JP2024077037A - Coupler device - Google Patents

Abstract

A coupler device capable of connecting electric wires while reducing the number of parts is provided.
SOLUTION
The coupler device 1 is configured to include a first terminal 2 attached to an end of a first electric wire W1, a second terminal 3 attached to an end of a second electric wire W2, a main body 4 which forms an insertion space 41 extending along the extension direction, a first opening 47 which opens on one side of the insertion space 41 and allows the first terminal 2 to be inserted, and a second opening 48 which opens on the other side of the insertion space 41 and allows the second terminal 3 to be inserted, and which connects the first terminal 2 and the second terminal 3 within the insertion space 41, and a spacer 5 which can be inserted into the main body 4 from a direction intersecting the extension direction, and which has a first locking portion 51 which locks the first terminal 2 in the insertion space 41, a second locking portion 52 which locks the second terminal 3 in the insertion space 41, and a connecting portion 53 which connects the first locking portion 51 and the second locking portion 52.
[Selected Figure] Figure 1

Description

The present invention relates to a coupler device.

Conventionally, a connection device that connects two wire harnesses is known as a coupler device, for example as described in Patent Document 1. This connection device connects terminal blocks to each wire harness and inserts the terminal blocks into a housing to make the connection.

JP 2003-346996 A

There is room for improvement in this type of connection device in that it requires a large number of parts. In other words, multiple parts are required, such as a terminal block for arranging the terminals of each wire harness, a housing case for inserting the terminal block, and a protective case. For this reason, there is a need for the development of a coupler device that can connect electric wires with a simple structure and reduce the number of parts required to connect electric wires.

Therefore, the present invention aims to provide a coupler device that can connect electric wires while reducing the number of parts.

That is, the coupler device according to the present invention is configured to include a first terminal attached to an end of a first electric wire, a second terminal attached to an end of a second electric wire and connectable to the first terminal, a main body portion that forms an insertion space extending along the extension direction, a first opening that opens on one side of the insertion space and allows the first terminal to be inserted, and a second opening that opens on the other side of the insertion space and allows the second terminal to be inserted, and connects the first terminal and the second terminal within the insertion space, and a spacer that can be inserted into the main body portion from a direction intersecting the extension direction, and has a first locking portion that locks the first terminal within the insertion space, a second locking portion that locks the second terminal within the insertion space, and a connecting portion that connects the first locking portion and the second locking portion.

The coupler device of the present invention allows for the connection of electrical wires while reducing the number of parts.

FIG. 1 is an exploded perspective view of a coupler device according to an embodiment of the present invention. FIG. 2 is a perspective view of a spacer of the coupler device according to the embodiment. FIG. 3 is a perspective view of the coupler device according to the embodiment when connected. FIG. 4 is a cross-sectional view of the coupler device taken along line IV-IV in FIG. FIG. 5 is a cross-sectional view of the coupler device taken along line V-V of FIG. FIG. 6 is an explanatory diagram of a connection in a coupler device according to an embodiment. FIG. 7 is an explanatory diagram of a connection in a coupler device according to an embodiment. FIG. 8 is an explanatory diagram of a connection in a coupler device according to an embodiment. FIG. 9 is an explanatory diagram of a connection in a coupler device according to an embodiment.

Below, an embodiment of the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to this embodiment. Furthermore, the components in the following embodiment include those that are easily replaceable by a person skilled in the art, or those that are substantially the same.

[Embodiment]
This embodiment relates to a coupler device. Fig. 1 is an exploded perspective view of the coupler device according to the embodiment, and Fig. 2 is a perspective view of a spacer of the coupler device according to the embodiment. Fig. 3 is a perspective view of the coupler device according to the embodiment when connected, Fig. 4 is a cross-sectional view of the coupler device taken along line IV-IV in Fig. 3, and Fig. 5 is a cross-sectional view of the coupler device taken along line VV in Fig. 3. Figs. 6 to 9 are explanatory diagrams of connections in the coupler device according to the embodiment.

