GB2302996A - Electrical circuit - Google Patents

Abstract

An electrical circuit, comprising: ```at least one conductive pressing (2, Fig. 1, not shown), inset moulded in an insulating plastics support, the pressing(s) providing an electrical circuit on which is mounted at least one surface mounted electronic component (22) through a cavity in the moulding and connector terminals (4) to provide electrical power to the circuit and one or more electrical inputs to and/or one or more electrical outputs from the circuit. The circuit may be used as part of a hazard warning switch unit fitted in cars, and to this end the insulating moulding has further cavities therein so that switch members can make sliding contact with terminals which form part of the conductive pressing (see e.g. Figs. 3, 7).

Description

ELECTRICAL CIRCUIT This invention relates electrical circuits. A particular application of the invention is to hazard warning and indicator units for motor vehicles although it has more general applicability.

In a conventional use of surface mount components, these are soldered to a printed circuit board and then the printed circuit board is connected to other components and terminals by additional means such as secondary soldering operations or mechanical means such as riveting or sprung connections. This produces several joints which are potential failure points, which can fail immediately or deteriorate over a period of time due to loosening or build up of oxide films between the parts of the joints. Each connection has to be manufactured and requires components, tooling, and time in the manufacturing process.

Against this background, one aspect of the invention provides an electrical circuit, comprising: at least one conductive pressing, inset moulded in an insulating plastics support, the pressing(s) providing an electrical circuit on which is mounted at least one surface mounted electronic component, and connector terminals to provide electrical power to the circuit and one or more electrical inputs to and/or one or more electrical outputs from the circuit.

This aspect of the invention also extends to a method of manufacturing an electrical circuit, comprising: making at least one conductive pressing, inset moulding the pressing in an insulating plastics support, parting at least one area of the pressing from an adjoining area and mounting a surface mounted electronic component on the pressing in order to create an operative electrical circuit in which the pressing provides connector terminals to provide electrical power to the circuit and one or more electrical inputs to and/or one or more electrical outputs from the circuit.

Flasher control units for motor vehicles are too bulky to combine with their switches and are normally located in the fuse box. This necessitates connection between the unit and both the direction indicator switches and the hazard warning switches through the vehicle's wiring loom. Inside the control unit connections have to be made between the unit's terminals and the printed circuit board on which the control circuit is built. It is becoming increasingly difficult to find sufficient space in the fuse box for the control unit.

Against this background, in accordance with another aspect of the invention there is provided a hazard warning switch for motor vehicles, having at least one conductive pressing, inset moulded in an insulating plastics support, the pressing(s) providing an electrical circuit on which are mounted circuit components of a combined hazard and flasher control unit, connector terminals for connection to terminals in the vehicle, to provide electrical power to the switch; electrical connections to operate the indicators on one side or other of the vehicle controlled by indicator switch; and connections to hazard warning switch contacts to operate the indicators on both sides of the vehicle as a hazard warning.

The number of connections required is reduced by use of such an arrangement. The flasher control unit is removed from the fuse box.

The pressing also preferably provides switch contacts.

In the form presently preferred, the connector terminals also provide connections to a separate indicator switch.

In a conventional flasher control unit, a surface mounted integrated circuit is mounted on a printed circuit board. In a preferred form of the invention, the said components include a such surface mounted integrated circuit.

This aspect of the invention also extends to a method of manufacturing a hazard warning switch for motor vehicles, comprising: making at least one pressing from conductive material; inset moulding an insulating support round the pressing leaving exposed areas of the pressing to provide connector terminals for connection to terminals in the vehicle, to provide electrical power to the switch from the loom; electrical connections to operate the indicators on one side or other of the vehicle controlled by an indicator switch; and connections to hazard warning switch contacts to operate the indicators on both sides of the vehicle as a hazard warning; parting at least one area of the pressing from an adjoining area; and mounting circuit components of a combined hazard and flasher control unit on the pressing in order to create an operative combined hazard and direction indicator control circuit.

In conventional switch structures incorporating pressings supported by insulating mouldings, the pressing is produced with all of what will become separate conductors temporarily joined by bridges so that the pressing is integral and will not fall apart into what will be its separate parts. After the pressing is inset moulded in a insulating support structure, the conductors are separated by a further pressing step which severs the bridges. It is not possible to sever the bridges by such a pressing step in the vicinity of which a surface mounted integrated circuit is to be fitted because the circuit connections thereto are too delicate and the step of severing by pressing distorts the circuit. Further the hole in the insulating moulding needs to be rather large to accommodate the press tool.In a preferred method the step is performed adjacent a position where a surface mounted integrated circuit is to be fitted, by laser cutting.

