KR101393333B1 - Condenser for electric power - Google Patents

Abstract

The present invention relates to a power capacitor, and more particularly, A bending groove portion 16 formed in the side wall 11a of the condenser case 10 and having an insertion hole 16c; A plurality of capacitor bodies (C1, C2, ..., C6) provided inside the capacitor case (10) and connected by Y-Y wiring; And is connected to the neutral points n1 and n2 of the YY wires of the plurality of capacitor element bodies C1, C2, ..., C6 inserted in the insertion hole 16c of the bending groove portion 16 and the electric current is applied to the neutral points n1 and n2 A current sensing sensor (30) for sensing the flow of current; A welding member 40 formed to be embedded in the slicing groove portion 16 and fixing the current sensing sensor 30 to the side wall 11a of the capacitor case 10; And a customer case 50 inserted into the bending groove 16c and covering the current sensing sensor 30 so that a failure can be detected in any one of the plurality of capacitor element bodies.

Description

Condenser for electric power

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power capacitor, and more particularly, to a power capacitor capable of facilitating installation work of a current sensor by reducing a welding area using a bending structure when a current sensor is installed in a capacitor case.

Electricity is produced in the power plant and transmitted to the consumer through the substation. The substation is used to distribute the power and voltage of the electric power generated by the power plant to the consumer through the transmission line or distribution line. The substation is lowered to the distribution voltage to distribute the power to the receiver with high high voltage and the distribution voltage is transmitted to the consumer by lowering to the voltage that can be used by the customer through the pillar transformer.

The substation is called substation substation which lower the transmission voltage than the distribution voltage, and substation substation is classified as first substation and second substation. The primary substation lowers the transmission voltage to the lower transmission voltage and sends it to the secondary substation, which changes the transmission voltage to the distribution voltage. Especially, primary substations are mainly used to adjust the voltage. To realize this purpose, a power capacitor is used. The power capacitor is composed of a plurality of capacitor elements. The number of the capacitor elements and the wiring method are determined according to the voltage and capacity of the power capacitor. In order to prevent damage to the load device due to damage to the power capacitor, An apparatus for detecting an abnormality such as a failure or damage of the apparatus is used.

Korean Patent Laid-Open Publication No. 1998-0011549 (Patent Document 1) relates to an apparatus for detecting a failure of a power capacitor, which is disposed in a case in which a power capacitor is hermetically sealed and accommodated, To protect the product by detecting the failure of the power capacitor.

Korean Laid-open Patent No. 1998-0011549 (published on April 30, 1998)

Conventional power capacitors detect the failure by sensing the breakage of the fuse due to expansion, and thus the installation structure is complicated. As a result, the failure of the power capacitor is detected after a true progress, thereby lowering the safety and reliability of the power capacitor .

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-described problems and provide a power capacitor capable of facilitating installation work of a current sensing sensor by reducing a welding area by using a bending structure when installing a current sensing sensor in a capacitor case .

Another object of the present invention is to reduce the welding area of the capacitor case and the current sensing sensor, thereby minimizing the inflow of foreign matter due to the welding operation, thereby preventing the product from being deteriorated due to foreign substances, And a capacitor for power that can be used.

It is another object of the present invention to provide a power capacitor in which a current sensing sensor is embedded inside a capacitor case, thereby facilitating the handling and installation of the power capacitor.

It is another object of the present invention to provide a power capacitor capable of initially detecting a failure of a plurality of capacitor element bodies and improving the safety and reliability of the product.

A power capacitor of the present invention includes: a capacitor case; A bending groove formed in the side wall of the condenser case and having an insertion hole; A plurality of capacitor bodies disposed inside the capacitor case and connected by Y-Y wiring; A current sensing sensor inserted into the insertion hole of the bent groove and connected to a neutral point of Y-Y wiring of a plurality of capacitor element bodies to sense a current flowing to a neutral point; A welding member formed to be embedded in the shaving groove and fixing the current sensing sensor to the side wall of the capacitor case; And a customer case inserted into the bending groove to cover the current sensing sensor.

The power capacitor of the present invention has an advantage in that it can facilitate the installation work of the current sensor by reducing the welding area by using the bending structure when installing the current sensor in the capacitor case and the welding area of the capacitor case and the current sensor It is possible to minimize the inflow of foreign matter due to the welding operation by the reduction in the life of the product due to the foreign matter and to improve the productivity of the installation work of the current sensing sensor.

The power capacitor according to the present invention is also advantageous in that it is easy to handle and install the power capacitor by embedding the current sensing sensor inside the capacitor case and it is possible to detect a failure of a plurality of capacitor main bodies at an early stage, The safety and reliability of the apparatus can be improved.