In the following description, of the first, second, and third directions that intersect with one another, the first direction is referred to as the "connection direction X," the second direction is referred to as the "width direction Y," and the third direction is referred to as the "height direction Z." Here, the connection direction X, width direction Y, and height direction Z are mutually perpendicular. The connection direction X corresponds to the connection direction of the terminals, or the extension direction of the terminals and main body portion. The width direction Y and height direction Z correspond to intersecting directions that intersect with the connection direction X. Furthermore, unless otherwise specified, each direction used in the following description represents the direction when each part is assembled with each other. Note that orthogonal here includes nearly orthogonal.

As shown in FIG. 1, the coupler device 1 includes a first terminal 2, a second terminal 3, a main body 4, and a spacer 5. The coupler device 1 is a device that connects the first terminal 2 and the second terminal 3 within the main body 4, and by connecting the first terminal 2 and the second terminal 3, it is possible to connect a first electric wire W1 to which the first terminal 2 is attached and a second electric wire W2 to which the second terminal 3 is attached. The coupler device 1 is mounted, for example, on a vehicle. The first electric wire W1 and the second electric wire W2 constitute, for example, electric wires, cables, etc. of a control system or power system in the vehicle.

The first terminal 2 is a terminal attached to the end of the first electric wire W1, for example, a crimp terminal that is crimped and attached to the end of the first electric wire W1. The first terminal 2 has a wire connection portion 21, a linking portion 22, and an electrical connection portion 23. The wire connection portion 21, the linking portion 22, and the electrical connection portion 23 are made of a conductive metal, and are formed integrally, for example, by pressing and bending a single sheet of metal punched into a shape corresponding to each portion. The first terminal 2 is formed in the extension direction (connection direction X) in the order of the wire connection portion 21, the linking portion 22, and the electrical connection portion 23, and these are connected to each other.

The first electric wire W1 is, for example, configured with an insulating coating on the outer periphery of the conductor portion, and the end portion is in a state where the conductor portion is exposed, and the first terminal 2 is attached to the end portion. That is, the electric wire connection portion 21 of the first terminal 2 is attached by crimping and crimping the conductor portion and the insulating coating portion of the first electric wire W1. The connecting portion 22 is a portion that connects the electric wire connection portion 21 and the electrical connection portion 23. The connecting portion 22 is formed with a recess 22A. The recess 22A is a portion that is lower in height than the adjacent electric wire connection portion 21 and the electrical connection portion 23 and is recessed. The electrical connection portion 23 is a portion that is electrically connected to the second terminal 3, and is formed, for example, in a box shape. The first terminal 2 is a female terminal, and a connection hole 26 is formed for inserting the terminal portion 36 of the second terminal 3 into the electrical connection portion 23. The connection hole 26 extends from the end face of the electrical connection portion 23 in the extension direction of the second terminal 3. In addition, a protruding piece 28 is formed in the electrical connection portion 23. The protrusion 28 is a part that protrudes upward from the electrical connection portion 23.

As shown in FIG. 3, a terminal portion 27 is formed on the electrical connection portion 23 of the first terminal 2. The terminal portion 27 is, for example, a contact piece formed in the connection hole 26, and contacts the terminal portion 36 of the second terminal 3 to be electrically connected to the terminal portion 36.

In FIG. 1, the second terminal 3 is a terminal attached to the end of the second electric wire W2, for example, a crimp terminal that is crimped and attached to the end of the second electric wire W2. The second terminal 3 has a wire connection portion 31, a linking portion 32, and an electrical connection portion 33. The wire connection portion 31, the linking portion 32, and the electrical connection portion 33 are made of a conductive metal, and are formed integrally, for example, by pressing and bending a single sheet of metal punched into a shape corresponding to each portion. The second terminal 3 is formed in the extension direction (connection direction X) in the order of the wire connection portion 31, the linking portion 32, and the electrical connection portion 33, and these are connected to each other.

