DE202009013505U1 - Snubber - Google Patents

Abstract

Overvoltage protection element with a housing (2), with at least one overvoltage limiting component (3) arranged in the housing (2), in particular a varistor or a gas - filled surge arrester and with two connection elements (4, 5) for electrical connection of the overvoltage protection element (1) to the to be protected current or signal path, wherein in the normal state of the overvoltage protection element (1), the connection elements (4, 5) in each case with a pole of the overvoltage limiting component (3) are in electrically conductive contact, characterized in that when thermal overload of the overvoltage limiting component (3 ) the position of the overvoltage limiting component (3) relative to the position of the connection elements (4, 5) is variable so that the two poles of the overvoltage limiting component (3) are no longer in electrically conductive contact with the connection elements (4, 5).

Description

The The invention relates to an overvoltage protection element with a Housing, with at least one arranged in the housing overvoltage limiting Component, in particular a varistor, with at least two connecting elements for electrical connection of the overvoltage protection element to be protected power or signal path, wherein in Normal state of the overvoltage protection element, the connection elements each with a pole of the overvoltage limiting component be in electrically conductive contact.

From the DE 42 41 311 C2 is an overvoltage protection element is known, which has a thermal separation device for monitoring the state of a varistor. In this overvoltage protection element, the first connection element is connected via a flexible conductor with a rigid separating element whose end remote from the flexible conductor is connected via a solder joint to a connection lug provided on the varistor. The other terminal element is connected via a flexible conductor fixed to the varistor or a terminal lug on the varistor. The separator is acted upon by a spring system with a force which causes the separator is moved away linearly in the separation of the solder joint from the terminal lug, so that the varistor is electrically disconnected under thermal overload. About the spring system at the same time a remote signaling contact is actuated when separating the solder joint, so that a remote monitoring of the state of the overvoltage protection element is possible.

Also from the DE 20 2004 006 227 U1 an overvoltage protection element is known, in which the monitoring of the state of a varistor according to the principle of a temperature switch, so that when overheating of the varistor a provided between the varistor and a separator solder joint is separated, resulting in electrical separation of the varistor. In addition, when separating the solder joint, a plastic element is pushed by the restoring force of a spring from a first position to a second position in which the formed as a resilient metal tongue separating element is thermally and elec trically separated from the varistor by the plastic element, so that a possibly between the metal tongue and the contact point of the varistor arcing arc is deleted. Since the plastic element has two color markings arranged next to one another, it also acts as an optical status indicator, as a result of which the state of the overvoltage protection element can be read directly on site.

From the DE 699 04 274 T2 An overvoltage protection element with a thermal cutoff mechanism is also known. In this overvoltage protection element, one end of a rigid spring-loaded slider in the normal state of the overvoltage protection element is soldered both to the first terminal element and to a terminal lug connected to the varistor. An inadmissible heating of the varistor also leads here to a heating of the solder joint, so that the slider is pulled due to the force acting on it a spring from the junction between the first terminal and the terminal lug, resulting in an electrical separation of the varistor.

The DE 695 03 743 T2 discloses an overvoltage protection element with two varistors, which has two separating means, which can individually separate the varistors at their end of life. The separating means each have a resilient separating tongue, wherein the first end of the separating tongue firmly connected to the first terminal and the second end of the separating tongue is attached in the normal state of the overvoltage protection element via a solder joint to a connecting tongue on the varistor. If there is an inadmissible heating of the varistor, this leads to a melting of the solder joint. Since the separation tongue is deflected in the soldered state (normal state of the overvoltage protection element) from its rest position and thus biased, the free end of the separation tongue springs when softening the solder joint of the connecting tongue of the varistor, whereby the varistor is electrically disconnected. In order to ensure the required insulation and tracking resistance and to erase an emerging when opening the separation point arc, it is necessary that the greatest possible distance between the second end of the separation tongue and the connection tongue of the overvoltage limiting component is achieved when pivoting the separation tongue.

