EP2378527A2 - Device for overvoltage protection - Google Patents
Device for overvoltage protection Download PDFInfo
- Publication number
- EP2378527A2 EP2378527A2 EP11162010A EP11162010A EP2378527A2 EP 2378527 A2 EP2378527 A2 EP 2378527A2 EP 11162010 A EP11162010 A EP 11162010A EP 11162010 A EP11162010 A EP 11162010A EP 2378527 A2 EP2378527 A2 EP 2378527A2
- Authority
- EP
- European Patent Office
- Prior art keywords
- varistor
- current path
- protective element
- point
- voltage
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
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Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01C—RESISTORS
- H01C7/00—Non-adjustable resistors formed as one or more layers or coatings; Non-adjustable resistors made from powdered conducting material or powdered semi-conducting material with or without insulating material
- H01C7/10—Non-adjustable resistors formed as one or more layers or coatings; Non-adjustable resistors made from powdered conducting material or powdered semi-conducting material with or without insulating material voltage responsive, i.e. varistors
- H01C7/12—Overvoltage protection resistors
- H01C7/126—Means for protecting against excessive pressure or for disconnecting in case of failure
Definitions
- the invention relates to the device for overvoltage protection comprising the terminals for connection to the protected electric circuit. Between the terminals there is arranged the current path, in the current path there is connected varistor protective element. In the current path there is between one output electrode of the varistor protective element and one terminal created a point (X) of intentional cutting off the current path, while to the point (X) a thermal cut out device (TCD) is assigned.
- TCD thermal cut out device
- CZ PV 2009-164 discloses a device for overvoltage protection comprising terminals for connection to protected electric circuit, while between the terminals there is arranged the current path, in which the protective element is connected.
- the current path In the current path there is created a point of intentional cutting off the current path, to which the device for signalling of protection status is assigned.
- an additional fusible cut-out with pre-set parameters of fusing In the point of intentional cutting off the current path there is further created an additional fusible cut-out with pre-set parameters of fusing. Elements of current path being intentionally disconnected are connected by means of the first solder, and the additional fusible thermal cut-out with pre-set parameters of fusing is formed of a second solder.
- the second solder has the same or approximately same fusing temperature as the first solder, but simultaneously the second solder has lower, or in dependence on structural embodiments and materials selected, also the same value of thermal conductivity than the first solder. Function of this device is such, that disconnecting of TCD immediately after fusing the first solder connecting elements of the current path is prevented, while fusing of the second solder lasts longer with respect to a larger dimension of the second solder, which must be heated and fused.
- Another particular structural embodiment is described by the solution, at which the additional fusing thermal cut-out with pre-set parameters of fusing is formed of a fusing rivet, which is positioned in a through hole, that is created in the current path elements being intentionally disconnected, while the heads of the fusing rivet abut against the outer external surfaces of the current path elements being intentionally disconnected.
- the additional fusing thermal cut-out in ground-plan surface of the current path elements being intentionally disconnected or in the nose which protrudes from the current path elements being intentionally disconnected, through which it is possible even more influence or set the time duration for fusing the second solder with lower thermal conductivity.
- CZ invention application No. 2009-683 discloses arrangement designated for even higher energies, than for which the solution according to CZ PV 2009-164 is designated.
- Solution according to CZ PV 2009-683 is based on fact that the additional thermal cut-out is formed of the second solder arranged between the flexible electric conductor and the fixed electric conductor parallel to the point of intentional cutting off the current path and outside the joint of the flexible electric conductor and the fixed electric conductor by the first solder, while the second solder is at least thermally conductively connected with the flexible electric conductor and with the fixed electric conductor, and the first solder and the second solder have the same or approximately same fusing temperature.
- the first end of cut-out lever and one end of auxiliary plate is mounted, while the cut-out lever is coupled with flexible electric conductor and its second end is coupled with the spring-loaded shifting part of the cut-out device which is slideably mounted in frame of the device, and the second end of the auxiliary plate is assigned to the fixed electric conductor.
