DE102017113256B4 - Surge protection device - Google Patents

Abstract

Surge protection device with a first electrode (1), a second electrode and a housing (3), the first electrode (1) and the second electrode being connected to both of two end fittings of the housing (3), the first electrode (1) an integrally formed connecting portion and a conductive part (102) which extends into the housing (3) and is electrically connected to the second electrode through a varistor (4), the conductive part (102) having a positive trip arrangement (5), a low-temperature fuse (102a) and a conductive electrode (102b), the positive release arrangement (5) being fixed in the conductive part (102), one end being connected to the connecting section and the other end being connected to the low-temperature fuse (102a) ) is connected, and wherein the low-temperature fuse (102a) is connected via one end to a conductive electrode (102b), characterized in that the forced release arrangement (5) comprises the two symmetrically adjusted electrodes, the two electrodes being connected to the low-temperature fuse (102a), there being a spring (502) between two electrodes, one end being connected to the connecting portion and the the other end tightly leans against the low-temperature fuse (102a) through an ejector part (503), wherein the ejector part can be plugged into the first electrode (1).

Description

SCOPE OF APPLICATION

The invention relates to the field of lightning protection and is based on an overvoltage protection device.

BACKGROUND OF THE INVENTION

The surge protective device (SPD) is also called a lightning current arrester. It can be used in the power supply system or communication system with 50 / 60Hz AC current and rated voltage of 380-1500V. Usually it is in a high impedance state. In the event of overvoltage due to lightning or other causes, it must discharge the lightning current or the overvoltage through the earth conductor into the earth in a very short period of time in order to protect the devices on the line. Previous surge protectors mostly have a low temperature tripping structure, and the structure of traditional surge protectors between the electrode and the varistor with a spring with a mechanical trigger mechanism may cause inconvenience for the user due to the deviation of the spring and mechanical structure.

Further prior art is in the documents DE 20 2009 004 055 U1 , DE 77 19 678 U1 and DE10 2014 016 830 A1 disclosed, which in document DE 20 2009 004 055 U1 The overvoltage protection device disclosed is a surge protection device according to the preamble of claim 1. The cited documents do not disclose any or at least not a fully satisfactory solution to the problems mentioned above.

CONTENT OF THE INVENTION

In order to solve the above technical problems, the invention provides a new type of surge protection device which is simple in construction, easy to use and has good heat dissipation and which can effectively remove the arrester from the mains when the arrester is no longer effective to avoid further damage.

The invention comprises a first electrode, a second electrode and a housing. The first electrode and the second electrode are connected to both two end fittings of the housing. The first electrode has an integrally formed connection portion and a conductive part that extends into the housing and is electrically connected to the second electrode through a varistor.

The conductive part comprises a forced release arrangement, a low-temperature fuse and a conductive electrode. The positive release arrangement is fixed in the conductive part, one end is connected to the connecting portion and the other is connected to the low-temperature fuse. The low-temperature fuse is connected to a conductive electrode at one end.

Furthermore, the forced release arrangement comprises the two symmetrically adjusted electrodes. The two electrodes are connected to the low-temperature fuse. There is a spring between two electrodes, one end being connected to the connecting section and the other end leaning tightly against the low-temperature fuse through the ejector part. The ejector part can be plugged into the first electrode.

Furthermore, the ejector part comprises the first and second ejector rods. One end of the first push-out rod is connected to the low-temperature fuse and the other end to the second push-out rod. A spring is inserted into the end of the second extraction rod and the second extraction rod can be connected to the first electrode when it is inserted.

The invention also uses a protected mode. In the event of a short circuit or failure of the varistor, the automatic release arrangement can forcefully separate the melted safety column from the first electrode in order to safely disconnect the arrester from the mains.

There are also through-holes in the first electrode from top to bottom, the second push-out rod being adjusted to show the state of the arrester. Under normal circumstances there will be a colored cylindrical spot on the top of the second push rod. If the arrester fails, the colored cylindrical point has decayed, which shows that the surge protector is damaged.

Furthermore, the connection portion has the same structure as the second electrode, which includes an outdoor terminal, a top, and a fixing part. One end of the upper part is connected to the outdoor terminal and the other to the fastening part, which are detachably connected.

Furthermore, the low-temperature fuse is made from a tin-bismuth alloy.

Furthermore, the embedded depth of the low-temperature fuse is in the Forced release arrangement and the conductive electrode 1-2 mm.

Furthermore, the area of the low-temperature fuse is smaller than the area of the conductive electrode and the extension electrode.

Furthermore, the housing is made of insulating material.

Furthermore, the conductive electrode has a T-shaped cross section.

