The present invention relates to a new fuel injection valve and its apparatus, and an internal combustion engine, a method for manufacturing the fuel injection valve and its nozzle body, and a method for manufacturing the same, and particularly relates to a fuel injection valve capable of controlling a spry shape of fuel to be injected (the nozzle body is hereinafter referred to as an L step nozzle), its apparatus, an internal combustion engine, a method for manufacturing the same, its nozzle body and a method for manufacturing the same.
The art in which a nozzle shape of a fuel injection valve for injection fuel directly into the cylinder of the internal combustion engine is adjusted to the size and shape of an in-cylinder injection engine and using conditions is known in Japanese Patent Laid-open No. 329036/2002. In this publication, there is described that the shape of a nozzle is prepared by a processing method such as press processing (plastic processing) using a mold material, casting or the like. Further, in that publication, there is shown a construction in which a protrusion having an opening part of which is opened is formed on the injection hole surface side of the fuel injection valve.
According to the aforementioned Publication, there is described processing by way of press processing (plastic processing) using a mold material, but no consideration is taken in connection with a problem of hanging of forging occurring at the edge when press processing takes place or dimensional accuracy. The hanging of forging of a binding wall forming a spray shape and a turning binding wall, or unevenness of dimension resulting therefrom brings forth instability of the shape of fuel spray.
It is an object of the present invention to provide a fuel injection valve and its apparatus, and an internal combustion engine, a method for manufacturing the fuel injection valve and its nozzle body, and a method for manufacturing the same capable of coping with various fuel spraying characteristics, capable of securing the highly accurate and stabilized fuel spraying characteristics, and which is excellent in productivity.
The present invention provides a fuel injection valve comprising a nozzle body provided with an injection hole therein, a valve body for opening and closing a fuel passage from said injection hole relative to said nozzle body, and a drive means for driving said valve body, characterized by comprising a protrusion having an opening continuous to said injection hole of said nozzle body and having part of a side opened continuous to an extreme end on the downstream side thereof, and a shape round from the extreme end of said opening to the side.
Further, the present invention provides a fuel injection valve characterized by comprising a protrusion having a semicircular-shaped opening continuous to said injection hole of said nozzle body, part of a side opened continuous to an extreme end on the downstream side thereof, binding walls formed on both sides continuous from said opening to a diametrical direction and a turning binding wall forming said opening, an outer surface of said protrusion having a round shape.
Furthermore, the present invention provides a fuel injection valve characterized by the provision of at least one requirement out of requirements that a protrusion having an opening continuous to the injection hole of the nozzle body and having part of the side on the downstream side opened continuous to the extreme end is formed, and the opening is widened more than the size of the injection hole, that a fuel turning element provided internally of the injection surface having the injection hole of the nozzle body is connected to the nozzle body by plastic flowing of a fastening member, that a fuel turning element provided internally of the injection surface having the injection hole of the nozzle body is connected to the nozzle body by plastic flowing of a fastening member, said element has a square-shaped corner which is a circle having a diameter corresponding to the inner peripheral surface of the nozzle body, and the square-shaped side is a recessed portion, and that the injection surface side member is connected to the nozzle body by plastic flowing or welding, and is further characterized, in addition to the above-described requirement, by the provision of the protrusion, whose outer surface has a round shape.
Further, the protrusion according to the present invention is preferably of a shape about ¼ of the sphere in which a semi-sphere is cut in a diametrical direction, and preferably has binding walls formed on both sides continuous from the opening to the diametrical direction and a turning binding wall forming the opening.
It is preferable that the extreme end having the shape about ¼ of the sphere, that the opening is formed crossing approximately the center of the injection hold, and the semi-spherical outer peripheral surface is circular, that the back is formed into a recessed portion corresponding to the protrusion, that the protrusion is formed in the center on the injection surface side having the injection hole of the nozzle body.
The present invention provides a fuel injection apparatus comprising a fuel injection valve for injection fuel into a cylinder directly, a pump for supplying fuel under pressure to said fuel injection valve, and a control unit for controlling injection of fuel caused by said fuel injection valve.
The present invention further provides an internal combustion engine comprising a cylinder, a piston reciprocating within said cylinder, an intake means for introducing air into said cylinder, an exhaust means for exhausting combustion gas from said cylinder, a fuel injection apparatus provided with a fuel injection valve, a fuel supply means for supplying fuel to said fuel injection valve, and an ignition device for igniting a mixture of air introduced into said cylinder by said intake means and fuel injected into said cylinder by said fuel injection valve. An opening formed in the fuel injection valve is arranged on the ignition device side.
