JP6784171B2 - Relay terminal - Google Patents

Description

The present invention relates to a relay terminal.

Conventionally, in order to connect male terminals such as wire harnesses and devices, relay terminals having female connection portions at both ends have been used (see, for example, Patent Document 1). The relay terminal has two connecting portions and a connecting portion for connecting the connecting portions. The connecting portion is provided with, for example, a bead (throttle groove) in order to hold the female connecting portion against the insertion of the male terminal into the female connecting portion.

Japanese Unexamined Patent Publication No. 8-64318

By the way, it is required to increase the distance between the connecting portions at both ends. However, if the connecting portion is lengthened, the connecting portion may be deformed due to the formation of the bead. The plurality of relay terminals are formed by being connected by carriers in the manufacturing process. In the cutting process of this carrier, the connecting portion may be deformed.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a relay terminal capable of suppressing deformation of a connecting portion.

The relay terminal that solves the above problems is a first terminal connection portion in which the male terminal is inserted and connected from the first direction, and a male terminal is inserted and connected from the second direction opposite to the first direction. It has a second terminal connecting portion to be formed, a connecting portion for connecting the first terminal connecting portion and the second terminal connecting portion, and the connecting portion is provided along the first direction. A base portion formed in an extending flat plate shape, the first terminal connecting portion is connected to the first end portion, and the second terminal connecting portion is connected to the second end portion, and the width direction of the base portion. A first side wall that is erected on one of both sides and extends from the first end toward the second end, and the second side that is erected on the other side of both sides in the width direction of the base. It has a second side wall portion extending from the end portion toward the first end portion, and the base portion has a first carrier cutting portion on a side portion on which the second side wall portion is arranged. A second carrier cutting portion is provided on the side portion where the first side wall portion is arranged.

According to this configuration, the connecting portion has a flat plate-shaped base portion, a first side wall portion and a second side wall portion erected on both side portions of the base portion, and the base portion is on the side of the first side wall portion. It has a second carrier cutting portion, and has a first carrier cutting portion on the side of the second side wall portion. The first carrier cutting portion and the second carrier cutting portion are arranged at different positions in the longitudinal direction of the base portion. That is, the first side wall portion and the second side wall portion are arranged at offset positions in the longitudinal direction of the base portion, and are formed so as not to partially overlap in the width direction of the base portion. Therefore, since the base does not have a bead, deformation during processing is suppressed. In addition, deformation such as buckling when the male terminal is inserted into the first terminal connection portion and the second terminal connection portion is suppressed.

In the relay terminal, it is preferable that the first carrier cutting portion is formed at the first end portion and the second carrier cutting portion is formed at the second end portion.
According to this configuration, the first carrier cutting portion and the second carrier cutting portion are processing marks obtained by cutting the carrier (joining portion) connecting the relay terminals. That is, a plurality of relay terminals are manufactured by being connected by a carrier.

In the above relay terminal, it is preferable that the first terminal connection portion and the second terminal connection portion are formed in a square cylinder shape and have elastic contact pieces arranged inside.
According to this configuration, the male terminal inserted into the square tubular first terminal connection portion is sandwiched between the inner surface of the first terminal connection portion and the elastic contact piece disposed inside, and the first terminal is held. The terminal connection and the male terminal are electrically connected. Further, the male terminal inserted into the square tubular second terminal connection portion is sandwiched between the inner surface of the second terminal connection portion and the elastic contact piece disposed inside, and is sandwiched between the second terminal connection portion and the male terminal. It is electrically connected to the male terminal.

According to the relay terminal of the present invention, it is possible to suppress the deformation of the connecting portion.

(A) is a front view of the relay terminal, (b) is a side view of the relay terminal, (c) is an enlarged view showing a terminal connection portion of the relay terminal, and (d) is an enlarged sectional view showing a connection portion. Perspective view of the relay terminal. The schematic diagram which shows a plurality of relay terminals connected by a carrier.

Each form will be described below.
In addition, the attached drawings may show the components in an enlarged manner for easy understanding. The dimensional ratios of the components may differ from the actual ones or those in another drawing.

As shown in FIGS. 1 (a), 1 (b) and 2, the relay terminal 1 is formed by press-molding a metal plate having excellent conductivity. As the material of the relay terminal 1, for example, a copper-based alloy such as bronze, brass, or a copper alloy, an aluminum alloy, or the like can be used. Further, these materials may be subjected to various surface treatments such as plating.

