CN108418011A - Connector - Google Patents

Abstract

The present invention provides a kind of connector, even if can steadily maintain the retentivity of the connecting object object of slimming if in the state of low level.The connector (10) of the present invention includes insulator (20) and actuator (50), and the insulator (20) has：Insertion groove (21), can make side edge part protrusion be provided with the connecting object object (60) of holding section (63) into and out；And anti-delinking part (27), engage with holding section (63) when connecting object object (60) is inserted into insertion groove (21), the actuator (50) can move between the closed position and the open position for not pressing connecting object object (60) of pressing connecting object object (60) relative to insulator (20), and actuator (50) has the lug boss (56) abutted with the holding section (63) of connecting object object (60) in closed position.

Description

Connector

Technical field

The present invention relates to a kind of connectors that circuit board is electrically connected to each other.

Background technology

In the past, it is desirable that FPC (Flexible Printed Circuit, flexible print circuit base for electronic equipment etc. Plate) it (is extracted with connector or FFC (Flexible Flat Cable, flexible flat cable) connectors raising retentivity Power), to prevent the FPC being fitted into or FFC from being undesirably fallen off with connector.

For example, in connector described in Patent Document 1, in the positioning card of the both sides edge setting of the end section of FPC Only plate engages with the lockplate protruded from insulation shell.

Patent document 1：Japanese Unexamined Patent Publication 2016-129124

In connector described in Patent Document 1, the retentivity of FPC or FFC in order to obtain, using increase insulator with The methods of the amount of lap of FPC or FFC.But recently, connector significantly develops to small-sized, low level, it is difficult to ensure adequately Amount of lap.Moreover, as the connecting objects such as FPC or FFC object itself is also promoted to slimming, with the part of insulator locking Rigidity is reduced and is easily bent, and to which amount of lap is unstable, that is, there are problems that retentivity reduction.

Invention content

The present invention is proposed in view of above-mentioned viewpoint, it is intended that a kind of connector is provided, even if in the shape of low level Under state, the retentivity of the connecting object object of slimming also can be steadily maintained.

To solve the above-mentioned problems, the connector of the first technical solution, including insulator and actuator,

The insulator has：

Insertion groove, can make side edge part protrusion be provided with the connecting object object of holding section into and out；And

Anti-delinking part engages when the connecting object object is inserted into the insertion groove with the holding section,

The actuator is pressing the closed position of the connecting object object and is not pressing the opening of the connecting object object It can be moved relative to the insulator between position,

The actuator has the lug boss abutted with the holding section of the connecting object object in the closed position.

In the connector of the second technical solution,

In the closed position, the lug boss presses down on the connecting object object along the closing direction of the actuator The holding section.

In the connector of third technical solution,

The insulator has through-hole or recess portion in position corresponding with the holding section, is inserted into the connecting object object When the insertion groove, the through-hole or recess portion can be in the mounting surfaces than the connecting object object more by the closing of the actuator Direction side accommodates the holding section.

In the connector of the 4th technical solution,

In the state that the actuator is in the open position, the upper surface of the holding section and the anti-delinking part The roughly the same position of upper surface configuration in the up-down direction,

In the closed position, the front end of the lug boss is located at the upper surface than the anti-delinking part more by the pass Close the position of direction side.

In the connector of the 5th technical solution,

When along the length direction section view of the actuator, the lug boss becomes taper towards the closing direction side.

In accordance with the invention it is possible to a kind of connector be provided, even if can steadily be maintained if in the state of low level The retentivity of the connecting object object of slimming.

Description of the drawings

Fig. 1 is the connector and FPC and the stereogram of discrete state that shows for overlooking an embodiment.

Fig. 2 is the connector and FPC and the stereogram of discrete state that shows of upward view 1.

Fig. 3 is the connector of vertical view 1 and the stereogram exploded view shown.

Fig. 4 is the connector of upward view 1 and the stereogram exploded view shown.

Fig. 5 is the sectional view for the connector that the arrow direction of the V-V lines along Fig. 1 regards.

Fig. 6 is the sectional view for the connector that the arrow direction of the line VI -- VI along Fig. 1 regards.

Fig. 7 is the sectional view corresponding with Fig. 5 when making actuator rotate to closed position in the state of being inserted into FPC.

Fig. 8 is the sectional view corresponding with Fig. 6 when actuator is in an open position in the state of being inserted into FPC.