The second electric wire W2 is, for example, configured with an insulating coating on the outer periphery of the conductor portion, the end portion is in a state where the conductor portion is exposed, and the first terminal 2 is attached to the end portion. That is, the electric wire connection portion 31 of the second terminal 3 is attached by crimping the conductor portion and the insulating coating portion of the second electric wire W2. The connecting portion 32 is a portion that connects the electric wire connection portion 31 and the electrical connection portion 33. The connecting portion 32 is formed with a recess 32A. The recess 32A is a recessed portion that is lower in height than the adjacent electric wire connection portion 31 and the electrical connection portion 33. The electrical connection portion 33 is a portion that is electrically connected to the first terminal 2, and is formed, for example, in a box shape. The second terminal 3 is a male terminal, and the electrical connection portion 33 forms a terminal portion 36 that is connected to the terminal portion 27 of the first terminal 2. The terminal portion 36 is a tab-shaped terminal that extends from the end face of the electrical connection portion 33 in the extension direction of the second terminal 3, and is, for example, a plate body or a rod body. In addition, a protrusion 38 is formed on the electrical connection portion 33. The protrusion 38 is a portion of the electrical connection portion 33 that protrudes upward.

In FIG. 1, the main body 4 functions as a housing into which the first terminal 2 and the second terminal 3 are inserted and connected, and is made of an insulating material such as resin, for example, and has a rectangular cross-sectional shape. The main body 4 is an elongated body that extends in the extension direction (connection direction X) with a non-divisible structure, and is not divided, nor is it made of two or more joined members. Therefore, the main body 4 has a simple structure and can be easily manufactured at low cost by resin molding, etc.

The main body 4 forms an insertion space 41 along the extension direction. The insertion space 41 is a hole that penetrates the main body 4 in the extension direction, and is, for example, rectangular in cross section and is formed with a size that allows the first terminal 2 and the second terminal 3 to be inserted. In other words, the insertion space 41 allows the first terminal 2 to be inserted from the first opening 47 on one side, and the second terminal 3 to be inserted from the second opening 48 on the other side. The insertion space 41 includes a first terminal accommodating chamber 41A in which the first terminal 2 is accommodated, and a second terminal accommodating chamber 41B in which the second terminal 3 is accommodated. The first terminal accommodating chamber 41A is a space that accommodates the first terminal 2, and is, for example, the space from the first opening 47 to the guide portion 46 in the insertion space 41. The second terminal accommodating chamber 41B is a space that accommodates the second terminal 3, and is, for example, the space from the second opening 48 to the guide portion 46 in the insertion space 41.

The main body 4 is formed with an attachment hole 42. The attachment hole 42 is a hole for inserting the spacer 5 to be attached to the main body 4, and is formed, for example, from the side surface 4A of the main body 4 toward the width direction Y. The attachment hole 42 is formed with a connecting portion accommodating chamber 420, a first communicating chamber 421, and a second communicating chamber 422. The connecting portion accommodating chamber 420 is a space for accommodating the connecting portion 53 of the spacer 5, and is formed, for example, along the extension direction near the opening of the attachment hole 42. The connecting portion accommodating chamber 420 is formed with a size capable of accommodating the connecting portion 53 and a part of the first locking portion 51, the second locking portion 52, the first hooking portion 54, and the second hooking portion 55. Details of the spacer 5 will be described later.

The first communication chamber 421 is a space for accommodating the first locking portion 51 of the spacer 5, and is connected to the insertion space 41. For example, the first communication chamber 421 is formed from the connecting portion accommodating chamber 420 toward the rear in the width direction Y, and is connected to the first terminal accommodating chamber 41A of the insertion space 41. By inserting the first locking portion 51 into the first communication chamber 421, the first locking portion 51 locks the first terminal 2 in the first terminal accommodating chamber 41A, preventing the first terminal 2 inserted into the main body portion 4 from slipping out.

The second communication chamber 422 is a space for accommodating the second locking portion 52 of the spacer 5, and is connected to the insertion space 41. For example, the second communication chamber 422 is formed toward the rear side in the width direction Y from the connecting portion accommodating chamber 420, and is connected to the second terminal accommodating chamber 41B of the insertion space 41. By inserting the second locking portion 52 into the second communication chamber 422, the second locking portion 52 locks the second terminal 3 in the second terminal accommodating chamber 41B, preventing the second terminal 3 inserted into the main body portion 4 from slipping out.

