DE152896C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention relates to a single-chamber pulsometer, which is known in the art Way is connected to a steam boiler in which one consumes the steam each Pressure or Suction period corresponding amount of water is automatically sprayed. That The main feature of the invention is that the injection of the water in the boiler is effected by a diaphragm pump.

In the drawing, such a pulsometer is shown schematically in longitudinal section by FIG shown, while FIG. 2 shows the chamber intended for receiving and dispensing the feed water in longitudinal section shows.

The operating chamber a, suitably formed as a cylinder of small diameter and considerable length, in which one end

is so conical, takes on its lower end wall the suction pipe ρ equipped at its lower end with a suction valve q , while the upper end of the chamber α is connected by a pipe e to the steam collector k arranged on the steam generator b . The steam generator is intended exclusively for the operation of the pulsometer and has only a small water and steam room. The steam pressure of the boiler is constantly kept at a level which is sufficient to convey the water to the lifting height in question. From the chamber a, approximately in the middle of its length, branches off a narrow pipe m , which first leads downwards and then continues in a vertically ascending direction and opens with a widening into the bottom of the vessel η intended to receive and convey the raised water . The mouth is covered with a flap ν , which is connected to a float. In the upper conical widening of the pipe m opens the riser pipe o, which branches off from the suction pipe ρ just below its point of confluence in the chamber α. A second branch pipe c extending from a somewhat lower point of the suction pipe opens out laterally into the conical upper part of the chamber after it has been guided along the chamber α. Just below its bend leading to the chamber α , this second branch pipe c has a cylindrical extension c ² with a ι steam tightly guided, longitudinally displaceable piston f, whose rod, which is guided upward through a stuffing box from the pipe wall, at its upper end has the cone of a steam pipe e switched on shut-off valve d carries. The diameter of the piston f is larger than that of the shut-off valve of the valve d. A branch pipe g extending from the pipe c below the cylinder c ² opens into the jacket of a low cylindrical chamber i, the two flat end walls of which are provided with concentrically arranged corrugations and are urged inward by leaf springs n>. This chamber i is enclosed by a larger chamber h made of stronger material, so that there is little clearance between the two walls. From the outer chamber h leads

Claims (1)

a thin tube 5 after the high-lying vessel η and opens just above the vessel bottom. A branch pipe u leads from the pipe s below a non-return valve located in an extension s ¹ to the steam boiler. In the extension u ¹ there is a non-return valve that opens after the boiler and a tap that can connect the inside of the boiler to the filling funnel t . Check valves m ¹ and c ¹ are also located in the pipes m and c. To initiate operation, the chamber α and the pipe c with its branches - · using air discharge cocks (not shown) - filled with water and the steam boiler is put into operation. As soon as the steam has the necessary tension, it pushes back the closing cone of the valve and enters chamber a, from which it presses the water content up through the riser pipe into the vessel η , but at the same time also pushes the contents of pipe c and its branch under brings a pressure corresponding to its tension. Under the action of this pressure, the corrugated end faces of the inner chamber i will bulge and, with the resulting reduction in the space between it and the outer chamber h, some of the water that has flowed into this space from the container η through the pipe s will be forced out. As a result of the water receding into the supply pipe s , the flap located in chamber s ^l closes, while the water passes through non-return flap u ¹ into boiler b . After the end of the pressure period, the water in the longer leg of the pipe m , which enters the chamber a , condenses the steam. As a result of the incoming negative pressure, valve c ¹ closes, the piston / is sucked up and closes the steam valve d. This can take place all the more unhindered as the voltage in the steam boiler has decreased due to the water injected shortly beforehand through pipe u. When the piston f goes up, the tension in the pipe c and its branches is released. The corrugated end walls of the chamber i return to their normal position with the support of the springs n> and, as a result of the suction effect, cause the subsequent flow of water from the container η into the space between the two chambers h and i. . With the increase in steam tension in the boiler after some time, the specified processes will be repeated. Patent-A ν saying: Steam water lifter with a steam generator fed by its own pressurized water, characterized in that during the pressure period the amount of water required to generate the operating steam each time is fed into the steam generator by means of a membrane pump (hi) , which is moved as a result of the pressure differences occurring in the pump chamber (a). 1 sheet of drawings.