CN107017519B - Connector structure - Google Patents
Connector structure Download PDFInfo
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- CN107017519B CN107017519B CN201610968565.8A CN201610968565A CN107017519B CN 107017519 B CN107017519 B CN 107017519B CN 201610968565 A CN201610968565 A CN 201610968565A CN 107017519 B CN107017519 B CN 107017519B
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- Prior art keywords
- connector
- arm
- sliding block
- rake
- protrusion
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/62—Means for facilitating engagement or disengagement of coupling parts or for holding them in engagement
- H01R13/627—Snap or like fastening
- H01R13/6271—Latching means integral with the housing
- H01R13/6273—Latching means integral with the housing comprising two latching arms
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- Details Of Connecting Devices For Male And Female Coupling (AREA)
Abstract
The present invention provides the locking intensity for having taken into account raising and other side's side-connector and makes the connector structure for being easy to release both lockings.Connector structure 10 is configured to: connector arm 8 being arranged in connector 1, sliding block 2 is included arm 23, extended with the state being arranged in connector in direction identical with connector arm;And sliding block abutting part 23A, it is arranged on the front end of arm, is abutted with the protrusion 34 of other side's side-connector 3, also, arm includes the 1st rake 23C, is rolled tiltedly with the front end side to the arm to connector arm;And the 2nd rake 23D, it is arranged on the front end side that arm is more leaned on than the 1st rake, it is tilted more suddenly than the 1st rake, enter in connector once connector arm is configured to other side's side-connector, then successively contacted with the 1st rake and the 2nd rake, make arm curl, releases the abutting with protrusion.
Description
Technical field
The present invention relates to connector structures.
Background technique
As above-mentioned connector structure, the sliding block being sliding freely arranged with connector and in connector is disclosed
Construction.Once other side's side-connector enters in connector, then sliding block is abutted with other side's side-connector, and by the other side side
The approach axis of connector is pressed into.If other side's side-connector travels further into, other side's side-connector and connector are chimeric, then slide
The abutting of block and other side's side-connector is released from, and sliding block is returned to the direction opposite with approach axis.Connector structure is configured
To be detected half fit or being completely fitted (for example, referring to patent document 1 using the position of sliding block.).
Existing connector structure disclosed in Patent Document 1 is as shown in Figure 10, has: abutment arms 140, has setting
Abutting protrusion 141 on sliding block 104;And guide portion 121, it is set to connector 102 and is bent abutment arms 140.It is right
In such existing connector structure, once other side's side-connector 103 enters in connector 102, then setting connects in other side side
It connects abutting protrusion 131 on device 103 and is abutted with protrusion 141 is abutted, sliding block 104 is to the approach axis with other side's side-connector 103
Opposite direction returns.Later, be configured to: the abutting protrusion 141 of sliding block 104 slides onto guide portion 121, and abutment arms 140 are bent,
The abutting of 2 abutting protrusions 131,141 is released from.
In such existing connector structure, the locking intensity of 2 abutting protrusions 131,141 is by abutment arms 140
Amount of bow influences.In other words, it is got higher if abutment arms 140 are designed as locking intensity, abutment arms 140 must be made when releasing
It is significantly bent, it is not easy to release locking.In addition, 2 abuttings are prominent if abutment arms 140 are designed as to be easy to release locking
Rise 131,141 locking shoal, engage strength reduction.That is, in the prior art, it is difficult to take into account and improve existing connector structure
With the locking intensity of other side's side-connector and to make locking release transfiguration both easy.
Existing technical literature
Patent document
Patent document 1: special open 2001-326032 bulletin
Summary of the invention
The technical problem to be solved by the invention
The present invention provides a kind of locking intensity for combining raising and other side's side-connector and the company for being easy releasing locking
Connect device construction.
