KR20160043192A - Terminal for connector and connector having the same - Google Patents

Abstract

A terminal for a connector includes a body part with conductivity, a blade part which includes blade body parts which are bent one or more times from one lateral end of the body part, is erected to the body part, and has a core connection part between the blade body parts, and a coating cutting part which is formed in the upper end of the blade body parts and cut the coating of a wire, and a connection terminal part which is formed at the other lateral end of the body part facing the blade part. So, the process time for connecting the wire can be reduced.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a terminal for a connector,

The present invention relates to a terminal for a connector and a connector having the terminal.

Generally, in order to electrically connect two separated wires, it is necessary to expose the core wire by peeling off part of the wire, and to wrap the exposed core wire by overlapping or twisting the wire and winding the exposed core wire with insulating tape or the like do.

That is, in order to electrically connect the two wires to each other, the process of exposing the core wire by peeling off the cloth, the process of electrically connecting the core wire and the process of winding the core wire with the insulation tape are performed.

When two wires are simply twisted and electrically connected, the core wires of the two wires are separated from each other due to the passage of time and external force, or a viscous material flows out of the insulating tape to contaminate the defective contact of the core wire and the surrounding, It takes a considerably long time to electrically connect them.

In order to solve such a problem, Korean Patent No. 10-1143452 discloses a connector for a wire connection connector (Registered on Apr. 04, 2012) in which an insulative lower connector having a support groove for supporting a wire, a guide hole through which a wire passes, And a terminal including an insulating upper connector covering the connector and a plurality of cutting blades electrically connected to the core wire of the wire by stripping the wire covering the wire, and a core wire seating part formed at the center of the cutting blades.

The terminal for the electric connector is mounted inside the lower connector. When the electric wire is inserted into the upper connector, the upper connector is rotated toward the terminal so that the covering of the electric wire inserted into the upper connector is cut by the cutting blades, And is electrically coupled to this terminal.

However, according to the number of wires to be electrically connected, the position of the cutting blades including the core seating portion, the number of the cutting blades, and the like are different according to the number of wires to be connected. There is a problem that it must be produced differently.

In addition, when any one of the wires connected by the terminal for the wire connecting connector is separated and connected to another wire, the work for inserting the separated wire into the new terminal is performed again, thereby increasing the working time.

Korean Registered Patent No. 10-1143452, Terminal for connector for wire connection (Registered on Apr. 30, 2012)

The present invention relates to a connector for connecting a plurality of terminals using a connection terminal portion of a terminal and connecting terminals connected to each other through a plurality of terminals, Terminal and a connector having the same.

In one embodiment, the terminal for the connector comprises a conductive body portion; A blade portion bent at least once from one end of the body portion and rising up with respect to the body portion, the blade body portions having a core wire connecting portion therebetween, and a cover cut portion formed at an upper end of the blade body portions to cut a covering of electric wires; And a connection terminal portion formed at the other end of the body portion facing the blade portion.

The blade portion of the connector terminal further includes a fixing protrusion for fixing the electric wire between the blade bodies.

The fixing protrusions of the terminal for the connector are formed in the shape of a horn having a sharp top end.

A connection hole is formed in the connection terminal portion of the connector terminal.

The connection hole of the connector terminal is formed in a circular shape when viewed on a plane.

The connection hole of the connector terminal is formed in a U-shape in which a part of the edge of the connection terminal is opened when viewed in a plan view.

In one embodiment, the connector includes a body having a conductive part, blade body parts bent at least once from one end of the body part and standing up with respect to the body part and having a core wire connection part therebetween, and a blade body part formed at an upper end of the blade body parts, And a connection terminal portion formed at the other end of the body portion facing the blade portion. The width of the blade portion is formed to be wider than the width of the body portion, so that the body portion and the blade A terminal having a catching jaw formed in a minor interface; And a housing for receiving and securing the body portion, the blades, and the wires of the terminal and coupling the wires to the blade portion.

The body portion of the connector includes a bent portion bent so that a part of the body portion protruding from the housing is coplanar with the bottom plate of the housing.

The blade portion of the connector further includes a fixing protrusion for fixing the electric wire between the blade bodies.

The housing of the connector includes a first housing including a bottom plate defining a receiving space for accommodating the terminal and a pair of first side plates extending upward from opposite opposite edges of the bottom plate; A pair of second side plates coupled to the first housing and disposed to face the bottom plate, a pair of second side plates extending from opposite sides of the top plate toward the bottom plate, And a second housing including a wire pressing portion protruding in a plate shape from a lower surface.

