CN202930644U - Module connector - Google Patents

Abstract

The utility model relates to a module connector. The module connector comprises at least two electrical connectors, a metal shell surrounding the outer surfaces of at least two electrical connectors, and one shielding portion respectively provided between at least two adjacent electrical connectors corresponding with the metal shell and used for shielding the two electrical connectors and making the two electrical connectors not communicated with each other. The at least two electrical connectors in the module connector are independently produced and molded by using the existing respective molds without newly opening molds, thus the cost of the product is saved, and moreover the shielding portion is respectively arranged between at least two adjacent electrical connectors in the metal shell, so as to eliminate signal interference between the at least two electrical connectors, and simultaneously the signal interference from the outer connector is also eliminated by the metal shell, so as to facilitate the normal transmission of the signal.

Description

Module connector

Technical field

The utility model relates to a kind of module connector, espespecially a kind of at least two electric connectors that are provided with, the module connector that easily manufactured mutual no signal is disturbed.

Background technology

the patent No. is 200920174383.9 the 26th to 28 section, Chinese patent specification and accompanying drawing 1, 2 have disclosed a kind of module connector, described module connector is provided with an insulating body 10, described insulating body 10 is provided with a base portion 101, extend forward two radiofrequency signal connecting portions 11 and be positioned at its middle data-signal connecting portion 12 from described base portion, be provided with a radio frequency signal terminal 113 in described each radiofrequency signal connecting portion 11, be provided with a plurality of data-signal terminals 122 in described data-signal connecting portion 12, the 28th section the 3rd to 5 row of specification and accompanying drawing 2 are disclosed in peripheral coating of each radio frequency signal terminal 113 and are provided with a ground strip 112, in order to protect radio frequency signal terminal 113, when making it peg graft at the same time radio frequency butt joint and data-signal butt joint, described radio frequency signal terminal 113 is not subject to the interference of adjacent described data-signal terminal 122, avoid simultaneously the interference of 113 pairs of adjacent described data-signal terminals 122 of described radio frequency signal terminal.

Below as can be known, be located at different size in same module connector radiofrequency signal connecting portion and data-signal connecting portion be located on same insulating body, therefore can not utilize the mould of existing radiofrequency signal electric connector and data-signal electric connector makes respectively, need the new mould of redesign can produce radiofrequency signal connecting portion and the data-signal connecting portion that same insulating body is extended with different size, increase cost of goods manufactured.

cause mutual signal to disturb for avoiding in module adjacent described radiofrequency signal connector and described data-signal connector to use simultaneously, coat therein a ground strip around the terminal of a described radiofrequency signal connector and make the mutual signal of its shielding, the signal of eliminating between adjacent described radiofrequency signal connector and described data-signal connector disturbs, but described ground strip can not be eliminated the signal interference from described module connector outside, if when namely being loaded on described module connector in one motherboard, because be equiped with simultaneously much other electric connectors in motherboard, when described module connector described electric connector adjacent with other uses simultaneously, described ground strip is inner because being located at described module connector, and outside without any the maskable element, so just have from other described electric connectors the signal that described module connector causes is disturbed.

Below as can be known, existing module connector needs die sinking manufacturing again, increases cost of goods manufactured and well shielded signal interference.

Therefore, be necessary to design a kind of new module connector to overcome defects.

Summary of the invention

The purpose of this utility model is to provide a kind of module connector that is provided with at least two electric connectors, and it makes simple and convenient and shielded signal disturbs.

To achieve these goals, adopt following technical scheme at the utility model:

A kind of docking module connector comprises:

At least two electric connectors;

One metal shell surrounds described at least two electric connector outer surfaces, and be respectively equipped with a shielding part between described at least two electric connectors corresponding to described metal shell, in order to described at least two electric connectors of shielding, and make between adjacent described at least two electric connectors and be not connected each other.

Further, described shielding part is provided with one first grade of wall.

Further, described shielding part is provided with a second gear wall.

Further, be provided with a junction between described first grade of wall and described second gear wall and be connected described first grade of wall and second gear wall.

Further, described metal shell is by upper metal shell and lower metal shell mix proportion, and described first grade of wall and described second gear wall and described connecting portion are in described upper metal shell, and described connecting portion and described lower metal shell fit tightly.

Further, described upper metal shell be provided with reference column and location hole corresponding to described lower metal shell coordinates and is stable in together.