Fig. 9 is the arrow side with the IX-IX lines along Fig. 1 when actuator is in an open position in the state of being inserted into FPC To regarding the corresponding figure of enlarged cross-sectional view.

Figure 10 is the sectional view corresponding with Fig. 8 when making actuator rotate to closed position in the state of being inserted into FPC.

Figure 11 is the enlarged section corresponding with Fig. 9 when making actuator rotate to closed position in the state of being inserted into FPC Figure.

Figure 12 is the figure in the section corresponding with Fig. 6 for the connector for indicating variation.

The explanation of reference numeral：

10 connectors

20 insulators

21 insertion grooves

21a mounting surfaces

22 mounting grooves

23 bottom walls

24 side walls

25 closed positions keep protrusion

26 component fixing grooves

27 anti-delinking parts

27a front surfaces

27b rear surfaces

The upper surfaces 27c

28 through-holes

29 recess portions

30 contacts

31 contact arms

32 contact protrusions

33 arm support portions

34 press pressure arm

35 support recess portions

36 mounting portions

37 locking protrusions

40 fixed components

41 support portions

42 mounting portions

50 actuators

51 side arms

52 arm insert through-holes

53 Pivot axles

54 cam parts

55 closed positions keep protrusion

56 lug bosses

60 FPC (connecting object object)

61 end stiffeners

62 circuit patterns

63 holding sections

The upper surfaces 63a

CB circuit boards

Specific implementation mode

In the following, an embodiment is described in detail with reference to accompanying drawings.Around in illustrating below and upper and lower direction In scheming on the basis of the direction of arrow.

One example of the connector 10 as an embodiment, pair with as flexible printed circuit substrate FPC60 (even Connect object) connection connector illustrate, but not limited to this.As long as connector 10 is by installing on insulator The connector that is electrically connected to each other of made of metal contact and circuit board, so that it may with for arbitrary connector.For example, connector 10 can FPC is replaced to be connect with FFC.

Fig. 1 is the connector 10 and FPC60 and the stereogram of discrete state that shows for overlooking an embodiment.Fig. 2 is to face upward The connector 10 and FPC60 of view 1 and the stereogram of discrete state shown.Fig. 3 is the connector 10 of vertical view 1 and shows Stereogram exploded view.Fig. 4 is the connector 10 of upward view 1 and the stereogram exploded view shown.Fig. 5 is the arrow side of the V-V lines along Fig. 1 To regarding connector 10 sectional view.Fig. 6 is the sectional view for the connector 10 that the arrow direction of the line VI -- VI along Fig. 1 regards.Fig. 7 It is the sectional view corresponding with Fig. 5 when making actuator 50 turn to closed position in the state of being inserted into FPC60.

As shown in figure 3, the connector 10 of present embodiment have the insulator 20 as primary structural member, contact 30, Fixed component 40 and actuator 50.As shown in Figure 1, connector 10 is mounted on circuit board CB.Connector 10 passes through contact 30 are electrically connected FPC60 with circuit board CB.

Insulator 20 is formed by the way that the synthetic resin material of insulating properties and heat resistance is carried out injection molding.In insulator 20 The front of upper surface be recessed with the insertion groove 21 for being inserted into FPC60.The front surface of insertion groove 21 and the upper surface of front are opened It puts.The rear portion of insertion groove 21 extends to the inside of insulator 20 (with reference to Fig. 5).The bottom surface at the rear portion of insertion groove 21, which is constituted, to be supplied FPC60 is especially the mounting surface 21a of the bottom surface mounting on its top.It is formed in the rear surface of insulator 20 and prolongs in the longitudinal direction The multiple mounting grooves 22 stretched (with reference to Fig. 4).Multiple mounting grooves 22 are formed as, in left and right in a manner of interval as defined in being spaced from each other It is arranged on direction.Surface shape along the mounting groove 22 of the rear surface of insulator 20 is to have long side in the up-down direction and on a left side It is substantially rectangular with short side in right direction.The long side of mounting groove 22 and the length of short side respectively than corresponding contact 30 after The width up and down and left and right width on surface are bigger, in mounting groove 22 and fixed as described later can be pressed into contact 30.Respectively The rear portion of mounting groove 22 penetrates through the rear portion of insulator 20 along the longitudinal direction.The front of each mounting groove 22 is recessed in the bottom of insertion groove 21 Face.It is formed with bottom wall 23 in the lower end of insulator 20, to be connect with the bottom surface of mounting groove 22 in lower section.That is, in connector 10 When on circuit board CB, bottom wall 23 is located between the bottom surface and circuit board CB of mounting groove 22.

