CN205376918U - High -frequency connector - Google Patents

Abstract

The utility model provides a high -frequency connector contains insulator, lid and a plurality of connecting terminal, be formed with grafting space and a plurality of slot in the insulator, the grafting space can supply electrically conductive of a flat type to peg graft, the part of slot exposes in one side of insulator, insulator is located to the lid pivot, and can the selectivity shield the slot, the definition of each connecting terminal has first arm, second arm and connecting portion, and first arm is connected with connecting portion with the one end of second arm, and it relatively sets up each other, and connecting portion are formed with an at least perforation, connecting terminal correspond set up in in the slot, and each first arm and each second arm at least some expose in insulator. Through fenestrate setting, the user can borrow the difference characteristic impedance of this adjust connection terminal to promote the holistic transmission efficiency of high -frequency connector.

Description

High frequency connectors

Technical field

This utility model relates to a kind of adapter, particularly a kind of high frequency connectors being used for plugging with platypelloid type electric-conductor.

Background technology

In highfrequency transmission systems, in order to maintain the quality of high-speed transfer, adapter and transmission line must reach good impedance matching.Therefore, the associated production manufacturer of adapter, invariably carry out correlational study design for the housing of adapter, connection terminal etc., to making adapter more easily can reach good impedance matching to conventional transmission line or relevant custom circuit plate.Therefore, how to make the differential characteristic resistance value of adapter, closer to the resistance value of conventional transmission line, become field of connectors technical staff faced by one of important topic.Then, this utility model uses theoretical knowledge, it is proposed to a kind of reasonable in design and be effectively improved the technical scheme of the problems referred to above.

Utility model content

Technical problem to be solved in the utility model is in that, a kind of high frequency connectors are provided for the deficiencies in the prior art, it can according to user demand, carry out the adjustment of differential characteristic impedance, effectively promote the ability of high frequency connectors and conventional transmission line or custom circuit plate impedance matching whereby, thus effectively promoting the transmission speed that high frequency connectors are overall.

To achieve these goals, this utility model provides a kind of high frequency connectors, and it includes an insulating body, a lid and multiple connection terminal.Insulating body includes and multiple side by side and spaced slot, the side exposing to insulating body at least partially of described slot and are adjacent to described slot place in insulating body and are formed with a grafting space, is used for plugging for platypelloid type electric-conductor.Lid is hubbed at the side of insulating body, covers to the lid property of can select that described slot, and when lid correspondence covers described slot, lid and insulating body expose between the part having slot, has the gap being connected with grafting space.Each link sub-definite has one first arm, one second arm and a junction, and one end of the first arm and the second arm is connected with connecting portion, and the first arm and the second arm are arranged relative to one another；Each connecting portion connecting terminal is formed with at least one perforation, and can the corresponding differential characteristic impedance adjusting this connection terminal；Described connection terminal is correspondingly arranged in described slot, and each second arm expose to its corresponding slot at least partially, and can corresponding contact with the conducting terminal of platypelloid type electric-conductor.

In other words, this utility model provides a kind of high frequency connectors, it is applicable to connect a platypelloid type electric-conductor, these high frequency connectors include: an insulating body, its include multiple side by side and spaced slot, the side exposing to this insulating body at least partially of described slot, and be adjacent to described slot place in this insulating body and be formed with a grafting space, it is used for plugging for this platypelloid type electric-conductor；One lid, it is hubbed at this insulating body and exposes the side having described slot, covers to this lid property of can select that described slot, and when this lid correspondence covers described slot, this lid and this insulating body expose between the part having slot, have the gap being connected with this grafting space；And multiple connection terminal, respectively this link sub-definite has one first arm, one second arm and a junction, and this first arm is connected with this connecting portion with one end of this second arm, and this first arm and this second arm are arranged relative to one another；Respectively this connecting portion of this connection terminal is formed with at least one perforation, and can the corresponding differential characteristic impedance adjusting this connection terminal；Described connection terminal is correspondingly arranged in described slot, and respectively this second arm expose to its this corresponding slot at least partially, and can corresponding contact with the conducting terminal of this platypelloid type electric-conductor.

