KR102387411B1 - Connector for lead-type super capacitor - Google Patents

Abstract

According to an embodiment of the present invention, provided is a connector for a lead-type supercapacitor. The connector comprises: a body; and a first polarity lead pin and a second polarity lead pin extending linearly from the body. The lead-type supercapacitor includes: a housing having, in a front surface, a first insertion hole and a second insertion hole through which the first polarity lead pin and the second polarity lead pin pass; a first elastic connection piece and a second elastic connection piece which are integrally coupled to the housing and into which the first polarity lead pin and the second polarity lead pin passing through the first insertion hole and the second insertion hole are inserted; and a locking unit which presses and deforms the first elastic connection piece and the second elastic connection piece in a state that the first polarity lead pin and the second polarity lead pin are inserted into the first elastic connection piece and the second elastic connection piece, to lock the first polarity lead pin and the first elastic connection piece connected and lock the second polarity lead pin and the second elastic connection piece. Therefore, the lead-type supercapacitor to which the lead pins of the supercapacitor can be directly connected without soldering.

Description

Connector for lead-type super capacitor

The present invention relates to the field of supercapacitors, and more particularly, to a connector for a lead-type supercapacitor.

In the present specification, the term "supercapacitor" is defined to include not only "supercapacitor" in a general sense, but also "Lithum Ion Capacitor (LIC)" inclusively.

A capacitor is a device used to store electrical energy. Farad (F) is used as a unit of charge capacity accumulated in such a capacitor. However, conventional capacitors, that is, general capacitors manufactured by putting a dielectric between two opposing electrodes, have a limitation in that the accumulatory charge capacity is very small in μF or pF units. In response to this, a supercapacitor having a very large charge capacity, for example, such that a unit of charge capacity can be expressed as F, has been developed. The supercapacitor refers to a capacitor having a very large capacitance as described above, and is called an "ultra capacitor". Such a supercapacitor uses activated carbon with a large surface area and shortens the distance of the dielectric to obtain a very large capacitance of F unit in a compact size, and has the advantage of being environmentally friendly without adversely affecting the lifespan even if overcharged and overdischarged.

As the supercapacitor as described above, a lead-type supercapacitor having a simple structure is widely used, and the lead-type supercapacitor includes a body in which electric charges are stored, and one side of the body extending in one direction and having different polarities, that is, the anode and the cathode. It includes two lead pins with polarity.

Conventionally, as a method for mounting a supercapacitor on a printed circuit board (PCB), as shown in FIG. 17, the first polarity lead pin and the second polarity lead pin are bent at right angles, and the bent first polarity lead A method of soldering (or soldering) the pin and the second polarity lead pin to the PCB is mainly adopted. However, this conventional method has limitations in that it is difficult to reliably mount the supercapacitor on the PCB, the soldering process is cumbersome and inconvenient, and furthermore, it is vulnerable to external forces such as vibration. In addition, in this method, heat is inevitably applied to the body of the supercapacitor during the soldering or soldering process, and the heat applied in this way may deteriorate the performance of the supercapacitor.

As another alternative supercapacitor mounting method, as shown in FIG. 18 , a male connector is installed on the supercapacitor, while a female connector into which the male connector is inserted is installed on the PCB side, and the male connector is inserted into the female connector and coupled. There is this. Although this method is not bad in terms of reliability, it is economical due to an increase in the number of parts due to the addition of a male connector, etc. has limitations.

Patent Registration No. 10-2014-0020422 (published on February 19, 2014)

An object of the present invention is to provide a connector for a lead-type supercapacitor to which lead pins of a supercapacitor can be directly connected without using soldering or the like.

According to one aspect of the present invention, there is provided a connector for a lead-type supercapacitor including a body and a first polarity lead pin and a second polarity lead pin extending in a straight direction from the body, the lead-type supercapacitor connector comprising: , A housing having a first insertion hole and a second insertion hole through which the first polarity lead pin and the second polarity lead pin pass on the front portion; a first elastic connection piece and a second elastic connection piece integrally coupled to the housing and into which the first polarity lead pin and the second polarity lead pin passing through the first insertion hole and the second insertion hole are inserted; and in a state in which the first polarity lead pin and the second polarity lead pin are inserted into the first elastic connection piece and the second elastic connection piece, the first elastic connection piece and the second elastic connection piece are pressed and deformed and a locking unit for locking between the first polarity lead pin and the first elastic connection piece connected to each other and between the second polarity lead pin and the second elastic connection piece.