- the auxiliary plate is connected with lower surface of the fixed electric conductor and it is bent towards the first end of cut-out lever, where it is provided with a groove, through which there is passing the first end of the cut-out lever, which is here by the second solder connected with auxiliary plate.
- the fixed electric conductor is formed of varistor electrode.
- the disadvantage of this arrangement is that at further increasing the loading of protective element the development of heat in the protective element - varistor or a group of parallel connected varistors, which are positioned in strongly limited and dense occupied space of the device for overvoltage protection, is so big that there occurs a premature increase of temperature of TCD above the temperature for cutting out the TCD, by which an undesired cut out of TCD occurs earlier than the maximum loading of varistor or a group of parallel connected varistors according to the testing conditions of CSN EN 61643-11 norm is achieved.
- this premature undesired disconnection of TOZ does not enable to utilise the maximum load capacity of varistor or a group of parallel connected varistor, i.e. it does not allow to utilise the full potential of varistors or a group of parallel connected varistors.
- the goal of this invention is to increase the applicability limit of the device for overvoltage protection on basis of varistor from the point of view of a high energetic loading while fully using the varistor potential.
- the goal of the invention has been achieved by the device for overvoltage protection, whose principle consists in that, between the point (X) of intentional cutting off the current path and the adjacent outmost varistor of the varistor protective element is in the current path connected electric element switched by voltage.
- Electric element switched by voltage here acts not only for securing of the insulating status, but due to its structure the element shows high thermal resistance and it acts here first of all as a thermal brake between the TCD and varistors, by which the heat transfer form varistors into TCD is slowed down and the time of disconnecting the TCD is postponed, so that higher parameters in loading of the varistor protective element may be achieved.
- the invention is schematically represented on the drawing, where the Fig. 1 shows a cross-section of the device for overvoltage protection with one particular embodiment of TCD in operating status, the Fig. 2 a cross-section of the device for overvoltage protection with one particular embodiment of TCD in disconnected status, the Fig. 3 a side view to a system of varistors in arrangement according to the invention, the Fig. 4 a view in skew direction from above to system of varistors in arrangement according to the invention, the Fig. 5 disassembled configuration of varistor system, the Fig. 6 a ground-plan representation of arrangement of varistor protective element in device for overvoltage protection and the Fig. 7 cross representation of arrangement from the Fig. 6 .
- TCD only thermal cut-out device
- the device comprises frame 0 in the form of lockable box, in which the current path is arranged.
- the current path of the device for overvoltage protection on both ends is terminated with terminals 00 for electrical connection of the device for overvoltage protection to the protected electric circuit.
- Individual parts of the device are dimensioned towards expected big energy, so as to meet the requirements specified by norms, in compliance with declared parameters of the device.
- the varistor protective element 3 In the current path of the device for overvoltage protection the varistor protective element 3 is connected.
- the varistor protective element 3 by its first output electrode 31, directly or through other electrically conductive elements is connected with the first terminal for electrical connection of the device for overvoltage protection to protected electric circuit.
- the varistor protective element 3 by its second output electrode 32 is connected, through other electrically conductive elements, with the second terminal for electrical connection of the device for overvoltage protection to protected electric circuit.
- the thermally initiated cut out device in short the thermal cut out device - abbreviation TCD used in the following text.
- the point X of intentional cutting off the current path is performed in the place of contact of lower surface of one end of flexible, e.g. copper electric conductor 1 and of the second output electrode 32 of the varistor protective element 3, while the end of flexible electric conductor 1 and the end of second output electrode 32 of varistor protective element 3 are connected by the first solder having the required fusing temperature.
- the end of the flexible electric conductor 1 connected with end of fixed electric conductor 2 is strengthened through stiffening.