The definition of this insulating body has one first fixed part, one second fixed part, a body connecting portion and a position limiting structure, this first fixed part is connected with this second fixed part by this body connecting portion and arranges relative to one another, this first fixed part is along the length in a grafting direction, less than this second fixed part length along this grafting direction, this lid is hubbed at this first fixed part, and this lid corresponding can cover at least some of of this second fixed part, and this lid correspondence is when covering this second fixed part, a location structure of this lid is corresponding to be mutually clamped with this position limiting structure.

Being formed at respectively this slot of this insulating body, correspondence is positioned at the part of this first fixed part, this second fixed part and this body connecting portion, is respectively defined as one first socket, one second socket and a body socket；When described connection terminal corresponding inserted is in described slot, respectively this first arm of this connection terminal, this second arm and this connecting portion correspondence are arranged in this first socket of its this corresponding slot, this second socket and this body socket, and be arranged in respectively this first socket the first arm expose to this first fixed part at least partially.

Expose to the first arm of respectively this first fixed part, a corresponding mutual pivot joint of pin-jointed structure with this lid.

This lid has multiple dodges hole, when this lid correspondence covers this second fixed part, exposes to the first arm of respectively this first fixed part, correspondence be arranged in described in dodge hole.

This body connecting portion is along the width in this grafting direction, it is not less than the connecting portion width along this grafting direction of respectively this connection terminal, and described connection terminal is when being correspondingly arranged in described slot, this body connecting portion correspondence covers described perforation, and described perforation does not expose to this insulating body.

Respectively this connecting portion of this connection terminal there is also defined two holding sections, the outer rim distance of these two holding sections, more than the distance between the first socket and second socket of respectively this slot, and described connection terminal is when being correspondingly arranged in described slot, respectively this holding section exposes to this slot that it is corresponding, and correspondence is resisted against the side of this insulating body.

Respectively this link attached bag contains this perforation plural.

The side that respectively two opposite faces of the connecting portion of this connection terminal are arranged, it is respectively defined as one first outer side edges and one second outer side edges, respectively this first arm of this connection terminal is defined as one first arm outer side edges away from a side of this second arm, respectively this second arm of this connection terminal is defined as one second arm outer side edges away from a side of this first arm, respectively at least some of of this first outer side edges of this connection terminal flushes with this first arm outer side edges, and the flushing with this second arm outer side edges at least partially of this second outer side edges of each this connection terminal；Wherein, beeline between part that respectively this first outer side edges of this connection terminal flushes with this first arm outer side edges and the border of this perforation is not less than 0.12 millimeter, and the beeline between part that respectively this second outer side edges of this connection terminal flushes with this second arm outer side edges and the border of this perforation is not less than 0.12 millimeter.

The side that respectively another two opposite faces of group of this connecting portion of this connection terminal are arranged, is respectively defined as one first connection side and one second and connects side, and respectively this first connection side of this connection terminal is connected with this first arm and this second arm；Wherein, respectively the beeline between this first connection side of this connection terminal and the border of this perforation is not less than 0.12 millimeter, and respectively the beeline between this second connection side of this connection terminal and the border of this perforation is not less than 0.12 millimeter.

The beneficial effects of the utility model can be in that: by arranging perforation in the connecting portion of each connection terminal, can according to user demand, and correspondence adjusts the differential characteristic impedance connecting terminal, thus promoting high frequency connectors and conventional transmission line or the impedance matching of custom circuit plate, and then promote the high-frequency transmission performance of integrated connection device, and by arranging the direction of perforation in each connection terminal, the cost of integrated connection device can be reduced simultaneously.

It is further understood that feature of the present utility model and technology contents for enabling, refers to below in connection with detailed description of the present utility model and accompanying drawing, but appended accompanying drawing only provides reference and use is described, be not used for this utility model is any limitation as.

