EP0269037A2 - Overvoltage protection apparatus - Google Patents

Abstract

In order to improve an overvoltage protection apparatus having a protected mains connection, the phase and neutral conductors of the mains connection circuit being electrically connected in each case via a varistor to the earth conductor, and having a protected connection of a second circuit, e.g. for radio, television and video units, computers and the like, the earth conductor of the second circuit being connected, e.g. via a connection spark gap, to the earth conductor of the mains connection circuit, such that manufacture and storage can be simplified, it is proposed that the mains connection circuit and the second circuit are in each case combined into an assembly unit having a dedicated carrier (3, 4) and are designed such that they can be joined onto a common supporting part (1), which unit has the common connection spark gap (8) and its electrical conductors (13) to the connecting contacts of the mains connection circuit and of the second circuit. <IMAGE>

Description

The invention relates to an overvoltage protection device with a protected mains connection, the phase and the neutral conductor of the mains connection circuit being electrically connected to the protective conductor via an overvoltage protection element, for example a varistor, and to a connection of a second circuit, for example for, protected by overvoltage protection elements, for example varistors Radio, television, and video devices, computers and the like, the protective conductor of the second circuit being connected to the protective conductor of the power supply circuit, for example via a coupling spark gap.

In an overvoltage protection device of the type described above from DE-OS 35 13 230, from which the invention is based, an approximately rectangular housing made of plastic is provided, into which the elements of a mains connection circuit and the elements of a second circuit are inserted, the phase and the neutral conductor of the power supply circuit are electrically connected to the protective conductor via a varistor each arranged in the housing. Furthermore, the protective conductor of the second circuit is connected to the protective conductor of the power supply circuit via a spark gap fixed in the housing. In the mains connection circuit, a device plug striving from the rear of the housing and a socket on the front of the housing are arranged. In addition, two antenna connection sockets inserted into the second circuit are provided in the front wall. In addition, two antenna input lines lead into the housing. Instead of the device plug of the mains circuit attached to the housing, a flexible line can also be provided, which ends in a device plug.

However, there is the disadvantage that this is due to a large number of common electrical connector couplings which differ in shape and size from one another for each area of application with regard to adapted surge protection device must be manufactured and kept in stock.

The object of the invention is to improve an overvoltage protection device of the type specified in the preamble of claim 1 in such a way that simplification and cheaper manufacture and storage can be achieved.

The solution to this problem is characterized in that the network connection circuit and the second circuit are each combined to form a mounting unit with its own support and are designed to be attachable to a common support part which connects the common coupling spark gap and its electrical lines to the connection contacts of the network connection circuit and the second Circuit has.

As a result, it is now possible to combine a support part suitable for all areas of application with the required elements of the power supply circuit and the second circuit without any problems.

You can also replace the respective carriers with each other if necessary.

An assembly which greatly simplifies the mounting of the carrier is that two spaced-apart pockets are provided in the common carrier part, each of which is designed to accommodate one carrier, and the electrical lines of the common coupling spark gap end in contacts arranged on the carrier part pockets in such a way that in the Carrier part pockets are inserted in the correct position, the protective conductor connection contacts of which are opposite the connection contacts of the coupling spark gap and touch the latter in an electrically conductive manner, so that when the carriers are attached to the support part in the correct position, their electrical connections have been quasi enforced and cannot be provided.

A preferred further development, which is favorable in terms of production technology as well as a high positional security of the carrier attached to the carrier part and also easy to use, is that the carrier and the carrier part pockets are arranged on at least two mutually opposite sides along these, arranged in the manner of tongue and groove have jointly complementary and in particular longitudinally adjustable edge parts complementary to plug-in couplings, wherein preferably also the edge parts of the carrier and the carrier-part pockets which complement one another to form plug-in couplings are each arranged parallel to one another.

For this purpose, a preferred design is also characterized in that the carriers are each square and all longitudinal sides have coupling edge parts.

This has the advantage that the carriers e.g. of the mains circuit with respect to the supporting part rotated by 90 ° can be inserted into the supporting part in such a way that the plug sockets of a socket can be arranged one above the other or next to one another in the position of use of the overvoltage protection device.

The pockets on the support part can be arranged one behind the other, and preferably also at the same level, and their coupling edge parts run parallel to one another.

The supporting part is preferably profiled in an H-shape, the legs of which are formed on the inside as coupling edge parts and the coupling spark gap is arranged on the supporting part web.

These measures make it possible to design the carriers to extend beyond the pockets without handling devices located to the side of the surge protection device disrupt when the legs of the H-shaped support member are arranged vertically in the position of use of the surge protection device.

An advantageous, both the manufacture of the surge protection device and the assembly of the carrier in the support part favoring further development is that on the support part to the coupling edge parts rectified contact rails are arranged, each of which is connected to the coupling spark gap by means of an electrical line, and that on the supports Contact rails are arranged opposite one another on the latter in an electrically conductive supporting protective conductor sliding contacts.