- the second end of flexible electric conductor 1 is electrically conductively by means of auxiliary conductor 01 connected with second terminal for electric connection of the device for overvoltage protection to protected electric circuit.
- Varistor protective element 3 comprises at least one flat varistor 30 or it comprises a group of parallel by means of electrodes 301 connected flat varistors 30, as it is represented in the Fig. 3 to 5 and Fig. 7 . Between the second output electrode 32 of varistor protective element 3 and to it adjacent output electrode 300 of the last varistor 30 in series is connected the electric element switched by voltage 4. The electric element switched by voltage 4 is thus connected between TCD and varistor 30 or a group of parallel connected varistors 30 .
- the electric element switched by voltage 4 is in varistor protective element 3 positioned so, that it abuts by its first electrode 40 against the output electrode 300 of the last varistor 30.
- the second electrode 41 of electric element switched by voltage 4 abuts against the second output electrode 32 of the varistor protective element 3 .
- Individual parts of the varistor protective element 3 mostly for the reason to save space are performed as flat ones, including electrodes.
- the electric element switched by voltage 4 is in the represented example of embodiment formed of lightning arrester, namely by lightning arrester being sufficiently flat (thin), so that it may be applied between varistor 30 or a group of parallel connected varistors 30 and the point X, this in the place with very limited internal space.
- the thickness of the lightning arrester is comparable with thickness of varistors 30, while the lightning arrester has a shape of disk, respectively of a coin.
- the device for overvoltage protection When performing the prescribed operation test of the device for overvoltage protection, the device for overvoltage protection is always loaded with a certain number of loading pulses with subsequent time delay and subsequent loading with a further number of load pulses (5 pulses - 30 minutes standstill (cooling), 5 pulses - 30 minutes standstill (cooling)).
- the varistor 30 or a group of parallel connected varistors 30 get gradually warmer. From the varistor 30 or group of parallel connected varistors 30 gradually the upper electrode 40 is warmed by the electric element switched by voltage 4.
- the transfer of heat from varistor 30 or group of parallel connected varistors 30 to the lower electrode 41 of electric element switched by voltage 4 and further through the second output electrode 32 of the varistor protective element 3 into a point X is substantially reduced, by which the time of cutting off the current path in the point X is delayed once the TCD becomes active.
- the TCD cuts out the current path in the point X at a substantially higher loading than at arrangement without the electric element switched by voltage 4 inserted between the varistors 30 and the point X, so that it is possible to achieve higher parameters of loading of varistor protective element 3.
- the TCD is disconnected, by which the current path is cut off and the varistor protective element 3 is disconnected from the protected electric circuit.
- the signalling of status change of overvoltage protection becomes active.
- the device also behaves at the short-circuit test, when the TCD cut off the current path in the point X also at a substantially higher loading only after the time (5 seconds) prescribed by the norm for reaction of before arranged overcurrent protection (the fuse).
- the invention is applicable for protection of electric circuits against overvoltage.
Landscapes
- Engineering & Computer Science (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Emergency Protection Circuit Devices (AREA)
- Thermistors And Varistors (AREA)
Abstract
The invention relates to device for overvoltage protection comprising the terminals (00) for connection to the protected electric circuit, between which there is arranged the current path, in which the varistor protective element (3) is connected, between whose one output electrode and one terminal (00) for connection to the protected electric circuit in the current path the point (X) of intentional cutting off the current path is created, while to the point (X) the thermal cut out device (TCD) is assigned. Between the point (X) of intentional cutting off the current path and the adjacent outmost varistor (30) of the varistor protective element (3) in the current path an electric element being switched by voltage (4) is connected.
Description
- The invention relates to the device for overvoltage protection comprising the terminals for connection to the protected electric circuit. Between the terminals there is arranged the current path, in the current path there is connected varistor protective element. In the current path there is between one output electrode of the varistor protective element and one terminal created a point (X) of intentional cutting off the current path, while to the point (X) a thermal cut out device (TCD) is assigned.
