ES2262784T3 - PNEUMATIC CIRCUIT CIRCUIT. - Google Patents

Abstract

A compressed air circuit breaker comprising: - a fixed conductor (3) on which a fixed contact (4) is fixed; - a mobile component (6) on which a mobile contact (5) is contacted which comes into contact with and that departs from the indicated fixed contact (4) by means of a connection mechanism; and - an electric arc extinguishing chamber (17) for inducing and extinguishing an electric arc generated between the indicated mobile contact (5) and the indicated fixed contact (4); - the aforementioned fixed conductor (4), the said mobile component (6) and the said arc extinguishing chamber (17) are arranged on a support (1); and the indicated compressed air circuit breaker is characterized in that, in addition, it contains - an emission window (lc) which is provided on the side of the said arc extinguishing chamber (17) of the cited support (1) to emit the electric gas from said support (1) upwards to the outside of the support (1) and - a fan hole (1d) that is located on an opposite side of the aforementioned electric arc extinguishing chamber (17) of said support (1 ) and forms an air passage through the natural convection of the fan hole (1d) towards the emission window (lc).

Description

Pneumatic circuit breaker.

Technical field

The present invention deals with a structure to eliminate the temperature rise of a conductor of current in an opening and closing contact, as well as near the contact in a compressed air circuit breaker when applying an electric current to the driver, in normal conditions.

Background of the prior art

Figure 3 is a sectional side view that shows a conventional compressed air circuit breaker described, by example, in Japanese patent publication 303930/1993 (no examined).

In the drawing, the reference number 1 is a base support composed of a main base 1a and a secondary base 1b, both composed of an insulating material. The number 1c is an electric gas emission window formed in the base support 1. The number 2 is a coating support, the number 3 are fixed conductors arranged in parallel in the secondary base 1b and show the same number as the poles of this compressed air circuit breaker, in which a fixed contact 4 is held at one end of each fixed conductor, and the other end is directed towards the outside of the base support 1 and forms a terminal 3a on the side of the power supply. The number 5 is a mobile contact opposite the fixed contact 4 and comes into contact with and separates from the fixed contact 4, and the number 6 is a mobile component to which the mobile contact is attached 5. The number 7 is a contact arm which rotatably maintains the movable component 6, the number 8 is a fastening bolt of the movable component to block the movement of the movable component 6 towards any unnecessary section, and the number 9 is an axis of the contact arm that rotatably maintains the contact arm 7 in the base support 1. The number 10 is a terminal conductor, and a part of the terminal conductor fixed to the main base 1a and driven outwardly from the base support 1 forms a terminal 10a on the load side. The number 11 is a flexible conductor to connect the mobile component 6 with the terminal conductor 10, so as not to regulate the movement of the component
mobile 6.

The number 12 is a pressure spring of contact to propel the mobile component 6 towards the opening, and The number 13 is a part of the connection mechanism for opening and closing of the mobile component 6 connected with the arm 7 of 14-axis contact. The number 15 is a part of the relay Shooting. The part of the connection mechanism 13 consists of a well-known lever connection mechanism and is held in a D-shaped hitch 16 connected to part 15 of the relay Shooting. The number 17 is an electric arc extinguishing chamber which has an opening to be able to emit the electric gas to outside through the electric gas emission window 1c. He number 18 is a closing spring where the force of closing drive of part 13 of the connection mechanism, and the number 19 is a ratchet mechanism where the closing spring 18 is compressed and accumulated by a handle 20 or a non-motor illustrated.

This type of conventional air circuit breaker tablet detects an overcurrent that crosses a connected load or an excessive current caused by an accident or similar, and part 15 of the trip relay releases the part of the connection mechanism 13 of the hitch 16 with D. shape Therefore, the part of the connection mechanism 13 is starts up, and the contact arm 7 is driven up, turning around axis 9 of the contact arm by force of the contact pressure spring 12. At the same time, the mobile component 6 rotates counterclockwise around of the axis 14, the movable contact 5 is separated from the fixed contact 4, and the electric current flowing between the two contacts is seen interrupted At that time, an electric arc between the contacts It is induced and extinguished by the arc extinguishing chamber electric 17, and the electric gas produced in this process is emitted through the electric gas emission window 1c.

