DE165479C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

165479 CLASS 88 h.

(NlED.-ÖsTERR.).

The present invention relates to a buoyancy machine in which in a water column arranged on a wheel or endless band of their size changeable buoyancy bodies are whose contents are enlarged in their lowest position by air supply, in their highest Position is reduced by air suction. The novelty is that the enlargement the content of the buoyancy bodies

ίο by automatic air supply as a result of the arrangement the buoyancy machine takes place in a water column of low tension, while the Space reduction of the buoyancy bodies by automatic connection with a. Chamber, in which is generated by combustion, a negative pressure takes place.

The device for increasing the content of the buoyancy body by automatic Air supply is based on the following physical experiment: You put it in a with a Liquid (water) filled vessel 2 (Fig. 6) a second, closed at the top and at the bottom open, completely filled vessel 1, then the liquid in the latter is through the Air pressure held. If you now bring an inflatable hollow body, such as a bladder 11, in a compressed form into the vessel 1 and connects it with a hose 7 with the outside air, then when you put the bubble in the vessel 1 above the liquid level of the vessel 2 brings the outside air through the hose 7 into the bladder by itself and inflate them, after which they are due to the significantly increased buoyancy in the vessel rises and can do work here. The air flows into it by itself Bladder because the pressure in vessel 1 is only the same at the level of the liquid in vessel 2 the external air pressure, but from then on it continuously decreases upwards. In the case of the present buoyancy machine, the Water column low voltage, consequently the atmospheric air automatically moves into the lowest position Hollow body flows in. If the air is sucked out of the hollow bodies at the moment, in which they are on an endless belt, wheel or the like in their highest position, then the lift is only effective on one side of the wheel, which now turns and gives off power. The air is sucked out with the help of a chamber in which a negative pressure is created by combustion.

The drawing shows in FIGS. 1 and 2 an embodiment of such a device. Buoyancy machine in two longitudinal sections; Figs. 3, 4 and 5 show an example of the combustion apparatus in different phases of their effectiveness.

The buoyancy machine consists of a container 1, which with its lower open Part protrudes into a container 2. The container ι is on the upper part with a means Valve 3 lockable filling funnel 4 provided,

while its lower opening by means of a cover plate that can be raised and lowered by screws 5 6 is lockable. The actual machine is arranged in the container 1. Above the stars 55 run the two pipe strings 7 and 8, the individual pipe pieces by means of Ball joints or hoses 9 are connected to one another. One piece of pipe each Line is with the opposite pipe section of the other line through one Cross tube 10 connected so that the three tubes together to a certain extent form a chain link. A cylinder 11, which is open on one side, is arranged on each of these cross tubes, the piston 12 of which slides on the tube 10. The tubes 10 are just on the inside the end wall of the cylinder 11 Einbezw. Outflow openings 13 and are on both sides of the cylinder 11 is provided with a shut-off valve 14, 15 each. The cock chicks of the same have angular arms, of which those of the taps 14 are in the range of stops 16, 17 (Fig. 2) and those of the taps 15 in the Areas of stops 18, 19 are available. In the pipe string 7, a hollow body 20 is switched on, in which a sleeve 21 is rotatably mounted. The sleeve 21 has two cavities 22.23. A connecting pipe 24 leads from the cavity 23 to the pipe string 8.

The sleeve 21 is connected by a double pipe joint to a sleeve 25, which in turn is rotatably mounted in a sleeve 26 penetrating the wall of the container 1. Both sleeves 25, 26 include three cavities 27, 28 and 29, of which the two outer spaces 27 and 29 are connected by a pipe 30. In the same way it is Intermediate joint formed, which half of two rotatably connected bushes th 31.32 exists. The two outer cavities 33, 34 also stand through Tube 35 in connection.

From the bushing 31 lead articulated pipes 36, 37 to the bushing 21 on the pipe string 7, while from the bush 32 articulated pipes 38, 39 to the bush 25 attached to the container 1 to lead. .

