Solenoid valve having improved opening and closing behavior

Abstract

A solenoid valve for controlling fluids includes: a closing element, which opens and closes at least one outlet opening on a valve seat; a magnetic circuit having an armature, an internal pole and a magnetic return path; and a coil. The armature is connected to the closing element. The magnetic circuit includes (i) a nonmagnetic separating element for interrupting the magnetic circuit and (ii) a magnetic choke device closing the magnetic circuit on the nonmagnetic separating element, which magnetic choke device is a separate individual component which is fixed using a form-locking and/or a force-locking connection.

Claims

1. A solenoid valve for controlling fluids, comprising: a closing element which selectively opens and closes at least one outlet opening at a valve seat; a magnetic circuit having an armature, an internal pole and a magnetic return path; and a coil; wherein: the armature cooperates with the closing element; the magnetic circuit further includes (i) a nonmagnetic separating element for interrupting the magnetic circuit and (ii) a magnetic choke device situated to provide a magnetic bridge across the nonmagnetic separating element and selectively closing the magnetic circuit at the nonmagnetic separating element; and the magnetic choke device is a separate individual component which is fixed using at least one of a form-locking and a force-locking connection, wherein the magnetic choke device is situated radially outside the nonmagnetic separating element, the magnetic choke device includes a plurality of strip-shaped elements made of magnetic material, and at least one strip-shaped element of the plurality of strip-shaped elements has a first reshaping at a first end which is in contact with the magnetic return path situated below the nonmagnetic separating element, and a second reshaping at a second end which is in contact with the internal pole situated above the nonmagnetic separating element.

2. The solenoid valve as recited in claim 1, wherein the magnetic choke device is a magnetic sleeve.

3. The solenoid valve as recited in claim 2, wherein the magnetic sleeve has one of a cylindrical cross section or a polygonal cross section.

4. The solenoid valve as recited in claim 1, wherein the magnetic choke device includes a plurality of strip-shaped elements made of magnetic material.

5. The solenoid valve as recited in claim 1, wherein a first end of the magnetic choke device is in contact with the magnetic return path situated below the nonmagnetic separating element and a second end of the magnetic choke device is in contact with the internal pole situated above the nonmagnetic separating element.

6. The solenoid valve as recited in claim 1, wherein a cross sectional area of the nonmagnetic separating element is greater than a cross sectional area of the magnetic choke device.

7. The solenoid valve as recited in claim 1, wherein the magnetic choke device is situated directly on an outer surface of the nonmagnetic separating element.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 shows a schematic sectional view of a solenoid valve according to a first exemplary embodiment of the present invention.

(2) FIG. 2 shows a schematic, perspective partial view of the solenoid valve of FIG. 1.

(3) FIG. 3 shows a schematic sectional view of a solenoid valve according to a second exemplary embodiment of the present invention.

(4) FIG. 4 shows a schematic, perspective partial view of the solenoid valve of FIG. 3.

DETAILED DESCRIPTION OF THE INVENTION

(5) In the drawings, the same or functionally the same parts in each case denote the same parts.

(6) A solenoid valve 1 for the controlling of a fluid is described in detail below with reference to FIGS. 1 and 2.

(7) As may be seen in FIG. 1, solenoid valve 1 includes a closing element 2 in the form of a valve needle, which releases and closes outlet openings 4 at a valve seat 3.

(8) Solenoid valve 1 also includes a magnetic circuit 5 having an armature 6, an internal pole 7 and a magnetic return path 8. In this exemplary embodiment, the magnetic return path 8 is a part of an housing 14 of the solenoid valve, the housing 14 being developed of a plurality of parts. In this instance, housing parts 15, 16 are parts of magnetic circuit 5.

(9) Solenoid valve 1 further includes a coil 9, which attracts armature 6 when current is applied to it. After the supplying of current to coil 9 is terminated, a restoring element 17 sets armature 6 back to its initial position. In this instance, FIG. 1 shows the open state of solenoid valve 1, in which armature 6 lies against internal pole 7. In a known manner, armature 6 is connected to closing element 2, in order to effect the lifting motion of the closing element.

