DE102010008537A1 - Overvoltage protection arrangement for use in e.g. low-voltage system, has terminal elements fixed relative to two counter-contact elements, where fixation of terminal elements are released during heating of clamping element - Google Patents

Abstract

The arrangement has a temperature-sensitive band shaped clamping element (24) i.e. plastic band, partially shifting two terminal elements (12, 14) of an overvoltage protection component (10) i.e. varistor, at a contacting state. The terminal elements are held relative to two counter-contact elements (18, 20) by the clamping element in a fixed manner. The fixation of the terminal elements are released during heating of the clamping element above a critical temperature of the clamping element, so that contacting between the terminal elements and the counter-contact elements is interrupted.

Description

The invention relates to an overvoltage protection arrangement with an overvoltage protection component, in particular a varistor.

According to the prior art, simple disconnecting devices are used for monitoring overvoltage protection components, such as varistors, which have, for example, a mechanically biased switching tongue which exerts a switching movement by thermally breaking a soldered connection and thus interrupts the current path. Such thermal separation devices, which may also be combined with a desired break point for high currents, are for example in the DE 42 41 311 A1 or the DE 38 05 889 A1 described.

As an alternative to disconnection, overvoltage protection components can also be short-circuited in the event of overload. Both the separation and the short-circuiting serve to protect the overvoltage protection device from overloading. For low voltage applications, the separation is dominant. The advantage of this known protection method is that in the most common cases of overload, the separation device separates the voltage-dependent resistor from the network, the mains supply remains.

A thermally sensitive separation point of a conventional separation device is preferably in the form of a Lotstelle which two metal parts, which have a high heat conduction and a high heat capacity, since these metal parts forcibly have to control all current loads in the working area of the arrester, interconnected. The solder joint itself must meet the requirements of the pulse current carrying capacity. In addition, the solder joint is permanently exposed to the mechanical stress by a spring bias acting on a movable part of the feeder. An optimization of the actual function, namely the separation of the overvoltage protection device during its heating is not possible according to the prior art. Thermal separation devices of the known type have a considerable inertia, which is based in particular on the thermal conductivity of the materials used, the necessary connection cross-sections and the resulting large heat capacity.

In case of overload, ie in particular in the heating of the overvoltage protection device as a result of long-lasting surges, the Lotstelle the separation device is heated only gradually due to the described conditions. This means that even after reaching a critical temperature for the overvoltage protection device, a considerable time passes until the soldering point reaches the necessary melting temperature. This often results in an overload of the overvoltage protection device before a thermal separation can take place. Overloading of the overvoltage protection device can also lead to undefined conditions with regard to the resulting fault current and thus to a large number of different further errors and damages. In addition, it is only possible when using Lotstellen, each to realize a single-pole separation per Lotstelle.

The object of the invention is therefore to provide an overvoltage protection arrangement, which is characterized by a safer separation with the shortest possible response time in case of overload.

The object is achieved by the features of claim 1. Advantageous embodiments of the invention are specified in the dependent claims.

The overvoltage protection arrangement according to the invention has a first overvoltage protection component having a first connection element and a second connection element, in particular a varistor, wherein in a contacting state the first connection element with a first countercontact element and the second connection element with a second countercontact element are arranged in contact, wherein a temperature-sensitive band-shaped Clamping element is provided which at least partially surrounds the first connection element and the second connection element in the contacting state, wherein by means of the band-shaped clamping element, the first connection element and the second connection element is held fixed relative to the first mating contact element and the second mating contact element, wherein the fixation at a heating the band-shaped clamping element above a critical temperature of the band-shaped clamping element is releasable, so that the contact between rule the connection elements and the mating contact elements is interruptible.

