DE1106392B - Electric circuit breaker - Google Patents

Description

GERMAN

The invention relates to a circuit breaker which is actuated by a pressure medium Has contacts for breaking an electrical circuit and a blow valve with which a Pressure medium is controlled so that in the vicinity of the contacts a flow of the pressure medium to the Deletion of an arc drawn between the separable contacts when the contacts are separated is generated will.

It is known, electrical circuit breakers in which the arc by means of a pressure medium is deleted, to be provided with a blow valve, which at the beginning of a separating movement of the Arcing contacts provide a path for the pressure medium to flow into the vicinity of the arcing contacts releases. There are various embodiments of blow valves known in which on the one side of a movable valve piston the force of the pressure medium or a spring or both forces act together while the other side of the piston is acted upon by a counterforce, which is sufficient to keep the piston in the closed valve position. By venting a the closure causing the gas pressure or some other suitable relief of the valve piston the valve is suddenly opened by the counterforce.

It is also known to design the blow valve as a shock valve, which is mechanically via a lever arrangement is opened, the opening force also with graduated size during the opening process and speed can act on the valve.

To initiate the opening process in blower valves of the known embodiments, the entire force required for opening must first act on the valve during the separating movement of the arcing contacts. If the separation of the arcing contacts is to take place very quickly at first with high acceleration, it is difficult to precisely set the correct time sequence between the separation movement w of the contacts and the opening of the blow valve. Correct disconnection of the circuit breaker is thus called into question.

The invention has set itself the goal of an electrical circuit breaker with pressure medium create whose blow valve is triggered quickly and safely and therefore overcome these difficulties will.

According to the invention, this object is achieved in that means are provided with which on the Blow valve only a substantial part of the force that is required to open the valve is applied is, and that further means are provided with which causes a separation of the contacts and at Electric circuit breaker

Applicant:

Allis Chalmers Manufacturing Company, Milwaukee, Wis. (V. St. A.)

Representative: Dr. W. Muller-Bore

and Dipl.-Ing. H. Gralfs, patent attorneys,

Braunschweig, Am Bürgerpark 8

Claimed priority: V. St. v. America September 13, 1955

Julius Walter Timmerman, North Weymouth, Mass.

(V. St. A.),
has been named as the inventor

Beginning of the separating movement of these contacts, the remaining part of the force required to open the blow valve is required, is applied to this.

Since the blow valve already opens in its opening direction when it receives a switch-off command most of the pressure required to open it is biased, needs during the separating movement the arcing contacts only a small part of this pressure has to be applied to the The valve can be fully opened. This small part of the opening force is created by the same means which also complete the separation of the arcing contacts, brought into action on the blow valve, so that this opens safely and always in a fixed time sequence with regard to the arcing contacts.

Further features of the invention are described with reference to the drawing.

Fig. 1 is a schematic view, partly in side view, of one with a printing medium Figure 3 illustrates an actuated circuit breaker according to the invention;

Fig. 2 is a fragmentary view, on an enlarged scale, of the blow valve assembly shown in Fig. 1;

Fig. 3 is a view taken in the direction of line IH-III in Fig. 2;

FIG. 4 is a section along the line IV-IV of FIG. 2.

1 shows a circuit breaker with a container 6 designed as a component, which is used to store a pressurized medium

109 580/323

3 4

serves. The pressure medium used is, for example, pressure valve 29, outlet opening 32 and the pipeline

air into consideration, which can flow from a suitable, non-air 44 to the drive 16. If the electro-

provided compressor can be delivered. Although solenoid operated valve 25 closes again,

Circuit breakers of the type under consideration here in general bring the pressure medium in line 28 to the

commonly associated with a plurality of similar switch atmospheres. This allows the spring

poles are equipped, with one each for 35 close the valve 29 again and the connection

collapse each phase of a multi-phase electrical system, manure linkage 36,

only one switch pole is shown. The switch is the drive 16, a cylinder 47 and a

also described in detail as if it were formed in a piston 48 provided with a piston rod 49

a single-phase version would be available. io holds is via a connecting rod 50 and a

The switch includes a fixed light crank arm 51 connected to shaft 40. The arrival

arcing contact 7 and a drive 16 with this is provided with a relief valve 52,

acting movable arcing contact 8, which by the pressure above the piston 48 at the top

Terminals 9 and 10 with an electrical power end or near the top of the hub

circle are connected. The arcing contacts are so 15 releases. The relief valve 52 has openings

attached that they are provided in an arc chamber 11 55, which are released by a plate 56

come to the intervention. The arc chamber 11 den. The plate 56 is by a spring 57 in the

is printed with an arc extinguishing chamber 12 in a direction in which the openings are exposed

Level. The arc chamber 11 is located axially in a.

