TR201617986A2 - A piezo actuator module for use in a fuel injection valve - Google Patents

Abstract

The present invention proposes a piezo actuator module (50) for use in a fuel injection valve for injecting fuel at high pressure into a combustion chamber of an internal combustion engine, comprising: a piezoelectric actuator (40) arranged in an actuator chamber (41); an actuator sleeve (42) which encapsulates said actuator chamber (41) and extends in a axial direction; an actuator head (20) of the piezoelectric actuator (40), located at one end of the piezoelectric actuator (40). Said actuator sleeve (42) has a corrugated portion (30) which is formed at a lower portion (10) of the actuator sleeve (42) facing to the actuator head (20) wherein said corrugated portion (30) comprises at least one ring-shaped protrusion (31) extending at least partly along the circumference of the actuator sleeve (42).

Description

DESCRIPTION A PIEZO FOR USE IN A FUEL INJECTION VALVE ACTUATOR MODULE Technical Field of the Invention The invention is with a piezo actuator module for use in a fuel injection valve. more specifically, with a more robust and durable piezo actuator module. Background of the Invention Various electromagnetic injection valves for fuel injection purpose, especially Fuel injectors are also available.

A valve closure element that works in conjunction with a valve seat of a fuel injector. use with a piezo or magnetostrictive actuator actuating known. When the piezoelectric actuator is energized, that piezoelectric actuator the actuator expands to insert a valve element into the base of the check valve with the needle of the pressurized fuel. it moves from a first position to a second position where it is correctly oriented. In the prior art, the fuel pressure of an injector with the patent certificate number EP It has piezoelectric actuators arranged in an actuator chamber with explains and piezoelectric actuators control a needle module.

The actuator chamber is filled with an insulating fluid, for example diesel, and It is separated from the high pressure chamber where the fuel is directed by the membrane unit. In the prior art, such injectors are essentially at least one flexibly formed It has a membrane, such as rubber and fuel resistant materials. It is made of a material with flexible properties and allows a certain elongation. gives. The membrane in question is mainly attached by welding, which may cause a decrease in the robustness of the valve. used according to the invention One of the functions of the membrane is the fluid in the actuator chamber. combustion of an internal combustion engine from an electrically conductive medium. is to separate the fuel to be injected into the chamber.

With this membrane to be used in the piezo actuator module of the fuel injection valve One of the associated problems is that the membrane in question has an actuator head and a Welding, brazing, or brazing the actuator sleeve at at least two different points is attached with solder. Isolation of the piezoelectric actuator from fuel and other pollutants It is extremely important that it remains in shape and protected. Separately, the welding or brazing can cause future leakage and this welding may cause the injector to be unstable.

The welding or soldering process of the membrane is the actuator of the injectors. It greatly affects the quality and functionality of the module.

Objectives of the Invention The main aim of the present invention is to address the above-mentioned shortcomings of the prior art. is to overcome.

Another object of the present invention is to reduce the cost of the valve so that the membrane is is to provide a piezo actuator module from which it is removed.

Another object of the present invention is welding or brazing operations. to provide a piezo actuator module with increased robustness by reducing

Summary of the Invention The present invention is a high-pressure fuel injection into a combustion chamber in an internal combustion engine. a piezo actuator for use in a fuel injection valve to inject module, which includes: arranged in an actuator chamber a piezoelectric actuator; which surrounds said actuator chamber and in the axial direction an extending actuator sleeve; piezoelectric actuator located at one end of the piezoelectric actuator an actuator head in the actuator. The actuator sleeve in question is facing the actuator head. The actuator sleeve has a corrugated section formed in its lower section, where mention The corrugated section in question extends at least partially around the circumference of the actuator sleeve. comprising at least one annular protrusion.

In one possible embodiment of the present invention, said at least one annular protrusion It protrudes outward from the outer periphery of the corrugated section.

In one possible embodiment of the present invention, said actuator head has a It is attached to the corrugated section in a way that eliminates the use of the membrane.

In one possible embodiment of the present invention, said actuator head should have at least one source The corrugated section is due to the section throughout.

In one possible embodiment of the present invention, the actuator chamber is electrically insulated. being filled with a liquid and at least a high pressure through the weld section. detaches from its reservoir.

In a possible embodiment of the present invention, said annular protrusion actuator It has a ring-shaped projection width that is greater than the diameter of its sheath.

In a possible embodiment of the present invention, said annular protrusion actuator It is formed in the form of a semicircle running along the circumference of the sheath.

In a possible embodiment of the present invention, the corrugated section is in one piece. It is manufactured and can be welded, brazed or soldered. attached to the actuator shroud.

