DE60211562T2 - AIR BREAKER SWITCH - Google Patents

Description

 technical area

The The present invention relates to a structure for suppressing a Temperature rise of a current-carrying Conductor at an opening and closing Contact as well as nearby the contact in a (pressure) air circuit breaker at the time an electric current is applied to the conductor under normal conditions.

State of technology

3 Fig. 15 is a side sectional view showing a conventional air-circuit breaker such as described in Japanese Patent Publication (unexamined) No. 303930/1993, for example.

In the drawing, the reference numeral 1 a base housing, which is a main base 1a and a second base 1b includes, both formed of an insulating material. reference numeral 1c is an arc gas emission window attached to the base housing 1 is trained. reference numeral 2 is a housing cover, reference numeral 3 are stationary conductors that are parallel at the second base 1b are arranged and which are present in the same number as poles this air circuit breaker, and in which a stationary contact 4 fixed to one end of each stationary conductor, and the other end is out of the base housing 1 led out and forms a degree 3a on the power supply side. reference numeral 5 is a moving contact leading to the stationary contact 4 points and comes in contact with and is separated from the stationary contact 4 , and reference numeral 6 is a movable element to which the movable contact 5 is fixed. reference numeral 7 is a contact arm that rotates the movable element 6 holds, reference numerals 8th is a stopper pin for the movable element to the movement of the movable element 6 to block any unneeded part, and reference numerals 9 is a contact arm shaft that rotates the contact arm 7 on the base housing 1 wearing. reference numeral 10 is a graduating conductor and part of the graduating school, who works at the main base 1a is fixed and out of the base housing 1 is led out, forms a load side conclusion 10a , The reference number 11 is a flexible conductor for connecting the movable element 6 with the final coordinator 10 so as not the movement of the moving element 6 to regulate.

reference numeral 12 is a contact pressure spring around the moving element 6 to force in the opening direction and reference numerals 13 is a switching mechanism part for opening and closing the movable member 6 , which with the contact arm 7 through a wave 14 connected is. reference numeral 15 is a relay operation part. The switching mechanism part 13 includes a well-known bistable connection mechanism and is on a D-shaped latch 16 latched with the relay control unit 15 is engaged. reference numeral 17 is an arc quenching chamber, with an opening, so that arc gas outward through the arc gas emission window 1c can be emitted. reference numeral 18 is a closing spring, in the closing drive forces of the switching mechanism part 13 are collected, and reference numerals 19 is a ratchet mechanism to which the closing spring 18 pressed together and picked up by a handle 20 or a motor, which are not shown.

This type of conventional air circuit breaker detects an overcurrent flow by a connected load or surplus caused by a malfunction or the like, and the relay operation part 15 releases the switching mechanism part 13 from the D-shaped latch 16 , Consequently, the switching mechanism part becomes 13 brought into operational readiness, whereby the contact arm 7 is pushed up and around the contact arm shaft 9 by the force of the contact pressure spring 12 rotates. At the same time the moving element becomes 6 rotated counterclockwise, it being the shaft 14 turns, with the movable contact 5 away from the stationary contact 4 is moved and the electric current flowing between the two contacts is interrupted. At this time, an arc is induced between the contacts and through the arc quenching chamber 17 cleared and arc gas that is generated during this process, through the arc gas emission window 1c emitted.

A rated current of 1000 to several 1000 amperes flows in this type of air circuit breaker, and a temperature increase caused by the flowing rated current, accelerates the wear of the parts. To prevent wear, a maximum temperature of a live part is normalized by a standard. In the conventional air circuit breaker described above, the stationary contact 4 , the moving contact 5 and circumferential guide passages such as the movable element 6 etc. in a closed room with only the arc gas emission window 1c arranged to isolate a current-carrying charging member and an arc, which is generated at the time of interruption of an excess electric current to shield and to prevent arc gas to the switching mechanism part 13 flows. As a result, when a nominal current is applied thereto, heat remains due to the contact resistance between the stationary contact 4 and the moving contact 5 and due to resistance of the circumferential conductive passages, such as the movable element 6 , exist and increase the temperature in the base housing 1 , Consequently, there is a problem that the temperature of the current-carrying part rises above the normalized maximum temperature.

