JP2000195748A - Capacitor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an inexpensive easily operable capacitor by reducing the installed space and workability of the capacity. SOLUTION: A capacitor is composed of an encapsulating case 1 having a width A of <=25 mm, a lid body 2 which closes the case 1, a plurality of element spaces 3 provided in the case 1 in the longitudinal direction, and flattened 'Koban' (old Japanese coin having an elliptic shape) shape wound capacitor elements 4a, 4b, and 4c which are housed in the spaces 3 so that the elements 4a, 4b, and 4c may be arranged in the longitudinal direction of the case 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power capacitor used for improving a power factor and an electric equipment capacitor used for various electric circuits.

[0002]

2. Description of the Related Art Conventionally, a capacitor of this type is disclosed in Japanese Utility Model Laid-Open No. Hei 4-20223, Japanese Utility Model Laid-open No. Sho 60-11436, Japanese Utility Model Laid-Open No. 5-82037, and the like. 26.

That is, in the configuration shown in FIG. 24, a plurality of cylindrical capacitor elements 51 are arranged in a triangular shape, housed in an exterior resin case 52, and potted with a thermosetting resin. This is for the purpose of reducing the mounting occupation area of the capacitor and improving the heat dissipation balance of the capacitor.

[0004] In the configuration shown in FIG.
The capacitor element 53, the resistor 54 and the thermal fuse 58 are housed in the same case 55 and filled with an epoxy resin 56 or the like to form an integrated structure.

[0005] In the configuration shown in FIG.
A capacitor element 62 is provided in each of two element storage sections separated by an upwardly projecting element partitioning frame 59 provided integrally with an inner bottom portion (not shown) as a resin case 60, and a capacitor element 62 and a lead wire 61 are provided. Are connected to each other, and a filling resin 63 is injected into a void portion of the resin case 60,
The purpose of the present invention is to improve the insulation properties of the electrode lead portions.

[0006]

However, the above-mentioned conventional capacitors have the following problems and problems.

Here, when the circuit breaker is mounted on the distribution board such that the operating handle of the circuit breaker is in the vertical direction, the vertical direction of the circuit breaker is the longitudinal direction (vertical direction of the distribution board), and the horizontal direction of the circuit breaker is the width. The direction (the left-right direction of the distribution board) and the depth direction of the circuit breaker will be referred to as the height direction (the depth direction of the distribution board), and will be described below.

In the configuration shown in FIG. 24, a plurality of cylindrical capacitor elements 51 are arranged in a triangular shape, housed in an exterior resin case 52, and potted with a thermosetting resin. Although an attempt is made to reduce the area occupied by the capacitors, it is difficult to reduce the installation space in this structure when actually mounting these capacitors.

That is, when the area occupied by a capacitor is reduced in a place where the capacitor is mounted, for example, in a distribution board,
It is difficult to arrange many capacitors in the width direction with a triangular prism or square prism.

In the case of a distribution board or the like, there is a certain degree of freedom in the longitudinal direction for routing wiring materials such as a circuit breaker and a capacitor, whereas when a DIN rail is installed in the width direction. 24, there is a tendency that circuit breakers and capacitors are packed as much as possible to reduce the arrangement. Therefore, it is important to reduce the width in order to reduce the space required for the entire dividing board. As a result, in the configuration of FIG. It is difficult to reduce the installation space such as a switchboard.

Also, in the configuration shown in FIG.
The capacitor element 53, the resistor 54, and the thermal fuse 58 are housed in the same case 55 and filled with an epoxy resin 56 or the like to form an integrated structure. A plurality of elements such as the capacitor element 53, the resistor 54, and the thermal fuse are housed in the inside, and a distance between the elements is increased in order to maintain insulation between these elements at different potentials, or other insulators are used. It was necessary to secure insulation.

On the other hand, in the configuration shown in FIG. 26, the capacitor element is provided in two element storage sections separated by an upwardly projecting element partitioning frame 59 provided integrally with the inner bottom as a resin case 60. Each of the two capacitor elements 62 has a purpose of improving the insulation characteristics between the electrode lead-out portions. However, when the epoxy resin is poured into the resin case 60, It was necessary to control the injection amount of the epoxy resin so that the epoxy resin did not spill from the case 60, and great care was required in the casting operation.

Generally, in a resin-filled capacitor, the external lead-out terminal fittings and the terminal block are arranged above the opening of the resin case. This is because it is structurally simple to arrange the external lead-out terminal fitting and the terminal block in the opening of the resin case, and the workability is excellent.

However, in the configuration in which the external lead-out terminal fittings and the terminal block are arranged in the opening of the resin case, the height is naturally increased. Cannot take this configuration.

[0015] On the other hand, in a customer having a distribution board attached thereto, with respect to a layout change of components in the distribution board due to a change in power capacity or the like, for example, the shapes of the circuit breaker and the capacitor, especially the width dimensions are different. Therefore, it was not easy.

As a solution to this, a circuit breaker or a capacitor in the distribution board may be mounted with a margin in consideration of a layout change. In this case, it is difficult to reduce the size of the distribution board. is there.

In order to reduce the size of a small-capacity capacitor, a circular wound capacitor element is provided in an outer case due to the customary idea that a circuit breaker is a breaker and a capacitor is a capacitor, and because of manufacturing and cost reasons. Since the capacitor is sealed, when the capacitor is reduced in size, the size of the capacitor as a whole is reduced, and there is no particular consideration regarding the dimension in the width direction.

According to the present invention, when studying the miniaturization of capacitors through the miniaturization of distribution boards and distribution boards, regarding the distribution boards and distribution boards, (1) the capacitors are arranged near the circuit breaker, and both are directly wired. You. (2) The distribution board and the distribution board have a dimensional freedom in the longitudinal direction as compared to the width direction. (3) The circuit breaker is installed on a DIN rail or mounted according to JIS. In order to make the layout and wiring inside the distribution board and switchboard easier, the installation space of the capacitor is reduced and the work is taken into consideration, considering the ease of mounting on the DIN rail inside the switchboard and switchboard. It is an object of the present invention to provide an inexpensive and easy-to-use capacitor by reducing the performance.

