DE1027282B - Blow valve for pressure gas switch - Google Patents

Description

In order to facilitate the opening of valves, it has already become known in the case of manually operated valves, Provide auxiliary devices in addition to the manual operation, the lifting of the valve from his Should initiate the seat. However, such valves have proven to be unsuitable for operation with frequent switching changes and proven to have a large switching sequence. For such operating conditions, so-called Fast-switching valves proposed not by hand, but automatically by means of an actuating device be operated. The actuating device is dimensioned so that it is the largest Resists stresses and strains without being damaged. The greatest demands occur when the valve is lifted from the seat and act as a shock load due to the short switching times on the actuator. The actuating devices are therefore in the known quick-acting valves very large dimensions and therefore take up an undesirably large installation space.

In contrast, the invention relates to blow valves for compressed gas switches with an actuating device for the valve.

The object of the invention is to overcome these disadvantages. The underlying of the invention Problems are particularly evident with the quick-acting valves for electrical circuit breakers.

In the case of electrical circuit breakers or the like operated by a pressure medium, a pressure medium source is usually used connected to a pressurized medium motor in order to connect the arcing contacts or To separate short-circuit contacts and to open a blow valve, such that a pressure medium in the direction of the contacts are blown to extinguish the arc. With known gas pressure switches there was one provided by a pressure medium motor driven shaft that provides the torque for the separation of the Contacts as well as the force to push or tear open the blow valve. This ripping open of the blow valve exerts a high short-term load on the actuating shaft and the hydraulic motor and requires a device that is strong enough to withstand the stresses and strains of the to withstand short-term high loads. Usually the shaft and motor are when used to Separation of the short-circuit contacts and set up for tearing open the blow valve are too extensive and takes up space to fit in with the streamlined design of modern circuit breakers.

The invention has set itself the goal of maintaining the dimensions of such a circuit breaker or increase its release properties, and consists essentially in that a pressure medium drive with a relatively short blow valve for pressure gas switch

Applicant:

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

Representative: Dipl.-Ing. KA Brose, patent attorney,
ίο Pullach near Munich, Wiener Str. 1/2

Claimed priority:
V. St. v. America March 15, 1952

Leonard J. Linde, Needham, Mass. (V. St. A.),
has been named as the inventor

Stroke first lifts the valve body from the valve seat and a pressure-medium-controlled, mechanical one Actuator with a relatively long stroke significantly increases the separation of the valve body from the seat.

Further advantageous features of the invention emerge from the description of the drawing in which the invention is illustrated in an exemplary embodiment, namely FIG

Fig. 1 shows a circuit breaker with a blow valve according to the invention in a schematic representation, partially on average,

Fig. 2 shows the blow valve of the circuit breaker according to Fig. 1 on a larger scale and

FIG. 3 is an end view of the blow valve, seen from the left in FIG. 2.

The circuit breaker shown in Fig. 1 comprises as a component a container 6, which is a pressure medium source represents, whereby in the present case compressed air is assumed that is from a suitable compressor (not shown) is delivered. Although generally disconnectors of the present type with a plurality of similar pole arrangements are provided, namely one for each phase multi-phase circuit, only such a pole arrangement is shown in the drawing, and the disconnector will be described in detail below as if it were a single pole version.

The circuit breaker has a fixed contact 7 and an associated movable contact 8, the both are in an electrical circuit through terminals 9 and 10. The contacts are located upon contact in a chamber 11, which with a

Shaft 12 is in alignment. A hollow insulator closes on the chamber 11 in the axial direction 13, which establishes a connection between the container 6 and the chamber 11 via a suitable blow valve 14 produces so that a Blass.trom one of the extinguishing of the arc serving pressure medium between the Contacts 7 and 8 blown through the chamber 11 can be.