The present invention provides a fuel injection valve characterized in that a protrusion having an opening in which part of the side is opened in a semi-circular shape continuous to the extreme end on the downstream side continuous to the injection hole is formed by plastic processing.
Further, the present invention provides a fuel injection valve characterized in that with respect to the semi-sphere of a blank one surface of which is semi-spherical, an opening in which part of the side is opened in a semi-circular shape continuous to the extreme end on the downstream side of the injection hole is formed by pressurizing and molding vertically, and a binding wall continuous to both sides from the opening to the diametrical direction and a turning binding wall forming the opening are formed.
The present invention further provides a nozzle body for a fuel injection valve in which opening and closing of a passage for injecting fuel into a cylinder relative to the nozzle body from an injection hole provided in the nozzle body is carried out by a valve body, characterized in that a protrusion having an opening in which part of the side is opened in a semi-circular shape continuous to the extreme end on the downstream side continuous to the injection hole is formed.
Further, preferably, the protrusion in the nozzle body for the fuel injection valve has binding walls formed on both sides continuous from the opening to the diametrical direction and a turning binding wall forming the opening.
The nozzle body for the fuel injection valve according to the present invention is manufacture by a method similar to the method for manufacturing the fuel injection valve as described above.
That is, in the fuel injection valve according to the present invention, a binding wall for binding such that fuel injected from the injection hole by the turning force has components in a turning direction even after being moved out of the injection hole is provided on a part in a peripheral direction of an outlet of the injection hole opening. In addition, the protrusion having a shape ¼ of the sphere is formed on the injection surface side of the injection valve, and the radial length (a) of the base of the binding wall surface is longer than the radial length (b) of the upper end. Preferably, the outer peripheral surface of the protrusion is of a circular surface.
Further, the present invention provides a manufacturing method for pressuring a material vertically crossing the semi-sphere or the semi-sphere of a blank provided with a protrusion from the center to the radial direction, and forming a center hole to be a turning binding wall to be binding wall surfaces formed vertically on both sides continuous to an opening and a vertical opening while plastic deforming the processed material radially. Preferably, the blank is a bottomed tube.
In the present invention, preferably, a blank which is disk-like and has a spherical recessed portion in a counter convex surface is used, and the semi-spherical or its protrusion is formed by plastic processing for pressurizing and molding the center of a disk-like blank.
The fuel injection valve of the present invention is able to produce spraying which is unlikely to change the shape with respect to the change in pressure in the cylinder. To this end, a mixture is converged on the ignition device side, and fuel particles are made lean in a direction of the piston to produce spraying. At this time, air outside the spraying can be induced into spraying from a portion where the fuel particles are lean. Thus, a pressure difference between the inside and outside of the spraying can be minimized so that the spraying is unlikely to be crushed.
Concretely, in an outlet portion of the injection hole provided in the fuel injection valve to inject fuel, part of the wall surface forming the injection hole is removed whereby binding of a flow of spray is released to thereby form a deflection spray which is rich on the side in which binding is released and lean on the bound side.
In the internal combustion engine of the present invention, the opening of the fuel injection valve is arranged as mentioned above so that a rich spray is formed on the ignition device side and a lean spray is formed on the piston side.
Other objects and advantages of the invention will become apparent from the following description of embodiments with reference to the accompanying drawings in which:
In the following explanation, a surface parallel to a valve fuel injection valve axis, including a fuel injection valve axis (valve fuel injection valve shaft center), is called a longitudinal section, and a plane perpendicular to a valve fuel injection valve axis is called a cross section.
A magnetic circuit comprises a yoke 3, a core 2 comprising a plug portion 2a for closing an upper opened end of the yoke 3 and a columnar portion 2b extending to the center of the yoke 3, and an anchor 4 facing to the core 2 through a gap. The columnar portion 2 is provided in its center with a hole 4A for holding a coil spring 10 which acts to press, toward a seat surface 9, a valve body 27 comprising the anchor 4 formed of a magnetic material and a rod 5, and the ball 6 joined to the rod 5. The seat surface 9 is formed conically on the nozzle body 7 so as to be positioned on the upstream side of an injection hole 8 along with the injection hole 8. The upper end of the spring 10 comes in contact with the lower end of a spring adjuster 11 inserted into the center of the core 2 to adjust a set load. In a clearance facing to the side of the columnar portion 2b of the core 2 and the side of the valve body 2 of the yoke 3 is provided a seal ring 12 secured mechanically therebetween in order to prevent fuel from flowing out to the side of a coil 14.