[0019]

According to the present invention, in order to achieve the above object, a capacitor according to the first means of the present invention comprises:
An outer case for housing a capacitor element, and a lid for closing the outer case, wherein the outer case has a plurality of element spaces in a longitudinal direction and the width of the outer case is 25 mm or less. It is.

Further, the capacitor according to the second means of the present invention is the capacitor according to the first means, wherein a resin is filled in the element space and a resin reservoir for containing the resin overflowing from the element space is provided in the outer case. It is.

In the capacitor according to a third aspect of the present invention, in the second aspect, the volume of the resin reservoir is set to 30% or less of the volume of the element space.

In the capacitor according to the fourth aspect of the present invention, in the second aspect or the third aspect, the height of the partition plate between the element space and the resin reservoir is lower than the height of the outer case.

According to a fifth aspect of the present invention, in the capacitor according to any one of the second to fourth aspects, a terminal portion is attached to the resin reservoir and a connection portion for connecting to the capacitor element is provided at the terminal portion. It is a thing.

According to a sixth aspect of the present invention, there is provided a capacitor comprising: at least one or more interior cases accommodating capacitor elements; an outer case accommodating the interior cases;
A cover for closing the outer case; the inner case is provided in a longitudinal direction of the outer case; and the width of the outer case is 25 mm or less.

According to a seventh aspect of the present invention, there is provided the capacitor according to the sixth aspect, wherein a terminal portion is attached to the outer case, and the terminal portion is provided with a connection portion connected to a capacitor element.

The capacitor according to an eighth aspect of the present invention is the capacitor according to the sixth or seventh aspect, wherein the resin is filled in the interior case, the resin overflowing from the interior case is accommodated in a resin reservoir, and the resin reservoir is provided. The part is provided in the space between the interior case and the exterior case.

According to a ninth aspect of the present invention, in the capacitor according to the fifth or eighth aspect, at least a part of the terminal portion is fixed by a resin in a resin reservoir.

According to a tenth aspect of the present invention, in the capacitor according to the fifth or seventh aspect, the terminal is slid into the fitting portion of the outer case.

The capacitor according to the eleventh means of the present invention is the capacitor according to any one of the first means to the tenth means, wherein the capacitor element is a flat, oval, wound capacitor element having three capacitor elements.

The capacitor according to the twelfth means of the present invention is the capacitor according to the fifth means, the seventh means, the eighth means, the ninth means, the tenth means, or the eleventh means, wherein: 1 arranged at the top
It consists of terminal fittings.

According to a thirteenth means of the present invention, in the eleventh means or the twelfth means, each of the wound capacitor elements is △ -connected and two of the wound capacitor elements have the same polarity. It is arranged to be.

[0032]

DESCRIPTION OF THE PREFERRED EMBODIMENTS A first means of a capacitor according to the present invention is provided with an outer case for housing a capacitor element, and a lid for closing the outer case, and the outer case has a plurality of element spaces. By having a configuration in which the width of the outer case is equal to or less than 25 mm in the longitudinal direction, the width of the single-pole specification of the JIS circuit breaker (JIS C8370: a common type circuit breaker for distribution boards) is provided. 2
Since 5 mm is satisfied, the degree of freedom in the longitudinal direction of the distribution board or the like can be effectively utilized, and the shape of the capacitor, particularly, the size in the width direction can be reduced.

In a second aspect of the capacitor according to the present invention, in the first aspect, a resin is filled in the element space and a resin reservoir for containing the resin overflowing from the element space is provided in the outer case. In addition to the action of the first means, when the filling resin is poured into the resin case, there is no need to control the injection amount, and even if the filling resin overflows from the case, the resin pool is It is accumulated in the part, and is excellent in workability.

The third means of the capacitor according to the present invention, in addition to the function of the second means, has a configuration in which the volume of the resin reservoir is 30% or less of the volume of the element space in the second means. The resin overflowing due to the expansion due to the temperature at the time of curing the resin can also be stored, and the workability is excellent.

Further, the fourth means of the capacitor according to the present invention is characterized in that, in the second means or the third means, the height of the partition plate between the element space portion and the resin reservoir is lower than the height of the outer case. In addition to the action of the second means or the third means, the degree of freedom in the height direction is ensured, so that the workability is excellent, and the direction in which the resin overflows when the filling resin is poured into the resin case is surely determined. It is possible to guide the resin to the resin reservoir and prevent leakage to the outside of the case.

According to a fifth aspect of the capacitor of the present invention, in any one of the second to fourth means, a terminal portion is attached to the resin reservoir portion, and the terminal portion is provided with a connection portion connected to a capacitor element. With this configuration, in addition to the operation of any of the second means to the fourth means, it is possible to share the terminal portion, the connection portion connecting the terminal portion with the capacitor element, and the resin reservoir portion in one space. Thus, a capacitor with less dead space can be provided.

According to a sixth aspect of the capacitor of the present invention, at least one or more interior cases accommodating the capacitor element, an exterior case accommodating the interior case, and a lid for closing the exterior case are provided. The inner case is provided in the longitudinal direction of the outer case, and the width of the outer case is 25 mm or less.
Effective use of the longitudinal flexibility of the distribution board etc. in order to satisfy the 25 mm width in the single pole specification of the S circuit breaker (JIS C8370: agreement type wiring breaker for distribution board). This makes it possible to reduce the size of the capacitor in the width direction, and the interior case can be set to an arbitrary shape without being caught by the exterior case shape, thus providing excellent workability.

According to a seventh aspect of the capacitor of the present invention, in the sixth aspect, a terminal is attached to the outer case, and the terminal is provided with a connecting portion connected to a capacitor element. In addition to the functions of the six means, the terminal portion, the connection portion for connecting the terminal portion and the capacitor element, and the resin reservoir can be shared in one space, so that a capacitor with less dead space can be provided.