For technical means to solve problem
To achieve the goals above, the present invention has following composition.That is, the present invention that technical solution 1 is recorded is a kind of company
Connect device construction, the sliding block which includes connector and be sliding freely arranged in the connector, for institute
Connector structure is stated, once other side's side-connector enters in the connector, then the sliding block and setting connect in the other side side
The protrusion for connecing device abuts, and is pressed into the approach axis of other side's side-connector, when traveling further into, once the other side
Side-connector and the connector are chimeric, then the abutting with the protrusion is released from, to the side opposite with approach axis
To return, which is characterized in that in the connector, equipped with the connector extended in the direction opposite with approach axis
Arm, the sliding block include arm, with the state being arranged in the connector, in side identical with the connector arm
To extension;With sliding block abutting part, it is arranged on the front end of the arm, is abutted with the protrusion, the arm includes
1 rake, with the front end side towards the arm, Xiang Suoshu connector arm rolls oblique;And the 2nd rake, setting
It in the front end side for more leaning on the arm than the 1st rake, is tilted more suddenly than the 1st rake, the connector arm quilt
Constitute are as follows: once other side's side-connector enter the connector in, then with the 1st rake and the 2nd rake
It successively contacts, makes the arm curl, release the abutting with the protrusion.
Invention described in technical solution 2 is in the present invention described in technical solution 1, and the connector structure has to institute
The spiral helicine compressed spring that sliding block exerts a force to the direction opposite with approach axis is stated, the connector has described in receiving
The spring receiving portion of compressed spring, the spring receiving portion is configured to the C-shaped that the both ends of circumferencial direction are spaced apart, described
The size of space at both ends is the size smaller than the diameter of the compressed spring.
Invention effect
Invention according to technical solution 1 enters into connector along with other side's side-connector, is arranged on sliding block
Sliding block abutting part is abutted with the protrusion of other side's side-connector, along with traveling further into, using protrusion by sliding block by pushing back
With into opposite direction side, connector arm is contacted with the 1st rake of the arm being arranged in sliding block.Herein, the 2nd rake quilt
Be arranged to have the inclination steeper than the 1st rake, therefore, after connector arm is contacted with the 1st rake, when further into
Enter, to make arm along the oblique bending of the 1st rake, then, keeps arm larger curved along the inclination of the 2nd rake
It is bent.Arm can be made successively efficiently to be bent along the inclination of the 1st rake and the 2nd rake in this way, therefore, even if improving
The locking intensity of the sliding block abutting part of the protrusion and sliding block of other side's side-connector, using the 1st rake and the 2nd rake,
It can make arm curl with small power, release locking.Therefore, can take into account raising and other side's side-connector locking intensity, with
And keep releasing locking transfiguration easy.
According to invention described in technical solution 2, has the helical form to exert a force to sliding block to the direction opposite with approach axis
Compressed spring, connector have receiving compressed spring spring receiving portion, spring receiving portion is configured to the two of circumferencial direction
End C-shaped spaced apart, the size of space at both ends are formed the size smaller than the diameter of compressed spring, therefore, inhibit
Compressed spring falls off from spring receiving portion, and compressed spring is steadily accommodated.
Detailed description of the invention
Fig. 1 is to show the connector structure and the other side side chimeric with connector structure that one embodiment of the present invention is related to
The perspective view of connector.
(A) of Fig. 2 is the top view of the connector structure from Male Connector side, and (B) is the pith amplification of (A)
Figure.
Fig. 3 is to show compressed spring to be accommodated in the figure for constituting the state of negative shell of connector structure, is to show yin
The perspective view of the partial cross section of shell.
Fig. 4 is the sectional view for showing the compressed appearance of sliding block that compressed spring is configured connector structure.
Fig. 5 is the section of connector structure when Male Connector has initially entered in the Female Connector of connector structure
Figure.
Fig. 6 is the sectional view for making connector structure of the Male Connector ratio Fig. 5 further into after.
Fig. 7 is the sectional view for making connector structure of the Male Connector ratio Fig. 6 further into after, is different from Fig. 6
The sectional view in place.