Since the blow valve 14 is a relatively high

mentioned second drive, which has a small power output and a long stroke and on the piston rod 21 acts in such a way that, after it has been torn open or pushed open, it moves to its fully open position and holds in that position even when air is coming from the high pressure side of the piston 20 is drained. The spring 62 can continue the movement of the blow valve 14 in begin its fully open position after that

Force for the first initiation of its movement and io valve 14 has been ripped open, but before the

requires a relatively small force to stop its movement, the valve will initially actuated by a pressure medium drive 15 of high power and short stroke. The valve 14 is used

Pressure medium drive 15 has completed its working stroke. The pressure medium drive 15 causes the first opening of the valve 14 such that the valve body 104 is a relatively short distance from its seat

Control of an inlet opening 18 for the blower 15 is raised, and the spring 62 together with its lever current. The system, which is arranged coaxially with the valve 14, takes over the further actuation of the valve

14, the valve body 104 being moved a relatively long distance from its seat.

The closing of the contacts is by excitation

Pressure medium drive 15 comprises a cylinder 19, a
Rip-open piston 20, a piston rod 21, a spring 22
and an inlet port 24. The piston 20 is slidably seated on the piston rod, but can be initiated against 20 of an electromagnetic valve 63 which has a shoulder thereof. substantially coincides with valve 25.

An electromagnetically operated valve 25 opens. The valve 63 connects the container 6 to the one automatically if a wrong current in the over- end of a pressure medium motor 64. The motor 64 guarded Power circuit occurs. The valve 25 regulates the rotation of the acts by means of a linkage 59 the flow of the pressure medium from the container 6 of the shaft 31 in the closing direction of the contacts 7 and 8. kind that the pressure medium _ through a line 27, Ven- The motor 64 comprises a cylinder 65, a piston valve 25, line 28, three-way valve 29, inlet port 24, 66, an outlet valve 67, an A ^ entilsitz 68, a spring of the cylinder 19 to the piston 20 of the pressure medium 69, valve openings 70 and an inlet port 71. The drive 15 is brought into action. other end of the closed motor 64 is through

The valve 29 is connected by linkage 30 with an outlet opening 72 with a valve 75, Lever 51 connected to a pivotable valve body 76 with a shaft 77 and an Fe shaft 31 is attached, a linkage 32 connects the 78 which has the valve body 77 in the closing die Shaft 31 with the movable crescent-shaped direction of the valve pushes. When the isolating contact is closed 8. When contact 8 is in the closing switch, piston 66 of motor 64 takes its place position, the valve 29 assumes such an angular 35 lowest position in which the valve stem 77 the setting that compressed air through the opening 24 in valve 75 keeps open. As a result, air can get through

the line 43 flow into the cylinder 65 of the pressure medium motor 64. When the piston of the motor 64 moves in the opening direction of the contacts, the valve body 76 is moved in the closing direction by the spring 78 and is completely closed the moment the piston 66 releases from the valve stem 77. The admitted through the \ ^r alve 76 pressure medium is rotated by a valve 73 slowly abgeden point 40 anticlockwise and allow so 45th

a piston rod 41 with the piston 42 of the slide. The electromagnetic valves 25 and 63 are correct

valve 37 moved from left to right. As a result, essentially match, so that only one of them can pressure medium from the line 35 through the Ven- needs to be described. The valve 25 has til 37 in a line 43 and through a line 44 a casting in the form of a cylinder 80, which with and an inlet port 36 into a pressure medium 50 inlet ports 81 and 82 and an outlet port controlled mechanical drive 45 arrive. 83 is provided for the pressure medium. The opening 81

The pressure medium-controlled mechanical drive 45 is connected to the line 27 and the opening 82 to the comprises a cylinder 47, a piston 48, which is connected to line 28. The cylinder 80 is with a him movable piston rod 49 provided by a connecting differential piston or valve body 84, the extension rod 50 and a crank 51 with the shaft 31 55 has a small opening and under the action connected is. The pressure medium-controlled mechanical spring 85 closes the opening 82. The cylinder Drive 45 is provided with an outlet valve 52, 80 is also provided with a control valve 86, the which the pressure above the piston 48 at the end or when opening the actuation of the valve body 84 before picks up at the end of its upstroke. The ven- ders. A spring 87 pushes the valve 86 into the til 52 is pressed by a spring 54 against its seat 53 60 in the closed position, while the valve 86 is in the open position. The valve 52 is provided with openings 55 by energizing a coil 88 which is moved

the cylinder 19 can enter. When opening the valve 25 compressed air from the container 6 will also enter a line 35, which is equipped with a slide valve 37 is connected.