According to an embodiment, the locking unit includes a guide formed on the housing in a vertical or front-back direction, and moves from an unlocked position to a locking position along the guide, and in the locking position, the first elastic connecting piece and the first 2 and a push cover configured to deform by pressing the elastic connection piece against the first polarity lead pin and the second polarity lead pin.

According to an embodiment, the front portion of the housing includes an upper recessed front part and a lower protruding front part, and each of the first insertion hole and the second insertion hole is formed across the recessed front part and the protruding front part and a separating wall or a step is formed on the protruding front part to block between the first insertion hole and the second insertion hole.

According to an embodiment, a first recess and a second recess are formed on both sides of the upper surface of the housing based on a linear central portion, and the first elastic connection piece and the second elastic connection piece are respectively the first It faces the first insertion hole and the second insertion hole while being fixed to the recess and the second recess, and the push cover includes a first pressing protrusion and a second pressing protrusion provided on a bottom surface when moving from the unlocked position to the locking position. 2 The first elastic connection piece and the second elastic connection piece are pressed downward with the pressing protrusion.

According to an embodiment, the length of the first polarity lead pin is shorter than the length of the second polarity lead pin, and the first insertion is performed to compensate for a difference in length between the first polarity lead pin and the second polarity lead pin Each of the hole and the first elastic connection piece further protrudes forward with respect to each of the second insertion hole and the second elastic connection piece, and the front portion of the housing is formed with the first insertion hole and further protrudes forward. a first front portion and a second front portion in which the second insertion hole is formed and further retracted, the shortest distance from the virtual plane including the first front portion to the first elastic connecting piece is the first polarity lead Shorter than the length of the pin, the distance from the virtual plane including the first front part to the second elastic connection piece is longer than the length of the first polarity lead pin and shorter than the length of the second polarity lead pin.

According to the present invention, it is possible to mount the supercapacitor by directly inserting the first polarity lead pin and the second polarity lead pin of the supercapacitor into the connector on the PCB without using a cumbersome, inefficient and uneconomical soldering method. In addition, the present invention has advantages in that the mounting process of the supercapacitor is simple and easy, reliable mounting is possible, and strong against vibration or external shock. Furthermore, the present invention has the advantage of being able to block the occurrence of a short circuit due to electrolyte leakage.

1 is a perspective view showing a connector for a lead-type supercapacitor together with a supercapacitor according to a first embodiment of the present invention;
2 is an exploded perspective view showing a connector for a lead-type supercapacitor according to a first embodiment of the present invention;
3 is a perspective view showing the connector for a lead-type supercapacitor in an unlocked position according to the first embodiment of the present invention;
4 is a perspective view showing the connector for a lead-type supercapacitor according to the first embodiment of the present invention in a locked position;
5 is a cross-sectional view showing the connector for a lead-type supercapacitor according to the first embodiment of the present invention in a locked position;
6 is a perspective view showing a connector for a lead-type supercapacitor together with a supercapacitor according to a second embodiment of the present invention;
7 is an exploded perspective view showing a connector for a lead-type supercapacitor according to a second embodiment of the present invention;
8 is a perspective view showing a connector for a lead-type supercapacitor in an unlocked position according to a second embodiment of the present invention;
9 is a perspective view showing a connector for a lead-type supercapacitor in a locking position according to a second embodiment of the present invention;
10 is a cross-sectional view showing a connector for a lead-type supercapacitor in a locking position according to a second embodiment of the present invention;
11 is a perspective view showing a connector for a lead-type supercapacitor together with a supercapacitor according to a third embodiment of the present invention;
12 is an exploded perspective view showing a connector for a lead-type supercapacitor according to a third embodiment of the present invention;
13 is a perspective view showing a connector for a lead-type supercapacitor in an unlocked position according to a third embodiment of the present invention;
14 is a perspective view showing a connector for a lead-type supercapacitor in a locking position according to a third embodiment of the present invention;
15 (a) and (b) are each a side view showing the connector for a lead-type supercapacitor according to a third embodiment of the present invention in an unlocking position and a locking position,
16 (a), (b) and (c) are plan views illustrating a connector for a lead-type supercapacitor in a position in which the supercapacitor is separated, in an unlocking position, and in a locked position.
17 and 18 are diagrams for explaining the prior art.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in several different forms and is not limited to the embodiments described herein.

