WO2002080212A1 - Blowing system for short-circuit switches - Google Patents

Abstract

The invention relates to a system comprising a cylinder (1) containing a piston (2), which is directly connected to the main axle of rotation (7) of a switch by means of a link rod (6), and a valve (8), which is mounted on the base (2') of the piston (2). When the piston (2) moves in a manner that corresponds to the open position of the switch, said valve (8) closes the passage between the chambers (3 and 4) of the cylinder (1). In this way, the gas in chamber 3 is compressed and projected through the nozzles (5) in order to extinguish the arc which is generated during the opening of the switch. Meanwhile, when the switch rotation axle (7) movement is reversed, corresponding to the retraction of the piston (2), the valve (8) and the passage between the chambers (3 and 4) open. In this way, the gas in chamber 4 moves into chamber 3 and, as a result, the energy required to perform said piston retraction movement (2) is reduced.

Description

 BLOWING SYSTEM FOR LOAD CUTTING SWITCHES

D E S C R I P C I Ó N

OBJECT OF THE INVENTION

It is an object of the invention to provide the electrical sector, specifically to the manufacturers of medium voltage load cut-off switches, a system that facilitates blowing operations to break the arc generated in the actuation of a switch of the type referred to, and also ensure that the closing operation of the switch is carried out very quickly to avoid damage to the switch and its associated components.

BACKGROUND OF THE INVENTION

As is known, the cut-off switches in medium voltage load are provided to interrupt the current that at a given time circulates through the line and can reach the nominal cut-off value of the device, occurring at the time of the contact separation a electric arc that can damage them.

Another of the situations that may occur are the closures against short circuits, that is, those cases in which there being a fault or short circuit in the network, a switch connection maneuver is performed. In this case there is a brutal increase in the current that passes through the contacts, reaching several KA and also an erosion due to the pre-arc.

In order to limit the wear of the contacts as much as possible, it is important that the switch opening maneuver be as quick as possible, so that the Contact separation is also carried out quickly. To do this, the load cut-off switches use mechanical, hydraulic or electric drives of sufficient power, as well as means of extinguishing the arc generated at the time of the breaker opening.

The following systems are commonly used to extinguish the arc generated at the time the switch is opened:

Lamination and cooling systems of the static arc.

Magnetic blowing systems. Gas blowing systems by fins. - Piston blowing systems.

In the aforementioned piston blowing systems, the switch is connected to the piston of a cylinder inside which a gas is located, such that when the switch opens, the movement of its axis causes the displacement of the piston that compresses the gas contained in the cylinder chamber and projected on the arc generated at the time of opening the switch, causing its extinction.

Well, these arc extinguishing systems by piston blowing have the disadvantage that when performing the reverse operation, that is, the closing of the switch connection in a short-circuit situation, the piston piston must exert a very important force to its extension since its movement will depend on the filling speed of the piston chamber and this filling is carried out slowly because it is done by aspirating gas through the small holes of the nozzles. This causes the piston retraction to be very slow and the arc that is generated during the closing of the switch can erode its contacts. Also, the gas that penetrates through the nozzles is contaminated gas, which can seriously contaminate the piston chamber, reducing its ability to renew clean gas for the next maneuver.

Therefore, the piston or piston blowing systems used today are very useful in the case of opening the switch, since it directs a jet of gas or air to the point where the arc is generated, causing its extinction but, in the closing or connection in the case of a short circuit in the network, the energy that must be supplied to the switch must be that necessary to achieve a high connection speed, overcoming all inertia, as well as the blow resistance of the piston to high speed, which leads to using maneuvering mechanisms with a lot of energy and therefore less durable, more expensive and with the possibility of damaging the switch and its active parts before.

DESCRIPTION OF THE INVENTION

The system that is recommended comes to solve the problem described above, based on providing the switch with a piston directly linked to the actuator axis, the piston being associated with an automatic opening valve that performs two fundamental regulation functions:

I ^a . -The valve will remain closed during the opening of the switch, so that the full potential of blowing of the gas contained within the piston chamber, operated by the operating mechanism and blowing effectively on the arc to be extinguished by means of a nozzle properly. ^'

2 ^a .- Get an automatic opening in the case of closing the switch, which will greatly reduce the necessary drive energy, allowing a high closing speed of the contacts, as well as an exchange or renewal of the gas contained in the new gas piston chamber, ready for the next opening maneuver.

These functions make it possible to achieve a decrease in the contamination of the piston chamber when new gas enters the valve, instead of the one contaminated by the nozzle.

Therefore, the use of the valve on the piston allows the drive to be operated with much less energy, which has a favorable effect on the loading force of springs, wear of shafts and parts, wear and formation of contacts, shocks and impacts, etc., all this without diminishing the speed and periodicity of the closing on the short circuit of the apparatus, a valve that on the other hand has the particularity that it lacks springs and additional elements, closing by pushing of gas contained in the piston chamber.

More specifically, the system of the invention is characterized in that the main axis of rotation of the switch is associated, through a connecting rod, with the piston of a cylinder, so that in the direction of opening said piston slides through the interior of the cylinder and causes the compression of the gas inside, as well as the displacement of such gas towards upper nozzles arranged in the cylinder, in order to project it on the electric arc formed by the separation of the contacts, and in order to cool it and turn it off.

The installation of a valve that remains closed during the execution of the aforementioned movement is provided on the piston, contributing to compressing the gas and moving it to the outlet of the nozzles.