Furthermore, there is a fuse wire in the second electrode which is embedded in the fastening part.

1. 1. Die Erfindung hat eine klare Struktur und ist einfach zu verwenden. Das Prinzip des Schutzes ist durch den Varistor auf der Linie einer Stoßspannungsklemme erfüllt. Wegen der Metallstruktur der ersten und zweiten Elektrode ergibt sich eine gute Wärmeableitung.
2. 2. Die Fläche der Niedertemperatur-Schmelzsicherung ist kleiner als die Fläche der leitenden Elektrode sowie Verlängerungselektrode, wodurch die Stromdichte in der Niedertemperatur-Schmelzsicherung verstärkt wird. Durch eine plötzliche Abnahme der leitfähigen Querschnittsfläche erfolgt ein schneller Temperaturanstieg und das weitere Schmelzen der Niedertemperatur-Schmelzsicherung. Wenn die Niedertemperatur- Schmelzsicherung zu schmelzen beginnt, übt die Zwangsauslösungsanordnung weiter einen Druck auf die Niedertemperatur-Schmelzsicherung aus, um sich zwangsweise von der ersten Elektrode zu trennen, und gleichzeitig wenn sich die Ausdrückstangen nach unten bewegt, wird der Zustand der Oberseite der ersten Elektrode nach unten verschoben, was ein synchroner Schritt ist. Wenn die Niedertemperatur-Schmelzsicherung zu schmelzen beginnt und die Zwangsauslösungsanordnung wirkt, ändert sich auch die Statusanzeigestange, um das Überspannungsschutzgerät zu schützen.
3. 3. Die Niedertemperatur-Schmelzsicherung ist aus Zinn-Wismut-Legierung, die einen niedrigen Schmelzpunkt hat und leicht zu formen ist. Es kann die Effizienz des Gerätes bei der Massenproduktion verbessern.
4. 4. Die Temperatur-Schmelzsicherung funktioniert als neue Art der Fernüberwachung von Überspannungsschutz. Die Temperatur-Schmelzsicherung wird im Sockel des Überspannungsschutzgeräts eingebettet. Wenn die voreingestellte Temperatur vom Sockel über 80 ° C / s ist, brennt die Temperatur-Schmelzsicherung durch, womit der Fehlerabbruch der Fernalarmfunktion erreicht wird.
5. 5. Die eingebettete Tiefe der Niedertemperatur-Schmelzsicherung in Zwangsauslösungsanordnung ist 1-2 mm. Die eingebettete Tiefe der Niedertemperatur-Schmelzsicherung in der leitenden Elektrode ist auch 1-2 mm, womit die Stabilität der Niedertemperatur-Heißschmelzen-Sicherung in diesem Gerät garantiert wird.
6. 6. Brennt die Niedertemperatur-Schmelzsicherung durch, dehnt sich die Feder aus. Die Niedertemperatur-Schmelzsicherung wird durch Ausdrückstangen zwangsweise von dem Boden der leitenden Elektrode getrennt. Die Niedertemperatur-Schmelzsicherung nimmt Druck auf, um mit dem Boden schnell zu verschmelzen, somit der Abstand zwischen dem Boden der leitenden Elektrode und dem Oberteil der Niedertemperatur-Schmelzsicherung vergrößert wird.
7. 7. Die Erfindung hat einen Auswerferteil mit einer Feder, wobei die Ausdrückstangen nach dem Schmelzen der Niedertemperatur-Schmelzsicherung entnommen werden, um die Aufgabe des Gerätes zu erfüllen.

The invention has the following advantages:

1. 1. The invention has a clear structure and is easy to use. The principle of protection is fulfilled by the varistor on the line of a surge voltage terminal. The metal structure of the first and second electrodes results in good heat dissipation.
2. 2. The area of the low-temperature fuse is smaller than the area of the conductive electrode and the extension electrode, which increases the current density in the low-temperature fuse. A sudden decrease in the conductive cross-sectional area results in a rapid rise in temperature and further melting of the low-temperature fuse. When the low temperature fuse starts to melt, the positive trip assembly continues to apply pressure to the low temperature fuse to forcibly separate from the first electrode, and at the same time when the push rods move down, the state of the top of the first electrode becomes moved down, which is a synchronous step. When the low temperature fuse begins to melt and the forced trip arrangement takes effect, the status indicator rod also changes to protect the surge protector.
3. 3. The low temperature fuse is made of tin-bismuth alloy, which has a low melting point and is easy to shape. It can improve the efficiency of the device in mass production.
4. 4. The temperature fuse works as a new type of remote monitoring of surge protection. The thermal fuse is embedded in the base of the surge protection device. If the preset temperature of the base is above 80 ° C / s, the temperature fuse blows, which causes the remote alarm function to be aborted.
5. 5. The embedded depth of the low temperature fuse in the positive release arrangement is 1-2 mm. The embedded depth of the low-temperature fuse in the conductive electrode is also 1-2 mm, which guarantees the stability of the low-temperature hot-melt fuse in this device.
6. 6. If the low-temperature fuse blows, the spring expands. The low-temperature fuse is forcibly separated from the bottom of the conductive electrode by push-out rods. The low-temperature fuse takes up pressure to quickly fuse with the bottom, thus increasing the distance between the bottom of the conductive electrode and the top of the low-temperature fuse.
7. 7. The invention has an ejector part with a spring, the ejector rods being removed after the low-temperature fuse has melted in order to fulfill the task of the device.