A nominal current of one thousand to several thousand Amps circulates in this type of compressed air circuit breaker, and a temperature rise caused by the nominal current that Circulates accelerates the deterioration of the parts. To prevent deterioration, a maximum temperature is normalized by a standard of a current conducting part. In the conventional circuit breaker of compressed air, as described above, the contact fixed 4, mobile contact 5, and peripheral conductive steps, as the mobile component 6, etc., are arranged in a space closed that has only the electric gas emission window 1c to isolate a conductive load part of current and shield an electric arc generated by interrupting an electric current excessive and prevent electric gas leaks in the part 13 of the connection mechanism. As a consequence, when applying a nominal current, a heat generated due to the resistance of the contact between the fixed contact 4 and the mobile contact 5 and due to the resistance of peripheral conductive passages, such as the mobile component 6, maintains and raises the temperature in the support base 1. Therefore, a problem arises in the fact that the temperature of the conductive part of the current rises by above the maximum normalized temperature.

The present invention has been carried out to solve the problem discussed above, and its purpose eliminate an increase in the temperature of the conductive part of the current in the compressed air circuit breaker, by means of a effective radiation of a heat generated in the air circuit breaker compressed.

Exhibition of the invention

A compressed air circuit breaker according to the invention includes in a support: a fixed conductor on which hold a fixed contact; a mobile component on which a mobile contact that comes in contact with and moves away from the contact fixed by a connection mechanism; and an extinction chamber of electric arc to extinguish an electric arc generated between two contacts mentioned; and the compressed air circuit breaker has provided with an emission window formed on one side of said stand extinguishing chamber, to emit electrical gas out of the support and of a fan hole that is located on one side opposite to the indicated extinguishing chamber of said support, and shape an air passage in the support through a natural convection from the fan hole towards the emission window.

It is preferable that the air circuit breaker designated tablet is provided with a valve component for close the fan hole when a pressure in the support.

It is preferable that an arc block provided with a fixed arc contact that extends into the chamber of electric arc extinction to conduct an electric energy and transmit heat from the fixed contact; and a contact of mobile arc formation that comes into contact with the contact of fixed arc formation when opening the two contacts, provide for way they extend into the arc extinguishing chamber electrical, so that the electrical energy and the Heat is transmitted from the mobile contact.

It is preferable for a pole to open and close through several mobile components, and that each of the mobile components provide arc contact mobile extending towards the arc extinguishing chamber electric.

Brief description of the drawings

Figure 1 is a sectional view of a part essential of a compressed air circuit breaker according to the present invention.

Figure 2 is a perspective view of a conductive part of the compressed air circuit breaker according to the invention.

Figure 3 is a side sectional view of a compressed air circuit breaker according to the state of the art previous.

The best way to execute the invention

Execution one

Figure 1 is a sectional view of a part essential of a compressed air circuit breaker that shows the embodiment 1 according to the present invention, and Figure 2 is a view in perspective of a current conducting part of the circuit breaker of compressed air from execution 1.

In the drawings, the numbers 1, 3 to 13, and 17 are the same as those of the conventional compressed air circuit breaker noted, and a more detailed explanation of these is omitted. He number 1d is an open fan hole in base support 1 and located on the opposite side of the arc extinguishing chamber electrical 17. Number 21 is a hole valve component 1d fan, and this valve component 21 allows air pass from outside to inside of base support 1, with conditions normal, and close the fan hole 1d when the base support pressure 1. The number 6a is a contact of mobile arc formation arranged by extending a driver of a mobile component of a section where the mobile contact 5 of the mobile component 6 towards one end. The number 22 is an arc block that is mounted on the fixed conductor 3 in direction to the electric arc extinguishing chamber 17, and in which one side fits firmly on the fixed conductor 3 and the other side, crossing at right angles, fits firmly on one side bottom of the base support 1. This arc block 22 is provided of a fixed arc contact 22a formed in a position opposite to the arc contact 6a. The several mobile components 6 arranged in parallel form an opening and closing part of a pole, as shown in the Figure 2. In addition, an incoming groove 22b is formed in the block of arc 22, in a section with which the formation contact of 6a mobile arches is not in contact.