1 is a perspective view of a power capacitor according to the present invention,
FIG. 2 is a cross-sectional view of the power capacitor shown in FIG. 1,
3 is an enlarged cross-sectional view of a bending groove formed in the condenser storage container shown in Fig. 2,
Fig. 4 is an equivalent circuit diagram of the capacitor element block shown in Fig. 2,
5 is an enlarged cross-sectional view of the current sensing sensor shown in FIG. 2,
6 is an enlarged cross-sectional view of the main portion of the current sensing sensor shown in FIG. 5,
FIG. 7 is an exploded assembly sectional view of the current sensing sensor shown in FIG. 5,
FIG. 8 is an exploded perspective view of the current sensing sensor shown in FIG. 7. FIG.

Hereinafter, embodiments of the power capacitor of the present invention will be described with reference to the accompanying drawings.

1 to 5, the power capacitor according to the present invention includes a capacitor case 10, a folding groove 16, a capacitor body block 20, a current sensing sensor 30, a welding member 40, 50).

The condenser case 10 generally supports the power condenser of the present invention and the folding groove 16 is formed in the side wall 11a of the condenser case 10 and an insertion hole 16c is formed. The current sensing sensor 30 is inserted into the insertion hole 16c of the bending groove portion 16. The current sensing sensor 30 is inserted into the insertion hole 16c of the bending groove portion 16, And is connected to the neutral points (n1, n2) of the YY connections of the plurality of capacitor bodies (C1, C2, ..., C6) to detect the flow of current through the neutral points (n1, n2). The welding member 40 is formed to be embedded in the filler groove portion 16 to fix the current sensing sensor 30 to the side wall 11a of the capacitor case 10. The customer case 50 is inserted into the bending groove portion 16c And covers and protects the current sensing sensor 30.

The configuration of the power capacitor of the present invention having the above configuration will be described in more detail with reference to the accompanying drawings.

The capacitor case 10 is constituted by a capacitor storage container 11, a capacitor cover 12, a ground connection member 13, a case supporting member 14 and a plurality of terminal terminals 15 as shown in Figs. 1 and 2 do.

The condenser storage container 11 includes a rectangular box type container and a plurality of capacitor element bodies C1, C2, ..., C6 disposed inside thereof and a current detection sensor 30 inserted in the side wall 11a. 16 are formed.

The capacitor cover 12 is welded to the upper side of the capacitor storage container 11 by a welding member 12a so that the inside of the capacitor case 10 is sealed. The ground connection member 13 is provided on the side wall 11a of the condenser storage container 11 for connecting the ground and the power capacitor of the present invention is applied with a non-grounding neutral point method to prevent malfunction due to external influences . The case supporting member 14 is provided below the condenser storage container 11 to support the condenser case 10. [ The plurality of terminal terminals 15 are respectively installed on the upper side of the capacitor cover 12 and connected to the capacitor element bodies C1, C2, ..., C6.

The bending groove portion 16 is composed of a dam 16a and a key projecting portion 16b as shown in Fig. The dam 16a is formed so as to protrude from the side wall 11a of the condenser case 10, that is, the condenser storage container 11. The dam 16a is formed in a ring shape protruding from the side wall 11a of the condenser case 10, that is, the condenser case 11 so as to have a triangular cross section, and the current sensing sensor 30 is inserted The insertion hole 16c is formed. The key projection 16b is formed to protrude from the side wall 11a of the condenser case 10, that is, the condenser storage container 11, so as to be spaced apart from the dam. The key protrusion 16b is formed to protrude from the side wall 11a of the condenser case 10 to the outside of the condenser case 10 in an inclined manner.

The capacitor element block 20 is composed of a plurality of capacitor element bodies C1, C2, ..., C6 as shown in Figs. A plurality of capacitor bodies C1, C2, ..., C6 are provided inside the capacitor case 10 and connected by YY wiring, and resistors R1, R2, R3 are inserted into the terminal terminals 15, respectively, Respectively. R2 and R3 are inserted between the terminals C1 and C2 and terminal terminals 15 of the capacitor element bodies C1 and C2 and the current sensing sensor 30 is connected to the neutral points n1 and n2. The coil element 31 is connected. The resistors R1, R2 and R3 are used as discharging resistors so that the capacitor body block 20 is opened from the circuit device (not shown) in which the electric power capacitor of the present invention is used, And is used to discharge residual current and the like.

The current sensing sensor 30 is installed to be embedded in the inside of the capacitor case 10 as shown in FIGS. 1 and 4 to 6 and includes a coil element 31, a rod sensor 32, one or more supporting boards 33, A nut 34, and a snap ring 35. As shown in Fig.

