DE1266376B - Electrical component for printed circuits and process for its manufacture - Google Patents

Description

Electrical component for printed circuits and processes too its manufacture The invention relates to an electrical component, e.g. B. a Resistor or capacitor, with two wires for printed circuit boards. The component is covered with an insulating material in the form of an optionally cuboid block provided with beveled edges from which connecting wires protrude at a distance from each other that is a simple or a multiple of one Corresponds to the grid dimension.

Such a component is, for example, from the German utility model 1813 154 known. The component is in the block parallel to the circuit board arranged. It is, on the other hand, from a number of other publications as well known to arrange the components perpendicular to the circuit board, for example from the German utility model 1828 731. It is not described that such a component to be installed in a standing position in a plastic block should be housed; however, it is based on the utility model mentioned first conceivable to do this.

Components for printed circuits must be designed in such a way that that they have the smallest possible area and / or one possible on the circuit board take up little space above the circuit board. It has become the technology of the printed circuits show that as many contact holes as possible on the circuit boards, which are usually arranged in a grid, can be exploited. It should There is also the best possible insulation between the components. aside from that very small components should be housed in insulating sheaths that always still allow a sufficiently good handling.

From all of these requirements it has emerged that components certain size, d. H. with a length of 1 cm or less and with a diameter of a maximum of 2 to 2.5 mm can be accommodated in a block, which is not much more is more than 1 cm high. In such a block, according to the known Arrangements, the components arranged either vertically or parallel to the circuit board. Complicated measures often had to be taken to fix the connecting wires to bring the components into the desired position. A component with radial connection wires Installation in an upright position requires special preparation in order to that the connecting wires point in different radial directions. After that you have to the connecting wires for standing installation can also be bent over in a defined manner. When installing components horizontally, such components can be used in which the connecting wires point in a radial direction, however, must then the necessary grid spacing between the connecting wires can be set.

The connecting wires of components with axial connections must Curved in a special way for both standing and horizontal installation will.

In both cases, i. H. with radial and axial connecting wires, but the condition must also be met that for a tight fit of the Circuit board the connecting wires as close as possible to the adjacent surface of the Plastic block. This requires another wire bending operation, especially with components to be installed upright.

According to the invention, a path is to be output which is dense Packing of the circuit board with electrical components allows. Here should also be used for very long components with the smallest possible surface area can be accommodated on the circuit board. It should be as simple as possible Bending operations on the connecting wires required and multiple bending operations be avoided.

To solve this problem, the above-mentioned electrical Component according to the invention characterized in that a connecting wire is at an acute angle and the other connecting wire is bent at an obtuse angle such that the two bent parts parallel to each other and at a certain distance from each other run that the component in the block approximately in the direction of a surface or Room diagonals is arranged obliquely and that the distance between the connecting wires from the adjacent Surface sides of the block is at most equal to half the grid dimension.

According to a further development of the invention, the block can be in the area its free space from the component and lead wires be beveled, so that an envelope of prismatic shape is formed. The bevel can be used to Serve to identify a specific pole of the electrical component.

The invention ensures that the encased components a Take up the smallest possible area over the printed circuit board and one tight packing of the circuit board allow the leads of the components easy, d. H. through simple bending operations, in the desired, the grid dimension Appropriate distance can be brought that is not permitted for vertical installation long components accommodated on the circuit board without taking up large areas can be and that even with very wide components, the connecting wires easily can be bent so that they are at a small distance from the boundary surfaces of the block protrude from this, so that the tight packing of the circuit board becomes possible.

The method of manufacturing a component according to the invention goes from those described in the German Auslegeschriften 1112 769, 1147 321 Procedure. These methods consist essentially in that the components in rows in channels, which are preferably used as a permanent casting mold, used and then potted in the channels with castable and hardenable insulating material will; after the insulating material has cured, the resulting rods are divided into individual components. This method is according to the invention characterized in that the components after their connecting wires in the final shape have been bent, e.g. B. in their longitudinal extent transversely to the longitudinal direction of the gutters used next to each other.

This arrangement of the components in the channel has the advantage that the components jammed in the channel with their connecting wires and in this way can be held. Furthermore, it does not have to be when dividing into individual components be sawed directly next to connecting wires. Last but not least is insulation material saved.

For further saving of insulation material and for the same time Forming beveled cladding blocks is according to a development of the Invention proposed that a channel is used, the cross section of which is in the form of the beveled block is asymmetrical.

It is already described in the German utility model 1884 649, to arrange electrical components at an angle on a circuit board. In the German utility model 1824 350 it is disclosed, electrical components between a switch and a To arrange the insulation plate in an inclined position. These components are made of plastic but not shed. Even less is an oblique arrangement of these components provided in a plastic block. In the German interpretation documents 1171038, 1063 664 electrical components encased with insulating material have become known. The components are in this case in a vertical orientation in a cube-shaped Insulating block housed.

Further details are given with reference to the drawings, which show examples the invention and in particular the advantages of this arrangement explained.

F i g. 1 shows a plan view of a Sdhalipjafte; F i g. 2, 3, Figures 4, 5 and 6 show components according to the invention; F i g. 7 and 8 show filled ones Casting channels.