According to an eighth aspect of the capacitor of the present invention, in the sixth or seventh aspect, the resin is filled in the interior case, the resin overflowing from the interior case is accommodated in a resin reservoir, and the resin reservoir is provided. With the configuration in which the part is provided in the space between the inner case and the outer case, in addition to the function of the sixth means or the seventh means, the inner case can be set to any shape without being caught by the outer case shape Therefore, the amount of casting resin can be minimized, and there is no need to control the amount of casting resin when casting the filling resin in the interior case. Also accumulates in the resin reservoir provided in the space between the inner case and the outer case, which is excellent in workability.

The ninth means of the capacitor according to the present invention is characterized in that, in the fifth means or the eighth means, at least a part of the terminal portion is fixed by the resin in the resin reservoir, In addition to the function of the eighth means,
It is possible to further firmly fix the terminal portion attached to the resin reservoir, and to provide a capacitor with excellent reliability.

The tenth means of the capacitor of the present invention is as follows.
In the fifth means, the seventh means or the ninth means, by adopting a configuration in which the terminal portion is slid and fitted into the fitting part of the outer case, in addition to the action of the fifth means, the seventh means or the ninth means, In addition, it is possible to provide a capacitor that is easier to attach to the terminal portion attached to the resin reservoir portion, has a stronger fixing thereof, is excellent in workability, and has improved reliability.

The eleventh means of the capacitor of the present invention is as follows.
In any one of the first to tenth means, by adopting a configuration in which the capacitor element is three flat, oval-shaped wound capacitor elements, in addition to the action of any of the first to tenth means, Width of 25 mm in single-pole specification of JIS circuit breaker (JIS C8370: agreement type circuit breaker for distribution board) can be utilized more effectively in the longitudinal direction of the distribution board and the like. Can be easily satisfied, and the occupancy of the capacitor element in the cubic case can be further improved.

The twelfth means of the capacitor of the present invention is as follows.
In the fifth means, the seventh means, the eighth means, the ninth means, the tenth means, or the eleventh means, the terminal portion is composed of two parallel terminal fittings and one terminal fitting disposed thereon. By adopting the configuration, the fifth means, the seventh means, the eighth means, the ninth means, or the tenth means
In addition to the function of the means or the eleventh means, it is possible to arrange three terminal fittings having different potentials in a case having a narrow width of 25 mm or less, and obtain a necessary function such as external drawing while reducing the shape of the capacitor. And a safe and reliable capacitor can be provided.

The thirteenth means of the capacitor according to the present invention comprises:
In the eleventh means or the twelfth means, each of the wound capacitor elements is △ -connected, and two of the wound capacitor elements are arranged so that the same poles are opposed to each other. In addition to the function of the means or the twelfth means, the metal sprayed portions of the same potential of the three elements used for the connection can be housed side by side, thereby facilitating insulation between the capacitor elements, and connecting the external lead terminal fittings to each of the capacitor elements. The connecting wires to be connected can be wired so as to relay the capacitor element electrode portions facing each other.

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

(Embodiment 1) Embodiment 1 is an embodiment according to claim 1 of the present invention. FIG. 1 is a perspective view of a capacitor, and FIG. 2 is a structural sectional view of the capacitor.

In FIG. 1, reference numeral 1 denotes a capacitor element 4a,
An outer case for accommodating 4b, 4c, 2 is an outer case 1
Is a device space portion, and 5 is a capacitor element partition plate for partitioning the capacitor element 4. The outer case 1 has a plurality of element spaces 3 in the longitudinal direction, and the width A of the outer case 1 is 25 mm or less.

FIG. 2 is a sectional view of the structure taken along the line aa ′ in FIG. By adopting the above configuration, the width dimension of 25 mm in the single-pole specification of the JIS wiring breaker (JIS C8370: the agreement type wiring breaker for distribution board) is satisfied. The degree of freedom can be effectively used, and the shape of the capacitor,
In particular, the size can be reduced in the width direction.

(Embodiment 2) Embodiment 2 is an embodiment according to claim 2 of the present invention. FIG. 3 is a perspective view of a capacitor, and FIG. 4 is a structural sectional view of the capacitor.

The same components as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted. In FIG. 3, reference numeral 1a denotes an outer case for housing the capacitor elements 4a, 4b, 4c;
a is a lid for closing the outer case 1a, 3a is an element space, 7a is a resin reservoir for accommodating the resin 7 overflowing from the element space 3, and 6a is an element space 3a in the outer case 1.
And a resin plate for partitioning the resin reservoir 7a. The outer case 1a has a plurality of element spaces 3a in the longitudinal direction, and the resin 7 is filled in the element spaces 3a between the capacitor elements 4a, 4b, 4c and the outer case 1a.

FIG. 4 is a structural cross-sectional view taken along the line bb 'of the capacitor shown in FIG. With the above configuration, when the resin 7 is filled in the element space 3a of the outer case 1a, even if the resin 7 overflows from the element space 3a, it is accommodated in the resin reservoir 7a.

Therefore, when the resin 7 is cast into the resin case 1a, there is no need to control the filling amount, and even if the resin 7 overflows from the outer case 1a, the resin 7 remains in the resin reservoir 7a. It is possible to store the leaked resin 7 and prevent the resin 7 from leaking to the outside from the outer case 1a, thereby providing a capacitor excellent in workability.

(Embodiment 3) Embodiment 3 is an embodiment according to claim 3 of the present invention.

FIG. 5 is a graph showing the expansion coefficient of the resin 7 according to the curing temperature. The horizontal axis indicates the curing temperature of the resin, and the vertical axis indicates the expansion coefficient of the resin.

In the third embodiment, the volume of the resin reservoir 7a of the capacitor in the second embodiment is set to 30% or less of the volume of the element space 3a. By adopting this configuration, the inside of the resin case 1a is filled. When the cured resin is cured, the resin overflowing due to expansion due to temperature is removed from the resin reservoir 7.
a.