The coil element 31 is disposed inside the capacitor case 10 as shown in FIGS. 4, 5 and 8 and has a neutral point n1 of the YY wiring of a plurality of capacitor element bodies C1, C2, ..., C6, n2 and is excited by a current flowing in the neutral points n1 and n2 and is composed of a core 31a and a coil 31b. The coil 31a is formed with an insertion hole 31c for inserting the rod sensor 32 in the longitudinal direction and the coil 31b is wound on the core 31a and one end and the other end are connected to neutral points n1 and n2, Lt; / RTI >

The rod sensor 32 is inserted into the outer circumferential surface of one side of the coil element 31 and activated by excitation of the coil element 31 as shown in Figs. 4, 5, 7 and 8, and the neutral point n1, As shown in FIG. The rod sensor 32 is inserted into the bending groove portion 16 formed in the side wall 11a of the condenser case 10. That is, the rod sensor 32 is inserted into the insertion hole 16c formed in the folding groove portion 16 and is positioned inside the capacitor case 10, detects that current flows through the neutral points n1 and n2, A sensor housing rod 32a, and a reed switch 32b.

The sensor housing rod 32a is inserted into the insertion hole 16c of the bending groove portion 16 formed in the side wall 11a of the condenser case 10 so as to be positioned inside the condenser case 10, 31 are inserted and formed of a rod member 110 and a hollow member 120.

The rod member 110 is inserted into the insertion hole 16c of the folding groove portion 16 formed in the side wall 11a of the capacitor case 10 and is disposed inside the capacitor case 10, 32b are inserted and a coupling groove 112 into which a snap ring 35 is inserted is formed on an outer peripheral surface of one side. Since the rod member 110 is embedded in the capacitor case 10 as described above, the current sensing sensor 30 is installed to be embedded in the capacitor case 10. 5, 7 and 8, the snap ring 35 is inserted into a coupling groove 112 formed on the outer peripheral surface of one side of the rod member 110 to support the supporting board 33, And a coil element 31 inserted and installed in the support member 31.

One or more supporting boards 33 are inserted into one or both of the outer peripheral surfaces of the rod members 110 and the supporting board 33 is inserted into insertion holes 36a are formed. The support board 33 is inserted into the rod member 110 so as to be positioned between the snap ring 35 and the side wall 11a of the coil element 31 or the coil element 31 or the condenser storage container 11, (31). The outer diameter f1 of the hollow member 120 is formed to be smaller than the outer diameter f2 of the hollow member 120 as shown in FIG. Is formed to be larger than the inner diameter g1 of the insertion hole 16c so that the hollow member 120 is caught when the sensor storage bar 32a is inserted into the insertion hole 16c.

The hollow member 120 is integrally formed at the other end of the rod member 110 and is positioned on the outer side of the capacitor case 10 and positioned inside the customer case 50. The hollow member 120 is formed with a thread 121 to which a nut 34 is fastened to the outer circumferential surface of the other side and the nut 34 is fastened to the sensor housing rod 32a of the rod sensor 32 It is used to fix. That is, the nut 34 is inserted into the insertion hole 16c of the bending groove portion 16 of the rod sensor 32 and the sensor case 32 And when it is inserted, it is fastened to the hollow member 120 to support the customer case 50.

The reed switch 31b is inserted into the sensor housing rod 31a so as to be located at a position corresponding to the coil element 31 and is opened or closed in accordance with the energization of the coil element 31 to generate a current flowing in the neutral point n1, And outputs it. That is, the reed switch 31b is inserted into the sensor accommodating rod 31a so as to be positioned inside the coil element 31 inserted into the sensor accommodating rod 32a, and a failure of the power capacitor of the customer And a customer connector 54 connected by a cable 55 are connected to the control device (not shown). The detailed description of the configuration is omitted because a known technology is applied.

The welding member 40 is formed so that the sensor accommodating bar 32a into which the reed switch 31b is inserted is supported more firmly in the bending groove 16. [

The welding member 40 is formed so as to be buried in the inside of the dam 16a by welding so that the sensor accommodating rod 32a inserted into the insertion hole 16c of the folding groove 16 is inserted into the side wall 11a of the capacitor case 10 ). That is, the welding member 40 is fixed to the lower side of the dam 16a by welding so that the inside of the dam 16a is buried in the state where the rod member 110 of the sensor accommodating bar 32a is inserted into the insertion hole 16c of the folding groove 16 Is formed on the dam 16a and the hollow member 120 in the form of an opened cup to fix the sensor housing rod 32a to the side wall 11a of the capacitor case 10.