The compressed air circuit breaker with the structure indicated above is installed with terminal 3a of the side of the power supply up, so the camera electric arc extinguishing 17 is located at the top and the fan hole 1d is located on the bottom side, of according to what is illustrated in the drawing. Therefore, it is formed an air passage between the ventilation hole 1d and the window of 1c electric gas emission.

Therefore, a heat generated in a section where the mobile contact 5 is in contact with the contact fixed 4 and in the peripheral conductive steps such as mobile components 6, when an electric current is applied, it cools by natural convection of the 1d fan hole to the electric gas emission window1c, so it is removed an increase in indoor temperature.

Also, when the power is interrupted electric applied, the valve component 21 closes the hole 1d fan using the generated electric gas pressure, and this prevents grounding of the electric arc in any material metal located under the fan hole 1d.

Now, the operation of the training contact of mobile arcs 6a and fixed arc contact 22a se described below. Mobile components 6 connected with the part of the connection mechanism 13 are in a relationship interlocking position with contact arm 7, the bolt clamping 8 of the moving component and axis 9 of the contact arm, to oscillate when connection / disconnection occurs. At connection path first of all the training contact of mobile arcs 6a comes into contact with the formation contact of fixed arcs 22a, so the application of a current begins electric The connection mechanism pushes further in, by what the point of contact begins to function as a fulcrum, and the mobile contact 5 comes into contact with the fixed contact 4. Subsequently, the connection mechanism continues to push towards inside, so the fulcrum changes to the side where the mobile contact 5 is in contact with the fixed contact 4. Therefore, the mobile arc contact 6a separates or departs from fixed arc contact 22a, and electric current circulates all over the side where the mobile contact 5 is in contact with the fixed contact 4.

In the interruption of the electric current, with the lifting of the mobile components 6 by the mechanism connection, the mobile contact 5 moves slightly away from the contact fixed 4, and the electric current is applied between the two contacts, through an electric arc. Subsequently, the components mobiles 6 are pressed by the contact pressure spring 12 and rotate clockwise around axis 14, and the contact mobile arc formation 6a comes into contact with the contact of fixed arc formation 22a. At this time, the current crosses the point where the mobile arcing contact 6a is in contact with the fixed arcing contact 22a parallel to the electric arc current between the two contacts By another lifting operation of the mechanism connection, while maintaining the training contact of mobile arcs 6a in contact with the arc contact fixed 22a, the mobile contact 5 is far removed from the fixed contact 4, using the contact point that acts as a fulcrum, thereby that the electric arc extends between the contacts. With the electric arc extension, arc resistance increases electrical, and the flow of current moves, mainly to the point where the mobile arcing contact 6a is located in contact with the fixed arc contact 22a. With other opening operation through the connection mechanism, the mobile arc contact 6a separates from the contact of fixed arc formation 22a, and the electric arc generated in it is induced and extinguished by the arc extinguishing chamber electric 17.

As described above, with some normal conditions of application of the electric current with except for the opening and closing operation, the current does not crosses neither the mobile arcing contact 6a nor the fixed arc contact 22a and therefore in this section there is no heat generation caused by the application of the current. However, some may occur. heat conduction from the contact section, and this generates a advantage of increasing the area of thermal radiation.

The mobile arc contact 6a and the arc block 22, both connected to the contact side where the mobile contact 5 is in contact with the fixed contact 4 and a heat is mainly generated, they act as a component of thermal radiation cooled by the convection air in the passage of air between the fan hole 1d and the emission window of electric gas 1c and, therefore, prevents an increase in the temperature in the current conducting part.

In addition, the opening and closing part of a Polo consists of several 6 mobile components, including mobile arc forming contacts 6a arranged in parallel and, therefore, the mobile arc forming contacts 6a have a large area of thermal radiation in its entirety. The block of arc 22 has been provided with incoming grooves 22b formed along of the direction of air circulation and, therefore, the area of thermal radiation increases and the effect of thermal radiation improvement.

