CN204156172U - Electric connector - Google Patents

Abstract

The utility model discloses a kind of electric connector, for being electrically connected with a chip module, comprise insulating body and offer multiple terminal groove, multiple terminal groove is arranged in fore-and-aft direction arrangement in more, multiple terminal correspondence is contained in multiple terminal groove, terminal has the extension of base portion one lateral buckling and is even connected with material strip in material portion, upwards bending elasticity of extension arm from base portion one end is revealed in outside terminal groove, the bending of elastic arm side direction extends turning point, turning point extends forward contact site in order to abut against with chip module, when chip module crimps multiple terminal, be positioned at two terminals that same row is adjacent, thereafter the contact site of a terminal is in the side of the elastic arm of previous terminal, even if contact site is subject to the pressure of chip module and strain, also adjacent terminal can not be contacted, thus avoid being short-circuited between adjacent terminal, ensure the electrical connection properties that terminal is good.

Description

Electric connector

Technical field

The utility model relates to a kind of electric connector, espespecially a kind of electric connector in order to be electrically connected with a chip module.

Background technology

Existing electric connector comprises an insulating body, described insulating body offers multiple terminal groove, multiple terminal correspondence is contained in multiple described terminal groove, described terminal has a base portion, described base portion both sides are respectively equipped with a holding section and described terminal cell wall interference engagement with fixing described terminal, described base portion one end upwards extends a material portion of company and is connected with a material strip, the described side connecting material portion and depart from described base portion center line, extend an elastic arm from described material portion one lateral buckling that connects, described elastic arm end is provided with a contact site in order to contact with a chip module.

But, along with the fast development of electronic technology, more and more urgent to the demand of high frequency connectors, in order to improve the high frequency performance of existing electric connector, generally can by described terminal densification, make the Distance Shortened between two adjacent described terminals, thus make described insulating body can hold more terminal to reach high-frequency effect.Multiple described terminal on described insulating body is arranged in order, when described chip module crimps described contact site downwards, described contact site can contact adjacent described terminal because of strain, thus cause being short-circuited between adjacent described terminal, affect the electrical connection properties of described terminal, and due to the described side connecting material portion and depart from described base portion center line, load in the process of described terminal groove from the top down at described terminal, described holding section on described base portion can interfere with described terminal cell wall, easily make described terminal crooked and cause the described material portion torsional deformation that connects, and then drive the described elastic arm being positioned at described even side, material portion to deform, thus affect docking of described contact site and described chip module.

Therefore, the electric connector designing a kind of improvement is necessary, to overcome the problems referred to above.

Summary of the invention

For background technology institute problems faced, the purpose of this utility model is to provide a kind of electric connector with good electrical connection properties.

For achieving the above object, the utility model adopts following technological means:

A kind of electric connector, for being electrically connected with a chip module, comprising an insulating body, offering multiple terminal groove, and multiple described terminal groove is arranged in fore-and-aft direction arrangement in more; Multiple terminal, correspondence is contained in multiple described terminal groove, terminal described in each has a base portion and is positioned at described terminal groove, described base portion one lateral buckling extension one connects material portion and is connected with a material strip, upwards bending extension one elastic arm from described base portion one end is revealed in outside described terminal groove, described elastic arm side direction bending extension one turning point, described turning point extends forward a contact site in order to abut against with described chip module; When the multiple described terminal of described chip module crimping, be positioned at two described terminals that same row is adjacent, the described contact site of a described terminal is in the side of the described elastic arm of previous described terminal thereafter.

Further, when the multiple described terminal of described chip module crimping, the laterally offset of described turning point is also downward-sloping, and between adjacent two described terminal grooves, makes described contact site in the side of the described terminal groove be adjacent.

Further, from described turning point forward and upwards extend to form, and width is gradually narrow for described contact site, and the width of described contact site and the width of described turning point are all less than the width of described elastic arm.

Further, described elastic arm comprises a kink and a junction, described kink first bends forward fold backward from described base portion again and upwards extends to form simultaneously, and extend to form described connecting portion from described kink tip forward, described contact site is outside the region that described connecting portion extends.