The overvoltage protection component is preferably designed in the form of a varistor. In the contacting state, the overvoltage protection component is connected via the first connection element and the second connection element to a first countercontact element and a second countercontact element, so that in this case a current can flow between the elements. As part of the separating device, a temperature-sensitive band-shaped clamping element is provided, which is arranged in the contacting state such that it at least partially surrounds the first connection element and the second connection element. It is also possible that the overvoltage protection component has more than two connection elements, which are at least partially spanned. The temperature-sensitive band-shaped tensioning element is preferably designed in the form of a plastic band. In the contacting state, the first connection element is held fixed relative to the first mating contact element and the second connection element is fixed relative to the second mating contact element by means of the band-shaped tension element, so that contacting between the mating contact elements and the connection elements can take place. If the band-shaped tensioning element is heated above a critical temperature of the band-shaped tensioning element, that is to say above a temperature at which the band-shaped tensioning element melts and can thereby tear, for example, the contacting between the connection elements and the countercontact elements is interrupted since the connection elements and the countercontact elements are no longer interrupted be kept fixed relative to each other. The circuit can be interrupted in a timely manner, whereby overheating of the overvoltage protection device can be prevented. The critical temperature is preferably reached by a component arranged on the band-shaped tensioning element, such as the overvoltage protection component or the connection elements of the overvoltage protection component, exceeding a temperature which is higher than the critical temperature of the tensioning element. Because the band-shaped tensioning element at least partially surrounds both the first connection element and the second connection element of the overvoltage protection component, critical heating of the band-shaped tensioning element takes place both when the first connection element and when the second connection element exceeds the critical temperature. This makes it possible to realize by means of the solution according to the invention an all-pole heat-triggering separation by means of only one component in the form of the band-shaped clamping element. This is particularly useful for overvoltage protection devices that are used in low-voltage networks, but also in MSR and telecommunications systems. The separation takes place within a very short time, since the band-shaped clamping element as soon as the critical temperature of the clamping element is reached, reacts to it and melts at this point or breaks and thereby the contact between the connection elements and the mating contact elements can be interrupted.

According to an advantageous embodiment of the invention, a prestressed spring element is provided, by means of which a solution of the fixing movement of the connecting elements relative to the mating contact elements or a movement of the mating contact elements relative to the connecting elements can be realized. The fixation is done as soon as the band-shaped clamping element is heated to a temperature above its critical temperature and then melts and / or ruptures. If the fixation is achieved by means of the band-shaped tensioning element, the connection elements to the counter-contact elements are no longer held in a defined, contacting position relative to one another, but are movable relative to one another, in particular displaceable. The movement relative to one another takes place by means of a preloaded spring element which is arranged between the overvoltage protection component or the connection elements of the overvoltage protection component and the mating contact elements, so that the spring element can exert a force on the overvoltage protection component, the connection elements of the overvoltage protection component and / or the mating contact elements Movement of the overvoltage protection device and thus the connection elements or also directly to cause the connection elements relative to the mating contact elements to separate the contact between the connection elements and the mating contact elements. This makes it possible in a quick and easy way with a very low response time to cause a separation of the contact in case of overload.

Furthermore, it is preferably provided that a first connection element for connecting the first connection element to the first countercontact element in the contacting state and a second connection element for connecting the second connection element to the second countercontact element are provided in the contacting state, wherein the first connection element and the second connection element a movable relative to the first mating contact element and relative to the second mating contact element member are arranged, wherein in the contacting state, the movable member is held fixed relative to the first connection element and relative to the second connection element by means of the band-shaped tensioning element in a first position the heating of the band-shaped clamping element above the critical temperature of the band-shaped clamping element, the band-shaped clamping element releases the movable component, so that for separating the contacting zwi a movement of the movable member together with the first connecting element and the second connecting element relative to the first mating contact element and the second one of the first connection element and the first mating contact element and between the second connection element and the second mating contact element Mating contact element is made possible from the first position to a second position.

The connecting elements may be formed, for example in the form of contact forks, which realize a contact in each case between a connection element and a mating contact element by partially surrounding them and thereby pressing against each other. The connecting elements are arranged on a movable component, wherein the movable member can be moved relative to the mating contact elements from a first position to a second position. In the first position, the movable component is preferably arranged together with the connecting elements such that a contacting between the connecting elements and the mating contact elements can take place. In the second position, the movable component is preferably arranged relative to the mating contact elements, that the connecting elements are lifted from the connection elements and the mating contact elements and no longer cause a contact between the connection elements and the mating contact elements, so that in this second position, the contact is interrupted and thereby no current between the connection elements and the mating contact elements can flow more. The movable component is held in the first position by means of the temperature-sensitive band-shaped clamping element, which at least partially surrounds the movable component and the first connection element and the second connection element, so that the movable component relative to the first connection element and relative to the second connection element in the first Position is fixed so that a contact between the mating contact elements and the connection elements can be made. If the band-shaped tensioning element is heated above a critical temperature of the band-shaped tensioning element, that is to say above a temperature at which the band-shaped tensioning element melts and can thereby tear, for example, the movable component is released by the tensioning element, so that the movable component is displaced relative to the countercontact elements can move from the first position to a second position and thereby the contact between the connecting elements and the mating contact elements is interrupted. In this case, therefore, the interruption of the contact in case of overload occurs by a movement of a movable member arranged thereon connecting elements relative to the mating contact elements, wherein preferably the mating contact elements and the connecting elements exert no movement relative to each other.

