DE102014206060A1 - Pressure control valve for a high-pressure accumulator - Google Patents

Abstract

The invention relates to a pressure control valve (10) and a high pressure accumulator (1) with a pressure control valve (10). The pressure regulating valve (10) has a housing (12) in which a pressurized fluid, in particular fuel, can be stored. On the housing (12) at least one opening (13) is provided, via which the housing (12) at least indirectly to a return line (35) can be connected. The pressure control valve (10) has a closing member (20) via which a fluidic connection between high-pressure accumulator (1) and return line (35) can be opened and closed. For movement of the closing member (20), a piezoelectric actuator (30) is provided.

Description

The present invention relates to a pressure control valve for a high pressure accumulator and a high pressure accumulator with such a pressure control valve.

State of the art

Modern diesel engines usually have a storage injection system (common rail), in which fuel is compressed by a high-pressure pump and fed to a high-pressure accumulator. From this memory, the fuel is then injected by means of injectors into the individual combustion chambers of the diesel engine. In order to prevent the pressure in the high-pressure accumulator from exceeding a critical threshold value, so-called pressure regulating valves are provided on known high-pressure accumulators with which the pressure in the high-pressure accumulator is adjusted to a specific pressure level. Such a pressure control valve is out of EP-2333298 B1 known. In this case, the pressure regulating valve has a closing member, via which a fluidic connection between high-pressure accumulator and a return line, via which the fuel can circulate back into the reservoir, can be opened. For opening and closing the closing member, a solenoid actuator is provided, which acts on the closing member of the pressure regulating valve.

A disadvantage of such an embodiment, however, is that the magnetic actuator requires a relatively large amount of space to provide the necessary magnetic forces to open the closing member and the pressure control valve thus has to be made relatively large and heavy.

Disclosure of the invention

The pressure control valve according to the invention with the features of claim 1 offers the advantage that the opening and closing of the closing member is effected by a piezoelectric actuator. A piezoelectric actuator can provide an equal force compared to a magnetic actuator with less space to open the closing member of the pressure regulating valve. In addition, the switching times of the piezoelectric actuator are faster than the switching times of a solenoid actuator, so that the closing member can open and close faster and thus more accurate control of the pressure in the high-pressure accumulator is possible.

The measures cited in the dependent claims advantageous refinements and improvements of the independent claim specified pressure control valve and the high-pressure accumulator are possible.

A first advantageous development is that the piezoelectric actuator is biased by a plate spring. A plate spring is a cheap and simple component to create a bias on the piezoelectric actuator, which is necessary in the operation of the pressure control valve. It is particularly advantageous if a spring plate is arranged between the plate spring and an end face of the piezoelectric actuator. Such a spring plate distributes the force of the plate spring uniformly over the end face of the piezoelectric actuator and thus ensures that the mechanical load is distributed uniformly over the end face of the piezoelectric actuator. In addition, such a spring plate may optionally be ground in different thickness classes to compensate for easy and cost-effective manufacturing tolerances and always to realize a constant biasing force by the plate spring in a simple and secure manner.

A further advantageous development is that the piezoelectric actuator for heat dissipation on its lateral surface is at least partially embedded by a potting compound. Such a potting compound serves both as a mechanical protection for the piezoelectric actuator, as well as to safely dissipate the heat occurring in the operation of the piezoelectric actuator to the outside. It is particularly advantageous if at least 80% of the lateral surface are embedded in the potting compound in order to ensure the most stable and secure positioning and heat dissipation.

A further advantageous development is that the pressure control valve has a valve seat, which cooperates with the closing member, wherein the valve seat is designed as a metal injection molding (MIM) part. Through a metal injection molding a complex geometry shape without elaborate post-processing is possible. It is particularly advantageous if the valve seat, a guide for the closing member and a housing for the piezoelectric actuator are produced as a common component by metal injection molding, whereby the assembly cost can be significantly reduced.

A further advantageous development is that between the piezoelectric actuator and the closing member, a hydraulic coupler is arranged. In this way, a simple and fast coupling of the closing member to the piezoelectric actuator can take place. It is particularly advantageous if the hydraulic coupler comprises a booster piston.

A further advantageous development is that the closing member, in particular a valve needle, is guided in a screw-in sleeve. By screwing a simple and secure mounting of the pressure control valve according to the invention on the high-pressure accumulator is possible. Especially It is advantageous if a shoulder is formed on the screw-in sleeve, in particular an outer diameter of the screw-in sleeve, wherein the shoulder carries a sealing element. In this way, a simple and secure seal between screw-in and housing of the high-pressure accumulator is possible. Such a seal can be realized particularly easily by means of an O-ring.

Compared with the solutions known from the prior art, the high-pressure accumulator according to the invention has the advantage that the combination of accumulator and pressure control valve is both lighter and requires less installation space. Thus, the high-pressure accumulator can be easily mounted and fits even in tightly packed unit assemblies under the hood of a motor vehicle. The weight savings can increase both fuel consumption and passive safety in the event of a crash.

drawings

An embodiment of the invention is illustrated in the following drawings and explained in more detail in the following description.

1 shows an embodiment of a high-pressure accumulator according to the invention ( 1 ) with a pressure control valve according to the invention ( 10 ).

Brief description of the drawings

The invention and advantageous embodiments according to the features of the other claims are explained in more detail below with reference to the embodiments illustrated in the drawings.

