Electromagnetically Actuated Valve

Abstract

An electromagnetically actuated valve. The electromagnetically actuated valve with a small longitudinal extension, allows great through-flow quantities for the fluid with a small pressure difference. It is intended in this case that it should be producible cost-effectively in large unit numbers. An armature carries a plurality of valve bodies arranged in a point-symmetrical manner which together form a movable valve, wherein the plurality of valve bodies interact with a same plurality of valve seats which together form a stationary valve. The valve can be used along with a pump, a tank and/or other fluid units in assemblies for conveying mixtures of gas and liquid.

Claims

1. An electromagnetically actuated valve comprising: at least one electromagnet with a magnetic coil; an armature; a stationary valve and a movable valve; wherein the valve separates a first fluid chamber from a second fluid chamber when the magnetic coil is in a first active state and connects the two fluid chambers to one another when the magnetic coil is in a second active state, wherein the armature carries a plurality of valve bodies arranged in a point-symmetrical manner, which valve bodies together form the movable valve means, wherein the plurality of valve bodies interact with a same plurality of valve seats which together form the stationary valve.

2. The electromagnetically actuated valve according to claim 1, wherein the valve bodies are arranged at the same distance from the centre of the armature at an equal angular distance on the armature.

3. The electromagnetically actuated valve according to claim 2, wherein three valve bodies are arranged on the armature at an angular distance of a third of a full circle in each case.

4. The electromagnetically actuated valve according to claim 1, wherein the valve bodies are made of an elastomer material.

5. The electromagnetically actuated valve according to claim 1, wherein the valve bodies each have a sealing area effective in differential pressure terms which amounts to less than 25% of the total area active in terms of differential pressure of one of the valve bodies.

6. The electromagnetically actuated valve according to claim 1, wherein the part of the armature facing a variable air gap of the electromagnet is ring-shaped in design and when the magnetic coil is energized it travels in between a ring-shaped outer magnetic pole and a likewise ring-shaped inner magnetic pole.

7. The electromagnetically actuated valve according to claim 1, wherein the armature is movably mounted on a pipe.

8. The electromagnetically actuated valve according to claim 7, wherein the first fluid chamber is always fluidically connected to the inside of the pipe and the second fluid chamber is sealed in respect of the inside of the pipe when the valve is closed.

9. The electromagnetically actuated valve according to claim 1, wherein when acted upon by an AC voltage with a frequency higher than a given limit frequency the magnetic coil only moves the armature so slightly that the valve is not closed but the fluid surrounding the magnetic coil is heated.

10. The electromagnetically actuated valve according to claim 1, wherein a return spring is advantageously arranged between an inner magnetic pole and the armature in such a manner that said return spring acts on the valve to open it, while the electromagnet acts on the valve to close it.

11. The electromagnetically actuated valve according to claim 1, wherein a return spring is arranged between an inner magnetic pole and the armature in such a manner that said return spring acts on the valve to close it, while the electromagnet acts on the valve to open it.

12. The electromagnetically actuated valve according to claim 1, wherein a pipe exhibits a further opening not connected to the second fluid chamber, which opening permanently connects a further unit arranged on a side of the electromagnet facing away from the armature to the first fluid chamber, wherein the unit seals the opening in respect of the second fluid chamber.

Description

DRAWINGS

[0025] The drawings described herein are for illustrative purposes only of selected embodiments and not all possible implementations, and are not intended to limit the scope of the present disclosure.

[0026] FIG. 1 shows a schematized view of the valve according to the invention.

[0027] FIG. 2 shows a plan view of the armature with the valve bodies.

[0028] Corresponding reference numerals indicate corresponding parts throughout the several views of the drawings.

DETAILED DESCRIPTION

[0029] Example embodiments will now be described more fully with reference to the accompanying drawings.

[0030] The exemplary electromagnetically actuated valve (1) according to FIG. 1 contains an electromagnet (2) with a magnetic coil (3) and an armature (7) and also a stationary valve (9) and a movable valve (10).

[0031] In this case, the valve (1) separates a first fluid chamber (11) from a second fluid chamber (12) when the magnetic coil (3) is in a first active state and connects the two fluid chambers (11, 12) to one another when the magnetic coil (3) is in a second active state.

[0032] The armature (7) carries a plurality of valve bodies (13) arranged in a point-symmetrical manner about the centre line of the armature (7), which valve bodies together form the movable valves (10), wherein the plurality of valve bodies (9) interact with a same plurality of valve seats (14) which together form the stationary valves (9).

[0033] The valve bodies (13) are arranged at the same distance from the centre of the armature (7) at an equal angular distance on the armature (7).

[0034] In this example, according to FIG. 2, three valve bodies (13, 13, 13) are arranged on the armature (7) at an angular distance of a third of a full circle in each case.

[0035] The valve bodies (13) are made of an elastomer material and each have a sealing area effective in differential pressure terms which amounts to less than 25% of the total area of one of the valve bodies (13).

[0036] The part of the armature (7) facing the variable air gap (6) of the electromagnet is ring-shaped in design and when the magnetic coil (3) is energized it travels in between a ring-shaped outer magnetic pole (5) and a likewise ring-shaped inner magnetic pole (4).

[0037] The armature (7) is movably mounted on a pipe (8).

[0038] The first fluid chamber (11) is always fluidically connected to the inside (15) of the pipe (8) and the second fluid chamber (12) is sealed in respect of the inside (15) of the pipe (8) when the valve (1) is closed.

[0039] A return spring (16) is arranged between the inner magnetic pole (4) and the armature (7) according to this example in such a manner that it has an opening effect on the valve (1), while the electromagnet (2) has a closing effect on the valve (1).

[0040] The pipe (8) has on a further opening (17) which is not connected to the second fluid chamber (12) and which permanently connects a further side of the electromagnet (2) facing away from the armature (7) to the first fluid chamber (11), wherein the unit (18) seals the opening (17) in respect of the second fluid chamber (12).

LIST OF REFERENCE NUMBERS

[0041] 1. Valve [0042] 2. Electromagnet [0043] 3. Magnetic coil [0044] 4. Inner magnetic pole [0045] 5. Outer magnetic pole [0046] 6. Air gap [0047] 7. Armature [0048] 8. Pipe [0049] 9. Stationary valve [0050] 10. Movable valve [0051] 11. Fluid chamber [0052] 12. Fluid chamber [0053] 13. Valve body [0054] 14. Valve seat [0055] 15. Inside [0056] 16. Return spring [0057] 17. Opening [0058] 18. Unit

[0059] The foregoing description of the embodiments has been provided for purposes of illustration and description. It is not intended to be exhaustive or to limit the disclosure. Individual elements or features of a particular embodiment are generally not limited to that particular embodiment, but, where applicable, are interchangeable and can be used in a selected embodiment, even if not specifically shown or described. The same may also be varied in many ways. Such variations are not to be regarded as a departure from the disclosure, and all such modifications are intended to be included within the scope of the disclosure.