The known overvoltage protection elements are generally designed as a "protective plug", which together with a device lower part form an overvoltage protection device. To install such a surge protective device, which is intended to protect, for example, the phase-leading conductors L1, L2, L3 and the neutral conductor N and possibly also the earth conductor PE, corresponding terminals for the individual conductors are provided in the known surge protection devices on the device base. For simple mechanical and electrical contacting of the device base with the respective overvoltage protection element, the connecting elements are designed as plug pins in the overvoltage protection element, which are arranged in the lower part of the device, connected to the terminals sockets, so that the overspan protection element is simply plugged onto the device base.

at Such overvoltage protection devices is the Installation and assembly by plugging in the overvoltage protection elements very simple and time-saving feasible. additionally such overvoltage protection devices still partially a changeover contact as a signal transmitter for remote notification of the state at least one overvoltage protection element and a visual status indication in the individual overvoltage protection elements on. The status display indicates whether the in the overvoltage protection element arranged overvoltage limiting component is still functional or not. As overvoltage limiting Component are used in particular varistors, wherein however, depending on the purpose of the overvoltage protection element also gas-filled surge arresters, spark gaps or diodes can be used.

The previously described in the known overvoltage protection elements used, thermal separation devices, which on the melting are based on a solder joint, have several tasks too fulfill. In the normal state of the overvoltage protection element, d. H. when not separated, must have a safe and good electrical connection between the first connection element and ensures the surge limiting device be. When exceeding a certain limit temperature the separation point must be a safe separation of overvoltage limiting Construction elements and a permanent insulation resistance and tracking resistance guarantee.

Of the present invention is the object of an input described overvoltage protection element available to provide, which is a safe separation of a defective overvoltage limiting Component and the highest possible insulation and tracking resistance also with the smallest possible size of the overvoltage protection element guaranteed.

These The task is with the overvoltage protection element described above solved by thermal overload of the overvoltage limiting component, the position of the overvoltage limiting Component relative to the position of the connecting elements so changeable is that the two poles of the overvoltage limiting Component with the connecting elements no longer in electrical to be in close contact. In contrast to the state of the art Technik known overvoltage protection elements with a thermally separating point, are in the overvoltage protection element according to the invention after separation, both poles of the overvoltage limiting Component separated from the terminal elements, d. H. both Poles of the overvoltage limiting device have no connection more to the connection elements. Through the training of two separation points instead of those realized in the prior art only one separation point will extinguish one occurring arc favored because the two separation points form a series circuit, so that through the series circuit the two separation points the total arc length and thus also increases the arc voltage.

in principle can be the - translational or rotational - position change the overvoltage limiting device relative to the Connection elements can be realized in that the both connection elements in case of thermal overload of the overvoltage limiting component moves away from this while the overvoltage limiting device is fixed in the housing. Preferably, however, is the overvoltage limiting Component movably arranged in the housing so that when crossing a certain limit temperature the overvoltage limiting Component of the - fixed in the housing - connecting elements is moved away. For this purpose, preferably at least one spring element such between the housing and the surge limiting Arranged component that the spring element overvoltage limiting Component in its thermal overload of the connecting elements moved away. As a spring element can both a compression spring as also a tension spring can be used. Of course can also simultaneously a compression spring and a tension spring be used.

to Position change of the overvoltage limiting Device under thermal overload, it is necessary that a corresponding force acts on the component, which moves the device away from the terminal elements. These Force can, as stated previously, of at least one Spring element to be applied. However, it is also possible to apply the power by other means. For example can be a material between the overvoltage limiting Component and the housing to be arranged that when heated expands, so that when thermal overload of the device this by the expanding material of the Moving connection elements is moved away.

Thus, in the overvoltage protection element according to the invention, the two poles of the overvoltage limiting component in the normal state of the overvoltage protection element against the force, in particular the spring force are in electrically conductive contact with the connecting elements, at least one thermally separating point is also formed in the overvoltage protection element according to the invention.