The The present invention has been made to to solve the problem discussed above and has as an object a rise in temperature at the live part in the (pressure) Air circuit breaker by effectively radiating a Warmth, which is generated in the air circuit breaker to suppress.

epiphany the invention

One Air circuit breaker according to the invention comprises in a housing: a stationary one Conductor on which a stationary Contact is fixed, a moving element where a moving one Contact who over a switching mechanism comes in contact with and moves away from the stationary one Contact, fixed, and an arc extinguishing chamber for extinguishing a Arc generated between said two contacts, and the air circuit breaker is with an emission window formed, which is formed on one side of the quenching chamber of the housing, to arc gas from the housing and a ventilation hole, the one on the opposite Side of the extinguishing chamber of the housing is arranged and which forms an air passage in the housing, by natural Convection from the ventilation hole to the emission window.

It is preferred that the listed Air circuit breaker with a valve element for closing the vent hole is formed when a pressure in the housing increases.

It It is preferred that an arc block be formed with a stationary arcing contact is, which is to the arc quenching chamber extends so as to conduct an electric energy and heat of the stationary one Transfer contact, and a moveable arcing contact, the one with the stationary Arcing contact comes into contact at the time in which the two contacts open are provided, which are to the arc extinguishing chamber extend so that the electrical energy can be passed and the heat can be transferred from the movable contact.

It it is preferred that a pole by means of several movable elements open and is closed, and each of the several movable elements with the movable arcing contact contacting the arc quenching chamber extends, is formed.

Short description the drawings

1 Fig. 10 is a sectional view of an essential part of a (pressure) air circuit breaker according to the present invention.

2 is a perspective view of a current-carrying part of the air circuit breaker according to the invention.

3 FIG. 15 is a side sectional view of a prior art air circuit breaker. FIG.

Best mode to run the invention

Embodiment 1

1 Fig. 10 is a sectional view of an essential part of a (pressure) air circuit breaker showing Embodiment 1 according to the present invention, and Figs 2 is a perspective view of a current-carrying part of the air circuit breaker according to Embodiment 1.

In the drawings, the reference numerals 1 . 3 to 13 and 17 the same as those listed in the conventional air circuit breaker and a further explanation thereof will be omitted here.

reference numeral 1d is a vent hole that attaches to the base housing 1 opens and on an opposite side of the arc extinguishing chamber 17 is arranged. reference numeral 21 is a valve element of the vent hole 1d , and this valve element allows air from outside to inside to the base housing 1 under normal conditions, and closes the vent hole 1d when the pressure in the base housing 1 increases. reference numeral 6a is a movable arcing contact formed by extending a movable element conductor from a part in which the movable contact 5 of the movable element 6 is fixed, to one end, is formed. reference numeral 22 is an arc block attached to the stationary conductor 3 in the direction of the arc quenching chamber 17 is mounted and in which one side close to the stationary conductor 3 is fitted, and another side that crosses at right angles is close to a bottom side of the base housing 1 customized. This arc block 22 is with a stationary arcing contact 22 formed at a position which is in contact with the movable arcing 6a has. Several moving elements 6 which are arranged in parallel form an opening and closing part of a pole, as in 2 shown. In addition, a recess groove 22b at the arc block 22 formed on a part with which the movable arcing contact 6a does not come in contact.

The air circuit breaker according to the above construction becomes the power supply side termination 3a installed upward, the arc quenching chamber 17 on the upper side and the vent hole 1d is arranged on the lower side, as shown in the drawings. Accordingly, an air passage between the vent hole 1d and the arc gas emission window 1c educated.

Consequently, heat is generated at a part where the movable contact 5 in contact with the stationary contact 4 stands, and at the circumferential line passages as the movable element 6 when an electric current is applied, generated by natural convection from the vent hole 1d to the arc gas emission window 1c cooled, wherein a temperature increase is prevented inside.