Further, described electric connector comprises an insulating body, and described insulating body is provided with the buckle pin, and described metal shell correspondence is provided with block button hole and described buckle pin is clasped.

Further, the lateral margin of described buckle pin stretches out and is provided with a hook part, and described hook part and described block button hole hook are held fixing.

Further, described electric connector comprises at least one data-signal electric connector and at least one radiofrequency signal electric connector of being located at described at least one data-signal electric connector side.

compared with prior art, the utility model module connector is that a metal shell surrounds at least two connector outer surfaces formation, described at least two connectors can utilize separately existing mould to make separately moulding, do not need die sinking manufacturing again, easily manufactured saving product development cost, and described metal shell is respectively equipped with a shielding part between described at least two adjacent electric connectors, the signal that described shielding part can be eliminated between described two adjacent electric connectors at least disturbs, metal shell also can be eliminated the signal interference from aerial lug simultaneously, therefore be beneficial to the normal transmission of signal, shielded signal disturbs.

To achieve these goals, can also adopt following technical scheme at the utility model:

A kind of socket module connector is characterized in that, comprising:

Form at least two host cavities in one shield shell, described shield shell, be respectively equipped with a shielding part between each described host cavity, in order to seal each adjacent described host cavity;

The electric connector of at least two different signal transmission standards is contained in respectively in described at least two host cavities.

Further, be provided with at least one radiofrequency signal electric connector and data-signal electric connector in described electric connector.

Further, described shielding part is provided with one first grade of wall.

Further, described shielding part is provided with a second gear wall.

Further, be provided with a junction between described first grade of wall and described second gear wall and be connected described first grade of wall and second gear wall.

Further, described shield shell is by upper shield shell and lower shield shell mix proportion, and described first grade of wall and described second gear wall and described connecting portion are in described upper shield shell, and described connecting portion and described lower shield shell fit tightly.

Further, described upper shield shell be provided with reference column and location hole corresponding to described lower shield shell coordinates and is stable in together.

Further, described electric connector comprises an insulating body, and described insulating body is provided with the buckle pin, and described shield shell correspondence is provided with block button hole and described buckle pin is clasped.

Further, the lateral margin of described buckle pin stretches out and is provided with a hook part, and described hook part and described block button hole hook are held fixing.

Further, the electric connector of described unlike signal transmission standard comprises at least one data-signal electric connector and at least one radiofrequency signal electric connector of being located at described at least one data-signal electric connector side.

Compared with prior art, the utility model module connector is that the electric connector of two different signal transmission standards is contained in the different host cavities of same shield shell and forms.Therefore, the electric connector of two different described signal transmission standards can utilize separately existing mould to make separately moulding, do not need die sinking manufacturing again, easily manufactured saving product development cost, and described shield shell is provided with a shielding part in order to seal each adjacent described host cavity between adjacent described host cavity, the signal that can eliminate between the electric connector of unlike signal transmission standard disturbs, described shield shell also can be eliminated the signal interference from outside electric connector simultaneously, therefore be beneficial to the normal transmission of signal, shielded signal disturbs.

[description of drawings]

Fig. 1 is the utility model three-dimensional exploded view;

Fig. 2 is the utility model three-dimensional combination figure;

Fig. 3 is another visual angle three-dimensional exploded view of the utility model;

Fig. 4 is another visual angle three-dimensional combination figure of the utility model.

The drawing reference numeral explanation of embodiment:

[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.

See also Fig. 1 to Fig. 2, the utility model module connector, it comprises the shield shell 1 that a metal material is made, make separately respectively a data-signal electric connector 2 and one first radiofrequency signal electric connector 3 and the one second radiofrequency signal electric connector 4 of moulding, described shield shell 1 surrounds the outer surface of described data-signal electric connector 2 and described the first radiofrequency signal electric connector 3 and described the second radiofrequency signal electric connector 4.

