CN106252980A - Connector structure - Google Patents

Abstract

The present invention provides and can easily take into account the engaging intensity improved with the other side's adapter and make engaging release easily, and expands the connector structure of the degree of freedom of the design of engaging protrusion.Sliding part (3) is slidably arranged in female connector (2), when male connector (5) enters in female connector (2), abut with male connector (5) and be pressed into by the approach axis (Y11) to male connector (5), when traveling further into and male connector (5) is chimeric with female connector (2), it is released from the abutting of male connector (5) and returns to approach axis reversely (Y12).By sliding part (3) when approach axis (Y11) is pressed into, the protuberance (225) of the lock arm (223) of female connector (2) climb sliding part (3) rib (34) on, make the direction flexure that this lock arm (223) climbs to holding section (224) in the engaging protrusion (52A) be arranged at male connector (5).

Description

Connector structure

Technical field

The present invention relates to connector structure.

Background technology

As above-mentioned connector structure, for instance it is known to include adapter and the structure (such as patent documentation 1) of sliding part being slidably located in adapter.Sliding part, when the other side's adapter enters in adapter, abuts with the other side's adapter and is pressed into the approach axis of the other side's adapter.When the other side's adapter travels further into and the other side's adapter is chimeric with adapter, releasing the abutting of sliding part and the other side's adapter, sliding part returns to the rightabout of approach axis.Position according to this sliding part, it is possible to detection is half fitting or is completely fitted.

Adapter has flexual lock arm and is located at the holding section of terminal part of lock arm, and when the other side's adapter enters, climb to after being arranged in the engaging protrusion of the other side's adapter, fasten mutually in the holding section of adapter.

In above-mentioned conventional connector structure, the intensity of engaging depends on the shape of the engaging protrusion of the other side's adapter, size.Therefore, when engaging protrusion being designed the intensity to improve engaging, it is not easy to release mutual engaging.It addition, when being designed making it easy to engagement release to engaging protrusion, the intensity of engaging can decline, i.e. be difficult to take into account in the past improve intensity that adapter engage with the other side's adapter with on engage release easy.It addition, the insertion force of the other side's adapter also depends on the shape of the engaging protrusion of the other side's adapter, size.Therefore have a problem in that the degree of freedom of the design of engaging protrusion declines.

Prior art literature

Patent documentation

Patent documentation 1: Japanese Unexamined Patent Publication 10-50408 publication

Summary of the invention

The problem that the present invention to be solved

Therefore, it is an object of the invention to provide a kind of connector structure, it is possible to easily take into account the engaging intensity improved with the other side's adapter and release easily with making to engage, and expand the degree of freedom of the design of engaging protrusion.

For solving the scheme of problem

The invention described in technical scheme 1 completed for solving the problems referred to above is a kind of connector structure, including adapter and sliding part, described sliding part is slidably arranged in described adapter, when the other side's adapter enters in described adapter, abut with described the other side's adapter and be pressed into by the approach axis to described the other side's adapter, travel further into and time described the other side's adapter is chimeric with described adapter, it is released from the abutting of described the other side's adapter and returns to the rightabout of described approach axis, described connector structure is characterised by, described adapter has: lock arm, it has pliability；Holding section, it is arranged on the terminal part of described lock arm, after climb to and be located in the engaging protrusion of this other side's adapter in described holding section when inserting described the other side's adapter, engages with this engaging protrusion；And protuberance, it is arranged on the terminal part of described lock arm, and described sliding part has deflection division, when being pressed into described approach axis, the protuberance of described lock arm climbs on described deflection division, so that the direction flexure that this lock arm climbs in described engaging protrusion to described holding section.

Invention described in technical scheme 2 is based on the connector structure described in technical scheme 1, it is characterized in that, described sliding part has pair of separated wall, the pair of separates walls is the most arranged side by side in the vertical direction vertical with flexible both directions of described approach axis and described lock arm, described deflection division is protrusively provided from the inside side of the pair of separates walls, and described protuberance is arranged to the protruding outside of the pair of separates walls from the terminal part of described lock arm.

