DE272193C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

Patent specification

- M 272193 CLASS 27b, GROUP

GUSTAV SUIDA in VIENNA.

The present invention relates to an automatic hydraulic air compressor, in which the pressurized water and simultaneously precompressed by means of a jet device Air is conveyed into the compression space. Such air compressors do not have any so far result in a significant increase in performance than the known ones that work without pre-compression of the air hydraulic air compressors, and

ίο for the reason, because in the compressors there is always a counterpressure that affects the performance of the blasting machine. According to the present invention, such a back pressure will now occur in the compressor completely avoided by alternating two compressed air in a manner known per se supplying boilers are provided, each of which by a special jet apparatus is fed. Both jet devices are operated alternately by a common control element, which in turn is operated by in the boilers, its actuation by pneumatic means experiences and with a common outlet for the two boilers Pressurized water is coupled. This arrangement ensures that at the beginning of the Working period of the jet apparatus in the completely emptied boiler only atmospheric pressure there is and none during operation due to the automatic control of the blasting devices conditional counter-pressures occur, so that the jet apparatus is at its full potential can unfold unhindered.

In the drawing, Fig. 1 is a schematic of an invention; Fig. 2 shows a detail of the same on a larger scale.

I and II are two pressure vessels standing next to one another and K is the collector for the compressed air, from which a pipe w leads to the pressure gauge M ; from the pipe w branches off a pipe α leading to the consumption line. The collector is connected to the boilers I, II through a pipe r with a shut-off element s and check valve t , and check valves n _x , n ₂ are connected between the pipe r and the boilers I, II.

Each boiler I, II is equipped with an air injector J ₁ , J _{2 of the} usual type operated by pressurized water, with check valves O ₁ , O _{2 being} switched into the air suction pipes of these injectors according to the invention. In each of the tanks, a lever I ₁ , b _{2 is} mounted at one end at W ₁ or m ₂ , which carries a float S ₁ or S ₂ at the other end. Each of these levers actuates a shut-off device U ₁ or d ₂ in a pipe C ₁ or C ₂ , which connects the air space of the boiler I or II with a cylinder ^ ₁ , f ₂ on the associated boiler. _{Pistons ^ 1} and g ₂ , which carry toothed racks H ₁ and h ₂ , which engage in a drive ζ on a three-way valve D in the pressurized water supply pipe E , move in these cylinders. This tap monitors the access to pressurized water to the two injectors in such a way that pressurized water is alternately supplied to them. F ₁ , F ₂ are the water drainage pipes of the two boilers, D ₁ is a tap connected to tap D by suitable rods L , the

Sustained section of an apparatus according to the j the water drainage through the pipes F ₁ , F ₂

monitored in such a way that when water flows into the boiler I through the injector J ₁ , the tap D ₁ shuts off the drain pipe F ₁ , but keeps the pipe F ₂ open.

If the drain pipe F ₂ is now shut off by the tap D ₁ and the injector J _{2 is} connected to the water supply pipe E through the tap D , pressurized water flows through the injector / ₂ into the boiler II containing air under atmospheric pressure, with air flowing through the injector at the same time promoted into this boiler and thus the amount of air contained in the boiler is increased and compressed until the suction effect of the injector J ₂ ceases due to the increase in air pressure. The pressurized water flows further into the boiler II, whereby the air in the same is compressed even further and finally flows through the check valve n ₂ and the pipe r into the collector K ; the outflow of water through the injector J ₂ to the outside is prevented by the check valve O ₂ .

If the water level in boiler II has reached a certain height, the float S _{2 of} this boiler is raised and the shut-off device A _{2 is} opened, so that compressed air flows through the pipe c ₂ into the cylinder f ₂ and the piston g ₂ into the position shown in FIG The position shown in 2 lifts. The rack A ₂ turns the drive ζ and tap D so far that the pressurized water flow to injector J _{2 is} shut off and to injector Z ₁ of boiler I is released. The pressurized water now flows into the latter and presses the air in the same, as described above for the boiler II, while the water flows out of the boiler II through pipe F ₂ and tap D ₁ , which flows from tap D through the rod L has been converted.

As soon as the water begins to run out of the boiler II, any remaining water in the injector J ₂ also runs down into the boiler II and outside air flows through the check valve o ₂ and the injector into this boiler, whereby the latter is filled with air under atmospheric pressure. The float S ₂ goes down and closes the shut-off element cZ ₂ , but a check valve e ₂ arranged in the latter or connected therewith is opened by the compressed air in the cylinder f ₂ , so that the pressure in the latter also drops to atmospheric pressure.

The check valve n ₂ prevents the compressed air from flowing back from the collector K into the boiler II while the water drains from the latter.

As soon as the boiler I is filled with water to such an extent that the float S ₁ rises in it and allows compressed air to flow from it through the pipe C ₁ and shut-off device a _x into the cylinder f ₁ , the piston ^ _{1 of the latter goes up,} since meanwhile, as described, the air pressure in the cylinder f _{2 has} dropped to atmospheric pressure and the taps D, D ₁ are set so that the water inflow to the injector J ₁ and the water outflow through the pipe F _{2 are} shut off and the water outflow _{pipe F 1 is} opened . The boiler II then fills again with water, while the water escapes from the cylinder f _x through a check valve e _x which is arranged in the shut-off element U _{1 of the pipe C 1} leading into the boiler I or is connected to it. The valves or taps 0, O ₁ are expediently set so that as much time is required to fill one boiler as it takes to empty the other. In this way pressurized water is allowed to flow alternately into boilers I and II, which in turn convey compressed air into collector K so that the fan continues to work as long as pressurized water is fed to pipe E or the extraction of compressed air from container K is interrupted . In the latter case, the pressure in the compression chamber of the boiler concerned rises, whereby the speed of the water flowing through the injector is reduced more and more until finally the water in the suction pipe of the injector _{closes the valve O 1} or O ₂ and closes the injector without sucking in long flows through until the voltage in the boiler reaches the level of the water pipe pressure. At this moment the whole machine is switched off automatically.

Claims (3)

Patent Claims: 1.Hydraulic air compressor with two alternately working compression chambers, characterized in that the pressurized water into the air under atmospheric pressure containing and emptied of water compression chambers flows through water jets, which during of the inflow to suck in air through check valves, for the purpose of utilizing the kinetic energy of the incoming pressurized water to that in the compression chamber at the beginning of the water inflow to add another quantity of air to the existing amount of air and thus increase the performance of the compressor per Unit of volume of pressurized water consumed to increase. ' 2. Air compressor according to claim 1, characterized in that two by the The compressed air generated actuated control pistons used for alternating activation and deactivation of the blasting devices through a shut-off device for the water supply line to the jet pumps kendes gear are inevitably connected to each other. 3. Water jet blower according to claim 1 and 2, characterized in that the Shut-off device, which is located at the end of the compressed air line located inside the boiler is arranged, has a bore connecting the compression chamber of the boiler with the compressed air line, in which a non-return valve is provided, which when the control piston decreases allows the air to escape from the control cylinder into the compression chamber of the boiler. 1 sheet of drawings.