The mounting hole 42 is formed with a first storage chamber 423 and a second storage chamber 424. The first storage chamber 423 is a space for storing the first hook portion 54 of the spacer 5, and is formed to be continuous with the first communication chamber 421 on the height direction Z side. The cross-sectional shape of the first storage chamber 423 in a direction intersecting the width direction Y is formed to match the cross-sectional shape of the first hook portion 54, and is, for example, rectangular. The first storage chamber 423 is formed longer in the connection direction X than the first communication chamber 421, and the cross-sectional shape of the first storage chamber 423 and the first communication chamber 421 combined is T-shaped. As shown in FIG. 5, the first storage chamber 423 is connected to a first hook space 425 extending along the connection direction X at the rear side of the main body 4.

1, the second storage chamber 424 is a space for storing the second hook portion 55 of the spacer 5, and is formed to be continuous with the second communication chamber 422 on the height direction Z side. The cross-sectional shape of the second storage chamber 424 in a direction intersecting the width direction Y is formed to match the cross-sectional shape of the second hook portion 55, and is, for example, rectangular. The second storage chamber 424 is formed to be longer in the connection direction X than the second communication chamber 422, and the cross-sectional shape of the second storage chamber 424 and the second communication chamber 422 combined is T-shaped as shown in FIG. 5. The second storage chamber 424 is connected to a second hook space 426 that extends along the connection direction X at the rear side of the main body 4.

As shown in FIG. 4, the main body 4 is formed with a first tapered portion 43. The first tapered portion 43 is a portion that facilitates the insertion of the first terminal 2 into the insertion space 41, and is formed within the insertion space 41. That is, the first tapered portion 43 is formed by inclining the inner surface of the insertion space 41, and is formed so that the inner surface of the insertion space 41 tapers from the first opening 47 side toward the insertion direction of the first terminal 2 along the extension direction. The first tapered portion 43 is formed on the insertion path of the first terminal 2 in the insertion space 41, and is formed at a position closer to the first opening 47 than the second opening 48. By forming the first tapered portion 43, the first terminal 2 can be guided to an appropriate insertion position when the first terminal 2 is inserted into the main body 4, and the first terminal 2 can be inserted smoothly.

The main body 4 is also formed with a second tapered portion 45. The second tapered portion 45 is a portion that facilitates the insertion of the second terminal 3 into the insertion space 41, and is formed within the insertion space 41. That is, the second tapered portion 45 is formed by inclining the inner surface of the insertion space 41, and is formed so that the inner surface of the insertion space 41 tapers from the second opening 48 side toward the insertion direction of the second terminal 3 along the extension direction. The second tapered portion 45 is formed on the insertion path of the second terminal 3 in the insertion space 41, and is formed at a position closer to the second opening 48 than the first opening 47. By forming the second tapered portion 45, the second terminal 3 can be guided to an appropriate insertion position when the second terminal 3 is inserted into the main body 4, and the second terminal 3 can be smoothly inserted.

The main body 4 is formed with a guide portion 46. The guide portion 46 is a portion that guides the terminal portion 36 of the second terminal 3 toward the first terminal accommodating chamber 41A within the insertion space 41, and is formed within the insertion space 41. That is, the guide portion 46 is a protrusion that protrudes the inner surface 41C of the insertion space 41 toward the center position of the insertion space 41, and two guide portions 46 are formed to sandwich the terminal portion 36 from above and below. In other words, the two guide portions 46 are located between the first terminal accommodating chamber 41A and the second terminal accommodating chamber 41B, and protrude from the ceiling and floor surfaces of the inner surface of the insertion space 41 toward their respective formation positions.

The guide portion 46 is provided so as to protrude in a manner inclined so as to taper the inner surface of the insertion space 41 toward the insertion direction of the second terminal 3, like the second tapered portion 45. This allows the terminal portion 36 to be guided to an appropriate position when the second terminal 3 is inserted into the main body portion 4, and the terminal portion 36 can be supported at an appropriate position. In addition, the distance between the tips of the two guide portions 46 is, for example, narrower than the thickness of the electrical connection portion 23 of the first terminal 2 and wider than the thickness of the terminal portion 36 of the second terminal 3. By setting the distance between the two guide portions 46 in this manner, the terminal portion 36 can be inserted between the guide portions 46, but the electrical connection portion 23 cannot be inserted between the guide portions 46. Therefore, the guide portion 46 can guide the terminal portion 36. In addition, the guide portion 46 can function as a stopper when the first terminal 2 is inserted.