Invention described in technical scheme 3 is based on the connector structure described in technical scheme 2, it is characterised in that described sliding part has: a pair arm, and it is arranged between the pair of separates walls, and one end is separately fixed in the pair of separates walls, and the other end is free end；And abutting part, it is arranged on the other end of the pair of arm, abuts with described the other side's adapter.

Invention described in technical scheme 4 is based on the connector structure described in technical scheme 3, it is characterized in that, described adapter has releasing portion, described releasing portion is inserted between the pair of arm, described sliding part is by when described approach axis is pressed into, described abutting part climbs on described contact site, so that the abutting of described abutting part releases.

Invention described in technical scheme 5 is based on the connector structure described in any one of technical scheme 1～4, it is characterised in that described sliding part has operating portion, in order to release chimeric, described operating portion carries out the operation being pressed into described approach axis by this sliding part.

Invention effect

The invention described in technical scheme 1 from the description above, sliding part by when approach axis is pressed into, the protuberance of lock arm climb sliding part deflection division on so that the direction flexure that lock arm climbs in engaging protrusion to holding section.Thus, even if improve the holding section of adapter and the engaging intensity of the engaging protrusion of the other side's adapter, it is also possible to utilize the deflection division of sliding part to make lock arm flexure carry out engagement release simply.Therefore, it is possible to easily take into account the engaging intensity improved with the other side's adapter and make engaging release easily, and expand the degree of freedom of the design of engaging protrusion.

According to the invention described in technical scheme 2, deflection division is protrusively provided from the inside side of pair of separated wall, and protuberance is arranged to the protruding outside of the pair of separates walls from the terminal part of lock arm.Thereby, it is possible to be simply to set deflection division, protuberance.

According to the invention described in technical scheme 3, sliding part has: be located between pair of separated wall, and one end is separately fixed on pair of separated wall, and the other end is a pair arm of free end；And it is located at the other end of a pair arm the abutting part abutted with the other side's adapter.Thereby, it is possible to be simply to set abutting part.

According to the invention described in technical scheme 4, releasing portion is inserted between a pair arm.Further, sliding part is by when approach axis is pressed into, and abutting part climbs in releasing portion, thus releases the abutting of abutting part.Thus, releasing portion can will not interfere with arm, it is possible to releases the abutting of abutting part simply.

According to the invention described in technical scheme 5, operate operating portion to be pressed into sliding part to approach axis such that it is able to utilize the deflection division of sliding part to make lock arm flexure carry out engagement release simply.

Accompanying drawing explanation

Fig. 1 is the exploded perspective view of an embodiment of the connector structure illustrating the present invention.

Fig. 2 is the front view of the connector structure shown in Fig. 1.

Fig. 3 (A) is the line A-A sectional view of Fig. 2, and (B) is the C partial enlarged drawing of (A).

Fig. 4 is the line B-B sectional view of Fig. 2.

Fig. 5 (A) and (B) be male connector when initially entering in the female connector of connector structure, the sectional view of connector structure and sectional block diagram.

Fig. 6 (A) is the sectional view of the connector structure making male connector when Fig. 5 travels further into, and (B) is the D portion enlarged drawing of (A).

Fig. 7 (A) is the sectional block diagram of the connector structure of the state shown in Fig. 6, and (B) is the E portion enlarged drawing of (A).

Fig. 8 (A) is the sectional view of the connector structure making male connector when Fig. 6 travels further into, and (B) and (C) is F portion and the G portion enlarged drawing of (A).

Fig. 9 (A) is the sectional block diagram of the connector structure of the state shown in Fig. 8, and (B) and (C) is H portion and the I portion enlarged drawing of (A).

Figure 10 (A) is the sectional view of the connector structure making male connector when Fig. 8 travels further into, and (B) and (C) is J portion and the K portion enlarged drawing of (A).

