EP0410149A1 - Fuel injection pump for internal combustion engines - Google Patents

Abstract

In the case of a fuel injection pump for internal combustion engines in which a valve arrangement (6) is provided between the working chamber (2) of the pump piston (3) and the injection line (17), which arrangement contains a spring-loaded non-return valve (23) opening in the feed direction and a spring-loaded valve (10) permitting a return flow of fuel from the injection line (17) to the working chamber (2), the valve permitting a return flow is formed by a piston slide (10) carried in a cylinder bore (9) of the valve disc (7) of the valve (23) opening in the feed direction. The piston slide (10) has radial bores (11) which connect openly with the injection line (17) and are slid over by a control edge (13) of the cylinder bore (9) after a predetermined stroke (22) of the piston slide (10). In this way constant volume relief first occurs followed by constant pressure relief of the injection line (17). The valve arrangement (6) is assembled into a separate, pre-adjustable unit, which can be installed between the section (1) containing the working chamber (2) and the valve cap section (4) of the injection pump. <IMAGE>

Description

In fuel injection pumps for injection internal combustion engines, in which a pressure valve is usually provided between the working space of the pump piston and the injection line, the disadvantage arises that pressure waves in the injection line or in the spaces downstream of the pressure valve in the direction of conveyance occur when the pressure valve closes. Such pressure waves can cause cavitation in the downstream rooms and in the injection line, which lead to premature wear. In order to keep cavitation within limits, it is known to provide a valve which allows fuel to flow back after the pressure valve opening in the conveying direction has been closed, thus relieving the pressure on the downstream rooms and the injection line.

The invention now relates to such a fuel injection pump for injection internal combustion engines, in which a valve arrangement is provided between the working space of the pump piston and the injection line, which valve arrangement includes a spring-loaded check valve that opens in the direction of delivery and a spring-loaded valve that allows fuel to flow back from the injection line to the working space. wherein the valve plate of the check valve opening in the conveying direction is seated on the part containing the working space and has a central cylinder bore forming part of the valve which allows a backflow, and wherein a valve which bears around the valve arrangement on the part containing the working space screw part is provided. Such training is known for example from DE-OS 24 39 374. In the arrangement according to this DE-OS, the backflow of fuel valve is formed with a valve cone, which closes the cylinder bore of the valve disk opening in the direction of conveyance and opens against the direction of conveyance. Such a valve cone brings about an abrupt termination and an abrupt opening of the valve allowing the backflow, which again can create new pressure waves in the downstream rooms and in the injection line, which favor cavitation.

The object of the invention is to avoid or at least largely attenuate the formation of pressure waves, to reduce the dimensions of the valve arrangement and to simplify the design thereof. To achieve this object, the invention essentially consists in the fact that the backflow-permitting valve is formed by a piston valve which is guided in the cylinder bore of the valve plate and is acted upon by the pressure in the working chamber and which has at least one radial bore which counteracts after a predetermined stroke of the piston valve the conveying direction is released from a control edge of the cylinder bore and opens into a central blind bore of the piston slide, which is in open connection with the injection line, and wherein the piston slide is acted upon by the pressure in the injection line against the spring force and is supported against a support surface of the valve screw connection part. Characterized in that the backflow allowing valve is formed by a spool, the radial bore grinds a control edge of the cylinder bore of the valve plate, a gentle opening and closing of the backflow connection is achieved and an abrupt effect, as is done when the valve is formed with a valve cone , avoided. Since the spool is opposed by the pressure in the injection line Spring is acted upon, this valve is opened by the pressure waves in the injection line, so that pressure surges or pressure waves in the injection line cannot build up to a dangerous extent. After completion of the valve opening in the direction of delivery, the piston slide moves under the effect of the pressure waves occurring in the injection line in the cylinder bore. Since the control edge of the cylinder bore only releases the radial bore of the piston slide after a predetermined stroke of the piston slide, the injection line is first relieved of pressure. As soon as the radial bore of the piston slide grinds over the control edge of the cylinder bore, fuel can flow out of the injection line in the direction of the working area of the pump piston and the injection line is relieved of constant pressure. At this stage, the flow connection via the radial bore of the spool and the control edge of the cylinder bore is throttled depending on the stroke of the spool. According to the invention, the relief of the injection line thus takes place in two stages and represents a combination of equal space relief and equal pressure relief.