The relay terminal 1 has two terminal connecting portions 10 and 20 and a connecting portion 30 that connects the terminal connecting portions 10 and 20 to each other. Male terminals (not shown) are inserted into both terminal connection portions 10 and 20. In FIG. 1A, a male terminal is inserted into the terminal connection portion 10 from above the drawing, and a male terminal is inserted into the terminal connection portion 20 from below the drawing.

The connecting portion 30 is formed so as to extend along the insertion direction of the male terminal (vertical direction in FIG. 1A). The terminal connecting portions 10 and 20 are connected to both ends of the connecting portion 30 (upper and lower ends in FIG. 1A).

As shown in FIG. 1 (c), the terminal connection portion 10 has a square tubular shape that is open on both sides (both upper and lower sides in FIG. 1 (a)). Inside the terminal connection portion 10, an elastic contact piece 11 folded back from the tip edge (upper end in FIG. 1A) is arranged. A male terminal (not shown) is inserted into the terminal connection portion 10. The male terminal is elastically sandwiched between the inner surface of the terminal connection portion 10 and the elastic contact piece 11. As a result, the male terminal and the terminal connection portion 10 are electrically connected to each other.

The terminal connection portion 20 shown in FIGS. 1A and 2 has a shape rotated with the terminal connection portion 10 at the upper end of the connection portion 30. That is, the terminal connection portion 10 and the terminal connection portion 20 have shapes to be rotated with each other. The terminal connection portion 20 has a square tubular shape, and an elastic contact piece 21 (see FIG. 2) is arranged inside. Then, similarly to the terminal connection portion 10, the terminal connection portion 20 elastically sandwiches the male terminal inserted inside by the inner surface of the terminal connection portion 20 and the elastic contact piece 21, and electrically holds the male terminal with the male terminal. Connected to.

As shown in FIG. 1A, the connecting portion 30 has a base portion 31 and side wall portions 41 and 42 arranged on both left and right sides of the base portion 31.
The base 31 is formed in a thin flat plate shape. That is, the connecting portion 30 of the present embodiment does not have a bead (throttle groove) formed in the base portion 31. Both terminal connection portions 10 and 20 are connected to both upper and lower ends of the base portion 31.

As shown in FIG. 1D, the side wall portions 41 and 42 are erected from the end portion of the base portion 31 in a direction orthogonal to the plane of the base portion 31 (upward in FIG. 1D). The side wall portions 41 and 42 and the base portion 31 are integrally formed by pressing one metal plate. That is, the side wall portions 41 and 42 are formed so as to be bent with respect to the base portion 31. The connecting portion 30 having the base portion 31 and the side wall portions 41 and 42 has a U-shaped (U-shaped) cross-sectional shape that opens upward in FIG. 1 (d).

As shown in FIG. 1A, the side wall portion 41 is formed so as to extend from the first end portion 31a of the base portion 31 toward the second end portion 31b. On the other hand, the side wall portion 42 is formed so as to extend from the second end portion 31b of the base portion 31 toward the first end portion 31a. Therefore, the connecting portion 30 has at least one side wall portion from the first end portion 31a to the second end portion 31b of the base portion 31.

The base portion 31 has a first carrier cutting portion 32a and a second carrier cutting portion 32b. The first carrier cutting portion 32a is formed on one side portion of both side portions of the base portion 31 (the right side portion in FIG. 1B) at the first end portion 31a of the base portion 31. The base portion 31 has a notch portion 33a between the first carrier cutting portion 32a and the side wall portion 42.

The second carrier cutting portion 32b is formed on the other side portion (the left side portion in FIG. 1B) of both side portions of the base portion 31 at the second end portion 31b of the base portion 31. The base portion 31 has a notch portion 33b between the second carrier cutting portion 32b and the side wall portion 41.

The first carrier cutting portion 32a and the second carrier cutting portion 32b are processing marks generated in the manufacturing process. As described above, the relay terminal 1 is formed by punching a metal plate or the like. As shown in FIG. 3, a plurality of relay terminals 1 are continuously connected and formed by a carrier (connecting portion) 50 required in a progressive step of a punching step or the like. In FIG. 3, the length of the carrier 50 (the length in the left-right direction in the figure) is drawn short. The carrier 50 is cut from the plurality of relay terminals 1 in the connected state to form individual relay terminals 1. The cutting marks (machining marks) of the carrier 50 become the first carrier cutting portion 32a and the second carrier cutting portion 32b.