See also Fig. 1 and Fig. 2, described shield shell 1 comprises shield shell 11 and lower shield shell 12, described upper shield shell 11 and described lower shield shell 12 be common to be coordinated and encloses the second host cavity 14 and the 3rd host cavity 15 that is formed with the first host cavity 13 and is positioned at described the first host cavity 13 both sides, described data-signal electric connector 2 is contained in described the first host cavity 13, and described radiofrequency signal electric connector 3,4 is contained in respectively in described the second host cavity 14 and the 3rd host cavity 15.see also Fig. 1 and Fig. 2, described upper shield shell 11 punching presses are bent to form the first frame oral area 111 and are positioned at the second frame oral area 112 and the 3rd frame oral area 113 of described the first frame oral area 111 both sides, described the second frame oral area 112 and the 3rd frame oral area 113 both sides stretch out respectively one first upside board 114 and one second upside board 115, be respectively equipped with one first location hole 1140 and one second location hole 1150 on described the first upside board 114 and described the second upside board 115, described lower shield shell 12 roughly is tabular, it comprises baseplate part 120 and from 120 liang of lateral bucklings of described baseplate part and outward extending one first downside board 121 and one second downside board 122, described the first downside board 121 and described the second downside board 122 convex with respectively the first reference column 1210 and one second reference column 1220, described the first location hole 1140 is fixed described upper shield shell 11 with described the first reference column 1210 and described the second reference column 1220 respectively with described the second location hole 1150 and is in the same place with described lower shield shell 12, described the first frame oral area 111 and described the second frame oral area 112 and described the 3rd frame oral area 113 coordinate respectively described the first host cavity 13 of formation and described the second host cavity 14 and described the 3rd host cavity 15 with the described baseplate part 120 of described lower shield shell 12.

see also Fig. 1 and Fig. 2, described the first host cavity 13 and be respectively equipped with one first shielding part 16 and a secondary shielding section 17 between described second host cavity 14 of its both sides and described the 3rd host cavity 15, the second retaining wall 162 on described the first shielding part 16 comprises the first retaining wall 161 of being positioned on described the first frame oral area 111 and is connected described the second frame oral area 112 and the first connecting portion 163 that connects described the first retaining wall 161 and described the second retaining wall 162, fourth speed wall 172 on described secondary shielding section 17 comprises the 3rd retaining wall 171 that is positioned on described the first frame oral area 111 and is connected described the 3rd frame oral area 113 and the second connecting portion 173 that connects described the 3rd retaining wall 171 and described the 4th retaining wall 172, described the first connecting portion 163 and described the second connecting portion 173 fit tightly with the described baseplate part 120 of described lower shield shell 12 respectively and consist of described the first shielding part 16 and described secondary shielding section 17.

see also Fig. 2, described the first shielding part 16 can seal adjacent described the first host cavity 13 and described the second host cavity 14 and make between the described data-signal electric connector 2 of accommodating respectively in the inner and described the first radiofrequency signal electric connector 3 and be not connected each other, can avoid signal interference between described data-signal electric connector 2 and described the first radiofrequency signal electric connector 3, described secondary shielding section 17 can seal adjacent described the first host cavity 13 and described the 3rd host cavity 15 and make between the described data-signal electric connector 2 of accommodating respectively in the inner and described the second radiofrequency signal electric connector 4 and be not connected each other, can avoid signal interference between described data-signal electric connector 2 and described the second radiofrequency signal electric connector 4.

See also Fig. 1, described the first frame oral area 111 comprises one first roof 1111, described the first retaining wall 161 be connected the 3rd retaining wall 171 and be positioned at the both sides of described the first roof 1111 and be connected respectively described the first frame oral area 111 of common formation with described the first roof 1111, described the first roof 1111 is provided with two first block button holes 1112 and one first through hole 1113 between described two first block button holes 1112.

See also Fig. 1, described the second frame oral area 112 comprises one second roof 1121, one the first side wall 1122, described the first side wall 1122 is connected with described the first upside board 114, described the second retaining wall 162 be connected the first side wall 1122 and be positioned at the both sides of described the second roof 1121 and be connected respectively described the second frame oral area 112 of common formation with described the second roof 1121, described the second roof 1121 is provided with one second through hole 1123.

See also Fig. 1, described the 3rd frame oral area 113 comprises one the 3rd roof 1131, one second sidewall 1132, described the second sidewall 1132 is connected with described the second upside board 115, described the 4th retaining wall 172 be connected the second sidewall 1132 and be positioned at the both sides of described the 3rd roof 1131 and be connected respectively described the 3rd frame oral area 113 of common formation with described the 3rd roof 1131, described the 3rd roof 1131 is provided with a third through-hole 1133.

see also Fig. 1 and Fig. 2, the described data-signal electric connector 2 of making separately moulding comprises one first insulating body 20 and plural number the first conducting terminal 21 of being located in described the first insulating body 20, described the first insulating body 20 is contained in described the first host cavity 13, described the first insulating body 20 is provided with one first projection 22 with described the first through hole 1113 corresponding positions, described the first projection 22 is fixed with described the first through hole 1113, described the first insulating body 20 is provided with two first buckle pin 23 with described two first block button hole 1112 corresponding positions, the lateral margin of described the first buckle pin 23 stretches out and is provided with one first hook part 231, described two first buckle pin 23 coordinate with described two first block button holes 1112 respectively, described the first hook part 231 hooks with described the first block button hole 1112 and holds.