Further, described connecting portion has one first axle, and about described first axial symmetry, described contact site has the second axle, and about described second axial symmetry, sees from top to bottom, and described second axle and described first axle are parallel to each other.

Further, described connecting portion has one first axle, and about described first axial symmetry, described contact site has the second axle, and about described second axial symmetry, sees from top to bottom, has an angle between described second axle and described first axle.

Further, the described material portion that connects is positioned at the side of described base portion and mutually vertical with described base portion, the horizontal plane at material portion of described company and described elastic arm place.

Further, the described material portion that connects has a horizontal segment and from the described horizontal segment vertical section that upwards extension width is gradually wide, described horizontal segment extends to form from described base portion one lateral buckling, and described vertical section is revealed in described terminal groove and is connected with described material strip.

Further, from described terminal groove internal face projection one barrier in the horizontal direction, described barrier is positioned at below described horizontal segment, moves down in order to horizontal segment described in block.

Further, two weld parts are extended away from one end of described elastic arm from described base portion, there is between described two weld parts an accommodation district, weld part described in each has an adjutage and extends one first hook portion from described adjutage, described first hook portion is provided with a depressed part towards described accommodation district, two described first hook portions all to be protruded below described terminal groove in order to clamp a tin ball, make described tin ball enter described accommodation district, and part are positioned at described depressed part.

Further, adjutage described in each is provided with one second hook portion along the side away from described first hook portion, described second hook portion is protruded outside described terminal groove, both sides, described terminal groove lower end respectively corresponding described second hook portion are provided with a stop block, stop block described in each is positioned at above the second hook portion described in each, moves up in order to terminal described in block.

Further, the multiple projection of described insulating body lower surface projection, described in each, the relative both sides of terminal groove periphery are equipped with described projection, and two described first directions, hook portion place of adjacent two the described directions, projection place of same row and terminal described in each are perpendicular.

Compared with prior art, the utility model has following beneficial effect:

The described even material portion that described terminal has described base portion and extends from described base portion one lateral buckling, upwards bend from described base portion one end and extend described elastic arm, described elastic arm side direction bending extends described turning point, described turning point extends forward described contact site, when the multiple described terminal of described chip module crimping, be positioned at two described terminals that same row is adjacent, thereafter the described contact site of a described terminal is in the side of the described elastic arm of previous described terminal, even if described contact site is subject to the pressure of described chip module and strain, also adjacent described terminal can not be contacted, thus avoid being short-circuited between adjacent described terminal, ensure the electrical connection properties that described terminal is good, and described base portion does not interfere with described terminal cell wall, described terminal is less likely to occur in an assembling process crooked, and described elastic arm is positioned at described base portion one end, also described elastic arm can not be driven to be out of shape even if described material portion deforms, thus guarantee that described contact site can accurately dock with described chip module.

[accompanying drawing explanation]

Fig. 1 is the sectional perspective exploded view of the utility model electric connector;

Fig. 2 is the sectional perspective exploded view at another visual angle of the utility model electric connector;

Fig. 3 is the cutaway view of the utility model electric connector;

Fig. 4 is the cutaway view at another visual angle of the utility model electric connector;

Fig. 5 is the cutaway view that the utility model electric connector does not dock with chip module;

Fig. 6 is the cutaway view that the utility model electric connector docks with chip module;

Fig. 7 is the vertical view of the utility model electric connector.

The drawing reference numeral of embodiment illustrates:

Electric connector 100	Insulating body 1	Terminal groove 11	First barricade 111
				Second barricade 112	Third gear wall 113	Fourth gear wall 114	Barrier 115
Stop block 116	Projection 117	Terminal 2	Base portion 21
				Connect material portion 22	Horizontal segment 221	Vertical section 222	Elastic arm 23
Kink 231	Connecting portion 232	Turning point 24	Contact site 25
				Weld part 26	Hold district 261	Adjutage 262	First hook portion 263
Depressed part 2631	Second hook portion 264	Tin ball 3	First axle X
				Second axle Y	Chip module 200

[embodiment]

For ease of better understanding the purpose of this utility model, structure, feature and effect etc., existing the utility model is described in further detail with embodiment by reference to the accompanying drawings.

