DE87911C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The new device is particularly used in steam boiler systems where the Steam generator consists of a single unbranched continuous tube, in one end of which Water is introduced while the steam is withdrawn at the other end. at to such boilers one desires the feedwater supply from that of various circumstances to make the dependent power requirement dependent, in such a way that only so much water is introduced into the boiler at any given moment becomes that the amount of water corresponds to that amount of steam that the power requirement in this Moment requires. According to the present invention, this purpose is achieved by that a throttle element is switched on in a branch line from the pressure line of the feed pump which opens into the open air or into a suitable container, and which with regard to its position has been made dependent on a water pressure, the magnitude of which depends on the organ that determines the steam consumption is regulated, e.g. B. from the speed regulator of a motor moved by the steam. When this throttle device is closed, the entire amount of water that the Pump is able to deliver, pumped into it, and the boiler then gives off its greatest amount of steam from, whereby the greatest power requirement, which the engine can deliver, is made. To the same extent as this power requirement is reduced, the water pressure acting on the throttle device is reduced by the speed regulator of the engine changed to the appropriate degree, whereby the throttle element is opened, and thereby ensures that part of the feed water flowing in the pressure line of the pump Throttle organ passed. The amount of water delivered by the pump to the boiler will be thus regulated accordingly in this way.

The invention is illustrated in the drawing, in FIGS. 1 and 2, a throttle member like the one in question together with its inclusion in the pipeline system in longitudinal section and show in top view.

A is the pressure line from the feed pump to the steam boiler, B is a branch line of this pressure line, and the throttle element C is connected to this branch line. The process D of the organ is thought to open out into the open or into any suitable container. As far as its position is concerned, the throttle element is dependent on the water pressure acting on it in the pipeline E , which pressure is changed in terms of its size by the speed regulator R of the motor in question, in that it is changed e.g. B. influenced by its movement in the pipeline E switched cock F or an analog acting throttle body. In the present example, the throttle element C is formed by a piston C ¹ which can be moved in a cylinder and which is provided with two transverse through-bores HH ¹ and a longitudinal bore G connecting them.

In the middle position of the piston, the transverse bores H and H ^{1 are in} such a position that they lead respectively to the drain D. half shut off the inlet of the feed water. One of the water pressure at one end of the piston C ¹

the balancing spring can be placed in such a way that it acts on the other end of the piston. In the event that the water pressure mentioned is great and one wishes to avoid the use of a too large and powerful spring, it is advisable to pass steam (or water of the appropriate pressure) through one. Inlet L into the other side of the piston, the spring I being suitably placed in the water space, so that the water pressure and the spring pressure together with the steam pressure (or water pressure) at the other end of the piston keep the equilibrium.

The apparatus works in the following way. With a normal power requirement and thus also normal steam consumption, the piston C ¹ assumes its central position shown in the drawing. Here it is arranged so that the boiler receives a corresponding amount of water through the pressure line A , while part of the amount of water supplied by the pump flows through the half-open throttle element C and escapes at D. If the power requirement is now increased, the regulator R closes the tap F, the water pressure on the end of the piston C ¹ is increased, and the piston C moves upwards as a result , narrowing the connections between H ¹ and B, H and D. . A smaller amount of water then flows through the throttle body, whereas the feeding of the kettle through the pipe A is increased to a corresponding extent. When the power requirement is reduced, the piston is displaced in the opposite direction, whereby the flow through the throttle element is increased, while the water supply to the boiler is reduced to the corresponding extent. The boiler thus receives the power requirement BEZW by the application of the apparatus described above. the amount of feed water corresponding to the steam consumption.

3 and 4 show, in longitudinal section and in a top view, the connection of the present apparatus with a two-cylinder pump, the cranks of which form an angle of 180 ° with one another. This arrangement is recommended in the case where the pump is to yeast water at high pressure and, as a result, the HGH ¹ channels in the throttle device have small dimensions. It can easily happen that dirt collects in the ducts and clogs them, whereby the functioning of the apparatus is impaired. In order to avoid this inconvenience, the arrangement is made so that the inlet B is connected to one pump cylinder a, while D is connected to the other b . The amount of water that flows through the throttle element is thereby pressed from one pump cylinder into the other and thus flows through the channels HGH ¹ in the opposite direction with each pump stroke. If grains of dirt get stuck in the channels during a pump stroke, they are driven out of the channels by the following pump stroke, the channels being kept clean and clogging avoided. The mode of operation of the apparatus is the same as that described above with reference to FIGS.

Claims (2)

Patent Claims: 1. A device for regulating the feeding of steam boilers by deriving a larger or smaller part of the evenly delivered feed water quantity, thereby characterized that the organ connected in a branch of the pressure line to the Controlling the amount of water to be drained off is operated by the water pressure of which The size of the intermediate element is determined by which the steam consumption depends on: 2. An apparatus according to claim 1, characterized characterized that the organ for regulating the amount of water to be drained off with a multicylindrical. Feed pump is connected in such a way that the inlet of the organ with the one pump cylinder and its drain is connected to the other pump cylinder for the purpose of increasing the amount of water with each pump stroke in opposite directions through 'the regulating member and thereby a blockage to prevent. 1 sheet of drawings.