According to a preferred embodiment of the invention, the first connection element and the second connection element in the region of the tension of the band-shaped clamping element each have a knife-like contact surface, wherein in the contacting state, the band-shaped clamping element by means of a spacer of the knife-like contact surfaces of the first connection element and the second connection element spaced apart. The knife-like design of a contact surface of the connection elements is preferably carried out in that the first connection element and the second connection element in each case a region where the band-shaped clamping element spans the connection elements have a knife-like edge. The formation preferably in each case of a knife-like contact surface on the two connecting elements allows a particularly rapid separation of the band-shaped clamping element in the event of an overload hazard in order to interrupt a current flow between the connecting elements and the mating contact elements as quickly as possible. So that the knife-like contact surfaces do not already cause a separation of the band-shaped clamping element in a non-critical state, that is, in which the connection elements have a temperature lower than the critical temperature of the clamping element, the band-shaped clamping element is in the contacting state by means of a spacer of the knife-like contact surfaces spaced apart the first connection element and the second connection element. The spacer element is designed such that it causes a spacing of the knife-like contact surfaces of the connecting elements to the band-shaped clamping element, as long as the contacting state is given and the connecting elements have a temperature lower than the critical temperature of the clamping element. In particular, the combination of the knife-like contact surfaces with the spacer causes a high functionality of the overvoltage protection arrangement according to the invention.

The spacer element is preferably formed of a temperature-sensitive material. The spacer element is preferably made of a material, in particular a wax, which liquefies when crossing a critical temperature, the critical temperature is for example at 180 ° C. The reaching of the critical temperature of the spacer element takes place in that the first connection element and / or the second connection element have a temperature higher than the critical temperature of the spacer element. Once the critical temperature of the spacer element is exceeded, the spacer melts and / or liquefies, so that the distance between the blade-like contact surfaces of the spacer elements and the band-shaped clamping element is reduced so far until the band-shaped clamping element with the knife-like contact surfaces of the connecting elements comes into contact, so that the band-shaped clamping element can be severed by the knife-like contact surfaces of the connecting elements, whereby the contact between the connecting elements and the mating contact elements can be interrupted. Due to the additional provision of knife-like contact surfaces, the clamping element is severed both by melting and by cutting through which a particularly safe and rapid separation of the contact in case of overload is possible.

The spacer element is preferably arranged between the first connection element and the second connection element. Because the spacer element is arranged between the first connection element and the second connection element, the spacer element can react particularly sensitively to an increase in the temperature of the connection elements, so that an increase in the temperature of the connection elements above the critical temperature can be perceived very quickly by the spacer element and the spacer can react to it by liquefying the spacer element in the shortest possible time, so that a particularly fast and secure separation of the contacting can be effected.

More preferably, it is provided that the spacer element is arranged in a holding element. By means of the holding element, the spacer element, as long as the critical temperature of the spacer element is not reached, be kept in its original form. In order to achieve a particularly good reception and storage of the spacer element in the holding element, the holding element is preferably formed trough-shaped. The retaining element is preferably formed from a plastic. The holding element is preferably fixed in openings provided on the first connection element and on the second connection element, so that a secure fixing of the holding element or of the spacer element between the first connection element and the second connection element can take place.

According to a further advantageous embodiment of the invention, a second overvoltage protection component is arranged along the peripheral surface of the band-shaped clamping element. Because one or more second overvoltage protection components are arranged along the circumferential surface of the band-shaped clamping element, separation of the contacting between the connection elements and the mating contact elements can also take place as soon as one of these overvoltage protection components exceeds the critical temperature of the band-shaped clamping element with its temperature. The overvoltage protection components are preferably arranged with their outer peripheral surface adjacent to the band-shaped clamping element. This makes it possible to provide overvoltage protection without additional solder joints or other connections without having to provide additional disconnecting devices. As a result, a particularly effective and cost-effective overvoltage protection arrangement can be realized, which can be effective for a plurality of overvoltage protection components simultaneously.

