JPH0587124B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a capacitor with a safety device.

(Prior art) When excessive current flows through a capacitor and it generates abnormal heat, the capacitor is destroyed, smokes or burns, and damages equipment.

Conventionally, to prevent this accident, a current fuse or temperature fuse was connected in series with the capacitor element, and when overcurrent or abnormal heat generation was detected, the fuse was activated to cut off the current flowing into the capacitor. .

By the way, when a temperature fuse is used in a wound type capacitor, the temperature fuse is inserted into the core of the capacitor element and a lead wire is pulled out.

(Problem to be Solved by the Invention) However, when a temperature fuse is inserted into a winding core and its lead wires are pulled out from the same direction, there is a risk that the lead wires may come into contact with each other. Therefore, at least one lead wire must be covered with an insulating sleeve, which makes the work difficult. In particular, when applying metallicon to the end face of a capacitor element, it is necessary to double coat the metallicon and remove the outer coating after forming the metallicon, which is more difficult.

Further, the diameter of the temperature fuse is smaller than the diameter of the core so that it can be inserted into the core. As a result, voids are created in the core. When the metallicon is formed in this state, there is a drawback that the metallicon gets into the winding core and the metallicon on both end faces is short-circuited in the winding core.

SUMMARY OF THE INVENTION An object of the present invention is to improve the above-mentioned drawbacks and to provide a capacitor with a safety device that allows easy installation of a temperature fuse and is highly reliable.

(Means for Solving the Problems) In order to achieve the above object, the present invention inserts a temperature fuse with a holder into the core of a wound capacitor element, and connects the lead wire of the temperature fuse from the core of the winding. In a capacitor with a safety device that is pulled out and connected between an external terminal and an electrode, there is a storage section for storing a temperature fuse, a drawer section of different lengths connected in parallel to this storage section, and a drawer section for this drawer section. A capacitor with a safety device is provided, characterized in that a holder is provided having a groove in which a lead wire is disposed, and a collar that covers a gap in a winding core provided at an end of the drawer part.

In addition, in the case where the wound type capacitor element has a configuration in which a metallized film is wound and an electrode made of metallicon is provided on the end face, the lead wire of the temperature fuse is connected between the external terminal and the metallicon.

Furthermore, as in an electrolytic capacitor, when a wound capacitor element has a structure in which an anode electrode foil and a cathode electrode foil are laminated with a separator in between and wound,
A lead foil is connected to the anode electrode foil and the cathode electrode foil, and is drawn out from the end face of the element. Therefore,
In this case, one of the leads of the temperature fuse is connected to a lead foil, and via this lead foil to the anode electrode foil or the cathode electrode foil. Then connect the other lead wires to the terminals.

(Function) According to the present invention, a holder is used, and a temperature fuse is stored in the storage portion of the holder, and
Since the drawer parts of different lengths are connected in parallel to each other in the storage part, a groove is provided in the drawer part, and the lead wire of the temperature fuse is arranged in the groove, the lead wires can be insulated from each other. Further, there is no need to cover the lead wire with an insulating sleeve, making manufacturing easier.

Further, since a collar is provided at the end of the drawer portion to cover the gap in the core, it is possible to prevent metallicon from entering the core, thereby preventing short-circuit failures.

(Examples) The present invention will be described below based on illustrated examples.

In FIG. 1, numeral 1 is a rectangular resin case, and a part thereof is open. Reference numeral 2 designates a capacitor element housed in this resin case 1, which is made by flattening metallized plastic films laminated and wound. Reference numerals 3 and 4 designate metallic contacts provided on the end face of the capacitor element 2, forming electrodes. Reference numeral 5 denotes a terminal connected to the metallic contact 4 and drawn out from the resin case 1. 6 is
The holder is made of resin as shown in FIGS. 2 and 3, and is inserted into the core 7 of the capacitor element 2. This holder 6 has a length of approximately ⅔ of the length of the capacitor element 2, and has a tapered tip so that it can be easily inserted into the winding core 7. Reference numeral 8 denotes a storage section consisting of an angular recess provided at the tip of this holder 6, and is arranged approximately at the center of the winding core 7. Reference numerals 9 and 10 are drawer portions connected to the storage portion 8 in parallel with each other, and in particular, the former drawer portion 9
is longer than the latter drawer part 10. 9' and 10' are grooves provided in the drawer parts 9 and 10, respectively, and are provided from the storage part 8 to the end. Reference numerals 11 and 12 are R-shaped flanges provided at the ends of the drawer portions 9 and 10, respectively, and cover the void portions 13 and 14 of the winding core 7, respectively. Further, the corners 15 in the length direction of the holder 6 are rounded. 1
6 is a temperature fuse, whose main body 17 is stored in the storage part 8 of the holder 6, and the lead wire 1
8 and 19 are arranged in grooves 9' and 10' provided in the drawer parts 9 and 10, respectively, and are drawn out. The lead wire 18 is connected to an external terminal 20, and the lead wire 19 is connected to the metallic contact 3. terminal 2
0 is insulated from the metallcon 3 via an insulating plate 21 and drawn out to the outside of the resin case 1. The resin case 1 is filled with an insulating resin 32.