As shown in Figures 1 and 2, the spacer 5 is a member that locks the first terminal 2 and the second terminal 3 inserted into the main body 4 within the main body 4, preventing the first terminal 2 and the second terminal 3 from coming loose. The spacer 5 can be inserted into the main body 4 from a direction intersecting the extension direction. For example, the spacer 5 is inserted into the mounting hole 42 formed in the main body 4. The spacer 5 has a first locking portion 51, a second locking portion 52, and a connecting portion 53. The first locking portion 51 and the second locking portion 52 are connected by the connecting portion 53.

The first locking portion 51 is a portion that locks the first terminal 2 in the insertion space 41 of the main body 4, and is, for example, a block body extending in the width direction Y, and is formed to a size that can be inserted into the recess 22A of the first terminal 2. The first locking portion 51 has a notch 51A. The notch 51A is a portion where the first locking portion 51 is cut out along the connection direction X, and is formed at the insertion tip of the first locking portion 51. The second locking portion 52 is a portion that locks the second terminal 3 in the insertion space 41 of the main body 4, and is, for example, a block body extending in the width direction Y, and is formed to a size that can be inserted into the recess 32A of the second terminal 3. The second locking portion 52 has a notch 52A. The notch 52A is a portion where the second locking portion 52 is cut out along the connection direction X, and is formed at the insertion tip of the second locking portion 52. The connecting portion 53 is, for example, a plate extending in the connection direction X, and is joined to the rear end portions of the first locking portion 51 and the second locking portion 52, connecting the first locking portion 51 and the second locking portion 52.

The spacer 5 has a first hook portion 54, a second hook portion 55, a first stopper 56, and a second stopper 57. The first hook portion 54 and the second hook portion 55 function as hook portions that hook the spacer 5 to the main body portion 4. The first hook portion 54 and the second hook portion 55 hook the spacer 5 inside the main body portion 4 at the main locking position where the first locking portion 51 locks the first terminal 2 and the second locking portion 52 locks the second terminal 3.

For example, the first hook portion 54 is formed integrally with the first locking portion 51 and configured as a protrusion that protrudes outward from the first locking portion 51 in the connection direction X. For example, the first hook portion 54 is joined to the first locking portion 51 via a support frame 541. The support frame 541 is a U-shaped frame body that allows the first hook portion 54 to move in the connection direction X by elastic deformation. The support frame 541 joins two legs 541A to the first locking portion 51, and forms the first hook portion 54 on a bridge portion 541B that is bridged between the two legs 541A. Note that the support frame 541 does not have to be U-shaped, and may be of another shape or structure, such as an L-shape, as long as it can move the first hook portion 54 in the connection direction X.

The second hook portion 55 is formed integrally with the second locking portion 52 and is configured as a protrusion that protrudes outward from the second locking portion 52 in the connection direction X. For example, the second hook portion 55 is joined to the second locking portion 52 via a support frame 551. The support frame 551 is a U-shaped frame body that allows the second hook portion 55 to move in the connection direction X by elastic deformation. The support frame 551 has two legs 551A joined to the second locking portion 52, and the second hook portion 55 is formed on a bridge portion 551B that is bridged between the two legs 551A. Note that the support frame 551 does not have to be U-shaped, and may be of another shape or structure, such as an L-shape, as long as it can move the second hook portion 55 in the connection direction X.

The first stopper 56 and the second stopper 57 function as stoppers that prevent the spacer 5 inserted into the main body 4 from slipping out of the provisionally locked position. The provisionally locked position is a position where the spacer 5 is inserted into the mounting hole 42, but the first locking portion 51 does not lock the first terminal 2, and the second locking portion 52 does not lock the second terminal 3.

For example, the first stopper 56 is formed integrally with the first locking portion 51, is provided on the inside of the first locking portion 51 in the connection direction X, and has a hook portion 561 that hooks onto the main body portion 4. The hook portion 561 is formed at the tip of a leg portion 562 extending in the width direction Y, and is movable in the connection direction X due to the elastic deformation of the leg portion 562. The second stopper 57 is formed integrally with the second locking portion 52, is provided on the inside of the connection direction X from the second locking portion 52, and has a hook portion 571 that hooks onto the main body portion 4. The hook portion 571 is formed at the tip of a leg portion 572 extending in the width direction Y, and is movable in the connection direction X due to the elastic deformation of the leg portion 572.

