The high-voltage current-limiting fusing protection device adopts a combination scheme that a fuse FU is connected with a zinc oxide nonlinear element FR in parallel and then connected with a vacuum circuit breaker DL in series, and separates two functions of control and protection. Is cut off by the fuse FU when a large short-circuit current occurs and by the vacuum interrupter DL when a normal and general overcurrent occurs.

The device can quickly cut off the current in 2ms before the short-circuit current rises to the peak value, faults are cut off in 2-3 ms, and the duration time of the three-phase current is not more than 5 ms. The device can control the cut-off current peak value to be less than 15% of the expected short-circuit current peak value, greatly improves the dynamic stability margin of a system and power equipment, reduces the equipment investment cost and prolongs the service life of the equipment. The maximum on-off current of the device can reach 63 kA-160 kA. The device has large capacity and high on-off fuse energy absorption capacity, when the fuse FU breaks the short-circuit current, most energy generated by the system short circuit is absorbed by the special quartz sand in the fuse FU, the energy absorption capacity of the quartz sand is 2KJ/g, the specific gravity of the quartz sand is 1.5g/cm3, and the energy absorption capacity of the quartz sand in unit volume is 3KJ/cm 3. The zinc oxide nonlinear element FR (high energy zinc oxide resistor) connected in parallel with the fuse FU has an energy use capacity of 10KJ per chip, a weight of 300g per chip, a specific gravity of 5.5g/cm3, and an energy absorption capacity of 183.3J/cm3 per unit volume of zinc oxide resistor.

The fusing time of the fuse is the sum of the arc time and the arcing time, and the pre-arc time is the time interval from the beginning of the current with a sufficient current to melt the fuse link to the moment of the arc. In the technical scheme of the invention, due to the structural arrangement of the fusing hole 2, the arcing time is effectively shortened, namely the fusing time of the fuse is shortened, and the circuit can be quickly cut off. And the design of fuse hole 2 structure in this technique, the processing and the installation of fuse-link 1 of being convenient for can not appear sharp-pointed apex angle in fuse-link 1 and fuse hole 2 position, avoids fuse-link 1 to appear the problem of warping in processing and installation.

As shown in fig. 2, the distance between two fuse holes 2 in the present technology is a fuse portion 3, and the width of the fuse portion 3 is one fourth of the width of the fuse link 1. The 3 width of fuse portion's selection has ensured the passing through of normal current on the fuse FU on the one hand, and another is convenient to have ensured can be fused fast when passing through short-circuit current on the fuse.

As shown in fig. 2, the fusing hole 2 having a semi-elliptical arc shape has the same opening and depth. Fusing hole 2 is half an elliptical arc, fusing hole 2's degree of depth is oval semiaxis, fusing hole 2's opening is oval minor axis. The design of the fusing hole 2 of this structure, the processing of being convenient for on the one hand, the most important is when can ensureing to take place short-circuit current, and the fuse can be quick by fusing, has effectually shortened the arcing time, has shortened the fusing time of fuse promptly, avoids the load impaired.

As shown in FIG. 2, the fuse portion 3 is located between two fuse holes symmetrically disposed on the fuse piece, and the width of the fuse portion 3 in the present embodiment is greater than two times the depth of the fuse hole 2 and less than 3 times the depth of the fuse hole 2. The design of 3 sizes of fusing part has effectually shortened the time of arcing, has shortened the fusing time of fuse promptly, avoids the load impaired.

As shown in fig. 3, a solder point 4 is provided between two adjacent fuse links 1, and the solder point 4 is disposed at the position of the fusing part 3. Because the tin melting point is low, when short-circuit current takes place, the tin of soldering point 4 position melts at first and adheres to on fuse link 1, and the resistance increase in fusing portion 3 position generates heat the speed and accelerates for fusing that fusing portion 3 can be quick further shortens fusing time, avoids the load impaired.