Figure list

• 1 shows the whole structure of the invention.
• 2 Fig. 3 shows the structure of the conductive part of this invention.
• 3 Figure 3 shows the vertical view of the first electrode.

DETAILED REPRESENTATION

The invention and further advantageous embodiments are explained in more detail below with reference to the drawing.

As shown in the figures, the invention comprises a first electrode ( 1 ), a second electrode and a housing ( 3 ). The first electrode ( 1 ) and the second electrode are connected to both two end fittings of the housing ( 3 ) connected. The first electrode ( 1 ) has an integrally formed connecting portion and a conductive part ( 102 ), which is located in the housing ( 3 ) and through a varistor ( 4th ) is electrically connected to the second electrode.

The conductive part ( 102 ) includes a forced release arrangement ( 5 ), a low-temperature fuse ( 102a ) and a conductive electrode ( 102b ). The forced release arrangement ( 5 ) is in the conductive part ( 102 ), one end is connected to the connecting section and the other is connected to the low temperature Fuse ( 102a ) connected. The low temperature fuse ( 102a ) is connected to a conductive electrode ( 102b ) connected.

Furthermore, the forced release arrangement ( 5 ) the two symmetrically adjusted electrodes. The two electrodes are connected to the low-temperature fuse ( 102a ) connected. There is a spring between two electrodes ( 502 ), one end being connected to the connecting portion and the other end sealingly through the ejector part ( 503 ) to the low temperature fuse ( 102a ) leans against. The ejector part ( 503 ) can be used with the first electrode ( 1 ) plugged in.

Furthermore, the ejector part ( 503 ) the first push-out rod ( 503a ) and second push rod ( 503b ). One end of the first push rod ( 503a ) is connected to the low-temperature fuse ( 102a ) and the other end to the second push rod ( 503b ). At the end of the second push rod ( 503b ) is a feather ( 502 ) and the second push rod ( 503b ) can be used with the first electrode ( 1 ) plugged in.

The invention also uses a protected mode. In the event of a short circuit or failure of the varistor ( 4th ) the forced release arrangement ( 5 ) the melted safety pillar ( 102a ) from the first electrode ( 1 ) to disconnect the device safely from the mains.

Furthermore there is in the first electrode ( 1 ) through holes from top to bottom ( 103 ) with the second push-out rod adjusted to show the condition of the arrester. Under normal circumstances there will be a colored cylindrical spot on the top of the second push rod. If the device fails, the colored cylindrical point is no longer visible, which shows that the overvoltage protection has been damaged.

Furthermore, the connection portion has the same structure with the second electrode that an outdoor terminal ( 201 ), a top ( 202 ) and a mounting part ( 203 ) includes. One end of the top ( 202 ) is connected to the external terminal ( 201 ) connected and the other end is connected to the fastening part ( 203 ) that are detachably connected.

Furthermore, the low-temperature fuse ( 102a ) made of a tin-bismuth alloy.

Furthermore, the embedded depth of the low-temperature fuse ( 102a ) in the forced release arrangement ( 5 ) as well as the conductive electrode ( 102b ) 1-2 mm.

Furthermore, the area of the low-temperature fuse ( 102a ) smaller than the area of the conductive electrode ( 102b ) as well as the extension electrode.

Furthermore, the housing ( 3 ) made of insulating material.

Furthermore, the conductive electrode ( 102b ) a T-shaped cross-section.

There is also a safety wire in the second electrode ( 6th ), which is in the mounting part ( 203 ) is embedded.

