DE616728C - Step transformer, the regulating elements of which are controlled by pressing means - Google Patents

Description

It has been proposed to use compressed air to regulate regulating transformers to drive. With all regulating transformers that can be switched under load, this type of drive where the set of rules has to go through over-switching positions when moving from one main position to the other, large ones Difficulties, in particular, there is a risk that if the compressed air supply fails the control organs get stuck in over-switching positions, which must be avoided at all costs, so that not the only thing that usually occurs Burn over switching resistors and the like rated for short loads. The invention eliminates this risk. According to the invention the regulating organs (e.g. the load switch, tap selector) are powered by a special auxiliary power source (electric motor, Energy storage device) is actuated and the Preßao medium is only used for charging, switching or triggering this source of auxiliary staff. One avoids that the progress of the once initiated regulating movement is dependent on the pressure medium supply, and has thereby the certainty that the regulating movement, if it has already been initiated, from main stage to main stage without Interruption is carried out.

The invention will be explained with reference to the drawing.

In Fig. Ι a regulating transformer is schematically shown with the windings 1, 2. The winding 2 has several taps 3, at which one pole 4 of the load line is connected, the other pole with 5 is designated. For the sake of simplicity, the contact system is only provided with two contacts 6, 7 indicated with an intermediate resistor 8, but others can also be used instead known contact arrangements are used. The drive motor 9 is between the contact 7 and an auxiliary contact 10 placed on the step voltage and drives by means of a drive spindle for the contacts.

The motor 9, which is only drawn for forward switching for the sake of simplicity, has one Control switch 11, which is pneumatically driven, and also one driven via an intermediate gear 12 Self-switching 13, which causes the motor circuit once closed remains closed until a full control step has been carried out, e.g. until the Main contact 7 has reached the next tap. The pneumatic drive for 55 ' the control switch 11 is fed from an air tank 14 via the control valve 15. The air is forced into the wind angle by the pump assembly 16.

The invention offers the following advantages: You come with a relatively small compressed air unit, since its work is stored in the air chamber 14 can be and the work to be done by the compressed air to a few short Switching operations limited. Even if there is a temporary absence of the compressed air supply, ζ. B. when the compressed air supply in the container 14 is exhausted, it is stuck of the set of rules in interconnections and

possible because the switching process takes place independently of the compressed air supply.

Another important advantage is that the pressing means isolated, so z. B. through hard paper tubes, and controlled by the compressed air Parts may even be at operating potential. This will isolate the set of rules significantly simplified and cheaper.

In Fig. Ι is to drive the set of rules uses a special engine. Instead, you can also use an energy store, which is charged by some energy source and "discharged" by the pressing means

¹ S is released or discharged. It is best to use the compressed air energy itself to charge the tensioning mechanism, as shown, for example, schematically in FIGS. 2 and 3, in which, for the sake of clarity, the individual transmission functions are divided into special organs and these organs are pulled apart in the axial direction.

The compressed air piston 20 drives the rack 21, which is via the gear 22 and the ratchet mechanism 23 actuates the backstop 24, with which one end of a force storage spring 25 connected is. The other end of the energy storage spring is with the forward lock

26 coupled and connected in some way at 27 to the set of rules. So z. B.

this end to be connected to the first part of a differential gear, the second of which Part with the same, but counter-rotating drive device and

³ S, the third part of which is linked to the set of rules in order to enable forward and reverse control in a simple manner. The pawl 240 works with the part 24, and the pawl 260 works with the part 26. The pawls are controlled by the part 210 via a linkage 211. The facility works in such a way that the part

27 sets the associated rules in motion only when the compressed air piston 20 the tensioning mechanism 25 is sufficiently charged, to the point that a full regulation step can be carried out. If there is no compressed air supply before full charging, incomplete charging is ineffective.

In detail, the transmission works as follows: If compressed air is supplied to the piston 20, so the parts 22 to 24 are rotated in the S inne of the arrows and the Spring 25 tensioned while the part 26 remains at rest. After one revolution of part 24 If the rack 21 hits the control lever 210, the pawl 240 engages and the pawl the end. As a result, part 26 is released and can drive the set of rules. Meanwhile, the rack 21 is down sunk back, and the Klinkwerk 23 is empty with the Klinkwerkarms in the Returned to starting position.