-
CZ PV 2009-164 - Though the principle of the invention as such proved to be very efficient and enables a safe usage of the device for overvoltage protection on basis of varistor also for higher energies (category I, type I), still at particular structural embodiments according to the invention application
CZ PV 2009-164 CZ PV 2009-164 CZ PV 2009-164 - CZ invention application No. 2009-683 discloses arrangement designated for even higher energies, than for which the solution according to
CZ PV 2009-164 CZ PV 2009-683 - The disadvantage of this arrangement is that at further increasing the loading of protective element the development of heat in the protective element - varistor or a group of parallel connected varistors, which are positioned in strongly limited and dense occupied space of the device for overvoltage protection, is so big that there occurs a premature increase of temperature of TCD above the temperature for cutting out the TCD, by which an undesired cut out of TCD occurs earlier than the maximum loading of varistor or a group of parallel connected varistors according to the testing conditions of CSN EN 61643-11 norm is achieved. Hence, this premature undesired disconnection of TOZ does not enable to utilise the maximum load capacity of varistor or a group of parallel connected varistor, i.e. it does not allow to utilise the full potential of varistors or a group of parallel connected varistors.
- The goal of this invention is to increase the applicability limit of the device for overvoltage protection on basis of varistor from the point of view of a high energetic loading while fully using the varistor potential.
- The goal of the invention has been achieved by the device for overvoltage protection, whose principle consists in that, between the point (X) of intentional cutting off the current path and the adjacent outmost varistor of the varistor protective element is in the current path connected electric element switched by voltage.
- Electric element switched by voltage here acts not only for securing of the insulating status, but due to its structure the element shows high thermal resistance and it acts here first of all as a thermal brake between the TCD and varistors, by which the heat transfer form varistors into TCD is slowed down and the time of disconnecting the TCD is postponed, so that higher parameters in loading of the varistor protective element may be achieved.
- The preferred embodiments of the invention are subject of dependent patent claims.
- The invention is schematically represented on the drawing, where the
Fig. 1 shows a cross-section of the device for overvoltage protection with one particular embodiment of TCD in operating status, theFig. 2 a cross-section of the device for overvoltage protection with one particular embodiment of TCD in disconnected status, theFig. 3 a side view to a system of varistors in arrangement according to the invention, theFig. 4 a view in skew direction from above to system of varistors in arrangement according to the invention, theFig. 5 disassembled configuration of varistor system, theFig. 6 a ground-plan representation of arrangement of varistor protective element in device for overvoltage protection and theFig. 7 cross representation of arrangement from theFig. 6 . - The invention will be described on an example of embodiment for overvoltage protection on basis of varistor with structural solution of thermal cut-out device (hereinafter TCD only).