As depicted in figs. 1 and 2, the utility model electric connector 100 comprises an insulating body 1, and described insulating body 1 offers multiple terminal groove 11, and multiple terminal 2 correspondence is contained in multiple described terminal groove 11, and multiple described terminal 2 is in order to be electrically connected a chip module 200.

As depicted in figs. 1 and 2, described terminal 2 has a base portion 21 and is positioned at described terminal groove 11, described base portion 21 is tabular, described base portion 21 1 lateral buckling extends one and connects material portion 22 and be connected with a material strip (not shown), and material portion 22 of described company is positioned at the side of described base portion 21 and mutually vertical with described base portion 21.The described material portion 22 that connects has a horizontal segment 221 and from the described horizontal segment 221 vertical section 222 that upwards extension width is gradually wide, described horizontal segment 221 extends to form from described base portion 21 horizontal buckling, described vertical section 222 end is revealed in above described terminal groove 11, be connected with described material strip, to facilitate folding material.

As Fig. 1, shown in Fig. 6 and Fig. 7, upwards bending extension one elastic arm 23 from described base portion 21 one end is revealed in outside described terminal groove 11, described even material portion 22 is perpendicular with the horizontal plane at described elastic arm 23 place, described elastic arm 23 comprises a kink 231 and a junction 232, described kink 231 first bends forward fold backward from described base portion 21 again and upwards extends to form simultaneously, described connecting portion 232 is extended to form from described kink 231 tip forward, described connecting portion 232 is positioned at directly over described terminal groove 11, described connecting portion 232 has a line stretcher (non-label) in both sides of the edge relatively respectively, article two, the region that the region between described line stretcher extends for described connecting portion 232.From described elastic arm 23 side direction bending extension one turning point 24, described turning point 24 is from the laterally offset of described elastic arm 23 end, namely described turning point 24 is from the laterally offset of described connecting portion 232, described turning point 24 extends forward a contact site 25 in order to contact with described chip module 200, makes the laterally offset of described contact site 25 relatively described connecting portion 232.From described turning point 24 forward and upwards extend to form, and width is gradually narrow for described contact site 25, and the width of described contact site 25 and the width of described turning point 24 are all less than the width of described elastic arm 23.See from top to bottom, namely as shown in Figure 7, the described contact site 25 of terminal 2 described in each is positioned at outside the region that described connecting portion 232 extends, described connecting portion 232 has one first axle X, and it is symmetrical about described first axle X, described contact site 25 has the second axle Y, and it is symmetrical about described second axle Y, in the present embodiment, described second axle Y and described first axle X is parallel to each other, in other embodiments, between described second axle Y and described first axle X, there is an angle, as long as ensure that described contact site 25 is positioned at outside the region that described connecting portion 232 extends, namely described contact site 25 is positioned at the side of described terminal groove 11, instead of directly over.

As Fig. 5, shown in Fig. 6 and Fig. 7, when described chip module 200 crimps described terminal 2, the downward-sloping extension in described turning point 24, now described turning point 24 is between adjacent two described terminal grooves 11, terminal groove 11 described in the lateral deviation of described contact site 25 simultaneously, and be positioned at the side of the described terminal groove 11 be adjacent, and between two described terminals 2 that same row is adjacent, thereafter the described contact site 25 of a described terminal 2 is positioned at the side of the described elastic arm 23 of previous described terminal 2, namely the described elastic arm 23 of described contact site 25 to previous described terminal 2 of a rear described terminal 2 is stepped down, even if described contact site 25 is subject to the pressure of described chip module 200 and strain, also adjacent described terminal 2 can not be contacted, thus avoid being short-circuited between adjacent described terminal 2, ensure the electrical connection properties that described terminal 2 is good.And dock with multiple described contact site 25 because described chip module 200 is provided with multiple conducting strip (not shown), based on the restriction of the aspect of described chip module 200 size and described electric connector 100 size etc., make the described conducting strip of described chip module 200 not for directly over described terminal groove 11, but be positioned at the side of described terminal groove 11, and described contact site 25 is also positioned at the side of described terminal groove 11, instead of be positioned at directly over described terminal groove 11, thus make described contact site 25 have larger overlay region with the described conducting strip of described chip module 200, therefore the electrical connection stability between described contact site 25 and the described conducting strip of described chip module 200 can be guaranteed.