Direction with a hollow insulator 13, which has a 20 The shaft 40 is provided with a cam 60,

suitable blow valve 14 a connection between the rotation of the shaft in the off position

the container 6 and the arcing chamber 11 then bring the switch to one at one end of the lever

represents to a beam of the arc-extinguishing stream- 37 attached roller 61 pokes out when the lever 37 pushes through

Menden medium under pressure between the light, the control valve 29 is set so that it is in the

arcing contacts and through the arc chamber 11 25 engagement path of the cam 60 is located. The drive 16

respectively. not only actuates the shaft 40 and the cam 60,

The blow valve 14, which is used to initiate the opening but also as a second drive for generation

Operation requires a relatively large amount of force, is also required to open the blow valve.

Fang through the joint action of a short-term borrowed force.

lifted, powerful, operated by pressure medium 30 As can be seen from FIGS. 1 and 2, the Drive 15 and a pressure medium operated valve stem 34 of the valve element 33 of the control plane Drive 16, which moves the contacts, actuates valve 29 via a bracket 41 with the connection. The blow valve 14 opens or blocks a connecting rod 36 connected. In the top position of the Let opening 18 for the print medium. The drive 15, valve element 33 is located in the linkage 36 which is arranged coaxially to the blow valve 14, has 35 a folded over position. The ones that hang down Cylinder 19, a piston 20, a piston rod and the swing arms 39, which rotate freely around the shaft 40 or a valve stem 21, a spring 22 and a can rotate, form the bearing for the pin 38, Inlet opening 24. The piston 20 is movably seated on which, in turn, the lever 37 for actuating the on the piston rod 21. It engages but is mounted on a blow valve. The one operating the blow valve the piston rod provided paragraph, while 40 cam 60 is firmly connected to the main shaft 40 the piston rod a predetermined distance in the opening and in Fig. 1 in the switched-on position of the shuttering direction of the valve. ters immediately above the roller 61 of the lever 37-an electromagnetically operated valve 25 opens in an orderly manner. In Fig. 2 the cam is in the automatically, as soon as a short-circuit is shown in the over-switch-off position of the switch, monitored circuit occurs. The valve 25 controls 45. The lever 37 for actuating the blow valve can free to rotate the flow of print medium from the bed about pin 38. However, he will holder 6 through a pipe 27, the valve 25, which by gravity against an extension of the Pipeline 28 of a control valve 29 and pushed through the valve stem or the piston rod 21. Inlet port 24 of the cylinder 19 for actuation of the An incipient movement of the piston 48 of the piston The valve 29 has a valve housing 30, a rotation of the main shaft 40 and the cam 60 Inlet port 31, an outlet port 32, a valve - clockwise. At the same time, the valve element has 33, a valve stem 34 and a compression spring stem 34 of the control valve 29, the connection 35 on. Pressed into the folded-over position via a collapsible connecting rod 36, Linkage 36 is the valve 29 with a lever 37 55 so that the roller 61 of the lever 37 in the engagement through a pin 38 connected. The lever 37 is located on the path of the cam 60. The torque of the shaft by the pin 38 with two swing arms 39, which is on 40 during the beginning of the opening movement a vibrating shaft 40 are loosely attached, the switch via the cam 60 and the roller 61 rotatably connected. A link 43 connects the transmitted to the lever 37 to substantially oscillating shaft 40 with the movable sickle 60 at the same time as the opening movement begins shaped arcing contact 8. When the switch contacts the opening movement of the blown arcing contact to be initiated in the switched-on position of the valve 14.

Switch is located, the valve 29 is also when the cam 60 via the lever 37 with the

closed, whereby the valve element 33 comes into connection with the outlet valve stem 21, is on the opening 32 closes off. 65 blow valve 14 exerted a force slightly greater

When the control valve 29 is through the pressure medium than the difference between the opening force of the

in the conduit 28 is opened, the piston 20 moves and the force that is required to

