DE618616C - Switching device for fluid accumulators loaded with compressed air - Google Patents

Description

Switching device for compressed air loaded liquid accumulators The invention relates to a switching device for fluid accumulators loaded with compressed air with diving bells stored in the pressure chamber, those of the rising and falling Battery fluid are tilted and thereby affect electrical contactors.

According to the invention, each of the diving bells is provided with a horseshoe magnet connected, between the legs of the contact tongue firmly outside the pressure chamber lying interrupter is pivotably mounted. The contact lever of the interrupter becomes magnetic in this way not only in one but in both of its limit positions moved and held magnetically in these positions, thus avoiding that it flickers in the interrupter - as it can happen when the water level fluctuates at the height of the diving bell - and thereby scorches the contacts of the interrupter. The relays controlled by the contact reeds respond reliably because they no longer vibrate or take intermediate positions.

Magnetic control of the contact tongue in both directions also makes it possible to balance the weight of the legs and thus the magnet Easier to hold with the diving bell than could be done when at the Control of the contact tongue still whose gravity would have to be overcome. This will increases the sensitivity and sensitivity of the entire control system.

The high sensitivity of the control makes it possible with just one Multiple contact tongues consisting of a diving bell and a horseshoe magnet to control, since the forces required for this do not make the diving bell impermissible make it hard. The multiple control of several contactors from one and the same mechanical device is off but the control of compressed air accumulators particularly advantageous because there you have as few built-in parts as possible in the pressure chamber the accumulator seeks to get by. The interrupters can here both in different as well as be arranged at the same height.

The structure of the device according to the invention can thereby be even further can be simplified that the tilting mechanism consisting of diving bell and horseshoe magnet together with its associated interrupter in a common, in the pressure chamber inserted cartridge is installed. This facilitates the installation and removal of the device facilitated and an undesirable weakening of the pressure vessel avoided.

In the drawings, the subject matter of the invention is for example shown.

Fig. Z, 2 and 3 show in section an electrical switching device according to the invention in three different positions.

Fig.q. is a section through a pressure vessel in opposite to Fig. z to 3 reduced scale, the three superimposed switching devices according to the invention.

The diving bell z of the electrical switching device according to the invention is combined with the permanent magnet: 2 to form a scale, which is stored at 3 is. The weights of the diving bell and magnet are so against each other agreed that this scale is overweight when not immersed, as shown in Fig. i '; this excess weight will only be overcome if the liquid rises and the diving bell more and more into it sinks in (see Fig. 2 and 3).

The bearing point 3 of the balance is in a cartridge 4, which is in the wall 5 of the pressure vessel is inserted. In the cartridge 4 is also the one below Interrupter 6 to be described in more detail is used. The cartridge is not out magnetizable metal, such as. B. bronze, and the pressure vessel made of magnetizable Material like. e.g. mild steel.

The switching tube 6 has a movable armature 7, the counterbalance and has a contact pin 8 at its bearing point as well as at its one end has, which are immersed in 9 mercury bowls. The other end of the anchor 7 is located is in the area of the magnet 2 and is influenced by this in its position.

The magnet 2 has a horseshoe shape and encompasses its two legs 2a and 2b the end of the interrupter 6, so that ß the armature 7 of the magnet: 2 after both Directions attracted, can be. So it becomes magnetic in its two reference positions moved and held there magnetically. _ In Fig. I, the lower leg 2b acts of the horseshoe magnet on the contact anchor. This therefore goes to his the magnet facing end downwards, accordingly with the one contact pin 8 carrying End up and contact is broken. In Fig. 3 the balance is through the rising liquid shown pivoted: the upper magnet leg 2d has approached the contact anchor, the lower leg 2b moved away from it, so that the contact anchor now assumes the opposite position as in Fig. i and the contact pin 8 makes contact with its associated mercury cup. Fig. 2 shows a limit position of the magnet in which its two legs?. "And 2b are the same are far from the contact armature of the interrupter and are therefore in their Position remains: Fig. 4 shows a pressure vessel in which three electrical Switching devices of the type described are used, the lowest in height of the lowest permissible water level io, the mean in .height .of the level i i and the top one at the height of the highest permissible level 12. The passage of the The fluid level in the switchgear lungs affects the electrical switchgear, by swiveling the diving bells in one direction or the other, depending on the liquid level falls or rises. This will be the interrupters controlled, and this can be done for a wide variety of purposes. It can so that only signals or work processes are triggered; so can about when the water level 12 is reached, the pump for the pressurized water is stopped and when the water level i i is reached again, while at Reaching the water level io that lying in the drain line of the vessel, here shut-off valve, not shown, can be shut off.

It is also possible to use one and the same magnet system for several interrupters influence. These can either be arranged at different heights, so that they respond in opposite directions in the two limit positions of the magnet; you can but also lie in the same amount; where they are then in the same sense of the magnet to be influenced.

It should also be mentioned that the switching device outside the Pressure vessel arranged in a communicating with the vessel connected tube can be.

Claims (4)

PATENT CLAIMS: r. Switching device for compressed air-loaded liquid accumulators with diving bells stored in the pressure chamber, which are tilted by the rising and falling Aklmmulatoriquid and thereby influence electrical contactors, characterized in that each of the diving bells (i) is connected to a horseshoe magnet (2), between its legs (2a, 2b ) the contact tongue (7) of a switching tube (6) fixed outside the pressure chamber is mounted so as to be able to swing. 2. Switching device according to claim i, characterized in that that the legs of the contact tongue (7) of the interrupter (6) are balanced in their weight are. 3. Switching device according to claim i, characterized in that the diving bell (i) with her. Magnet (2) affects several contact tongues (7). 4. Switching device according to claim i and 2, characterized in that the diving bell (i) with the Magnet (2) and the interrupter in a common, in the pressure vessel (5) inserted cartridge are installed.