RU2097596C1 - Internal combustion engine electromagnetic nozzle - Google Patents

Abstract

FIELD: mechanical engineering; internal combustion engines; controlled injection fuel systems and liquid or gaseous fuel supply systems of engines. SUBSTANCE: flat shutoff member in electromagnetic nozzle has guide rod getting into bushing made of magnetically nonconducting material. End face of magnetically conducting core with fuel feed channel has groove and serves as support seat of shutoff member. Diameter of flat shutoff member is equal to diameter of support seat. Housing and guide bushing are provided with holes for letting out and atomizing the fuel arranged around shutoff member. EFFECT: enhanced reliability of operation. 1 dwg

Description

 The invention relates to fuel systems of internal combustion engines (ICE), in particular to fuel injection systems with controlled injection, and can be used in ICE power systems with liquid or gaseous fuel.

 Known electromagnetic nozzle for internal combustion engines, comprising a housing made of a magnetically conductive material, and a magnet core located therein with a fuel supply channel covered by an electromagnetic coil, a flat spring-loaded valve element having a number of circular holes on the periphery for fuel passage, and a valve seat with an outlet .

 This electromagnetic nozzle is the closest technical solution for the present invention and can be taken as a prototype.

 A disadvantage of the known nozzle is the low speed due to the large mass of the valve element and the long opening time of the outlet.

 The present invention improves the speed of the nozzle by reducing the size and weight of the valve element and increasing the opening force of the nozzle.

 The technical result is achieved due to the fact that in an electromagnetic nozzle for an internal combustion engine containing a housing made of magnetically conductive material and a magnetically conducting core placed therein with a fuel supply channel covered by an electromagnetic winding, a flat locking element made of magnetically conductive material and a locking support seat element with a hole, a flat locking element has a guide rod included in the guide sleeve made of a magnetically conductive material, the end face of the magnet the outgoing core with the fuel supply channel has a groove and is the supporting saddle of the locking element, the diameter of the flat locking element is equal to the diameter of the supporting saddle, the housing and the guide sleeve have holes for the removal and atomization of fuel located around the locking element.

 The drawing shows an electromagnetic nozzle for ICE.

 In the housing 1 of the electromagnetic nozzle made of magnetically conductive material, there is a magnetically conductive core 2 with a fuel supply channel, covered by an electromagnetic winding 3, a flat locking element 4 with a guide rod made of magnetically conductive material. The guide rod of the locking element is included in the guide sleeve 5 made of magnetically non-conductive material. The end face of the magnetically conductive core with the fuel supply channel has a groove and is a reference seat 6 of the locking element. The housing 1 and the guide sleeve 5 have holes 7 located around the locking element.

 The electromagnetic nozzle for the internal combustion engine operates as follows.

 When voltage is applied to the electromagnetic winding 3, a current flows through it, the accompanying electromagnetic current attracts the locking element 6 to the core 2. In this case, the fuel is locked and does not pass to the nozzle exit. To supply a dose of fuel, the voltage from the nozzle is removed for a fixed time τ. When the voltage is removed, the current in the winding 3 is interrupted, the electromagnetic force that holds the locking element at the support seat 6 disappears, and under the influence of the fuel pressure, the locking element 4 opens the input channel. Fuel through a circular slit formed between the seat 6 and the locking element 4, as well as through the holes 7 in the body of the nozzle 1 and the guide sleeve 5 enters the output of the nozzle. A large number of holes 7 located around the locking element 4, atomizes the fuel. At the end of the time interval t, voltage is again applied to the winding 3 and the locking element closes the fuel supply. The guide sleeve 5 does not allow the locking element to deviate from the axis.

 Comparing with the prototype, it should be noted that the holes for the passage of fuel in the nozzle are transferred from the movable locking element to its fixed part, the housing and the guide sleeve, which allows to reduce the diameter of the locking element 4 and, therefore, reduce its weight and increase speed. The diameter of the locking flat element 4 is reduced to the diameter of the supporting seat 6. The groove expanding the opening of the supporting saddle 6 in comparison with the opening of the supply channel allows you to increase the repulsive force of the locking element when it is opened at the initial moment, because the repulsive force at the initial moment is equal to the product P • S, where P is the fuel pressure and S is the area of the lockable hole.

 When operating at low pressures using liquid or gaseous fuels in which there are particles of oil or liquid fuels, the locking member often sticks to the support seat. The increase in the diameter of the hole of the support saddle by a factor of two leads to an increase in the separation force of the locking element by a factor of four, while the area of the saddle (adhesion area) increases only by a factor of two. An increase in the area of the saddle also leads to an increase in the life of the nozzle.

 The design of the proposed nozzle does not contain a return spring, which significantly increases the reliability, repeatability and stability of the nozzle.

Claims (1)

 An electromagnetic nozzle for an internal combustion engine, comprising a housing made of a magnetically conductive material, and a magnetic core located therein with a fuel supply channel covered by an electromagnetic winding, a flat locking element made of a magnetic material, and a support seat of the locking element with a hole, characterized in that the flat locking element has a guide rod included in the guide sleeve made of a magnetically conductive material, the end face of the magnet odyaschego core with a fuel feed channel has a groove and a locking element bearing seat diameter flat locking element equals the diameter of the support seat and the housing and the guide sleeve have openings for discharging and atomizing the fuel, disposed around the locking element.