However, during the rotational movement of the main axis of the switch in the closing direction, said piston slides inside the cylinder in the opposite direction to the aforementioned, the air enters the chamber very slowly, through the small holes of the nozzles, generating a vacuum in the upper chamber of the piston, which allows the valve to open and let the air in from the other side of the cylinder, which will finally equalize the pressures on both sides of the piston, reducing the resistance to the advance of the piston and therefore the operation is carried out more quickly and requiring less energy.

The closing and opening of the valve is carried out as a result of the piston having external holes and in circumferential arrangement with respect to the assembly of the valve, so that a placket thereof is capable of separating from those holes or resting on a seat in that they are made and carry out the opening and closing mentioned above.

DESCRIPTION OF THE DRAWINGS

To complement the description that is being realizing and in order to help a better understanding of the characteristics of the invention, in accordance with a preferred example of practical realization thereof, a set of drawings is attached as an integral part of said description, where illustrative and non-limiting, The following has been represented:

Figure 1.- Shows a schematic representation of the blowing system for load cutting switches made in accordance with the object of the invention, corresponding to the closing position of the switch and start of the opening movement.

Figure 2. - Shows a view like that of the previous figure, in the opening position of the switch, and beginning of the closing movement.

Figure 3. - Finally shows a detail in perspective according to the section in which the elements and parts that intervene in the cylinder whose piston is associated, through a connecting rod, are shown to the corresponding main axis of the switch, being seen in this figure the valve in opening situation.

PREFERRED EMBODIMENT OF THE INVENTION

As can be seen in the aforementioned figures, the system of the invention is constituted from a cylinder (1) in which a piston (2) is movable, which establishes in that two chambers, a closed upper one (3) and another bottom open (4), being in communication with the outside through an outlet nozzles (5), while the base (2 ') of the piston (2) is linked, through a connecting rod (6), to the corresponding main and rotation axis (7) of the load cutting switch (7 '). On the base (2 ') of the piston (2) a regulating valve (8) and automatic opening valve is mounted, as will be shown below, which has a placket (9) capable of supporting in its corresponding piston (8 ¹ ) in a seat (10) established for this purpose in the base itself (2 ') of the piston (2), and in whose seat (10) a plurality of holes (11) capable of being closed by the placket (9) are also provided. ) of the valve (8) and establish a lack of communication between the chambers (3) and (4) of the cylinder (1), or capable of communicating both chambers (3) and (4) when the flap (9) is separated from the seat (10).

With the embodiment referred to and represented in the drawings, the operation is as follows:

When opening the switch, corresponding to Figure 1, the rotation in the direction indicated by the arrow of the main shaft (7) entails the tilting of the connecting rod (6) and therefore the upward thrust of the piston ( 2), the valve (8) being closed by the gas that is compressed in the chamber (3), since that compression of the gas brings with it the thrust of the flap (9) against the seat (10) and therefore closing the holes (11) and incommunicating the chambers (3) and (4) of the cylinder (1) in which the piston (2) plays. In this operation and corresponding movements, the gas outlet is produced through the nozzles (5), producing the arc blowing and therefore its extinction in the opening of the switch.

However, in the case of closing the switch, that is to say in the reverse operation, the rotation in the opposite direction of the main axis (7) of the switch (7 ') leads to the tilting in the opposite direction of the connecting rod (6) and therefore the retraction of the cylinder (2) that produces a suction of gas through the small holes of the nozzles (5), establishing a vacuum in the upper chamber (3), which results in the highest pressure existing in the lower chamber (4) push up the placket (9) and thus cause its separation from the seat (10), leaving openings (11) and establishing a communication between both chambers (3) and (4) until that the pressures on both sides of the piston (2) are equalized, thereby reducing the resistance to displacement of the piston (2) and consequently the movement thereof and by extension of the main shaft (7) of the switch (7 ') , consequently requiring less energy to carry out the rotation movement of that axis (7).

In addition, the passage of gas from the chamber (4) to the chamber (3), in this phase of movements in which the closing of the switch is established, produces a renewal of the gas in that upper chamber (3), improving the performance and effectiveness in the extinction of the arc, since that clean gas that passes through the valve (8) contributes to the cleaning of the chamber and of the cylinder piston itself.

Claims

R E I V I N D I C A C I O N E S I ^to .- blowing system for interrupters load, wherein the blowing is performed by displacement of a piston inside a cylinder, in order that through movement of said piston projection occurs a gas or air jet to the point where the arc is generated during the opening of the switch itself, characterized in that the corresponding piston (2) of the blowing cylinder (1) is directly related to the main rotation axis (7) of the switch ( 7 '), said piston (2) also having an automatic opening valve (8), which remains closed during the opening of the switch and automatically opens during the closing operation thereof, establishing in the first case a compression of the gas in the corresponding chamber (3) of the cylinder (1), while in the second case a communication is established between the chambers (3) and (4) of the cylinder (1) to compensate for the pressures and require less energy in the actuation of the piston (2) towards its position of retraction corresponding to that of the closing of the switch (7 ') and consequently a rapid movement of the piston (2) in the closing operation of the switch. 2 .- blowing system for interrupters load, according to claim I ^to, wherein the direct link between the main axis of rotation (7) of the switch (7 ') and the piston (2) above displaceable cylinder ( 1), is done by a connecting rod (6). 3 .- blowing system for interrupters load, according to claim I ^to, wherein the piston (2) has a base (2 ') in which is mounted a corresponding valve (8), the plunger (8 ') presents a placket (9) capable of being placed on a seat (10) in which a series of holes (11) are made in the base (2 ') of the piston (2), closing the gas passage from the chamber (4) ) to the chamber (3), or separating from that seat (10) to establish communication of the chambers (3) and (4) through the holes (11) established in the seat (10) provided in the base ( 2 ') on the piston (2).