- The device comprises
frame 0 in the form of lockable box, in which the current path is arranged. The current path of the device for overvoltage protection on both ends is terminated withterminals 00 for electrical connection of the device for overvoltage protection to the protected electric circuit. Individual parts of the device are dimensioned towards expected big energy, so as to meet the requirements specified by norms, in compliance with declared parameters of the device. - In the current path of the device for overvoltage protection the varistor protective element 3 is connected. The varistor protective element 3 by its
first output electrode 31, directly or through other electrically conductive elements is connected with the first terminal for electrical connection of the device for overvoltage protection to protected electric circuit. The varistor protective element 3 by itssecond output electrode 32 is connected, through other electrically conductive elements, with the second terminal for electrical connection of the device for overvoltage protection to protected electric circuit. - Between the
second output electrode 32 of varistor protective element 3 and the second terminal for electrical connection of the device for overvoltage protection to protected electric circuit there is in the current path of the device for overvoltage protection situated the point X of intentional cutting off the current path. To the point X there is assigned the thermally initiated cut out device, in short the thermal cut out device - abbreviation TCD used in the following text. - In the represented example of embodiment the point X of intentional cutting off the current path is performed in the place of contact of lower surface of one end of flexible, e.g. copper
electric conductor 1 and of thesecond output electrode 32 of the varistor protective element 3, while the end of flexibleelectric conductor 1 and the end ofsecond output electrode 32 of varistor protective element 3 are connected by the first solder having the required fusing temperature. The end of the flexibleelectric conductor 1 connected with end of fixed electric conductor 2 is strengthened through stiffening. The second end of flexibleelectric conductor 1 is electrically conductively by means ofauxiliary conductor 01 connected with second terminal for electric connection of the device for overvoltage protection to protected electric circuit. - Varistor protective element 3 comprises at least one
flat varistor 30 or it comprises a group of parallel by means ofelectrodes 301 connectedflat varistors 30, as it is represented in theFig. 3 to 5 andFig. 7 . Between thesecond output electrode 32 of varistor protective element 3 and to itadjacent output electrode 300 of thelast varistor 30 in series is connected the electric element switched byvoltage 4. The electric element switched byvoltage 4 is thus connected between TCD andvaristor 30 or a group of parallel connectedvaristors 30. - As represented in the
Fig. 3 to 5 andFig. 7 , the electric element switched byvoltage 4 is in varistor protective element 3 positioned so, that it abuts by itsfirst electrode 40 against theoutput electrode 300 of thelast varistor 30. Thesecond electrode 41 of electric element switched byvoltage 4 abuts against thesecond output electrode 32 of the varistor protective element 3. Individual parts of the varistor protective element 3 mostly for the reason to save space are performed as flat ones, including electrodes. - The electric element switched by
voltage 4 is in the represented example of embodiment formed of lightning arrester, namely by lightning arrester being sufficiently flat (thin), so that it may be applied betweenvaristor 30 or a group of parallel connectedvaristors 30 and the point X, this in the place with very limited internal space. In the represented example of embodiment the thickness of the lightning arrester is comparable with thickness ofvaristors 30, while the lightning arrester has a shape of disk, respectively of a coin. - When performing the prescribed operation test of the device for overvoltage protection, the device for overvoltage protection is always loaded with a certain number of loading pulses with subsequent time delay and subsequent loading with a further number of load pulses (5 pulses - 30 minutes standstill (cooling), 5 pulses - 30 minutes standstill (cooling)). By this loading the
varistor 30 or a group of parallel connectedvaristors 30 get gradually warmer. From thevaristor 30 or group of parallel connectedvaristors 30 gradually theupper electrode 40 is warmed by the electric element switched byvoltage 4. Thanks to a high thermal resistance of the electric element switched byvoltage 4 the transfer of heat fromvaristor 30 or group of parallel connectedvaristors 30 to thelower electrode 41 of electric element switched byvoltage 4 and further through thesecond output electrode 32 of the varistor protective element 3 into a point X is substantially reduced, by which the time of cutting off the current path in the point X is delayed once the TCD becomes active. At operation test the TCD cuts out the current path in the point X at a substantially higher loading than at arrangement without the electric element switched byvoltage 4 inserted between thevaristors 30 and the point X, so that it is possible to achieve higher parameters of loading of varistor protective element 3. Nevertheless after a certain time there occurs undesired warming of the respective parts in the point X and the TCD is disconnected, by which the current path is cut off and the varistor protective element 3 is disconnected from the protected electric circuit. By disconnecting the TCD also the signalling of status change of overvoltage protection becomes active. Similarly the device also behaves at the short-circuit test, when the TCD cut off the current path in the point X also at a substantially higher loading only after the time (5 seconds) prescribed by the norm for reaction of before arranged overcurrent protection (the fuse). - The invention is applicable for protection of electric circuits against overvoltage.