For this is according to a first alternative embodiment the invention in the normal state of the overvoltage protection element at least one pole of the overvoltage limiting component via a solder joint with at least one connecting element connected. The solder joint realized at the solder joint is designed so that it then separates, if the temperature of the overvoltage limiting device exceeds a certain limit temperature. In normal condition of the overvoltage protection element can according to a variant also the second pole of the overvoltage limiting component via a solder joint with the second connection element be connected. When heating the overvoltage limiting Component are then heated both solder joints, until the limit temperature is exceeded, both solder joints - one after the other or simultaneously - split. Due to the spring force of the Spring element is the surge limiting device then moved away from the connecting elements, so that the electrical contact between the two poles of the overvoltage limiting Component and the connection elements is interrupted.

Instead of the formation of two solder joints between the two poles the overvoltage limiting component and the two Connection elements can also only one pole over a Solder joint connected to a connection element be, in which case between the other pole and the other terminal element formed a shock current carrying plug connection is.

at an alternative embodiment of the overvoltage protection element according to the invention are in the normal state of the overvoltage protection element both Pole of overvoltage limiting component via in each case a plug connection with a connection element connected. So that in this embodiment in the normal state the overvoltage protection element, the two connectors not be separated by the spring force of the spring element, is between the overvoltage limiting device and the housing or arranged in the housing Fixing formed a thermally disconnecting compound, which also separates when the temperature of the overvoltage limiting Component exceeds a predetermined limit temperature. The thermally dissociating compound is preferably as Melting compound formed, wherein for the melt compound basically different materials can be used, as long as they fulfill the condition that they melt when the limit temperature is exceeded.

According to one advantageous embodiment of the overvoltage protection element according to the invention are the two poles of the overvoltage limiting device each electrically connected to a connecting strap. By training the connection tabs leaves Both a solder joint and a connector between a pole of the overvoltage limiting component and easily realize a connection element.

in the The first case is the solder joint between the terminal lug and a connection element provided. Is a plug connection realized, so the terminal strap as a pin be formed, in which case the connection element on the the terminal strap facing side as a socket is trained.

According to one further advantageous embodiment of the invention, both terminal lugs on one side of the overvoltage limiting device, arranged in particular on a narrow side. By the arrangement the two connecting straps on the same side of the overvoltage limiting Component, the device is very simple and therefore inexpensive produced. Used as overvoltage limiting component, for example a varistor is used, then the wrapping process of the Varistors with an insulating sheath through the arrangement the two connecting straps on one side significantly simplified. are the two connecting straps on a narrow side of the overvoltage limiting Arranged component, so can a total of a very narrow overvoltage protection element will be realized. In "usual" orientation of the overvoltage protection element, in which the connection elements to the underside of the overvoltage limiting device are arranged, are thus no side of the surge limiting Component projecting, the required width of the overvoltage protection element increasing connecting straps required.

In order to ensure a high insulation and creepage current resistance and to extinguish when opening the separation point, ie when separating the solder joint between a pole and a connecting element, resulting arc, the largest possible distance between the poles or the terminal straps of the overvoltage limiting component and the Connection elements can be achieved. For this purpose, however, it is not necessary in the overvoltage protection element according to the invention Lich, to increase its width, especially it must only be selected according to its height. In addition, an arc-quenching barrier can be arranged movably in the housing such that the barrier is displaceable or pivotable upon separation of the electrical contact between the two poles or the two terminal straps of the overvoltage-limiting component and the connection elements. Such arc extinguishing Barrie re, in particular a corresponding slide, is preferably connected to a spring, so that the slide is pushed in separating the electrical contact by the restoring force of the spring from a first position to a second position in which the slide between the overvoltage limiting Component and the connection elements is arranged.

The Overvoltage protection element according to the invention is advantageously designed as a "protective plug", so that it together with a corresponding device base forms an overvoltage protection device. advantageously, In this case, the device lower part has a telecommunications contact for remote indication of the state of the overvoltage protection element on. To operate a belonging to the telecommunications contact Switch is in the overvoltage protection element a trigger pin provided by an opening in the bottom of the housing protrudes. The release pin can be so with the surge limiting Be connected component that he in the separation of the electrical Contact between the two poles of the overvoltage limiting Component and the connection elements with the surge limiting Component is moved, causing the lower part of the device arranged remote signaling contact is actuated.