Generally, the curing temperature of the resin is 70 ° C. to 11
It is performed at 0 ° C., and the expansion coefficient of the resin at this temperature is 20% to 26% from FIG. Further, the expansion coefficient of the resin when the curing temperature of the resin is 130 ° C. is about 30%. Therefore, if the volume of the resin reservoir 7a of the capacitor is 30% of the volume of the element space 3a, the expansion of the resin is smaller than the expansion rate of the resin under general curing conditions of 20% to 26%. Can be stored in the resin pool 7a.

Further, the rate of guaranteeing the increased amount of resin is 30%.
The reason is that considering the internal temperature variation of the thermostatic oven for curing the resin 7, in a thermostatic oven with poor circulation, the worst case temperature variation is considered ± 20 ° C. Therefore, up to 130 ° C at + 20 ° C of 110 ° C. This is because it is necessary to guarantee. Therefore, the amount of resin expansion due to the temperature at the time of curing the resin can be stored in the resin storage portion 7a, thereby providing a capacitor excellent in workability.

(Embodiment 4) Embodiment 4 is an embodiment according to claim 4 of the present invention, and FIG. 6 is a structural sectional view of a capacitor.

Here, FIG. 6 is a structural sectional view at a location similar to bb 'in FIG. In FIG. 6, 1b is an outer case for housing the capacitor elements 4a, 4b, 4c,
2b is a lid for closing the outer case 1b.
b is a structure having a plurality of element spaces 3b in the longitudinal direction, and the capacitor elements 4a, 4b, 4c and the outer case 1
b, the resin space 7b is filled with the resin 7 and the resin pool 7b for accommodating the resin 7 overflowing from the element space 3b.
Is provided in the outer case 1b, and the height of the partition plate 6b between the element space 3b and the resin reservoir 7b is lower than the height of the outer case 1b.

In the fourth embodiment, the overflowing resin at the time of casting of the resin described in the second or third embodiment and the overflowing resin due to expansion when the resin is hardened are filled in the resin reservoir before overflowing to the outside of the case. It has a configuration that leads.

Therefore, in the capacitor of the fourth embodiment, the direction in which the resin 7 overflows when the resin 7 is poured into the resin case 1b can be reliably guided to the resin reservoir 7b.
The capacitor has an effect of preventing leakage to the outside of the outer case 1b and has a high degree of freedom in the height direction, so that a capacitor excellent in workability can be provided.

In order to reliably guide the overflowing resin to the resin pool 7b, the element space 3b and the resin pool 7b
The same effect can be obtained by providing a small groove in the partition plate 6b, and providing a location slightly lower than the entire partition plate 6b to guide the flow of the resin 7.

In the second or third embodiment, similar effects can be obtained by adopting a similar configuration.

(Embodiment 5) Embodiment 5 is an embodiment according to claim 5 of the present invention. FIG. 7 is a perspective view of a capacitor, and FIG. 8 is a structural sectional view of the capacitor.

7 and 8, reference numeral 1c denotes an outer case for accommodating the capacitor elements 4a, 4b, 4c, 2c denotes a lid for closing the outer case 1, and the outer case 1c extends the plurality of element spaces 3c in a longitudinal direction. The resin space 7c between the capacitor elements 4a, 4b, 4c and the outer case 1c is filled with the resin 7, and the resin reservoir 7c for accommodating the resin 7 overflowing from the element space 3c. Is provided in the outer case 1c, the height of the partition plate 6c between the element space 3c and the resin reservoir 7c is made lower than the height of the outer case 1c, and the terminal 10 is attached to the resin reservoir 7c.
The terminal section 10 is provided with an internal connection section 8a connected to the capacitor elements 4a, 4b, 4c.

In the fifth embodiment, an external connection portion 8b for extending an electrode from capacitor elements 4a, 4b, 4c to the outside is provided on top of the structure in any of the second to fourth embodiments. Connect the lead wire 9 to the solder 1 at the internal connection 8a.
0 or a terminal portion 10 connected by welding or the like for holding the connection portion 8 composed of the internal connection portion 8a and the external connection portion 8b in the resin reservoir 7c, and connecting an external connection wire to the external connection portion 8b. In this configuration, screws 11 are attached.

Therefore, by adopting the above configuration, the terminal portion 10 and the terminal portion 10 and the capacitor element 4
a, 4b, 4c and the internal connection portion 8a and the resin pool portion 7c can be shared by one space,
The space occupancy of the capacitor can be improved, and the dead space can be reduced.

(Embodiment 6) Embodiment 6 is an embodiment according to claim 6 of the present invention. FIG. 9 is a perspective view of a capacitor, and FIG. 10 is a structural sectional view of the capacitor.

In FIG. 9, reference numeral 12 denotes a capacitor element 4
a, 4b, and 4c, an inner case, 1d is an outer case that houses the inner case 12, 2d is a lid that closes the outer case 1d, and the inner case 12 is configured to extend the plurality of element spaces 3d in the longitudinal direction. The outer case 1d has a width A of 25 mm or less.

FIG. 10 is a structural sectional view taken along the line dd 'in FIG. By adopting the above configuration, JIS
In order to satisfy the width dimension of 25 mm in the single pole specification of the wiring breaker (JIS C8370: agreement type wiring breaker for distribution board), it is possible to make effective use of the degree of freedom in the longitudinal direction of the distribution board and the like. It is possible to reduce the size of the capacitor in the width direction, and the interior case can be set to any shape without being caught by the exterior case shape.
Excellent workability.

FIGS. 11, 12 and 13 are top views showing the shape of the interior case 12. FIG.

FIG. 11 is a top view of FIG. 9 and FIG.
The shape of the inner case 12 accommodating the cylindrical capacitor elements 4 is matched to the shape of the outer case 1d, and a capacitor element partition plate 5a for separating each capacitor element 4 is provided.
The space between each capacitor element 4 and the interior case 12 is filled with an insulating resin.

