CN203225397U

CN203225397U - Stack-type structure of USB connector

Info

Publication number: CN203225397U
Application number: CN 201320102144
Authority: CN
Inventors: 黎光善; 林昱宏; 钟轩禾
Original assignee: Kuang Ying Computer Equipment Co Ltd
Current assignee: Kuang Ying Computer Equipment Co Ltd
Priority date: 2013-03-06
Filing date: 2013-03-06
Publication date: 2013-10-02
Anticipated expiration: 2023-03-06

Abstract

The utility model is a stack-type structure of a USB connector, and the structure mainly comprises a first insulated colloid, at least a second insulated colloid which is stacked on the first insulated colloid, plural sets of terminals which are disposed on the first insulated colloid and the second insulated colloid, and a shielding housing which coats and combines the first insulated colloid and the second insulated colloid. Based on the above structure, the second insulated colloid is stacked on the first insulated colloid, and the form of the shielding shell is changed with the help of the bending of the all-in-one shielding shell. Then the first insulated colloid and the second insulated colloid are coated with the shielding shell. By utilizing the above design and assembly mode, achieved is practical progressiveness, including that radio interference is reduced, that the cost is reduced, and that assembly and maintenance are convenient.

Description

The structure of stack USB connector

Technical field

The utility model is for providing a kind of structure of stack USB3.0 connector, refer in particular to a kind ofly reduce radio interference, cost reduces and the structure of stack USB3.0 connector is easily keeped in repair in assembling.

Background technology

At present, the utilization of connector is very extensive, comprises the connector of USB etc. in one's power, is that USB3.0 connector aspect then is continuous improvement, progress, and has increased its transmission speed simultaneously.

General USB stacked structure on the market, because of structure Design, make a port need use two groups of terminal group, and the combination because of the mating terminals group, be all the two groups of insulation in port colloid on causing using, the mode that makes up for three-member type in the assembling of shield shell by mutual clip combination, is coated on the outside of this USB connector in addition.

Yet the stacked structure of above-mentioned existing USB connector waits to improve for having following point and disappearance really when using:

One, each port all need use two groups of terminal group and two groups of insulation colloids, and the cost that causes making promotes, and the inconvenience in the assembling maintenance.

Two, its shield shell is that three-member type or multi-piece type assemble, and the difficulty of manufacturing process is promoted, so material can't take full advantage of, leads being set to this lifting.

Three, with due to above-mentioned structure, make each port that the problem of radio interference all be arranged, cause the inconvenience in the use.

The utility model content

Main purpose of the present utility model is to provide a kind of structure of stack USB3.0 connector, be arranged at one first insulation colloid or one second insulation colloid by a terminal group correspondence, after this colloid that again this first insulation colloid and second insulated piles up to arrange and mutually combines, solve the problem that the existing existing cost of USB stacked structure is too high, assemble inconvenient maintenance and radio interference, reach reduction radio interference, cost reduction and assembling and keep in repair practical improvement easily; By integrated shield shell, and in the plural kink of last formation, its bending is changed the external form form, then coat and be arranged on the first insulation colloid and the second insulation colloid, solve the existing multi-piece type of existing shield shell and make the problem that last material can't effectively use, reach the practical improvement that reduces cost.

For reaching above-mentioned purpose, this creation primary structure comprises plural terminals group, one first insulation colloid, at least one second insulation colloid and shield shell, those terminal group are located at respectively on one first insulation colloid and at least one second insulation colloid, and those second insulation colloids pile up and are arranged on this first insulation colloid, and be formed with the kink that plural number provides bending forming on this shield shell, by coating behind the bending forming in conjunction with this first insulation colloid and this second insulation colloid; By above-mentioned structure, one terminal group correspondence is arranged at the design of one first insulation colloid or one second insulation colloid, can effectively reduce the cost that it is made, and by first the insulation colloid and second the insulation colloid pile up setting, reduce the degree that every port is subjected to radio interference, improve its operating efficiency, and shield shell is by the bending forming of kink, change its form and coat combination with the first insulation colloid and the second insulation colloid, in the middle of the design that is formed in one because of shield shell, material is effectively utilized, significantly saving material reduces cost, and in follow-up assembling and upward degree of difficulty reduction of maintenance, by above-mentioned structure and mode, reach the utility model and reduce radio interference, cost reduces and advantage is easily keeped in repair in assembling.

The utility model is the structure of stack USB connector, mainly comprises:

One first insulation colloid;

At least one second insulation colloid, those second insulation colloids pile up and are arranged on this first insulation colloid, and wherein this second insulation colloid includes one first colloid and second colloid of being combined with the mutual clip of this first colloid;

One coats the shield shell in conjunction with this first insulation colloid and those second insulation colloids.