(10) Magnetic circuit 5 of solenoid valve 1 further includes a nonmagnetic separating element 10, which is a sleeve in this exemplary embodiment. Nonmagnetic separating element 10 ensures that, upon operation of the coil, the magnetic circuit is closed rapidly via armature 6, so that a very rapid opening time is achieved. Nonmagnetic separating element 10 is, however, problematic with respect to the closing times of solenoid valve 1, which increase because of the nonmagnetic separating element 10.

(11) This is why, according to the present invention, a choke device 13 is provided which produces a connection between housing 14, or to put it more accurately, housing part 16 and internal pole 7.

(12) As may be seen in FIGS. 1 and 2, magnetic choke device 13, in this exemplary embodiment, includes a plurality of strip-shaped elements 11 and nonmagnetic separating element 10 is a cylindrical sleeve. In this exemplary embodiment, three equal strip-shaped elements 11 are provided, which are equally distributed along the circumference.

(13) Strip-shaped elements 11 at their first end have a first reshaping 21, and at their second end a second reshaping 22. The two reshapings are developed approximately U-shaped in cross section. In this context, first reshaping 21 is in contact with housing 14 and second reshaping 22 is in contact with internal pole 7. Furthermore, strip-shaped elements 11 lie directly on an outer surface of nonmagnetic separating element 10 (cf. FIG. 1).

(14) Thus, by providing the strip-shaped magnetic choke device 13, a magnetic bridging of nonmagnetic separating element 10 is achieved. This has the effect that the closing times of the solenoid valve significantly improve, without the rapid opening times of the solenoid valve becoming worse. A cross section of nonmagnetic separating element 10, in this context, is many times greater than the cross section of magnetic choke device 13. Thereby, according to the present invention, magnetic choke device 13 is able to be produced very simply and cost-effectively. For example, strip-shaped elements 11 may be stamped from a sheet metal material of a magnetic substance.

(15) Furthermore, magnetic choke device 13 is connected only by form-locking and/or force-locking connections to the magnetic return path or internal pole 7. In the exemplary embodiment shown in FIG. 1, strip-shaped element 11 is clamped in between housing part 16 and an end face 10a of the magnetic separating element. Because of the U-shaped design of second reshaping 22 of strip-shaped elements 11, contact is produced between strip-shaped element 11 and internal pole 7 on its outer lateral surface. Thereby, according to the present invention, magnetic choke device 13 is able to be fixed rapidly and cost-effectively by clamping.

(16) Because of the embodiment of strip-shaped element 11 having a first and a second reshaping 21, 22 at the ends, support of strip-shaped elements 11 may be achieved in such a way that strip-shaped element 11 is supported in a springy manner on housing part 16 in the axial direction X-X and on second reshaping 22 on internal pole 7 in the radial direction.

(17) FIGS. 3 and 4 show a solenoid valve 1 according to a second exemplary embodiment of the present invention. As may be seen particularly in FIG. 4, magnetic choke device 13 of the second exemplary embodiment is a sleeve 12 made of a magnetic material. Sleeve 12 is constructed cylindrically and is pressed onto nonmagnetic separating element 10. Sleeve 12 has a first end 31, which is formed cylindrically like a center region of sleeve 12, and is located in contact with housing part 16. Second end 32 is developed as a cylindrical constriction, so that the sleeve has a shoulder 33, the second end 32 being in contact with internal pole 7. In this instance, shoulder 33 lies against end face 10a of nonmagnetic separating element 10. Consequently, this exemplary embodiment also has a form-locking and a force-locking connection between nonmagnetic separating element 10 and magnetic choke device 13 that is developed as a sleeve. Thereby, according to the present invention, because of a cost-effectively producible and rapidly and simply mountable sleeve 12, a solenoid valve having superb opening and closing times may also be provided.

(18) With regard to the exemplary embodiment of FIGS. 3 and 4, it should be remarked that, instead of a cylindrical sleeve 12, a polygonal sleeve, such as an octagonal or decagonal sleeve may also be used.