The arc block 22 that forms the contact of fixed arc formation 22a has one side firmly embedded in the fixed conductor 3 and other side firmly embedded in the lower side of the base support 1 and, therefore, any heat in the contact fixed 4 is transmitted to the arc block 22 via the fixed conductor 3. Then, the heat radiation rises through the air of designated convection and heat radiation from the back side into the external air, through the bottom side of the base support 1, and an increase in temperature in the conductive part is eliminated of current. In this sense, if the lower back side of the base support 1 ripples to increase the area of thermal radiation on the lower back side, the thermal radiation effect is It will perfect even more.

Industrial applicability

As described above, a circuit breaker of compressed air according to the invention includes in a support: a fixed conductor on which a fixed contact is fixed; a component mobile on which a mobile contact that comes into contact is fixed with and that is separated from the fixed contact by a mechanism of Connection; and an electric arc extinguishing chamber to extinguish an arc generated between the two mentioned contacts; and the compressed air circuit breaker is provided with an emission window formed in a part of the support to emit the electric gas outside of the support and of a fan hole that opens in a section opposite to the indicated emission window and forms an air passage in the support and, as a consequence, the air convection of the hole fan to the window of the emission of the support cools the contacts and a current conducting part close to the contacts, and an increase in temperature is eliminated due to a heat generated by the circulation current.

In addition, the indicated compressed air circuit breaker it is provided with a valve component to close the hole fan when a pressure in the support increases and, as Consequently, the valve component prevents electric gas is discharged through the fan hole when the current is See interrupted due to any accident.

In addition, an arc block provided with a fixed arc contact extending to the chamber of arc extinction to conduct an electric energy and transmit a heat from the fixed contact, and a contact of mobile arc formation that comes into contact with the contact of fixed arc formation when the two contacts open, they have provided so that they extend into the extinguishing chamber of electric arc so that electrical energy can be conducted and the heat can be transmitted from the mobile contact and, consequently, the arc block and the formation contact of mobile arcs, to which no electric current is applied when contacts are connected in conditions normal, can be increased in the area of thermal radiation and Cool effectively.

In addition, a pole is opened and closed by several mobile components, and each of the mobile components is provided with the mobile arc forming contact that extends towards the electric arc extinguishing chamber and, as Consequently, all mobile arc formation contacts they act as radiation fins, and the area of thermal radiation Increase more. Therefore, it is possible to eliminate an increase in temperature of the current conducting part of the circuit breaker compressed air within a maximum temperature range regulated.

Claims (4)

1. A compressed air circuit breaker that understands: - a fixed conductor (3) on which a fixed contact (4); - a mobile component (6) on which it is fixed a mobile contact (5) that comes in contact with and that departs from the fixed contact indicated (4) by a connection mechanism; Y - an electric arc extinguishing chamber (17) to induce and extinguish an electric arc generated between the designated mobile contact (5) and the fixed fixed contact (4); - the aforementioned fixed conductor (4), the said mobile component (6) and the said arc extinguishing chamber (17) are arranged on a support (1); and the indicated compressed air circuit breaker is characterized in that it also contains - an emission window (1c) that is planned on the side of the aforementioned arc extinguishing chamber (17) of the cited support (1) to emit the electric gas from said support (1) up to the outside of the support (1) and - a fan hole (1d) that is placed in a opposite side of the aforementioned electric arc extinguishing chamber (17) of said support (1) and forms an air passage by convection natural of the fan hole (1d) towards the emission window (1 C). 2. The compressed air circuit breaker according to claim 1, characterized in that it also contains a valve component (21) for closing the indicated fan orifice (1c) when a pressure in the said support (1) increases. 3. The compressed air circuit breaker according to claim 1 or 2, characterized in that: - an arc block (22) that has been provided with a fixed arcing contact (22a) extending towards the aforementioned electric arc extinguishing chamber (17) for driving an electrical energy and transmit a heat from the fixed contact designated (4), and a mobile arcing contact (6a) that comes into contact with the fixed arcing contact indicated (22a) when the two contacts mentioned (4) and (5) are opened, they are planned so that they extend towards the chamber of designated arc extinction (17), so that the energy electric can be conducted and heat can be transmitted from the cited mobile contact (5). 4. The compressed air circuit breaker according to claim 3, characterized in that a pole is opened and closed by several mobile components (6), and each of these mobile components (6) is provided with the mobile arcing contact (6a) which extends to the designated arc extinguishing chamber (17).