(A) of Fig. 8 is the sectional view for making connector structure of the Male Connector ratio Fig. 6 further into after, and (B) is
(A) pith enlarged drawing.
Fig. 9 is the sectional view of the connector structure after Female Connector and Male Connector are chimeric.
Figure 10 is the sectional view for showing the existing sliding structure recorded in patent document 1.
Symbol description
1 Female Connector (connector)
2 sliding blocks
3 Male Connectors (other side's side-connector)
4 compressed springs
10 connector structures
23 slider arms (arm)
23A sliding block abutting part
The 1st inclined surface 23C (the 1st rake)
The 2nd inclined surface 23D (the 2nd rake)
34 male form sides abut protrusion (protrusion)
8 hammerlock portions (connector arm)
The separated size at the both ends of L circumferencial direction
Specific embodiment
Referring to Fig.1~Fig. 9 is illustrated the connector structure that one embodiment of the present invention is related to.Such as the institutes such as Fig. 1
Show, connector structure 10 is configured to have: the Female Connector 1 as connector;Sliding block 2 slides in Female Connector 1
It is arranged freely;With a pair of of compressed spring 4, to sliding block 2, to the Male Connector 3 as other side's side-connector, (other side side is connected
Device) side force.
Female Connector 1 is configured to have: female end 11 and receiving female end 11, sliding block 2 and a pair of of compressed spring
4 negative shell 12.Female end 11 is made of conductive component, is electrically connected with the male 31 of aftermentioned Male Connector 3
Known female end.
Negative shell 12 is made of the synthetic resin of insulating properties, is configured to be integrally provided with: terminal accommodating portion 6, receiving
Female end 11;The cover portion 7 of tubular is centered around around axis using the approach axis Yl of Male Connector 3 as axis;And hammerlock portion
8 (connector arms), for maintaining and the chimerism of Male Connector 3.
Herein, arrow Y, X, Z shown in Fig. 1 etc. show mutually orthogonal direction.In the following description, show in Fig. 1
Arrow Y (front-rear direction) out show Male Connector 3 to the approach axis Yl of Female Connector 1 and with enter opposite side
To Y2.In Fig. 1, the lower left side (with the opposite direction side Y2 is entered) of shell 12 negative in arrow Y is denoted as in " front " sometimes, it will
Upper right side (side approach axis Yl) is denoted as " rear ".In addition, arrow X is a direction (right and left orthogonal relative to arrow Y
To).Arrow Z is the direction orthogonal relative to both arrow Y and arrow X (up and down direction), indicates the female side of Female Connector 1
The flexible direction of arm 81, slider arm 23 (arm).
Terminal accommodating portion 6 as shown in Figure 1, Y is provided with multiple terminal accommodating rooms (ellipsis) of perforation along the longitudinal direction,
Female end 11 is contained respectively in the terminal accommodating room.The central axis side of cover portion 7 is provided with terminal accommodating portion 6, in terminal
Be respectively equipped between receiving portion 6 and cover portion 7: Male Connector reception room 7A, Male Connector 3 enter wherein;Sliding block reception room
7B accommodates sliding block 2;And spring reception room 7C (spring receiving portion), receiving is to end side (the anti-approach axis forward of sliding block 2
The side Y2) force compressed spring 4.Male Connector reception room 7A is the space around 7 inner terminal receiving portion 6 of cover portion.Sliding block
Reception room 7B is arranged on the upper side of Male Connector reception room 7A.In addition, spring reception room 7C is the male form company in cover portion 7
In the space for connecing the upper side of device reception room 7A, the space of the left and right sides of the front side in cover portion 7.Spring reception room 7C
There is opening in front side, the compressed spring 4 is accommodated in such a way that compression direction is along front-rear direction Y.
Cover portion 7 is formed tubular as shown in Fig. 1,4, and with upper wall 71, the side wall 72 controlled and connects these sides
Lower wall 73 between wall 72.Corner between upper wall 71 and each side wall 72 is provided with the inner wall 74 of C-shaped and clogs inner wall
The retaining wall 75 (being shown in Fig. 4) of 74 rear end.
