DE427032C - Large dining room boiler, in which both the filling of the dining room to compensate for the boiler output and the highest and lowest water level are controlled mechanically - Google Patents

Description

Large dining room boiler, in which both the filling of the dining room to balance the boiler output as well as the highest and lowest water level be controlled mechanically. As is well known, the dining room of a kettle can be used in this way Regulation of the steam output can be used that strong with low steam consumption fed and the dining room is filled, while weak with high steam consumption or not fed at all and the water stored in the dining room is evaporated. It is also known that the feed is made dependent on the water level in the boiler, by using the feed when the water level is low or increasing it when the water level is high The water level is turned off or reduced for the purpose of, on the one hand, water shortage, on the other hand to prevent overfeeding.

The invention now relates to a device in which both are combined with the types of regulation described above. When both bodies are separated exist from each other, mutual interference is possible. May the first mentioned Regulation Storage regulation, the second mentioned water level regulation are called. When the steam pressure drops, the storage tank control can also turn off the feed or leave it switched off if the water level control to prevent water shortage wants to increase the supply, and vice versa, the storage control can increase the supply allow, disconnect the water level control when the water level is high, shut off the supply want. Both would be inadmissible, and therefore there is a dependency between the two regulations commanded from each other. This dependency should be carried out in such a way that if the water level is low, the water level control is independent of the storage tank control the supply turns on and that on the other hand the water level control when the water level is high the supply also interrupts or weakens when the storage tank control is strong Feeding allows.

In the drawing, the subject of the invention is shown in Figs. I to q. in several embodiments illustrated.

In order to increase the heat-balancing effect, the boiler dining room, d. i. the space between the lowest and highest water level, greatly enlarged. The differential amount of water achieved in this way is i in the case of the boiler i in Fig. I the multiple of the usual amount of storage water that upon need is evaporated or fed. The aforementioned device for regulating the supply is switched on in feed line 2. It consists of a device at which the feed water flows in at 3 and out again at. The valves, pistons, etc. like

and 6 are used for water level control, valve or piston 7 for storage control. The organ 5 is normally open and is controlled by the water level regulator at the highest Water level closed; Organ 6 is normally closed and is controlled by the water level regulator open at the lowest water level.

It can be seen that 6 can also release the feed, if 7 is closed, whereas 5 closes the supply even if 7 is open. The direction of flow can also be reversed, as it is the dotted Show arrows.

Fig. 2 shows a practical embodiment of the control device as an example. Feed water enters the apparatus through pipe 3 and goes through the pipe: 4 to the boiler z. The piston ; is moved by the storage regulation, and thereby becomes the water flowing in through channel 8 is shut off or removed from the boiler as required. authorized. The piston 5, 6 is influenced by the water level regulator. He's in the lowest position, corresponding to the lowest water level, drawn. The water flows from the tube 3 through the piston 5, 6 through the channel 9 and through the interior of the Piston 7 after tube q. and thus to the boiler i. So if the piston 7 is also the channel 8 has completed, the feed water can enter the boiler through channel 9. As soon as the water level rises, the piston 5, 6 rises and closes the channel 9 by means of its upper part 6 from. Then the feed is only under the Influence of the piston 7. When the piston 5, 6 reaches its highest position, the in which Dep. 2 is dotted, channel 9 remains closed. But it will get through the lower part 5 of the piston of the channel 8 also completed. So it can no water to enter the boiler, not even if the piston 7 releases the feed would like to.

The dotted arrows in the opposite direction indicate that the Water can also flow in the opposite direction without this having any effect is disturbed.

Above we have only spoken of the current of water. It could but steam instead of water can flow through the apparatus just as well, provided that it is Steam would be used to start the feed pump.

In Fig.3 a case is shown in which it is not the case Feeding a large dining room boiler, but rather a battery of this type Boiler. At 3 the feed water enters and at .4, q. it enters the cauldron. The water level regulators 5, 6 are connected in the pipeline that the apparatus 5, 5 are in the same line with the storage regulator 7, while the apparatuses 6, 6 are inserted into the line so that they are fully 7 independent. The order is made so that a central apparatus 7 dominates the storage while the apparatus for water level control 5, 6 are specially designed for each boiler.

Whether you control the feed water directly, as in Fig. 3, or operating steam or any other operating force, electric current z. B., for regulation used, the arrangement must always be made so that that part of the water level control, which takes effect at the lowest water level, regardless of the storage tank control acts while that part of the water level control, which is at the highest water level works, also has to master the storage control.

In Fig.q. the diagram of an electrical control is drawn, which is easily understandable after the above.

Claims (1)

PATENT REQUIREMENT: Large dining room boiler, in which both the filling of the dining room to compensate for the boiler output and the highest and lowest water level are mechanically regulated, characterized in that the water level controller for the highest and lowest water level in the boiler and the water level controller for storage are arranged in a special way in the feed line formed into a pipe loop in the dining room in such a way that the water level control controls the lowest water level independently of the storage control, while at the highest water level any feed, including that made possible by the storage control, is prevented by either the water supply to the The boiler is shut off or the device supplying the water is put out of operation.