5 to 8, the customer case 50 is installed between the capacitor case 10 and the current sensing sensor 30 to protect the current sensing sensor 30. The customer case 50 includes a cable storage container 51 and a customer cover 52).

The cable storage container 51 is inserted into the bending groove portion 16 formed in the side wall 11a of the condenser case 10. The cable storage container 51 is formed with a dam insertion groove 51a and a key insertion groove 51b. The dam insertion groove 51a is formed such that the dam 16a of the folding groove portion 16 is inserted into one side of the cable storage container 51 and the rod of the sensor storage rod 32a is inserted into the dam insertion groove 51a. A rod insertion hole 51c into which the member 110 is inserted is formed. The first inner diameter d1 of the dam insertion groove 51a is formed to be inclined so as to be larger than the second inner diameter d2 as shown in Fig. 6, and the first inner diameter d1 of the dam insertion groove 51a is formed in the bending groove portion 16 of the dam 16c and the second inner diameter d2 of the dam inserting groove 51a is greater than the second outer diameter e2 of the dam 16c of the bending groove 16. [ So that the bending groove portion 16 is easily inserted into the dam insertion groove 51a. The key insertion groove 51b is spaced apart from the dam insertion groove 51a so that the key projection portion 16b of the bending groove portion 16 is inserted and the key projection portion 16b is inserted into the key insertion groove 51b, The storage container 51 is fixed so as not to turn or move on the side wall 11a of the condenser storage container 11. [

The customer cover 52 is installed to be fastened to the cable storage container 51 and the fastening method of the customer case 50 is provided with threads 51d and 51d formed on the outer circumferential surface or inner circumferential surface of the cable storage container 51 and the customer cover 52, 52d to fasten the customer cover 52 to the cable storage container 51. The cable fixing member 53 is provided on the inner side of the customer case 50 and includes a cable fixing member 53b for fixing the cable 55 to the other side with an insertion hole 53a to be inserted into the hollow member 120, Is formed. The cable fixing member 53 is inserted into the hollow member 120 so as to be positioned between the cable storage container 51 and the nut 34 to be fastened to the hollow member 120 and the lead switch 32b and the customer connector 54 The cable 55 is connected.

The operation of the power capacitor of the present invention having the above-described configuration will now be described.

The capacitor element block 20, which is accommodated inside the capacitor case 10 and is composed of a plurality of capacitor element bodies C1, C2, ..., C6, maintains parallel capacitance between the internal connections YY during normal operation, , n2). On the other hand, when a failure occurs in any one of the plurality of capacitor element bodies C1, C2, ..., C6, the capacity parallelism between Y and Y is destroyed and the neutral points n1 and n2 of the plurality of capacitor element bodies C1, ).

When a current flows through the neutral points (n1, n2) of a plurality of capacitor element bodies (C1, C2, ..., C6) having a capacity parallel state of a plurality of capacitor element bodies (C1, C2, ..., C6) The sensor 30 detects it. The current sensing sensor 30 is connected to the neutral points n1 and n2 of the plurality of Y-Y connected capacitor bodies C1, C2, ..., C6 to sense current. That is, when the current flows through the neutral points n1 and n2, the current sensor 30 excites the coil element 31 disposed inside the capacitor case 10, and the coil element 31 is excited by the excitation of the coil element 31 The reed switch 32b housed in the sensor housing bar 32a of the rod sensor 32 is activated to block the load power source (not shown) or open the switch (not shown) to protect the power capacitor.

The reed switch 32b is sealed in a glass tube (member number non-base material) filled with an inert gas so that a contact portion (member number non-base material) is sealed, and when a current flows through the excitation of the coil element 31, And the contact state is detected by a control device (not shown) of the customer connected through the customer connector 34e so that a failure occurs in at least one of the plurality of capacitor bodies C1, C2, ..., C6 .

As described above, the power condenser of the present invention can facilitate the installation work of the current sensing sensor by reducing the welding area by using the bent structure of the bent groove portion in the case of installing the current sensing sensor in the capacitor case. It is possible to minimize the inflow of foreign matter due to the welding operation by reducing the welding area, thereby preventing the product life from being deteriorated by the foreign substance, and thus improving the productivity of the installation work of the current sensing sensor.

The power capacitor according to the present invention also facilitates the handling and installation of the power capacitor by embedding the current sensing sensor inside the capacitor case and can detect the failure of the plurality of capacitor cores at an early stage, The reliability can be improved.

INDUSTRIAL APPLICABILITY The power capacitor of the present invention can be applied to a capacitor manufacturing industry or a power generation equipment manufacturing field.