The first housing of the connector is formed in the inner side surface of the first side plates in correspondence with the engaging jaw and extends from the bottom plate to the upper surface of the first side plate to engage with the engaging jaws; And a first guide groove formed on an inner surface of the first side plates so as to be spaced apart from the engaging projection and projecting from the bottom plate to the upper surface of the side plate in a plate shape and having a first guide groove, .

The wire pressing portion of the connector is formed in a direction corresponding to the coupling protrusion from a portion corresponding to the first guide groove and is formed on both sides of the wire pressing portion contacting with the first side plates to correspond to the boundary between the first guide groove and the guide portion A second guide groove formed along a side surface of the wire pressing portion in a direction in which the latching protrusion is formed, and a third guide groove formed in a portion corresponding to the latching protrusion and into which the latching protrusion is fitted.

The connector terminal and the connector having the connector terminal according to the present invention may have a structure in which a blade portion electrically connected to the core wire of the electric wire is formed at one end of the conductive body portion and a connection terminal portion is formed at the other end, The connectors of the same shape can be used irrespective of the number of wires to be connected, and when any one of the wires connected to each other through the connection terminal of the connector is separated and connected to a new wire, This eliminates the need to reconnect wires, which saves time.

1 is a perspective view of a connector terminal according to an embodiment of the present invention.
2 is a front view of Fig.
3 is a perspective view of a terminal for a connector according to another embodiment of the present invention.
4 is a perspective view of a connector having a terminal for a connector according to an embodiment of the present invention.
5 is an exploded perspective view of Fig.

In the following description, only parts necessary for understanding the embodiments of the present invention will be described, and the description of other parts will be omitted so as not to obscure the gist of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor is not limited to the meaning of the terms in order to describe his invention in the best way. It should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely preferred embodiments of the present invention, and are not intended to represent all of the technical ideas of the present invention, so that various equivalents And variations are possible.

1 is a perspective view of a connector terminal according to an embodiment of the present invention. 2 is a front view of Fig.

Referring to FIGS. 1 and 2, a terminal 400 for a connector includes a body 100, a blade 200, and a connection terminal 300.

The body portion 100 is made of a conductive material. The body portion 100 is formed, for example, in the shape of a rectangular plate having a length longer than the width and the width.

The body part 100 may be formed of a copper alloy material, and the body part 100 may be made of phosphor bronze, which is one of copper alloys.

Although phosphor bronze is used as the material of the body part 100 in the embodiment of the present invention, the body part 100 may be made of various metals or alloys that are conductive.

The blade part 200 is formed integrally with the body part 100 at one side of the body part 300 and the electric wire is coupled to the blade part 200 in a non-contact manner.

The blade portion 200 includes a blade body portion 240, a coating cutout portion 250, and a core wire connecting portion 260.

The blade body portion 240 is integrally formed with the body portion 100 and is formed by bending one end of the body portion 100 a plurality of times. The blade body portion 240 formed by bending the body portion 100 is formed, for example, vertically erected with respect to the body portion 100. Alternatively, the blade body 240 may be formed at an acute angle with respect to the body 100.

In one embodiment of the present invention, the blade body portion 240 is formed, for example, of two. Although it is shown and described that the blade body portion 240 is formed in two in one embodiment of the present invention, three or more blade body portions 240 may be formed.

The blade body portion 240 includes a connecting body portion 215 connecting the first blade body portion 210, the second blade body portion 220 and the second blade body portions 220.

2, the first and second blade bodies 210 and 220 are respectively provided with a cover 1 of a wire 10 and a top end of the cover 1 to be electrically connected to the core wire 1 of the wire 10, For example, Y-shaped grooves are formed.

The cover cutout 250 is formed in the shape of a knife at the upper end of the first and second blade body portions 210 and 220. The cover cutout 250 is formed by cutting the core wire 1, And a sheath 3 surrounding the core wire 1. The sheath 3 of the wire 10 is cut.

The core wire connecting part 260 is formed in a groove shape extending to the lower part of the coated cutout part 250 and the core wire connecting part 260 is formed by cutting the cover 3 of the wire 10 by the coated cutout part 250 Is electrically connected to the core wire (1) of the exposed wire (10).

1, a horn-shaped fixing protrusion (not shown) which is sharpened at the top end of the body portion 100 corresponding to the core wire connecting portion 260 and which is connected to the core wire 1 through the cover 3 of the wire 10 110 are formed. The fixing protrusion 110 prevents the wire 10 from being detached from the blade body 240 due to a tensile force when a tensile force acts on the wire 10 from the outside.