According to a further advantageous embodiment, the overvoltage protection element has a coding element which protrudes through an opening in the underside of the housing and cooperates with a corresponding counter-coding element in the device lower part. The formation of a coding element and a Gegenkodierelements is particularly advantageous if several overvoltage protection elements can be inserted side by side in a lower device part simultaneously. By forming the coding element or the Gegenkodierelements then incorrect insertion of an overvoltage protection element can be prevented to an incorrect position in the lower device part. With respect to further embodiments and details of a possible device lower part is on the DE 20 2004 006 227 U1 directed.

in the individual there are now a variety of ways the overvoltage protection element according to the invention to design and develop. This is referred to both the protection claim 1 subordinate protection claims than in the following description of preferred embodiments in conjunction with the drawing. In the drawing show

1 a perspective view of an embodiment of an overvoltage protection element,

2 the overvoltage protection element according to 1 , in normal condition, in section,

3 the overvoltage protection element according to 1 , with split solder joint, in section,

4 A second embodiment of an overvoltage protection element in the normal state, in sectional view,

5 a third embodiment of an overvoltage protection element in the normal state, in sectional view, and

6 a variant of the embodiment of an overvoltage protection element according to 5 , in section.

The 1 shows an overvoltage protection element 1 with a housing 2 , wherein in the housing 2 a surge limiting device is arranged. In the illustrated embodiments, the overvoltage limiting device 3 a varistor; Alternatively, for example, a gas-filled surge arrester as overvoltage limiting component 3 be used. The trained as a protective plug surge protection element 1 has two connecting elements designed as plug pins 4 . 5 on, which can be inserted into corresponding sockets of a device lower part, not shown here.

Like from the 2 . 4 . 5 . 6 and 7 is apparent, is the varistor 3 in the normal state of the overvoltage protection element 1 via two connecting straps 6 . 7 , each with a pole of the varistor 3 are connected, electrically conductive with the two connection elements 4 . 5 connected. At thermal overload of the varistor 3 on the other hand are the two connecting lugs 6 . 7 from the two connection elements 4 . 5 separated, causing the varistor 3 is electrically separated from the conductor connected to the bottom of the device. This is between the housing 2 and the varistor 3 a trained as a compression spring spring element 8th arranged, which is the varistor 3 at thermal overload from the in 2 shown first position in the in 3 dargstellte second position moves.

Alternatively to the spring element shown in the embodiments 8th can also be a material between the case 2 and the overvoltage limiting device 3 be arranged that expands when heated, so that when thermal overload of the device 3 this by the expanding material of the connection elements 4 . 5 is moved away.

So that in the normal state of the varistor 3 the connecting straps 6 . 7 despite the spring force of the spring element 8th in electrically conductive contact with the connection elements 4 . 5 are at the in 2 illustrated embodiment, the two connecting straps 6 . 7 each with a solder joint 9 . 10 with the connection elements 4 . 5 connected. An inadmissible heating of the varistor 3 leads to a softening of the solder joints 9 . 10 , so that when exceeding the limit temperature of both solder joints of the varistor 3 by the spring element 8th from the connection elements 4 . 5 is moved away, whereby the electrical connection of the varistor 3 is interrupted.

At the in 4 illustrated embodiment of the overvoltage protection element according to the invention 1 is only between a connection element 4 and a connecting strap 6 a solder joint 9 formed while between the second connection element 5 and the second connecting strap 7 a shock current carrying plug connection 11 is trained. This is the connection tab 7 facing end of the connecting element 5 as a socket 13 formed, in which the pin formed as a connector tab 7 in the normal state of the overvoltage protection element 1 is plugged in. Alternatively, this can also be the connection element 5 facing the end of the terminal strip 7 as a socket and the connecting element 5 be designed as a pin.