Figure 11 (A) is the sectional block diagram of the connector structure of the state shown in Figure 10, and (B) and (C) is L portion and the M portion enlarged drawing of (A).

Figure 12 (A) is male connector and the sectional view of female connector connector structure time chimeric, and (B) is the N portion enlarged drawing of (A).

Figure 13 (A) is the sectional block diagram of the connector structure of the state shown in Figure 12, and (B) is the O portion enlarged drawing of (A).

Figure 14 (A) is in order to release the Qian He of male connector and female connector and to make the sliding part sectional view when approach axis slides, and (B) is the P portion enlarged drawing of (A).

Figure 15 (A) is the sectional block diagram of the connector structure of the state shown in Figure 14, and (B) is the Q portion enlarged drawing of (A).

Figure 16 (A) be make sliding part from Figure 14 sectional view when approach axis slides further, (B) is fillet part enlarged drawing.

Figure 17 (A) is the sectional block diagram of the connector structure of the state shown in Figure 16, and (B) is the S portion enlarged drawing of (A).

Figure 18 (A) be make sliding part from Figure 16 sectional view when approach axis slides further, (B) and (C) is T portion and U portion enlarged drawing.

Figure 19 (A) is the sectional block diagram of the connector structure of the state shown in Figure 18, and (B) and (C) is V portion and W portion enlarged drawing.

Figure 20 is by the sectional view of male connector connector structure when female connector departs from.

Figure 21 is the sectional block diagram of the connector structure of the state shown in Figure 20.

The explanation of reference

1: connector structure

2: female connector (adapter)

3: sliding part

5: male connector (the other side's adapter)

31: slider body (separates walls)

32: arm

33: adapter abutting part (abutting part)

33B: operating portion

34: rib (deflection division)

52A: engaging protrusion

223: lock arm

224: holding section

225: protuberance

226: releasing portion

Y11: approach axis

Y12: approach axis is reversely (direction that approach axis is contrary)

Y2: above-below direction (flexible direction)

Y3: width (vertical direction)

Detailed description of the invention

Below, the connector structure of the present invention is described with reference to Fig. 1～Fig. 4.As shown in Fig. 1 etc., connector structure 1 includes: as the female connector 2 of adapter；The sliding part 3 being slidably located in female connector 2；And a pair compression spring 4 to sliding part 3 force.

Sliding part 3, when the male connector 5 (with reference to Fig. 5 etc.) as the other side's adapter enters in female connector 2, abuts with male connector 5 and is pressed into the approach axis Y11 of male connector 5.When male connector 5 travels further into and female connector 2 is chimeric with male connector 5, releasing the abutting of sliding part 3 and male connector 5, sliding part 3 returns to the reverse Y12 of approach axis (direction contrary with approach axis).Sliding part 3 is exerted a force by compression spring 4 to the reverse Y12 of approach axis.

First, the detailed composition of female connector 2 is described.Female connector 2 includes female end 21 and the cloudy housing 22 female end 21, sliding part 3 and compression spring 4 accommodated.Female end 21 is to be made up of conductive component, and known female end electrically connected with the male 51 (with reference to Fig. 5 etc.) of aftermentioned male connector 5.

Cloudy housing 22 is made up of synthetic resin etc., integrally provided with: shown in Fig. 1 etc., to accommodate female end 21 terminal accommodation portion 221；Cover portion 222 with the tubular that the approach axis Y11 of terminal accommodation portion 221 surrounds for axle around axle；Arrange to be fitted together to by male connector 5 has flexual pair of locking arm 223 and holding section 224 (Fig. 3 and reference Fig. 4)；Climb the protuberance 225 (with reference to Fig. 3) on the rib 34 of aftermentioned sliding part 3；And the releasing portion 226 (with reference to Fig. 1 and Fig. 4) arranged to release sliding part 3 and the abutting of male connector 5.