Accompanying drawing explanation

Fig. 1 is the assembling schematic diagram of the embodiment one of high frequency connectors of the present utility model；

Fig. 2 is the decomposing schematic representation of the embodiment one of high frequency connectors of the present utility model；

Fig. 3 is the exploded partial cutaway view of the embodiment one of high frequency connectors of the present utility model；

Fig. 4 is the side view of Fig. 3；

Fig. 5 is the local assembling view of the embodiment one of high frequency connectors of the present utility model；

Fig. 6 is the partial sectional view of the embodiment two of high frequency connectors of the present utility model；

Fig. 7 is the partial sectional view of the embodiment three of high frequency connectors of the present utility model；

Fig. 8 is the side view cutaway drawing of the embodiment four of high frequency connectors of the present utility model.

[description of reference numerals]

1,1 ', 1 ", 1 " ': high frequency connectors

10: insulating body

11: the first fixed parts

12: body connecting portion

13: the second fixed parts

14: position limiting structure

S: slot

S1: the first socket

S2: the second socket

S3: body socket

20: lid

201: clamping part

201 ': pin-jointed structure

21: location structure

22: dodge hole

30: connect terminal

31: the first arms

311: hook part

31a: outer side edges

32: the second arms

321: contact site

32a: outer side edges

33: connecting portion

33a: the first outer side edges

33b: the second outer side edges

33c: the first connects side

33d: the second connects side

331: holding section

34: perforation

SP: grafting space

L: grafting direction

D1, D2, D3, D4, D5, D6: distance

Detailed description of the invention

The embodiment of high frequency connectors of the present utility model is described below by specific instantiation, and those skilled in the art can be understood other advantages of the present utility model and technique effect easily by content disclosed in this specification.This utility model is implemented also by other different instantiations or is applied, and the every details in this specification may be based on different viewpoints and application, carries out various modification and change under not departing from spirit of the present utility model.Additionally accompanying drawing of the present utility model is only simple declaration, not describes according to actual size, and namely unreacted goes out the actual size constituted of being correlated with, and hereby illustrates.Following embodiment is for further describing viewpoint of the present utility model, but is not to limit category of the present utility model anyways.

Embodiment one

Seeing also Fig. 1 to Fig. 5, it is the schematic diagram of embodiment one of high frequency connectors of the present utility model.What first illustrate is, in following description, indication platypelloid type electric-conductor is flexible printed wiring board (FlexiblePrintedCircuit, FPC), soft circuit board or the transmission line such as flexible flat cable (FlexibleFlatCable, FFC).As shown in Figure 1 to Figure 3, high frequency connectors 1 include insulating body 10, lid 20 and multiple connection terminal 30.Insulating body 10 includes multiple slot S, described slot S interval and being arranged side by side in insulating body 10, and the side exposing to insulating body 10 at least partially of described slot S.Insulating body 10 is adjacent to described slot S place, is formed with a grafting space S P, used by plugging for platypelloid type electric-conductor.Lid 20 is hubbed at insulating body 10 and exposes the side having described slot S, and optionally covers the described slot S exposed；That is, lid 20 according to user demand, relatively can rotate to the direction away from insulating body 10 or close insulating body 10.

When lid 20 correspondence covers described slot S, have between lid 20 with the part exposing the insulating body 10 having slot S and the grafting space S P gap being connected；In practical application, lid 20 can when insulating body 10 is not inserted with platypelloid type electric-conductor (not shown), rotate to the direction away from insulating body 10, and when platypelloid type electric-conductor is plugged in insulating body 10, rotate to insulating body 10 direction, and assist to make platypelloid type electric-conductor be stably fixed on insulating body 10.In practical application, the external form of insulating body 10 and lid 20 and the mode of pivot joint each other thereof, it is not limited to shown in figure, can be changed according to demand.Multiple connection terminals 30 can be correspondingly arranged in described slot S along a grafting direction L, and respectively connect terminal 30 expose in this grafting space S P at least partially, be used for contacting with platypelloid type electric-conductor.