The utility model is a kind of structure of stack USB3.0 connector, mainly comprises:

One is arranged at the insulation colloid group that this first insulation second on colloid insulation colloid is formed by one first insulation colloid and at least one piling up, and this insulation colloid group is combined with a shield shell in outer coating, and this insulation colloid group is provided with the plural terminals group, and this terminal group comprises:

One is located at the first difference signal transmission conductor group on this insulation colloid group, and this first difference signal transmission conductor group, one end place forms one and is the flat first difference signal contact site;

One is located on this insulation colloid group and is positioned at the second difference signal transmission conductor group of this first difference signal transmission conductor group, one side, and this second difference signal transmission conductor group, one end place forms one and is the flat second difference signal contact site;

One is located on this insulation colloid group and the first ground connection transmission conductor between this first difference signal transmission conductor group and this second difference signal transmission conductor group, and this first ground connection transmission conductor, one end place forms one and is the flat first ground connection contact site;

One is located on this insulation colloid group and the first signal transmission conductor between this first difference signal transmission conductor group and this first ground connection transmission conductor, this first signal transmission conductor, one end place formation one is the first signal contact site of elastic bending shape, and this first signal contact site is in the place, rear of this first difference signal contact site;

One is located on this insulation colloid group and the power delivery conductor between this first difference signal transmission conductor group and this first signal transmission conductor, this power delivery conductor one end place formation one is the power supply contact site of elastic bending shape, and this power supply contact site is in the place, rear of this first difference signal contact site;

One is located on this insulation colloid group and the second signal transmission conductor between this second difference signal transmission conductor group and this first ground connection transmission conductor, this second signal transmission conductor, one end place formation one is the second signal contact site of elastic bending shape, and this second signal contact site is in the place, rear of this second difference signal contact site;

One is located on this insulation colloid group and the second ground connection transmission conductor between this second difference signal transmission conductor group and this second signal transmission conductor, this second ground connection transmission conductor, one end place formation one is the second ground connection contact site of elastic bending shape, and this second ground connection contact site is in the place, rear of this second difference signal contact site.

One is located at the first difference signal transmission conductor group on this insulation colloid group, and an end place of this first difference signal transmission conductor group forms first a difference signal weld part with the combination of surface attaching (SMT) mode;

One is located on this insulation colloid group and is positioned at the second difference signal transmission conductor group of this first difference signal transmission conductor group, one side, and this second difference signal transmission conductor group, one end place forms one and attaches the second difference signal weld part of (SMT) mode combination with the surface;

One is located on this insulation colloid group and the first ground connection transmission conductor between this first difference signal transmission conductor group and this second difference signal transmission conductor group, and this first ground connection transmission conductor, one end place forms first a ground connection weld part with (DIP) mode of the setting combination of pegging graft;

One is located on this insulation colloid group and the first signal transmission conductor between this first difference signal transmission conductor group and this first ground connection transmission conductor, and this first signal transmission conductor, one end place forms the first transmission weld part that a grafting arranges the combination of (DIP) mode;

One is located on this insulation colloid group and the power delivery conductor between this first difference signal transmission conductor group and this first signal transmission conductor, and this power delivery conductor one end place forms the power supply weld part that a grafting arranges the combination of (DIP) mode;

One is located on this insulation colloid group and the second signal transmission conductor between this second difference signal transmission conductor group and this first ground connection transmission conductor, and this second signal transmission conductor, one end place forms the second signal weld part that a grafting arranges the combination of (DIP) mode;

One is located on this insulation colloid group and the second ground connection transmission conductor between this second difference signal transmission conductor group and this second signal transmission conductor, and this second ground connection transmission conductor, one end place forms the second ground connection weld part that a grafting arranges the combination of (DIP) mode.

One first insulation colloid;

At least one second insulation colloid that is arranged on this first insulation colloid that piles up;

Plural terminals group, those terminal group are located at respectively on this first insulation colloid and the second insulation colloid, and those terminal group are provided with a base portion, the corner portion of at least one downward bending of formation on this base portion.

One first insulation colloid;

One shield shell, this shield shell is one-body molded to be made, and is formed with plural kink on this shield shell, by the bending cooperation of those kinks, makes this shield shell form a form that coats in conjunction with this first insulation colloid and this second insulation colloid.