Terminal accommodation portion 221 is provided with the multiple terminal accommodating chambers through along and into direction Y11, accommodates female end 21 respectively in this terminal accommodating chamber.As it is shown in figure 1, be respectively equipped with in cover portion 222: the male connector accommodating chamber 222A entered for male connector 5；Accommodate the sliding part accommodating chamber 222B of sliding part 3；And accommodate the spring accommodating chamber 222C of compression spring 4.

Male connector accommodating chamber 222A is the space around the terminal accommodation portion 221 in cover portion 222.Sliding part accommodating chamber 222B is located at above-below direction Y2 (the flexible direction of the aftermentioned lock arm 223) upside of male connector accommodating chamber 222A.Spring accommodating chamber 222C is arranged on width Y3 (vertical direction vertical with flexible both directions of approach axis Y11 and the lock arm 223) both sides of sliding part accommodating chamber 222B.Spring accommodating chamber 222C is set to cover portion 222 inner surface of the width Y3 both sides of sliding part accommodating chamber 222B is formed as concavity.

It addition, as it is shown on figure 3, be provided integrally with further on cloudy housing 22: the wall portion 227 that the opening of the approach axis Y11 side of spring accommodating chamber 222C is clogged；And the wall part 228 that the sliding part accommodating chamber 222B and spring accommodating chamber 222C of approach axis Y11 side separated.Wall part 228 is set to the cross section arcuation flexure to protrude inside width Y3.

Pair of locking arm 223 is set up in parallel dividually at width Y3, is set to strip along and into direction Y11.As shown in Figure 4, lock arm 223 is set to cantilevered construction, the one end of its approach axis Y11 side is fixed on the lower surface of aftermentioned releasing portion 226, and the other end (terminal part) of the reverse Y12 of approach axis becomes free end, and lock arm 223 is set at above-below direction Y2 flexible.

As it is shown on figure 3, holding section 224 is between the terminal part and terminal part of pair of locking arm 223, arrange along width Y3.Protuberance 225 from the terminal part of pair of locking arm 223 be respectively facing width Y3 protruding outside arrange.As shown in Figure 4, at the end face of the approach axis reverse Y12 side of these holding sections 224 and protuberance 225, it is provided with and tends to inclined plane 224A on the upside of above-below direction Y2 along with tending to the reverse Y12 of approach axis.

The releasing portion 226 cover portion 222 inner surface on the upside of above-below direction Y2 is protrusively provided.The end face of the approach axis reverse Y12 side in releasing portion 226, be provided with along with tend to approach axis Y11 and close to inclined plane 226A on the upside of above-below direction Y2.As it is shown in figure 1, be provided with the groove 222D of the end extending to enter the reverse Y12 in direction in cover portion 222, inclined plane 226A is exposed from groove 222D.

As shown in Fig. 1 etc., sliding part 3 has: as the pair of sliders main body 31 of pair of separated wall；A pair arm 32；Adapter abutting part 33 as abutting part；Rib 34 as flexible portion；Spring abutment 35；And holding section 36.

Pair of sliders main body 31 extends along direct of travel Y11, arranged side by side at width Y3.Face outside the width Y3 of pair of sliders main body 31 arranges the concavity that the wall part 228 for cross section arc-shaped embeds.As it is shown on figure 3, the end of the approach axis Y11 side of slider body 31 is positioned between wall part 228, slide along wall part 228.

A pair arm 32 is located between pair of sliders main body 31, it is set to cantilevered construction, the one end of its approach axis Y11 side is separately fixed in pair of sliders main body 31, the other end (terminal part) of approach axis reverse Y12 side becomes free end, and a pair arm 32 is set at above-below direction Y2 flexible.Releasing portion 226 is positioned between (being inserted into) this pair arm 32.

Adapter abutting part 33 is located between the other end of a pair arm 32, abuts with aftermentioned male connector 5.It is provided with being projected into abutting part main body 33A than arm 32 position on the lower at adapter abutting part 33；And it is projected into the prominent operating portion 33B than arm 32 position by the top.The end face of the approach axis reverse Y11 side of abutting part main body 33A abuts with aftermentioned male connector 5.It addition, the end face in the approach axis Y12 side of abutting part main body 33A be provided with along with tend to approach axis Y11 and close to inclined plane 33C on the upside of above-below direction Y1.Operating portion 33B is for being pressed with finger by operator so that sliding part 3 slides to approach axis Y11 releases chimeric parts, and the approach axis reverse Y12 side of operating portion 33B is set to stepped.