Furthermore, it is understood that as shown in Figures 3 and 4, insulating body 10 definition has one first fixed part 11, body connecting portion 12 and one second fixed part 13.First fixed part 11 is connected with the second fixed part 13 by body connecting portion 12, and the first fixed part 11 and the second fixed part 13 are arranged relative to one another, and is formed with a grafting space S P between it is relative to each other whereby.Each slot S correspondence of insulating body 10 is arranged in the part of the first fixed part 11, body connecting portion 12 and the second fixed part 13, is respectively defined as one first socket S1, a body socket S3 and the second socket S2；Certainly, defined in each slot S the first socket S1, the second socket S2 and body socket S3 is connected with each other logical.First fixed part 11 is along the length of grafting direction L, less than second fixed part 13 length along this grafting direction L, it is arranged in the second socket S2 at least some of of the second fixed part 13, covered by the first fixed part 11, and the remainder of the second socket S2 of the second fixed part 13, then it is expose to insulating body 10.

Lid 20 is articulated in the first fixed part 11 of insulating body 10, and optionally rotates to the second fixed part 13 direction, is used for assisting the platypelloid type electric-conductor being inserted in grafting space S P to be firmly arranged at insulating body 10.It is worth mentioning that, incorporated by reference to Fig. 2, the two ends of lid 20 can be respectively formed with a location structure 21 (only to demonstrate one of them in figure, another location structure 21 can be formed at the position that lid 20 other end is corresponding), insulating body 10 can be have two position limiting structures 14 (only showing one of them position limiting structure 14 in figure, the position that the other end that another position limiting structure 14 can be disposed on insulating body 10 is corresponding) corresponding to described location structure 21.Lid 20 rotates to the second fixed part 13 direction, and when correspondence covers described second socket S2 a part of, the location structure 21 of lid 20 can be mutually clamped by the corresponding position limiting structure 14 with insulating body 10, makes lid 20 firmly be arranged on insulating body 10 whereby.In practical application, described location structure 21 can be disposed on the two ends of lid 20, and the position of vicinity drive-connecting shaft (not shown), the position limiting structure 14 of insulating body 10 then can be correspondingly arranged in the surface of two ends sidewall (not shown, it is the component being used for connecting the two ends of the first fixed part 11 and the second fixed part 13).

As shown in Figures 3 to 5, respectively connect terminal 30 structure substantially in the form of sheets, and each connects terminal 30 definition and has one first arm 31,1 second arm 32 and a junction 33.First arm 31 is connected with connecting portion 33 with one end of the second arm 32, and the first arm 31 and the second arm 32 approximately opposite each other should ground arrange, and the spacing distance between each first arm 31 and its second corresponding arm 32, correspond roughly to the grafting space S P formed between the first fixed part 11 and the second fixed part 13.In preferred embodiment, each the first arm 31 connecting terminal 30 and the second arm 32 are respectively along the length of grafting direction L, it is possible to be roughly the same.

It is worth mentioning that, the end (one end away from connecting portion 33) of the first arm 31 of each connection terminal 30, a hook part 311 can have been extended to form to the direction of grafting space S P, it is used for assisting to make connection terminal 30 stably be arranged in insulating body 10, in practical application, lid 20 can correspond to described slot S and have multiple clamping part 201, respectively this clamping part 201 corresponding and each can be connected the mutual hook in hook part 311 of terminal 30, and makes connection terminal 30 firmly be arranged in its corresponding slot S.And, the end (one end away from connecting portion 33) of the second arm 32 of each connection terminal 30, direction to grafting space S P has extended to form a contact site 321, its conducting terminal being used for platypelloid type electric-conductor contacts with each other, namely, when each connection terminal 30 is correspondingly arranged in slot S, the contact site 321 of each the second arm 32 connecting terminal 30 is to expose to slot S, and correspondence exposes to outside insulating body 10, contacting with each other by the corresponding conducting terminal with platypelloid type electric-conductor.