According to a preferred embodiment of the invention, the valve arrangement has only a single coil spring which is supported on the one hand against the piston slide and on the other hand against the valve plate of the check valve opening in the conveying direction and therefore loads both the piston slide and the spring plate. In the arrangement according to DE-OS 24 39 374, the valve disk of the valve opening in the conveying direction is supported against the valve screw connection part by a coil spring, while the valve cone of the valve allowing a backflow is supported against the valve disk of the valve allowing a backflow by a second coil spring. A coil spring is thus saved in the configuration according to the invention. The individual valves of the valve arrangement are thus supported in themselves and it is therefore in accordance with a preferred one Embodiment of the invention possible to design the valve plate, piston slide, spring and optionally an adjusting washer as an independent unit which can be used between the part having the working space of the pump piston and the valve screw connection part. Such a unit has the essential advantage that it can be precisely adjusted outside the injection pump and the spring tension and thus the opening pressure outside the injection pump can be adjusted on a corresponding test bench. This unit, preset on the test bench, can be replaced without the need for adjustment in the installed state. Appropriately, at the end of the piston valve facing the working chamber, a safety device, in particular formed by a spring ring, is provided to prevent the piston from being pulled out of the cylinder bore. In this way, the structural unit containing the valve plate, the piston slide, the valve spring and possibly the shim is held together in an adjusted state as an independent structural unit, which can be replaced as required. Such a unit can have very small dimensions. According to the invention, the valve screw part and / or the part having the working space preferably has a, in particular cylindrical, recess for receiving this structural unit containing the valve disk, the piston valve and the valve spring.

According to the invention, the piston slide expediently has a widened hollow head part which forms a spring plate, which rests around the mouth of the injection line in the support surface of the valve screw connection part on the support surface and whose cavity has at least one lateral opening with the one in the conveying direction behind that in the conveying direction opening check valve located in connection. In this way, a flow connection of the working space to the injection line is created during the delivery stroke of the pump piston, with the Piston slide is acted upon by the pressure in the injection line.

In the drawing, the invention is explained schematically using an exemplary embodiment.

1 shows a longitudinal section through the part having the working space of the pump piston and the valve screw connection part and through the valve arrangement. FIG. 2 is a partial cross section along line II-II of FIG. 1.

1 is the part which has the working space 2 of the pump piston 3 and to which the valve screw part 4 is screwed by screws 5. 6 is the valve assembly.

The check valve plate 7, which opens in the conveying direction, sits tightly around a conveying channel 8 connected to the working space 2 on the part 1 containing the working space 2. In a central cylinder bore 9 of the check valve plate 7 opening in the conveying direction, a piston slide 10 with element play is fitted. This piston slide 10 has four radial bores 11 which open into a central blind bore 12 and cooperate with a control edge 13 of the cylinder bore 9. The blind bore 12 opens into a cavity 14 of an enlarged head 15 of the spool 10, which abuts a support surface 16 of the valve screw part 4. The central blind bore 12 is in open connection with the injection line 17 via the cavity 14. Between the widened head 15 and the valve plate 7, a coil spring 18 is biased, which loads both the valve plate 7 and the widened head 15. The tension of this spring can be adjusted by means of a shim 19. The cavity 14 of the widened head 15 is connected via four lateral bores 20 to the spring chamber 21, so that when the valve disk 7 is lifted, the fuel is conveyed from the working chamber 2 through the bore 8 into the spring chamber 21 and through the lateral bores 20 to the injection line 17 can be. The actual, not shown, flexible injection line is connected to the injection line 17 formed by a bore connected by means of a standard Dutch screw connection 26.