For this purpose, a preferred embodiment is characterized in that the supports each consist of two essentially identical shells made of insulating material, the mouths of which are directed towards one another and are arranged at a distance from one another, in which the elements of the respective circuit are arranged in the space delimited by the shells that, furthermore, an annular protective conductor contact closing the gap between the shells is provided on the inside of the shell walls and that the contact rails and / or the The coupling edge parts of the support part engage in the gap between the shells and at least the contact rails of the support part bear in an electrically conductive manner on the ring-shaped protective conductor contacts of the carrier, wherein preferably the support part also consists of insulating material, the coupling spark gap and its lines are arranged within the support part and that with the Coupling cooperating coupling edge parts are integrally formed on the support part and in particular also the one contact rail is arranged on one leg and the other contact rail on the other leg of the H-shaped support part.

These measures protect, among other things, all current-carrying parts of the overvoltage protection device against contact, and the circuits and their connecting contacts are spaced as far apart as possible to make voltage flashovers more difficult with a relatively small device size.

Under certain circumstances, it can also be advantageous to secure the carrier to the support part by means of snap-in connections.

• Fig. 1 ein Überspannungsschutzgerät in der Vorderansicht;
• Figs. 2 und 3 Varianten derselben, ebenfalls in der Vorderansicht;
• Fig. 4 eine Einzelheit eines Überspannungs­schutzgerätes im Längsschnitt;
• Fig. 5 desgleichen im Querschnitt, entsprechend der Linie V-V der Fig. 4 gesehen;
• Fig. 6 eine andere Einzelheit des Überspannungs­schutzgerätes im Längsschnitt;
• Fig. 7 desgleichen im Querschnitt;
• Fig. 8 eine weitere Einzelheit im Längsschnitt;
• Fig. 9 desgleichen im Querschnitt.

Exemplary embodiments of the invention are shown in the drawings and are explained in more detail below:
It shows:

• Figure 1 is a surge protector in the front view.
• Figs. 2 and 3 variants of the same, also in the front view;
• 4 shows a detail of a surge protection device in longitudinal section;
• Fig. 5 also seen in cross section, along the line VV of Fig. 4;
• 6 shows another detail of the surge protection device in longitudinal section;
• 7 likewise in cross section;
• 8 shows a further detail in longitudinal section;
• Fig. 9 likewise in cross section.

All embodiments have an H-shaped support part 1 with two oppositely directed opening pockets 2 for receiving a carrier 3 or 4 together.
The carrier 3 is equipped with a power plug 5 striving from the rear side thereof and a power outlet 6 opening at the front, the phase and neutral conductors of the protected power supply circuit being connected to a protective conductor via a varistor (not shown).

The carrier 4 has the elements of a second, protected circuit, for example an antenna circuit (FIGS. 1, 2 and 8 and 9) or a computer circuit (FIG. 3). Furthermore, the protective conductor of the mains circuit is connected to the protective conductor of the second circuit via a coupling point path 8 arranged in the web 7 of the supporting part 1.

The pockets 2 each have a square, clear cross section and the bases of the supports 3 and 4 are also square according to FIGS. 1, 2 and 6 to 9.

In the inner sides of the supporting part legs 9 and on the longitudinal sides of the supports 3 and 4, the supporting part legs are longitudinally extending in the longitudinal direction in the manner of tongue and groove acting edge parts are provided so that the carrier 3 and 4 can be inserted into the pockets 2 from the pocket opening. These plug connections are secured at least by friction. Due to the above-described square design of the carriers 3 and 4, these can optionally be inserted into the pockets in such a way that the plug sockets 10 of the mains and / or the second circuit run transversely to the longitudinal extent of the supporting part (FIG. 1) or parallel to the latter (FIG. 2) are arranged.

According to FIG. 3, in the lower pocket 2 of the support part 1, which is the same as the support part shown in FIGS. 1 and 2, a support 4ʹ is detachably inserted, which contains the elements of a computer circuit.
Here, the carrier 4ʹ protrudes beyond the opening of the lower pocket 2 of the support part 1 shown in the position of use, without disturbing any electrical devices arranged laterally and directly next to the surge protection device.
As can be seen from FIGS. 4 and 5, the supporting part 1 is assembled from two mutually identical H-shaped shells 11 and 12 made of insulating material and oriented towards one another with their mouths.

As a result, the hollow web 7 of the supporting part 1 supports the coupling spark gap 9, the electrical lines 13 of which are designed as strips and end in contact rails 14.
One contact rail 14 is arranged in one support part leg 9, while the other contact rail 14 is inserted in the other support part leg 9. The contact rails 14 each have a flange 15 running along the support part legs 9 and projecting into a pocket 2. On the inner sides of the support part legs 9, molded edge parts 16 are provided along this side and project inwards into the pocket 2, which together or with a Form flange 15 straight guide rails.

