DE1125556B - Tube socket, especially for printed circuits - Google Patents

Description

Tube socket, particularly for printed circuits The invention relates to a tube socket, particularly for printed circuits, in one tube can be inserted from both sides, its socket body and contact elements are on one side of the mounting plate and have a screening tube possesses, which protrudes beyond the underside of the socket body.

As is known, the surfaces of the circuit boards must for cost reasons be used as fully as possible by printed circuits. The ones to be built in Circuit elements are therefore arranged close to one another. they lay consequently also in the immediate vicinity of the tubes that generate considerable heat radiate. In the long run, however, this heat radiation is for certain circuit elements harmful. Therefore, in known circuits, the tubes are already on the conductor side the printed board arranged so that it can be plugged in, because this page is known to be in the remains essentially free of circuit elements. You leave it from soldering Establish the tube socket mostly together with the other circuit components on the conductorless side of the plate. The circuit board will then be where the socket is is arranged, provided with small holes, in the places where the tube contact pins must pass through to the contacts of the tube socket. at In this arrangement, however, the tubes sit directly on the circuit board and radiate their considerable heat directly on the plate surface. The plate section Under the tube is heated so much that the material is consistently molded Resin-based, charred at this point over time, then crumbly and breaks out of the plate. In addition, they are primarily immediate Adjacent, laminated conductor tracks affected. They are breaking up due to the considerable heat effect on the circuit board.

The described disadvantages of the known arrangements of electron tubes on printed circuit boards are in a tube socket, in particular for printed circuits into which a tube can be inserted from both sides, whose socket body and contact elements are on one side of the mounting plate are located and which has a shielding tube that extends over the underside of the socket body protrudes, avoided according to the invention in that the shielding tube is built in State of the socket protrudes over the underside of the circuit board and on his entire length is surrounded by a preferably annular support body, which as is formed as a separate part or part of the socket body and 'on his Circumference embedded, exactly corresponding to the position of the tube contact pins in the socket body Has recesses for their guidance.

This novel design of a tube socket is one of the tube inserted on the underside at a sufficient safety distance from the There are held laminated conductor tracks running there, which are thus from damaging Are protected from the effects of heat. Furthermore, it has the protruding end of the shield tube surrounding support body has the great advantage due to its special design as a guide ring to make it much easier to insert a tube for the tube contact pins, especially if later in a finished device on one less A tube should be replaced in an easily accessible place.

When using dip soldering, which is consistently common for soldering printed circuits, a socket part protruding beyond the conductor side of a printed circuit board, such as the subject of the invention, for example, is inevitably also immersed in the liquid solder. As a result, however, the solder can very easily penetrate the insertion openings for the tube contact pins and clog them. In order to prevent this, appropriate cover means must be attached to prevent the penetration of the solder. Usually, protective caps are placed over the mount parts that are immersed in the solder bath. In terms of production, however, this is not secure enough because protective caps of this type can easily slip off. Other than that, it's cumbersome and expensive. According to an advantageous further development of the concept of the invention, the socket for the use of dip soldering now has a cheap and effective covering means that is built into the socket body itself, and it is preferably heat-resistant insulating films that can be easily pierced by means of the tube pins. For example, thin parchment paper is well suited to protect the pin holes from penetration of solder. If the tube sockets, as is usually the case, are made of pressable or castable plastic, it is advisable to cover the insertion openings for the tube pins with a press skin that remains during the pressing process of the socket body made of plastic or its cover plate. This embodiment of a cover for the pin holes has the advantage that it does not have to be built into the socket as well, but is already produced in the course of the production process for the socket body.

Finally, according to a further embodiment of the inventive concept, a special feature is provided on the socket, which serves to better dissipate the heat around the tubes when the circuit is in operation. It consists in the fact that a larger number of ventilation bores near the edge of the socket, preferably in a circular arrangement around the shielding tube, are let through the socket body and at its installation point also through the circuit board. These openings act like small chimneys and accelerate the removal of the warm air generated by the tubes, as the rising air heated by the tubes causes cooler air to flow in from the other side of the circuit board through the ventilation holes in the tube socket and circuit board and thus a stronger air movement arises around the tube.

On the basis of the embodiment shown in the drawing the invention is described in more detail below.