According to this embodiment, the space between the capacitor element 4 and the interior case 12 is increased by the round capacitor element and the square interior case.
Although the amount of the filled resin increases, the storage state of the interior case 12 in the exterior case 1d is good, and a stable structure is obtained.

FIG. 12 shows a case in which the shape of the interior case is matched to the capacitor element 4 and three round shapes are connected to each other, and the interior shape of the exterior case 13 is matched to the interior case 14.

In this case, the waste of the resin amount due to the difference in the case shape as described above can be eliminated, and a more economical product can be obtained.

FIG. 13 shows a case where the outer case 13 has the same shape as that described above, and the inner case 15 has a round shape in accordance with the shape of the capacitor element 4 and is housed independently in each element.

In this case, the useless space is minimized, and it is more economical. Although the shapes shown in FIGS. 11 to 13 have been described using the round capacitor element, the present invention is not limited to this, and it is easily presumed that the same effect can be obtained in other shapes. For example, similar effects can be obtained by using an interior case adapted to those shapes, such as an oval-shaped capacitor element and a square-shaped capacitor element.

Further, among the shapes shown in FIGS. 11 to 13, which shape should be selected may be the most efficient shape in consideration of economy and workability.

(Embodiment 7) Embodiment 7 is an embodiment according to claims 7 and 8 of the present invention.
FIG. 2 is a structural sectional view of a capacitor.

Here, FIG. 14 is a structural cross-sectional view at a location similar to dd 'in FIG. In FIG. 14, 12
a is an interior case accommodating the capacitor element 4, 1e is an exterior case accommodating the interior case 12a, 2e is a lid for closing the exterior case 1c, and the interior case 12a extends a plurality of element spaces 3b in the longitudinal direction. The resin space 7b is filled with the resin 7, and the resin 7 overflowing from the interior case 12a is accommodated in the resin reservoir 7e.
Is provided in the space between the inner case 12a and the outer case 1c, and the width A dimension of the outer case 1e is 25 mm or less.

The terminal portion 10 is attached to the outer case 1e, and the terminal portion 10 is provided with the connecting portion 8 for connection to the capacitor element 4, so that the terminal portion 10 and the terminal portion 10 and the capacitor element 4 are connected. The internal connection portion 8a and the resin pool portion 7e can be shared by one space, and a capacitor with a small dead space can be provided.

The interior case 12a is connected to the exterior case 1e.
It is possible to make an arbitrary shape without being caught by the above shape, so that the amount of the casting resin can be minimized. Further, when casting the filled resin 7 into the interior case 12a, there is no need to control the casting amount, and even if the filled resin 7 overflows from the interior case 12a, the interior case 12a The resin 7 overflowing in the resin reservoir 7e provided in the space between the outer case 1e and the outer case 1e can be stored, and a capacitor excellent in workability can be provided.

(Embodiment 8) Embodiment 8 of the present invention is an embodiment according to claim 9 of the present invention, and FIG. 15 is a structural sectional view of a capacitor in which a terminal portion is enlarged.

Here, FIG. 15 is a structural cross-sectional view at a location similar to dd 'in FIG. 15, the same components as those in FIG. 14 of the seventh embodiment are denoted by the same reference numerals, and description thereof will be omitted.

A terminal portion 10a is formed such that a portion 10c of the terminal portion is inserted into the resin reservoir 7e. A portion 10c of the terminal portion 10a is fixed by the resin 7 in the resin reservoir 7e. The terminal portion 10a attached to the resin reservoir 7e can be more firmly fixed, and a capacitor with improved structural reliability can be provided.

(Embodiment 9) Embodiment 9 is an embodiment according to claim 10 of the present invention. FIG. 16 (a) is an enlarged perspective view of a capacitor terminal portion, and FIG. It is a top view of a joining part.

In the capacitor shown in FIGS. 16A and 16B, as shown in FIGS. 7 and 8 in the fifth embodiment, as a method of fixing the terminal portion 10, a groove 16 for slide fitting is formed in the terminal portion 10. And a convex groove 16 for slide fitting in the outer case 1c.
a is formed, the groove 16 for sliding fitting of the terminal portion 10 is aligned with the convex groove 16a for sliding fitting of the outer case 1c, and the terminal portion 10 is slid from above to fit. It is possible to provide a capacitor with improved structure reliability in which the attachment of the terminal portion 10 attached to the resin pool portion 7c can be made simpler, the fixing thereof can be further strengthened, and the workability is improved.

It should be noted that FIGS. 14 and 15 in the seventh embodiment and FIGS. 15 and 16 in the eighth embodiment also have the same convex groove for slide fitting and concave groove for slide fit as described above. The effect is obtained.

(Embodiment 10) Embodiment 10 is an embodiment according to claims 11, 12 and 13 of the present invention. FIG. 17 (a) is a perspective view of a capacitor, and FIG. ) Is a front view of the capacitor, FIG. 17C is a perspective view of the capacitor element, and FIG. 18 is ee ′ of FIG.
19 and 20 are equivalent circuits, FIG. 21 and FIG. 22 are diagrams showing a method of forming a capacitor element used for them, and FIG. 23 is an equivalent circuit of a conventional example. is there.

17 (a), (b), (c) and FIG. 18, reference numerals 4d, 4e, and 4f denote flat, oval-shaped wound capacitor elements, respectively, and 1f denotes a flat, oval-shaped wound capacitor. An outer case for housing the elements 4d, 4e, 4f, 2
"e" is a cover for closing the outer case 1f.
Has a plurality of element spaces 3c in the longitudinal direction, and accommodates capacitor elements 4d, 4e, and 4f in the element spaces 3c such that the metal sprayed portions 20 thereof extend in the longitudinal direction of the outer case 1f.