At least one first insulation colloid;

At least one terminal group of being located on this first insulation colloid, this terminal group comprises a power delivery conductor and one second ground connection transmission conductor, this power delivery conductor one end place forms the power supply weld part that a grafting arranges the combination of (DIP) mode, and this second ground connection transmission conductor, one end place forms the second ground connection weld part that a grafting arranges the combination of (DIP) mode, and the width of this power supply weld part and this second ground connection weld part is 0.8 millimeter (mm);

One coats the shield shell that is incorporated into this first insulation colloid.

Advantage of the present utility model is:

One, by the stack manner of the first insulation colloid and the second insulation colloid, can reach and reduce the radio interference practical improvement.

Two, be arranged at the mode of one first insulation colloid or one second insulation colloid by a terminal group, compare with an existing terminal two groups of glue cores of need arranging in pairs or groups, the utility model is reached cost and is reduced and assemble and keep in repair practical improvement easily.

Three, by the design of integrated shield shell, compare with existing multi-piece type assembling, except material can fully use, and more convenient in the making assembling, reach the reduction of the utility model cost and assembling and keep in repair practical improvement easily.

Four, by the production method of bending terminal group base portion, existing worker's method is simplified in improvement, makes in the making to be more prone to, and reaches the reduction of the utility model cost and assembling and keeps in repair practical improvement easily.

Description of drawings

Fig. 1 is the stereogram of the utility model first preferred embodiment.

Fig. 2 is the exploded view of the utility model first preferred embodiment.

Fig. 3 is the terminal group exploded view () of the utility model first preferred embodiment.

Fig. 4 is the terminal group exploded view (two) of the utility model first preferred embodiment.

Fig. 5 is the insulation colloid exploded view of the utility model first preferred embodiment.

Fig. 6 is the insulation colloid cutaway view of the utility model first preferred embodiment.

Fig. 7 is the shield shell stereogram of the utility model first preferred embodiment.

Fig. 8 be the utility model first preferred embodiment in conjunction with illustrative view (one).

Fig. 9 be the utility model first preferred embodiment in conjunction with illustrative view (two).

Figure 10 be the utility model first preferred embodiment in conjunction with illustrative view (three).

Figure 11 is the shield shell bending forming schematic diagram () of the utility model first preferred embodiment.

Figure 12 is the shield shell bending forming schematic diagram (two) of the utility model first preferred embodiment.

Figure 13 is the shield shell bending forming schematic diagram (three) of the utility model first preferred embodiment.

Figure 14 is the shield shell bending forming schematic diagram (four) of the utility model first preferred embodiment.

Figure 15 is the shield shell bending forming schematic diagram (five) of the utility model first preferred embodiment.

Figure 16 is the shield shell bending forming schematic diagram (six) of the utility model first preferred embodiment.

Figure 17 is the shield shell bending forming schematic diagram (seven) of the utility model first preferred embodiment.

Figure 18 is the stereogram () of the utility model second preferred embodiment.

Figure 19 is the stereogram (two) of the utility model second preferred embodiment.

Figure 20 is the stereogram (three) of the utility model second preferred embodiment.

Figure 21 is the stereogram of the utility model the 3rd preferred embodiment.

Figure 22 is the stereogram of the utility model the 4th preferred embodiment.

Figure 23 is the stereogram of the utility model the 5th preferred embodiment.

Embodiment

As accompanying drawing 1 to shown in the accompanying drawing 7, be stereogram, exploded view, terminal group exploded view (), terminal group exploded view (two), insulation colloid exploded view, insulation colloid cutaway view and the shield shell stereogram of the utility model first preferred embodiment, by knowing among the figure that the structure of finding out the utility model stack USB3.0 connector comprises:

One first insulation colloid 1;

At least one piling up with this first insulation colloid 1 arranges the second insulation colloid 2, and this second insulation colloid 2 includes one first colloid 21 and one second colloid 22;