The piston 20 of the pressure medium drive 15 is provided with a plunger 38 which actuates a lever 39, which is rotatable at 40. The tearing movement of the piston 20 causes the plunger 38 to move the lever 39 around

see, which are monitored by a plate 56 which is pressed by a spring 57 in the closed position will. The lower part of the cylinder 47 is vented through a valve 46.

The shaft 31 is provided with a cam or a lock 60 which, when the shaft 31 rotates in the opening direction of the contacts releases a lever 61 which in turn releases a compressed spring 62

for their part on unusual conditions in the
Power circuit responds, through the disconnector
is monitored.

Figs. 2 and 3 illustrate in detail the components of the blow valve. The valve is controlled by a
suitable energy storage such as a spring 62 arranged in a housing 91 is completely open. Of the
Lever 61 consists of two parallel plates, which at

releases. The spring 62 provides the driving force for the 70 92 rotatable, and one end of the spring 62 engages

at an intermediate point of the lever 61. The other end of the spring 62 is supported at 93. That lower end of the lever 61 is attached to two tabs 94 by means of pins 95 which are inserted into holes of the tabs are driven. The tabs 94 have further holes into which a pin 97 is inserted by an adjusting ring 98, which sits slidingly on the piston rod 21, and is inserted through an elongated hole 96 in the piston rod 21 is. This creates a backlash in the connection between the lever 61 and the piston rod 21 generated. A second adjusting ring 99 is pinned at 100 to the piston rod 21, and between the Adjusting rings 98 and 99, a coil spring 101 is arranged so that a flexible link in the link chain is formed, which represents the actuating device of the blow valve 14.

The lever 61 is provided with a roller 102 which interacts with a cam 60. The valve 14 remains closed as long as the roller 102 and the lever 61 are held in their position by the cam 60 will; when the roller 102 is released by rotation of the cam 60 so that it is in a groove 103 of the Cam 60 is incident, the lever 61 can freely rotate clockwise about its pivot point 92 under the action move the spring 62, the latter influencing the valve 14 in the opening sense. The spring 62 is not strong enough to rupture the valve, but it can hold it open after it is pushed by the piston 20 of the pressure medium drive 15 has been torn open once.

When a failure occurs in the electric power circuit, the electromagnetic coil 88 becomes of the valve 25 energized and thereby the control valve 86 moved to the left, so that the air behind the valve body 84 is ejected. The pressure acting on the left side of the valve body 84 overcomes the Springs 85 and 87, and the valve body 84 is moved to the right so that the port 82 is opened. Compressed air from the container 6 passes through the opening 82, line 28, three-way valve 29, inlet opening 24 into the motor 15. Under the action of the pressure medium entering through the opening 24, the piston leads 20 a hammer blow on the shoulder of the shaft 21, and the shaft moves to the left, so that the valve 14 is torn open while the lever 61 stops.

The piston 20 also causes the lever 39 to pivot about the point 40 by means of the plunger 38, so that the slide valve 37 moves from left to right. Compressed air passes through line 35, valve 37, line 43 and line 44 to the pressure medium motor 45. In addition, compressed air passes through the openings 55 and moves the plate 56 downward against the action of the spring 57. The pressure medium above the piston 48 presses this downwards, so that the shaft 31 is rotated clockwise by the piston rod 49 and thereby the contacts 7 and 8 are separated. Furthermore, air passes through line 43 and at times Valve 75 in the lower part of the cylinder 65 so that the motor 64 exerts an impulse which the effect of the motor 45 supported. As a result of the movement of the shaft 31 and the cam 60 seated on it, it falls the lever 61 in the notch 103 of the cam 60, so that the spring 62 is released and the lever 61 rotates clockwise. This rotation moves the links 94 to the left, causing the shaft and the valve body 104 of the blow valve from the piston 20 are tested before the piston is short Stroke has completed. The valve body 104 moves to its fully open position while the piston 20 his HuI) and stops on it. the Spring 62 holds the blow valve 14 open even as the air is deflated from the right side of the piston 20. As can be seen from the drawing, the cam 60 has an outer and an inner in the radial direction Area. As long as the roller 102 is in contact with the outer surface, the lever 61 is blocked and the spring 62 cannot act on the piston rod 21 of the blow valve 14. When the outer surface of the cam 60 releases roller 102, as is the case with the separation of the contacts, roller 102 falls into the incision 103 against the inner surface so that the spring 62 expand and open the blow valve and can keep open.

