Magnet valve coil unit for a magnet valve and method of manufacturing a magnet valve coil unit

Abstract

A magnet valve coil unit includes a magnet coil and a circuit board connected thereto, encased by a molding material. An LED on the circuit board signals a switching status of the magnet coil. The LED is surrounded by the molding material at least in part. A light guide element is arranged in contact with the LED such that it directs light radiated from the LED to an external surface of the magnet valve coil unit. The magnet valve coil unit is manufactured by applying a deformable, transparent mass on the LED of a pre-assembled component containing the magnet coil and the circuit board on which the LED is arranged, and placing the pre-assembled component in a tool mold. The light guide element is arranged to be in contact with the transparent mass, and the pre-assembled component is encased with a molding material.

Claims

1. A magnet valve coil unit comprising a magnet coil and a circuit board connected thereto, the magnet coil and the circuit board being encased by and in direct contact with a molding material, so that the magnet coil is at least partly embedded in the molding material and covered at least partly with the molding material, and an LED being arranged on the circuit board, said LED signaling a switching status of the magnet coil, and a light guide element being provided which is arranged to be in contact with the LED such that the light guide element directs light radiated from the LED to an external surface of the magnet valve coil unit, wherein the circuit board and the LED are completely embedded in the molding material except for a connection between the LED and the light guide element.

2. The magnet valve coil unit according to claim 1, wherein a transparent mass is arranged between the LED and the light guide element, said transparent mass being deformable at least during encasing with the molding material.

3. The magnet valve coil unit according to claim 2, wherein the transparent mass is one of a silicone and an adhesive.

4. The magnet valve coil unit according to claim 1, wherein the light guide element is a transparent indicator member which extends up to the external surface of the magnet valve coil unit.

5. The magnet valve coil unit according to claim 4, wherein the indicator member protrudes at least in sections from the external surface of the magnet valve coil unit.

6. A magnet valve coil unit comprising a magnet coil and a circuit board connected thereto, the magnet coil and the circuit board being encased by a molding material so that the magnet coil and the circuit board are at least partly embedded in the molding material, and an LED being arranged on the circuit board, said LED signaling a switching status of the magnet coil and being surrounded by the molding material at least in part, and a light guide element being provided which is arranged to be in contact with the LED such that the light guide elements directs light radiated from the LED to an external surface of the magnet valve coil unit, the light guide element being a female plug protruding from the molding material and being at least partially transparent.

7. The magnet valve coil unit according to claim 6, wherein the female plug is firmly anchored in the molding material by a positive-locking fit between the female plug and the molding material.

8. The magnet valve coil unit according to claim 7, wherein the positive-locking fit is between a groove on the female plug and the molding material filling the groove.

9. A magnet valve coil unit comprising a magnet coil and a circuit board connected thereto, the magnet coil and the circuit board being encased by a molding material so that the magnet coil and the circuit board are at least partly embedded in the molding material, and an LED being arranged on the circuit board, said LED signaling a switching status of the magnet coil and being surrounded by the molding material at least in part, and a light guide element being provided which is arranged to be in contact with the LED such that the light guide element directs light radiated from the LED to an external surface of the magnet valve coil unit the light guide element being a cable feedthrough which is at least partially transparent, and electrical connecting wires extending towards an outside of the magnet valve coil unit from the circuit board through the cable feedthrough.

10. The magnet valve coil unit according to claim 9, wherein a rear side of the cable feedthrough is attached to the LED, the magnet coil, the circuit board and the cable feedthrough being substantially coated with the molding material.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic perspective illustration of a magnet valve coil unit of the invention according to a first embodiment;

(2) FIG. 2 is a schematic perspective illustration of a pre-assembled component of the magnet valve coil unit of FIG. 1 comprising a magnet coil and a circuit board and a female plug;

(3) FIG. 3 is a schematic perspective illustration of the circuit board and the female plug of FIG. 2;

(4) FIG. 4 shows an enlarged detail of FIG. 3;

(5) FIG. 5 is a schematic perspective illustration of the circuit board of FIG. 2;

(6) FIG. 6 is a schematic sectional view of a portion of the circuit board as well as of the female plug of FIG. 2;

(7) FIG. 7 is a schematic sectional view of a portion of the magnet valve coil unit of FIG. 1;

(8) FIG. 8 is a schematic perspective illustration of a magnet valve coil unit according to a second embodiment of the invention;

(9) FIG. 9 is a schematic perspective illustration of a component comprising a magnet coil, a circuit board as well as a cable feedthrough of the magnet valve coil unit of FIG. 8;