Next, we will explain how to connect electric wires using the coupler device 1 according to this embodiment.

The coupler device 1 electrically connects the first electric wire W1 and the second electric wire W2 by connecting the first terminal 2 and the second terminal 3 in the main body 4. To connect electric wires using the coupler device 1, first, as shown in FIG. 6, the spacer 5 is inserted into the main body 4 and placed in a provisionally locked state. That is, the spacer 5 is inserted into the mounting hole 42, but is not fully inserted until it reaches the provisionally locked position. In this state, the first locking portion 51 and the second locking portion 52 of the spacer 5 do not enter the insertion space 41, and the first terminal 2 and the second terminal 3 can be inserted into the insertion space 41. At this time, the first stopper 56 is locked to the inner surface of the first locking space 425, and the second stopper 57 is locked to the inner surface of the second locking space 426. This prevents the spacer 5 from coming off the mounting hole 42, and the connection operation can be performed smoothly.

Then, as shown in FIG. 7, the first terminal 2 is inserted into the main body 4. The first terminal 2 is inserted into the insertion space 41 from the first opening 47 and is pushed toward the back of the insertion space 41. At this time, since the first tapered portion 43 is formed in the insertion space 41, the first terminal 2 is smoothly inserted into the insertion space 41 without getting caught in the insertion space 41. Also, as shown in FIG. 8, when the spacer 5 is inserted to the provisionally locked position, the notch 51A is located at the position where the protruding piece 28 of the first terminal 2 passes. Therefore, the protruding piece 28 of the first terminal 2 does not get caught on the first locking portion 51, and the first terminal 2 is smoothly inserted into the back of the insertion space 41.

When the tip of the first terminal 2 abuts against the guide portion 46, the first terminal 2 can no longer be inserted further into the insertion space 41, and the insertion of the first terminal 2 is complete. At this time, the recess 22A of the first terminal 2 is positioned in the connection direction X at the formation position of the first communication chamber 421.

Then, as shown in FIG. 9, the second terminal 3 is inserted into the main body 4. The second terminal 3 is inserted into the insertion space 41 from the second opening 48 and is pushed toward the back of the insertion space 41. At this time, since the second tapered portion 45 is formed in the insertion space 41, the second terminal 3 is smoothly inserted into the insertion space 41 without getting caught in the insertion space 41. When the spacer 5 is inserted to the provisionally locked position, the notch 52A is located at the position where the protruding piece 38 of the second terminal 3 passes through. Therefore, similar to the first terminal 2, the protruding piece 38 of the second terminal 3 is not caught by the second locking portion 52, and the second terminal 3 is smoothly inserted into the back of the insertion space 41.

Then, the terminal portion 36 of the second terminal 3 passes between the two guide portions 46 and is inserted into the connection hole 26 of the first terminal 2. At this time, the guide portions 46 guide the terminal portion 36 along the correct path, allowing the terminal portion 36 to be smoothly inserted into the connection hole 26. The terminal portion 36 then comes into contact with and is connected to the terminal portion 27 of the first terminal 2. In this state, the recess 32A of the second terminal 3 is positioned in the connection direction X at the formation position of the second communication chamber 422.

Then, the spacer 5 is fully locked. In FIG. 6, the spacer 5 is pushed into the mounting hole 42. Then, as shown in FIG. 5, the first hook portion 54 and the second hook portion 55 pass through the first storage chamber 423 and the second storage chamber 424 and enter the first hook space 425 and the second hook space 426. This causes the first hook portion 54 to hook onto the inner surface of the first hook space 425, and the second hook portion 55 to hook onto the inner surface of the second hook space 426. This prevents the spacer 5 from coming out of the fully locked position.

