DE285526C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 285526 CLASS 36 c. GROUP

return to the steam boiler.

Patented in the German Empire on July 27, 1913.

The invention relates to a device on steam heating systems with the steam boiler form a closed system, d. H. with the steam and water space of a steam boiler are connected in such a way that they receive the steam from the steam boiler and the steam water return to the same steam boiler.

Such systems require that when commissioning the in the system ίο air and the steam water that is first formed in it, furthermore, when the system is shut down, the steam water and the steam will be blown out. For this purpose, the return pipe is at the lowest point a so-called blow-out valve that can be operated by hand is attached.

The new device replaces the blow-off valve. It causes in achieving a certain Pressure an automatic closing and opening of the return pipe.

This has the following advantages:

1. The return pipe is automatically closed at the moment when the in the The air in the system and the steam that forms in it first are blown out.

So it no longer happens that through

Keeping the blow-off valve open for too long or accidentally leaving it open, not just the economic advantage of the automatic return of the hot steam water thwarted is, but also boiler steam escapes unused in significant quantities.

2. The return pipe is automatically opened when the system is shut down and the steam contained therein and the steam water escape into the open.

So it no longer happens that by accidentally leaving the blow-off valve closed An air void forms in the system, damaging the flange seals are stressed and the steam water remaining in the system freezes, whereby the return pipe bursts and the system becomes unusable in good time.

3. Saving in time and wages, because when known systems are put into operation Blow-out valve only after the air and the first steam water have been completely blown out may be closed, so the worker has to wait as long.

Fig. Ι represents a known type of steam system as an exemplary embodiment.

The heat pipes H maintain their vapor through the mounted on the dome of the boiler steam inlet valve E. The return tube r opens out through a non-return valve R in the water space of the boiler. The blow-off valve A is attached at the foot of the return pipe.

The commissioning of this system takes place as follows:

The blow-off valve A is open. The steam is passed through E into the heating pipes H and drives the air in the heating pipes and the steam water that forms in the cold pipes out through the blow-out valve A. Only after this has happened and boiler steam flows out under pressure, the blow-out valve A is closed.

The system works as follows:

When the blow-off valve A closes, the tubes H and r are filled with steam. That

Steam water that forms collects in the return pipe r up to a height G above the water level W of the steam boiler. As soon as the height of the water column G is greater than S than the pressure difference between the steam in the steam boiler and in the heating pipes H , the steam water flows through the check valve R into the water space of the steam boiler.

ίο The system is shut down as follows:

The blow-out valve A is opened and the steam inlet valve E is closed. This causes the steam water in the system and the steam to flow outside.

In Fig. 2 and 3, the steam system shown in Fig. 1 with the new device instead of the blowout valve A is shown.

Fig. 2a and 3a show the new device on a larger scale.

In Fig. 2, the new device according to Fig. 2a is applied. The new device is a check valve with a loaded valve cone K. The load can, as shown, be effected by a weight, but also by a spring 0, the like. The weight of the valve cone is so loaded that it opens and closes automatically at a certain pressure in the return pipe.

The new device works as follows:

1. When commissioning a system. When the steam is let into the cold heating pipes H , all the steam is first converted into steam water and the steam pressure is destroyed. Then the steam pushes the air in the heating pipes H and the resulting steam water in front of it, which initially flow out of the new device without pressure. As the steam penetrates the heating pipes, they are heated, the formation of steam water is reduced and the pressure of the steam is no longer destroyed, but only reduced. From this moment on, air and steam water come out of the new device under pressure. As soon as the pressure is so great that it overcomes the load on the cone K , the new device closes automatically.

2. When the system is shut down, the new device opens automatically as soon as the pressure in the heating pipes H and the return pipe r falls so far after the steam inlet valve E has been closed that the load opens the valve cone K.

The setting of the weight in the new device according to FIG. 2a corresponds to a certain pressure, the valve cone K being closed or opened. If you want to change this pressure according to a higher or lower pressure in the steam boiler, then the loading weight must be readjusted.

To avoid this work, the device according to FIG. 3 a is carried out, which is shown in Fig. 3 is shown.

In the device according to FIG. 3 a, the valve cone K is supported on a resiliently designed can D , the interior of which is connected to the steam chamber of the steam boiler by a small tube L.

The cross section of the can D is smaller than the cross section of the valve cone K. The cone is automatically closed and opened as soon as a pressure is created in the return pipe r that is slightly greater than the pressure that the can D exerts on the valve cone. This pressure of the can D changes automatically with the change in the steam pressure in the steam boiler.

The automatic closing and opening of the return pipe can also be controlled by a specific one The temperature of the steam in the return pipe can be made dependent, because the temperature and pressure of the steam are interdependent.

Claims (2)

Godfather t-An sayings: 1. Device for draining rainwater and steam from such medium and high pressure steam heating systems, which the rainwater during operation return to the steam boiler, characterized in that the return pipe is automatically activated when it is started up closes after a certain steam pressure has built up in the heating system due to the escape of rainwater and steam has formed and only opens again automatically when it is shut down and the steam water in the return pipe and the steam in the steam pipes can escape when the pressure in the steam system is reduced to a certain level by turning off the steam Has. 2. An embodiment of the device according to claim i, further characterized in that that the level of pressure at which the return pipe is automatically closed or opened, of the pressure of the steam in the steam boiler is made dependent in that the steam chamber of the steam boiler with a is connected to the membrane capsule acting on the blow-off valve. 1 sheet of drawings.