DE171014C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention relates to a device for conveying liquids in Rooms under positive or negative pressure by air, gas or vapor Pressure medium. The subject of the invention differs from the known devices of this type in that the serving to accommodate the amount of liquid to be conveyed Space divided by a transverse wall into two adjacent rooms and each of them with a special organ Ventilation is provided, these two ventilation organs and one in that room, in which the liquid access is located, arranged pressure medium inlet member through a device influenced by the liquid level in the other room, a float, are jointly controlled in such a way that first the venting element in the liquid access space is closed and only

later, simultaneously with the opening of the pressure medium inlet organ, the vent valve in the adjoining room is closed.

This arrangement ensures that the venting element is in the liquid access space has already completed when the pressure medium inlet member is opened, so no exhausting of the pressure medium through the venting device take place when the pressure medium inlet device is opened and still Liquid can flow in after the end of this vent, since the second vent is still open.

The closure of the one vent is also intended at the same time that that part of the space e, in which the pressure medium enters, remains completely empty and itself not, as is the case with the known devices, can fill with liquid, so that when the latter is low and the pressure medium has high temperature, when opening of the pressure medium inlet organ, especially with steam and water, violent blows, absorbed. Condensation blows, are generated, which cause failure of the device. at the subject of the invention that is eliminated, since after the closure of a vent valve the water cannot rise any further in the pressure medium inlet chamber, i.e. a closed, Space not filled by liquid remains, in which the pressure medium is noiseless enters and from which it acts like a piston on the liquid. The pressure generation is also in this Space, since no tension in the pressure medium is lost due to condensation, an extremely high one light and good.

This has the further advantage that the diameter of the relief cone for the pressure medium inlet member can be very small, since very little pressure medium for Generation of the pressure is needed and therefore also the size of the float and so that the wear of the moving parts is low.

By arranging the float in a special chamber, there is also an influence same by the current of the

Liquid avoided, no matter how high the liquid level in the device stands.

By arranging two ventilation organs, there is also a larger cross-section for the escape of the pressure medium and also of the air during the entry of the liquid achieved, so that the filling of the device is faster and the ίο Increased efficiency.

In the drawing there is an example

Embodiment of such a device in Fig. Ι shown in a longitudinal section.

Fig. 2 shows the housing for the ventilation and the pressure medium inlet organ of the Liquid access space on an enlarged scale.

The device consists essentially of a housing α with an inflow connection b and an outflow connection c for the liquid. The housing is divided into two adjacent rooms e and / by a transverse wall d. In that of these spaces in which the entry of the liquid into the device takes place, a pressure medium inlet element h and a ventilation element i are provided in a special housing g or in another corresponding manner. The pressure medium inlet element, in this case h the valve is provided with a discharge cone \. By doing. adjacent space / is also in a special housing k or in another corresponding manner a ventilation element / is arranged. The two rooms e and / are connected to one another. On the transverse wall d there is also a bent channel m leading upwards in the latter space and opening into the space / below.

The control of the kidnapping organs i and / and the pressure medium inlet organ h is carried out by a device arranged in the space / and influenced by the liquid level in the same, e.g. B. a swimmer n causes. The same is attached to a float rod ο, which is articulated at both ends with a rotatable lever. The lever ρ articulated at the upper end of the float rod 0 is rotatably mounted in the housing and moves the venting element / when it is rotated, while the lever q articulated at the lower end to the float rod 0 and also rotatably mounted in the housing at its other end with a vertically upwardly leading connecting rod r is articulated, at the upper end of which a lever s is articulated and rotatably mounted in the housing, which, when rotated, moves the pressure medium inlet element h and the vent element i of the liquid access space e.

The device works as follows:

The liquid to be pumped enters the housing α through the inflow connection b and rises evenly in the two adjacent spaces e and / of the same up to the float η , which receives the buoyancy required to move the control unit as the liquid rises further and which also moves lifts. This causes a rotation of the rotary levers p, q and s which move the ventilation elements i and I and the pressure medium inlet element h . The latter are set in such a way that when they are rotated, the ventilation element i of the space e , in which the liquid inlet b is located, is closed first. Thereupon, since the air still in this space e is completely closed off by the closing of this venting device, as the device continues to be filled, the liquid level in the adjoining space f will rise and thereby also a partial compression of the air contained in the first space e . When the liquid level rises further in the room / the float is raised further and thereby the lever s is lowered until it rests against the relief cone \ and is held in place by the pressure resting on it. The swimmer can therefore no longer rise, but the liquid level does rise in / further. The result is that the float, becomes buoyant force and when this has become so great that taking into account the leverage corresponds to the pressure on the pilot plug \, the float suddenly skyrocket, while the relief valve ^ opening and the vent valve / closing. The pressure medium now enters e , the liquid in / is therefore held up by the overpressure in e until the pressure medium can be exceeded through the channel m , ie a pressure equalization between e and / can take place.

After the pressure medium has entered, the liquid flows out of e through the nozzle c. If the column of liquid in the space s is decreased to such an extent that the liquid level is just below the lowermost point of the connecting channel dropped m, the pressure medium rises immediately through this channel m upwards, the voltage increases in the air space of the room / and caused as a result of the pressure equalization, the liquid in the room / and thereby a sinking of the float n. As a result, the pressure medium inlet element h is closed and the ventilation elements of the rooms / and e are opened, and since the same pressure now prevails in the two rooms, in both

Rooms at the same altitude. The ventilation organs are open and the pressure medium emerges. The whole process then begins all over again.
Of course, other control means such as valves can also be used without affecting the essence of the invention, namely the common but not simultaneous control of a ventilation element and pressure medium inlet element located in the liquid access space and a ventilation element arranged in a space next to the liquid access space, by means of a ventilation element arranged in the latter space , device influenced by the height of the liquid level is changed. The connection of the two rooms can also be achieved in some other way at the appropriate moment. Can also do the same

the transfer of the movement of the swimmer respectively. another device dependent on the liquid level on the pressure medium inlet element and the ventilation element of the space e can be achieved in a different manner. The rotary levers, which are used for this transmission, can also be mounted at other locations.

Claims (3)

Patent Claims: i. Device for conveying liquids into rooms under positive or negative pressure by means of an air, gas or vapor pressure medium, characterized in that the holding space of the device is divided into two adjacent rooms (e and f) by a transverse wall (d) , in one of which a ventilation element (I) is provided, while in the other the liquid inlet (b) and a ventilation element (i) and a pressure medium inlet element (h) are arranged, the control of the two ventilation elements (i, I) and the pressure medium inlet organs (h) is brought about jointly by a device (n) which is influenced by the height of the liquid level in the space (f) in which the liquid does not enter. 2. Embodiment of the device according to claim 1, characterized in that the ventilation elements (I, i) and the pressure medium inlet element (h) are set in such a way that when the liquid level rises, the ventilation element (i) in the liquid access space (e) first, then the ventilation element (I) in the adjoining space (f) is closed and, at the same time as the latter, the pressure medium inlet element (K) in the liquid access space (e) is opened. 3. Embodiment of the device according to claim 1, characterized in that a channel (m) is formed on the partition wall (d) of the two spaces (e and f) , through which the pressure medium after completion of the promotion in the first space (e) in crosses the second room (f) . 1 sheet of drawings.