WO2015068692A1

WO2015068692A1 - Terminal fitting and electrical connector provided therewith

Info

Publication number: WO2015068692A1
Application number: PCT/JP2014/079229
Authority: WO
Inventors: 験三小田
Original assignee: タイコエレクトロニクスジャパン合同会社
Priority date: 2013-11-06
Filing date: 2014-11-04
Publication date: 2015-05-14
Also published as: CN105684226B; JP6190245B2; CN105684226A; JP2015090786A

Abstract

This invention provides a terminal fitting in which a contact section is protected until contact is made. Said terminal fitting (1), which is used in an electrical connector to which an wire (W) is connected via crimping, is characterized by the provision of an inner terminal (10), said inner terminal (10) being a single piece comprising a wire-holding section (16) that crimps the wire (W) so as to hold same and a main terminal body (11) provided with a contact (13) that serves to electrically connect to an opposing conductor section, and a shell (20) that is fitted onto the inner terminal (10) so as to be able to move back and forth between a protecting position in which the contact (13) is covered and a retracted position in which the contact (13) is exposed.

Description

Terminal fitting and electrical connector including the same

The present invention relates to a terminal fitting used for an electrical connector, and more particularly to a crimp terminal fitting.

Conventionally, a card edge type connected to a circuit board provided with a large number of terminals in a line along a plate-like periphery as an electrical connector for connecting a circuit board represented by a printed wiring board to another electric circuit Connectors are known. The card edge connector is electrically connected to the card-side terminal provided on the periphery by moving the terminal fitting in parallel with the circuit board. For the card edge connector, a terminal fitting called “mass termination” is usually used. The terminal fitting is connected to the electric wire by pressure welding.

In card edge connectors, depending on the application, there is a demand to join the wire to the terminal fitting by crimping. A terminal fitting that meets this requirement is proposed in Patent Document 1.

JP 2006-179362 A

The terminal fitting of Patent Document 1 is said to be low in height and to be able to reliably make an electrical connection even in an environment having vibration and heat. However, since the portion of the terminal fitting of Patent Document 1 that is in contact with the conductor region of the circuit board to be connected is exposed, the contact portion may be deformed during assembly of the harness including the crimping of the electric wire. There is.
Then, an object of this invention is to provide the terminal metal fitting by which a contact part is protected until it contacts with the other conductor part.

The present invention made for this purpose is a terminal fitting of an electrical connector to which an electric wire is connected by crimping, and a contact part that is electrically connected to a mating conductor part, and an electric wire that holds the electric wire by crimping An inner terminal integrally formed with the holding portion; and a shell engaged with the inner terminal so as to be able to reciprocate between a protective position that covers the contact portion and a retracted position that exposes the contact portion. It is characterized by.
In the terminal fitting of the present invention, the shell is provided so that the shell can be reciprocated between a protection position that covers the contact portion and a retracted position that exposes the contact portion. Therefore, when the harness is assembled, the shell is moved to the protection position. The shell can be moved to the retracted position prior to insertion into the connector housing. Therefore, according to the terminal metal fitting of the present invention, the contact portion can be protected from deformation due to the external force acting until the contact with the mating conductor portion is reached.

As a preferred form of the terminal fitting of the present invention, a locking mechanism for locking the inner terminal and the shell can be provided at each of the protection position and the retracted position.
By providing this locking mechanism, the shell can be securely held in either the protected position or the retracted position, so that the shell moves unnecessarily to the protected position or the shell moves to the retracted position. Can be prevented. Therefore, when the harness is assembled, the electrical contact portion of the inner terminal can be reliably protected by the shell. Further, when the terminal fitting is inserted into the connector housing, electrical contact with the mating conductor portion can be reliably ensured.

In the above preferred embodiment, it is more preferable that the locking mechanism can be unlocked from the outside of the shell. If the housing lance provided in the connector housing is unlocked, the shell is moved from the protected position to the retracted position in the process of inserting the terminal fitting into the connector housing, and the terminal fitting is removed from the connector housing. During the extraction process, the shell can be moved from the retracted position to the protected position.

The present invention provides an electrical connector including a housing that holds a terminal fitting having the above-described configuration.

According to the terminal fitting of the present invention, since the shell is provided so as to be able to reciprocate between a protection position that covers the contact portion and a retracted position that exposes the contact portion, the shell is moved to the protection position when the harness is assembled. In addition, the shell can be moved to the retracted position prior to insertion into the connector housing. Therefore, according to the terminal metal fitting of the present invention, the contact portion can be protected from deformation due to the external force acting until the contact with the mating conductor portion is reached.