The connection terminal portion 300 is formed integrally with the body portion 100 at the other end of the body portion 300. The connection terminal portion 300 overlaps with the connection terminal portion of the other connector terminal and electrically connects the electric wires 10 connected to the terminal 400 for each connector.

The width of the connection terminal portion 300 is wider than the width of the body portion 100. A circular connection hole 310 is formed at the center of the connection terminal portion 300 when viewed in a plan view. For example, the connection terminal portion 300 is formed in a ring shape when viewed in a plan view.

3 is a perspective view of a terminal for a connector according to another embodiment of the present invention. The connector terminal shown in Fig. 3 has substantially the same configuration as that of the connector terminal shown in Figs. 1 and 2 except for the connection terminal portion. Therefore, redundant description of the same configuration will be omitted, and the same names and the same reference numerals will be given to the same configurations.

Referring to FIG. 3, the connector terminal 300 includes a body 100, a blade 200, and a connection terminal 300.

The connection terminal portion 300 is formed integrally with the body portion 100 at the other end of the body portion 300. The connection terminal portion 300 overlaps with the connection terminal of the other connector terminal and electrically connects the electric wires 10 connected to the terminal 400 for each connector.

The width of the connection terminal portion 300 is wider than the width of the body portion 100 and the connection hole 310 is formed in the connection terminal portion 300. The connection hole 310 is formed in a U-shape having a part of the edge of the connection terminal portion opened when viewed on a plane.

The heat hole 310 is formed in a U shape from the edge of the connection terminal portion 300 facing the other end of the body portion 100 toward the body portion 100, for example.

Although the connection hole 310 has been described as a circular shape or a U-shape in the temporary and other embodiments of the present invention, the connection hole 310 may have other shapes.

In order to electrically connect two or more electric wires using the connector terminal 400 according to one embodiment of the present invention and other embodiments, the electric wire may be connected to the blade portion 200 of the connector terminal 400 Connect by contact method. Since only one blade unit 200 is formed in the connector terminal 400, only one electric wire is connected to one connector terminal 400. The connection terminal portions 300 of the respective connector terminals 400 to which the electric wires desired to be connected to each other are connected to each other to electrically connect the connection terminal portions 300, 400 are not separated.

Since the wires to be connected are connected to the terminals 400 for the connectors and the terminals 400 for the different connectors are electrically connected to each other by using the connection terminals 300, There is no need to make the shape of the terminal different.

4 is a perspective view of a connector having a terminal for a connector according to an embodiment of the present invention. 5 is an exploded perspective view of Fig. The terminal of the connector shown in Figs. 4 and 5 is substantially the same as the terminal for the connector shown in Figs. 1 to 3 except for the latching portion and the bent portion. Therefore, redundant description of the same configuration will be omitted, and the same names and the same reference numerals will be given to the same configurations.

4 to 5, the connector 800 includes a terminal 300 and a housing 500.

The terminal 400 includes a body portion 100, a blade portion 200, and a connection terminal portion 300. In addition, the terminal 400 further includes a latching portion 120 and a bending portion 130.

The engaging portion 120 is formed between one end of the body portion 100 and the blade portion 200.

The width of the engaging portion 120 is the same as the width of the blade portion 200 and is wider than the width of the body portion 100.

The bent portion 130 is formed by bending the other end of the body portion 100 in a stepped shape in a direction opposite to the direction in which the blade portion 200 is raised with respect to the body portion 100. The connection terminal portion 300 is integrally formed with the bent portion 130 in the bent portion 130. The bent portion 130 is positioned on the same plane as the bottom plate of the housing 700 to be described later.

The housing 700 accommodates the body portion 100, the blade portion 200 and the electric wire 10 of the terminal 400 excluding the bent portion 130 and the connection terminal portion 300 to protect and fix them, (10) to the blade portion (200).

When the terminal 400 is coupled to the housing 700, only the bent portion 130 and the connection terminal portion 300 of the terminal 400 are exposed to the outside of the housing 700 as shown in FIG.

Referring to FIG. 5, the housing 700 includes a first housing 500 and a second housing 600.

The first housing 500 serves to receive, support, and fix the terminal 400.

The first housing 500 includes a bottom plate 510 and a first side plate 520.

The bottom plate 510 is formed in a plate shape suitable for supporting the terminal 300 and the first side plates 520 are formed as a pair protruding upward from both opposite edges of the bottom plate 510 .