In 1 is an inventive high-pressure accumulator 1 with a pressure control valve according to the invention 10 shown. The high-pressure accumulator 1 has a housing 2 and a fluid space 3 on. The high-pressure accumulator 1 also has an end face 6 an opening 7 for receiving a pressure regulating valve 10 on. The high-pressure accumulator 1 also has an opening 5 for connecting a return line 35 and at least one opening (not shown) for connecting a fuel injector. The pressure control valve 10 includes a housing 12 which is made in three parts in the example shown and a valve seat 40 , a screw-in sleeve 44 as well as an end piece 49 having. The fluid space 3 the high-pressure accumulator 1 facing in the flow direction in front of the valve seat 40 a particle filter 14 at the pressure control valve 10 arranged. The valve seat 40 can by a closing member 20 , in particular a valve needle 21 , be closed, leaving a fluidic connection from the fluid space 3 the high-pressure accumulator 1 to the return line 35 is interrupted. On the case 12 of the pressure control valve 10 , in particular on the valve seat 40 is an opening 13 formed over which the housing 12 at least indirectly fluidly with the return line 35 is connectable.

The pressure control valve 10 also has a spring 37 on which on the closing member 20 acts and the fluidic connection between fluid space 3 and return line 35 in derogation. To open the closing element 20 is a piezoelectric actuator 30 which is equipped with a hydraulic coupler 32 , in particular with a booster piston 33 , on the closing link 20 can act when the piezoelectric actuator 30 is energized. The piezo actuator 30 is through a plate spring 50 biased, being between the diaphragm spring 50 and the piezo actuator 30 a spring plate 51 is arranged, which the force of the diaphragm spring 50 evenly on an end face of the piezoelectric actuator 30 distributed. spring plate 51 can be used to adjust the spring force, for example by different manufacturing tolerances in piezoelectric actuator 30 and housing 12 be made in different thickness classes as a selection group to facilitate the adjustment of the spring force. A lateral surface 36 of the piezo actuator 30 is from a potting compound 34 envelops. Through the potting compound 34 becomes the piezoelectric actuator 30 on the one hand safely in the housing 12 positioned and electrically isolated, on the other hand can over the Vergussmass 34 Heat, which in the operation of the piezoelectric actuator 30 arises, be dissipated to the housing.

At the screw-in sleeve 44 is a paragraph 45 formed, which is a sealing element 46 , in particular an O-ring, carries. About the sealing element is a fluidic seal of the fluid space 3 or the pressure control valve 10 to the outside, so no fuel from the fluid space 3 can escape. The screw-in sleeve 44 also has an external thread 47 on, with the screw-in 44 in the opening 7 the high-pressure accumulator 1 can be screwed.

The valve seat 40 can be performed as a turned part, but it is preferably carried out as a metal injection molding (MIM) component. By a molding process such as metal injection molding, the geometry of the valve seat can be made in a simple and cost-effective manner. A process such as metal injection molding also allows the housing 12 with the valve seat 40 , the screw-in sleeve 44 as well as the tail 49 as a common component, which significantly reduces the assembly effort.

During operation of the high-pressure accumulator 1 is the pressure control valve 10 initially closed by the closing member 20 through the spring 37 against the valve seat 40 is pressed. By controlling the piezo actuator 30 the spring force is overcome and the closing member 20 rises from the valve seat 40 , whereby fuel from fluid space 3 the high-pressure accumulator 1 through the pressure control valve 12 over the opening 13 in the return line 35 can flow and thus the pressure in the fluid space 3 the high-pressure accumulator 1 is reduced. Due to the fast switching times of the piezo actuator 30 is a particularly fast and accurate control of the pressure possible, so that the return amount can be limited, which increases the overall efficiency of the injection system, as less fuel circulates.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 2333298 B1 [0002]

Claims (10)

Pressure control valve ( 10 ), in particular for a high-pressure accumulator ( 1 ) of a fuel injection system, with a housing ( 12 ), in which a pressurized fluid, in particular fuel, can be stored, wherein on the housing ( 12 ) at least one opening ( 13 ) is provided, via which the housing ( 12 ) at least indirectly to a return line ( 35 ) is connectable, and wherein the pressure regulating valve ( 10 ) a closing member ( 20 ), via which a fluidic connection between high pressure accumulator ( 1 ) and return line ( 35 ) can be opened and closed, characterized in that a piezoelectric actuator ( 30 ) for movement of the closing member ( 20 ) is provided. Pressure control valve ( 10 ) according to claim 1, characterized in that the piezoelectric actuator ( 30 ) via a plate spring ( 50 ) is biased. Pressure control valve ( 10 ) according to claim 2, characterized in that between the plate spring ( 50 ) and the piezo actuator ( 30 ) a spring plate ( 51 ) is arranged. Pressure control valve ( 10 ) according to one of claims 1 to 3, characterized in that the piezoelectric actuator ( 30 ) for heat dissipation on its lateral surface ( 36 ) at least in sections of a potting compound ( 34 ) is embedded. Pressure control valve ( 10 ) according to one of claims 1 to 4, characterized in that the pressure regulating valve ( 10 ) a valve seat ( 40 ), which with the closing member ( 20 ), wherein the valve seat ( 40 ) as a metal injection molding (MIM) part. Pressure control valve ( 10 ) according to one of claims 1 to 5, characterized in that between the piezoelectric actuator ( 30 ) and the closing member ( 20 ) a hydraulic coupler ( 32 ) is arranged. Pressure control valve ( 10 ) according to claim 6, characterized in that the hydraulic coupler ( 32 ) a booster piston ( 33 ). Pressure control valve ( 10 ) according to one of claims 1 to 7, characterized in that the closing member ( 20 ), in particular a valve needle ( 21 ) in a screw-in sleeve ( 44 ) is guided. Pressure control valve ( 10 ) according to claim 8, characterized in that at the screw-in sleeve ( 44 ) a paragraph ( 45 ), the paragraph ( 45 ) a sealing element ( 46 ), in particular an O-ring, carries. High-pressure accumulator ( 1 ) with a pressure regulating valve ( 10 ) according to one of claims 1 to 9.

Images