The terminal metal fitting in this embodiment is shown, (a) is an exploded perspective view, (b) is a perspective view of the assembled state. It is sectional drawing which shows in order the process in which the terminal metal fitting in this embodiment is hold | maintained at a housing. FIG. 3 is a cross-sectional view sequentially illustrating a process of being held in the housing subsequent to FIG. 2. It is sectional drawing which shows the process in which the terminal metal fitting in this embodiment is extracted from a housing in order. FIG. 5 is a cross-sectional view sequentially illustrating a process of removing the terminal fitting from the housing, following FIG. 4. It is a figure which shows an example in which an electrical connector provided with the terminal metal fitting in this embodiment is electrically connected with a circuit board.

Hereinafter, the present invention will be described in detail based on embodiments shown in the accompanying drawings.
As shown in FIG. 1, the terminal fitting 1 according to the present embodiment includes two elements, an inner terminal 10 and a shell 20.
Normally, the terminal fitting 1 is inserted into the terminal cavity 31 of the connector housing 30, as shown in FIG. 1B, while the shell 20 covers the tip of the inner terminal 10 to protect the contact 13. In the process, the shell 20 is retracted and the cover of the contact 13 is released.
Hereinafter, after the configuration of the terminal fitting 1 is described, procedures for insertion and extraction from the connector housing 30 will be described.

[Terminal fitting 1]
The terminal fitting 1 fulfills its original function as a terminal by connecting the inner terminal 10 to an electrical contact on the other side, while the shell 20 fulfills a function of protecting the electrical contact portion of the inner terminal 10. . In the terminal fitting 1, the side on which the shell 20 is disposed is referred to as the front, and the opposite side from which the electric wire W (see FIG. 2) is drawn is referred to as the rear.

[Inner terminal 10]
The inner terminal 10 has a structure in which a part of a tab-type terminal is deformed, and includes a terminal main body portion 11 and an electric wire holding portion 16 as shown in FIG. The inner terminal 10 is integrally formed by punching and bending a plate made of copper or copper alloy having excellent conductivity and elasticity.

The terminal main body 11 has a rectangular parallelepiped appearance and a hollow inside, and the upper wall 12 and the contact 13 facing each other in the vertical direction y, the upper wall 12, one edge of the contact 13, and the other

edge Side walls

14 and 15 that connect edges and face each other in the width direction x are provided. The upper wall 12, the contact 13, the side wall 14, and the side wall 15 are substantially flat.

The upper wall 12 includes a plate-like spring 12d. The spring 12d is formed on the same plane as the upper wall 12 by cutting out both ends in the width direction. The spring 12a is connected to the upper wall 12 by a support end 12b located rearward except for the notched portion, and can be bent in the vertical direction y with the support end 12b as a base point. The spring 12d is provided with a locking projection 12a protruding upward in the vicinity of the free end 12c.

The contact 13 is a spring-like member whose rear side is connected to the side wall 14 to form a support end 13b, and can be bent in the vertical direction y with the support end 13b as a base point. The contact 13 has a free end 13a side folded back in a U shape.

The side wall 14 is provided with a movement restricting hole 14a penetrating the front and back. The movement restricting hole 14a has a predetermined length in the front-rear direction. A stopper 24a included in the shell 20 is inserted into the movement restriction hole 14a, thereby restricting a range in which the inner terminal 10 and the shell 20 relatively move in the front-rear direction. In addition, while providing the locking projection on the side wall 14, the shell 20 may be provided with a locking hole. Further, a similar stopper hole can be provided on the other side wall 15 and a similar stopper can be provided on the shell 20.

The electric wire holding part 16 includes a covering holding part 16a that holds the electric wire W (see FIG. 2) and holds the covered part of the electric wire, and a core wire holding part 16b that holds the core part from which the covering is peeled off. Yes. The mechanical connection between the inner terminal 10 and the electric wire W is secured by the covering holding portion 16a, while the electrical connection between the inner terminal 10 and the electric wire W is secured by the core wire holding portion 16b.