It is formed with a pair of sidewalls 24 in the left and right sides portion of insulator 20.On the front end of the medial surface of left and right sidewall 24 Portion's protrusion is provided with closed position and keeps protrusion 25.It has been formed about component fixing groove 26 in the left and right sides portion of insulator 20, The component fixing groove 26 is located closely adjacent to the inside of left and right sidewall 24, and extends in the longitudinal direction.The preceding table of component fixing groove 26 Face opens.The upper and lower surfaces of the front of component fixing groove 26 also open.The upper and lower surfaces at the rear portion of component fixing groove 26 with And the face insulated body 20 of left and right two covers.The rear end of component fixing groove 26 extends to the rear end face of insulator 20 (with reference to Fig. 4).

It has been upwardly formed anti-delinking part 27 respectively (with reference to figure in the front end of the part than component fixing groove 26 more in the inner part 3).The front surface 27a and rear surface 27b of anti-delinking part 27 are made of the plane orthogonal with front-rear direction.The upper surface of anti-delinking part 27 27c is made of the plane parallel with front-rear direction.Anti-delinking part 27 is respectively formed in the left and right ends portion of insulator 20.Vertically side It is adjacent to the rear for being formed in anti-delinking part 27 with anti-delinking part 27 to the through-hole 28 of perforation insulator 20.Through-hole 28 accommodates aftermentioned The holding section 63 of FPC60.For the shapes and sizes of through-hole 28, as long as holding section 63 can be accommodated, so that it may to be arbitrary Shapes and sizes.

Multiple contacts 30 using progressive die (punching press) by with spring copper alloy (for example, phosphor bronze, beryllium copper or Person's titanium copper) or the gloomy series copper alloy of section sheet forming be processed as diagram shape formed (with reference to Fig. 5).Contact 30, in its table Face is formed with the substrate electroplated layer as substrate, and plating surface layer is laminated in a part for the upper surface of substrate electroplated layer.

As shown in figure 5, contact 30 is substantially Contraband font in side view.Contact 30 has：Contact arm 31 has in front end Contact protrusion 32；Arm support portion 33 supports contact arm 31；And press pressure arm 34, be located at contact arm 31 surface and The front end of lower surface nearby has support recess portion 35.Contact 30 has the mounting portion 36 of protrusion setting to the back-end.As described later, it touches First 30 mounting portion 36 is connect by welding with the circuit pattern on circuit board CB.

Each contact 30 is mounted in each mounting groove 22, to which insulated body 20 supports.That is, each contact 30 is pressed into from rear Each mounting groove 22 of insulator 20.As shown in figure 5, when each contact 30 is pressed into mounting groove 22,33 insulated body of arm support portion The upper surface of 20 bottom wall 23 supports.Contact arm 31 (contact protrusion 32) is located in insertion groove 21.In the upper surface by pressure arm 34 The locking protrusion 37 of protrusion setting is caught in the upper surface of corresponding mounting groove 22 (with reference to Fig. 5).By operating above, 30 phase of contact Stationary state is become for mounting groove 22.When contact 30 becomes stationary state relative to mounting groove 22, the surface of contact 30 with The inner surface of mounting groove 22 is close or abuts.Mounting portion 36 is rearward protruded from the rear surface of insulator 20.Under mounting portion 36 Position of the surface positioned at the lower surface than insulator 20 more on the lower.

Pair of right and left fixed component 40 is the manufacturing press-molded products of metallic plate, is mounted on the left and right ends portion of insulator 20 (with reference to Fig. 3).It is formed with the support portion 41 of support actuator 50 in the upper surface of fixed component 40.In the lower end of fixed component 40 Portion is provided with the mounting portion 42 of substantially L-shaped towards the outside protrusion of side, that is, left and right directions.Fixed component 40 is pressed into from front Insulator 20, to be fixed on insulator 20.