Be formed with a perforation 34 in the connecting portion 33 of each connection terminal 30 (is connect terminal 30 for each to have a perforation 34 in the present embodiment, but it is not limited to this, each terminal 30 that connects can also be have plural perforation 34), whereby, user can by adjusting the differential characteristic impedance (Zdiff) of the size of perforation 34 and corresponding adjustment connection terminal 30；Specifically, when high frequency connectors of the present utility model are as being used for the high-frequency signal transmitting 1.75GHz～7GHz, arranged by the perforation 34 of each connection terminal 30, effectively the differential characteristic impedance connecting terminal can be adjusted to 75～115 Ω, the impedance matching of high frequency connectors 1 and conventional transmission line (resistance value is 100 Ω) can be effectively promoted whereby, and then the overall transfer usefulness of high frequency connectors 1 can be effectively promoted.In the present embodiment figure, the external form of the perforation 34 of depicted, is only a wherein exemplary aspect, and in practical application, perforation 34 can be changed according to demand, for instance can also be circle, ellipse, rectangle etc..

About the restrictive condition of the perforation 34 of each connection terminal 30, illustrate as follows；Refer to Fig. 4, the side that two opposite faces of the connecting portion 33 of each connection terminal 30 are arranged is defined as one first outer side edges 33a and one second outer side edges 33b, and the side that two other opposite face of connecting portion 33 is arranged then is defined as one first connection side 33c and one second and connects side 33d；In preferred embodiment, a part of first outer side edges 33a can be substantially flush with the one first arm outer side edges 31a (side away from grafting space S P) of the first arm 31, and a part of the second outer side edges 33b can be substantially flush with the one second arm outer side edges 32a (side away from grafting space S P) of the second arm 32.

In preferred embodiment, the beeline on the border of the beeline on the border of the first outer side edges 33a and perforation 34 and the second outer side edges 33b and perforation 34 can be no less than 0.12 millimeter, and first connect side 33c and the second connect side 33d respectively with bore a hole 34 the beeline on border, 0.12 millimeter can also be no less than, make to connect terminal 30 whereby and while adjusting differential characteristic impedance, the mechanical strength connecting terminal 30 itself can be taken into account；That is, the first distance D1 shown in figure, second distance D2, the 3rd distance D3 and the 4th distance D4, it is preferred that it is no less than 0.12 millimeter.

It addition, first connects side 33c with perforation 34 away from the first border being connected side 33c, the distance D5 between both, it is possible to be no more than the body connecting portion 12 width D 6 along grafting direction L；In other words, the body connecting portion 12 of insulating body 10 is greater than the connecting portion 33 width along grafting direction L of each connection terminal 30 along the width D 6 of grafting direction L；When making described connection terminal 30 be correspondingly arranged in described slot S whereby, body connecting portion 12 correspondence can cover described perforation 34, and makes described perforation 34 not expose to outside insulating body 10.

Seeing also Fig. 4 and Fig. 5, each connecting portion 33 connecting terminal 30 can also is that definition has two holding sections 331, and it is formed at the connecting portion 33 position away from the first arm 31 and the second arm 32；In the present embodiment figure, the outer rim distance of each two holding sections 331 connecting terminal 30, it is greater than the distance between the first socket S1 of each slot S and the second socket S2, the described holding section 331 respectively connecting terminal 30 whereby can in time connecting terminal 30 and be correspondingly arranged in slot S, it is resisted against the side of insulating body 10, and then make each connection terminal 30 in the swapping process of platypelloid type electric-conductor, not easily depart from insulating body 10.Certainly, the external form of holding section 331 and number thereof can be based on demand and be changed, and is not limited to shown in figure.