In upper wall 71, a part for constituting sliding block reception room 7B is such as shown in Figure 1, is configured to: being set to and slide
The positioning protrusion 24 (aftermentioned) of block 2 is connected to from the rear end that the substantially middle part of front-rear direction Y is formed to rear end with mode of grooving
Face (hereinafter referred to as abutting end face 71a).In addition, a part of upper wall 71 is slotted, to be housed in sliding block reception room 7B's
The operation portion 26 (aftermentioned) of sliding block 2 is exposed in outside.
Inner wall 74 such as shown in Fig. 2 (A) (B), is extended to form from the front end of cover portion 7 to rear end side.In addition, inner wall 74 is by having
The curved surface of (precisely, slightly larger) curvature roughly the same with the outer peripheral surface of compressed spring 4 is constituted, and at the both ends of circumferencial direction
Portion has to be formed with gap.That is, be formed inner wall 74 internal diameter and compressed spring 4 diameter dimension it is roughly equal or
Person is slightly larger dimensions.Moreover, the L of size up and down in the gap in inner wall 74 be formed it is smaller than the diameter dimension of compressed spring 4
Size.
In the inner wall 74, as shown in Figure 3,4, spring reception room 7C is equipped in rear side.By being equipped with such spring
Reception room 7C, so that compressed spring 4 be inhibited to fall off from spring reception room 7C, compressed spring 4 is steadily accommodated.In addition, inside
Spring reception room 7C in wall 74 contains compressed spring 4, in the front end of compressed spring 4 to support with spring abutment 22 (aftermentioned)
The mode connect contains sliding block 2.In this way, sliding block 2, in negative shell 12, by the elastic force of compressed spring 4, side exerts a force forwards.
Hammerlock portion 8 is as shown in figure 5, be configured to be integrally provided with: a pair of of female side arm 81, opens for X points in left and right directions
Ground is arranged side by side;And female side chain 82, X is arranged between them and in left-right direction for erection.Female side chain 82 is configured
For the male form side chain 33 for being locked in Male Connector 3.Female side chain 82 is arranged on the front end than each female side arm 81 and more leans on base
The separated position in end side (rear side).
A pair of of female side arm 81 from the upper surface in terminal accommodating portion 6 as shown in figure 5, hold up respectively, and in front-rear direction Y-direction
Extend to front end strip.Each female side arm 81, which is configured to front end, becomes the cantilevered construction of free end, and is arranged to upper
Lower direction Z is flexible.In a pair of of female side arm 81, on the outside of left and right and the corner of downside is formed: along aftermentioned sliding block 2
Guide portion 27 slide.In addition, the front end 81A of female side arm 81 be formed with along sliding block 2 guide portion 27 it is inclined
Taper.Each female side arm 81 is configured to: being tilted towards top bending, the female side chain being lifted therefrom along guide portion 27
82 contact with the 1st inclined surface 23C of slider arm 23.
Sliding block 2 as shown in Figure 1,5, is integrally provided with: the substantially slider body 21 of strip;With a pair of of spring abutment 22,
In the front side of the longitudinal direction (front-rear direction Y) of slider body 21, two sides are stretched out to the left and right for it, and are abutted with compressed spring 4,
It and is T-shaped when sliding block 2 is formed to overlook.It is equipped in slider body 21: slider arm 23 (arm), with female side arm 81
Extend to the same direction (front-rear direction Y);Positioning protrusion 24 is abutted with the abutting end face 71a of Female Connector 1;Lock pressing
Portion 25, in latched position from upper pressing female side chain 82 (being shown in Fig. 5);And operation portion 26.In slider body 21, entering
Direction Yl is abreast disposed with slider arm 23, positioning protrusion 24, operation portion 26.Positioning protrusion 24 lower side downwards
It is highlightedly equipped with lock press section 25.