Preferably, it is provided that the second overvoltage protection component is a gas-filled surge arrester (ÜsAg). As a result, a gas-filled surge arrester can be integrated directly into the disconnecting device of the overvoltage protection arrangement. The gas-filled surge arrester preferably lies with its outer peripheral surface at least partially against the band-shaped tensioning element. This makes it possible to monitor a gas-filled surge arrester, which also triggers an all-pole separation of the contact between the connection elements and the mating contact elements in the event of a defect.

The movement of the movable member from the first position to the second position is preferably realized by means of a prestressed spring element. The spring element allows a fast, timely reaction of the movable component to overheating of the arranged along the band-shaped clamping element surge protection devices as soon as the movable member is released in the event of an overload hazard of the band-shaped clamping element. As a result, the shortest possible response time of the overvoltage protection arrangement can be achieved. The prestressed spring element is preferably arranged in the region of the mating contact elements. As soon as the movable component is released from the band-shaped clamping element, the prestressed spring element is triggered and moves the movable component from the first position to the second position for interrupting the contacting between the connecting elements and the counter-contact elements. The movable member is preferably formed in the form of a spring carriage or a folding leg cover.

The first overvoltage protection component is preferably formed from a plurality of disk elements, wherein the first connection element and the second connection element protrude from the disk elements. Due to the fact that the connection elements protrude from the disk elements of the overvoltage protection component, in a simple manner a direct connection of the temperature-sensitive band-shaped clamping element with the two connection elements.

Furthermore, it is preferably provided that the first connection element and the second connection element are arranged parallel to one another. Due to the parallel arrangement of the connection elements to each other, the spacer element can be positioned in a simple manner between the connection elements and the band-shaped clamping element can also be guided around the connection elements such that the band-shaped clamping element so partially spans the connection elements that the first connection element with the clamping element has an equally large contact surface as the second connection element with the clamping element. As a result, the clamping element can react to an overheating of the first connection element or of the second connection element with equal speed and reliability.

The invention will be explained in more detail with reference to the accompanying drawings with reference to preferred embodiments.

Show it:

1 a schematic representation of an overvoltage protection arrangement according to the invention according to a first embodiment in a contacting state;

2 a schematic representation of in 1 shown overvoltage protection arrangement according to the invention in a non-contacting state;

3 a schematic representation of an overvoltage protection arrangement according to the invention according to a second embodiment in a contacting state;

4 a schematic representation of an overvoltage protection device according to a third embodiment in a contacting state;

5 a schematic representation of in 4 shown embodiment with a detailed representation of the connection elements, the mating contact elements and the connecting elements in a contacting state;

6 a schematic representation of an arrangement of the spacer element according to the invention between the first connection element and the second connection element; and

7 a schematic representation of in 4 shown embodiment in a non-contacting state in a partially sectioned view of the surge protective device according to the invention.

1 shows a schematic representation of an inventive overvoltage protection arrangement according to a first embodiment with a first overvoltage protection device 10 in the form of a varistor, which is a first connection element 12 and a second connection element 14 wherein the first overvoltage protection device 10 from several disc elements 16 is formed, wherein the first connection element 12 and the second connection element 14 from the disk elements 16 protrude. The first connection element 12 is parallel to the second connection element 14 arranged.

In 1 the overvoltage protection arrangement is shown in a contacting state, wherein the first connection element 12 with a first mating contact element 18 and the second connection element 14 with a second mating contact element 20 contacted. The voltage-dependent resistance 10 and thus the first connection element 12 and the second connection element 14 are over a prestressed spring element 22 positioned in the contacting state, wherein a fixation of the overvoltage protection device 10 in the contacting state by means of a temperature-sensitive band-shaped clamping element 24 is realized. The temperature-sensitive band-shaped tensioning element 24 at least partially surrounds the first connection element 12 and the second connection element 14 and an extension arm 40 of the first mating contact element 18 and an extension arm 42 of the second counter-contact element 20 ,

Will the critical temperature of the band-shaped clamping element 24 exceeded, for example, if one or both of the connection elements 12 . 14 reaches a temperature which is higher than the critical temperature of the clamping element 24 , melts the band-shaped clamping element 24 on and ruptures, allowing the overvoltage protection device 10 is released and, as in 2 shown, relative to the mating contact elements 18 . 20 can move away, leaving the connection elements 12 . 14 from the mating contact elements 18 . 20 be moved out, whereby the contact between the connecting elements 12 . 14 and the mating contact elements 18 . 20 is interrupted. 2 shows such a non-contacting state in which the connecting elements 12 . 14 no longer in a contacting position with the mating contact elements 18 . 20 are arranged.