Towards the end of the opening stroke of the circuit breaker, the three-way valve 29 is approximately 90 ° rotated clockwise and thereby lets the air from the right side of the piston 20 of the pressure medium drive 15 to the outside air. Towards the end of the opening stroke, the roller 102 is disengaged from the inner Surface of the cam 60 lifted in the incision 103 on the outer surface, with the result that the Blow valve 14 closes again.

The contacts of the circuit breaker are closed by energizing the solenoid 105 of the valve 63. This valve works in the same way as the valve 25 to remove pressure medium from the container 6 to get into the motor 64. When the motor 64 is actuated, the contacts 7 and 8 are closed. During the closing stroke of the circuit breaker, the outer surface of the cam 60 comes up and the roller 102 disengaged, but the roller cannot collapse into the incision and the valve 14 open because the spring 62 is not strong enough to pull the blow valve 14 against the valve body 104 acting container pressure to open.

The invention provides a new and improved blow valve in which the flow of a Regulates pressure medium from a pressure medium source in the direction of a pair of arcing contacts. A first Pressure medium drive with cylinder and piston is provided to tear open the blow valve, and a second pressure medium-controlled mechanical drive is arranged so that it is connected to the blow valve takes action and separates the contacts. A valve assembly for regulating the The duration during which pressure medium is supplied to the second drive is determined by the piston of the first drive connected so that the valve is operated when the piston of the first drive a made a certain movement. A resilient device that is activated by actuating the second drive is monitored in the opening direction of the contacts, serves to completely open the blower valve to bring the open position. Accordingly, there is a drive for tearing open the blow valve and a second drive for the separation of the contacts and the further movement of the blow valve in its completely open position available.

Although only one embodiment of the invention is shown and described, can be attached Of course, numerous changes are made within the scope of the professional Can lie without thereby departing from the scope of the invention.

Claims (8)

Patent claims: 1. Blow valve for compressed gas switch with an actuation \ Orrichtung for the valve, thereby characterized in that a pressure medium drive of high power output with a relatively short stroke, first remove the valve body from the valve seat raises and a pressure medium-controlled mechanical drive of low power output with relatively long stroke, the separation of the valve body from the seat increases significantly. 2. Blow valve according to claim 1, characterized in that with the long-stroke drive Lever system is combined, which further separates the valve body from the seat causes. 3. Blow valve according to claim 2, characterized in that the lever system between the long-stroke Drive and the movable valve body is arranged. 4. Blow valve according to claim 1 to 3, characterized characterized in that the short-stroke drive comprises a cylinder and a piston which are coaxial are arranged with the movable valve body. 5. Blow valve according to claim 1 to 4, characterized in that the long-stroke drive in with respect to the short-stroke drive is arranged such that the valve body of the short- lifty drive is released before it has completed its short stroke. 6. Blow valve according to claim 1 to 5, characterized in that the long-stroke drive a Includes cylinder and piston which allow the contacts of the switch to open. 7. Blow valve according to claim 1 to 6, characterized in that a resilient device able to move the valve body into the fully open position after the short-stroke drive has pushed open the valve, and a locking device combined with the long-stroke drive actuates the resilient device after a certain movement of the long-stroke drive. 8. Blow valve according to claim 6 and 7, characterized in that the long-stroke drive in the Connection to the opening of the blow valve acts to open the contacts of the switch. Considered publications:
German patent specifications No. 477 799, 501 351,
611062, 692 428, 715 978; U.S. Patent Nos. 2,541,968, 2,574,428. 1 sheet of drawings 709 958/306 3.