JP2004006429A - Connector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To smoothly fit housings to each other without generating pry-up. <P>SOLUTION: Resistor arms are symmetrically arranged in both sides of a lock arm. The resistor arm 29 generates fitting resistance while accompanying a moderation feeling by being engaged with a rib 17 of a counter side connector 10. Although the lock arm 25 is deflected in the vertical direction, the resistor arm 29 is deflected for deformation in the horizontal direction while separating from the lock arm 25. <P>COPYRIGHT: (C)2004,JPO

Description

The present invention relates to a connector.

When mating the connectors, when the mating resistance generated between the terminals in the mating process increases, the worker may misunderstand that the mating operation has been completed. It will remain in the half-fitted state. Therefore, a mechanism called an inertial lock is used in order to prevent the connector from remaining half-fitted. In this method, a fitting resistance generating means for temporarily generating a fitting resistance larger than the fitting resistance between terminals in a fitting process is provided, and the fitting resistance is overcome by overcoming the fitting resistance by the fitting resistance generating means. When passing through the resistance generating area, the fitting resistance is rapidly relaxed so that the worker can feel a sense of moderation, and the two connectors are brought into the normal fitting state by the momentum at the time of passing.
FIG. 6 shows an example of the fitting resistance generating means. This is because the lock arm 2 of one connector 1 is engaged with the engagement portion 4 of the mating connector 3 to lock both connectors 1 and 3 in a fitted state. When the distal end of the lock arm 2 abuts on the engaging portion 4, the frictional force generated at the abutting portion due to the elasticity of the lock arm 2 is increased to make it difficult for the lock arm 2 to get over the engaging portion 4. Thus, fitting resistance is generated.
In such a structure in which the fitting resistance is increased, since a large force is required for the fitting operation, the worker may perform the fitting operation in a state where the lock arm 2 is intentionally brought into the unlocked posture. However, in this case, since the lock arm 2 does not abut against the engagement portion 4, a sense of moderation cannot be obtained, and it is difficult to determine the fitted state.
On the other hand, as another fitting resistance generating means, there is one disclosed in Patent Document 1 below. As shown in FIG. 7, this is provided with a pair of lock arms 5 and a resistance arm 6 which can be elastically bent independently of the lock arms 5, and is provided on an engagement portion (not shown) on the other side. On the other hand, both arms 5, 6 are engaged. In this structure, even if the lock arm 5 is in the unlocked position, the resistance arm 6 hardly bends, so there is no possibility that a sense of moderation may not be obtained.
Japanese Utility Model Publication No. 2-95174

However, since the resistance arm 6 is provided so as to be interrupted between the lock arms 5, the position of the lock arm 5 is displaced outward by a space necessary for providing the resistance arm 6. Therefore, the position of the engaging portion of the mating connector must also be shifted outward, and the shape of the mating connector needs to be changed.
The present invention has been made in view of the above circumstances, and provides a mating resistance generating means that does not lose a moderation feeling even when a lock arm is unlocked and does not need to change the shape of a mating connector. The purpose is to do.

According to the first aspect of the present invention, a lock arm and a resistance arm, both of which can be elastically bent, are provided in a housing of one of the male and female connectors that can be fitted together, and a housing of the other connector is provided in a housing of the other connector. An abutting portion that abuts against the resistance arm in a fitting process and generates a fitting resistance due to the elasticity of the resistance arm; and a fitting operation force that overcomes the fitting resistance is applied to cause the resistance arm to abut. An engagement portion for elastically locking the two housings in a fitted state by elastically locking with the lock arm after being elastically bent in a direction of disengaging from the portion, and the elastic bending direction of the resistance arm is It is characterized in that it is set in a direction different from the elastic bending direction of the lock arm.

The invention of claim 2 is characterized in that, in the invention of claim 1, the elastic bending direction of the resistance arm is a direction away from the lock arm.

According to a third aspect of the present invention, in the first or second aspect of the invention, the resistance arm is symmetrically disposed on both sides of the lock arm, and the abutting portion is disposed on both sides of the engagement portion. It is characterized by being symmetrically arranged.
According to a fourth aspect of the present invention, in any one of the first to third aspects, the elastic bending direction of the resistance arm when the two housings are fitted is a direction away from the engagement portion. Having.