Plural terminals group 3, those terminal group 3 are arranged at respectively on this first insulation colloid 1 and this second insulation colloid 2, this terminal group 3 includes one first difference signal transmission conductor group 31, one is positioned at the second difference signal transmission conductor group 32 of these first difference signal transmission conductor group, 31 1 sides, one the first ground connection transmission conductor 33 between this first difference signal transmission conductor group 31 and this second difference signal transmission conductor group 32, one the first signal transmission conductor 34 between this first difference signal transmission conductor group 31 and this first ground connection transmission conductor 33, one power delivery conductor 35 between this first difference signal transmission conductor group 31 and this first signal transmission conductor 34, one at the second ground connection transmission conductor 37 of the second signal transmission conductor 36 between this second difference signal transmission conductor group 32 and this first ground connection transmission conductor 33 and between this second difference signal transmission conductor group 32 and this second signal transmission conductor 36, one end place of the first difference signal transmission conductor group 31 forms and is the flat first difference signal contact site 311, other end place forms first a difference signal weld part 312 with the combination of surface attaching (SMT) mode, one end place of the second difference signal transmission conductor group 32 forms and is the flat second difference signal contact site 321, other end place forms second a difference signal weld part 322 with the combination of surface attaching (SMT) mode, one end place of the first ground connection transmission conductor 33 forms one and is the flat first ground connection contact site 331, other end place forms first a ground connection weld part 332 with (DIP) mode of the setting combination of pegging graft, the one end place formation one of the first signal transmission conductor 34 is the first signal contact site 341 of elastic bending shape, other end place forms the first transmission weld part 342 that a grafting arranges the combination of (DIP) mode, the one end place formation one of power delivery conductor 35 is the power supply contact site 351 of elastic bending shape, other end place forms the power supply weld part 352 that a grafting arranges the combination of (DIP) mode, the second signal transmission conductor, 36 1 end places formation one is the second signal contact site 361 of elastic bending shape, other end place forms the second signal weld part 362 that a grafting arranges the combination of (DIP) mode, the second ground connection transmission conductor, 37 1 end places formation one is the second ground connection contact site 371 of elastic bending shape, and other end place forms the second ground connection weld part 372 that a grafting arranges the combination of (DIP) mode;

One shield shell 4, this shield shell 4 is formed in one and makes, and be formed with plural kink 41 on this shield shell 4, and in being formed with the clamping part 42 that plural number is combined with the second insulation colloid, 2 clips, plural the bending forming fixedly joint portion 43, plural number of the usefulness notch 44 being convenient to process outside being exposed to for the first difference signal weld part 312 and the second difference signal weld part 322, first fixed part 45 and plural fixedly second fixed part 46 of usefulness of plural fixedly usefulness in the side place.

Wherein this first signal contact site 341 is positioned at the place, rear of this first difference signal contact site 311, and this power supply contact site 351 is positioned at the place, rear of this first difference signal contact site 341, and this second signal contact site 361 is positioned at the place, rear of this second difference signal contact site 321, and this second ground connection contact site 371 is positioned at the place, rear of this second difference signal contact site 321 again.

By above-mentioned structure, composition design, be described as follows with regard to use situation of the present utility model now:

As accompanying drawing 8 to shown in the accompanying drawing 17, for be the utility model first preferred embodiment in conjunction with illustrative view (one), in conjunction with illustrative view (two), in conjunction with illustrative view (three), shield shell bending forming schematic diagram (one), shield shell bending forming schematic diagram (two), shield shell bending forming schematic diagram (three), shield shell bending forming schematic diagram (four), shield shell bending forming schematic diagram (five), shield shell bending forming schematic diagram (six) and shield shell bending forming schematic diagram (seven), find out by knowing among the figure, the second insulation colloid 2 piled up in regular turn be incorporated into first insulation colloid 1 top, after this again shield shell 4 is changed form by bending, be inserted in the back by the first insulation colloid 1 and the second insulation colloid, 2 the place aheads and coat combination, after this again its top by substrate 5 is plugged combination, finish the combination assembling of USB3.0 connector; Further specify and shield shell 4 is bent the mode that changes forms herein, the mode that this shield shell 4 is formed in one is made, and in this sentence cooperate four ports shield shell 4 as explaining orally, at first the kink 41 with shield shell 4 the place aheads bends, form the isolating part that separate at each port, after this bigger two sides district of shield shell 4 is bent, last again the door-plate district at shield shell 4 rears is bent, after finishing the change form, the clamping part 42 of central shield shell 4 and the second insulation colloid, 2 clips are combined, make the first insulation colloid 1, the second insulation colloid 2 and shield shell 4 firm combinations, and the bulk strength that more makes shield shell 4 of joint portion 43 promotes, and by first fixed part 45 and second fixed part 46 are inserted on the substrate 5, and because of the design of notch 44, the first difference signal weld part 312 and the second difference signal weld part 322 are exposed to outside the shield shell 4, convenient relevant processing and maintenance.

As accompanying drawing 18,19 and accompanying drawing 20 shown in, stereogram for the utility model second preferred embodiment, find out by knowing among the figure, the structure of present embodiment and above-mentioned roughly the same, its difference is in the structure that is formed in one in the second insulation colloid 2a, be incorporated on the first insulation colloid 1a by the mode of piling up equally, after this and will shield shell 4a bending be incorporated into after changing its form, in the middle of difference be in, this first insulation colloid 1a and the second insulation colloid 2a are set respectively on those terminal group 3a, and the downward bending (towards the direction of substrate 5a) more than those terminal group base portions 30a carries out once, make those terminal group base portions 30a form at least one corner portion 301a, by this processing mode, the difficulty on significantly economization is made realizes that by this cost reduces and advantage is easily keeped in repair in assembling.

