SU55696A1 - Internal combustion pump with direct effect of combustion products on the feed liquid - Google Patents

Description

In known internal combustion pumps with direct action of the combustion products on the supplied fluid, in which the inertia of the fluid column oscillating between them is used to compress the combustible mixture or air in the working cylinders, the discharge valves are installed in the discharge pipe pipeline to the pump.

In the proposed pump, a tee of a form that, under the conditions of oscillatory movement of the fluid between the working cylinders, can provide the desired direction of fluid flow through the branch tee to the pressure pipe without the aid of valves, is used to drain fluid into the pressure pipeline.

In the schematic drawing of FIG. 1 shows a longitudinal section of a coupled pump; FIG. 2, 3 a pump tee with a double-sided conoidal deflector inside is presented in longitudinal and transverse section.

Cylinders 1 are interconnected by a pipe 6 with a tee 7 connected to a pressure pipe.

Each working cylinder is provided with suction valves 5 for fluid inlet, suction valve 3 for air intake or combustible mixture, and valves 4 for exhaust of combustion products. The tee 7 is made in the form of diffusers 8 facing each other with an intermediate annular chamber 9 for draining the liquid into the discharge pipeline.

Each of the paired cylinders operates in a two-stroke cycle, and, to obtain the oscillatory movement of a liquid column enclosed in conduit 6 necessary for precompression of air or a combustible mixture, these cycles in different cylinders are shifted one tact relative to the other.

By the end of the expansion stroke of the liquid column, for example, in the left cylinder, the compression of air or a combustible mixture ends in the right cylinder. The mass of the oscillating liquid column in the pipeline 6, acquiring a known speed by the end of the expansion stroke, not only compresses, mainly due to its inertial force, air or a combustible mixture in the right cylinder, but also simultaneously sucks in a new portion of air or combustible mixture through the valve 3 into the left cylinder for the next cycle.

After ignition of the fuel in the right operating cylinder, the entire cycle described is repeated with the difference that the movement of the fluid in line 6 will be in the opposite direction. Regardless of this direction, the fluid column in the discharge pipe under the action of the diffusers 8 and the annular chamber 9 will receive equally directed pulses to the end of each of the cycles described, because the inhibition of the liquid column created by the counterpressure in the cylinder towards the end of the compression stroke favors its expansion towards the annular chambers and discharge piping.

In such a hydraulic mode of the annular chamber, there is no need to place in it any valves that prevent the reverse flow of fluid, since it is impossible to expect such on the basis of the test.

In order to enhance the described action of the fitter 7, the tee shown in FIG. 2, 3. In this form of execution, the tee is supplied with a double-sided conoidal deflector 10, the purpose of which is visible from the drawing itself.

The proposed pump can be used in combination with a conventional hydraulic turbine to produce a self-contained power unit. In this case, the fluid pumped into the turbine should return to the pump as it exits the turbine, as is the case in wet gas turbines of internal combustion, to which such an installation should be counted.

The subject matter of the invention.

Claims (3)

1. An internal combustion pump with a direct effect of the combustion products on the supplied fluid, in which the inertia of a fluid column oscillating between them is used to compress air or the combustible mixture in working cylinders, which is used to connect the pressure pipe 7 to the pump looking like diffusers 8 facing each other with an intermediate annular chamber 9 for draining the liquid into the pressure pipe. 2. The form of the pump according to claim 1, characterized in using a double-sided conoidal deflector 10 inside the tee for directing a pulsating fluid flow into the annular discharge chamber. 3. Use of a pump according to claim 1 for driving a hydraulic turbine in order to obtain an independent power unit. E to the author's certificate of N. V. Orlov about 55696 fig1