In a possible embodiment of the present invention, said actuator sleeve It is formed by hydroforming process to obtain the corrugated section.

In a possible embodiment of the present invention, said piezo actuator module It contains two ring-shaped projections of different widths.

Brief Description of Figures The figures briefly described here are only better suited to the present invention. and as such, determining the scope of protection or the purpose of determining the context in which that scope will be interpreted in the absence of a specification. transport is possible.

Figure 1 is a cross-sectional view of the piezo actuator module according to the present invention. shows the view.

Figure 2 shows an actuator head and a piezo actuator module according to the present invention. an enlarged cross-sectional view of the corrugated section of the actuator sleeve shows.

Figure 3 is a fuel prior art showing an attached membrane. shows a partial cross-sectional view of the injection valve.

Figure 4 is a perspective view of a membrane of a fuel injection valve according to the prior art. Reference numbers: Referring now to the figures given above, the present invention is a piezo actuator. recommends the module. The numbers below are for the different parts shown in the drawings. has been assigned: . subsection . actuator head corrugated section 31. Annular protrusion . resource section 40. Piezoelectric actuator 41. Actuator chamber 42. Actuator sleeve 50. Piezo actuator module 60. Membrane W1. Annular protrusion width D1. Diameter of actuator sleeve Detailed Description of the Invention The example application shown in Figures 1 and 2 is an internal combustion engine in a motor vehicle. an engine used to be fitted to the engine and preferably to inject Diesel fuel therein. a fuel formed as a common-rail injector shows part of the injection valve. The present invention is specifically designed for internal combustion. a fuel for injecting fuel at high pressure into a combustion chamber in an engine proposes a piezo actuator module (50) for use in the injection valve in an actuator chamber (41) filled with an insulating fluid, for example diesel. a piezoelectric actuator (40) arranged and separated from a high pressure chamber; an actuator sleeve (42) enclosing said actuator chamber (41); piezoelectric an actuator in the piezoelectric actuator 40 located at one end of the actuator 40 the head (20). Place said actuator sleeve (42) on the bottom of the actuator sleeve (42) section (10) and at least partially external to the actuator sleeve (42) has at least one corrugated portion (30) extending around the actuator head (20), which the use of a membrane in it will remove from the core. In this way, it is attached to the corrugated section (30). The aforementioned corrugated section (30), have a specific width (W1) greater than the diameter (D1) of the actuator sleeve (42) comprising at least one annular protrusion (31).

One or more of the piezoelectric actuators (40) in the piezo actuator module (50) may contain a piezoelectric crystal column. The random orientations of these piezoelectric crystals and such random orientations may be positive, exhibiting persistent bipolar behavior. and asymmetrical arrangements of negative ions. an electric field to the crystals applied, the piezoelectric crystals form along the axis of the electric field. is expanding. Conversely, as the electric field is removed from the crystals, the piezoelectric the crystals recede along the same axis. According to the present invention, the actuator module is separated from a coupler module (not shown). high pressure from the high-pressure chamber (common rail) via a fluid coupler module function of actuating a nozzle needle by flowing through the actuator module with motion sees.

As the piezoelectric actuator 40 expands or retracts, said actuator the sheath 42 is arranged to accommodate the corresponding change in length. Especially, to prevent damage to the valve, as the crystals inside the actuator expand, the actuator said corrugated section of the sleeve (42) is deformed and the actuator sleeve (42) can increase its length. However, the crystals in the piezoelectric actuator 40 as it contracts, the corrugated section (30) in question returns to its original shape to reduce its length. may return. Corrugated section (30) irregularity in the movement of the fuel injection valve It can serve as a damping element to dampen and stabilize it.

In a possible embodiment of the present invention, said corrugated section (30) preferably It is formed in a wavy form and has at least two annular protrusions (31) in the actuator. extends around the sheath 42. Each of the two ring-shaped projections (31) It can have different tooth geometry with variable width.

Figures 3 and 4 show that the actuator chamber is higher than the previous art. A magnified view of a membrane separating the pressure zone shows. In one possible embodiment of the present invention, the actuator sleeve (42) The lower portion (10) facing the actuator head (20) is a part of the piezoelectric actuator (40). section preferably wavy compared to the rest of the actuator sleeve (42) It is produced by hydroforming process as it will be formed. corrugated section (30) processes and materials used to manufacture can reduce cost and It can improve the reliability of the fuel injector. Specifically, the hydro the forming process and the attachment of said actuator head to said actuator sleeve. The use of a membrane (as shown in Figure 3-4) due to its weldment (42) can be skipped. In addition, the material used for the corrugated section (30) is the actuator sleeve (42) Only one treatment (i.e. hydro shaping) may be sufficient, which may lead to lower costs. Aforementioned The corrugated portion 30 may further comprise multiple protrusions and gaps.