A storage space is formed in the first housing 400 by the bottom plate 510 and the first side plates 520 and the blade portion 200 of the terminal 400, The electric wire 10 connected to the terminal 100 and the terminal 400 is received and fixed.

The locking protrusions 530, the guide portions 540, the engaging protrusions 550 and the fixing holes 560 are formed on the inner side surfaces of the first side plates 520.

The latching protrusion 530 is formed in a bar shape and contacts the latching protrusion 122 to prevent the terminal 400 from moving back and forth inside the housing 700. [ The latching protrusion 530 is formed at a position corresponding to the latching protrusion 122 and extends from the bottom plate 510 to the upper surface of the first side plate 520. [

The guide portion 540 protrudes from the locking protrusion 530 and protrudes in a plate shape and the guide portion 540 contacts the side surface of the body portion 100 so that the terminal 400 is moved in the housing 700 from side to side Prevent it from moving. The first guide protrusion 540 extends from the bottom plate 510 to the upper surface of the first side plate 520.

A first guide groove 542 is formed on the upper surface of the guide portion 540. The first guide protrusion 544 and the second guide protrusion 546 are formed at the upper end of the guide portion 540 on both sides of the first guide groove 542 due to the first guide groove 542.

The engaging protrusions 550 are spaced apart from the second guide protrusions 546 and protrude from the vertical edge of the first side plate 520. The coupling protrusions 550 extend from the bottom plate 510 to the upper surface of the first side plate 520 along the vertical direction of the first side plate 520 and are formed into a bar shape.

The fixing holes 560 are formed between the vertical edge of the first side plate 520 and the first latching protrusion 530 opposite to the vertical edge of the first side plate 520 on which the coupling protrusions 550 are formed, Fixing holes 560 are formed between the second guide protrusion 546 and the engaging protrusion 550, respectively.

The second housing 600 is coupled to the first housing 500 to cover the receiving space of the first housing 500 and press the wire to couple the wire to the blade 200 of the terminal 400.

The second housing 600 includes a top plate 610 and a pair of second side plates 620 and 622.

5, the upper plate 610 is disposed to face the bottom plate 510 of the first housing 500, and the second side plates 620 and 622 are disposed on both sides of the upper plate 610 facing each other, Respectively. The second side plates 620 and 622 are formed on the rim of the rim of the upper plate 610 in the direction in which the first side plates 520 of the first housing 500 intersect.

The electric wire is pushed to the bottom surface 510 of the first housing 500 and the electric wire is connected to the blade portion 200 of the terminal 400 The wire pressing portion 630 is formed. The wire pressing portion 630 is formed in a plate shape and the wire pressing portion 630 is protruded toward the bottom surface 510 of the first housing 500.

The wire pressing portion 630 is spaced apart from the second side plate 620 which is in contact with the engaging projection 550 of the first side plate 520 of the second side plates 620 and 622 and the wire pressing portion 630 Is formed from a portion corresponding to the first guide groove 542 of the first side plate 520 to a portion where the latching portion 120 of the terminal 300 is located.

A second guide groove 640 and a third guide groove 650 are formed on a side surface of the wire pressing part 630 which overlaps with the first side plate 520.

The second guide groove 640 extends from a portion corresponding to the first guide protrusion 544 formed on the first side plate 520 to a portion where the latching portion 120 of the terminal 300 is located.

A portion of the wire pressing portion 630 protruding toward the rim of the upper plate 610 due to the second guide groove 640, that is, a portion corresponding to the first guide groove 542 of the wire pressing portion 630, And is inserted into the first guide groove 542 when the housing 600 is coupled to the first housing 500.

The third guide groove 560 is formed in a portion corresponding to the latching protrusion 530 of the first housing 500 so that when the second housing 600 is coupled to the first housing 500, the latching protrusion 530 .

The second side plates 620 and 622 are formed with a lever 660, a wire insertion portion 670, and a fixing protrusion 680.

The lever 660 is formed on the outside of the second side plate 620 which is in contact with the engaging projection 550 of the first side plate 520 when the second housing 600 is coupled to the first housing 500 The lever 660 presses the body 110 to fix the terminal 400 to the housing 700. [

The wire inserting portion 670 is formed on the second side plate 622 adjacent to the blade portion 200 when the second housing 600 is coupled to the first housing 500 so that the electric wire is introduced into the housing 700 .