A'entilelement 33 to initiate an opening process of the valve against the action of the spring 35. One

upwards, so that the pressure medium from the pipe continuation of the rotary movement of the cam 60 beleitung 28 through the inlet opening 31, the control 70 acts the rotary movement of the lever 37 clockwise

sense, which is required to fully open the blow valve 14. The compressed air coming out of the container 6 flows into the housing 62 when the blow valve 14 is opened, can flow through a bore 63 directly over the valve stem 21 in the housing wall enter the cylinder 19 on the side of the piston 20, which is opposite the opening 24. The force of the compressed air entering from the opening 63 is equal to the Pressure of the compressed air flowing in through the inlet opening 24 on the piston 20 quickly. So that when the cam 60, with its continued clockwise rotation, releases the roller 61 of the lever 37, the last component of the opening force acting on the blow valve 14 is removed, and that The blow valve closes immediately under the effect of the overpressure in the container. The spring 22 exercises no significant Closing force on the valve 14 from. The main purpose of the spring 22 is to provide the inlet port 18 of the blow valve 14 to close effectively and thereby leakage losses that an initial filling of the container 6 would delay to prevent.

The cam 60 controls both the opening and closing movement of the valve stem 21. Die The shape of the cam surface can be designed in such a way that it defines the opening and closing times as well as the period in which the blow valve remains open, exactly determined.

When the switch reaches a certain position during the switch-off movement, the opening 59 is in the The cylinder 47 of the drive 16 is exposed from the piston 48. Compressed air now flows through opening 59 and the pipeline 64 to the electromagnetically operated shut-off valve 25, around the one shown in FIG Auxiliary valve 84 of valve 25 to close. Closing this auxiliary valve 84 causes a Main valve 83 of valve 25 in turn closes and thereby at the same time an outlet opening 67 on the lower side opens to the atmosphere. This makes the supply of compressed air to the main blow valve line or line 28 shut off, the remaining compressed air escaping to atmosphere in the line can.

Simultaneously with the collapse immediately following the closing of the control valve 25 of the pressure in the line 28, the valve member 33, which is controlled by the spring 35, returns is pressed back to its original position. The connecting rod 36 collapses as a result, and the rocker arms 39 rotate counterclockwise around the main shaft. Which resulting displacement of the pin 38 causes the lever 37 to move to the point in which it is with the valve stem 21 collides, rotates clockwise as the instantaneous pivot point, whereby its roller 61 emerges from the path of engagement of the cam 60. This shifted position of the roller 61 is the normal situation when the switch is turned on. The blow valve operating cam 60 is therefore only effective when the switch is switched off.

In practice it is possible for a circuit breaker to close in the event of a fault in the circuit and the tripping time settings of the protective relays are set so that a switch-off pulse is triggered the switch is given before it has fully reached the switch-on position.

The effect of such a triggering process on the operation of the blow valve would be as follows be: Initially, the closing movement of the valve actuating cam 60 would be delayed, namely possibly to such an extent that the opening movement of the switch would begin, while the cam is still a substantial distance from its normal position when closed Switch has.

If this case were possible, the closing movement of the switch would stop. The role 61 would abut the cam 60 before the collapsible linkage 36 is in the folded over position and the normal valve actuation force of the cam would be at the start of the opening movement of the switch cannot be transmitted to the stem 21 of the valve 14 via the lever 37. One episode of this could be a compressed air jet at the contact separation of the switch, which is used to extinguish the resulting arc is not sufficient.

In order to prevent such failure of the blow valve, the valve element 33 is designed so that it exerts sufficient force to operate the collapsible lever 36 regardless of any interfering Influence that a premature meeting of the lever 37 with the cam 60 actuating the valve could cause pushing through to over dead center. In the event of such a premature meeting causes the valve element 33 via the collapsible lever 36 that the lever 37 rotates around the point of contact of the roller 61 with the cam 60 as the instantaneous fulcrum, so that the Valve 14 is pushed to its fully open position. Since the valve element 33 the inflow of Compressed air to the opening cylinder of the switch regulates, as already described, remains the correct sequence of Contact separation of the switch and opening of the blow valve obtained.

The closing of the arcing contacts is activated by the activation of an electromagnetically operated Valve 69, which is essentially the same as valve 25, initiated. The valve 69 connects the container 6 with one connection of the drive 70.

The drive 70 rotates the shaft 40 counter to this via a connecting rod and a lever 71 Clockwise so that contacts 7 and 8 are closed. The drive 70 consists of one Cylinder 72, a piston 73 and a relief valve 74. The valve 74 is provided with openings 76, which are released from a plate 77. The plate 77 is pressed by a spring 78 in the direction in which the openings are exposed. The other connection of the closing drive 70 is via an outlet opening 79 and a pipe 75 connected to the solenoid operated valve 69. In the In the switched-on position of the switch, the piston 73 of the drive 70 is in its lowest position Position.