In addition to the band-shaped clamping element 24 is between the first connection element 12 and the second connection element 14 one spacer 26 , which is also formed of a temperature-sensitive material, provided, wherein, as in 1 shown the spacer element 26 at least partially of the band-shaped clamping element 24 is spanned. In the contacting state, the band-shaped tensioning element 24 from a knife-like contact surface 28 of the first connection element 12 and one, in 1 unrecognizable, knife-like contact surface 44 of the second connection element 14 by means of the spacer element 26 spaced apart. Indicates the spacer element 26 or the temperature-sensitive material of the spacer element 26 a temperature which is above a critical temperature of the spacer element 26 is by changing the temperature of the spacer element 26 by heating the connection elements 12 . 14 increases, the spacer melts 26 at least partially, so that the band-shaped clamping element 24 with the knife-like contact surfaces 28 . 44 the connection elements 12 . 14 comes into contact and thereby of the knife-like contact surfaces 28 . 44 can be separated, whereby the fastest possible interruption of the contact between the connection elements 12 . 14 and the mating contact elements 18 . 20 can be done by the voltage-dependent resistor 10 is released and by the spring element 22 relative to the mating contact elements 18 . 20 moved, in particular, can be moved away. The knife-like contact surfaces 28 . 44 the connection elements 12 . 14 are preferably formed in the area where the band-shaped clamping element 24 the connection elements 12 . 14 spans.

3 shows a second embodiment of an overvoltage protection arrangement according to the invention, in which case the spring element 22 not in the form of a leaf spring, as in 1 shown, is formed, but in the form of a coil spring. The principle of overvoltage protection arrangement corresponds to the principle of overvoltage protection arrangement as in 1 and 2 is shown, in which case only the spring element 22 not on the disc elements 16 the overvoltage protection device 10 acts as it does in 1 and 2 is shown, but the spring element 22 directly on the connection elements 12 . 14 the overvoltage protection device 10 acts.

4 shows a third embodiment of an overvoltage protection arrangement according to the invention in a side view, wherein in 4 the overvoltage protection device is also shown in a contacting state. This spans the band-shaped clamping element 24 not just the connection elements 12 . 14 partly, but also a movable component 30 , wherein the movable member 30 by means of a, as in 7 shown, spring element 46 relative to the mating contact elements 18 . 20 , in 4 not recognizable, is movable.

In the contacting state shown here, the first connection element 12 with the first mating contact element 18 by means of a connecting element 32 , as in 7 shown, and the second connection element 14 with the second counter-contact element 20 by means of a second connecting element 34 contacting connected. The connecting elements 32 . 34 are designed in the form of contact forks. The first connection element 32 and the second connecting element 34 are at the relative to the first mating contact element 18 and relative to the second mating contact element 20 movable component 30 arranged. The temperature-sensitive band-shaped tensioning element 24 partially surrounds the movable component 30 and the first connection element 12 and the second connection element 14 ,

In the in 4 shown contacting state is the movable member 30 relative to the first connection element 12 and the second connection element 14 fixed in a first position. Upon heating of the band-shaped clamping element 24 over a critical temperature of the band-shaped tensioning element 24 becomes the moving component 30 from the tensioning element 24 released, allowing a separation of the contact between the first connection element 12 and the first mating contact element 18 and the second connection element 14 and the second mating contact element 20 by a movement of the movable component 30 together with the first connecting element 32 and the second connection element 34 relative to the first mating contact element 18 and the second mating contact element 20 from the first position to a second position, as in 7 is shown is possible. In this case, there is thus no relative movement of the overvoltage protection component 10 relative to the mating contact elements 18 . 20 upon reaching a critical temperature of the band-shaped clamping element 24 in the case of an overload hazard, which, for example, by a strong increase in the temperature of the overvoltage protection device 10 or the connection elements 10 . 12 the overvoltage protection device 10 is caused, but there is a relative movement of an additional movable member 30 together with the connecting elements arranged thereon 32 . 34 relative to the mating contact elements 18 . 20 or to the connection elements 12 . 14 to the contact between the connection elements 12 . 14 and the mating contact elements 18 . 20 to interrupt.