[Shell 20]
Next, the shell 20 has a shape substantially similar to the terminal main body 11, accommodates the terminal main body 11 with a minute gap inside, and protects the terminal main body 11, particularly the contact 13. .
The shell 20 connects the upper wall 22 and the lower wall 23 facing each other in the vertical direction y, and the

side walls

24 and 25 facing each other in the width direction x by connecting one edge and the other edge of the upper wall 22 and the lower wall 23. I have. The upper wall 22, the contact 13, the side wall 24, and the side wall 25 are substantially flat.
The shell 20 includes a receiving cavity 26 that is surrounded by an upper wall 22, a lower wall 23, and

side walls

24, 25. When the shell 20 is assembled to the inner terminal 10, the terminal body 11 of the inner terminal 10 is inserted into the receiving cavity 26. The shell 20 includes an inner insertion port 27 into which the terminal body 11 is inserted at the rear end. Further, when the terminal fitting 1 is held at a predetermined position of the connector housing 30, the contact 13 protrudes to the outside. A mouth 28 is provided at the front end.

The upper wall 22 includes two locking

holes

22a and 22b that penetrate the front and back surfaces and are arranged in the front-rear direction. When the shell 20 is assembled to the inner terminal 10 in the locking holes 22a and 22b, the locking projections 12a of the spring 12a of the inner terminal 10 are selectively inserted. As will be described in detail later, when the terminal fitting 1 is in the initial state, the locking projection 12a is inserted into the locking hole 22a. The locking protrusion 12a inserted in 22a moves and is inserted into the locking hole 22b.

The side wall 24 includes a stopper 24 a that protrudes toward the receiving cavity 26. The stopper 24a is inserted into the movement restriction hole 14a of the inner terminal 10 and is allowed to move only within the range of the movement restriction hole 14a, thereby restricting relative movement of the shell 20 and the inner terminal 10.

The inner terminal 10 and the shell 20 are inserted into the inner insertion port 27 of the shell 20 from the front end, and the inner terminal 10 is pushed in until the stopper 24a is inserted into the locking hole 22a. Thus, the terminal fitting 1 is in an initial state. At this time, the stopper 24a of the shell 20 is positioned on the front end side of the movement restricting hole 14a of the inner terminal 10 (see FIG. 2A).

[Connector housing 30]
Next, the connector housing 30 in which the terminal fitting 1 is held will be described with reference to FIG.
The connector housing 30 includes a number of terminal cavities 31 corresponding to the terminal fittings 1 in the depth direction of the paper surface of FIG. FIG. 2 shows one terminal cavity 31 therein. The terminal cavities 31 are provided according to the number of terminal fittings 1. The terminal cavity 31 is defined by an upper wall 32 and a lower wall 33 in the vertical direction y, and in the width direction x (perpendicular to the paper surface of FIGS. 2 to 5) by a pair of side walls not shown. Partitioned.

The connector housing 30 includes a housing lance 35 corresponding to the terminal cavity 31. The housing lance 35 holds the terminal fitting 1 so as not to come out of the connector housing 30 by locking the terminal fitting 1 inserted into the terminal cavity 31. Further, the housing lance 35 acts on the terminal fitting 1 in the process of inserting the terminal fitting 1, thereby retracting the shell 20 covering the front end of the inner terminal 10 to expose the contact 13. Further, the housing lance 35 moves on the terminal fitting 1 so as to cover the front end of the inner terminal 10 by acting on the terminal fitting 1 in the process of extracting the terminal fitting 1. Including the above-described operation, the housing lance 35 has the following configuration.

The housing lance 35 is provided with a support end 35b on the upper wall 32, and is formed so as to face the front of the terminal fitting 1 into which the tip is inserted.
The housing lance 35 is provided with a locking projection 35 a that protrudes toward the center of the terminal cavity 31 on the tip side. The locking projection 35a includes a locking surface 35d facing forward, and the locking surface 35d can be inserted into locking

holes

22a and 22b provided in the shell 20 at least at the lower end portion of the locking projection 35a. Have various dimensions. In addition, the surface which the code | symbol 35a points may be called the front end surface 35a.
Further, the housing lance 35 is formed with a release action collar 35c on the tip side of the locking projection 35a. When the terminal fitting 1 is removed from the terminal cavity 31, the release action collar 35 c abuts a jig 40, which will be described later, to deflect the housing lance 35 upward so that the terminal lance 1 is locked by the housing lance 35. Used to release.

[Insertion / Removal Process]
Hereinafter, the procedure for inserting the terminal fitting 1 into the connector housing 30 will be described with reference to FIGS. 2 and 3, and the procedure for removing the terminal fitting 1 held by the connector housing 30 will be described with reference to FIGS. I will explain.