The carriers 3 and 4 each consist of two mutually identical shells 17 and 18 made of insulating material, the mouths of which are directed towards one another and are held opposite one another at a distance.
The elements of the respective circuit are inserted into the space delimited by the latter. Furthermore, in the shells 17 and 18 there is in each case an annular gap 19 which lies against the inner sides of the shell walls and the circumferential gap 19 between the shells 17 and 18 closing protective conductor contact 20 is inserted, which is connected to the protective conductor 21 of the respective circuit.

The shells 11 and the shells 17 and 18 can be detachably connected to one another by means of, in particular, molded-on locking connections.

The plug connections between the carriers 3 and 4 and the supporting part 1 can also be secured by means of detachable snap connections in particular.

Under certain circumstances, it may also be advantageous to join both the aforementioned shells and the rotors 3 and 4 in the support part 1 in a non-detachable manner, for example by glue, rivets or screws.

Claims (14)

1. Overvoltage protection device with a protected mains connection, the phase and the neutral conductor of the mains connection circuit being electrically connected to the protective conductor via an overvoltage protection element, for example a varistor, and with a connection of a second circuit, for example for radio, protected by overvoltage protection elements, for example varistors. Television and video devices, computers and the like, the protective conductor of the second circuit being connected to the protective conductor of the power supply circuit, for example via a coupling spark gap, characterized in that the power supply circuit and the second power circuit each have their own carrier (3 and 4 ) comprising assembly unit and are designed to be attachable to a common support part (1) which has the common coupling spark gap (8) and its electrical lines (13) to the connection contacts of the power supply circuit or the second circuit. 2. Surge protection device according to claim 1, characterized in that in the common support part (1) two spaced apart, each for receiving a support (3 or 4) formed pockets (2) are provided and the electrical lines (13) of the common Coupling spark gap (8) ends in contacts (14) arranged on the supporting part pockets (2) in such a way that, when the carriers (3 or 4) are inserted in the correct position in the supporting part pockets (2), their protective conductor connection contacts (20) connect the contacts (14) of the coupling spark gap (8) face each other and touch the latter in an electrically conductive manner. 3. Surge protection device according to claim 2, characterized in that the carrier (3 and 4) and the support part pockets (2) arranged on at least two opposite sides along this, arranged in the manner of tongue and groove, together complementary to plug-in couplings and in particular have longitudinally adjustable edge parts (16). 4. Surge protection device according to claim 3, characterized in that the edge parts of the supports (3 or 4) and the support part pockets (2), which complement one another to form plug-in couplings, are each arranged parallel to one another. 5. Surge protection device according to one of claims 2 to 4, characterized in that the carriers (3 or 4) are each square and have all the longitudinal sides of the coupling edge parts. 6. Surge protection device according to claim 3, 4 or 5, characterized in that the pockets (2) one behind the other and the coupling edge parts of the two pockets (2) are arranged parallel to one another. 7. Surge protection device according to claim 3, 4, 5 or 6, characterized in that the pockets (2) on the support part (1) are arranged at the same level as one another. 8. Surge protection device according to claim 3, 4, 5 or 7, characterized by an essentially H-shaped support part (1), the legs (9) of which are formed on the inside as coupling edge parts and that the coupling spark gap (8) on the web (7) of the H-shaped support part (1) is arranged. 9. Surge protection device according to one of claims 3 to 8, characterized in that on the support part (1) to the coupling edge parts rectified contact rails (14) are arranged, which are each connected by means of an electrical line (13) to the coupling spark gap (8) and that on the carriers (3 or 4) the contact rails (14) are arranged opposite to the latter in an electrically conductive supporting protective conductor sliding contacts (20). 10. Surge protection device according to one of claims 1 to 9, characterized in that the carrier (3 or 4) each consist of two substantially identical shells (17, 18) made of insulating material, the Mouths are directed towards one another and are arranged at a distance from one another, in the space delimited by the shells (17, 18), the elements of the respective circuit are arranged, and furthermore an annular gap (19) between the shells (17 , 18) closing protective conductor contact (20) is provided and that the contact rails (14) and / or the coupling edge parts (16) of the supporting part (1) engage in the gap (19) between the shells (17, 18) and at least the contact rails ( 14) of the support part (1) on the ring-shaped protective conductor contacts (20) of the carrier (3, 4) bear in an electrically conductive manner. 11. Surge protection device according to one of claims 1 to 10, characterized in that the supporting part (1) consists of insulating material, the coupling spark gap (8) and its lines (13) are arranged within the supporting part (1) and that with the carriers ( 3,4) cooperating coupling edge parts (16) are integrally formed on the supporting part (1). 12. Overvoltage protection device according to one of claims 9 to 11, characterized in that the one contact rail (14) on one leg (9) and the other contact rail (14) on the other leg (9) of the H-shaped support member (1) are. 13. Surge protection device according to one of claims 1 to 12, characterized in that the carriers (3, 4) in the pockets (2) of the supporting part (1) are secured by means of automatically effective snap-in connections. 14. Surge protection device according to one of claims 1 to 12, characterized in that the carrier (3, 4) in the pockets (2) of the supporting part (1) are inserted non-detachably.

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