<Inventions of Claims 1, 2, and 4>
According to the first, second and fourth aspects of the present invention, in the process of fitting to the mating connector, the resistance arm is engaged with the abutting portion to generate fitting resistance, which overcomes this fitting resistance. When the fitting operation is advanced by force, the resistance arm is elastically bent, and the fitting resistance is reduced. At this time, the worker can feel a sense of moderation by relaxing the fitting resistance, and a normal fitting state is reached by the strength of the fitting operation that has overcome the fitting resistance. Then, since the lock arm is engaged with the engagement portion, the two housings are locked in the fitted state. During the fitting operation of the two housings, the resistance arm and the lock arm are elastically bent in different directions. If they are set in the same direction, the effects of the bending are amplified, and the side of the female connector housing where the lock arm and the resistance arm are provided is more likely to be affected by deformation. Although twisting is likely to occur, setting in a different direction as in the present invention spreads the influence of the bending and contributes to smooth fitting.

<Invention of Claim 3>
According to the third aspect of the present invention, since the resistance arm is symmetrically disposed with the lock arm interposed therebetween, and the abutting portion is similarly symmetrically disposed with the engagement portion interposed therebetween, so that the fitting resistance by the resistance arm is locked. Since it occurs evenly on both sides of the arm, it further contributes to smooth fitting between the housings.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
A mating connector 11 is provided in the housing 10 of the electric device by integral molding. The mating connector 11 has a tubular fitting portion 12 projecting from the housing 10 in a rectangular tubular shape. In the tubular fitting portion 12, a male terminal 13 connected to a circuit in the electric equipment is provided. It is protruding. A female connector (a connector which is a component of the present invention) 20 is fitted into the tubular fitting portion 12.

係 合 An engaging portion 14 for engaging the lock arm 25 of the female connector 20 is formed projecting from the upper surface (the upper surface in FIGS. 1 and 5) of the cylindrical fitting portion 12. The engaging portion 14 is disposed at a central position in the left-right direction perpendicular to the fitting direction of the connectors 11 and 20. The engaging portion 14 is formed with an inclined guide surface 15 for guiding the lock arm 25 to smoothly bend upward without causing a lock when engaging with the female connector 20. On the opposite side of the guide surface 15 of the engaging portion 14, a locking surface 16 that is perpendicular to the fitting direction with the female connector 20 is formed, and the mating connector 11 and the female connector 20 are fitted. When they are engaged, the lock arm 25 is locked on the locking surface 16 so that the connectors 11 and 20 are locked in the fitted state.

On the upper surface of the cylindrical fitting portion 12, a pair of ribs 17 are formed symmetrically arranged on both left and right sides of the engaging portion 14. These ribs 17 are arranged relatively close to the engagement portion 14 and are parallel to the fitting direction of the connectors 11 and 20. The provision of the pair of ribs 17 prevents other members from interfering with the engaging portion 14 from the left and right directions. Providing a pair of ribs 17 on both sides to protect the engaging portion 14 in this manner is a known configuration.

Next, the female connector 20 according to the present embodiment will be described.
The female connector 20 includes a connector housing 21 in which a female terminal 22 is housed, and a hood 23 surrounding a substantially front half area of the connector housing 21. The tubular fitting portion 12 of the mating connector 11 is fitted inside the hood portion 23. A central portion in the left-right direction of the upper surface of the hood portion 23 is raised upward, and the raised portion becomes an operating space 24 corresponding to the upper surface of the tubular fitting portion 12 in the fitted state. .

ロ ッ ク A lock arm 25 is provided in the working space 24 so as to be cantilevered from the upper surface of the connector housing 21 and to be elastically deformable in a vertical direction. The lock arm 25 is disposed at a central position in the left-right direction so as to face the engaging portion 14 of the mating connector 11. When the mating connector 11 and the female connector 20 are properly fitted, the locking projection 26 at the tip of the lock arm 25 engages with the locking surface 16 of the engaging portion 14 so that the connectors 11 and 20 cannot be detached. When the operating portion 27 at the rear end of the lock arm 25 is pressed down, the lock arm 25 is elastically bent and the locking projection 26 is released from the locking surface 16 so that the lock is released. Has become.