When the resin 7 is filled in the element space 3c, the resin 7 overflowing from the element space 3c is accommodated in the resin reservoir 7f. This resin reservoir 7f is attached to the outer case 1f.
The width A dimension of the outer case 1f is set to 25 mm or less.

Therefore, the degree of freedom in the longitudinal direction of the distribution board or the like can be more effectively utilized, and the single-pole of the JIS wiring breaker (JIS C8370: the agreement type wiring breaker for distribution board) can be used. The width dimension of 25 mm in the specification can be easily satisfied, and the occupancy of the capacitor element in the cubic case can be further improved.

The terminal 10b is attached to the outer case 1f, and the capacitor 4 is connected to the terminal 10b.
A connection section 8 for connecting to the terminal section 10 is provided.
b has two terminal fittings 11 arranged in parallel and one terminal fitting 11 located above the terminal fittings 11.

Therefore, the terminal portion 10b and the terminal portion 1
The internal connection portion 8a connecting the Ob and the capacitor elements 4d, 4e, 4f and the resin reservoir 7f can be shared by one space, so that a capacitor with a small dead space can be provided.

Therefore, three flat, oval-shaped, wound-type capacitor elements 4d, 4e, 4f are provided in the outer case 1f.
, The occupancy of the capacitor element in the cubic case can be improved.

The three capacitor elements 4d, 4e,
In the case of the [Delta] connection using 4f, the metal sprayed portions 20 of the capacitor elements 4d, 4e, 4f are accommodated in the longitudinal direction of the outer case 1f, so that the three capacitor elements 4d, 4e used for [Delta] connection are formed. , 4f can be housed side by side, so that insulation between the capacitor elements 4d, 4e, 4f can be facilitated.

The terminal section 10b has two parallel terminal fittings 11 and one terminal fitting 11 located above the terminal fitting 11, and the width of the outer case 1f is 25 mm or less. Fits agreement module, 25mm
It is possible to arrange three terminal fittings with different potentials in the following narrow width case, so that it is possible to obtain necessary functions such as external draw-out while reducing the thickness of the capacitor, and at the same time, it is safe and reliable. Higher capacitors can be provided.

Therefore, for example, in a distribution board in which a capacitor is stored, reducing the width direction can contribute to a reduction in the space of the entire board, thereby achieving a reduction in the installation space of the distribution board. Can be.

FIG. 19 is a wiring circuit diagram of FIG. 17 and FIG. 18, and FIG. 20 is an equivalent circuit diagram of FIG. 17 and FIG. In a case where three are arranged in the longitudinal direction of the outer case 1f accommodating the three flat, oval-shaped, wound-type capacitor elements 4d, 4e, and 4f and are connected in the same direction, the capacitor elements 4d, 4e, and 4f have the same polarity. The electrode lead portions are arranged so as to face each other, and external lead wires 9a for connecting the internal lead portions 8a to the capacitor elements 4d, 4e, and 4f from the internal connection portion 8a are the respective electrode portions of the capacitor elements 4d, 4e, and 4f. Since it is wired so as to relay the metal sprayed portion 20, three capacitor elements 4d, 4e, 4f
In the case of △ connection using
The metal sprayed portions 20, which are the electrode lead portions of d, 4e, and 4f, are accommodated in the longitudinal direction of the outer case 1f.
By disposing the metal sprayed portions 20 which are the electrode extraction portions having the same polarity of d, 4e, and 4f so as to face each other, the electrodes of the same potential of the three capacitor elements 4d, 4e, and 4f used for the △ connection are formed. It is possible to house the metal spray parts 20 as draw-out parts side by side, thereby facilitating insulation between the capacitor elements 4d, 4e, and 4f.
FIG. 23 shows a structure in which external lead wires 9a for connecting to d, 4e, and 4f are wired so as to relay the metal sprayed portions 20, which are the respective electrode portions of the opposing capacitor elements 4d, 4e, and 4f. As described above, in the case of performing △ connection using three elements, conventionally, six external leads 63 were used,
In the present embodiment, as shown in FIG. 19, four external leads 9a can be implemented, and connection from the connection portion 8 can be facilitated, so that a capacitor excellent in workability can be provided.

In each of the first to ninth embodiments, the JIS is obtained by using the flat, oval-shaped wound capacitor elements 4d, 4e, and 4f of the present embodiment.
That can easily satisfy the 25 mm width dimension in the single-pole specification of the circuit breaker for wiring (JIS C8370: agreement type wiring breaker for distribution board), saves space, and is economically superior. Can be provided.

(Embodiment 11) FIGS. 21 (a), (b) and FIG. 22 show a capacitor element 4 used in this embodiment 11.
It is a figure explaining the formation method of d, 4e, and 4f.
That is, as shown in FIG. 21 (a), a capacitor element formed by winding two or more metallized films 18 metal-deposited on at least one surface is further pressed and further pressed as shown in FIG.
It is formed into an oval shape as shown in FIG.

Further, as shown in FIG. 22, a metal sprayed portion 20 is formed on the electrode lead portion by metal spray using a metal such as zinc 19, and the oval-shaped capacitor elements 4d and 4 are formed.
e, 4f are formed.

The oval-shaped capacitor element 4 having the above structure
By using d, 4e, and 4f in each of the first to tenth embodiments, a JIS wiring circuit breaker (JIS
C8370: breaker for common wiring for distribution boards) of 25 mm in the single pole specification can be easily satisfied.
Space saving can be achieved, and an economically superior capacitor can be provided.

[0104]

As is apparent from the above description, the capacitor of the first means of the present invention is provided with an outer case for housing a capacitor element, and a lid for closing the outer case.
The outer case has a plurality of element spaces in the longitudinal direction, and the outer case has a width of 25 mm or less.
(C8370: agreement type circuit breaker for distribution board) in order to satisfy the width dimension of 25 mm in the single-pole specification, it is possible to effectively utilize the longitudinal freedom in the distribution board and the like, and to improve the shape of the capacitor and the like. In particular, the size can be reduced in the width direction.