The valve 25 consists of a casting which forms a cylinder 80 which has an inflow opening 81 for the pressure medium and an outlet opening 82 is provided. The opening 81 is with the pipeline 27 and the opening 82 is connected to the pipeline 28. The cylinder 80 is with a differential piston or main valve member 83 is provided which is arranged in the cylinder 80 so that between the lower and the upper side of the valve member 83 has a passage of a predetermined cross section is. The cylinder 80 is also provided with an auxiliary valve 84, the opening of which the movement of the Main valve member 83 initiates. The auxiliary valve 84 is arranged within a casting 85 which is in the Cylinder 80 is inserted. A spring 86 urges the valve 84 in the closed position. The valve 84

is provided with a throttling cap 87 which forms a defined piston area. A small amount of Air passing through the auxiliary valve 84 lifts the auxiliary piston or cap 87 against the action of the Spring 86 high enough so that the entire piston area of piston 88 is effective and against the action the spring 86 can be raised. The piston 88 is inserted into the casting 85 that it has a passage of a predetermined cross-section for the air flow from the lower to the upper side of the piston allows. The top of the piston 88 is through a plurality of vent holes 89 with the Atmosphere in connection. A resilient, sealing material 90 is disposed within the piston 88, which creates a complete seal when the auxiliary valve 84 is closed. When the main valve 83 is lifted from its circular valve seat 120, so that a direct connection between the openings 81 and 82 is created, closes a valve member 121, which is connected to the piston ao actuated valve member 83 is connected by a rod 122, an opening 67 to prevent the air escapes through the opening 67 to the atmosphere.

The auxiliary valve 84 is controlled by a spring-loaded lever arm 91, which is attached to a push rod 92 pushes, held closed. The push rod 92 rests on the shaft of the auxiliary valve. Of the Lever arm 91 is rotatably attached at 93 and is arranged to be attached to a fitting 95 at 94 Magnet 96 can be attached. The magnet 96 furthermore has a coil 97 and a core or a casting 98 of paramagnetic material.

The spring 101 pushes the lever arm 91 in the direction in which the valve is closed. She is strong enough to keep the auxiliary valve closed once closed, but not strong enough to close the auxiliary valve when it is open.

The casting 98 forms at its lower end a cylinder 102 made of non-magnetic material, which with a piston 103 made of paramagnetic material is provided. The piston 103, which is part of a magnetic pole 105 forms, is urged by a spring 104 in its lower position; when he pressed it moves the magnetic pole 105 upward. The PolOS acts on the link 95 and rotates the lever arm 91 counterclockwise. The lever arm 91 then holds the auxiliary valve 84 closed Position.

The casting 98 is provided with two components, one of which in each of the two end positions in the Cylinder 102 is arranged. These components form pole faces around the piston 103 in one of the two To hold layers magnetically.

The piston 103 of the valve mechanism 25 can through the pressure medium in the cylinder 47 of the drive 16 can be actuated via an opening 59 and a pipeline 64. The piston 103 of the similar valve 69 can through the pressure medium from the cylinder 72 of the drive 70 via a pipe 75 or through the pressure medium in the pipeline 28 can be actuated via a pipeline 100.

If so desired, a manually operated emergency shut-off mechanism for the auxiliary valve can be used be provided to open the main valve member 83.

When a short circuit occurs in the circuit, the actuating coil 97 of the valve 25 is also activated Powered. The member 95 is operated so that it the lever arm 91 clockwise about its pivot point 93 rotates so that the auxiliary valve 84 is released. If the overpressure of the medium in the container 6 is below a certain value, that on main valve member 83, auxiliary valve 84 and piston 88 is sufficient passing air does not cause the auxiliary valve 84 to be appreciably lifted from its seat. At a predetermined Container pressure generates the air flowing past the main valve member 83 between the Main valve member 83 and the auxiliary valve 84 an excess pressure that is large enough to the cap 87 of the Auxiliary valve 84 to raise so far that the flow around the cap 87 is large enough to under the Piston 88 to build up a pressure which pushes the auxiliary valve 84 into its open position and in this holds on. The pressure between the main valve member 83 and the piston 88 is to a predetermined low value, whereby the pressure on the upstream side of the main valve member 83 the valve member 83 pushes into the open position and holds in this. Even in the open position, that is enough Air flowing past the valve member 83 is still discharged in order to keep the auxiliary valve 84 open. The spring 86 has enough force to keep the auxiliary valve closed. However, the spring force is not sufficient for the auxiliary valve to close once it is open.