抵抗 On the pair of left and right side walls 28 constituting the inside of the working space 24 of the hood 23, resistance arms 29 are formed, which cantileverly extend forward in the working space 24, respectively. The resistance arm 29 is disposed near the left and right sides of the lock arm 25 and is symmetrical about the lock arm 25. When the connectors 11 and 20 are fitted together, the resistance arm 29 is The rib 17 of the mating connector 11 extends along the outer surface. The resistance arm 29 can be elastically bent in the left-right direction, that is, in a direction parallel to the upper surface of the connector housing 21.

An abutting projection 30 projecting inward (toward the lock arm 25) is formed at the distal end of the resistance arm 29. The abutting projection 30 is attached to the front end of the rib 17 during the fitting process of the connectors 11 and 20. It comes to end. The contact surface 31 of the abutment projection 30 with the rib 17 is inclined at a tight angle close to a right angle to the fitting direction. Therefore, when the reaction force acting from the rib 17 side to the abutting projection 30 side due to the operation force at the time of fitting acts as a pressing force for elastically bending the resistance arm 29 outward, the pressing force in the bending direction is suppressed to a small value. Can be Therefore, in order to flex the resistance arm 29 outward against its elasticity, a considerably large fitting operation force is required. In this manner, a large fitting resistance is generated by the resistance arm 29, and a so-called inertial lock is formed.

The magnitude of the mating resistance by the resistance arm 29 is a value larger than the mating resistance generated due to frictional resistance between the male terminal 13 and the female terminal 22 when the connectors 11 and 20 are mated. It is set to be. The dimensions of each member are set so that the male terminal 13 and the female terminal 22 are not fitted when the resistance arm 29 generates the fitting resistance.
The surface of the abutment projection 30 opposite to the contact surface 31 is a guide surface 32 inclined at a relatively small angle with respect to the fitting direction. The guide surface 32 functions to smoothly bend the resistance arm 29 outward by engaging the rear end edge of the rib 17.

Next, the operation of the present embodiment will be described.
When the fitting operation is performed by pressing the female connector 20 against the mating connector 11 while fitting the hood portion 23 of the female connector 20 to the cylindrical fitting portion 12 of the mating connector 11, in the fitting process, Before the female terminal 22 is fitted to the male terminal 13, the abutting projection 30 of the resistance arm 29 abuts against the front end of the rib 17, and a large fitting resistance due to the elasticity of the resistance arm 29 is instantaneously generated. When the pressing force on the mating connector 11 is increased from this state, when the pressing force exceeds the magnitude of the fitting resistance by the resistance arm 29, the resistance arm 29 elastically bends outward and the abutment projection 30 is ribbed. 17, the fitting resistance by the resistance arm 29 is rapidly reduced. The operator can feel a sense of moderation due to the sudden change of the fitting resistance, and it is understood that the function of the inertial lock has been exhibited.

と When the fitting resistance by the resistance arm 29 is suddenly reduced in this way, the fitting of the two connectors 11 and 20 progresses at a stretch due to the force of the pressing force to reach a regular fitting state. At this time, the fitting resistance due to the friction between the male terminal 13 and the female terminal 22 occurs. However, since the pressing force exceeding the fitting resistance of the resistance arm 29 is larger than the fitting resistance by the terminals, both terminals are obstructed. Without being fitted. Further, after the resistance arm 29 elastically bent outward, the abutting projection 30 is brought into sliding contact with the outer side surface of the rib 17 and then elastically returns in a properly fitted state to abut on the rear end edge of the rib 17. Will be locked.

On the other hand, the lock arm 25 is not engaged with the engaging portion 14 of the mating connector 11 in a state where the resistance arm 29 generates the mating resistance, and after the mating resistance by the resistance arm 29 is reduced. When the lock arm 25 elastically bends upwardly and climbs over the engaging portion 14, the locking protrusion 26 is locked to the locking surface 16 at the same time as the normal fitting state, and the connectors 11 and 20 are locked undetachably. You.
In the state where the lock is performed by the lock arm 25, the lock function is also exhibited by the abutment projection 30 of the resistance arm 29 engaging with the rear end edge of the rib 17, so that the lock function is not performed. High reliability.