(10) FIG. 10 is a schematic sectional view of a portion of the circuit board as well as of the cable feedthrough of FIG. 9;

(11) FIG. 11 is a schematic perspective illustration of a magnet valve coil unit of the invention according to a third embodiment;

(12) FIG. 12 is a schematic sectional view of the magnet valve coil unit of FIG. 11;

(13) FIG. 13 is a schematic perspective illustration of a light guide element of the magnet valve coil unit of FIG. 12;

(14) FIG. 14 is a schematic sectional view of a portion the magnet valve coil unit of FIG. 11 prior to inserting the light guide element; and

(15) FIG. 15 is a schematic sectional view of a portion of the magnet valve coil unit of FIG. 11 prior to inserting the light guide element in a variant.

DETAILED DESCRIPTION

(16) FIG. 1 shows a magnet valve coil unit 100 for a magnet valve, not shown in further detail, according to a first embodiment.

(17) As is shown in FIG. 2, the interior of the magnet valve coil unit 100 houses a pre-assembled component 102 which includes an indicated magnet coil 104 and a circuit board 106 connected thereto. Arranged on the circuit board 106 are the usual electronic members and circuits for actuating the magnet coil 104, which are not explained in more detail here.

(18) An LED 108 is also mounted on the circuit board 106. In this example, also the circuits for driving the LED are arranged on the circuit board 106. In this embodiment, the LED 108 is situated on a narrow side of the circuit board 106 where also a female plug 110 is arranged.

(19) Two connecting pins 112 for establishing an electric contact extend from the circuit board 106 through a rear side 114 of the female plug 110 into a plug receptacle 116 of the female plug 110 (see FIGS. 6 and 7).

(20) The female plug 110 may be initially connected to the circuit board 106 by pushing it onto the connecting pins 112, for example, but a fixed connection could be provided as well.

(21) For manufacturing the magnet valve coil unit 100, the component 102 is encased with a hardenable molding material 118. The opaque, lightproof molding material 118 surrounds the magnet coil 104 and the circuit board 106 substantially in full, as can be seen in FIG. 7. The female plug 110, however, protrudes for the most part from the molding material 118 in this example.

(22) After hardening, the molding material 118 also defines the outer contour and in this example is part of an external surface 120 of the magnet valve coil unit 100. An additional housing surrounding the molding material 118 is not provided here, but decorative elements and the like may be applied on the external surface 120, of course.

(23) In order to guide the light of the LED 108 to the external surface 120 of the magnet valve coil unit 100, a light guide element 122 is provided which creates a transparent connection from the LED 108 to the external surface 120 of the magnet valve coil unit 100. In this first exemplary embodiment, the light guide element 122 is defined by a transparent portion of the female plug 110.

(24) If the LED 108 lights up, light is guided towards outside via the light guide element 122, and a switching status of the magnet coil 104 can be read off. The electronic circuitry of the LED 108 required for this can be designed in known way and may be arranged on the circuit board 106.

(25) In this example, substantially the whole female plug 110 is made from a transparent material such as a suitable plastic. It would also be conceivable, however, to realize the female plug 110 so as to be transparent only in sections.

(26) In order to improve the conduction of light and ensure a reliable contact between the LED 108 and the light guide element 122, a transparent mass 124 is provided between the LED 108 and the light guide element 122, here the rear side 114 of the female plug 110. The transparent mass 124 completely fills the gap between the LED 108 and the light guide element 122, so that an undisturbed light transfer from the LED 108 to the light guide element 122 is ensured.

(27) The diffraction index of the transparent mass 124 preferably corresponds approximately to that one of the outer shell of the LED 108 and that one of the light guide element 122, to allow a largely undisturbed light propagation.

(28) The transparent mass 124 is deformable at least for the time when it is being applied and in these examples remains elastic to a certain extent throughout the entire life cycle of the magnet valve coil unit 100. In this example, the transparent mass 124 is a transparent silicone.

(29) During manufacturing the magnet valve coil unit 100, the transparent mass 124 is first introduced between the LED 108 and the rear side 114 of the female plug 110. Subsequently, the component 102 is placed in a (not illustrated) tool mold. Next, the molding material 118 is filled into the tool mold and the component 102 is encased with the molding material 118 in a casting or pressing process. In this example, the molding material 118 completely encloses the circuit board 106 and the LED 108 except for the connection between the LED 108 and the light guide element 122. The transparent mass 124, however, keeps the gap between the LED 108 and the light guide element 122 free from any molding material 118.