Rotary actuator 50 as the tabular component extended in the lateral direction utilizes metal molding die will The synthetic resin material injection molding of heat resistance forms.It is respectively equipped with side arm 51 in left and right sides portion.Under actuator 50 Near end, arrangement form has multiple arm insert through-holes 52 that actuator 50 is penetrated through along plate thickness direction in the lateral direction. The Pivot axle 53 for being formed immediately below with the lower end for blocking each arm insert through-hole 52 of each arm insert through-hole 52 is (with reference to figure 5).Positioned at defined adjacent arm insert with the lower end of the part between through-hole 52 be provided with cam part 54 (with reference to Fig. 4 and Fig. 5).The front end of the side arm 51 of actuator 50 is provided with the closed position protruded outward and keeps protrusion 55 (with reference to Fig. 3). The inside of arm 51 in side, lug boss 56 is protruded from the inner surface of actuator 50 to be arranged.

As shown in Figure 1, Figure 3, in the state of keeping actuator 50 substantially vertical with insulator 20, by corresponding contact 30 Be inserted into each arm insert through-hole 52 by pressure arm 34.Support recess portion 35 is engaged with Pivot axle 53 (with reference to Fig. 5).The side of left and right The base end part of portion's arm 51 is placed on the support portion 41 of the fixed component 40 of left and right.By operating above, actuator 50 is by contact 30 and fixed component 40 support.

So, when supporting the base end part of side arm 51 by support portion 41, the support recess portion of each contact 30 can be maintained 35 with the snap-fit relationship of corresponding Pivot axle 53.Therefore, actuator 50 is relative to (insertion/the extraction of FPC60 of insulator 20 Direction) it can move.Particularly, actuator 50 can surround Pivot axle 53 and rotate.

Connector 10 is installed in the upper table of the circuit board CB substantially parallel with front-rear direction (imaginary line referring to Fig.1) Face (circuit forming face).Specifically, the mounting portion 36 of each contact 30 is positioned in coated on the circuit pattern on circuit board CB On the soldering paste of (illustration omitted).The mounting portion 42 of the fixed component 40 of left and right is positioned in coated on the ground connection figure on circuit board CB On the soldering paste of case (illustration omitted).It is melted by heating each soldering paste in reflow ovens etc., each mounting portion 36 and foregoing circuit figure Case is welded.Each mounting portion 42 is welded with above-mentioned grounding pattern.As a result, completing installation of the connector 10 to circuit board CB.

As depicted in figs. 1 and 2, FPC60 is the stepped construction that multiple thin-film materials are bonded to each other and constitute.FPC60 has Have：End stiffener 61 constitutes the extending direction top end part of (front-rear direction) and harder than other parts；Multiple circuit patterns 62, along extending direction linear extension and extend to the lower surface of end stiffener 61；And holding section 63, in extension side To top end part protrude setting outward from side edge part.Holding section 63 is with convex to the direction, that is, left and right directions orthogonal with extending direction The mode gone out is formed with a pair.The upper surface of the upper surface 63a and end stiffener 61 of holding section 63, to be generally aligned in the same plane On mode be continuously formed.

In order to connect FPC60 (connecting object object), make the rotation of actuator 50 to open position.Make the rotation of actuator 50 extremely Behind open position, insertion groove 21 is inserted into the rear end of FPC60 from preceding oblique upper.It is rotated forwards to closing making actuator 50 When position, the face of 40 side of fixed component of side arm 51 is contacted with support portion 41.The closed position of actuator 50 keeps protrusion 55 Protrusion 25 is kept to engage with the closed position of insulator 20.Actuator 50 is maintained in its closed position relative to insulator 20 as a result,. At this point, the upper table plane-plane contact of each cam part 54 of actuator 50 and FPC60, and FPC60 is pressed downwards.Therefore, FPC60 Circuit pattern 62 makes the contact arm 31 of each contact 30 flexible deformation downwards on one side, is reliably contacted with contact protrusion 32 on one side (with reference to Fig. 7).

It is described in more detail with reference to Fig. 8 to Figure 11 and is inserted into FPC60 and actuator 50 is made to be rotated from open position to close stance The case where connector 10 in the state of setting engages with FPC60.Fig. 8 be in the state of being inserted into FPC60 actuator 50 be in beat Sectional view corresponding with Fig. 6 when open position.When Fig. 9 is that actuator 50 is in an open position in the state of being inserted into FPC60 Figure corresponding with the enlarged cross-sectional view that the arrow direction of the IX-IX lines along Fig. 1 regards.Figure 10 is made in the state of being inserted into FPC60 Sectional view corresponding with Fig. 8 when the rotation of actuator 50 is to closed position.Figure 11 is to make actuator in the state of being inserted into FPC60 Enlarged cross-sectional view corresponding with Fig. 9 when 50 rotations are to closed position.