In addition to the band-shaped tensioning element 24 is between the mutually parallel connection elements 12 . 14 one spacer 26 arranged in the form of a temperature-sensitive material, which is the connecting elements 12 . 14 spanning band-shaped clamping element 24 in the contacting state spaced from the knife-like abutment surfaces 28 . 44 the connection elements 12 . 14 holds. If the connection elements overheat 12 . 14 melts the, preferably formed of a waxy material, spacer 26 on, which increases the distance between the band-shaped clamping element 24 and the knife-like contact surfaces 28 . 44 reduced until the band-shaped clamping element 24 in contact with the knife-like contact surfaces 28 . 44 comes and is separated by these, causing the moving component 30 for a movement from the first position, as in 4 shown in the second position, as in 7 shown is released.

In the embodiment shown here, in addition, along the outer peripheral surface of the band-shaped clamping element 24 a second overvoltage protection device 36 arranged in the form of a gas-filled surge arrester, wherein the second overvoltage protection device 36 with its outer peripheral surface directly to the clamping element 24 adjacent, so that with an increase in the temperature of the surge protection device 36 above the critical temperature of the band-shaped clamping element 24 in the contact region of the second overvoltage protection device 36 on the band-shaped clamping element 24 a melting of the clamping element 24 to the breaking of the clamping element 24 takes place and thereby also the contact is interrupted by the movable member 30 and thus the fasteners 32 . 34 relative to the mating contact elements 18 . 20 be moved away. The moving component 30 has a slot-shaped recess for this purpose 38 which is just so big that the moving part 30 on the second overvoltage protection device 36 in a relative movement of the movable member 30 can be moved over, as in 7 is shown.

5 shows a detailed section of the arrangement of the connection elements 12 . 14 on the mating contact elements 18 . 20 in the contacting state, wherein the connection elements 12 . 14 by means of the connecting elements 32 . 34 in the form of contact forks on the surfaces of the mating contact elements 18 . 20 be pressed to make a contact. The connecting elements 32 . 34 thereby partially surround the connection elements 12 . 14 and the mating contact elements 18 . 20 ,

6 shows the arrangement of a spacer 26 between the first connection element 12 and the second connection element 14 , wherein the spacer element 26 in at the connection elements 12 . 14 provided openings 48 is fixed, which can prevent the spacer 26 within the connection elements 12 . 14 slip or from the connection elements 12 . 14 can slip. The spacer element 26 but can also be arranged in a retaining element, not shown here, in particular a trough-shaped retaining element, in which case the retaining element preferably in the openings 48 is arranged fixed.

7 shows the in 4 shown embodiment in a non-contacting state, in which case already a separation of the contact between the connecting elements 12 . 14 and the mating contact elements 18 . 20 has been triggered. It can be clearly seen that the moving component 30 together with the connecting elements 32 . 34 from the connection elements 12 . 14 and the mating contact elements 18 . 20 is arranged in a raised position, that is arranged in the second position, wherein no more contacting by means of the connecting elements 32 . 34 he follows. In 7 is the band-shaped clamping element 24 and the spacer 26 already no longer available, since they due to an impermissible heating of the first overvoltage protection device 10 or the connection elements 12 . 14 of the first overvoltage protection device 10 and / or the second overvoltage protection device 36 melted or torn off. In 7 is also clearly seen that in this position the second overvoltage protection device 36 in the slot-shaped recess 38 of the moving component 30 is arranged.

LIST OF REFERENCE NUMBERS

10

First overvoltage protection device

12

First connection element

14

Second connection element

16

disk element

18

First counter contact element

20

Second counter-contact element

22

spring element

24

clamping element

26

spacer

28

Knife-like contact surface

30

Moving component

32

First connection element

34

Second connecting element

36

Second overvoltage protection component

38

recess

40

First extension arm

42

Second extension arm

44

Knife-like contact surface

46

spring element

48

opening

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 4241311 A1 [0002]
• DE 3805889 A1 [0002]

Claims (12)