In describing the present invention, the size or shape of the components shown in the drawings may be exaggerated or simplified for clarity and convenience of explanation.

In addition, terms specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. These terms should be interpreted as meanings and concepts consistent with the technical spirit of the present invention based on the contents throughout this specification.

In order to clearly explain the present invention, the description of parts not related to the technical idea of the present invention is omitted, and the same reference numerals are given to the same or similar elements throughout the specification.

In addition, in various embodiments, components having the same configuration will be described using the same reference numerals only in the representative embodiment, and only configurations different from the representative embodiment will be described in other embodiments.

Throughout the specification, when a part is "connected" to another part, it includes not only the case where it is "directly connected" but also the case where it is "indirectly connected" with another member interposed therebetween. In addition, when a part "includes" a certain component, this may mean further including other components rather than excluding other components unless otherwise stated.

1 to 5, the lead-type supercapacitor connector 1 according to the first embodiment of the present invention is mounted on a PCB (not shown) and used to mount the lead-type supercapacitor 10 on the PCB. ) can be seen.

1 to 5, the lead-type supercapacitor 10 may be an Electric Double Layer Capacitor (EDLC), or a Lithium Ion Capacitor (LIC), etc., in which electric charges are stored. The body 12 includes a first polarity lead pin 14a and a second polarity lead pin 14b extending in a straight direction from the body 12 . In this embodiment, the first polarity lead pin 14a and the second polarity lead pin 14b extend in one direction in parallel and have the same length.

In this specification, the first polarity and the second polarity may be positive polarity or negative polarity.

The lead-type supercapacitor connector 1 (hereinafter referred to as "connector") has a first insertion hole 114a and a second insertion hole through which the first polarity lead pin 14a and the second polarity lead pin 14b pass. A housing 100 having a hole 114b formed therein, and a first polarity lead pin 14a integrally coupled to the housing 100 and passing through the first insertion hole 114a and the second insertion hole 114b ) and a first terminal frame 200a and a second terminal frame 200b having a first elastic connection piece 220a and a second elastic connection piece 220b into which the second polarity lead pin 14b is inserted; In a state in which the first polarity lead pin 14a and the second polarity lead pin 14a are inserted into the first elastic connection piece 220a and the second elastic connection piece 220b, the first elastic connection piece ( 220a) and the second elastic connection piece 220b are elastically deformed, and between the first polarity lead pin 14a and the first elastic connection piece 220a connected to each other and the second polarity lead pin 14a And a locking unit for locking between the second elastic connection piece (220b).

The first insertion hole 114a and the second insertion hole 114b are formed in the front portion of the housing 100 . In addition, the front portion of the housing 100 includes an upper recessed front part 2 and a lower protruding front part 4 , and the first insertion hole 114a and the second insertion hole 114b are recessed. It is formed so as to share the front part (2) and the protruding front part (4). The protruding front portion 4 has a triangular-like shape, that is, includes a step 41 including a pair of symmetrical inclined surfaces at the upper end, and the first insertion hole 114a and the second insertion hole 114b ) is overlapped on the step 41 , so that the operator once supports the first polarity lead pin 14a and the second polarity lead pin 14a on the step 41 , and the first polarity lead The pin 14a and the second polarity lead pin 14a can be more easily inserted into the first insertion hole 114a and the second insertion hole 114b.

In addition, on the protruding front part 2 , a partition wall 6 is formed to be elongated from top to bottom in the form of blocking between the first insertion hole 114a and the second insertion hole 114b. In a state in which the first polarity lead pin 14a and the second polarity lead pin 14b of the supercapacitor 10 are respectively connected to the first elastic connection piece 220a and the second elastic connection piece 220b, the electrolyte The tear fluid may come out through the first insertion hole 114a and the second insertion hole 114b. Even in this case, the protruding front part 4 primarily blocks the flow of the leaking fluid, and even if the leaky fluid flows along the surface of the protruding front part 4, the separation wall 6 blocks it, resulting in a short circuit due to electrolyte leakage can prevent

A pair of recesses 124a and 124b, that is, a first recess 124a and a second recess 124b, are located on the left and right sides of the upper surface of the housing 100 based on the linear central part 121 . is formed, and the first elastic connection piece 220a of the first connection terminal coupled to and supported by the housing 100 and the second elastic connection piece 220b of the second connection terminal are coupled to and supported by a first recess 124a. The first and second insertion holes 114a and 114b face the first insertion holes 114a and 114b respectively while being fixed to the second recesses 124b. The first connection terminal and the second connection terminal are formed by cutting and bending a thin metal plate, and integrally provided with the first elastic connection piece 220a and the second elastic connection piece 220b on the upper part, and the PCB on the lower part. A first electrode pad portion and a second electrode pad portion bonded to the first and second electrodes (not shown) are formed.