When FPC60 to be inserted into the insertion groove 21 of insulator 20, the holding section 63 of FPC60, which is respectively received in, is formed in insulation (with reference to Fig. 8) in the through-hole 28 of the corresponding position of body 20.Through-hole 28 can more lean on closing direction in the mounting surface 21a than FPC60 Side accommodates holding section 63.In this state, the anti-delinking part 27 of insulator 20 from the extraction direction side of FPC60 be front side with engage Portion 63 is opposite.Anti-delinking part 27 engages with holding section 63.In the state that actuator 50 is in an open position, the upper table of holding section 63 Face 63a is located at the roughly the same position in upper and lower directions with the upper surface 27c of anti-delinking part 27.

When making the rotation of actuator 50 to closed position, the lug boss 56 of actuator 50 is abutted with the holding section 63 of FPC60. Particularly, in the closed position of actuator 50, (the reference figure of pressing fastened portion 63 under the closing direction of actuator 50 of lug boss 56 10 and Figure 11).That is, lug boss 56 is opposite with the insertion position of holding section 63 of FPC60 of insertion groove 21 of insulator 20 is inserted into It answers.As shown in figure 11, it is lower section that the cross sectional shape in left-right direction of lug boss 56, which is towards closing direction side, becomes taper.It is special Not, the cross sectional shape of lug boss 56 is generally trapezoidal.In closed position, top, that is, lowest part of lug boss 56 is located at than anticreep The upper surface 27c in portion 27 more leans on the position of closing direction side (lower section).That is, as shown in Figure 10, in closed position, lug boss 56 Lowest part is contained in through-hole 28.

In the state that actuator 50 is in the closed position, the upper surface 63a of holding section 63 is by lug boss 56 along closing side To downward push, to the position (0 and Figure 11 referring to Fig.1) positioned at the upper surface 27c than anti-delinking part 27 more on the lower.Holding section 63 are pressed down on along closing direction and be bent by lug bosses 56, and the upper surface 27c more towards outside more from anti-delinking part 27 is downwards Separation.

It can steadily be maintained if even if the connector 10 of an embodiment as described above is in the state of low level The retentivity of the FPC60 of slimming.That is, even if the rigidity in holding section 63 is reduced with the slimming of FPC60 and is easy curved In the case of song, can also amount of lap be made to stablize by lug boss 56 and the abutting of holding section 63.Lug boss 56 is along closing side Holding section 63 is pressed down on, to which holding section 63 is bent downwards.Holding section 63 and the amount of lap of anti-delinking part 27 increase as a result,. So, and will include that FPC60 including holding section 63 is flatly placed on mounting surface 21a for connector 10 The case where compare, high retentivity can be obtained.

For connector 10, due to making amount of lap increase equipped with through-hole 28 in the lower section of insulator 20, no The bulge quantity for needing the slave bottom wall 23 for increasing anti-delinking part 27 to protrude.Therefore, when being inserted into FPC60, connector 10 can prevent FPC60 is contacted with anti-delinking part 27, is able to maintain that the insertion of FPC60.

When being inserted into FPC60, it is located at upper and lower directions in the upper surface 63a of holding section 63 and the upper surface 27c of anti-delinking part 27 On roughly the same position in the case of, in closed position, the lowest part of lug boss 56 is located at the upper surface than anti-delinking part 27 27c more leans on the position of closing direction side.As a result, in closed position, lug boss 56 makes holding section 63 reliably be bent.Therefore, even It connects the bulge quantity that device 10 will not be such that anti-delinking part 27 protrudes from bottom wall 23 unnecessarily to increase, can also ensure that holding section 63 and anticreep The amount of lap in portion 27.Connector 10 is able to maintain that retentivity as a result,.

It is obvious to those skilled in the art that special in the spirit for not departing from the present invention or its essence In the case of sign, the present invention can be realized by way of the miscellaneous stipulations other than the above embodiment.Therefore, above Description is exemplary, and it's not limited to that.The scope of the present invention is not defined by above description, but is wanted by additional right Book is sought to define.Whole changes in its impartial range should all be included.