-
- 0
- frame of the device
- 00
- terminal for electric connection of device for overvoltage protection to a protected electric circuit
- 01
- auxiliary conductor
- 1
- flexible electric conductor
- 3
- varistor protective element
- 30
- varistor
- 31
- first output electrode of varistor protective element
- 32
- second output electrode of varistor protective element
- 4
- electric element switched by voltage
- 40
- upper electrode of flat electric element switched by voltage
- 41
- lower electrode of flat electric element switched by voltage
- X
- point of intentional cutting off the current path
Claims (4)
- Device for overvoltage protection comprising terminals (00) for connection to the protected electric circuit, between the terminals there is arranged the current path, in the current path there is connected varistor protective element (3), between one output electrode of the varistor protective element (3) and one terminal (00) there is in the current path created a point (X) of intentional cutting off the current path, while to the point (X) a thermal cut out device (TCD) is assigned, characterised in that, between the point (X) of intentional cutting off the current path and the adjacent outmost varistor (30) of the varistor protective element (3) there is in the current path connected an electric element switched by voltage(4).
- Device according to the claim 1, characterised in that, the outmost varistor (30) of varistor protective element (3) is formed of the flat varistor (30), against whose output electrode (300) the first flat electrode (40) of the electric element switched by voltage (4) is abutting, while against the flat second electrode (41) of electric element switched by voltage (4) the output electrode (32) of varistor protective element (3) is abutting.
- Device according to the claim 2, characterised in that, the electric element switched by voltage (4) is formed of an lightning arrester.
- Device according to the claim 3, characterised in that, the electric element switched by voltage (4) is formed of a flat lightning arrester having shape of a disk.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CZ20100282A CZ303073B6 (en) | 2010-04-13 | 2010-04-13 | Overvoltage protection device |
Publications (1)
Publication Number | Publication Date |
---|---|
EP2378527A2 true EP2378527A2 (en) | 2011-10-19 |
Family
ID=44259963
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP11162010A Withdrawn EP2378527A2 (en) | 2010-04-13 | 2011-04-12 | Device for overvoltage protection |
Country Status (2)
Country | Link |
---|---|
EP (1) | EP2378527A2 (en) |
CZ (1) | CZ303073B6 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107342145A (en) * | 2017-07-10 | 2017-11-10 | 隆科电子(惠阳)有限公司 | A kind of compound MOV for inserting GDT |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE7719678U1 (en) * | 1977-06-23 | 1979-01-04 | Dehn + Soehne Gmbh + Co Kg, 8500 Nuernberg | SURGE ARRESTERS |
CA1157908A (en) * | 1980-09-20 | 1983-11-29 | Egon Wessing | Valve type voltage arrester device |
US4908730A (en) * | 1988-10-14 | 1990-03-13 | Kearney | Surge arrester with shunt gap |
DE4042237A1 (en) * | 1990-01-08 | 1991-07-11 | Bettermann Obo Ohg | Plug-in voltage overload conductor - is formed with varistor elements coupled together in housing |
DE19545505C1 (en) * | 1995-12-06 | 1997-05-28 | Dehn & Soehne | Surge arrester for low-voltage, high power fuse |
DE19856939A1 (en) * | 1998-12-10 | 2000-06-15 | Bettermann Obo Gmbh & Co Kg | Circuit arrangement for protecting electrical installations against overvoltage events |
US6930871B2 (en) * | 1999-11-19 | 2005-08-16 | Citel | Lightning arrester device for low-voltage network |
-
2010
- 2010-04-13 CZ CZ20100282A patent/CZ303073B6/en unknown
-
2011
- 2011-04-12 EP EP11162010A patent/EP2378527A2/en not_active Withdrawn
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107342145A (en) * | 2017-07-10 | 2017-11-10 | 隆科电子(惠阳)有限公司 | A kind of compound MOV for inserting GDT |
Also Published As
Publication number | Publication date |
---|---|
CZ2010282A3 (en) | 2011-10-26 |
CZ303073B6 (en) | 2012-03-21 |
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