Via the electromagnetically actuated valve 25, the pipeline 28 is supplied with compressed air, which is open the piston 20 exerts a pressure and thereby on the valve stem 21 in the opening direction of the valve acts. The effective area of the piston 20 is chosen so that it fits onto the stem of the blow valve 14 Exerts force that is about 80% of the force required to open the valve.

Simultaneously with the supply of compressed air to the drive 15, the compressed air acts directly upwards the inlet port 31 and exerts pressure on the valve element 33. The valve element 33 is in its upward movement, the opening 32 in the wall of the valve body 30 free. The compressed air from the Pipe 28 then flows through the outlet opening

32 and the pipeline 44 to the cylinder 47 of the drive 16. As a result, the valve 29 determines the Moment of actuation of the opening drive 16 for the switch and creates when the valve is open is. for the print medium a supply channel to the drive 16. The supply of the print medium through the Pipeline 28 causes a predetermined opening pressure at the blow valve 14 and control valve 29 and then allows the pressure medium to be fed to the drive 16 in order to open the arcing contacts. The upward movement of the valve member 33 is via the bracket 41 on the collapsible lever 36 transferred. The levers 36 are brought into their predetermined folded over position by the valve element moves when the valve element reaches its upper position. The upward movement of the valve element

33 and the subsequent movement of the levers 36 into their folded-over position cause the roller 61 of the lever 37 comes into the engagement path of the cam 60 on the shaft 40. The beginning movement of the piston 48 of the drive 16 in the switch-off direction of the switch causes the shaft to rotate 40 and the cam 60 clockwise. The rotating force of the cam 60 is instantaneous via the roller 61 transferred to the lever 37 to the opening movement of the blow valve 14 substantially to be initiated simultaneously with the opening movement of the contacts of the switch. The cam 60 provides the additional force required to blow the

opening valve. Continuing the rotary motion of the cam causes the rotary motion of the Lever 37 in the clockwise direction required to fully open the blow valve.

The compressed air released by the blow valve 14 from the container 6 flows through the channel 63 into the Chamber of the cylinder 19 on the driven side of the piston 20 and builds a back pressure here Piston 20 which, when the roller 61 is released by the cam 60, allows the compressed air in the container 6 pushes the blow valve 14 into the closed position.

When the movable contact 8 reaches a predetermined position during its opening movement, the piston 48 of the drive 16 releases the opening 59 so that compressed air can pass through the opening 59 and the pipe 64 to the underside of the piston 103 in the cylinder 102 .

The piston 103 and member 105 are moved upward and push the member 95 upward so that the lever arm 91 rotates counterclockwise. The rod 92 is slidably arranged in a cup-like part 119 and is actuated by the lever 91 so that the auxiliary valve 84 is closed, whereby a pressure can build up behind the main valve member 83 to close the valve. Once the auxiliary valve 84 has been closed by an external force, the force of the springs 86 and 101 is sufficient to keep the valve closed.

When the coil 97 is supplied with current, the piston 103 of the pole member 105 is magnetically held in one of the two possible positions. When the pressure in the pipe 64 is below a predetermined value, the piston 103 is in its lower position. The magnetic flux passing through the core 98 continues through the lower pole faces and the piston 103 to magnetically hold it in its lower position. The magnetic flux in core 98 attracts member 95 and moves it down to pole member 105 , causing lever arm 92 to rotate clockwise and spring 101 to compress. Such a clockwise rotation of the lever arm 91 removes the external force from the shaft of the auxiliary valve 84. If the coil 97 is still energized after the contacts 7 and 8 are a certain distance apart, air flows from the pipes 28 and 44 through the drive 16 and the opening 59 in the cylinder 47 into the pipeline 64. The pressure medium in the pipeline 64 pushes the piston 103 and the magnetic pole member 105 upwards and away from the lower pole face. When the piston 103 reaches its upper position, it is attracted and held magnetically on the upper pole face in this position. As long as the coil 97 receives a certain current, the piston 103 remains in its upper position on the upper pole face.

During the upward movement, the pole member 105 pushes the member 95 upwards and, by turning the lever 91 counterclockwise, closes the auxiliary valve 84. When the valve cap 87 begins to throttle, the spring 101 pushes the auxiliary valve 84 in the closed position and holds it in this. Continuous activation of the coil 97 keeps the piston 103 on the upper pole face, while the lever arm 91 keeps the auxiliary valve 84 closed even when the pressure in the line 64 is greatly reduced.