See also Fig. 1 and Fig. 2, described the first radiofrequency signal electric connector 3 of making separately moulding comprises one second insulating body 30 and the second conducting terminal 31 of being located in described the second insulating body 30, described the second insulating body 30 is contained in described the second host cavity 14, described the second insulating body 30 is provided with one first projection 32 with described the second through hole 1123 corresponding positions, and described the first projection 32 is fixed with described the second through hole 1123.

See also Fig. 1 and Fig. 2, described the second radiofrequency signal electric connector 4 of making separately moulding comprises one the 3rd insulating body 40 and the 3rd conducting terminal 41 of being located in described the 3rd insulating body 40, described the 3rd insulating body 40 is contained in described the 3rd host cavity 15, described the 3rd insulating body 40 is in being provided with one second projection 42 with described third through-hole 1133 corresponding positions, and described the second projection 42 is fixed with described third through-hole 1133.

see also Fig. 3 and Fig. 4, the bottom of described the first insulating body 20 is provided with two second projections 24, be provided with two second buckle pin 25 between described two second projections 24, the lateral margin of described the second buckle pin 25 stretches out and is provided with one second hook part 251, the described baseplate part 120 of described lower shield shell 12 is provided with two fourth holes 1211 with described two second projection 24 corresponding positions, described two fourth holes 1121 coordinate respectively with described two second projections 24, the described baseplate part 120 of described lower shield shell 12 is provided with one second block button hole 1212 with described two second buckle pin 25 corresponding positions, described two second buckle pin 25 coordinate simultaneously with described the second block button hole 1212, described the second hook part 251 hooks with described the second block button hole 1212 and holds.

See also Fig. 3 and Fig. 4, described the second insulating body 30 bottoms are provided with two the 3rd buckle pin 33, the lateral margin of described the 3rd buckle pin 33 stretches out and is provided with one the 3rd hook part 331, the described baseplate part 120 of described lower shield shell 12 is provided with one the 3rd block button hole 1213 with described two the 3rd buckle pin 33 corresponding positions, described two the 3rd buckle pin 33 coordinate simultaneously with described the 3rd block button hole 1213, and described the 3rd hook part 331 hooks with described the 3rd block button hole 1213 and holds.

See also Fig. 3 and Fig. 4, described the 3rd insulating body 40 bottoms are provided with two the 4th buckle pin 43, the lateral margin of described the 4th buckle pin 43 stretches out and is provided with one the 4th hook part 431, the described baseplate part 120 of described lower shield shell 12 is provided with one the 4th block button hole 1214 with described two the 4th buckle pin 43 corresponding positions, described two the 4th buckle pin 43 coordinate simultaneously with described the 4th block button hole 1214, and described the 4th hook part 431 hooks with described the 4th block button hole 1214 and holds.

The utility model module connector is not limited to the radiofrequency signal electric connector of the independent manufacturing of difference moulding and the module connector that the data-signal electric connector forms, and can be also the module connectors of the electric connectors composition of at least two the independent manufacturing of other difference moulding.

Compared with prior art, the beneficial effect of the utility model module connector is as follows:

1. described radiofrequency signal electric connector and data-signal electric connector are made separately respectively the described module connector of moulding composition, can utilize respectively existing mould manufacturing separately, do not need die sinking manufacturing again, and easy operation is saved the product development manufacturing cost.

2. the described shield shell made of metal material is provided with a shielding part between described radiofrequency signal electric connector and described data-signal electric connector, each self-enclosedly is not connected each other to make described radiofrequency signal electric connector and described data-signal electric connector, can reach to avoid can avoiding when in module connector, the signal between adjacent connector disturbs disturbing from the signal of outside other electric connectors yet.

3. described shielding part is to be bent to form from described shield shell integrated punching not need to make separately again, and easy operation is saved the product development manufacturing cost.