Said piezoelectric actuator (40) consists of an actuator leg and actuator sleeve (42) It has an actuator head (20) surrounded by With reference to figures 1 and 2, the at least one annular protrusion (31) along the outer circumference of the corrugated portion (30) is created. In a possible application of the present invention, the corpus In the section (30), there are two successive ring-shaped projections (31); also between said two annular protrusions (31), the diameter of the actuator sleeve (Dl) a cylindrical section substantially equal in diameter is formed. The said most a small annular protrusion (31) essentially protruding from the outer circumference of the actuator sleeve (42) It is formed in the form of a semicircle. Annular protrusion (31) annular rib width (W1) is larger than the actuator sleeve (42) diameter (D1) large, so that a piece that can be stretched is obtained. Separately, the the actuator head (20) is inserted into the corrugated section (30) so that a membrane (60) can be removed. is fastened. In a possible embodiment of the present invention, the actuator in question head (20) is welded to the corrugated section (30) along a weld section (35) or brazed with brass. In another embodiment of the present invention, the word The corrugated section (30) in question is produced in one piece and then the actuator it can be attached to the sleeve 42 . The aforementioned corrugated section (30) Iazerli It can be welded to the actuator sleeve (42) by welding. Separately, the The corrugated section (30) is produced in one piece and can be welded, brazed or brazed. it can be attached to the actuator sleeve (42) by soldering.

Hydroforming process to form said corrugated section (30) can be used. Pressurized fluid (eg water) from one end of the actuator sleeve (42) is fed. Also, the pressure of the fluid inside the actuator sleeve (42) into the die cavity defined by a die assembly of the lower portion (10) of the sleeve (42) It is increased to the extent that it expands outward to fit. As a result, the actuator sleeve 42 is deformed into the desired final shape. Earlier as mentioned, a portion of it by sending the pressurized fluid to the pressure chamber, deformed to fit the mold cavity part in the pressure chamber. is being done. Therefore, at least one ring-shaped protrusion (31) has a complete similarity. is created. ring-shaped to obtain the optimum working range. The number of protrusions (31) can be increased.

Claims (10)

REQUESTS 1. A piezo actuator module (50) for use in a fuel injection valve for injecting fuel at high pressure into a combustion chamber in an internal combustion engine, comprising: a piezoelectric actuator (40) arranged in an actuator chamber (41); an actuator sleeve (42) surrounding said actuator chamber (41) and extending in the axial direction; The characteristic feature of the piezoelectric actuator located at one end of the piezoelectric actuator (40) is that said actuator sleeve (42) has a corrugated section (30) formed in the lower part (10) of the actuator sleeve (42) facing the actuator head (20), where said corrugated section (30) includes at least one annular protrusion (31) extending at least partially around the circumference of the actuator sleeve (42). 2. A piezo actuator module (50) according to claim 1, characterized in that said at least one annular protrusion (31) protrudes outward from the outer circumference of the corrugated section (30). A piezo actuator module (50) according to claim 1 or 2, characterized in that said actuator head (20) is attached to the corrugated section (30) in such a way that the use of a membrane is eliminated. A piezo actuator module (50) according to any one of the preceding claims, characterized in that said actuator head (20) is welded to the corrugated section (30) along at least one weld section (35). 5. A piezo actuator module (50) according to claim 4, characterized in that the actuator chamber (41) is filled with an electrically insulated liquid and is separated from at least one high pressure chamber via the welding section (35). A piezo actuator module (50) according to any one of the preceding claims, characterized in that said annular protrusion (31) has an annular protrusion width (W1) greater than the diameter (D1) of the actuator sleeve (42). A piezo actuator module (50) according to any one of the preceding claims, characterized in that said annular protrusion (31) is formed as a semicircle extending around the circumference of the actuator sleeve (42). Piezo actuator module (50) according to any one of the preceding claims, characterized in that said corrugated section (30) is produced in one piece and attached to the actuator sleeve (42) by welding, brazing or brazing. 9. Piezo actuator module (50) according to any one of the preceding claims, characterized in that said actuator sleeve (42) is formed by hydroforming process to obtain said corrugated section (30). 10. Piezo actuator module (50) according to any one of the preceding claims, further comprising two annular protrusions (31) of different widths.