DE8317699U1 - Switching device, in particular ignition switching device for ignition systems of internal combustion engines - Google Patents

Description

-.18754

6.6.1983 Ws / Pi

ROBERT BOSCH GMBH, 7OOO STUTTGART 1

Switching device, in particular ignition switching device for ignition systems of internal combustion engines "

State of the art

The invention is based on a switching device, in particular an ignition switching device for ignition systems of internal combustion engines according to the genre of the main claim. With such a commercially available ignition switch is a heat sink on the relatively small end face of the housing opposite the connector ν arranged. Here is the cooling surface of the heat sink

enlarged by cooling fins. Such a heat sink made of die-cast aluminum is not only expensive to manufacture but it also increases the weight and the dimensions of the switching device considerably. Furthermore is known, in ignition switching devices equipped with the electronic components printed circuit board with a metallic mounting bracket completely in 'one Embed casting resin, so that only the ends of the mounting bracket and several connectors protrude from the cast resin compound of the ignition switch [DE-GM 79 09 986). The heat dissipation takes place here in

18754

essential about the mounting bracket with which the Ignition switch on motor vehicle superstructures or on the drive unit is attached. Insufficient heat dissipation can occur here in critical operating conditions of the electrical components of the ignition switchgear and overheating of these elements can occur. Another disadvantage is that for embedding the circuit board with the switching elements Prefabricated assembly consisting of an assembled printed circuit board with the connectors and the mounting bracket placed in a corresponding injection mold for embedding in casting resin and the injection mold accordingly must be sealed.

The aim of the present solution is to provide a plastic housing without insert parts for the switching device to use, with the heat dissipation improved and the assembly of the switching device should be made as simple as possible.

Advantages of the invention

The switching device according to the invention with the characteristic Features of the main claim has the advantage that the equipped and interconnected with the power switching stage PCB together with a cooling plate for the power switching stage as a preassembled unit in the The housing of the switchgear is to be pushed in and that the heat to be dissipated from a large cooling plate is discharged via a correspondingly large wall of the housing. Another benefit is to see that a good heat transfer from the cooling plate to the housing wall is achieved in that the

Cooling sheet rests extensively on the wall of the housing. Good heat dissipation is also achieved in that the wall on the heat dissipation
Broad side of the housing is used and therefore a cooling plate with a correspondingly large cooling surface is used.

The measures listed in the subclaims are advantageous developments and improvements
the features specified in the main claim are possible. It is particularly advantageous if the formation carrying the power switching stage consists of a punched-out tongue of the cooling plate bent towards the printed circuit board and if this tongue is located on the region of the cooling plate facing the connector.
In this case, on the one hand, the other switching elements in the switching device are shielded from the heat on the power switching stage by the cranked tongue and, on the other hand, some of this heat can also be dissipated via the connector.

drawing

An embodiment of the invention is shown in the drawing and explained in more detail in the following description. FIG. 1 shows the circuit structure of an ignition system with the ignition switch device according to the invention, and FIG. 2 shows a base with the power switching stage and a control stage in monolithic form
Embodiment, Figure 3 shows a cross section through the ignition switch device according to Figure 1 and Figure k a part of the
Cooling plate in the ignition switch according to Figure 3 in a three-dimensional representation.

I · ·
III · ·

t It »·

II · ·

18754

-U description of the exemplary embodiment

In Figure 1 is the circuit structure of an ignition system shown for internal combustion engines that essentially from an ignition switch device 10, an ignition coil 11, a spark plug 12 and from a speed sensor 13 and a Load transmitter 1U exists. The ignition switch device 1C is on the one hand placed on ground and on the other hand via a connection 15 to the positive potential of a storage battery 16 verbunder .. To calculate the ignition point, the signals from the speed sensor 13 and the load sensor 1U via connections 17 and 18 of the ignition switch device 10 to a microprocessor housed therein 19 given, the output of which via a control stage 20 is a power switching stage 21 at the ignition point from the conductive State reverses to the locked state. The power switching stage 21 is designed as a Darlington ignition feransistor and used in the primary circuit of the ignition system by connecting one end of the Primary winding 11a of ignition coil 11 switches to ground, the other end to the positive pole of the accumulator battery 16 and to one end of the secondary winding 11b of the ignition coil 11 is connected. The other end of the secondary winding 11b is conventional Connected to the spark plug 12 via an ignition cable. The primary current should be independent of the control stage 20 on the applied voltage of the accumulator battery 16 be kept constant. This primary current is obtained from the output signal of the microprocessor at the time of ignition 19 blocked by reversing the power switching stage 21, so that this change in current in the primary circuit In the secondary winding 11b, a high voltage 3 is pulsed generated, which at the spark plug .12 a Spark triggers.

187:

The speed-dependent cyclical reversal of the power switching stage 21 occurs on this component a power loss in the form of heat, which must be dissipated as quickly and reliably as possible, While considerably less power loss occurs at control stage 20, the power loss is at Microprocessor 19 practically negligible. He should, however, be protected from the heat radiation of the power switching stage 21 as far as possible. To this The purpose is the power switching stage 21 and the control stage 20, each in a monolithic design, shared arranged on a standardized base 23, which is shown in FIG. Control stage 20 and power switching stage 21 are enclosed on the base 2J by a capsule 2U made of insulating material.