The temperature fuse 16 is inserted into the winding core after two windings of the capacitor element. After that, the capacitor element 2 is flattened, and the end faces are further coated with metal cones 3 and 4.
form.

That is, according to the above embodiment, the temperature fuse 16 is housed in the holder 6, and the lead wires 18 and 1
9 are disposed in grooves 8' and 9' of drawer parts 9 and 10 of different lengths formed parallel to each other and drawn out. Therefore, the lead wires 18 and 19 can be insulated from each other without being covered with an insulating sleeve. Further, the drawer portion 9 is longer than the drawer portion 10, and a step is created there. Therefore, even if metal particles adhere to the lead-out portions 9 and 10 during the formation of the metallicon 3, the surfaces to which they adhere are mainly only in the direction in which the metal particles are sprayed. That is, it hardly adheres to the side surface of the drawer section 9. Therefore, lead wire 1
8 and 19 can be insulated from each other. Furthermore, since the holder 6 is smaller than the diameter of the winding core 7,
When the capacitor element 2 is flattened, voids 1 are formed on both sides.
3 and 14 are possible. However, drawers 9 and 10
Since the cavities 13 and 14 are covered by the flanges 11 and 12 provided at the ends, it is possible to prevent metallicon from entering and short-circuit failures. In addition, since the corner portions 15 of the holder 6 are rounded, even when the capacitor element 2 is flattened, the corner portions 15 can prevent extreme stress from being applied to the metallized film and deteriorating its characteristics. It can be prevented.

Also, FIG. 4 shows a holder 22 used in another embodiment of the present invention, in particular, the longer drawer part 23.
A collar 25 is also provided on the drawer portion 24 side. This flange 25 can prevent metal particles from adhering to the side surface of the lead-out portion 23 during formation of the metallicon, and can improve the insulation between the lead wires.

Furthermore, FIG. 5 shows a holder 26 for use in another embodiment of the present invention, with the longer drawer portion 2
7 is tapered. Therefore, it is possible to effectively prevent metal particles from adhering to the side surfaces during the formation of metallicon.

FIG. 6 also shows a holder 28 used in another embodiment of the present invention, and shows the drawer part 3 of the longer drawer part 29.
Several grooves 31 are provided on the 0 side. Even if metal particles are formed in the lead-out portion 29 when metallcon is formed,
Even if it adheres to the side surface of the groove 31, it can be insulated at the groove 31. Therefore, it is possible to prevent the lead wires from being short-circuited.

In the above embodiments, a capacitor formed of a metallized capacitor was described, but the present invention is not limited thereto, and can be used for other wound capacitors such as an aluminum electrolytic capacitor.

(Effects of the Invention) As described above, according to the present invention, a holder is used to insert a temperature fuse into the winding core of a capacitor element, and a storage portion of the holder for storing the main body of the temperature fuse has a length. The different drawer parts are connected in parallel to each other, and a groove is provided in this drawer part, and the temperature fuse lead wire is placed in this groove and pulled out from the winding core, making it easy to install the temperature fuse and provide security that is easy to manufacture. A capacitor with device is obtained.

In addition, since a collar is provided at the end of the drawer portion of the holder, a highly reliable capacitor with a safety device can be obtained that can prevent defects such as short circuits due to metallicon when metallicon electrodes are used.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of an embodiment of the present invention, FIGS. 2 and 3 are a plan view and a side view of a holder used in the embodiment of FIG. 1, and FIGS. The top view of the holder used in the Example is shown. 2... Capacitor element, 3, 4... Metallicon, 6, 22, 26, 28... Holder, 8...
Storage part, 9, 10, 23, 24, 27, 29, 3
0...Drawer part, 9', 10'...Groove, 11, 12
...Brim, 16...Temperature fuse, 18,19...
...Lead wire, 20...terminal.

Claims (1)

[Claims] 1 In a capacitor with a safety device, a temperature fuse with a holder is inserted into the winding core of a wound type capacitor element, and the lead wire of this temperature fuse is pulled out from the winding core and connected between an external terminal and an electrode. A storage section for storing a fuse, a drawer section of different lengths connected in parallel to this storage section, a groove provided in this drawer section in which a lead wire is arranged, and a winding core provided at an end of the drawer section. A capacitor with a safety device, characterized in that it is provided with a holder having a brim that covers a cavity.