Rib 34 is protrusively provided inside width Y3 from pair of sliders main body 31.Rib 34 is arranged along and into direction Y11, the end face in approach axis Y11 side be provided with along with tend to the reverse Y12 of approach axis and close to inclined plane 34A on the upside of above-below direction Y2.

Spring abutment 35 is protrusively provided to the spring accommodating chamber 222C outside width Y3 from slider body 31.Holding section 36 from slider body 31 upwardly projecting arrange, be fastened on from the prominent not shown engaging protrusion of cover portion 222 inner surface of not shown cloudy housing 22, limit slippage part 3 is in the movement of the reverse Y12 of approach axis.Inclined plane 36A that overhang reduces it is provided with along with tending to approach axis Y11 in holding section 36.

The e.g. known helical spring of compression spring 4, one end is connected to wall portion 227, and the other end is connected to the spring abutment 35 of sliding part 3.Thus, sliding part 3 is exerted a force by compression spring 4 to the reverse Y12 of approach axis.

It follows that the structure of the male connector 5 chimeric with this connector structure 1 is described with reference to Fig. 5 etc..Male connector 5 includes male 51 and sun housing 52.Male 51 is to be made up of conductive component, and the known male electrically connected with female end 21.Sun housing 52 is formed as tubular, in inner containment male 51.Sun housing 52 is provided with: engaging protrusion 52A engaged with the holding section 224 of female connector 2；And abutting projection 52B abutted with the adapter abutting part 33 of sliding part 3.

Engaging protrusion 52A and abut on the upside of projection 52B vertically Y2 projecting, arranged side by side along and into direction Y11.Engaging protrusion 52A is arranged on approach axis Y11 side compared with abutting projection 52B.It addition, the overhang of engaging protrusion 52A is more than the overhang abutting projection 52B.

It follows that referring to Fig. 5～Figure 12, the female connector 2 of above-mentioned composition and the chimeric action of male connector 5 are described.As it is shown in figure 5, when female connector 2 is the most chimeric with male connector 5, sliding part 3 is exerted a force by compression spring 4, the clamped position being positioned holding section 36 and engaging with the not shown engaging protrusion being arranged on cloudy housing 22.In this condition, compared with the holding section 224 of female connector 2 and protuberance 225, the rib 34 of sliding part 3 is positioned at approach axis reverse Y12 side.

First, as it is shown in figure 5, make male connector 5 enter the male connector accommodating chamber 222A of female connector 2 at direct of travel Y11.So, as it is shown in figure 5, abutting projection 52B of the adapter abutting part 33 of sliding part 3 and male connector 5 abuts.When making male connector 5 travel further into, sliding part 3 is pressed into approach axis Y11, and the rib 34 of sliding part 3 is close to the protuberance 225 of female connector 2, and the adapter abutting part 33 of sliding part 3 is close to the releasing portion 226 of female connector 2.

When making male connector 5 travel further into, the most as shown in Figure 6 and Figure 7, the terminal part of the approach axis Y11 side of rib 34 abuts with protuberance 225.Afterwards, protuberance 225 climb rib 34 inclined plane 34A on.Thus, enter along with making male connector 5, the terminal part of lock arm 223 bends upward, when protuberance 225 is positioned at approach axis reverse Y12 side compared with inclined plane 34A of rib 34, as shown in Fig. 8 (A) and Figure 10 (C), the holding section 224 being arranged on lock arm 223 terminal part is positioned the top of engaging protrusion 52A.