As Fig. 1, shown in Fig. 2 and Fig. 3, two weld parts 26 are extended from described base portion 21 other end, described two weld parts 26 lay respectively at the relative both sides of described base portion 21, and be positioned at same plane with described base portion 21, between described two weld parts 26, there is an accommodation district 261, weld part 26 described in each has an adjutage 262 and extends one first hook portion 263 from described adjutage 262, described in each, the first hook portion 263 is provided with a depressed part 2631 towards described accommodation district 261, two described first hook portions 263 are oppositely arranged and all protrude outside described terminal groove 11 in order to clamp a tin ball 3, described tin ball 3 is made to enter described accommodation district 261, and part is positioned at described depressed part 2631, thus make the described tin ball 3 of clamping that two described first hook portions 263 can be firm, described tin ball 3 is in order to be soldered to (not shown) on a circuit board by described terminal 2.Adjutage 262 described in each is provided with one second hook portion 264 along the side away from described first hook portion 263, and described second hook portion 264 is positioned at the top of described first hook portion 263 and protrudes below described terminal groove 11, and two described second hook portions 264 are arranged in opposite directions.

As shown in Fig. 1, Fig. 4 and Fig. 7, multiple described terminal groove 11 runs through formation from described insulating body 1 upper surface to described insulating body 1 lower surface, multiple described terminal groove 11 is arranged in fore-and-aft direction arrangement in more, and be dislocation arrangement in the lateral direction, i.e. multiple described terminals 2 Heterogeneous Permutation in the lateral direction.One second barricade 112 being provided with one first barricade 111 in terminal groove 11 described in each along the longitudinal direction and being oppositely arranged, described base portion 21 is between described first barricade 111 and described second barricade 112, and described first barricade 111 and described second barricade 112 are in order to limit the movement of described base portion 21 at fore-and-aft direction.The fourth gear wall 114 that terminal groove 11 side described in each is provided with a third gear wall 113 in left-right direction and is oppositely arranged, described third gear wall 113, described fourth gear wall 114 are all perpendicular to described first barricade 111 and described second barricade 112, and the height of described third gear wall 113 and described fourth gear wall 114 is all higher than the height of described first barricade 111 and described second barricade 112, the described material portion 22 that connects between described third gear wall 113 and described fourth gear wall 114, in order to limit the described material portion 22 that connects in the movement of left and right directions.From described terminal groove 11 internal face projection one barrier 115 in the horizontal direction, described barrier 115 is positioned at below described horizontal segment 221, moves down in order to horizontal segment described in block 221.Both sides, described terminal groove 11 lower end respectively corresponding described second hook portion 264 place are provided with a stop block 116, and stop block 116 described in each coordinates with the second hook portion 264 described in each, moves up in order to the second hook portion 264 described in block.Described terminal groove 11 coordinates with described terminal 2, all fixes described terminal 2 at fore-and-aft direction, left and right directions and above-below direction, thus it is loosening to avoid described terminal 2.The multiple projection 117 of described insulating body 1 lower surface projection, described in each, the relative both sides of terminal groove 11 periphery are equipped with described projection 117, and two described first directions, hook portion 263 place being positioned at two adjacent described directions, projection 117 place of same row and terminal 2 described in each are perpendicular.Two described first hook portions 263 of terminal 2 described in each clamp described tin ball 3 in left-right direction, and described projection 117 tin ball 3 described in block along the longitudinal direction, thus described tin ball 3 is fixed, ensure that described tin ball 3 is held in the precalculated position of two described first hook portions 263.