Further, when the applied electric current is interrupted, the valve element closes 21 the vent hole 1d by the generated arc gas pressure, and this prevents the arc to a metallic material, which under the vent hole 1d is arranged, grounded.

Now, the operation of the movable arcing contact will be 6a and the stationary arcing contact 22a described below. The moving elements 6 connected to the switching mechanism part 13 are connected, are in a locked position in relation to the contact arm 7 , the stop pin for the moving elements 8th and the contact arm shaft 9 so as to oscillate at the time of turning on / off. During the start-up process, the arcing contact comes first 6a in contact with the stationary arcing contact 22a , whereby the application of an electric current starts. The switching mechanism pushes further, whereby the contact point acts as a fulcrum, and the movable contact 5 comes in contact with the stationary contact 4 , Subsequently, the switching mechanism continues to push continuously, whereby the pivot point to the side at which the movable contact 5 in contact with the stationary contact 4 stands, is offset. As a result, the movable arcing contact contacts 6a separated or moved away from the stationary arcing contact 22a , and the electric current flows over the entire side, at which the movable contact 5 in contact with the stationary contact 4 stands.

During the interruption of the electric current becomes, with the lifting of the moving elements 6 through the switching mechanism, the movable contact 5 slightly from the stationary contact 4 moved away and the electric current is applied between the two contacts by means of an arc. The following are the moving elements 6 through the contact pressure spring 12 pressed and clockwise around the shaft 14 rotated, and the movable arcing contact 6a comes into contact with the stationary arcing contact 22a , At this time, the current flows through the point in which the movable arcing contact 6a in contact with the stationary arcing contact 22a is parallel to the arc current between the two contacts. By a further lifting operation of the switching mechanism, while the movable arcing contact 6a in contact with the stationary arcing contact 22a held, the moving contact 5 far away from the stationary contact 4 moves, wherein the contact point is used as a fulcrum, whereby the arc extends between the contacts. As the arc extends, the arc resistance is increased and the current flow becomes primarily the point at which the movable arcing contacts 6a in contact with the stationary arcing contact 22a stands, staggered. With a further actuation by the switching mechanism moves the movable arcing contact 6a away from the stationary arcing contact 22a and the arc generated there is induced and through the arc quenching chamber 17 deleted.

As described above, under the normal condition of applying an electric current, unlike the opening and closing operation, the current flows neither by the movable arcing contact 6a still through the stationary arcing contact 22a and therefore there is no heat generation due to the application of current at that location to that part. However, there may be heat conduction from the contact part, and this reduces the advantage of increasing the heat radiating area.

The mobile arcing contact 6a and the arc block 22a Both are connected to the contact side at which the movable contact 5 in contact with the stationary contact 4 and at which a heat is mainly generated act as a heat radiating element caused by con vection air in the air passage between the vent hole 1d and the arc gas emission window 1c is cooled, and it is therefore suppressed that the current-carrying part has a temperature rise.

Further, the opening / closing part of a pole includes a plurality of movable elements 6 including the moving arcing contacts 6a which are arranged in parallel and therefore have the movable arcing contacts 6a a large heat radiation area in total. The arc block 22 is with recess grooves 22b is formed along the direction of the air flow, and therefore the heat radiation area is increased and the heat-radiating effect is improved.