In the in the 5 and 6 illustrated third variant of the overvoltage protection element according to the invention 1 is between the two connecting straps 6 . 7 and both connection elements 4 . 5 one connector each 11 . 12 realized, where also the connecting lugs 6 . 7 facing ends of the two connecting elements 4 . 5 as tulip-shaped sockets 13 are formed.

Thus, in this embodiment in the in 5 and 6 illustrated normal state of the overvoltage protection element 1 the two connectors 11 . 12 not by the spring force of the spring element 8th to be separated is the varistor 3 by means of a fusion bond between the housing 2 and the varistor 3 is formed, fixed in its illustrated position. While in 5 the fusion bond through a sheet-like melting element 14 realized are in the variant according to 6 two pin-shaped fuses 14 between the case 2 and the varistor 3 arranged. The material of the fusible elements 14 is chosen so that it melts when the varistor 3 exceeds a predetermined limit temperature, so that then the connectors 11 . 12 by the spring element 8th separated and the varistor 3 from the connection elements 4 . 5 is pushed away.

In the embodiments of the overvoltage protection element according to the invention shown in the figures 1 are the two connecting lugs 6 . 7 both on a narrow side 15 of the varistor 3 arranged, whereby its production, in particular the wrapping process of the varistor 3 with an insulating sheath, much easier. Are the two connecting straps 6 . 7 at the bottom of the varistor 3 arranged, so is a very flat design of the varistor 3 and thus the overvoltage element 1 Total achievable. Indicates the case 2 a correspondingly large amount, so in the separated state, a sufficiently large distance between the connecting elements 4 . 5 and the connecting straps 6 . 7 will be realized. Since in the separated state, both connecting straps 6 . 7 no longer with the connection elements 4 . 5 in electrically conductive contact, has the overvoltage protection element 1 two in series arranged separation points, which favor the extinction of a possibly occurring arc. Additionally, inside the case 2 a slide, not shown here, may be arranged as an arc-extinguishing barrier which, when the electrical contact between the connecting elements is disconnected 4 . 5 and the connecting straps 6 . 7 from a spring between the two connecting straps 6 . 7 and the two connecting elements 4 . 5 is pushed. A pending arc is then extinguished by the slider.

From the figures is also apparent that within the housing 2 an optical status display 16 is arranged so that it automatically in the position change of the varistor 3 is pressed. The optical status display 16 has in the illustrated embodiment, a first, fixed portion 17 and a second movable section 18 on, with the second section 18 at a position change of the varistor 3 is moved so that it is the first section 17 covered. Indicates the first section 17 on his the top 19 of the housing 2 facing side a green color and the second section 18 on the top too 19 of the housing 2 facing side a red color on, so is through one in the top 19 of the housing 2 trained viewing window 20 in the normal state of the overvoltage protection element 1 the "green ne "first section 17 and in case of error, the "red" second section 18 the status display 16 visible, noticeable. Thus, in a simple manner, the state of the overvoltage protection element 1 be displayed directly on the spot.

In addition, the varistor is 3 in the execution according to 2 and 3 with a spring-loaded release pin 21 connected to actuate a telecommunications contact arranged in the device lower part. In the normal state of the overvoltage protection element 1 protrudes the free end of the release pin 21 through an opening 22 in the bottom 23 of the housing 2 out. On the other hand, if the limit temperature of the varistor is exceeded 3 the solder joint between the connecting elements 4 . 5 and the connecting straps 6 . 7 separated, so that the varistor 3 by the spring element 8th moved up, so is the trigger pin 21 moved upward, whereby the arranged in the device lower part telecommunications contact is actuated.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 4241311 C2 [0002]
• - DE 202004006227 U1 [0003, 0022]
• - DE 69904274 T2 [0004]
• - DE 69503743 T2 [0005]

Claims (12)