Moreover, being provided with guide portion 27, bootable female side arm 81 in the left and right sides of slider arm 23 in slider body 21
It is bent upwards.What guide portion 27 was configured to include plate erects plate 27A, penetrates through in slider body 21 from Z in above-below direction
The inner edge of long hole erect downwards, and extend in front-rear direction Y;And plate-like portion 27B, from the inner surface it is prominent to
The inner surface for erecting plate 27A forms difference of height 27C (showing Fig. 5).Difference of height 27C is configured to towards front and upwards
Inclination.By forming such difference of height 27C, so that female side arm 81 slides onto difference of height 27C and is bent, female side chain 82 is successively
It is contacted with the 1st inclined surface 23C of slider arm 23 and the 2nd inclined surface 23D, is bent the slider arm 23, the sliding block for releasing sliding block 2 supports
Socket part 23A abuts the abutting (locking) of protrusion 34 with the male form side of Male Connector 3.
Slider arm 23 is located at the center of the left and right directions of slider body 21, extends to Y strip along the longitudinal direction, and by
Being arranged to front end side becomes the cantilevered construction of free end (front end).The slider arm 23 is configured to vertically Z to be bent.
Slider arm 23 has the sliding block abutting part 23A that the abutting of protrusion 34 is abutted with male form side in its front surface.Sliding block abutting part 23A by with
Front-rear direction Y orthogonal vertical plane is constituted.
Moreover, being provided with the predetermined face 23B of base end side (rear end side) in the lower surface of slider arm 23;1st inclined surface 23C,
It is arranged in side more closer to the front than predetermined face 23B, and female side chain 82 is made to slide (contact);And the 2nd inclined surface 23D,
Side more closer to the front than the 1st inclined surface 23C.Predetermined face 23B slider arm 23 without external force under natural conditions, by along front and back
Direction Y and left and right directions X setting.1st inclined surface 23C is formed to tilt downwards, the 2nd inclined surface with towards front
23D is configured to tilt in the mode steeper than the 1st inclined surface 23C.Inclination angle of the 1st inclined surface 23C relative to predetermined face 23B
Degree and the 2nd inclined surface 23D relative to the tilt angle of the 1st inclined surface 23C are formed roughly equal tilt angle.Pass through
Such predetermined face 23B, the 1st inclined surface 23C and the 2nd inclined surface 23D are set, thus in predetermined face 23B and the 1st inclined surface 23C
Boundary position, the 1st inclined surface 23C and the 2nd inclined surface 23D boundary position, do not need big power, can make slider arm 23 yet
Successively it is bent.
Operation portion 26 is that operator presses with finger, and makes the rear Slideslip of the Y forward and backward of sliding block 2, to release connection
The chimeric component of device, and be configured to as rearward, overhang upwards becomes larger ladder-like.
Compressed spring 4 is, for example, known helical spring, as shown in figure 4, by being abutted with one end with retaining wall 75, the other end and
The mode that the spring abutment 22 of sliding block 2 abuts is contained in spring reception room 7C.Compressed spring 4 is to the end side forward of sliding block 2 as a result,
Force.
Then, referring to Fig.1,5, the construction of the Male Connector 3 chimeric with the connector structure 10 is illustrated.Male form
Connector 3 is configured to have: male 31 and positive shell 32.Male 31 is made of conductive component, is and 11 electricity of female end
The known male of gas connection, positive shell 32 are formed tubular, accommodate male 31 in inside.It is equipped in positive shell 32:
Male form side chain 33 is locked in female side chain 82;And male form side abuts protrusion 34, in the opposite with entering of male form side chain 33
The direction side Y2 (front side) is abutted with sliding block abutting part 23A.
Then, referring to Fig. 5~9 for an example of the chimeric movement of the Female Connector 1 and Male Connector 3 of above-mentioned composition
It is illustrated.In the state that Female Connector 1 and Male Connector 3 be not chimeric, as shown in figure 5, sliding in Female Connector 1
By compressed spring 4, side exerts a force block 2 forwards, and positioning protrusion 24 and negative shell 12 in sliding block 2 abut what end face 7la was abutted
Initial position.