The coil 14 for exciting a magnetic circuit is wound about a bobbin 13, the outer circumference of which is molded by a plastic material to form a coil assembly 15. A terminal 17 of the coil assembly 15 is inserted into a hole 16 provided in a plug body (collar) 2a of the core 2, and the terminal 17 is joined to a terminal of a control unit not shown. The yoke 3 is bored with a plunger-receiving portion 18 for receiving a valve body 27, and a nozzle-receiving portion 20 which is larger in diameter than the plunger-receiving portion 18 and for receiving a stopper 19 and a protrusion 7 is provided extending through the extreme end of the yoke 3.
A cavity 5A for allowing passage of fuel is bored on the side of the anchor 4 of the rod 5. This cavity 5A is provided with an outflow port 5B for fuel. The valve body 27 guides, when the outer circumference of the anchor 4 comes in contact with the inner circumference of the seal ring 12, the axial movement thereof, and the ball 6 or the neighbor of an end on the side of the ball 6 of the rod 5 is guided by an inner peripheral surface 23 of a fuel turning element 22.
The fuel turning element 22 is inserted into a hollow portion defined by the protrusion 7, and comes in contact with an inner wall 21 on the upstream side of the seat surface 9 and is positioned. Further, the stroke of the valve body 27 (in
The operation of the fuel injection valve 1 in the present embodiment will be explained. When an electric signal is transmitted to the coil 14, a magnetic circuit is formed by the core 2, the yoke 3, and the anchor 4, and the anchor 4 is attracted on the side of the core 2. When the anchor 4 is moved, the ball 6 is moved away from the seat surface 9, and the fuel passage is opened. Fuel flows into the fuel injection valve 1 from the filter 24, then flows to the downstream through the outflow 5B of fuel from the internal passage of the core 2, the outer peripheral portion of the anchor 4 and the cavity 5A for allowing passage of fuel provided within the anchor 4, and is supplied, while turning, to the seat portion passing through a longitudinal fuel passage 25 and a diametrical fuel passage 26.
Further, as shown in a perspective view of
The diameter of the protrusion 28 is preferably approximately three times the height thereof, and the extreme end is flatten whereby the accurate height can be set.
Thus, the fuel injection valve according to the present invention can be said to have the following constitution.
(1) Two intersections of a section parallel to the center shaft including the center shaft of the injection hole 8 and the edge forming the outlet opening of the injection hole 8 are deviated in the direction along the center axis, and the difference in level is formed on the edge forming the outlet opening in the midst from one intersection to the other.
(2) In this case, the two edges forming the outlet opening between the two intersections and the difference in level portion are parallel with each other as viewed from the direction vertical to the above-described section.
(3) Further, the edge forming the outlet opening is formed so as to be changed in the direction along the center axis at the difference in level portion.
(4) The outlet opening surface of the injection hole 8 is formed so as to have the difference in level in the direction of the center axis of the injection hole 8.
(5) A difference in level is provided in the outlet opening of the injection hole 8 so that the length of the passage wall forming he injection hole 8 changes having a portion which changes in the non-linear form in the peripheral direction of the injection hole 8.
(6) The outlet opening of the injection hole 8 is formed with the notch approximately parallel with the center shaft of the injection hole, and the wall surface on one side is removed from the notch to thereby form the difference in level.
(7) The difference in level is formed on the nozzle extreme end surface formed with the outlet opening of the injection hole 8 whereby the difference in level is formed on the outlet opening surface.
(8) The difference in level in the direction of the center axis of the injection hole 8 is formed on the edge forming the outlet opening of the injection hole 8 so that the length of the passage wall surface forming the injection hole 8 changes in the peripheral direction of the injection hole 8, and at the fuel inlet to the fuel injection valve, a pressure of 1.0 to 20 MPa is applied to fuel for injection.
Next, the method for manufacturing the nozzle body 7 according to the present embodiment will be explained with reference to
The blank 29 provided with a semispherical convex portion 28a as shown in
Further, as shown in
The punch 30b is formed with a transfer surface 31 for forming the step bottom surface 7B, a transfer surface 32 for forming the step wall surface A1, and a transfer surface 32 for forming the step upper surface 7A. Further, the rod-like punch 30a is formed with a transfer surface 34 for forming the turning-binding wall A2. The portion indicated by a dash-dotted contour line in
Thereafter, the nozzle blank 29 is subjected to injection hole molding processing for the injection hole 8 in the direction of the injection hole outlet to form the nozzle body 7 via heat treatment or the like. Accordingly, the semispherical convex portion is pressurized whereby a highly accurate nozzle which is less in hanging of forging, and free from burrs can be manufactured, and the stabilized spray characteristic can be obtained.