In the context of the present invention, the overvoltage protection device is integrated in the circuit. If there is lightning or a strong current, the low-temperature fuse ( 102a ). The first electrode ( 1 ) and the conductive electrode ( 102b ) are at both ends of the device and leave the low-temperature fuse ( 102a ) in the smallest cross-sectional area. The sudden reduction in the cross-sectional area leads to an increase in the current density of the one-sided cross-sectional area. The low temperature fuse ( 102a ) has a high temperature and starts to melt when the temperature reaches 130 degrees Celsius. Because the top of the conductive electrode ( 102b ) is the highest temperature position, the low-temperature fuse ( 102a ) at this point. Because of the melting, the height of the conductive electrode changes ( 102b ) and the forced release arrangement ( 5 ). The feather ( 502 ) begins to expand. The ejector part ( 503 ) disconnects the low-temperature fuse ( 102a ) and the cooling electrode and exerts pressure to cause the melting to occur more quickly. Furthermore, the distance between the bottom of the conductive electrode increases ( 102b ) and the upper part of the low-temperature fuse ( 102a ). Because of the use of the varistor ( 4th ) there is no possibility of a short circuit. The invention therefore uses an ejector part with a spring, the ejector rods being removed after the low-temperature fuse has melted in order to fulfill the task of the device.

The invention uses a thermal fuse as a new way of remotely monitoring a surge protector. The thermal fuse is embedded in the base of the surge protection device. If the preset temperature of the base is above 80 ° C, the temperature fuse blows, which causes the remote alarm function to be aborted.

As a condition indicating means, through holes ( 103 ) from the first electrode ( 1 ) conspicuous the first push-out rod ( 503a ). Usually the upper part runs from the first push-out rod ( 503a ) and the second push rod ( 503b ) with a color mark parallel. If the device fails, the first push-out rod moves ( 503a ) down and the visible part of the second push rod ( 503b ) also to show the failure state.

Claims (11)

Surge protection device with a first electrode (1), a second electrode and a housing (3), the first electrode (1) and the second electrode being connected to both of two end fittings of the housing (3), the first electrode (1) an integrally formed connecting portion and a conductive part (102) which extends into the housing (3) and is electrically connected to the second electrode through a varistor (4), the conductive part (102) having a positive trip arrangement (5), a low-temperature fuse (102a) and a conductive electrode (102b), the positive release arrangement (5) being fixed in the conductive part (102), one end being connected to the connecting section and the other end being connected to the low-temperature fuse (102a) ) is connected, and wherein the low-temperature fuse (102a) is connected via one end to a conductive electrode (102b), characterized in that s the forced release arrangement (5) comprises the two symmetrically adjusted electrodes, the two electrodes being connected to the low-temperature fuse (102a), there being a spring (502) between two electrodes, one end being connected to the connecting portion and being the other end leans tightly against the low-temperature fuse (102a) through an ejector part (503), wherein the ejector part can be plugged into the first electrode (1). Surge protection device according to Claim 1 , characterized in that the ejector part (503) comprises the first (503a) and second (503b) push-out rods, one end of a first push-out rod (503a) with the low-temperature fuse (102a) and the other end with a second push-out rod (503b) ) is connected, and at the end of the second ejector rod (503b) a spring (502) is inserted and the second ejector rod (503b) can be connected to the first electrode (1) inserted. Surge protection device according to Claim 1 , characterized in that in the event of a short circuit or failure of the varistor (4), the low-temperature fuse (102a) melts and the forced release arrangement (5) forcibly disconnects the melted low-temperature fuse (102a) from the first electrode (1) in order to force the varistor ( 4) safely disconnected from the mains. Surge protection device according to Claim 2 , characterized in that a through-hole (103) is arranged in the first electrode (1), the second push-out rod (503b) being provided with a colored cylindrical dot on its upper part, the second push-out rod (503b) being set, the state of the overvoltage protection device, and the cylindrical point is no longer visible when the overvoltage protection device is triggered. Surge protection device according to Claim 1 , characterized in that the connecting portion has the same structure as the second electrode comprising the outside terminal (201), top (202) and fixing part (203), one end of the top (202) being connected to the outside terminal (202) and the other is connected to the attachment part (203) which are detachably connected. Surge protection device according to Claim 2 , characterized in that the low-temperature fuse (102a) is made of tin-bismuth alloy. Surge protection device according to Claim 2 , characterized in that the embedded depth of the low-temperature fuse (102a) in the forced release arrangement (5) and the conductive electrode (102b) is 1-2 mm. Surge protection device according to Claim 1 , characterized in that the area of the low-temperature fuse (102a) is smaller than the area of the conductive electrode (102b) and an extension electrode. Surge protection device according to Claim 1 , characterized in that the conductive electrode (102b) has a T-shaped cross section. Surge protection device according to Claim 1 , characterized in that the housing (3) is made of insulating material. Surge protection device according to Claim 1 , characterized in that there is a safety wire (6) in the second electrode, which is embedded in the fastening part (203).

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