DE553120C - Pressurized water supply for an internal combustion engine with overload - Google Patents

Description

In the overcharging process for an internal combustion engine with a charge of fuel, oxygen and inert gas according to patent 496,104, it is known that the hot exhaust gases are fed into a condenser b and are cooled there by injecting cold water.

The water is injected with overpressure, e.g. by a pump / is produced. Since the injection takes place in a line system in which the machine with is included, it is necessary that this system after the machine is stopped is externally protected against "ingress of water; on the other hand, the operation requires the machine working according to the above-mentioned overloading process that immediately after When operation starts, the full amount of water is automatically injected.

The invention relates to an automatically operating shut-off device that these two Requirements met.

In the pressure line st of the injection pump r a spring-loaded valve is switched on before the injection point e ' , which consists of the valve housing ρ and a valve <7, the valve stem 11 of which is connected to a piston s . The diameter of the piston s is larger than that of the valve disk q. A spring / presses the valve onto its seat.

The water pressure generated by the pump from the pressure p _a q between the valve plate and the piston in the valve housing /? directed. The difference in area between the valve head and the piston creates a differential force in the direction of opening of the valve which, after the spring force has been overcome, lifts valve q from its seat. The piston is pressed against a stop a ' , which is also designed as a sealing surface against leakage water from the piston and allows such a large opening stroke of the valve that no throttling of the water occurs at the flow point.

The water can flow unhindered to the injection point as long as the ^{differential force exerted by the pressure / 3} ^ on the piston is greater than the spring force of the spring t. If the differential force becomes smaller as a result of the drop in pressure P ₂ , the spring automatically closes the valve as soon as the spring pressure has overcome the differential pressure.

The pump / "is inevitably coupled to the machine; furthermore, the connection stub st between the pump / 'and valve housing ^ is very short generates the required pressure and in operation of the

Maintains machine at the moment of stopping due to rapid drop in the Pressure Po however, the valve closes immediately. Should a delay in the start of injection be achieved the connection si is connected to an additional filling space.

The injection water flows to the pump t

under the pressure P ₁ , which corresponds to a column of water h ^{r above the pump.}

ίο When the pump r is at a standstill, the pressure in front of and behind the pump is the same as a result of the pressure equalization through the pump column: P ₂ = P ₁ . At a certain initial pump pressure P _{1 it} would therefore be possible for the valve to open even when the pump is at a standstill, as soon as the differential pressure resulting from P ₁ overcomes the spring tension.

To prevent this and to be independent of the size of the pump inlet pressure P ₁ , ä. H. from the size of the ■ water reserve Ä ', a compensation line c' is led from the suction chamber of the pump r to the back of the piston s, so that when the pump is at a standstill, the piston is always fully relieved and the spring remains effective, as large as P ₂ also will.

When the pump r is in operation , this compensating line c ' also ensures that the full pressure difference P ₂ - Py generated by the pump on the piston is guaranteed in every position of the open valve, e.g. B. if the sealing surface is leaked once at a '. This method can also be used analogously if, instead of the pump / ", any other pressure water source is connected to the valve ρ and the compensation line c 'is connected to a pressure level that is the same when the pump is at a standstill, but less than when the pump is in operation that of pressurized water.

Claims (1)

Claim: Method for the automatic opening and closing of a pressurized water line for an internal combustion engine with Überladeververfahren according to patent 496 104 with installation a spring-loaded valve, characterized in that the delivery pressure and the suction negative pressure of the water pump the Open the valve by pressing these on opposite sides of one with the The piston connected to the valve act, with the suction line facing away from the valve Piston side is also connected, so that independence from the size of the static pressure head in front of the pump is achieved. 1 sheet of drawings