With a brief actuation of a push button which supplies the coil 97 with current only so long that the auxiliary valve 84 is raised and held open, the auxiliary valve 84 would remain open until the valve mechanism 25 has completed a complete operation. When the auxiliary valve has opened, the spring 101 is not strong enough to close the valve. First, compressed air flowing through the drive 16 and the pipeline 64 must raise the piston 103 and the pole piece 105 in order to rotate the lever arm 91 counterclockwise and to move the auxiliary valve in the closing direction to the point at which the spring 101 engages and the auxiliary valve 84 and the main valve member 83 closes completely.

The circuit breaker is operated by a power supply of the solenoid operated valve switched on. This valve operates in the same way as valve 25 and allows flow therethrough of the pressure medium from the container 6 through the main valve member 83 to the drive 70. The actuation of the drive 70 closes the contacts 7, 8.

The pipes 75 and 100 are connected to the upper side of the housing 98 of the spool of the valve 69 and press the piston 103 of the valve 69 downwards in order to keep the auxiliary valve closed during a switch-off operation. As a result, if a switch-off movement is initiated during the switch-on movement of the switch, the opening valve is preferably actuated.

Claims (13)

Patent claims: 1. Circuit breaker, the separable contacts actuated by a pressure medium for interrupting an electrical circuit and a blow valve with which a pressure medium so is controlled that in the vicinity of the contacts a flow of the pressure medium for erasing a a drawn arc is generated between the separable contacts when the contacts are separated, characterized in that means are provided with which only an essential one on the blow valve Part of the force required to open the valve is applied and that continues Means are provided with which a separation of the contacts is effected and at the same time at the beginning the separating movement of these contacts takes up the remaining part of the force required to open the blow valve is applied to this. 2. Circuit breaker according to claim 1, characterized in that a first drive is provided that on the blow valve is a substantial part of the force required to open the valve is, that a second drive is provided for separating the contacts, that more primary Actuating means are provided that put both drives in action, and that finally secondary actuating means are provided, which at the beginning of the separating movement of the contacts from second drive can be operated so that the remaining part of the force required to open the blower valve is required to be exercised on this. 3. Circuit breaker according to claim 2, characterized in that means are provided with which the second drive is controlled so that it is at a predetermined time after actuation of the first drive becomes effective. 4. Circuit breaker according to claim 3, characterized in that said control means are a Included valve which is operated by said primary operating means so that the predetermined Time is fed to the second drive pressure medium. 109 580/323 5. Circuit breaker according to claim 4, characterized in that the primary actuating means is operated so that the first drive and at the same time pressure medium is fed to the valve in such a way that a predetermined one is applied to the first drive Pressure acts in the opening direction of the blow valve and that a predetermined pressure is applied to the valve Pressure acts, which brings this into the working position. 6. Circuit breaker according to claim 2 to 5, characterized in that the primary actuating means contain a solenoid operated valve that responds automatically when in the a short circuit occurs in the electrical circuit monitored by the circuit breaker. 7. Circuit breaker according to claim 4, 5 or 6, characterized in that the secondary actuating means has a rotatably mounted lever which is moved by the valve in a certain position in which the lever from second drive is operated so that it transfers its force to the blow valve. 8. Circuit breaker according to claim 7, characterized in that the lever with the valve is connected by a collapsible linkage that is initially collapsed from the valve Position is moved into a folded over position, whereby the lever is brought into its predetermined position. 9. Circuit breaker according to claim 8, characterized in that the lever when it is in its. Is a predetermined position, is actuated by the second drive via a cam which is effectively connected to the drive. that he is turned by this one.
- 10. Circuit breaker according to claim 9, characterized in that the lever around the point of contact is rotated with the cam as the current fulcrum. 11. Circuit breaker according to claim 8, 9 or 10, characterized in that the valve in its ineffective initial position is pressed. 12. Circuit breaker according to claim 11, characterized in that the valve is resilient Medium is pressed into the ineffective initial position. 13. Circuit breaker according to claim 11 or 12, characterized in that the valve with the collapsible linkage is connected so that a collapse of the linkage causes is when the valve when the predetermined pressure acting on the valve is removed in its inoperative position is pressed. Considered publications:
German patents No. 288 168, 538 658,
551527, 659281, 715 978. 1 sheet of drawings © 109 580/323 5.61