(30) The female plug 110 is firmly anchored in the molding material 118 and the body 127 of the magnet valve coil unit 100 by means of a positive-locking fit between a groove 126 on the female plug 110 and the molding material 118 filling the groove 126.

(31) FIGS. 8 to 10 show a second embodiment of a magnet valve coil unit 200. For already known component parts, the already introduced reference numerals are used again.

(32) In contrast to the magnet valve coil unit 100 just described, a cable feedthrough 210 is provided instead of a female plug, and electrical connecting wires 112 extend towards outside through the cable feedthrough 210. In this case, the cable feedthrough 210 is designed to be transparent as a whole or in sections and serves as a light guide element 222.

(33) The cable feedthrough 210 has its rear side 214 attached to the LED 108, the intermediate space between the LED 108 and the cable feedthrough 210 being filled up by a sufficient amount of the transparent mass 124. As described with respect to the first embodiment, the component 202 including the magnet coil 104, the circuit board 106 and the cable feedthrough 210 is substantially completely coated with the molding material 118 during the manufacture of the magnet valve coil unit 200.

(34) As an alternative to silicone, a transparent adhesive such as a UV adhesive may also be used in the described examples as the transparent mass 124, which adhesive is introduced between the female plug 110 or the cable feedthrough 210 and the LED 108 and then hardened by irradiating it with UV light. The application of the adhesive is carried out prior to placing the component 102, 202 in the tool mold.

(35) In both embodiments, the light emission of the female plug or the cable feedthrough 210 allows to read out the switching status of the magnet coil 104.

(36) In a third embodiment shown in FIGS. 11 to 15, an indicator element 328 is provided in a front area of the top of the magnet valve coil unit 300.

(37) In this case, the LED 108 is arranged on the circuit board 106 near the narrow side of the circuit board 106 facing away from the female plug or the cable feedthrough.

(38) In order to achieve a guidance of light to the external surface 120 of the magnet valve coil unit 300, the indicator member 328 is formed as a light guide element 322. Here, the indicator member 328 is a transparent plastic cap which is separate from the body 127 of the magnet valve coil unit 300 and inserted in an insertion opening 330 which is recessed in the body 127 of the magnet valve coil unit 300 in the hardened molding material 118.

(39) The LED 108 may either protrude into the insertion opening 330 or be arranged such that its light is emitted into the insertion opening 330. The light is then guided to the external surface 120 of the magnet valve coil unit 300 through the body of the indicator member 328 acting as a light guide element 322.

(40) In this example, the indicator member 328 protrudes from the surrounding external surface 120 of the top of the magnet valve coil unit 300 by approximately 1 to 2 mm, so that the light radiated from the LED 108 can also be perceived from the side. It would also be possible, however, to insert the external surface of the indicator member 328 so as to be flush with the external surface 120 of the magnet valve coil unit 300.

(41) In order to achieve a tight connection between the indicator member 328 and the wall of the insertion opening 330, a seal 332 in the form of an O-ring is provided. The seal 332 is received in a groove 334 of the indicator member 328.

(42) The indicator member 328 may also be glued into the insertion opening 330, the adhesive penetrating into the groove 334 during insertion. In this case, the groove 334 serves for interlocking the body 127 with the hardened adhesive.

(43) During the manufacture of the magnet valve coil unit 300, the insertion opening 330 is kept free from any molding material 118 by a die of the tool during encasing the component made up of the circuit board 106 and the magnet coil 104.

(44) When the molding material 118 has been hardened, the indicator member 328 is inserted in the insertion opening 330.

(45) The transparent mass 124 is applied on or around the LED 108 already prior to encasing with the molding material 118, in particular prior to placing the pre-assembled component in the tool mold, in order to keep the LED 108 free from any molding material 118. The transparent mass 124 is dispensed in a somewhat higher amount than needed, so that a surplus which is displaced by the die of the tool reliably ensures that any tolerances between the LED 108 and the die are balanced out and essential radiation surfaces of the LED 108 are kept free from any molding material 118.

(46) In the example of FIG. 14, the unobstructed area is substantially limited to the top of the LED 108 and small pockets 336 beside the top, which are created by the transparent mass 124 being displaced by the die during encasing with the molding material 118.

(47) In the example of FIG. 15, the LED is surrounded by the transparent mass 124 on its entire irradiating surface area and kept free from any molding material 118.

(48) The individual features of the various embodiments can be freely interchanged and combined with one another at the discretion of a person skilled in the art. It would be possible, for example, to provide a light-conducting indicator member at another place of the external surface of the magnet valve coil unit in addition to a light-conducting female plug.