As shown in the figure, when described connection terminal 30 is correspondingly arranged in described slot S, each first arm the 31, second arm 32 connecting terminal 30 and connecting portion 33 are to be correspondingly arranged in the first socket S1 of this slot S corresponding to connection terminal 30, the second socket S2 and body socket S3.Wherein, it is arranged at the connection terminal 30 in each slot S, first arm 31 of its part is to expose to the first fixed part 11, and the end of the first arm 31 corresponding can be arranged in lid 20 dodges in hole 22, and the hook part 311 that the end of the first arm 31 is formed can be that the corresponding clamping part 201 with lid 20 abuts；The second arm 32 connecting terminal 30 can be correspondingly arranged in the second socket S2 at least some of, the remainder of the second socket S2 can be then correspond to lid 20 to be covered, and contact site 321 correspondence that the end of the second arm 32 is formed exposes to the second socket S2.

Embodiment two

Referring to Fig. 6, it is the sectional view of embodiment two of high frequency connectors of the present utility model.As it can be seen, high frequency connectors 1 ' include insulating body 10, lid 20 and multiple connection terminal 30.About insulating body 10, lid 20 and connect the detailed construction of terminal 30 and detailed annexation to each other is identical with previous embodiment, the present embodiment is different in that with previous embodiment is maximum, the side of lid 20 and the mutual pivot joint of insulating body 10, can be formed with a pin-jointed structure 201 ' (namely corresponding to the buckle portion 201 of previous embodiment indication), and respectively connect the first arm 31 of terminal 30, the hook part 311 that its end is formed, it is possible to be that corresponding this pin-jointed structure 201 ' with lid 20 is connected with each other；That is, in practical application, the connected mode of each the first arm 31 connecting terminal 30 and lid 20, can be changed according to demand, be not any limitation as in this.

Embodiment three

Referring to Fig. 7, it is the sectional view of embodiment three of high frequency connectors of the present utility model.As it can be seen, high frequency connectors 1 " include insulating body 10, lid 20 and multiple connection terminal 30.About insulating body 10, lid 20 and the detailed construction and the detailed annexation to each other thereof that connect terminal 30, identical with previous embodiment, the present embodiment is different in that with previous embodiment is maximum, each the second arm 32 connecting terminal 30 can be based on demand and be formed with plural contact site 321, and is not limited to the form of previous embodiment.

Embodiment four

Referring to Fig. 8, it is the side sectional view of embodiment four of high frequency connectors of the present utility model.As it can be seen, high frequency connectors 1 " ' include insulating body 10, lid 20 and multiple connection terminal 30.About insulating body 10, lid 20 and the detailed construction and the detailed annexation to each other thereof that connect terminal 30, identical with previous embodiment, the present embodiment is different in that with previous embodiment is maximum, and each terminal 30 that connects can be have plural perforation 34 according to demand.Certainly, plural perforation 34 to each other position is set, it is possible to the demand of being based on is designed, for instance can be that two perforation 34 are disposed adjacent to each other, or arrange abreast each other；It addition, the size of two perforation 34 also according to changes in demand, can be not limited to formed objects.

The foregoing is only preferably possible embodiments of the present utility model, not thereby limit to protection domain of the present utility model, the equivalence techniques change that therefore every utilization this utility model description and accompanying drawing content are done, it is both contained in protection domain of the present utility model.

Claims (10)

1. high frequency connectors, it is applicable to connect a platypelloid type electric-conductor, it is characterised in that these high frequency connectors include:

One insulating body, it includes and multiple side by side and spaced slot, the side exposing to this insulating body at least partially of described slot and are adjacent to described slot place in this insulating body and are formed with a grafting space, is used for plugging for this platypelloid type electric-conductor；

One lid, what it was hubbed at this insulating body exposes the side having described slot, covers to this lid property of can select that described slot, and when this lid correspondence covers described slot, this lid and this insulating body expose between the part having slot, have the gap being connected with this grafting space；And

Multiple connection terminals, respectively this link sub-definite has one first arm, one second arm and a junction, and this first arm is connected with this connecting portion with one end of this second arm, and this first arm and this second arm are arranged relative to one another；Respectively this connecting portion of this connection terminal is formed with at least one perforation, and can the corresponding differential characteristic impedance adjusting this connection terminal；Described connection terminal is correspondingly arranged in described slot, and respectively this second arm expose to its this corresponding slot at least partially, and can corresponding contact with the conducting terminal of this platypelloid type electric-conductor.