Once chimeric movement, as shown in fig. 6, the Male Connector that Male Connector 3 enters Female Connector 1 accommodates
Room 7A, the male form side of Male Connector 3 abut protrusion 34 and abut (locking) with sliding block abutting part 23A.If traveled further into simultaneously
It is fitted into, then while keeping abutting state, sliding block 2 compresses compressed spring 4, and sliding movement rearward.Then, such as
Shown in Fig. 7, Fig. 8 (A) (B), female side arm 81 slides (contact) in the guide portion 27 of sliding block 2.In this way, female side arm 81 is bent,
Guide portion 27 is slid onto, female side chain 82 is lifted as a result, across the upper side of the male form side chain 33 of Male Connector 3.It needs
It is bright, in Fig. 7, female side chain 82 is omitted.
Once it travels further into and is fitted into, then as shown in Fig. 8 (A) (B), the 1st of female side chain 82 and slider arm 23 the
Inclined surface 23C contact.It is traveled further into the state, so that female side chain 82 is slided along the inclination of the 1st inclined surface 23C
It is dynamic, and it is bent slider arm 23 upwards.By traveling further into, thus the inclining along the 2nd inclined surface 23D of female side chain 82
It is tiltedly slided, makes the side's bending further up of slider arm 23, so that sliding block abutting part 23A abuts protrusion 34 relative to male form side
It is moved upward, the abutting (locking) that sliding block abutting part 23A abuts protrusion 34 with male form side is released from.At this point, female side chain 82
In the side closer to the top of male form side chain 33 than Male Connector 3, positioned at enter the opposite direction side Y2 (front side).Once sliding
The abutting (locking) that block abutting part 23A abuts protrusion 34 with male form side is released from, then due to the active force of compressed spring 4, sliding block 2
Slideslip is mobile forwards.
Sliding along with the side forwards of sliding block 2 is mobile, contact quilt of the female side arm 81 relative to the guide portion 27 of sliding block 2
It releases, female side arm 81 is restored to nature.Then, female side chain 82 is locked in the male form side chain 33 of Male Connector 3.This
When, sliding block 2 is located at the initial position for abutting end face 7la and abutting of positioning protrusion 24 and connector, and lock press section 25 is located at female
The upper side of side chain 82.Press section 25 is locked from upper pressing female side chain 82, to inhibit moving up and down for female side chain 82, is inhibited
Latch-release of the female side chain 82 to male form side chain 33.Then, Female Connector 1 and Male Connector 3 become chimerism.
According to above embodiment, along with Male Connector 3 (other side's side-connector) to Female Connector 1 (connector)
Entrance, the sliding block abutting part 23A that sliding block 2 is set abutted with the male form side of Male Connector 3 protrusion 34 (protrusion) abutting,
With traveling further into, male form side abut protrusion 34 by sliding block 2 by push back with into the opposite direction side Y2 (rear), female side
82 (connector arms) of lock are contacted with the 1st inclined surface 23C (the 1st rake) of slider arm 23 (arm).Herein, the 2nd inclined surface 23D
(the 2nd rake) is configured to the inclination steeper than the 1st inclined surface 23C, and therefore, female side chain 82 connects with the 1st inclined surface 23C
After touch, it travels further into, thus, make slider arm 23 along the oblique bending of the 1st inclined surface 23C, later, makes slider arm 23 along
The inclination of 2 inclined surface 23D is larger bent.Due to making slider arm 23 so successively efficiently along the 1st inclined surface 23C and the
The inclination of 2 inclined surface 23D and be bent, therefore, supported even if the male form side of Male Connector 3 abuts protrusion 34 and the sliding block of sliding block 2
The locking intensity of socket part 23A is got higher, and also can make slider arm using the 1st inclined surface 23C and the 2nd inclined surface 23D with lesser power
23 bendings, release locking.Therefore, the locking intensity of raising and Male Connector 3 can be taken into account and keep releasing locking transfiguration easy.