Insertion process
As shown in FIG. 2A, the terminal fitting 1 is inserted into the terminal cavity 31 of the connector housing 30. At this stage, the terminal fitting 1 is in an initial state, the locking protrusion 12a of the inner terminal 10 is inserted into the locking hole 22a of the shell 20, and the stopper 24a of the shell 20 is a movement restricting hole of the inner terminal 10. It is located on the front end side of 14a. Thus, the shell 20 moves to the protected position.
When the terminal fitting 1 is pushed toward the back of the terminal cavity 31, the front end of the shell 20 abuts against the rear end side of the locking projection 35a of the housing lance 35, and further pushing the terminal fitting 1 is shown in FIG. Then, the housing lance 35 is pushed up. Therefore, the housing lance 35 stores a downward elastic force.

When the terminal fitting 1 is further pushed in, the locking projection 35a of the housing lance 35 sequentially passes through the locking hole 22a of the shell 20, and the upper wall 22 between the locking hole 22a and the locking hole 22b, It reaches the locking hole 22b and contacts the locking projection 12a of the inner terminal 10. 2C, the locking projection 35a is pushed downward by the elastic force of the housing lance 35, and the locking state by the locking hole 22b of the shell 20 is released. At this time, the spring 12 of the inner terminal 10 that supports the locking protrusion 12a stores upward elastic force.

When the terminal fitting 1 is further pushed in, the locking state by the locking hole 22a of the shell 20 is released, and the locking protrusion 35a of the housing lance 35 is inserted into the locking hole 22a of the shell 20, The inner terminal 10 and the shell 20 can be moved relative to each other. However, the movement of the shell 20 is restricted because the locking projection 35a of the housing lance 35 is inserted into the locking hole 22a. Therefore, when the inner terminal 10 is further pushed in, only the inner terminal 10 moves to a position where the locking projection 12a of the spring 12 reaches the locking hole 22b of the shell 20, as shown in FIG. At this time, the stopper 24 a of the shell 20 is located at the rear end of the movement restricting hole 14 a of the inner terminal 10. At this time, the shell 20 is placed in the retracted position, and the contact 13 moves to the outside of the shell 20 and is exposed.

When the terminal fitting 1 is further pushed in, the stopper 24a of the shell 20 comes into contact with the rear end of the movement restricting hole 14a of the inner terminal 10, so that the inner terminal 10 and the shell 20 are brought together as shown in FIG. Then, it moves to the back of the terminal cavity 31 until it hits a positioning stopper (not shown). On the other hand, the elasticity of the housing lance 35 returns to a position where the locking surface 35d is behind the terminal body 11 of the terminal fitting 1 and interferes with the terminal body 11 in the y direction. Therefore, the terminal fitting 1 is positioned inside the terminal cavity 31 and is held so as not to come out carelessly.

When the terminal fitting 1 is pushed all the way in, the contact 13 is exposed to the outside of the connector housing 30 as shown in FIG. For example, as shown in FIG. 6, the contact 13 can be brought into contact with the conductive pattern 51 of the circuit board 50 if the connector housing 30 is arranged to be inclined with respect to the circuit board 50. However, this is only an example of application of the terminal fitting 1.

[Sampling process]
Next, with reference to FIGS. 4 and 5, a process for removing the held terminal fitting 1 from the connector housing 30 will be described. For extraction, a rod-shaped jig 40 is used. The shell 20 is placed in the retracted position.
When the terminal fitting 1 is pulled out, first, as shown in FIGS. 4A and 4B, the jig 40 is inserted between the terminal body 11 and the release collar 35c of the housing lance 35, and the release collar 35c. Is lifted to release the interference state in the y direction between the locking surface 35d of the housing lance 35 and the terminal body 11 of the terminal fitting 1. When the electric wire W is gradually pulled backward while the interference state between the locking surface 35d and the terminal main body 11 is released, the locking projection 35a of the housing lance 35 becomes as shown in FIG. , And moves forward while contacting the upper wall 22 of the shell 20.

When the electric wire W is continuously pulled, as shown in FIG. 5A, the locking projection 35a is inserted into the locking hole 22a of the upper wall 22, so that the movement of the shell 20 is restricted by the locking projection 35a. Therefore, when the electric wire W is further pulled, only the inner terminal 10 moves backward together with the electric wire W. As shown in FIG. 5B, the locking protrusion 12a of the inner terminal 10 reaches the locking hole 22a after coming out of the locking hole 22b. Then, the locking projection 12a slightly pushes up the locking projection 35a. At this time, the stopper 24 a of the shell 20 is positioned on the front end side of the movement restriction hole 14 a of the inner terminal 10. Thus, the shell 20 returns to the protected position.