The first elastic connection piece 220a and the second elastic connection piece 220b are the first polarity leads to allow insertion of the first polarity lead pin 14a and the first polarity lead pin 14b It is formed in a groove structure surrounding the pin 14a and the first polarity lead pin 14b, and the upper end is pressed by an external force to press the first polarity lead piece 14a and the second polarity lead pin 14b. Pressing plate portions 222a and 222b are integrally provided.

On the other hand, the locking unit descends from the unlocked position to the locking position along a pair of guide grooves 130 and 130 elongated vertically on both side surfaces of the housing 100 and the guide grooves 130 and 130, , by pressing down the pressing plate portions 222a and 222b of the first elastic connection piece 220a and the second elastic connection piece 220b in the locking position, the first elastic connection piece 220a and the second elastic connection piece 220a 2 It includes a push cover 300 for elastically deforming the elastic connection piece (220a).

The push cover 300 is spaced apart from the first elastic connection piece 220a and the second elastic connection piece 220b in the unlocking position, and the first elastic connection piece 220a and the second elastic connection piece 220a in the locking position. 2 The block-shaped body portion 320 for elastically deforming the elastic connection piece 220b by pressing it downward, and formed at both ends of the body portion 320 and extending downwardly within the pair of guide grooves 130 . A pair of guided leg portions 340 and 340 are integrally included. At this time, on the bottom surface of the body part 320, the first and second elastic connecting pieces 220a and 220a are inserted into the first and second recesses 124a and 124b in the locking position. A pair of pressing projections 322a and 322b for pressing 220b down, that is, a first pressing projection 322a and a second pressing projection 322b are formed. In addition, an upper engaging groove 342 and a lower engaging groove 344 are formed in a sawtooth shape on each of the inner surfaces of the pair of leg parts 340 .

In addition, an engaging jaw 134 engaged with the lower engaging groove 344 in the unlocking position and engaging the upper engaging groove 342 in the locking position is formed on the inner surface of the guide groove 130 . The engaging jaw 134 has a structure including an upper gentle slope and a lower steep slope with respect to the vertex. Each of the upper engaging groove 344 and the lower engaging groove 342 has a structure formed by intersecting a gentle slope and a steep slope. As the push cover 300 descends from the unlocked position to the locking position, the engagement between the lower engaging groove 344 and the engaging jaw 134 is released while accompanying the elastic deformation of the leg portion 340 of the push cover 300 and , instead, the upper engaging groove 342 and the engaging jaw 134 are engaged to completely restrain the movement of the push cover 300 in the locking position. In this state, the push cover 300 strongly presses the first elastic connection piece 220a and the second elastic connection piece 220b to press the first polarity lead pin 14a and the second polarity lead pin 14b. Since the state is maintained, the second polarity lead pin 14b and the second elastic connection piece 220b are connected between the first polarity lead pin 14a and the first elastic connection piece 220a connected to each other and are connected to each other. ) can be reliably locked between At this time, a hole 345 is formed in each of the leg parts 340 to help elastic deformation of the leg part 340 while the engagement between the lower engaging groove 344 and the engaging jaw 134 is released.

6 to 10, the lead-type supercapacitor connector 1 according to the second embodiment of the present invention is mounted on a PCB (not shown) and used to mount the lead-type supercapacitor 10 on the PCB. ) can be seen.

As in the previous embodiment, the lead-type supercapacitor 10 may be an Electric Double Layer Capacitor (EDLC) or a Lithium Ion Capacitor (LIC). , and a first polarity lead pin 14a and a second polarity lead pin 14b extending laterally from one side of the body 12 . In this embodiment, the first polarity lead pin 14a and the second polarity lead pin 14b extend in one direction in parallel and have the same length.