Another alternative or additional preferred step in the method is to coat exposed areas of the pressing with solder paste, to locate leads of circuit components on the solder pasted areas, and to bond the leads to the pressing with a point reflow tool.

In an alternative said step of mounting is performed with a conductive adhesive.

In other alternatives the surface mounted component is bonded to the inset moulding, and the leads of the component are soldered to the electrical circuit using a micro soldering tool, having a recirculating ball or fountain of molten solder or a micro flame.

One embodiment of the invention, given by way of example, will now be described with reference to the accompanying drawings, in which: Figure 1 is a plan view of a pressing for a combined flasher unit and hazard warning switch embodying the invention; Figure 2 is a plan view of a circuit comprising the pressing of Figure 1 after inset moulding in an insulative support structure and after circuit components have been assembled thereon; Figure 3 is a part pictorial view of two units of a combined flasher unit and hazard warning switch, embodying the invention, shown with a third unit exploded; Figure 4 is a pictorial view of the two units of Figure 3 showing one depressed; Figure 5 is a general cross section showing the units of Figure 3 assembled;; Figure 6 is a pictorial view of the complete assembly of the flasher unit and hazard warning switch of the previous Figures in its housing; Figure 7 is a part pictorial view of one of the said two units of Figure 3 showing the other exploded and in plan; and Figure 8 is a schematic circuit diagram of the combined flasher unit and hazard warning switch and parts of the vehicles electrical circuit.

Figure 1 shows a pressing 2 from copper sheet or copper alloy e.g. brass which is subsequently silver plated.

Male connectors 4 project from one end to be received by female connectors in a vehicle's wiring loom. The pressing 2 remains in one integral piece at this stage. Thus, for example there are bridges 6 connecting the male connectors 4 and other parts mechanically and, as a result, also electrically. There are also bridges 8 and 10 adjacent a position where a surface mounted integrated circuit will be mounted subsequently. If these bridges were not present, what will become separate parts of the pressing would fall apart.

In Figure 2 the pressing is shown after it has been inset moulded in an insulating support structure 12 and circuit components have been assembled thereon to complete a circuit unit 13. Areas of the pressing are left exposed by various apertures 14 in the moulding 12 in positions where it is necessary to break electrical bridges to form an operative electrical circuit by separating conductors from each other. Another area 16 comprises a low value current sensing resistive track and is left exposed to allow for adequate cooling. Yet other areas 18 are left exposed to allow circuit components to be mounted.

In order to make an operative circuit, the bridges 6 and 8 must be severed. The bridges 6 are severed conventionally using a further pressing step. In the region of the circuit components 20 and 22, however, this would distort the circuit so that the surface mounted component could not be mounted thereon. A conventional pressing step would not operate sufficiently finely to sever the hinges 8 and the hole in the inset moulding through which they are exposed would need to be larger supporting the circuit less and rendering it more liable to distortion. The bridges 8 are therefore severed using a laser cutter.

Circuit components shown in Figure 2 comprise three miniature resistors 20 and a surface mounted integrated flasher control circuit 22. In conventional flasher control unit constructions, such components would be mounted on a printed circuit board by one of two process. In one process the components are attached by adhesive, the board is inverted and passed over a wave of solder in a flow soldering process. In the other process the components are attached with solder paste which is then ref lowed in an oven. In the present construction the areas of pressing to which the components are to be mounted are coated with solder paste. The components are then placed on the pressing where the solder paste holds them sufficiently firmly for the assembly to be handled. The solder is then flowed to permanently bond the components electrically to the pressing using a point reflow tool.

Figure 3 shows how the circuit unit 13 of Figure 2 is assembled with a second circuit unit 24 and a contact carrier 26. The contact carrier 26 is slidably mounted on the unit 24 which is assembled fixedly with the unit 13.

The circuit unit 24 is constructed in a similar fashion to the construction of the circuit unit 13 described above.

Figure 7 shows the contact carrier 26 pictorially and the circuit unit 24 in plan from the side to which the contact carrier 26 is assembled. Thus the circuit unit 24 has a pressing 28 providing male connectors 30 and an electrical circuit supported by a moulding 32. Soldered onto the pressing is a relay 34 to switch the flashers on and off under control of the control circuit 22.

Figure 5 shows the circuit units 13 and 24 assembled with the moving contact carrier 26 in a housing 66.

The contact carrier 26 carries moving switch contacts one 50 of which can be seen in Figure 3 projecting through an aperture 52 in the circuit unit 24. In Figure 3 the circuit unit 13 is shown from the other side to that of Figure 2. In the side shown in Figure 3, there is an opening 56 through which areas 58, 60 and 62 of the pressing are exposed. These areas serve as fixed switch contacts.