The front end surface (locking protrusion) 35a has a so-called forward taper with respect to the front edge of each of the locking hole 22a and the locking hole 22b. Therefore, when the electric wire W is further pulled from the state of FIG. 5B, the locking projection 35a can be easily pulled out from the locking hole 22a and the locking hole 22b in order, so that the shell 20 is locked by the housing lance 35. Is released. In addition, since the stopper 24a comes into contact with the front end of the movement restricting hole 14a, the terminal fitting 1 is integrated with the housing lance 35 as shown in FIG. Thus, the terminal fitting 1 is extracted from the terminal cavity 31.

[effect]
According to the terminal fitting 1 demonstrated above, there exist the following effects.
Since the contact 13 is covered with the shell 20 at least until it is inserted into the terminal cavity 31 of the connector housing 30, the terminal fitting 1 is unnecessary for the contact 13 including the operation of connecting the electric wire W. Since no external force is applied, the contact 13 can be protected from deformation.

Until the terminal fitting 1 is inserted into the terminal cavity 31, the contact 13 is covered with the shell 20 placed in the protected position. The contactor 13 can be exposed by moving to a position. Further, in the process of extracting the terminal fitting 1 held in the terminal cavity 31, the shell 20 can be moved to a protection position that covers the contact 13. Thus, according to this embodiment, since the contactor 13 can be protected by the shell 20 and the shell 20 can be retracted without performing a special operation, the terminal fitting 1 having excellent operability is provided. .

Next, the terminal fitting 1 can be inserted into the connector housing 30 in a state where the undulating contact 13 is covered with a shell 20 having a smooth outer shape. Therefore, since a waterproof seal called a family seal (or a collective rubber plug) can be provided on the side of the connector housing 30 where the terminal fitting 1 is inserted, the waterproofness of the card edge connector can be improved.
On the other hand, in the case of the terminal fitting with the contact 13 exposed, even if the contact 13 is inserted into the wire insertion hole formed in the family seal, the contact 13 is deformed. Cannot use family seal.

The preferred embodiments of the present invention have been described above. However, the configurations described in the above embodiments can be selected or modified as appropriate to other configurations without departing from the gist of the present invention.
For example, the form of the connector housing 30 that accommodates the terminal fitting 1 is not limited as long as it has a housing lance function necessary to reciprocate the shell 20 between the protection position and the retracted position.
Moreover, the form of the inner terminal 10 and the shell 20 is only an example, and other forms are adopted as long as the contactor can be reciprocated between the protection position and the retracted position to protect and expose the contactor. Not disturb.

DESCRIPTION OF SYMBOLS 1 Terminal metal fitting 10 Inner terminal 11 Terminal main-body part 12 Upper wall

12a Locking protrusion

12b Support end 12c Free end 12d Spring 13 Contact 13a Free end

13b Support end

14, 15 Side wall 14a Movement control hole 16 Electric wire holding part 16a Cover holding part 16b Core wire holding portion 20 Shell 22

Upper wall

22a, 22b Locking hole 23

Lower wall

24, 25 Side wall 24a Stopper 26 Receiving cavity 27 Inner insertion port 28 Projecting port 30 Connector housing 31 Terminal cavity 32 Upper wall 33 Lower wall 35 Housing lance

35a Locking projection

35b Support end

35c Release collar 35d Locking surface 36 Stopper 40 Jig W

Claims

A terminal fitting of an electrical connector to which an electric wire is connected by crimping,
An inner terminal in which a contact portion that is in electrical connection with a mating conductor portion and an electric wire holding portion that holds the electric wire by crimping are integrally formed;
A terminal fitting comprising: a shell engaged with the inner terminal so as to be capable of reciprocating between a protection position that covers the contact portion and a retracted position that exposes the contact portion.
At each of the protected position and the retracted position,
The terminal fitting according to claim 1, further comprising a locking mechanism that locks the inner terminal and the shell together.
The locking mechanism is
The terminal fitting according to claim 2, wherein the unlocking operation can be performed from the outside of the shell.
Terminal fittings,
A housing for holding the terminal fitting,
An electrical connector comprising the terminal fitting according to any one of claims 1 to 3.