4. described shield shell is by described upper shield shell and described lower shield shell mix proportion, described radiofrequency signal electric connector and the clamping of described data-signal electric connector is mounted on just consist of a module connector in it, easily manufacturedly simply saves time, and raises the efficiency.

5. described upper shield shell and described lower shield shell are fixed by the described reference column that is stamped to form and described location hole, and operation is simple, raises the efficiency.

6. described the first insulating body and described the second insulating body and described the 3rd insulating body be provided with described buckle pin and described block button hole corresponding to described upper shield shell or described lower shield shell coordinates the location, and described buckle pin outer rim extension is provided with described hook part and described block button hole hook is held, and can more firmly be difficult for breaking away from described shield shell.

Claims (19)

1. a docking module connector, is characterized in that, comprising:

At least two electric connectors;

One metal shell surrounds described at least two electric connector outer surfaces, and be respectively equipped with a shielding part between described at least two electric connectors corresponding to described metal shell, in order to described at least two electric connectors of shielding, and make between adjacent described at least two electric connectors and be not connected each other.

2. docking module connector as claimed in claim 1, it is characterized in that: described shielding part is provided with one first grade of wall.

3. docking module connector as claimed in claim 2, it is characterized in that: described shielding part is provided with a second gear wall.

4. docking module connector as claimed in claim 3 is characterized in that: be provided with a junction between described first grade of wall and second gear wall and be connected described first grade of wall and described second gear wall.

5. docking module connector as claimed in claim 4, it is characterized in that: described metal shell is by upper metal shell and lower metal shell mix proportion, described first grade of wall and described second gear wall and described connecting portion are in described upper metal shell, and described connecting portion and described lower metal shell fit tightly.

6. docking module connector as claimed in claim 5 is characterized in that: described upper metal shell is corresponding with described lower metal shell to be provided with reference column and location hole and to coordinate and be stable in together.

7. docking module connector as claimed in claim 1, it is characterized in that: described electric connector comprises an insulating body, and described insulating body is provided with the buckle pin, and described metal shell correspondence is provided with block button hole and described buckle pin is clasped.

8. docking module connector as claimed in claim 7, it is characterized in that: the lateral margin of described buckle pin stretches out and is provided with a hook part, described hook part and described block button hole hook hold fixing.

9. docking module connector as claimed in claim 1 is characterized in that: described electric connector comprises at least one data-signal electric connector and is located at least one radiofrequency signal electric connector of described at least one data-signal electric connector side.

10. a socket module connector, is characterized in that, comprising:

Form at least two host cavities in one shield shell, described shield shell, establish respectively between each described host cavity

One shielding part is arranged, in order to seal adjacent described each host cavity;

The electric connector of at least two different signal transmission standards is contained in respectively in described at least two host cavities.

11. socket module connector as claimed in claim 10 is characterized in that: be provided with at least one radiofrequency signal electric connector and data-signal electric connector in described electric connector.

12. socket module connector as claimed in claim 10 is characterized in that: described shielding part is provided with one first grade of wall.

13. socket module connector as claimed in claim 12 is characterized in that: described shielding part is provided with a second gear wall.

14. socket module connector as claimed in claim 13 is characterized in that: be provided with a junction between described first grade of wall and second gear wall and be connected described first grade of wall and second gear wall.

15. socket module connector as claimed in claim 14, it is characterized in that: described shield shell is by upper shield shell and lower shield shell mix proportion, described first grade of wall and described second gear wall and described connecting portion are in described upper shield shell, and described connecting portion and described lower shield shell fit tightly.

16. socket module connector as claimed in claim 15 is characterized in that: described upper shield shell is corresponding with described lower shield shell to be provided with reference column and location hole and to coordinate and be stable in together.

17. socket module connector as claimed in claim 10 is characterized in that: described electric connector comprises an insulating body, described insulating body is provided with the buckle pin, and described shield shell correspondence is provided with block button hole and described buckle pin is clasped.

18. socket module connector as claimed in claim 17 is characterized in that: the lateral margin of described buckle pin stretches out and is provided with a hook part, and described hook part and described block button hole hook are held fixing.

19. docking module connector as claimed in claim 10 is characterized in that: the electric connector of described unlike signal transmission standard comprises at least one data-signal electric connector and is located at least one radiofrequency signal electric connector of described at least one data-signal electric connector side.

Images