As Fig. 1, shown in Fig. 4 and Fig. 5, during assembling, first load multiple described terminal groove 11 by corresponding from the top down for multiple described terminal 2, make described base portion 21 between described first barricade 111 and described second barricade 112, the described material portion 22 that connects is between described third gear wall 113 and described fourth gear wall 114, in order to limit the movement of described terminal 2 at fore-and-aft direction and left and right directions, described horizontal segment 221 is made to be positioned at above described barrier 115, namely described in described barrier 115 block, terminal 2 moves down, and make described second hook portion 264 catch on described stop block 116, thus terminal 2 described in described stop block 116 block is moved up, thus limit described terminal 2 in all directions, prevent described terminal 2 from loosening.Described base portion 21 is only arranged in described terminal groove 11, namely described base portion 21 does not interfere with described terminal groove 11 internal face, described terminal 2 is made to be less likely to occur crooked in an assembling process, and described elastic arm 23 extends to form from described base portion 21 one end, instead of extend to form from the described material portion 22 that connects, also described elastic arm 23 can not be driven to be out of shape even if described material portion 22 deforms, thus guarantee that described contact site 25 can accurately dock with described chip module 200.As shown in Figure 6 and Figure 7, then described chip module 200 is compressed described terminal 2 downwards, described elastic arm 23 moves down and produces strain, described contact site 25 is made to depart from the side of described terminal groove 11, and make described turning point 24 downward-sloping, two that finally make same row adjacent described terminals 2, the side that the described contact site 25 of a described terminal 2 is positioned at the described elastic arm 23 of previous described terminal 2 is thereafter docked with described chip module 200, thus completes electric connection.

In sum, the utility model electric connector 100 has following beneficial effect:

(1) described terminal 2 has described base portion 21 and connects material portion 22 from described the described of base portion 21 1 lateral buckling extension, upwards bend from described base portion 21 one end and extend described elastic arm 23, described elastic arm 23 side direction bending extends described turning point 24, described turning point 24 extends forward described contact site 25, when described chip module 200 crimps multiple described terminal 2, be positioned at two described terminals 2 that same row is adjacent, thereafter the described contact site 25 of a described terminal 2 is positioned at the side of the described elastic arm 23 of previous described terminal 2, even if described contact site 25 is subject to the pressure of described chip module 200 and strain, also adjacent described terminal 2 can not be contacted, thus avoid being short-circuited between adjacent described terminal 2, ensure the electrical connection properties that described terminal 2 is good, and described base portion 21 does not interfere with described terminal groove 11 wall, described terminal 2 is made to be less likely to occur crooked in an assembling process, and described elastic arm 23 is positioned at described base portion 21 one end, also described elastic arm 23 can not be driven to be out of shape even if described material portion 22 deforms, thus guarantee that described contact site 25 can accurately dock with described chip module 200.

(2) described base portion 21 is between described first barricade 111 and described second barricade 112, described first barricade 111 and described second barricade 112 are in order to limit the movement of described base portion 21 at fore-and-aft direction, the described material portion 22 that connects is between described third gear wall 113 and described fourth gear wall 114, in order to limit described even material portion 22 in the movement of left and right directions, described barrier 115 is positioned at below described horizontal segment 221, move down in order to horizontal segment described in block 221, described stop block 116 coordinates with described second hook portion 264, move up in order to the second hook portion 264 described in block, thus limit described terminal 2 in all directions, prevent described terminal 2 from loosening.

(3) described in each, the relative both sides of terminal groove 11 periphery are equipped with described projection 117, and two described first directions, hook portion 263 place being positioned at two adjacent described directions, projection 117 place of same row and terminal 2 described in each are perpendicular, two described first hook portions 263 of terminal 2 described in each clamp described tin ball 3 in left-right direction, and described projection 117 tin ball 3 described in block along the longitudinal direction, thus described tin ball 3 is fixed, ensure that described tin ball 3 is held in the precalculated position of two described first hook portions 263.