The lead-type supercapacitor connector (1) is a housing having a first insertion hole (114a) and a second insertion hole (114b) through which the first polarity lead pin (14a) and the second polarity lead pin (14b) pass are formed. (100), a first polarity lead pin 14a and a second polarity lead pin integrally coupled to the housing 100, and passing through the first insertion hole 114a and the second insertion hole 114b A first terminal frame and a second terminal frame formed with a first elastic connection piece 220a and a second elastic connection piece 220b into which 14b is inserted, and the first polarity lead pin 14a and the second polarity In a state in which the lead pin 14a is inserted into the first elastic connection piece 220a and the second elastic connection piece 220b, the first elastic connection piece 220a and the second elastic connection piece 220b are connected. By elastically deforming, locking between the first polarity lead pin 14a and the first elastic connection piece 220a connected to each other and between the second polarity lead pin 14a and the second elastic connection piece 220b It includes a locking unit.

The first insertion hole 114a and the second insertion hole 114b are formed in the front portion of the housing 100 . Although not shown, the structures for preventing electrolyte leakage of the previous embodiment, that is, a structure including a protruding front part, a recessed front part, and/or a partition wall may be applied to the front part of the housing 100 as well, Although not done, the protruding front portion may include a triangular-like shape, that is, a step including a pair of symmetrical inclined surfaces, at the upper end, and the first insertion hole 114a and the second insertion hole 114b are the By being overlapped and formed on the step, the operator once supports the first polarity lead pin 14a and the second polarity lead pin 14a on the step, and the first polarity lead pin 14a and the second polarity It allows the lead pin 14a to be more easily inserted into the first insertion hole 114a and the second insertion hole 114b.

A pair of recesses 124a and 124b, that is, a first recess 124a and a second recess 124b, are located on the left and right sides of the upper surface of the housing 100 based on the linear central part 121 . is formed, and the first elastic connection piece 220a of the first connection terminal coupled to and supported by the housing 100 and the second elastic connection piece 220b of the second connection terminal are coupled to and supported by a first recess 124a. and the second insertion hole 114a and the second insertion hole 114b while being fixed to the second recess 124b. The first connection terminal and the second connection terminal are formed by cutting and bending a thin metal plate, and integrally provided with the first elastic connection piece 220a and the second elastic connection piece 220b on the upper part, and the PCB on the lower part. A first electrode pad portion and a second electrode pad portion bonded to the first and second electrodes (not shown) are formed.

The first elastic connection piece 220a and the second elastic connection piece 220b are the first polarity leads to allow insertion of the first polarity lead pin 14a and the first polarity lead pin 14b It is formed in a hole structure surrounding the pin 14a and the second polarity lead pin 14b, and a cutout 225 for opening the hole structure upward is formed at the upper end.

On the other hand, the locking unit advances from the unlocked position to the locking position along the guide groove 140 and a pair of guide grooves 140 formed long in front and back on both side surfaces of the housing 100, and in the locking position. The first elastic connection piece 220a and the second elastic connection piece 220a and the second elastic connection piece by pressing down the cutout 225 and the periphery of the first elastic connection piece 220a and the second elastic connection piece 220b It includes a push cover 300 for elastically deforming (220b).

The push cover 300 is far away from the first elastic contact piece 220a and the second elastic contact piece 220b in the unlocked position, that is, the rear retracted position, and is in the locking position, that is, the front in the advanced position. The first elastic connection piece (220a) and the second elastic connection piece (220b) above the first elastic connection piece (220a) and the second elastic connection piece (220b) is pressed downward to elastically deform the plate flat plate The body portion 320 and a pair of leg portions 340 and 340 extending downwardly formed at both ends of the body portion 320 and guided back and forth along the pair of guide grooves 140 are integrally formed. include

At this time, on the bottom surface of the body part 320, the first and second elastic connecting pieces 220a and 220a are inserted into the first and second recesses 124a and 124b in the locking position. A pair of pressing projections 322a and 322b for pressing 220b down, that is, a first pressing projection 322a and a second pressing projection 322b are formed. At this time. While advancing so that the first pressing protrusion 322a and the second pressing protrusion 322b are on the first elastic connecting piece 220a and the second elastic connecting piece 220b, the first pressing protrusion 322a and the second pressing protrusion 322b advances to the first pressing protrusion 322a and the second pressing protrusion 322b so as not to be caught on the first elastic connecting piece 220a and the second elastic connecting piece 220b. A tapered portion is included in a portion in contact with the first elastic connection piece 220a and the second elastic connection piece 220b.