In Fig. 1, 1 denotes a printed circuit board, which carries conductor tracks on the side facing the plane of the drawing. The contact holes 2 are arranged in a grid dimension a. With a currently usual grid dimension is the distance a 2.5 mm. With 3 and 4 components are indicated that are on the Circuit board 1 are located. To make good use of space, these components are narrow arranged side by side.

In Fig. 2 with 5 is made of castable and hardened plastic existing cladding block referred to. In the present case, this block is transparent. A very long component 6 with connecting wires 7 is located in this block and B. The connecting wire 7 is acute-angled and the connecting wire 8 is obtuse-angled bent from the axial direction. The two bent parts of the connecting wires 7 and 8 run parallel and protrude at a distance, which in the present case 3 - a, out of the cladding block 5. The cladding block 5 is in his Height h given. The oblique arrangement of the component ensures that the long component 6, the length of which corresponds approximately to the dimension h, can be accommodated can, with the smallest distance 3 - a achieved between the connecting wires 7 and 8 is and yet the distance b of the connecting wires 7 and 8 from the adjacent side surfaces 9 and 10 is less than 1/2 - a. If installed horizontally on the circuit board the long component 6 occupy an area on the circuit board, which in their According to the invention, the longitudinal extension corresponds to more than five times the grid dimension however, it is possible to arrange this long component on the circuit board in such a way that that it claims a grid spacing of only 3 a in the longitudinal extent.

In Fig. 3 is a very wide structural element in relation to its length 11 shown. If this component were to be installed in an upright position, the distance between the Connecting wire 8 from the boundary surface 12 of the plastic block more than that Half of the grid spacing a. It would therefore be a tight packing of the circuit board impossible, because between the connecting wire 8 and the next connecting wire of the component arranged next to it would have to remain a gap of at least leaves a grid hole unused.

To achieve the distance b from the side surface 12 of the plastic block 6, the connecting wire 8 would have to be bent twice.

In Fig. 4 is the installation of a very small component 13 in one narrow block 14 shown, but its height h because of the required light Handling is just as great as the height h of the block 5 according to FIG. 2. The component 13 is longer than the simple grid spacing a. For a standing installation of a Such a component would have to achieve the distance a between the connecting wires 15 and 16 of the wire 15 bent several times will. The turning the connection wires with horizontal installation are even more complicated. According to the invention it is possible without multiple difficult bending operations, the lead wires to bring in a position that the claimed longitudinal extent on the circuit board of the component corresponds to only a single grid spacing. However, here the extremely small component can be brought into a handy shape.

From the descriptions of FIG. 2 to 4 shows that straight due to the inclined arrangement of the components in the plastic blocks the above requirements, particular advantages can be achieved.

In FIG. 5 is a component 17 with radial connecting wires 18 and 19 shown. From this it can also be seen that easily performed by machine Bending operations the connecting wires can be brought into the desired position. In addition, in FIG. 5 as in FIG. 6 shown that the plastic block under Maintaining its height can be provided in part with bevels 19 and 20, respectively. On the one hand, these bevels serve to identify a specific pole of a component, and on the other hand, insulating material can be saved as a result. These two advantages also result from the inclination of the components in the plastic blocks.

In FIG. 7, a channel 21 is now shown in perspective, the with components 22 and with insulating material 23 is filled. The connecting wires 24 protrude from the gutter. The hold of the components in the channel 21 is z. B. this causes the connecting wires 24 to lie against the two inner walls. The dashed line 25 indicates that the separation of the component in its area must be done off the shelf. The channel 21 is preferably also made of the same insulating material as the potting compound and is used as a lost mold, d. This means that the cast components together with the cut-off parts of the channel come into use. The design of the channel as a lost shape has the advantage that the connecting wires are insulated from the outside. The thickness of the gutter is in in this case chosen so that the distance between the connecting wires and the outer surface is less than 1 / z - a. In addition, as a result of the grouting height, in addition to the Connection wires, so to speak, feet through which they rest on the circuit board and thus a closure of the soldering holes is avoided. In Fig. 8 is asymmetrical Channel shown through which both insulation material is saved and at the same time the already described bevel is produced.

Claims (4)

Claims: 1. Electrical component with two connecting wires for printed circuits, which is provided with a sheath made of insulating material in the form of a rectangular block, optionally provided with beveled edges, from which the connecting wires protrude at a distance from one another which corresponds to a desired grid dimension. draws that one connecting wire (7, 15, 18) is bent at an acute angle and the other connecting wire (8, 16, 19) is bent at an obtuse angle such that the bent parts run parallel to each other and at a certain distance from each other that the component (6, 11 , 13, 22) in the block (5) is arranged obliquely in the direction of a surface or space diagonal and that the distance between the connecting wires from the respective adjacent surface sides of the block (5) is at most equal to half the grid dimension. 2. Electrical component according to claim 1, characterized in that the block beveled in the area of its free space from the component and connecting wires is. 3. A method for producing components according to claim 1 or 2, in which the components are used in rows in channels as a lost casting mold, then Poured in the channels with castable or hardenable insulating material and after hardening of the material, the resulting rods are divided into individual components, characterized in that the components after their connecting wires in their Final shape have been bent, in their longitudinal extension transverse to the longitudinal direction of the Channel can be used next to each other. 4. The method according to claim 3, characterized in that a channel is used whose cross-section is asymmetrical in the form of the beveled block. Considered publications: German Auslegeschriften Nos. 1063 664, 1080 172, 1171038; German utility model No. 1884 649, 1824350.