Overvoltage protection element with a housing ( 2 ), with at least one in the housing ( 2 ) arranged overvoltage limiting component ( 3 ), in particular a varistor or a gas-filled surge arrester and with two connecting elements ( 4 . 5 ) for the electrical connection of the overvoltage protection element ( 1 ) to the protected current or signal path, wherein in the normal state of the overvoltage protection element ( 1 ) the connection elements ( 4 . 5 ) each with one pole of the overvoltage limiting component ( 3 ) are in electrically conductive contact, characterized in that in case of thermal overload of the overvoltage limiting component ( 3 ) the position of the overvoltage limiting component ( 3 ) relative to the position of the connecting elements ( 4 . 5 ) is changeable so that the two poles of the overvoltage limiting component ( 3 ) no longer with the connecting elements ( 4 . 5 ) are in electrically conductive contact. Overvoltage protection element according to claim 1, characterized in that at least one spring element ( 8th ) in the housing ( 2 ) is arranged such that in case of thermal overload of the overvoltage limiting component ( 3 ) the position of the overvoltage limiting component ( 3 ) relative to the position of the connecting elements ( 4 . 5 ) by the force of the at least one spring element ( 8th ) is changeable so that the two poles of the overvoltage limiting component ( 3 ) no longer with the connecting elements ( 4 . 5 ) are in electrically conductive contact. Overvoltage protection element according to claim 2, characterized in that the at least one spring element ( 8th ) between the housing ( 2 ) and the overvoltage limiting component ( 3 ) is arranged. Overvoltage protection element according to one of Claims 1 to 3, characterized in that, in the normal state of the overvoltage protection element ( 1 ) at least one pole of the overvoltage limiting component ( 3 ) via a solder joint ( 9 . 10 ) with at least one connecting element ( 4 . 5 ), wherein the at the solder joint ( 9 . 10 ) realized solder joint between egg nem pole of the overvoltage limiting component ( 3 ) and a connection element ( 4 . 5 ) when the temperature of the overvoltage limiting device ( 3 ) exceeds a predetermined limit temperature. Overvoltage protection element according to claim 4, characterized in that in the normal state of the overvoltage protection element ( 1 ) both poles of the overvoltage limiting component ( 3 ) via one solder joint ( 9 . 10 ) with a connection element ( 4 . 5 ) are connected. Overvoltage protection element according to claim 4, characterized in that in the normal state of the overvoltage protection element ( 1 ) one pole of the overvoltage limiting component ( 3 ) via a solder joint ( 9 ) with a connection element ( 4 ) and the other pole via a shock current carrying connector ( 11 ) with the other connection element ( 5 ) connected is. Overvoltage protection element according to one of Claims 1 to 3, characterized in that, in the normal state of the overvoltage protection element ( 1 ) both poles of the overvoltage limiting component ( 3 ) via a respective plug connection ( 11 . 12 ) with a connection element ( 4 . 5 ) and that between the overvoltage limiting component ( 3 ) and the housing ( 2 ) or in the housing ( 2 ) arranged a thermally disconnecting compound, in particular a fusion connection is formed, which then separates when the temperature of the overvoltage limiting component ( 3 ) exceeds a predetermined limit temperature. Overvoltage protection element according to one of Claims 1 to 7, characterized in that the two poles of the overvoltage limiting component ( 3 ) each with a connecting strap ( 6 . 7 ) are electrically connected. Overvoltage protection element according to claim 8, characterized in that the two connecting straps ( 6 . 7 ) on one side of the overvoltage limiting device ( 3 ), in particular on a narrow side ( 14 ) are arranged. Overvoltage protection element according to one of Claims 1 to 9, characterized in that a preferably spring-loaded arc-extinguishing barrier is movable in the housing ( 2 ) is arranged, that the barrier when separating the electrical contact between the two poles and the two terminal straps ( 6 . 7 ) of the overvoltage limiting component ( 3 ) and the connection elements ( 4 . 5 ) is displaceable or pivotable. Overvoltage protection element according to one of Claims 1 to 10, characterized in that an optical status display ( 15 ) is provided, wherein in the top ( 18 ) of the housing ( 2 ) a viewing window ( 19 ) is trained. Overvoltage protection element according to one of Claims 1 to 11, characterized in that a preferably spring-loaded release pin ( 20 ) for actuating a telecommunications contact see that through an opening ( 21 ) in the bottom ( 22 ) of the housing ( 2 ) stands out.