The moving switch contact 50 makes electrical contact with these areas so as to form an electrical connection between area 58 and either area 60 or area 62 depending on whether the sliding carrier 26 is in its normal extended position shown in Figure 3. or is in its depressed hazard position shown in Figure 4. The sliding carrier 26 is biased to its normal position by springs 63 on opposite sides of the carrier (only one being visible in Figs 3 and 4). A latching mechanism retains the carrier 26 once it has been depressed.

The contact carrier 26 also carries moving switch contacts 36 and 38. These make electrical contact with areas 40, 42 and 44 of the pressing 28 which serve as fixed switch contacts such that when the contact carrier 26 is in its normal extended position, both moving contacts are in electrical contact with the area 40 only. When the moving contact carrier 26 is in its depressed position, the moving contacts 36 and 38 complete an electrical connection between the areas 40, 42 and 44.

In the former (normal) position, the switch contacts set the circuit to provide a pulsing output to a direction indicator switch, 45, see Fig 7, through the wiring loom, not shown, and ones of the connectors 4H so as to operate none of the vehicle's flashers or those LF,LB on the left side of the vehicle or those RF, RB on the right side of the vehicle, controlled by the switch 45. When the moving contact carrier is depressed as shown in Figures 4 and 6, by means of a button 64 shown in Figure 5, the switch contacts set the circuit so as to operate all the vehicle's flashers, i.e. on both sides of the vehicle, at once, via connectors 30F and 30C.

Claims (13)

1. An electrical circuit, comprising: at least one conductive pressing, inset moulded in an insulating plastics support, the pressing(s) providing an electrical circuit on which is mounted at least one surface mounted electronic component, and connector terminals to provide electrical power to the circuit and one or more electrical inputs to and/or one or more electrical outputs from the circuit.

2. An electrical circuit as claimed in claim 2, wherein the pressing also provides switch contacts.

3. An electrical circuit as claimed in claim 1 or 2, wherein the surface mounted electronic component is soldered to the pressing or bonded thereto by a conductive adhesive.

4. A hazard warning switch for motor vehicles, having at least one conductive pressing, inset moulded in an insulating plastics support, the pressing(s) providing an electrical circuit on which are mounted circuit components of a combined hazard and flasher control unit, connector terminals for connection to terminals in the vehicle, to provide electrical power to the switch; electrical connections to operate the indicators on one side or other of the vehicle controlled by indicator switch; and connections to hazard warning switch contacts to operate the indicators on both sides of the vehicle as a hazard warning.

5. A hazard warning switch as claimed in claim 4, wherein the connector terminals also provide connections to a separate indicator switch.

6. A hazard warning switch as claimed in claim 4 or 5, wherein the said components include a surface mounted integrated circuit.

7. A hazard warning switch as claimed in any of claims 4 to 6, wherein the pressing provides switch contacts.

8. A method of making an electrical circuit, comprising: making at least one conductive pressing, inset moulding the pressing in an insulating plastics support, mounting a surface mounted electronic component on the pressing and parting at least one area of the pressing from an adjoining area in order to create an operative electrical circuit in which the pressing provides connector terminals to provide electrical power to the circuit and one or more electrical inputs to and/or one or more electrical outputs from the circuit.

9. A method of manufacturing a hazard warning switch for motor vehicles, comprising: making at least one pressing from conductive material; inset moulding an insulating support round the pressing leaving exposed areas of the pressing to provide connector terminals for connection to terminals in the vehicle, to provide electrical power to the switch from the loom; electrical connections to operate the indicators on one side or other of the vehicle controlled by an indicator switch; and connections to hazard warning switch contacts to operate the indicators on both sides of the vehicle as a hazard warning; mounting circuit components of a combined hazard and flasher control unit on the pressing; parting at least one area of the pressing from an adjoining area in order to create an operative combined hazard and direction indicator control circuit.

10. A method as claimed in claim 8 or 9, including parting at least one area of the conductive pressing from another adjacent a surface mounted integrated circuit, by laser cutting.

11. A method as claimed in claim 8, 9 or 10, including coating exposed areas of the pressing with solder paste, locating leads of circuit components on the solder pasted areas, and bonding the leads to the pressing with a point reflow tool.

12. A method as claimed in claim 8, 9 or 10, wherein said step of mounting is performed with a conductive adhesive.

13. A method as claimed in claim 8, 9 or 10, wherein the surface mounted component is bonded to the inset moulding, and the leads of the component are soldered to the electrical circuit using a micro soldering tool, having a recirculating ball or fountain of molten solder or a micro flame.