While in the embodiment as described above, the blank provided with the semispherical protrusion is subjected to cutting, a method is not limited thereto but for example, as shown in
Further, in the present embodiment, although not shown, since fuel is injected directly into a cylinder by the fuel injection valve 1, there is provided a fuel injection apparatus comprising a pump for pressurizing and supplying fuel to the fuel injection valve 1 and a control unit for controlling injection of fuel by means of the fuel injection valve 1.
In connection of these to the nozzle body 7, the outer circumference of each corner of the fastening member 21 is locally pressed into a ring-like shape by a punch and subjected to plastic flowing and caulked. The fuel turning element 22 is fixed by caulking the fastening member 21. Further, the fuel turning element 22 alone will also suffice, and this fixing is similar to that of the fastening member 21. As described, the fixing is facilitated by caulking of only the circumference of each corner.
As described above, in the fuel injection valve 1, the opening having a specific construction is arranged toward the ignition device to thereby form a fuel injection region 45 deviated on the ignition device side as shown in
Another embodiment will be described below. The explanation of the same parts described heretofore is omitted, and only different parts will be described, like numerals and characters being used to refer to like and corresponding parts of the drawings in this embodiment as long as there is no specific explanation.
A method of manufacturing the nozzle body 7 according to the present embodiment will be described with reference to
The blank 29 provided with a semispherical convex portion 28a as shown in
The punch 30a is formed with a transfer surface 31 for forming the nozzle bottom surface 7B, and a transfer surface 32 for forming the nozzle wall surface A1. Further, the punch 30b is formed with a transfer surface 33 for forming the nozzle upper surface 7A, and the punch 30a is formed with a transfer surface 34 for forming the turning-binding wall A2. The portion indicated by a dash-dotted contour line in
Thereafter, the nozzle blank 29 is subjected to injection hole molding processing for the injection hole 8 in the direction of the injection hole outlet to form the nozzle body 7 via heat treatment or the like. Accordingly, the semispherical convex portion is pressurized whereby a highly accurate nozzle which is less in hanging of forging, and free from burrs can be manufactured, and the stabilized spray characteristic can be obtained.
While in the embodiment as described above, the blank provided with the semispherical protrusion is subjected to cutting, a method to be adopted is not limited thereto. For example, as shown in
Further, in the present embodiment, there is provided a fuel injection apparatus, not shown, comprising a fuel injection valve 1 for directly injecting fuel into a cylinder, a pump for supplying fuel under pressure to the fuel injection valve 1 and a control unit for controlling injection of fuel by means of the fuel injection valve 1.
Thus, the following constitution is provided. A fuel injection valve comprising a nozzle body, a fuel injection hole extending through the nozzle body in the axial direction, a nozzle portion formed projectingly around the fuel projecting hole to direct injected fuel, a valve body for opening and closing a fuel passage to the fuel injection hole, and driving means for driving the valve body, is characterized in that the nozzle portion is provided with a turning binding wall formed around the axis of the injection hole, and a binding wall continuous to the turning binding wall, the outer circumference of the nozzle portion being semispherical.
Further, according to the embodiments described above, the following constitution can be provided.
A fuel injection valve comprising a nozzle body provided with an injection hole therein, a valve body for opening and closing a fuel passage from the injection hole relative to the nozzle body, and a drive means for driving the valve body, is characterized by forming a protrusion having an opening continuous to the injection hole of the nozzle body and having part of a side opened continuous to an extreme end on the downstream side thereof, and the opening being widened more than the size of the injection hole.
A fuel injection valve comprising a nozzle body provided with an injection hole therein, a valve body for opening and closing a fuel passage from the injection hole relative to the nozzle body, and a drive means for driving said valve body, is characterized in that a fuel turning element provided internally of the injection surface having the injection hole of the nozzle body is connected to the nozzle body by plastic flowing of a fastening member, and in the fuel turning element, a square-shaped corner is a circle having a diameter corresponding to the inner peripheral surface of the nozzle body, and the square-shaped side is in the form of a recessed portion.
A fuel injection valve comprising a nozzle body, an injection surface side member boring an injection hole provided in the nozzle body, a valve body for opening and closing a fuel passage from the injection hole relative to the nozzle body, and a drive means for driving the valve body, is characterized in that the injection surface side member is connected to the nozzle body by plastic flowing or welding.