Is not so much compressed air supplied that the tensioning mechanism is fully charged 25 is possible, so the part 24 is not rotated so far that the pawl 240 snap into place can, then the pawl 260 is not released, but it turns the parts 21 to 24 with relaxation of the spring 25 without a backlash in the ratchet gear 23 in the starting position return.

The same gear can also be used for reverse drive of the set of rules will. However, you can also use the gearbox for forward and reverse drive in the Summarize way, that one uses a common compressed air piston, which from a middle position depending on the intended forward and reverse drive into one or other end position is driven. Instead of pistons, rotating drive devices, z. B. small turbines, gear drives can be used.

Fig. 3 shows a simple embodiment of Fig. 2 in the scheme. This is where this comes from the piston rack '21 charged tensioning mechanism 30 only to take effect when it is fully charged. This is done by a pawl 31, which is supported by a gate 32 in is controlled in such a way that they are in the charging process, arrow 33, from an intervention in the teeth of wheel 34 are retained until charging, point 35, ends is. Then the pawl 31 falls off the link 32 and comes into engagement with the wheel 34. With the subsequent unloading process, arrow 36, this intervention remains permanent obtained until the end of the link 32 is reached, where the pawl 3 · Ι again disengaged comes. This end of the backdrop is expediently designed to be resilient so that this End when the pawl 31 has finished the working stroke, snaps into place behind the pawl and the pawl therefore with certainty during the subsequent charging of the tensioning mechanism in the way 33 forces.

The wheel 34 drives the set of rules directly or indirectly. Instead of the one shown schematically Transmission can also be any other transmission with automatically operating clutches, locks and the like. Used be, with such control of the lock and clutches that a start of the Set of rules is only possible under such conditions that the covering of a complete Ensure control level.

In order to force synchronous work with multi-phase rules, the Compressed air control 40 (Fig. 4) best lead only to the first phase 41 and from this

Phase to the remaining phases 42, 43 with press liquid lines 44 go on. In phase 41, a forming device is used for this purpose provided, which converts the compressed air pressure into liquid pressure.

You can, however, drive the rules of the three phases with compressed air instead, if a mechanical coupling is established between the individual regulations, z. B. in such a way that the release pawls for the tensioning mechanisms o. The like. With each other clutch. Do the rules of the individual phases consist of tap selector and load switches, so you can un-

'5. drive the load switches indirectly by compressed air indirectly via tensioning mechanisms, which in some way, e.g. B. can be operated together by coupling the trigger elements. The load switches or their tensioning mechanisms can have stops or the like for the tap selector control, in such a way that in each case a certain Lastsohalterbewegung certain Step voter movements are allocated.

Claims (6)

Patent claims: i. Step transformer, its control elements by pressing means, in particular Compressed air, are controlled, characterized in that the control elements (z. B. the load switch, step selector) by a special auxiliary power source (e.g. electric motor, energy storage device) are operated and that the pressing means only for charging, switching or triggering this auxiliary power source to serve. 2. Step transformer according to claim 1, characterized in that as an auxiliary power source a galvanic or transfermatory to the taps of the step transformer connected motor is used, its switching device controlled by the pressing means preferably is provided with an effective self-hold during each control step + s. 3. Step transformer according to claim 1 with one charged by the pressing means and activated energy storage device, e.g. spring tensioning mechanism, for the control organs by means of automatic clutches and locking mechanisms, which only occur after the energy storage device has been sufficiently charged allow a discharge via the control organs to be driven. 4. Step transformer according to claim 1, characterized in that the press medium supply lines to the control elements made of insulating material (e.g. hard paper tube) that may be under operational potential exist. 5. Step transformer according to claim 1 up to 4 in multi-phase design, characterized in that the jointly operated Control organs of the individual phases mechanically, preferably rigidly, are coupled to one another in order to be separated Drives to ensure that they work at the same time. 6. step transformer according to claim 5, characterized in that the control organs for the individual phases hydraulic means are rigidly coupled to one another. 1 sheet of drawings