It addition, after holding section 224 is positioned above engaging protrusion 52A, as shown in Figure 8 and Figure 9, the end of the approach axis reverse Y12 side of releasing portion 226 abuts with adapter abutting part 33.Afterwards, adapter abutting part 33 climb releasing portion 226 inclined plane 226A on.Thus, along with making male connector 5 enter, arm 32 terminal part of sliding part 3 bends upward, and as shown in Figure 10 and Figure 11, the adapter abutting part 33 being located at arm 32 terminal part is positioned to abut the top of projection 52B.

Climbing to the period abutted in projection 52B at adapter abutting part 33, owing to adapter abutting part 33 is more than the active force of compression spring 4 with abutting the frictional force of generation between projection 52B, therefore sliding part 3 will not tend to the reverse Y12 of approach axis.

When making male connector 5 travel further into, while adapter abutting part 33 is positioned at the reverse Y12 of approach axis compared with abutting projection 52B, holding section 224 is positioned at the reverse Y12 of approach axis compared with engaging protrusion 52A.When adapter abutting part 33 is positioned at the reverse Y12 of approach axis compared with abutting projection 52B, release adapter abutting part 33 and the abutting abutting projection 52B, the end of arm 32 resets into lower section, and sliding part 3 is pressed by the active force of compression spring 4 to the reverse Y12 of approach axis and moves.

Thus, as shown in Figure 12 and Figure 13, owing to the rib 34 of sliding part 3 moves than holding section 224 by the position of approach axis reverse Y12 side, therefore the end of lock arm 223 resets into lower section, holding section 224 engages with engaging protrusion 52A, and male connector 5 is completely fitted with female connector 2.

It follows that referring to Figure 14～Figure 22, the chimeric releasing action of female connector 2 and male connector 5 is described.First, the operating portion 33B of operator pressing sliding part 3, make sliding part 3 slide at approach axis Y11.Thus, as shown in Figure 14 and Figure 15, the rib 34 of sliding part 3 is close to the protuberance 225 of female connector 2, and the adapter abutting part 33 of sliding part 3 is close to the releasing portion 226 of female connector 2.

Further, when making sliding part 3 slide, as shown in Figure 14 and Figure 15, the terminal part of the approach axis Y11 side of rib 34 abuts with protuberance 225.Afterwards, protuberance 225 climb rib 34 inclined plane 34A on.Thus, slide along with making sliding part 3, the terminal part of lock arm 223 bends upward, when protuberance 225 is positioned at approach axis reverse Y12 side compared with inclined plane 34A of rib 34, as shown in Figure 16 and Figure 17, the holding section 224 being located at lock arm 223 terminal part is positioned the top of engaging protrusion 52A, and engaging is released from.

Making sliding part 3 when approach axis Y11 slides further, as shown in Figure 16 and Figure 17, inclined plane 33C of adapter abutting part 33 abuts with abutting projection 52B.Afterwards, as shown in Figure 18 and Figure 19, inclined plane 33C of adapter abutting part 33 is climbed in abutting projection 52B.And afterwards, adapter abutting part 33 climb releasing portion 226 inclined plane 226A on.Thus, along with making sliding part 3 slide, the terminal part of arm 32 bends upward, and the adapter abutting part 33 being located at arm 32 terminal part is positioned to abut the top of projection 52B.In this condition, if operator is held male connector 5 and extracted to the reverse Y12 of approach axis, then as shown in Figure 20 and Figure 21, it is possible to make male connector 5 depart from from female connector 2.

The action of sliding part 3 is the most identical with during chimeric releasing when chimeric as mentioned above.I.e., by male 51 press (chimeric time) or due to the operation while releasing (chimeric) of operating portion 33B sliding part 3 by when approach axis Y11 is pressed into, the protuberance 225 of female connector 2 climbs on rib 34, the direction flexure in engaging protrusion 52A so that lock arm 223 climbs in holding section 224.

Thus, even if improving the engaging intensity of holding section 224 and engaging protrusion 52A of male connector 5 of female connector 2, it is also possible to utilize the rib 34 of sliding part 3 to make lock arm 223 bend and engagement release simply.Therefore, it is possible to easily take into account the engaging intensity improved with male connector 5 and make engaging easily release, and expand the degree of freedom of the design of engaging protrusion 52A.