In Fig. 1 the tube socket is shown in section and in Fig. 2 in view from the conductor side of the plate. The circuit board of a printed circuit, which is only shown in detail here, is denoted by 1 in the exemplary embodiment. In a manner known per se, it carries conductor tracks 2 laminated on one side. The connecting tracks 3 of the tube socket 4 are then connected to some of these conductor tracks. A tube 5 is inserted into the socket 4 from the conductor side of the plate in order to keep the heat radiating from it during operation away from the other circuit elements, which are known to be arranged on the side of the plate 1 that is free from the conductor track.

In order to protect the printed circuit board 1 as well as the laminated conductor tracks 2 running in the vicinity of the tube 5 from the particularly strong heat radiation in the immediate vicinity of the tube, the shielding tube 4 a of the socket 4 is extended over the conductor side of the plate 1 The end of the tube is surrounded by a cylindrical part 6 arranged in the middle of the socket body. As a result of this extension of the shielding tube, the tube 5 is inevitably held at a certain distance from the plate surface and thus also from the conductor tracks located in its immediate vicinity. This prevents the conductor tracks from becoming detached from the plate as a result of the strong action of heat and, on the other hand, the plate 1 from becoming charred and brittle at this point.

Additional protection can be created for this thermally critical point on the plate, by means of which the local heat concentration is dissolved even more quickly. For this purpose, a larger number of ventilation bores 7 , which are also passed through the printed circuit board 1 , have been let into the edge of the tube socket 4. As a result of the rising heat, an air flow is created around the tube 5 , by means of which a flow of cooler air is sucked in from the other side of the circuit board 1 through the ventilation holes 7 and is guided past the tube and its immediate surroundings. This additional cooling also protects the conductor tracks and the plate from harmful heating at this point.

In the case of tube sockets for printed circuits, it is necessary to prevent solder from penetrating into the insertion openings for the tube contact pins during dip soldering. In the embodiment according to FIGS. 1 and 2, when the socket body made of plastic is pressed, a thin pressing skin 8 can be left at the point for the insertion openings, which the openings. against the solder, but can be easily pierced by the tube contact pins. To better illustrate the socket 4 of the tube 1 contact pin in question is on the left side in Fig. Been omitted. But you can also use a thin film of heat-resistant material, such. B. made of parchment paper, insert into the socket and in front of the insertion openings. Such a film then carbonizes during the dip soldering process, but does not allow any solder to penetrate into the insertion openings and can later also be easily pierced with the contact pins of the tubes.

Since the position of the insertion openings is not or only indistinctly recognizable, especially when a press skin is provided as a protective cover, several recesses 9 are provided in the edge of the cylindrical center piece 6 of the socket 4 surrounding the shielding tube 4a, according to the respective position of the insertion openings. The recesses 9 then lead the tube contact pins to the correct contact points of the socket.

Claims (1)

PATENT CLAIMS. 1. Tube socket, especially for printed circuits, into which a tube can be inserted from both sides, the socket body and contact elements of which are located on one side of the mounting plate and which has a shielding tube which protrudes beyond the underside of the socket body, characterized in that the shielding tube (4a) protrudes in the installed state of the socket over the underside of the mounting plate and is surrounded over its entire length by a preferably annular support body (6), which is designed as a separate part or as part of the socket body (4) and which is attached to its Has recesses (9) embedded in the circumference, exactly corresponding to the position of the tube contact pins in the socket body, for guiding them. 2. Tube socket for printed circuits according to claim 1, characterized in that means for covering the insertion openings facing the soldering side for the tube pins are provided for the application of immersion soldering in the socket body (4), preferably heat-resistant insulating foils od are pierceable. 3. tube socket for printed circuits according to claim 1 and 2, characterized in that the insertion openings are covered for the tube pins with a closing lid are constant during the molding process of a plastic socket body (4) or its waste Preßhaut (8). 4. Tube socket according to claim 1 to 3, characterized in that a larger number of ventilation bores (7) near the edge of the socket (4), preferably in a circular arrangement, through the socket body (4) and the circuit board (1) the shielding tube (4a) is embedded. References considered: British Patent No. 671276; U.S. Patent Nos. 2,796,593, 2,863,131.