The piston slide 10 is thus loaded by the pressure waves occurring in the injection line 17 and, under the action of these pressure waves, lifts up against the action of the spring 18 from the support surface 16 and plunges deeper into the cylinder bore 9 until the radial bores 11 from the control edge 13 are smoothed. This takes place after a predetermined stroke 22 of the piston valve 10 has been covered. In this phase, there is therefore equal space relief. As soon as the radial bores 11 have grinded over the control edge 13, the fuel can flow back towards the working space 2, and in this second phase the injection line 17 is depressurized. This backflow is throttled depending on the stroke of the spool 10. During these two phases, namely the equal space relief and the equal pressure relief, the check valve 23 opening in the conveying direction is closed.

At the end of the piston valve 10 facing the working chamber 2, a spring ring 24 is provided which secures the piston valve 10 against being pulled out of the cylinder bore 9. In this way, the spool 10 with the valve 23 opening in the conveying direction and the spring 18 with the shim 19 are combined to form an independent structural unit which can be adjusted outside the injection pump by selecting the shim 19. Such a unit can be easily replaced at any time without further adjustment.

Since the sealing surface 25 of the valve screw connection part 4 rests directly and without the interposition of a seal on the sealing surface 26 of the part 1 containing the working space 2, these surfaces are completely in their position. The support surface 16 for the head 15 of the spool 10 can thus be machined very precisely in its position relative to the sealing surface 25 of the valve screw part 4, so that also adjustment is no longer required when the unit is replaced.

27 is only a bore through which the sliding surface of the spool 10 and the cylinder bore 9 are lubricated with fuel.

Claims (8)

1.Fuel injection pump for injection internal combustion engines, in which a valve arrangement is provided between the working chamber of the pump piston and the injection line, which valve arrangement contains a spring-loaded check valve which opens in the direction of delivery and a spring-loaded valve which allows fuel to flow back from the injection line to the working area, the valve disk in the direction of delivery opening check valve is seated on the part containing the working space and has a central cylinder bore forming part of the valve which allows a backflow and a valve screw part is provided around the valve arrangement on the part containing the working space, characterized in that the valve allowing a backflow is formed by a piston slide (10) guided in the cylinder bore (9) of the valve plate (7) and acted upon by the pressure in the working space (2), which Has at least one radial bore (11), which is released after a predetermined stroke (22) of the piston slide (10) against the conveying direction by a control edge (13) of the cylinder bore (9) and into a central blind bore (12) of the piston slide (10 ) opens, which is in open connection with the injection line (17), the piston slide (10) acting against the spring force (spring 18) by the pressure in the injection line (17) and against a support surface (16) of the valve screw part (4) is supported. 2. Fuel injection pump according to claim 1, characterized in that the valve arrangement (6) has only a single coil spring (18) which on the one hand against the piston slide (10) and on the other hand against the valve plate (7) of the check valve (23) opening in the conveying direction is supported and loads both the piston slide (10) and the valve disk (7). 3. Fuel injection pump according to claim 1 or 2, characterized in that the flow connection produced by the radial bore (11) and the control edge (13) of the cylinder bore (9) is throttled depending on the stroke of the piston valve (10). 4. Fuel injection pump according to claim 1 or 2, characterized in that the piston slide (10) has a widened hollow, forming a spring plate, head part (15) around the mouth of the injection line (17) in the support surface (16) of the valve screw part (4) rests on the support surface (16) and its cavity (14) communicates via at least one lateral opening (20) with the space (21) located in the conveying direction behind the check valve (23) opening in the conveying direction. 5. Fuel injection pump according to claim 4, characterized in that between the spring plate (15) or valve plate (17) and the spring (18) a known adjusting washer (19) is provided. 6. Fuel injection pump according to one of claims 1 to 5, characterized in that at the end of the piston valve (10) facing the working chamber (2), in particular formed by a spring ring (24), securing against pulling out the piston valve (10) the cylinder bore (9) is provided. 7. Fuel injection pump according to one of claims 1 to 6, characterized in that the valve plate (7), piston spool (10), spring (18) and optionally shim (19) as an independent, between the working space (2) of the pump piston having part ( 1) and the valve screw part (4) insertable unit (6) are formed. 8. Fuel injection pump according to claim 7, characterized in that the valve screw part (4) and / or the part (1) having the working space (2) has a, in particular cylindrical, recess (6) for receiving the structural unit (6) containing the valve disk (7), the piston slide (10) and the valve spring (18).

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