DE174483C - - Google Patents

Description

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IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVr 174483 - CLASS 59 c. GROUP

P. SCHAUER in BERLIN.

Patented in the German Empire on February 3, 1905.

The known pulsometers have the disadvantage that they use a lot of steam, because the driving steam with the cold water and the cold metal walls in must come into direct contact, so that strong temperature differences Condensation losses arise.

This disadvantage is eliminated by the present invention by instead of the

ίο pulsometers in use have a chamber, which serves both to press and to suck in the water, two in connection with each other standing chambers are used, of which only one with the working steam comes into contact and has a permanently higher temperature, while the other only for condensation of the steam after the end of the pressing period. With this device can simultaneously in peculiar Way a steam generator can be brought into connection, which then makes the operation so easy that of maintenance can be almost entirely dispensed with.

In the drawing, the entire device is shown in cross section. α is a steam generator in its simplest form. He has a very small water or; Steam room b. Its fire-contacting heating surface is enlarged by ribs c. The heating is done, assuming a small output, by 'a kerosene burner d. The steam generator is connected at its lowest point to a container / standing on the side through the pipe e , while from its highest point, the steam space, the pipe g leads into the lid of the container /, which connection can be closed by the shut-off valve h. In the container / is usually water, and on the surface floats a slice i of cork or the like. In addition to / is a bit higher, a second container (BEZW. Chamber) j arranged, the k by a wide tube with a former in compound stands. On the container ^ 'there are two valve flaps / and m, where the pressure pipe η and the suction pipe 0 are connected. The two containers respectively. Chambers / and j are also connected to one another through the U-shaped tube ρ . At the highest point of j there is a funnel-equipped filler cock q .

The operation of the device is as follows:

The heating device d is first activated and then through the filling cock q - with the valve h closed - the two chambers j and / and the pipe ρ are filled with water. As soon as the steam generator is sufficiently hot, the valve h is opened, whereupon water enters it through e and a strong development of steam immediately takes place. The vapor formed passes through g into the top of the chamber /. As soon as the parts that come into contact with the steam become hot with initially strong steam condensation

the vapor pressure is high enough. This propagates in all directions, so that the water from f through k and through the chamber j respectively. the valve flap in and the pipe η is pushed up according to the steam pressure. The water level falls in the container f and at the same time in the leg of the pipe p, which is connected to f . Does the steam have so much

If water is pressed out of f so that the water level is approximately at the height marked by the line s , then there is no more water at all in the leg of the pipe ρ leading from / downwards, as a result of which the water content suddenly begins from j through Ar to f to flow by the steam from f flowing through ρ to j . The drawing shows the moment when part of the water has already flowed from j to f. Since the walls of j are cold, strong condensation takes place here immediately, the vapor pressure disappears and gives way to a vacuum. As a result, fresh water is now sucked in through / and ο and j fills up again while / yes has already been filled by the contents of j. At the moment when the steam enters j through ρ , which causes a sudden decrease in steam tension, the further development of steam in the steam generator was also interrupted. It is assumed that the water in the steam generator a has been up to the line s shortly before, so that the part of b above it formed the steam room. If the steam pressure suddenly disappears in the container /, an excess steam pressure arises in the steam generator α , since not all of the steam can immediately reach / through the relatively narrow pipe g. This has the consequence that the low water content of the steam generator α in the pipe e respectively. the container / is pushed out. The water level in the steam generator is generally dependent on two factors: 1. on the steam throttling by valve h in the manner just described and 2. on the height of the water level in /. The higher the water level from / above the confluence of pipe e into the steam generator, the greater the pressure with which the water tries to fill the steam generator, and the lower the draining effect of the steam throttling through h at the level of the Water level in α . The flow speed of the steam in the pipe g will therefore depend on the height of the water level in /. Therefore, if at the end of the pressure period of the device, ie the emptying period of / the water level is in / low, the pressure of the water column on the steam generator is already lower and thus the steam generation itself. However, it should be noted that during the pressure period a higher vapor pressure, corresponding to the delivery head to be overcome, is present and thus also a higher vapor density, so that a strong vapor development can be present even with a low vapor flow rate in g.

At the moment when the steam comes from / through the U-shaped pipe ρ to j , the steam generator also empties, and during the filling period from / and j , for the reasons given, there is only very little steam development in α . Only after filling, when steam pressure can build up in the upper part of /, does the steam development due to the rising water level in the steam generator increase and it reaches its maximum at the moment when / begins to empty, i.e. at the beginning of the actual pressure period of the device.

The steam inflow adjusts itself automatically to requirements without a special control element. The device can be shut down by closing valve h or removing the heat source; the output can be regulated by throttling valve g and reducing the heating. The maximum water content of the steam generator must be as small as possible for economic reasons, because a larger amount of very hot water causes steam formation, even outside the steam generator, during the suction period of the device, which has an unfavorable effect. The harmful condensation of the steam during the pressure period in the container / is low, both due to the floating cork disc i, which prevents direct contact between steam and water, but above all because the water below the cork disc and the wall of / becomes warm and remains, so there are only minor temperature differences. This mainly distinguishes the device from the known pulsometers, in which the hot steam always comes into direct contact with the cold conveyed water and the equally cold metal walls, which explains the high steam consumption of such devices.

If the water boiler is used without the peculiar steam generator α , i.e. in connection with a normal steam boiler, the container / is used instead of the simple steam pipe g with that of the pulsometers

the usual steam control device. Furthermore, then, by the entire Device is carried out twice, one of the known, so-called double-chambered Very similar device to pulsometers can be created.

Claims (2)

Patent Claims: i. Steam water lifter, consisting of ίο two chambers that are connected to each other by pipes and in which the operating steam enters the lower chamber and, after the end of the pressure period, passes through a U-shaped bent steam pipe into the upper chamber, is knocked down and sucks in fresh water, thereby characterized in that the opening of the connecting pipe (k) into the lower chamber (f) is arranged in such a way that between the water flowing from the upper chamber Q) into the lower (f) at the end of the pressing period and the steam in the latter warm a layer Water is available for the purpose of protecting the pressurized steam from cooling. 2. Embodiment of the steam water lifter according to claim 1, in which the steam water lifter is connected to a steam generator, characterized in that the steam generator (a) is in communication with the water lifter ff) through a water pipe (e) and a steam pipe (g), that during the sudden pressure reduction in the water lifter ff) the water level in the steam generator (a) and thus the steam generation is automatically reduced. 1 sheet of drawings.