On the other hand, a hook 346 caught on the upper portion of the guide groove 140 is formed at the lower end of the pair of leg portions 340 to prevent the push cover 300 from being separated upward. In addition to this, on the upper surface of the housing 100, the first pressing protrusion 322a and the second pressing protrusion 322b enter into the first recess 124a and the second recess 124b. A pair of protrusion guide grooves 127a and 127b for guiding the advance of the first pressing protrusion 322a and the second pressing protrusion 322b are further formed.

11 to 16 , a lead-type supercapacitor connector 1 according to a third embodiment of the present invention is mounted on a PCB (not shown) and used to mount the lead-type supercapacitor 10 on the PCB. ) can be seen.

As in the previous embodiment, the lead-type supercapacitor 10 may be an Electric Double Layer Capacitor (EDLC) or a Lithium Ion Capacitor (LIC). , and a first polarity lead pin 14a and a second polarity lead pin 14b extending laterally from one side of the body 12 . In this embodiment, the first polarity lead pin 14a and the second polarity lead pin 14b extend in one direction in parallel, and the length L1 of the first polarity lead pin 14a is the second polarity lead pin 14b ) is shorter than the length L2.

The connector 1 includes a housing 100 having a first insertion hole 114a and a second insertion hole 114b through which the first polarity lead pin 14a and the second polarity lead pin 14b pass; , a first polarity lead pin 14a and a second polarity lead pin 14b integrally coupled to the housing 100 and passing through the first insertion hole 114a and the second insertion hole 114b A first terminal frame and a second terminal frame in which the inserted first elastic connection piece 220a and the second elastic connection piece 220b are formed, and the first polarity lead pin 14a and the second polarity lead pin 14a ) elastically deforms the first elastic connection piece 220a and the second elastic connection piece 220b in a state inserted into the first elastic connection piece 220a and the second elastic connection piece 220b, A locking unit for locking between the first polarity lead pin 14a and the first elastic connection piece 220a connected to each other and between the second polarity lead pin 14a and the second elastic connection piece 220b include

At this time, the first insertion hole 114a and the first elastic connection piece 220a are formed to compensate for a difference in length between the first polarity lead pin 14a and the second polarity lead pin 14b. The insertion hole (114b) and the second elastic connection piece (220b) is more forward than the front.

The housing 100 includes a first front portion 110a on the right that is relatively more protruding forward and a second front portion 110b on the left that is relatively more retracted to the rear. The first insertion hole 114a is formed in the first front part 110a and protrudes relatively further forward, and the second insertion hole 114b is formed in the second front part 110b and is relatively rearward. goes further into

The first front portion 110a is composed of an upper first recessed front portion 2a and a lower first protruding front portion 4a, and the first insertion hole 114a is formed in the first recessed front portion ( 2a) and the first protruding front portion 4a are formed to be shared. In addition, the second front part 110b is composed of a second recessed front part 2b at an upper side and a second protruding front part 4b at a lower side, and the second insertion hole 114b is formed in the second recessed front side. It is formed to share the portion 2b and the second protruding front portion 4b.

The first protruding front portion 4a and the second protruding front portion 4b include steps 41a and 41b having an inclined surface on one side at their upper ends, and the first insertion hole 114a and the second The insertion hole 114b is formed to be overlapped on the steps 41a and 41b, so that the operator first attaches the first polarity lead pin 14a and the second polarity lead pin 14a to the steps 41a and 41b. In a supported state, the first polarity lead pin 14a and the second polarity lead pin 14a can be more easily inserted into the first insertion hole 114a and the second insertion hole 114b.

In a state in which the first polarity lead pin 14a and the second polarity lead pin 14b of the supercapacitor 10 are respectively connected to the first elastic connection piece 220a and the second elastic connection piece 220b, the electrolyte The tear fluid may come out through the first insertion hole 114a and the second insertion hole 114b. Even in this case, the first protruding front part 4a and the second protruding front part 4b may primarily block the flow of the tear fluid due to the step difference between the upper ends. In addition, since there is also a step difference between the first front part 110a and the second front part 110b left and right, the electrolyte discharged from the first insertion hole 114a is moved to the vicinity of the second insertion hole 114b due to the step difference. There is no risk of causing a short circuit by flowing or the electrolyte solution flowing out of the second insertion hole 114b flowing near the first insertion hole 114a.