For example, as shown in figure 11, illustrate that the cross sectional shape of the length direction along actuator 50 of lug boss 56 is taper, Especially generally trapezoidal situation, but not limited to this.As long as energy such as the cross sectional shape rectangle of lug boss 56 or semicircles The shape of enough holding sections 63 that FPC60 is pressed under closing direction, so that it may with for arbitrary shape.In addition, lug boss 56 also may be used With with the taper section other than generally trapezoidal.For example, lug boss 56 can also be by the pressing fastened portion under closing direction 63 amount is more constituted towards the bigger cross sectional shape in outside.As an example, the cross sectional shape of lug boss 56 may be Closing direction side has the triangle of linear inclined surface, so as to be got over from the projection amount of the inner surface of actuator 50 towards left and right The outside in direction more increases.According to the cross sectional shape of such lug boss 56, when from left and right directions section view, lug boss 56 is from interior Side to outside substantially evenly pressing fastened portion 63.Therefore, connector 10 is not applying extreme to a part for holding section 63 Pressing can also be such that holding section 63 is bent more naturally.

Figure 12 is the figure in the section corresponding with Fig. 6 for the connector 10 for indicating variation.Illustrate connector 10 with pass The 56 corresponding position of lug boss of the actuator 50 of closed position has the case where through-hole 28 of insulator 20, but is not limited to This.As shown in figure 12, connector 10 can also replace through-hole 28 with recess portion 29.For recess portion 29 shapes and sizes and Speech, as long as holding section 63 can be accommodated, so that it may with for arbitrary shapes and sizes.For recess portion 29, as long as lug boss 56 Holding section 63 can be pressed into along closing direction, so that it may with recessed at any desired depth.

Connector 10 can also be configured to, and not have any one in through-hole 28 and recess portion 29, and than holding section 63 Insulator 20 is not formed in more outward position.For example, it is also possible to omit the side wall 24 and component fixing groove of insulator 20 26, and insulator 20 is not formed in position corresponding with the structural portion.That is, can also more leaning in the side edge part than FPC60 The position in outside is formed with insulator 20 in a manner of the anti-delinking part 27 there is only insulator 20.

Illustrate that the lowest part in closed position lug boss 56 is located at the upper surface 27c than anti-delinking part 27 more by closing direction The case where side, but not limited to this.As long as the lowest part of lug boss 56 can press down on holding section 63 to ensure it and prevent The amount of lap in de- portion 27, so that it may to configure in arbitrary position.For example, in closed position, the lowest part of lug boss 56 can also Positioned at the height roughly the same with the upper surface 27c of anti-delinking part 27.In this case, lug boss 56 is configured to, inserted with FPC60 and actuator 50 it is in an open position in the state of, press down on be located at it is more slightly higher than the upper surface 27c of anti-delinking part 27 upper The upper surface 63a of the holding section 63 of side.

Illustrate the anti-delinking part 27 of insulator 20 by the front surface 27a vertical with front-rear direction, rear surface 27b and with it is preceding The case where parallel upper surface 27c of rear direction is shaped generally as rectangular-shape, but not limited to this.Anti-delinking part 27 can also have There is front side inclined surface that the rising wood from front surface 27a is formed continuously and after the rising wood of rear surface 27b is formed continuously Lateral incline.Front side inclined surface is with the inclined surface for being gradually toward top from front direction rear.Rear side inclined surface be with It is gradually toward the inclined surface of top from the rear to the front.

Claims (5)

1. a kind of connector, including insulator and actuator,

The insulator has：

Insertion groove, can make side edge part protrusion be provided with the connecting object object of holding section into and out；And

Anti-delinking part engages when the connecting object object is inserted into the insertion groove with the holding section,

The actuator is pressing the closed position of the connecting object object and is not pressing the open position of the connecting object object Between can be moved relative to the insulator,

The actuator has the lug boss abutted with the holding section of the connecting object object in the closed position.

2. connector as described in claim 1, wherein

In the closed position, the lug boss presses down on the institute of the connecting object object along the closing direction of the actuator State holding section.

3. connector as claimed in claim 1 or 2, wherein

The insulator has through-hole or recess portion in position corresponding with the holding section, described in connecting object object insertion When insertion groove, the through-hole or recess portion can be in the mounting surfaces than the connecting object object more by the closing direction of the actuator Side accommodates the holding section.

4. connector as claimed in claim 2, wherein

In the state that the actuator is in the open position, the upper table of the upper surface of the holding section and the anti-delinking part The roughly the same position of face configuration in the up-down direction,

In the closed position, the front end of the lug boss is located at the upper surface than the anti-delinking part more by the closing side To the position of side.

5. the connector as described in claim 1,2, any one of 4, wherein

When along the length direction section view of the actuator, the lug boss becomes taper towards the closing direction side.