An internal combustion engine comprising a cylinder, a piston reciprocated within the cylinder, an intake means for introducing air into the cylinder, an exhaust means for exhausting combustion gas from the cylinder, a fuel injection device provided with a fuel injection valve, a fuel supply means for supplying fuel to the fuel injection valve, and an ignition device for igniting a mixture of air introduced into the cylinder by the intake means and fuel injected into the cylinder by the fuel injection valve, is characterized in that said fuel injection valve comprises a nozzle body, an ignition hole provided in the nozzle body, a valve body for opening and closing a fuel passage from the injection hole relative to the nozzle body, and a drive means for driving the valve body, the nozzle body having an opening opened in a semi-circular shape with part of the side continuous to the extreme end on the downstream side continuous to the injection hole, the opening being arranged so as to be the side of the ignition device.
A method for manufacturing a fuel injection valve comprising a nozzle body, an injection hole provided in said nozzle body, a valve body for opening and closing a fuel passage from the injection hole relative to the nozzle body, and a drive means for driving the valve body, is characterized in that a protrusion having an opening opened in a semi-circular shape with part of the side continuous to the extreme end on the downstream side continuous to the injection hole of the nozzle body is formed by plastic processing.
A nozzle body for a fuel injection valve in which opening and closing of a passage for injection fuel into a cylinder relative to said nozzle body from an injection hole provided in the nozzle body is carried out by a valve body, is characterized in that a protrusion having an opening opened in a semi-circular shape with part of the side continuous to the extreme end on the downstream side continuous to the injection hole of the nozzle body is formed, and the outer extreme end of the protrusion is round.
A nozzle body for a fuel injection valve in which opening and closing of a passage for injecting fuel into a cylinder relative to an injection hole and relative to a nozzle body from the injection hole provided in the nozzle body is carried out by a valve body, is characterized in that a protrusion having an opening opened with part of the side continuous to the extreme end on the downstream side continuous to the injection hole is formed, and the opening is widened more than the size of the injection hole.
A nozzle body for a fuel injection valve in which opening and closing of a passage for injecting fuel into a cylinder relative to an injection hole relative to the nozzle body from the injection hole provided in the nozzle body is carried out by a valve body characterized in that a fuel turning element provided internally of the injection surface having said injection hole of the nozzle body is connected to the nozzle body by plastic flowing of a fastening member.
A nozzle body for a fuel injection valve in which opening and closing of a passage for injecting fuel into a cylinder relative to an injection hole relative to the nozzle body from the injection hole provided in the nozzle body is carried out by a valve body characterized in that a fuel turning element provided internally of the injection surface having said injection hole of the nozzle body is connected to the nozzle body by plastic flowing of a fastening member, the element is circular in which a square-shaped corner has a diameter corresponding to the inner peripheral surface of the nozzle body, and the square-shaped side is in the form of a recessed portion.
A nozzle body for a fuel injection valve in which opening and closing of a passage for injecting fuel into a cylinder relative to an injection hole relative to the nozzle body from the injection hole provided in the nozzle body is carried out by a valve body is characterized in that the injection surface side member is connected to the nozzle body by plastic flowing or welding.
A method for manufacturing a nozzle body for a fuel injection valve in which opening and closing of a passage for injecting fuel into a cylinder relative to the nozzle body provided in the nozzle body is carried out by a valve body is characterized in that a protrusion having an opening opened in a semi-circular shape with part of the side continuous to the extreme end on the downstream side continuous to the injection hole is formed by plastic processing.
According to the present invention, there is provided a fuel injection valve and its apparatus, and an internal combustion engine, a method for manufacturing the fuel injection valve and its nozzle body, and a method for manufacturing the same capable of securing highly accurate and stabilized fuel spraying characteristics. According to the present invention, there can be obtained the effect that the nozzle accuracy of the fuel injection valve is high, and the productivity is excellent.
While the invention has been described in its preferred embodiments, it is to be understood that the words which have been used are words of description rather than limitation and that changes within the purview of the appended claims may be made without departing from the true scope and spirit of the invention in its broader aspects.
Number | Date | Country | Kind |
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2001-395995 | Dec 2001 | JP | national |
2002-358831 | Dec 2002 | JP | national |
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Number | Date | Country | |
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20050103899 A1 | May 2005 | US |
Number | Date | Country | |
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Parent | 10329439 | Oct 2002 | US |
Child | 11016749 | US |