In addition, by pushing the spacer 5 into the full locking position, as shown in FIG. 4, the first locking portion 51 enters the insertion space 41 and locks the first terminal 2. That is, the first locking portion 51 enters the recess 22A, preventing the first terminal 2 from slipping out of the insertion space 41. In addition, the second locking portion 52 enters the insertion space 41 and locks the second terminal 3. That is, the second locking portion 52 enters the recess 32A, preventing the second terminal 3 from slipping out of the insertion space 41. The full locking position of the spacer 5 is the position where the first locking portion 51 locks the first terminal 2 and the second locking portion 52 locks the second terminal 3.

When the spacer 5 has been fully locked, the first terminal 2 and the second terminal 3 are connected inside the main body 4. This electrically connects the first electric wire W1 and the second electric wire W2, completing the electric wire connection by the coupler device 1.

As described above, the coupler device 1 according to this embodiment connects the first electric wire W1 and the second electric wire W2 using the first terminal 2, the second terminal 3, and the main body 4, and the first terminal 2 and the second terminal 3 are locked by the spacer 5 to maintain the connection. Therefore, the coupler device 1 according to this embodiment does not require components such as a female coupler and a male coupler, and can reliably connect the first electric wire W1 and the second electric wire W2 while reducing the number of components, thereby reducing costs.

In addition, the coupler device 1 according to this embodiment has a body 4 that is an elongated body with a non-divided structure, and the body 4 that connects the first terminal 2 and the second terminal 3 can have a simple structure. This makes it easy to manufacture the body 4.

In addition, the coupler device 1 according to this embodiment is provided with the first stopper 56 and the second stopper 57, so that the spacer 5 inserted into the main body 4 can be latched in a provisionally locked position, preventing the spacer 5 from slipping out. Furthermore, the first hook portion 54 and the second hook portion 55 are provided, so that the spacer 5 can be latched in a fully locked position relative to the main body 4. This makes it possible to prevent the first terminal 2 from being locked by the first hook portion 51 and the second terminal 3 from being locked by the second hook portion 52 from being released.

Furthermore, the coupler device 1 according to this embodiment has a guide portion 46 formed in the insertion space 41 of the main body portion 4, so that the terminal portion 36 can be guided to an appropriate position when the second terminal 3 is inserted into the main body portion 4.

In addition, the coupler device 1 according to this embodiment forms a first tapered portion 43 and a second tapered portion 45 in the insertion space 41 of the main body portion 4, so that the first terminal 2 and the second terminal 3 can be smoothly inserted into the main body portion 4.

The coupler device according to the present invention is not limited to the above-described embodiment, and various modifications are possible within the scope of the claims. The coupler device according to this embodiment may be constructed by appropriately combining the components of each of the embodiments and modified examples described above.

For example, the coupler device 1 according to the above embodiment has been described as being mounted on a vehicle, but it may also be used without being mounted on a vehicle.

1: Coupler device 2: First terminal 3: Second terminal 4: Main body 5: Spacer 41: Insertion space 47: First opening 48: Second opening 51: First locking portion 52: Second locking portion 53: Connection portion 54: First hook portion (hook portion)
55: Second hook portion (hook portion)
56: First stopper (stopper)
57: Second stopper (stopper)
W1: First wire W2: Second wire

Claims (3)

a first terminal attached to an end of the first wire;
a second terminal attached to an end of a second electric wire and connectable to the first terminal;
a main body portion that defines an insertion space extending along an extension direction, a first opening that opens on one side of the insertion space and allows the first terminal to be inserted, and a second opening that opens on the other side of the insertion space and allows the second terminal to be inserted, and that connects the first terminal and the second terminal within the insertion space;
a spacer that can be inserted into the main body in a direction intersecting the extending direction, the spacer having a first locking portion that locks the first terminal in the insertion space, a second locking portion that locks the second terminal in the insertion space, and a connecting portion that connects the first locking portion and the second locking portion,
Coupler device. The main body portion is an elongated body having a non-divisible structure and extending in the extension direction.
The coupler device according to claim 1 . The spacer has a stopper and a hook portion,
the stopper, when inserted into the main body portion, prevents the spacer from slipping out of the main body portion at a provisional locking position where the first locking portion does not lock the first terminal and the second locking portion does not lock the second terminal;
When the spacer is inserted into the main body, the hook portion hooks the spacer to the main body at a full locking position where the first locking portion locks the first terminal and the second locking portion locks the second terminal.
3. The coupler device according to claim 1 or 2.

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