The capacitor according to the second aspect of the present invention is the capacitor according to the first aspect, wherein a resin is filled in the element space and a resin reservoir for accommodating the resin overflowing from the element space is provided in the outer case. In addition to the effect of the first means, when the filling resin is poured into the resin case, there is no need to control the injection amount, and even if the filling resin overflows from the case, the resin pool is Thus, the capacitor can be stored in the portion, and provides a capacitor excellent in workability.

The capacitor according to the third aspect of the present invention has a configuration in which the volume of the resin reservoir is set to 30% or less of the volume of the element space in the second aspect. It is possible to store a resin overflowing due to expansion due to temperature at the time of curing the resin, and to provide a capacitor excellent in workability.

The capacitor according to the fourth aspect of the present invention is the capacitor according to the second aspect or the third aspect, wherein the height of the partition plate between the element space portion and the resin reservoir is lower than the height of the outer case. In addition to the effects of the second or third means, the degree of freedom in the height direction is ensured, so that workability is excellent, and the direction in which the resin overflows when the filling resin is poured into the resin case is surely ensured. The capacitor can be guided to the resin reservoir, has an effect of preventing leakage to the outside of the case, and provides a capacitor excellent in workability.

According to a fifth aspect of the present invention, there is provided the capacitor according to any one of the second to fourth means, wherein a terminal portion is attached to the resin reservoir and a connection portion for connecting to the capacitor element is provided at the terminal portion. By adopting the configuration described above, in addition to the effects of any of the second means to the fourth means, it is possible to share the terminal portion, the connection portion connecting the terminal portion with the capacitor element, and the resin reservoir portion in one space. And a capacitor having a small dead space.

A capacitor according to a sixth aspect of the present invention is provided with at least one or more interior cases accommodating a capacitor element, an exterior case accommodating the interior case, and a lid for closing the exterior case. The inner case is provided in the longitudinal direction of the outer case, and the width of the outer case is 25 mm or less.
Effective use of the longitudinal flexibility of the distribution board etc. in order to satisfy the 25 mm width in the single pole specification of the S circuit breaker (JIS C8370: agreement type wiring breaker for distribution board). This makes it possible to reduce the size of the capacitor in the width direction, and the interior case can be set to an arbitrary shape without being caught by the exterior case shape, thus providing excellent workability.

The capacitor according to the seventh aspect of the present invention is the capacitor according to the sixth aspect, wherein a terminal portion is attached to the outer case and the terminal portion is provided with a connection portion connected to a capacitor element. In addition to the effects of the six means, the terminal portion, the connection portion for connecting the terminal portion to the capacitor element, and the resin reservoir can be shared by one space, thereby providing a capacitor with a small dead space.

The capacitor according to the eighth aspect of the present invention is the capacitor according to the sixth or seventh aspect, wherein the resin is filled in the interior case, the resin overflowing from the interior case is accommodated in a resin reservoir, and the resin reservoir is provided. By taking the configuration in which the part is provided in the space between the inner case and the outer case, in addition to the effect of the sixth means or the seventh means, the inner case can be set to any shape without being caught by the outer case shape. This makes it possible to minimize the amount of casting resin, and when casting the filling resin into the interior case, there is no need to control the amount of casting resin. Even when the resin overflows, the resin accumulates in the resin reservoir provided in the space between the inner case and the outer case, thereby providing a capacitor excellent in workability.

The capacitor according to the ninth means of the present invention is characterized in that, in the fifth means or the eighth means, at least a part of the terminal portion is a capacitor fixed by the resin in the resin reservoir, thereby achieving the fifth feature. In addition to the effects of the means or the eighth means, the present invention provides a capacitor with improved structural reliability by further firmly fixing the terminal portion attached to the resin reservoir.

The capacitor according to the tenth means of the present invention comprises:
In the fifth means, the seventh means or the ninth means, by adopting a configuration in which the terminal portion is slid into the fitting part of the outer case and fitted, the terminal portion has the effect of the fifth means, the seventh means or the ninth means. , It is possible to more easily implement the method of attaching the terminals to be attached to the resin reservoir, and at the same time, to firmly fix them, to provide a capacitor with improved workability and improved structural reliability. Is what you do.

The eleventh means of the capacitor of the present invention is as follows.
In any one of the first to tenth means, by adopting a configuration in which the capacitor element is a three flat, oval-shaped wound capacitor element, the effect of any one of the first to tenth means is obtained. Width of 25 mm in single-pole specification of JIS circuit breaker (JIS C8370: agreement type circuit breaker for distribution board) can be utilized more effectively in the longitudinal direction of the distribution board and the like. Can be easily satisfied, and the occupancy of the capacitor element in the cubic case can be further improved.

The twelfth means of the capacitor of the present invention comprises:
In the fifth means, the seventh means, the eighth means, the ninth means, the tenth means, or the eleventh means, the terminal portion is composed of two parallel terminal fittings and one terminal fitting disposed thereon. In addition to the effects of the fifth means, the seventh means, the eighth means, the ninth means, the tenth means, and the eleventh means, three terminal fittings having different potentials are provided in a case having a narrow width of 25 mm or less. This makes it possible to obtain necessary functions such as external drawing while reducing the thickness of the capacitor, and at the same time to provide a safe and highly reliable capacitor.

The thirteenth means of the capacitor of the present invention is as follows.
In the eleventh means or the twelfth means, each of the wound capacitor elements is △ -connected, and two of the wound capacitor elements are arranged so that the same poles are opposed to each other. In addition to the effects of the means or the twelfth means, the metal sprayed portions of the same potential of the three elements used for connection can be housed side by side, facilitating insulation between the capacitor elements, and connecting to the respective capacitor elements from the external lead-out terminal fittings. Connection lines can be wired so as to relay the capacitor element electrode portions facing each other.

Therefore, it is possible to provide a capacitor which is smaller in size, lighter in weight, has a smaller installation space, has good manufacturing workability, and has excellent life characteristics.