It should be noted that in the above-described embodiment, being tilted as with the 1st inclined surface 23C (the 1st rake) and the 2nd
Face 23D (the 2nd rake) is successively contacted and is made slider arm 23 (arm) curved component, is equipped with female side chain 82, but the present invention
It is without being limited thereto.The front end 81A for being also possible to female side arm 81 is successively contacted with the 1st inclined surface 23C and the 2nd inclined surface 23D, is made
Slider arm 23 is bent.
Above embodiment only shows typical mode of the invention, and the present invention is not limited to the above embodiments.
That is, those skilled in the art can knowledge according to prior art, carried out in the range of not departing from skeleton of the invention various
It deforms and implements.As long as still having the composition of connector structure of the invention after the deformation, then it is also contained in this certainly
In the range of invention.
Claims (2)
1. a kind of connector structure, which includes connector and is sliding freely arranged in the connector
Sliding block,
For the connector structure, once other side's side-connector enters in the connector, then the sliding block and setting are in institute
The protrusion for stating other side's side-connector abuts, and is pressed into the approach axis of other side's side-connector, when the other side side
Connector travels further into, and the abutting of the sliding block and the protrusion is released from, to the direction opposite with the approach axis
It returns, other side's side-connector and the connector are chimeric, which is characterized in that
In the connector, equipped with the connector arm in opposite with approach axis direction extension,
The sliding block includes arm, with the state being arranged in the connector, in side identical with the connector arm
To extension;With sliding block abutting part, it is arranged on the front end of the arm, is abutted with the protrusion,
The arm includes the 1st rake, and with the front end side towards the arm, Xiang Suoshu connector arm rolls oblique;With
And the 2nd rake, the front end side that the arm is more leaned on than the 1st rake is set, is inclined more suddenly than the 1st rake
Tiltedly,
The connector arm is configured to: once other side's side-connector enters in the connector, then being tilted with the described 1st
Portion and the 2nd rake successively contact, and make the arm curl, release the abutting with the protrusion.
2. connector structure according to claim 1, which is characterized in that
The connector structure has the spiral helicine compression to exert a force to the sliding block to the direction opposite with the approach axis
Spring,
The connector has the spring receiving portion for accommodating the compressed spring,
The spring receiving portion is configured to the C-shaped that the both ends of circumferencial direction are spaced apart,
The size of space at the both ends is the size smaller than the diameter of the compressed spring.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2015211955A JP6265383B2 (en) | 2015-10-28 | 2015-10-28 | Connector structure |
JP2015-211955 | 2015-10-28 |
Publications (2)
Publication Number | Publication Date |
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CN107017519A CN107017519A (en) | 2017-08-04 |
CN107017519B true CN107017519B (en) | 2019-03-15 |
Family
ID=58712137
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201610968565.8A Active CN107017519B (en) | 2015-10-28 | 2016-10-28 | Connector structure |
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JP (1) | JP6265383B2 (en) |
CN (1) | CN107017519B (en) |
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JP7469180B2 (en) | 2020-08-11 | 2024-04-16 | 矢崎総業株式会社 | connector |
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JP5527764B2 (en) * | 2010-02-24 | 2014-06-25 | 日本圧着端子製造株式会社 | Male connector, female connector, and electrical connector comprising these connectors |
JP5653150B2 (en) * | 2010-09-16 | 2015-01-14 | 矢崎総業株式会社 | Half-mating prevention connector |
JP6132205B2 (en) * | 2014-01-17 | 2017-05-24 | 住友電装株式会社 | connector |
-
2015
- 2015-10-28 JP JP2015211955A patent/JP6265383B2/en active Active
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2016
- 2016-10-28 CN CN201610968565.8A patent/CN107017519B/en active Active
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CN107017519A (en) | 2017-08-04 |
JP6265383B2 (en) | 2018-01-24 |
JP2017084612A (en) | 2017-05-18 |
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