More than describe the explanation being only the preferred embodiment of the utility model in detail, non-ly therefore limit to the scope of the claims of the present utility model, so the equivalence techniques change that all this creation of utilization specifications and diagramatic content are done, is all contained in the scope of the claims of the present utility model.

Claims (12)

1. an electric connector, for being electrically connected with a chip module, is characterized in that, comprise:

One insulating body, offers multiple terminal groove, and multiple described terminal groove is arranged in fore-and-aft direction arrangement in more;

Multiple terminal, correspondence is contained in multiple described terminal groove, terminal described in each has a base portion and is positioned at described terminal groove, described base portion one lateral buckling extension one connects material portion and is connected with a material strip, upwards bending extension one elastic arm from described base portion one end is revealed in outside described terminal groove, described elastic arm side direction bending extension one turning point, described turning point extends forward a contact site in order to abut against with described chip module;

When the multiple described terminal of described chip module crimping, be positioned at two described terminals that same row is adjacent, the described contact site of a described terminal is in the side of the described elastic arm of previous described terminal thereafter.

2. electric connector as claimed in claim 1, it is characterized in that: when the multiple described terminal of described chip module crimping, the laterally offset of described turning point is also downward-sloping, and between adjacent two described terminal grooves, make described contact site in the side of the described terminal groove be adjacent.

3. electric connector as claimed in claim 1, is characterized in that: from described turning point forward and upwards extend to form, and width is gradually narrow for described contact site, and the width of described contact site and the width of described turning point are all less than the width of described elastic arm.

4. electric connector as claimed in claim 1, it is characterized in that: described elastic arm comprises a kink and a junction, described kink first bends forward fold backward from described base portion again and upwards extends to form simultaneously, extend to form described connecting portion from described kink tip forward, described contact site is outside the region that described connecting portion extends.

5. electric connector as claimed in claim 4, is characterized in that: described connecting portion has one first axle, and about described first axial symmetry, described contact site has the second axle, and about described second axial symmetry, see from top to bottom, described second axle and described first axle are parallel to each other.

6. electric connector as claimed in claim 4, is characterized in that: described connecting portion has one first axle, and about described first axial symmetry, described contact site has the second axle, and about described second axial symmetry, see, between described second axle and described first axle, there is an angle from top to bottom.

7. electric connector as claimed in claim 1, is characterized in that: the described material portion that connects is positioned at the side of described base portion and mutually vertical with described base portion, the horizontal plane at material portion of described company and described elastic arm place.

8. electric connector as claimed in claim 1, it is characterized in that: the described material portion that connects has a horizontal segment and from the described horizontal segment vertical section that upwards extension width is gradually wide, described horizontal segment extends to form from described base portion one lateral buckling, and described vertical section is revealed in described terminal groove and is connected with described material strip.

9. electric connector as claimed in claim 8, is characterized in that: from described terminal groove internal face projection one barrier in the horizontal direction, described barrier is positioned at below described horizontal segment, moves down in order to horizontal segment described in block.

10. electric connector as claimed in claim 1, it is characterized in that: extend two weld parts from described base portion away from one end of described elastic arm, there is between described two weld parts an accommodation district, weld part described in each has an adjutage and extends one first hook portion from described adjutage, described first hook portion is provided with a depressed part towards described accommodation district, two described first hook portions are all protruded below described terminal groove in order to clamp a tin ball, make described tin ball enter described accommodation district, and part is positioned at described depressed part.

11. electric connectors as claimed in claim 10, it is characterized in that: adjutage described in each is provided with one second hook portion along the side away from described first hook portion, described second hook portion is protruded outside described terminal groove, both sides, described terminal groove lower end respectively corresponding described second hook portion are provided with a stop block, stop block described in each is positioned at above the second hook portion described in each, moves up in order to terminal described in block.

12. electric connectors as claimed in claim 10, it is characterized in that: the multiple projection of described insulating body lower surface projection, described in each, the relative both sides of terminal groove periphery are equipped with described projection, and two described first directions, hook portion place of adjacent two the described directions, projection place of same row and terminal described in each are perpendicular.