Overvoltage protection arrangement, with a first a first connection element ( 12 ) and a second connecting element ( 14 ) surge protection device ( 10 ), in particular a varistor, wherein in a contacting state, the first connection element ( 12 ) with a first counter-contact element ( 18 ) and the second connection element ( 14 ) with a second counter-contact element ( 20 ) are arranged in contact, wherein a temperature-sensitive band-shaped clamping element ( 24 ) is provided, which the first connection element ( 12 ) and the second connection element ( 14 ) at least partially spanned in the contacting state, wherein by means of the band-shaped clamping element ( 24 ) the first connection element ( 12 ) and the second connection element ( 14 ) relative to the first mating contact element ( 18 ) and the second mating contact element ( 20 ) are held fixed, wherein the fixation at a heating of the band-shaped clamping element ( 24 ) above a critical temperature of the band-shaped tensioning element ( 24 ) is detachable, so that the contact between the connecting elements ( 12 . 14 ) and the counter-contact elements ( 18 . 20 ) is interruptible. Overvoltage protection arrangement according to claim 1, characterized in that a prestressed spring element ( 22 ) is provided, by means of which a solution of the fixing movement of the connecting elements ( 12 . 14 ) relative to the mating contact elements ( 18 . 20 ) or a movement of the mating contact elements ( 18 . 20 ) relative to the connection elements ( 12 . 14 ) is feasible. Overvoltage protection arrangement according to claim 1, characterized in that a first connecting element ( 32 ) for connecting the first connection element ( 12 ) with the first mating contact element ( 18 ) in the contacting state and a second connecting element ( 34 ) for connecting the second connection element ( 14 ) with the second counter-contact element ( 20 ) are provided in the contacting state, wherein the first connecting element ( 32 ) and the second connecting element ( 34 ) at a relative to the first mating contact element ( 18 ) and relative to the second mating contact element ( 20 ) movable component ( 30 ) are arranged, wherein in the contacting state, the movable member ( 30 ) relative to the first connection element ( 12 ) and relative to the second connection element ( 14 ) by means of the band-shaped tensioning element ( 24 ) is held fixed in a first position, wherein during the heating of the band-shaped clamping element ( 24 ) above the critical temperature of the band-shaped tensioning element ( 24 ) the band-shaped tensioning element ( 24 ) the movable component ( 30 ), so that for the separation of the contact between the first connection element ( 12 ) and the first mating contact element ( 18 ) and between the second connection element ( 14 ) and the second mating contact element ( 20 ) a movement of the movable component ( 30 ) together with the first connecting element ( 32 ) and the second connecting element ( 34 ) relative to the first mating contact element ( 18 ) and relative to the second mating contact element ( 20 ) is allowed from the first position to a second position. Overvoltage protection arrangement according to one of claims 1 to 3, characterized in that the first connection element ( 12 ) and the second connection element ( 14 ) in the region of the tension of the band-shaped tensioning element ( 24 ) each have a knife-like contact surface ( 28 . 44 ), wherein in the contacting state, the band-shaped clamping element ( 24 ) by means of a spacer element ( 26 ) of the knife-like contact surfaces ( 28 . 44 ) of the first connection element ( 12 ) and the second connection element ( 14 ) is arranged at a distance. Overvoltage protection arrangement according to claim 4, characterized in that the spacer element ( 26 ) is formed of a temperature-sensitive material. Overvoltage protection arrangement according to claim 4 or 5, characterized in that the spacer element ( 26 ) between the first connection element ( 12 ) and the second connection element ( 14 ) is arranged. Overvoltage protection arrangement according to one of claims 4 to 6, characterized in that the spacer element ( 26 ) is arranged in a holding element. Overvoltage protection arrangement according to one of claims 1 to 7, characterized in that along the peripheral surface of the band-shaped clamping element ( 24 ) a second overvoltage protection device ( 36 ) is arranged. Overvoltage protection arrangement according to claim 8, characterized in that the second overvoltage protection component ( 36 ) is a gas-filled surge arrester. Overvoltage protection arrangement according to one of Claims 3 to 9, characterized in that the movement of the movable component ( 30 ) from the first position to the second position by means of a prestressed spring element ( 46 ) is realized. Overvoltage protection arrangement according to one of Claims 1 to 10, characterized that the first overvoltage protection component ( 10 ) of several disc elements ( 16 ), wherein the first connection element ( 12 ) and the second connection element ( 14 ) from the disk elements ( 16 protrude). Overvoltage protection arrangement according to one of Claims 1 to 11, characterized in that the first connection element ( 12 ) and the second connection element ( 14 ) are arranged parallel to each other.

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