10: Capacitor case 11: Capacitor storage container
12: capacitor cover 13: ground connecting member
14: Case supporting member 15: Terminal terminal
20: capacitor body block C1, C2, ... , C6: capacitor body
30: current sensor 31: coil element
32: Bar sensor 33: Supporting board
34: Nut 35: Snap ring
40: welding member 50: customer case
51: Cable storage container 52: Customer cover

Claims (11)

A condenser case;
A bending groove formed in the side wall of the condenser case and having an insertion hole;
A plurality of capacitor bodies disposed inside the capacitor case and connected to each other by a Y-Y line;
A current sensing sensor inserted into the insertion hole of the bent groove and connected to a neutral point of the YY connection of the plurality of capacitor element bodies to detect a current flowing in the neutral point;
A welding member formed to be embedded in the shaving groove and fixing the current sensing sensor to the side wall of the capacitor case;
And a customer case inserted into the bending groove to cover the current sensing sensor. [2] The apparatus of claim 1, wherein the capacitor case includes: a capacitor storage container having the plurality of capacitor bodies disposed therein and having a bending groove formed in a side wall thereof;
And a condenser cover provided on the upper side of the condenser storage container,
The capacitor cover is welded to a capacitor storage container. A plurality of terminal terminals are provided on the upper side of the capacitor cover. The plurality of terminal terminals are respectively connected to the capacitor body, and a resistor is inserted between the terminal terminal and the capacitor body. Features a power capacitor. [3] The apparatus as claimed in claim 2, wherein the bending groove portion comprises: a dam protruding from a side wall of the condenser case,
And a key protrusion protruding from a side wall of the condenser case to be spaced apart from the dam,
Wherein the dam and the key projecting part are formed to protrude outward from the side wall of the capacitor case to the outside of the capacitor case, respectively. [2] The apparatus of claim 1, wherein the current sensor comprises: a coil element installed inside the capacitor case and connected to a neutral point of the YY connection of the plurality of capacitor element bodies and excited by a current flowing at a neutral point;
And a rod sensor inserted into the outer circumferential surface of one side of the coil element and activated by excitation of the coil element to detect a current flowing to the neutral point,
The rod sensor includes a sensor receiving rod inserted into a bending groove formed in a side wall of a condenser case and positioned inside the condenser case and having a coil element inserted into a side thereof, And a reed switch which is inserted into the inside of the coil and is opened and closed according to the energization of the coil element to sense and output a current flowing in the neutral point. [5] The apparatus according to claim 4, wherein the sensor housing rod has a rod member inserted into a bending groove formed in a side wall of the condenser case and positioned inside the condenser case and having an insertion groove into which the reed switch is inserted,
And a hollow member which is integrally formed at the other end of the rod member and is installed on the outer side of the capacitor case,
The support member is formed of a circular plate having an insertion hole for inserting the support member at one side or the other side of the rod member at the center of the support member, Wherein the coil member is inserted in the rod member so as to be positioned between the coil member and the side wall of the capacitor storage container to support the coil member, and the hollow member has a thread to be fastened to the outer circumferential surface of the other side. The power condenser according to claim 5, wherein a snap ring is formed on an outer circumferential surface of one side of the rod member, and a snap ring for supporting a coil element inserted and installed in the rod member is inserted. The power condenser according to claim 5, wherein the outer diameter of the rod member is smaller than the outer diameter of the hollow member, and the outer diameter of the hollow member is larger than the inner diameter of the insertion hole of the bending groove. The damper according to claim 1, wherein the welding member is formed in the dam and the hollow member so that the inside of the dam is buried by welding in a state where the rod member of the sensor storage rod is inserted into the insertion hole of the bending groove, And the second electrode is fixed. [2] The apparatus according to claim 1, wherein the customer case comprises a cable storage container inserted into a bending groove formed in a side wall of the capacitor case, and a customer cover fastened to the cable storage container,
The cable receiving container has a dam insertion groove formed at one side thereof for receiving a dam of the bending groove and an insertion hole formed at an inner side of the insertion slot to receive a rod member. And a key insertion groove into which a key projection is inserted. The dam member according to claim 9, wherein the dam insertion groove is inclined so that the first inner diameter is larger than the second inner diameter, the first inner diameter of the dam insertion groove is larger than the first outer diameter of the dam of the bending groove, And the second inner diameter is formed to be larger than the second outer diameter of the dam of the bending groove portion. [12] The apparatus according to claim 9, wherein the customer case includes a cable cover, a customer cover, and a cable fixing member, And a cable fixing member for fixing the cable to the other side is formed and inserted into the hollow member so as to be positioned between the cable storage container and the nut fastened to the hollow member, And the cable connecting the connector is fixed.

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