[Brief description of the drawings]

FIG. 1 is a perspective view of a capacitor according to a first embodiment of the present invention.

FIG. 2 is a structural cross-sectional view taken along line aa ′ of FIG. 1 according to the first embodiment;

FIG. 3 is a perspective view of a capacitor according to the second embodiment.

FIG. 4 is a structural cross-sectional view taken along the line bb ′ of FIG. 3 in the second embodiment.

FIG. 5 is a diagram showing a resin expansion coefficient with respect to a resin curing temperature of the capacitor according to the third embodiment.

FIG. 6 is a structural sectional view of the capacitor according to the fourth embodiment.

FIG. 7 is a perspective view of a capacitor according to the fifth embodiment.

FIG. 8 is a structural sectional view taken along the line cc ′ of FIG. 7 in the fifth embodiment.

FIG. 9 is a perspective view of a capacitor according to the sixth embodiment.

FIG. 10 is a structural sectional view taken along the line dd ′ in FIG. 9 in the sixth embodiment.

FIG. 11 is a first top view of the capacitor according to the sixth embodiment.

FIG. 12 is a second top view of the capacitor according to the sixth embodiment.

FIG. 13 is a third top view of the capacitor according to the sixth embodiment.

FIG. 14 is a structural sectional view of the capacitor according to the seventh embodiment.

FIG. 15 is an enlarged structural sectional view of a terminal portion of the capacitor according to the eighth embodiment.

16A is an enlarged perspective view of a terminal portion of a capacitor according to the ninth embodiment. FIG. 16B is a top view of a fitting portion of the capacitor according to the ninth embodiment.

17A is a perspective view of a capacitor according to the tenth embodiment. FIG. 17B is a front view of the capacitor according to the tenth embodiment. FIG. 17C is a diagram of an oval wound type capacitor element according to the tenth embodiment.

FIG. 18 is a cross-sectional view of FIG.
Structure cross section at e '

FIG. 19 is a wiring diagram of a capacitor according to the tenth embodiment.

FIG. 20 is an equivalent circuit diagram of the capacitor according to the tenth embodiment.

FIG. 21A is a first explanatory view of the capacitor element according to the sixth embodiment. FIG. 21B is a second explanatory view of the capacitor element according to the sixth embodiment.

FIG. 22 is a view showing the formation of the capacitor element in Embodiment 10;

FIG. 23 is an equivalent circuit diagram of a conventional capacitor.

FIG. 24 is a first explanatory view of a conventional capacitor.

FIG. 25 is a second explanatory view of a conventional capacitor.

FIG. 26 is a third explanatory view of a conventional capacitor.

[Explanation of symbols]

1, 1a, 1b, 1c, 1d, 1e, 1f, 13 Outer case 2, 2a, 2b, 2c, 2d, 2e Lid 3, 3a, 3b, 3c Element space 4 Columnar capacitor element 4a, 4b, 4c Capacitor element 4d, 4e, 4f Oval-shaped wound capacitor element 5, 5a, 5b Capacitor element partition plate 6a, 6b, 6c Partition plate 7 Resin 7a, 7b, 7c, 7d, 7e, 7f Resin reservoir 8 Connection portion 8a Internal connection part 8b External connection part 9 External lead wire 10, 10a, 10b Terminal part 10c (part of terminal part 10) 11 Screw 12, 12, 12a, 14, 15 Inner case 16 Groove for slide fitting 16a For slide fitting Convex groove 17 Solder 18 Metallized film 19 Zinc 20 Metal sprayed part

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H01G 4/24 321Z (72) Inventor Masanori Tsuda 1006 Odakadoma, Kadoma City, Osaka Matsushita Electric Industrial Co., Ltd. ( 72) Inventor Susumu Matsumoto 1006 Kazuma, Kadoma, Osaka Pref.F-term in Matsushita Electric Industrial Co., Ltd. KK07 LL13 MM22 PP09 PP10

Claims (13)

[Claims] An exterior case for accommodating a capacitor element, and a lid for closing the exterior case are provided. The exterior case has a plurality of element spaces in a longitudinal direction, and the width of the exterior case is reduced. A capacitor that is 25 mm or less. 2. The resin-filled capacitor according to claim 1, wherein a resin is filled in the element space, and a resin reservoir for containing the resin overflowing from the element space is provided in the outer case. 3. The capacitor according to claim 2, wherein the volume of the resin reservoir is 30% or less of the volume of the element space. 4. The height of a partition plate between an element space portion and a resin reservoir portion is lower than the height of an outer case.
The capacitor as described. 5. The capacitor according to claim 2, wherein a terminal portion is attached to the resin reservoir portion, and the terminal portion is provided with a connection portion connected to a capacitor element. 6. At least one housing of a capacitor element
One or more interior cases, an exterior case that houses the interior case, and a lid that closes the exterior case are provided, and the interior case is provided in the longitudinal direction of the exterior case,
A capacitor having a width of the outer case of 25 mm or less. 7. The capacitor according to claim 6, wherein a terminal portion is attached to the exterior case, and the terminal portion is provided with a connection portion connected to a capacitor element. 8. An interior case is filled with a resin, and the resin overflowing from the interior case is accommodated in a resin reservoir, and the resin reservoir is provided in a space between the interior case and the exterior case. The capacitor as described. 9. The capacitor according to claim 5, wherein at least a part of the terminal portion is fixed by resin in the resin reservoir. 10. The capacitor according to claim 5, wherein the terminal portion is slidably fitted into the fitting portion of the outer case. 11. The capacitor according to claim 1, wherein the capacitor element is three flat, oval-shaped, wound-type capacitor elements. 12. The capacitor according to claim 5, wherein the terminal portion comprises two parallel terminal fittings and one terminal fitting disposed thereon. 13. The capacitor according to claim 11, wherein each of the wound-type capacitor elements is △ -connected, and two of the wound-type capacitor elements are arranged such that the same poles face each other.