When the connectors 11 and 20 are separated from each other, the lock by the lock arm 25 may be released to separate the connectors 11 and 20. At this time, since the guide surface 32 inclined with respect to the pull-out direction is formed on the abutting projection 30, the resistance arm 29 can elastically bend outward without generating a large resistance. Engagement with the ribs 17 does not significantly hinder the detachment operation of the connectors 11 and 20.

As described above, the inertial locking function in the present embodiment is not performed by the engagement between the lock arm 25 and the engagement portion 14, but is performed by the resistance arm provided separately from the lock arm 25. 29, the function of the inertial lock is not affected at all even if the fitting operation is performed while the lock arm 25 is elastically bent in the unlocking direction (upward). And the reliability of the inertial lock function is high.

In addition, the rib 17 of the mating connector 11 is a known rib provided on the mating connector 11 for the purpose of protecting the engaging portion 14 irrespective of the provision of the resistance arm 29 on the female connector 20. Therefore, when the female connector 20 of the present embodiment is applied, it is not necessary to change the shape of the mating connector 11 and the electric device integrally formed with the mating connector 11, which is advantageous in terms of cost.
Further, in the present embodiment, the lock arm 25 is arranged at the center position of the female connector 20 and the resistance arm 29 is provided symmetrically with respect to the lock arm 25, so that the fitting resistance by the resistance arm 29 acts equally to the left and right. Will be. Therefore, the posture of the female connector 20 is prevented from tilting left and right due to the action of the fitting resistance by the resistance arm 29, and the operability is excellent. Moreover, the fitting resistance is doubled as compared with the case where the resistance arm 29 has only one piece.

In order to increase the fitting resistance by the resistance arm 29, it is conceivable to increase the width dimension in the left-right direction which is the bending direction of the resistance arm 29. In this case, the direction in which the dimension increases is the upper surface of the connector housing 21. Therefore, the height dimension of the connector housing 21 does not increase. Moreover, in the plane parallel to the upper surface of the connector housing 21, there is a large space outside the resistance arm 29, so that there is no possibility that the dimension of the left and right width of the connector housing 21 becomes large. That is, even if the size of the resistance arm 29 is changed for the purpose of increasing the fitting resistance, there is an effect that the connector housing 21 does not need to be enlarged.

<Other embodiments>
The present invention is not limited to the embodiments described above with reference to the drawings. For example, the following embodiments are also included in the technical scope of the present invention. Can be implemented with various modifications.
(1) The resistance arm may be provided on only one of the left and right sides of the lock arm.
(2) The resistance arm may be elastically bent inward (lock arm side) with respect to the rib.

(3) The elastic bending direction of the resistance arm may be perpendicular to the upper surface of the connector housing.
(4) In the present embodiment, the case where the present invention is applied to a female connector has been described, but the present invention can also be applied to a male connector.

FIG. 2 is a plan view showing a state where the mating connector and the female connector are not fitted in one embodiment of the present invention. Sectional view showing the unmated state of the mating connector and female connector Plan view showing the mating process between the mating connector and female connector A plan view showing a state where the mated connector and the female connector are locked. Sectional view showing the mated mating connector and female connector locked Sectional view showing a state where connectors are not fitted in the conventional example Conventional perspective view

Explanation of reference numerals

10: mating connector 14: engaging part 17: rib 20: female connector (connector)
21: Connector housing 25: Lock arm 29: Resistance arm

Claims (4)

A housing of one of the male and female connectors that can be fitted with each other is provided with a lock arm and a resistance arm that are both elastically flexible,
An abutting portion that abuts against the resistance arm during the fitting process of the two housings and generates a mating resistance due to the elasticity of the resistance arm; and a mating operation that overcomes the mating resistance. And an engagement portion for locking the two housings in a fitted state by elastically locking the lock arm after the resistance arm is elastically bent in a direction in which the resistance arm is disengaged from the abutting portion when a force is applied. ,
The connector according to claim 1, wherein the elastic bending direction of the resistance arm is different from the elastic bending direction of the lock arm. The connector according to claim 1, wherein the elastic bending direction of the resistance arm is a direction away from the lock arm. 3. The device according to claim 1, wherein the resistance arm is symmetrically disposed on both sides of the lock arm, and the abutting portion is symmetrically disposed on both sides of the engagement portion. Connectors. 4. The connector according to claim 1, wherein the elastic bending direction of the resistance arm when the two housings are fitted is a direction away from the engagement portion. 5.

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