The cutout portions 33a and 33b are formed so that the distance between the side wall portion 41 and the side wall portion 42 is a desired value. As shown in FIG. 1D, the side wall portions 41 and 42 are formed so as to be bent with respect to the base portion 31 so as to have the same width as the terminal connecting portion 10. In order to form the side wall portions 41 and 42 with such a width, as shown in FIG. 1A, the side wall portions 33a and 33b are formed by forming notches 33a and 33b inward from the side portion of the base portion 31. The positions of 41 and 42 are set to be equal to the width of the terminal connection portion 10.

(Action)
As shown in FIGS. 1 (a) and 1 (b), the relay terminal 1 has two terminal connecting portions 10 and 20 and a connecting portion 30 for connecting the two terminal connecting portions 10 and 20 to each other. There is. The connecting portion 30 has a base portion 31 and side wall portions 41 and 42 arranged on both side portions of the base portion 31. The base 31 is formed in a thin flat plate shape. That is, the base 31 does not have a bead (throttle groove). Therefore, the distortion caused by the processing of the bead or the like does not occur in the base 31 of the present embodiment.

The side wall portions 41 and 42 are erected from both ends of the base portion 31 in a direction orthogonal to the surface of the base portion 31. The base portion 31 and the side wall portions 41 and 42 form a U-shaped (U-shaped) cross section at the connecting portion 30. Therefore, the side wall portions 41 and 42 suppress the bending of the base portion 31, that is, the connecting portion 30. Therefore, when the male terminal is inserted and connected to the terminal connecting portions 10 and 20, buckling and deformation of the connecting portion 30 are suppressed.

The side wall portions 41 and 42 are arranged at offset positions in the longitudinal direction of the base portion 31. More specifically, the side wall 41 is formed so as to extend from the first end 31a of the base 31 toward the second end 31b. On the other hand, the side wall portion 42 is formed so as to extend from the second end portion 31b of the base portion 31 toward the first end portion 31a. The base portion 31 has a first carrier cutting portion 32a at the first end portion 31a and a second carrier cutting portion 32b at the second end portion 31b. Therefore, the side wall portion 41 and the side wall portion 42 are formed so as not to partially overlap each other in the width direction of the base portion 31. Therefore, the base portion 31 has at least one side wall portion as a whole (between the first end portion 31a and the second end portion 31b). Therefore, bending is suppressed in the entire base portion 31, and buckling and deformation of the connecting portion 30 are suppressed.

As described above, the base portion 31 has a first carrier cutting portion 32a at the first end portion 31a and a second carrier cutting portion 32b at the second end portion 31b. That is, the side wall portions 41 and 42, the first carrier cutting portion 32a, and the second carrier cutting portion 32b are provided on both side portions of the base portion 31. The first carrier cutting portion 32a and the second carrier cutting portion 32b are processing marks obtained by cutting the carrier 50. A plurality of relay terminals 1 are formed in a state of being connected by carriers 50 required in a progressive step of a punching process or the like, and the carriers 50 are cut to become individual relay terminals 1. In this way, since the relay terminal 1 can be formed by the progressive step of the punching process, it is possible to suppress the deformation of the connecting portion 30 and the increase in the manufacturing cost of the relay terminal 1. Further, since the step of forming the bead is not required, the relay terminal 1 can be easily manufactured.

The base portion 31 has a first carrier cutting portion 32a at the first end portion 31a. The first carrier cutting portion 32a is a processing mark obtained by cutting the carrier 50. The side wall portion 41 is formed so as to extend from the first end portion 31a toward the second end portion 31b. That is, at the first end 31a of the base 31, the side wall 41 and the first carrier cutting portion 32a are formed at positions facing each other. Therefore, when the carrier 50 is cut, the side wall portion 41 suppresses the deformation of the base portion 31.

Similarly, the base 31 has a second carrier cutting portion 32b at the second end. The second carrier cutting portion 32b is a processing mark obtained by cutting the carrier 50. The side wall portion 42 is formed so as to extend from the second end portion 31b toward the first end portion 31a. That is, at the second end 31b of the base 31, the side wall 42 and the second carrier cutting portion 32b are formed at positions facing each other. Therefore, when the carrier 50 is cut, the side wall portion 42 suppresses the deformation of the base portion 31.