According to above-mentioned embodiment, rib 34 is protrusively provided towards inner side from pair of sliders main body 31, and protuberance 225 is arranged towards the protruding outside of pair of sliders main body 31 from the terminal part of lock arm 223.Thereby, it is possible to be simply to set rib 34, protuberance 225.

According to above-mentioned embodiment, sliding part 3 has: a pair arm 32, and it is located between pair of sliders main body 31, and one end is separately fixed in pair of sliders main body 31, and the other end is free end；And adapter abutting part 33, it is located at the other end of a pair arm 32, abuts with male connector 5.Thereby, it is possible to be simply to set adapter abutting part 33.

According to above-mentioned embodiment, releasing portion 226 is inserted between a pair arm 32.Further, sliding part 3 is by when approach axis Y11 is pressed into, and adapter abutting part 33 engages in releasing portion 226, thus releases the abutting of adapter abutting part 33.Thus, releasing portion 226 can will not interfere with arm 32, it is possible to releases the abutting of adapter abutting part 33 simply.

Additionally, according to above-mentioned embodiment, lock arm 223 is provided with a pair, but is not limited to this.Lock arm 223 can also be 1.

It addition, according to above-mentioned embodiment, as pair of separated wall, be made up of the slider body 31 of wall part 228 sliding gomphosis at cloudy housing 22, but be not limited to this.Such as, as a pair dividing wall, such as, it is also contemplated for the downward side of sliding part 3 from tabular and is protrusively provided.

Additionally, above-mentioned embodiment simply illustrates the representational form of the present invention, the invention is not restricted to this embodiment.That is, in the range of without departing from main points of the present invention, it is possible to carry out various deformation and implement.

Claims (5)

1. a connector structure, including adapter and sliding part,

Described sliding part is slidably arranged in described adapter, enters at the other side's adapter Time in described adapter, abut and by entering to described the other side's adapter with described the other side's adapter Enter direction press-in, when traveling further into and described the other side's adapter is chimeric with described adapter, It is released from the abutting of described the other side's adapter and returns to the rightabout of described approach axis,

Described connector structure is characterised by,

Described adapter has:

Lock arm, it has pliability；

Holding section, it is arranged on the terminal part of described lock arm, when inserting described the other side's adapter Climb to after being located in the engaging protrusion of this other side's adapter in described holding section, engage prominent with this Play engaging；And

Protuberance, it is arranged on the terminal part of described lock arm,

Described sliding part has deflection division, when being pressed into described approach axis, and described locking The protuberance of arm climbs on described deflection division so that this lock arm to described holding section in institute State the direction flexure climbed in engaging protrusion.

2. connector structure as claimed in claim 1, it is characterised in that

Described sliding part has pair of separated wall, the pair of separates walls with described approach axis And the vertical vertical direction in flexible both directions of described lock arm is arranged side by side dividually,

Described deflection division is protrusively provided from the inside side of the pair of separates walls,

Described protuberance is from protruding outside to the pair of separates walls of the terminal part of described lock arm Ground is arranged.

3. connector structure as claimed in claim 2, it is characterised in that

Described sliding part has:

A pair arm, it is arranged between the pair of separates walls, and one end is separately fixed at described one To in separates walls, the other end is free end；And

Abutting part, it is arranged on the other end of the pair of arm, supports with described the other side's adapter Connect.

4. connector structure as claimed in claim 3, it is characterised in that

Described adapter has releasing portion, and described releasing portion is inserted between the pair of arm, institute Stating sliding part by when described approach axis is pressed into, described abutting part climbs in described releasing portion, So that the abutting of described abutting part releases.

5. the connector structure as described in any one of Claims 1 to 4, it is characterised in that

Described sliding part has operating portion, carries out described operating portion by this to release chimeric The operation that sliding part is pressed into described approach axis.