A pair of recesses 124a and 124b, that is, a first recess 124a and a second recess 124b, are located on the left and right sides of the upper surface of the housing 100 based on the linear central part 121 . is formed, the first recess 124a protrudes further forward as much as the first insertion hole 114a protrudes forward, and the second recess 124b is formed with the second insertion hole 114b ) is positioned more backwards as it goes further backwards.

In addition, the first elastic connection piece 220a of the first connection terminal coupled to and supported by the housing 100 is fixedly disposed in the first recess 124a to face the first insertion hole 114a, A second elastic connection piece 200b of a second connection terminal coupled to and supported by the housing 100 is fixedly disposed in the second recess 124b to face the second insertion hole 114b. Accordingly, the first elastic connection piece 220a protrudes further forward than the second elastic connection piece 220b.

The first connection terminal and the second connection terminal are formed by cutting and bending a thin metal plate, and integrally provided with the first elastic connection piece 220a and the second elastic connection piece 220b on the upper part, and the PCB on the lower part. A first electrode pad portion and a second electrode pad portion bonded to the first and second electrodes (not shown) are formed.

The first elastic connection piece 220a and the second elastic connection piece 220b are the first polarity leads to allow insertion of the first polarity lead pin 14a and the first polarity lead pin 14b It is formed in a hole structure surrounding the pin 14a and the first polarity lead pin 14b, and a cutout for opening the hole structure upward may be formed at an upper end thereof.

At this time, the shortest distance D1 from the virtual plane including the first front part 110a meeting the body part 10 of the supercapacitor to the first elastic connection piece 220a is the first polarity lead pin The distance D2 from the virtual plane including the first front part 110b to the second elastic connection piece 220b is shorter than the length L1 of the 14a, the first polarity lead pin 14a longer than the length L1 and shorter than the length L2 of the second polarity lead pin 14b. Accordingly, only a normal connection in which the first polarity lead pin 14a is connected to the first elastic connection piece 220a and the second polarity lead pin 14b is connected to the second elastic connection piece 220b is allowed, and the A non-static connection in which the first polarity lead pin 14a is connected to the second elastic connection piece 220b and/or the second polarity lead pin 14b is connected to the first elastic connection piece 220a is fundamentally blocked do.

On the other hand, the locking unit advances from the unlocked position to the locking position along the guide groove 140 and a pair of guide grooves 1400 elongated back and forth on both side surfaces of the housing 100, and in the locking position. A push cover that elastically deforms the first elastic connection piece 220a and the second elastic connection piece 220b by pressing down the first elastic connection piece 220a and the second elastic connection piece 200b ( 300) is included.

The push cover 300 is far away from the first elastic contact piece 220a and the second elastic contact piece 220b in the unlocked position, that is, the rear retracted position, and is in the locking position, that is, the front in the advanced position. The first elastic connection piece (220a) and the second elastic connection piece (220b) above the first elastic connection piece (220a) and the second elastic connection piece (220b) is pressed downward to elastically deform the plate flat plate It includes a body part 320 and a pair of leg parts 340 formed at both ends of the body part 320 and extending downward and guided back and forth along the pair of guide grooves 140 as one body. .

At this time, on the bottom surface of the body part 320, the first and second elastic connecting pieces 220a and 220a are inserted into the first and second recesses 124a and 124b in the locking position. A pair of pressing projections 322a and 322b for pressing 220b down, that is, a first pressing projection 322a and a second pressing projection 322b are formed. The first pressing protrusion 322a is formed on the bottom surface of the body 320 so as to protrude further forward compared to the second pressing protrusion 322b. And, while the first pressing protrusion 322a and the second pressing protrusion 322b are advanced so as to be on the first elastic connecting piece 220a and the second elastic connecting piece 220n, the first pressing protrusion ( 322a) and the second pressing protrusion 322b, the first pressing protrusion 322a and the second pressing protrusion 322b are not caught on the first elastic connecting piece 220a and the second elastic connecting piece 220b. ) may include a tapered portion at a portion in contact with the first elastic connection piece 220a and the second elastic connection piece 220n when moving forward.