As described above, according to the present embodiment, the following effects are obtained.
(1) The relay terminal 1 is a terminal connection in which a male terminal is inserted and connected from a first direction and a male terminal is inserted and connected from a second direction opposite to the first direction. It has a portion 20 and a connecting portion 30 that connects the terminal connecting portion 10 and the terminal connecting portion 20. The connecting portion 30 has a base portion 31 and side wall portions 41 and 42. The base portion 31 is formed in a flat plate shape extending along the first direction, the terminal connecting portion 10 is connected to the first end portion 31a, and the terminal connecting portion 20 is connected to the second end portion 31b. The side wall portion 41 is erected on one of both side portions in the width direction of the base portion 31 and is formed so as to extend from the first end portion 31a toward the second end portion 31b. The side wall portion 42 is erected on the other side of both side portions in the width direction of the base portion 31 and is formed so as to extend from the second end portion 31b toward the first end portion 31a. As described above, the connecting portion 30 has a flat plate-shaped base portion 31 and side wall portions 41 and side wall portions 42 erected on both side portions of the base portion 31. Therefore, since the base 31 does not have a bead, deformation during processing can be suppressed. Further, it is possible to suppress deformation such as buckling when the male terminal is inserted into the terminal connection portion 10 and the terminal connection portion 20.

(2) The base portion 31 has a first carrier cutting portion 32a on the side portion where the side wall portion 42 is arranged at the first end portion 31a, and the side wall portion 41 is arranged at the second end portion 31b. A second carrier cutting portion 32b is provided on the provided side portion. The first carrier cutting portion 32a and the second carrier cutting portion 32b are processing marks obtained by cutting the carrier (connecting portion) connecting the relay terminal 1. That is, a plurality of relay terminals 1 are manufactured by being connected by a carrier. Therefore, a plurality of relay terminals 1 can be easily formed.

(3) In the above relay terminal 1, the terminal connection portion 10 and the terminal connection portion 20 are formed in a square tubular shape and have elastic contact pieces 11 and 21 arranged inside. The male terminal inserted into the square tubular terminal connection portion 10 is sandwiched between the inner surface of the terminal connection portion 10 and the elastic contact piece 11 arranged inside, and electrically connects the terminal connection portion 10 and the male terminal. Can be connected to. Further, the male terminal inserted into the square tubular terminal connection portion 20 is sandwiched between the inner surface of the terminal connection portion 20 and the elastic contact piece 21 arranged inside, and the terminal connection portion 20 and the male terminal are held together. Can be connected electrically.

10 ... Terminal connection part (first terminal connection part), 20 ... Terminal connection part (first terminal connection part) 11,21 ... Elastic contact piece, 30 ... Connection part, 31 ... Base part, 31a ... First End, 31b ... 2nd end, 32a ... 1st carrier cut, 32b ... 2nd carrier cut, 41 ... side wall (first side wall), 42 ... side wall (second side wall) Department).

Claims (3)

The first terminal connection part where the male terminal is inserted and connected from the first direction,
A second terminal connection portion into which a male terminal is inserted and connected from a second direction opposite to the first direction,
A connecting portion that connects the first terminal connecting portion and the second terminal connecting portion,
Have,
The connecting part
It is formed in a flat plate shape without a bead extending along the first direction, the first terminal connection portion is connected to the first end portion, and the second terminal connection portion is connected to the second end portion. The base to which the parts are connected and
A first side wall portion that is erected on one of both side portions in the width direction of the base portion and extends from the first end portion toward the second end portion.
A second side wall portion that is erected on the other side of both side portions in the width direction of the base portion and extends from the second end portion toward the first end portion.
Have,
The base portion has a first carrier cutting portion on the side portion on which the second side wall portion is arranged, and has a second carrier cutting portion on the side portion on which the first side wall portion is arranged. thing,
A relay terminal featuring. The first carrier cutting portion is formed at the first end portion.
The second carrier cutting portion is formed at the second end portion.
The relay terminal according to claim 1. The relay terminal according to claim 1 or 2, wherein the first terminal connection portion and the second terminal connection portion are formed in a square tubular shape and have an elastic contact piece arranged inside. ..

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