The start-up and mode of operation of the buoyancy machine is as follows:

After the container 2 has been filled with water, the lower opening of the container 1 is closed by lifting the cover plate 6 by tightening the screws 5 and pressing it firmly against the edge of the container 1. Then the tap 3 and the venting nozzle 40 are opened and the container 1 is completely filled with water through the funnel 4. Once this has happened, the cock 3 and the vent port are closed again and the cover plate 6 is lowered. Since there is a lower pressure in the container 1 than in the external air, it passes through the nozzle 41 via 28, 39, 32, 31, 36, 22 into the pipe string 7 by virtue of its excess pressure. From here the air can through the means Stops 16 open cock 14 enter the relevant cross tubes 10, flows out of the openings 13 into the cylinder 11 and pushes the piston 12 into their outer end position (FIG. 1). As a result of the greater buoyancy acting on the filled cylinders, the same rise in height, whereby the machine is set in motion. This successively get from below cylinder 11 with the piston pushed in, respectively, in place of the cylinder that has gone up. their closed cocks 14 against the stop 16. The cocks are opened by the latter and, after the cylinder 11 has been filled, closed again by a stop 17 located higher up. Are the full or air-filled cylinder reached the top, they are contacted with the later sawn ¹ write combustion apparatus in combination, whereby the air cylinders is withdrawn. This connection is made in such a way that the otherwise closed cocks 15 located on the other side of the cylinder are opened by a stop 18 and are closed again by a stop 19 which comes into effect later after the cylinder has been evacuated will. When the cock 15 is open, the air is sucked through the opening 13 from the cylinder into the cross tube 10, passes through the open cock 15 into the pipe string 8, from there via 24, 23, 37, 38, 27 and 30 into the nozzle 43, which is connected to the nozzle 52 of the combustion device (FIGS. 3 to 5).

The combustion device consists, for example, of one that is open on one side Chamber 44, the end wall of which has air supply openings 45, 46 and a passage opening 47 is provided for a jet flame. A flat slide 48 is arranged behind the end wall, which is also has a passage opening 49 for the jet flame and with an air supply channel 50 is provided.

The operation of the combustion device is as follows: If the from the lifting machine driven piston 51 in the direction of the arrow (Fig. 3), so is during the simultaneous movement of the slide 48 in the direction of the arrow by means of the channel 50 the chamber in contact with the outside air for as long as the passage opening 47 held closed until the chamber is filled with air. Then in the end position of the piston 51 and the Slide 48 covers the channels 45, 46, while

rend the through openings 47 and 49 coincide, causing the jet flame in the Chamber can occur (Fig. 4). The consequence of this is the combustion of the oxygen contained in the chamber and thereby the formation of a negative pressure, which causes the air to be sucked out of the respective with the combustion device connected cylinder 11 of the lift machine

ίο causes what there is only one thing accordingly large cylinder. In order to also prevent outside air from entering during the combustion to effectively prevent through the openings 47, 49, a sliding sleeve is on the gas pipe 53 54 arranged, which such. B. from a thumb disk seated on the slide shaft is inevitably moved that it during the combustion at the rear Chamber with a flange rests and thereby the entry of air into the chamber. completes while doing the other phases of the work process is pushed back.

After the suction has taken place, the piston 51 and the slide 48 move into their initial position back, whereby on the one hand the through opening 47 is covered again, on the other hand the connection of the chamber through the openings 45, 46 and the channel 50 with the outside air is produced so that the combustion products can be discharged (Fig · 5) · During this last phase is none of the taps 15 on the machine are open so that the combustion products do not get into the Chamber can be pushed back.

The chamber 44 is expediently chosen so large that the suction at each Combustion is sufficient to completely empty a cylinder 11 of the engine. To save of gas for the flame, it is advantageous to have a shut-off device in the supply pipe 53 turn on, the z. B. is in communication with the lever 55 of the sliding sleeve. That The shut-off element is then fully open during the combustion phase it is closed so far in the other work phases that the inflow of gas reduced to a little.

Claims (1)

Patent claim: Buoyancy machine with buoyancy bodies that can be changed in size, thereby characterized in that the contents of the buoyancy bodies (11) during their upward movement in a water column of low tension · by automatic supply of atmospheric air at the lowest point is enlarged, while the content is reduced at the highest point by automatically connecting to a chamber (44), in which a negative pressure is generated by combustion. 1 sheet of drawings.