On the other hand, a hook 346 caught on the upper portion of the guide groove 140 is formed at the lower end of the pair of leg portions 340 to prevent the push cover 300 from being separated upward. In addition, at the rear end of the guide groove 140 , the push cover 300 is in contact with the rear end surface of the leg unit 340 in an unlocked position to prevent the rear end stopper from being separated from the rear end stopper for limiting the leg unit 340 . 147 is formed and the front end and middle of the guide groove 140 are in contact with the front end surface of the leg portion 340 and the rear end surface of the leg portion 340 in the locking position to fix the push cover 300 A shear stopper 148 and an intermediate stopper 149 are formed. To this end, the guide groove 140 is formed so that the depth of the section up to the front end stopper 148 and the intermediate stopper 149 is greater than the depth of the section up to the rear end stopper 147 and the intermediate stopper 149 .

In addition to this, on the upper surface of the housing 100, the first pressing protrusion 322a and the second pressing protrusion 322b enter into the first recess 124a and the second recess 124b. A pair of protrusion guide grooves 127a and 127b for guiding the advance of the first pressing protrusion 322a and the second pressing protrusion 322b are further formed.

The present invention is not limited to the above-described embodiments and can be practiced with various modifications.

10: supercapacitor 14a: first polarity lead pin
14b: second polarity lead pin 100: housing
114a: first insertion hole 114b: second insertion hole
220a: first elastic connection piece 220b: second elastic connection piece
300: push cover

Claims (4)

It is a connector for a lead-type supercapacitor including a body and a first polarity lead pin and a second polarity lead pin extending in a straight line from the body,
a housing having a first insertion hole and a second insertion hole through which the first polarity lead pin and the second polarity lead pin pass;
a first elastic connection piece and a second elastic connection piece integrally coupled to the housing and into which the first polarity lead pin and the second polarity lead pin passing through the first insertion hole and the second insertion hole are inserted; and
In a state in which the first polarity lead pin and the second polarity lead pin are inserted into the first elastic connection piece and the second elastic connection piece, the first elastic connection piece and the second elastic connection piece are pressed and deformed to , A locking unit for locking between the first polarity lead pin and the first elastic connection piece connected to each other and between the second polarity lead pin and the second elastic connection piece,
The locking unit is
a guide formed in the housing in a vertical or front-rear direction;
It moves from the unlocked position to the locking position along the guide, and in the locking position, the first elastic connection piece and the second elastic connection piece are pressed against the first polarity lead pin and the second polarity lead pin to deform. Including a push cover,
The front part of the housing includes an upper recessed front part and a lower protruding front part, and each of the first insertion hole and the second insertion hole is formed over the recessed front part and the protruding front part, and the protruding front part A connector for a lead type supercapacitor, characterized in that a dividing wall or a step is formed in a shape to block between the first insertion hole and the second insertion hole. delete The method according to claim 1,
First recesses and second recesses are formed on both sides of the upper surface of the housing based on a linear central portion, and the first and second elastic connecting pieces are respectively formed in the first and second recesses. It faces the first insertion hole and the second insertion hole while being fixed to the set, and the push cover has a first pressing protrusion and a second pressing protrusion provided on the bottom surface when moving from the unlocked position to the locking position. 1 pressing the elastic connection piece and the second elastic connection piece downward;
The length of the first polarity lead pin is shorter than the length of the second polarity lead pin, and the first insertion hole and the first elasticity to compensate for a difference in length between the first polarity lead pin and the second polarity lead pin Each of the connection pieces further protrudes forward with respect to each of the second insertion hole and the second elastic connection piece, and the front portion of the housing includes the first front portion having the first insertion hole and further protruding forward. A second insertion hole is formed and includes a second front portion further retracted to the rear, and the shortest distance from the virtual plane including the first front portion to the first elastic connection piece is shorter than the length of the first polarity lead pin, A lead-type supercapacitor connector, characterized in that the distance from the virtual plane including the first front part to the second elastic connection piece is longer than the length of the first polarity lead pin and shorter than the length of the second polarity lead pin. The method according to claim 1, wherein the front portion of the housing, the first insertion hole and the first insertion hole and the second insertion hole to easily insert the first polarity lead pin and the second polarity lead pin into the second insertion hole and a step formed to support the first polarity lead pin and the second polarity lead pin while overlapping the second insertion hole.

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