As shown in fig. 4, the fuse FU further includes a main housing 11, two ends of the main housing 11 are connected to the mounting housings 12, the fuse link 1 passes through the two mounting housings 12 and the main housing 11, and the two ends are respectively disposed in the two mounting housings 12, so as to facilitate the electrical connection of the fuse FU in the circuit. Two ends of the inner part of the main shell 11 are respectively provided with a trigger cavity 13, and a moving piece 14 fixed with the fuse link 1 and a microswitch 15 triggered by the moving piece 14 are respectively arranged in the two trigger cavities 13. The microswitch 15 is connected with an alarm. After fuse FU's fuse link 1 back fuse, under inertial effect, can outwards remove certain distance with fuse link 1 fixed removal piece 14, trigger micro-gap switch 15 for micro-gap switch 15 switches on, thereby switch on the alarm, realize reporting to the police, make control backstage can in time discover fuse fusing and circuit fault.

In the technical scheme, the alarm comprises a direct current power supply, an alarm circuit and a signal emitter, wherein the direct current power supply supplies power for the alarm circuit and the signal emitter, the signal emitter is in wireless connection with a control background, and a buzzer and a flasher are arranged on the alarm circuit. After micro-gap switch 15 is triggered, buzzer and flasher work immediately and report to the police, and signal transmitter sends fuse position signal etc. of fuse fusing signal to the control backstage simultaneously, the understanding circuit trouble of the convenient multipath of many ways of being convenient for, the quick maintenance of being convenient for is overhauld.

As shown in fig. 4, the main housing in the area between the two trigger chambers 13 is filled with quartz sand 16; the fuse hole 2 of the fuse link 1 is arranged in the area of the quartz sand 16. The quartz sand absorbs the heat generated by fusing the fuse link 1, so that the fuse is prevented from exploding, and the circuit failure and the circuit damage caused by the first step are avoided.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by one of ordinary skill in the art and related arts based on the embodiments of the present invention without any creative effort, shall fall within the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (8)

1. The utility model provides a high pressure current-limiting fusing protection device, includes the fuse and with the parallelly connected zinc oxide nonlinear element who sets up of fuse, still includes high-pressure isolator and the vacuum circuit breaker who establishes ties respectively at the fuse both ends, its characterized in that, the fuse includes the fuse-link that a plurality of stacks and parallelly connected setting, the equipartition is provided with a plurality of fusing holes on the fuse-link, the fusing hole is semi-elliptic arc, and the symmetry sets up in fuse-link both sides.

2. The device of claim 1, wherein the distance between the fuse holes is one quarter of the width of the fuse link.

3. The device of claim 1, wherein the fusing hole has an opening and a depth equal to each other.

4. The device according to claim 1, wherein the distance between two fuse holes adjacent to each other on the same side of the fuse link is greater than two times the depth of the fuse hole and less than 3 times the depth of the fuse hole.

5. The protection device of claim 1, wherein a fuse portion is disposed between two fuse holes symmetrically disposed on the fuse piece, and a solder point is disposed between two adjacent fuse pieces, and the solder point is disposed at the fuse portion.

6. The high-voltage current-limiting fuse protector according to claim 1, wherein the fuse further comprises a main housing, wherein mounting housings are connected to two ends of the main housing, the fuse link penetrates through the two mounting housings and the main housing, and two ends of the fuse link are respectively arranged in the two mounting housings;

the inside both ends of main casing body are provided with respectively and trigger the chamber, two it is provided with respectively with the fixed removal piece of fuse-link and the micro-gap switch who triggers by removing the piece to trigger the intracavity, the last alarm that is connected with of micro-gap switch.

7. The high-voltage current-limiting fusing protection device as claimed in claim 6, wherein the alarm comprises a DC power supply, an alarm circuit and a signal transmitter, the DC power supply supplies power to the alarm circuit and the signal transmitter, the signal transmitter is wirelessly connected with a control background, and a buzzer and a flasher are arranged on the alarm circuit.

8. The high-voltage current-limiting fuse protection device as claimed in claim 6, wherein a main shell in a region between the two trigger chambers is filled with quartz sand; and the fusing hole on the fusing sheet is arranged in the quartz sand area.

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