5, when the wire insertion portion 670 is formed into a semicircular groove as shown in FIG. 5, the wire insertion portion 670 is formed as a circular hole or a semi-circular groove as shown in FIG. A semicylindrical groove is also formed in the first housing 500 portion which is in contact with the second housing 622.

The fixing protrusions 680 are formed in correspondence with the fixing holes 560 of the first housing 500 and the fixing protrusions 680 are fixed to the fixing holes 660 when the second housing 600 is coupled to the first housing 500. [ (560) to prevent the first and second housings (500, 600) from being easily separated.

As described above in detail, when the blade portion electrically connected to the core wire of the electric wire is formed at one end of the conductive body portion and the connection terminal is formed at the other end portion, the connection terminals of the respective connectors overlap each other, It is possible to use connectors of the same shape irrespective of the number of wires to be connected and to disconnect any one of the wires connected to each other through the connection terminal of the connector to reconnect the connector and the wire when the new wire is connected It is possible to reduce the work time.

It should be noted that the embodiments disclosed in the drawings are merely examples of specific examples for the purpose of understanding, and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100 ... body portion 200 ... blade portion
300 ... connection terminal part 400 ... terminal for connector
500 ... first housing 600 ... second housing
700 ... housing 800 ... connector

Claims (16)

A conductive body portion;
A blade portion bent at least once from one end of the body portion and rising up with respect to the body portion, the blade body portions having a core wire connection portion therebetween, and a cover cut portion formed at an upper end of the blade body portions to cut a covering of electric wires; And
And a connection terminal portion formed at the other end of the body portion facing the blade portion. The method according to claim 1,
Wherein the blade portion further comprises a fixing protrusion for fixing the electric wire between the blade bodies. 3. The method of claim 2,
Wherein the fixing protrusion is formed in a shape of a horn having a sharp top end. The method according to claim 1,
And a connection hole is formed in the connection terminal portion. 5. The method of claim 4,
Wherein the connection hole is formed in a circular shape when viewed in a plan view. 5. The method of claim 4,
Wherein the connection hole is formed in a U-shape with a portion of an edge of the connection terminal opened when viewed in a plan view. A blade body portion formed at one end of the body portion and bent toward the body portion and formed with a core wire connection portion therebetween, and a covering incision portion formed at the upper end of the blade body portions to cut the covering of the electric wire, And a connection terminal portion formed at the other end of the body portion facing the blade portion; And
And a housing for receiving and securing the body portion, the blades, and the wires of the terminal and coupling the wires to the blade portion. 8. The method of claim 7,
Wherein the body portion includes a bent portion bent so that a part of the body portion protruding from the housing is coplanar with the bottom plate of the housing. 8. The method of claim 7,
And the blade portion includes a fixing protrusion for fixing the electric wire between the blade bodies. 10. The method of claim 9,
Wherein the fixing protruding portion has a horn-like shape with an upper end portion being sharp. 8. The method of claim 7,
And a connection hole is formed in the connection terminal portion. 12. The method of claim 11,
Wherein the connection hole is formed in a circular shape when viewed in a plan view. 12. The method of claim 11,
Wherein the connection hole is formed in a U-shape having a part of an edge of the connection terminal opened when viewed in a plan view. 8. The method of claim 7,
The housing includes a first housing including a bottom plate defining a receiving space for accommodating the terminal and a pair of first side plates extending upward from opposite opposite edges of the bottom plate; And
A pair of second side plates coupled to the first housing and disposed to face the bottom plate, a pair of second side plates extending from opposite sides of the top plate toward the bottom plate, And a second housing including a wire pressing part protruding from the surface in a plate shape, 15. The method of claim 14,
The width of the blade portion is wider than the width of the body portion to form a locking protrusion on the body portion and the blade portion interface,
The first housing includes a latching protrusion formed on the inner side surface of the first side plates to correspond to the latching jaw and extending from the bottom plate to the upper surface of the first side plate, And
And a guide portion spaced apart from the latching protrusion on the inner side surface of the first side plates and protruding in a plate shape from the bottom plate to the upper surface of the side plate and having a first guide groove formed therein for receiving a part of the wire pressing portion Connector. 16. The method of claim 15,
The wire pressing portion is formed in a direction corresponding to the coupling protrusion from a portion corresponding to the first guide groove, and on both sides of the wire pressing portion contacting with the first side plates, a portion corresponding to the boundary between the first guide groove and the guide portion A second guide groove formed along a side surface of the wire pressing portion in a direction in which the locking protrusion is formed, and a third guide groove formed in a portion corresponding to the locking protrusion and in which the locking protrusion is fitted.

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