In Figure 3, the ignition switch device 10 according to Figure 1 in Shown in cross section, wherein the capsule 2U placed on the base 23 can be seen, the base 23 is here attached to a cooling plate 25 in a thermally conductive manner Several connection pins 26 attached in the base 23, which are connected to the control stage 20 and the power switching stage 21 are connected to the conductor tracks contacted a circuit board 27, on which the microprocessor 19 and other components 28, z.3. for the voltage supply of the microprocessor 19 is arranged and are contacted. In addition, there are several connector pins on one side of the circuit board 27 contacted, of which only the two connector pins 17 and 18 can be seen in FIG. The connector pins are combined to form a connector 29 of the end face of a housing 30 made of plastic concludes. The circuit board 27 is on the inside of the broad side of the housing 30 in the area of the wall 30a arranged. On the opposite wall 30b

78754

the cooling plate 25 is arranged on the other broad side of the housing 30. For good heat dissipation, it rests on the inside over a large area on the wall 30b of the housing 30. The base 23 with the power stage 21 encapsulated thereon and the control stage 20 is attached to a formation of the cooling plate 25 which is directed out of the plane of the cooling plate 25 towards the printed circuit board 27. In FIG. K it can be seen that the formation consists of a tongue 31 which is punched free and bent downward toward the printed circuit board 27. In order to be able to dissipate part of the heat generated in the power switching stage 21 also via the connector 29, the tongue 21 is arranged on a region of the cooling plate 25 facing the connector. From FIG. H it can also be seen that the cooling plate has, on each of its long sides, an edge 32 which is bent toward the printed circuit board 27 and which is guided into corresponding grooves 33 located on the inside of the housing 30. Also, the circuit board 27 is longitudinally guided by corresponding grooves 3 + ¹ on the inner sides of the housing 30th From Figure 3 it can be seen that these grooves 33, 3 ^ are each formed by a pair of ribs 35 and 36, which are formed on the inside of the narrow sides of the housing 30.

When assembling the 3c holding device 10, the Circuit board 27 equipped with the microprocessor 19 and the components 23 of the switching device. Then will the connection plug 29 with the connector pins as well the cooling plate with the base 23 carrying the control and power stage by means of the connecting pins 26 the circuit board 27 is placed, with between the tongue 31 of the cooling sheet 25 and the circuit board 27 a spacer 37 made of insulating material is arranged.

16754

These parts are now contacted with the circuit board 27. The structural unit prefabricated in this way is then inserted into the housing 30, the printed circuit board 27 being ^{guided in the groove 3 1} + and the cooling plate 25 being guided in the groove 33. These guides also ensure that the cooling plate 25 rests with a certain pressure on the wall 30b of the housing 30 over a large area and that the parts arranged in the housing 30 are largely secured against shaking stresses.

Due to the arrangement of the power switching stage 21 on the Tongue 31 of the cooling plate 35 in the area of the connector 39 is also achieved that .lie generated there Loss heat does not reach the other electronic components 19 and 28 on the circuit board 27 and can endanger this, since the tongue 31 between the power switching stage 27 and the other components 19, 28 lies.

A further improved heat dissipation can still thereby can be achieved that the cooling plate is provided with cooling fins on the side facing the circuit board

ζ- yourself

will. Such a cooling plate can / z.3. made of die-cast aluminum produce.

Claims (3)

18754 6.6.1983 Ws / Pi ROBERT BOSCH GMBH, 7OOO STUTTGART 1 claims 1. Switchgear, especially ignition switchgear for ignition systems of internal combustion engines with a monolithic power switching stage, which is on one with connecting pins provided base is arranged encapsulated, with a heat sink on which the base is attached in a thermally conductive manner is, with a circuit board for contacting a connector as well as further electrical components on the circuit board and with one the electrical Components, the circuit board and the heat sink receiving housing, which on its end face through the connector is completed, characterized in that the circuit board (27) inside in the area a wall (30a) is arranged on a broad side of the housing (30), which is the heat sink as a cooling plate (25) is formed, the inside of the circuit board (27) opposite wall (30b; on the the other broad side of the housing (30) rests over a large area and that the base (23) is encapsulated with the one on it arranged power switching stage (21) on a to the printed circuit board (27) directed formation (31) of the cooling plate (25) and attached to the circuit board (27) is contacted. 2. switching device according to claim J, characterized in that that the formation from a punched free and to • · · 111! • · * ■ Il I • · ■ ι ι ι 18754 Circuit board cranked tongue (31) admits that is arranged in a region of the cooling plate (25) facing the connector (29). 3. Switching device according to claim 2, characterized in that between the tongue (31) and the circuit board (27) a spacer (37) made of insulating material is arranged. 1*. Switching device according to one of Claims 1 to 3, characterized characterized in that the cooling plate (25) on each of its long sides is bent towards the printed circuit board (27) Edge (32) has, which in corresponding, on the inner sides of the housing (30) arranged? Grooves (33) is led. 5 switching device according to one of the preceding claims, characterized in that the power switching stage (21) arranged together with a control stage (20) in each case monolithic design on the base (23) and via the connecting pins (26) to the circuit board (27) is contacted.