The arc block 22 holding the stationary arcing contact 22a forms, has a side fixed to the stationary conductor 3 is adjusted, and another side fixed to the bottom side of the base housing 1 is adjusted, and therefore any heat that is in the stationary contact 4 is present, to the arc block 22 over the stationary conductor 3 transferred. Then, the radiation of heat by the mentioned convection air and the radiation of heat from the rear side to the outside air through the bottom side of the base housing 1 promoted, and a temperature increase of the current-carrying part is suppressed. In the same sense, when the back bottom side of the base housing 1 is finned to increase the heat radiating area and the rear bottom side, the heat-radiating effect also improves.

commercial applicability

As previously described includes a (pressure) air circuit breaker according to the invention in a housing: a stationary one Conductor on which a stationary Contact is fixed, a moving element on which a mobile Contact, which by means of a switching mechanism in contact with and can be separated from the stationary contact, fixed, and an arc quenching chamber to delete an arc generated between the mentioned contacts, and the air circuit breaker is with an emission window, that on a part of the case is formed to radiate arc gas from the housing, and a vent hole formed, which is open at a part which leads to said emission window and forms an air passage in the housing, and as a result thereof cools the air convection from the vent hole to the emission window in the housing the contacts and a current carrying Part near of the contacts, and a rise in temperature due to heat passing through the flow of the stream is suppressed.

Further is the mentioned one Air circuit breaker formed with a valve element for Shut down the vent hole, if a pressure in the case rises and as a result the valve element prevents Arc gas through the vent hole blown out when the power is interrupted due to a fault becomes.

Furthermore is an arc block formed with a stationary arcing contact is that extends to the arc quenching chamber, so as to conduct electrical energy and heat from the stationary contact to transfer, and a movable arcing contact, at that time in contact with the stationary arcing contact is provided, in which the two contacts are opened, provided to the arc quenching chamber extend so that the electrical energy can be passed and the heat can be transferred from the movable contact, and as a result of it can the arc block and the movable arcing contact, where no electrical current is applied when the contacts Under normal conditions are increased in terms of heat radiation surface and effectively cooled become.

Further a pole is opened by a variety of moving elements and closed, and each of the plurality of movable elements is with the movable arcing contact going to the arc quenching chamber extends, formed, and as a result, all of the movable act Arc forming contacts as Abstrahlrippen and the heat radiation surface is even further enlarged. Therefore Is it possible, a temperature rise of the current-carrying part of the air circuit breaker to suppress in a range of a maximum rated temperature.

Claims (4)

(Pressure) air circuit breaker comprising: a stationary conductor ( 3 ), where a stationary contact ( 4 ), a movable element ( 6 ), where a movable contact ( 5 ), which comes in contact with and moves away from the stationary contact ( 4 ) by means of a switching mechanism, and an arc extinguishing chamber ( 17 ) for inducing and extinguishing an arc which exists between the movable contact ( 5 ) and the stationary contact ( 4 ), wherein the stationary conductor ( 4 ), the movable element ( 6 ) and the arc quenching chamber ( 17 ) in a housing ( 1 ) arranged and the air circuit breaker characterized in that it further comprises: an emission window ( 1c ), which is on the side of the quenching chamber ( 17 ) of the housing ( 1 ) is adapted to receive an arc gas from the housing ( 1 ) up to the outside of the housing ( 1 ) and a vent hole ( 1d ), which on one side opposite the arc quenching chamber ( 17 ) of the housing ( 1 ) and which an air passage by natural convection of the vent hole ( 1d ) to the emission window ( 1c ). Air circuit breaker according to claim 1, characterized in that it further comprises a valve element ( 21 ) for closing the vent hole ( 1c ), if a pressure in the housing ( 1 ) increases. Air circuit breaker according to claim 1 or 2, characterized in that an arc block ( 22 ) connected to a stationary arcing contact ( 22a ), which extends to the arc extinguishing chamber ( 17 ) so as to conduct an electric energy and heat from the stationary contact ( 4 ), and a movable arcing contact ( 6a ) connected to the stationary arcing contact ( 22 ) at a time when the two contacts ( 4 ) and ( 5 ) are open, are formed, which to the arc quenching chamber ( 17 ) so that the electrical energy can be conducted and the heat from the moving contact ( 5 ) can be transmitted. Air circuit breaker according to claim 3, characterized in that a pole by means of a plurality of movable elements ( 6 ) is opened and closed and each of the several movable elements ( 6 ) with the movable arcing contact ( 6a ) leading to the arc quenching chamber ( 17 ), is formed.