2. high frequency connectors as claimed in claim 1, it is characterized in that, the definition of this insulating body has one first fixed part, one second fixed part, one body connecting portion and a position limiting structure, this first fixed part is connected with this second fixed part by this body connecting portion and arranges relative to one another, this first fixed part is along the length in a grafting direction, less than this second fixed part length along this grafting direction, this lid is hubbed at this first fixed part, and this lid corresponding can cover at least some of of this second fixed part, and this lid correspondence is when covering this second fixed part, one location structure of this lid is corresponding to be mutually clamped with this position limiting structure.

3. high frequency connectors as claimed in claim 2, it is characterized in that, being formed at respectively this slot of this insulating body, correspondence is positioned at the part of this first fixed part, this second fixed part and this body connecting portion, is respectively defined as one first socket, one second socket and a body socket；When described connection terminal corresponding inserted is in described slot, respectively this first arm of this connection terminal, this second arm and this connecting portion correspondence are arranged in this first socket of its this corresponding slot, this second socket and this body socket, and be arranged in respectively this first socket the first arm expose to this first fixed part at least partially.

4. high frequency connectors as claimed in claim 3, it is characterised in that expose to the first arm of respectively this first fixed part, a corresponding mutual pivot joint of pin-jointed structure with this lid.

5. high frequency connectors as claimed in claim 3, it is characterised in that this lid has multiple dodges hole, when this lid correspondence covers this second fixed part, exposes to the first arm of respectively this first fixed part, correspondence be arranged in described in dodge hole.

6. high frequency connectors as claimed in claim 2, it is characterized in that, this body connecting portion is along the width in this grafting direction, it is not less than the connecting portion width along this grafting direction of respectively this connection terminal, and described connection terminal is when being correspondingly arranged in described slot, this body connecting portion correspondence covers described perforation, and described perforation does not expose to this insulating body.

7. high frequency connectors as claimed in claim 2, it is characterized in that, respectively this connecting portion of this connection terminal there is also defined two holding sections, the outer rim distance of these two holding sections, more than the distance between the first socket and second socket of respectively this slot, and described connection terminal is when being correspondingly arranged in described slot, respectively this holding section exposes to this slot that it is corresponding, and correspondence is resisted against the side of this insulating body.

8. high frequency connectors as claimed in claim 1, it is characterised in that respectively this link attached bag contains this perforation plural.

9. the high frequency connectors as according to any one of claim 1 to 8, it is characterized in that, the side that respectively two opposite faces of the connecting portion of this connection terminal are arranged, it is respectively defined as one first outer side edges and one second outer side edges, respectively this first arm of this connection terminal is defined as one first arm outer side edges away from a side of this second arm, respectively this second arm of this connection terminal is defined as one second arm outer side edges away from a side of this first arm, respectively at least some of of this first outer side edges of this connection terminal flushes with this first arm outer side edges, and at least some of of this second outer side edges of each this connection terminal flushes with this second arm outer side edges；Wherein, beeline between part that respectively this first outer side edges of this connection terminal flushes with this first arm outer side edges and the border of this perforation is not less than 0.12 millimeter, and the beeline between part that respectively this second outer side edges of this connection terminal flushes with this second arm outer side edges and the border of this perforation is not less than 0.12 millimeter.

10. high frequency connectors as claimed in claim 9, it is characterized in that, the side that respectively another two opposite faces of group of this connecting portion of this connection terminal are arranged, being respectively defined as one first connection side and one second and connect side, respectively this first connection side of this connection terminal is connected with this first arm and this second arm；Wherein, respectively the beeline between this first connection side of this connection terminal and the border of this perforation is not less than 0.12 millimeter, and respectively the beeline between this second connection side of this connection terminal and the border of this perforation is not less than 0.12 millimeter.