As shown in Figure 21, stereogram for the 3rd preferred embodiment of the present utility model, find out by knowing among the figure, present embodiment is the USB connector at a port, as above-mentioned structure, terminal group 3b is arranged on the first insulation colloid 1b, again shield shell 4b bending back is coated combination, in the middle of its difference be in, its power supply weld part 352b and the second ground connection weld part 372b are 0.08 millimeter (mm), by strengthening above-mentioned weld part, reduce its resistance value, reach the advantage that it improves operating characteristic by this.

As shown in Figure 22, stereogram for the 4th preferred embodiment of the present utility model, find out by knowing among the figure, present embodiment is the USB connector at two ports, as above-mentioned structure, its primary structure is all as above-mentioned identical, go up folded one second insulation colloid 2c by the first insulation colloid 1c, again shield shell 4c is coated combination, it is inserted on the substrate 5c again, the wherein different front end isolating parts that go out to be this shield shell 4c are one, and the corresponding second insulation colloid 2c of the position of this clamping part 42c need, and this notch 44c is also different.

As shown in Figure 23, stereogram for the 5th preferred embodiment of the present utility model, find out by knowing among the figure, present embodiment is the USB connector at three ports, as above-mentioned structure, its primary structure is all as above-mentioned identical, go up the folded plural number second insulation colloid 2d by the first insulation colloid 1d, again shield shell 4d is coated combination, it is inserted on the substrate 5d, the wherein different front end isolating parts that go out to be this shield shell 4d are two again, and the position of this clamping part 42d needs the corresponding second insulation colloid 2d, and this notch 44d is also different, reaches the execution mode of different shape.

Claims

1. the structure of stack USB connector is characterized in that comprising:

One first insulation colloid;

2. the structure of stack USB connector according to claim 1 is characterized in that comprising:

3. the structure of stack USB connector according to claim 1, it is characterized in that comprising: one is arranged at the insulation colloid group that this first insulation second on colloid insulation colloid is formed by one first insulation colloid and at least one piling up, and this insulation colloid group is combined with a shield shell in outer coating, and this insulation colloid group is provided with the plural terminals group, and this terminal group comprises:

One is located at the first difference signal transmission conductor group on this insulation colloid group, and an end place of this first difference signal transmission conductor group forms first a difference signal weld part with the combination of surface attaching SMT mode;

One is located on this insulation colloid group and is positioned at the second difference signal transmission conductor group of this first difference signal transmission conductor group, one side, and this second difference signal transmission conductor group, one end place forms one and attaches the second difference signal weld part of SMT mode combination with the surface;

One is located on this insulation colloid group and the first ground connection transmission conductor between this first difference signal transmission conductor group and this second difference signal transmission conductor group, and this first ground connection transmission conductor, one end place formation one arranges the first ground connection weld part of DIP mode combination with grafting;

One is located on this insulation colloid group and the first signal transmission conductor between this first difference signal transmission conductor group and this first ground connection transmission conductor, and this first signal transmission conductor, one end place forms the first transmission weld part that a grafting arranges the combination of DIP mode;

One is located on this insulation colloid group and the power delivery conductor between this first difference signal transmission conductor group and this first signal transmission conductor, and this power delivery conductor one end place forms the power supply weld part that a grafting arranges the combination of DIP mode;

One is located on this insulation colloid group and the second signal transmission conductor between this second difference signal transmission conductor group and this first ground connection transmission conductor, and this second signal transmission conductor, one end place forms the second signal weld part that a grafting arranges the combination of DIP mode;

One is located on this insulation colloid group and the second ground connection transmission conductor between this second difference signal transmission conductor group and this second signal transmission conductor, and this second ground connection transmission conductor, one end place forms the second ground connection weld part that a grafting arranges the combination of DIP mode.

4. the structure of stack USB connector according to claim 1 is characterized in that comprising:

One first insulation colloid;

5. the structure of stack USB connector according to claim 1 is characterized in that comprising:

One first insulation colloid;

6. the structure of stack USB connector according to claim 1 is characterized in that comprising:

At least one first insulation colloid;

At least one terminal group of being located on this first insulation colloid, this terminal group comprises a power delivery conductor and one second ground connection transmission conductor, this power delivery conductor one end place forms the power supply weld part that a grafting arranges the combination of DIP mode, and this second ground connection transmission conductor, one end place forms the second ground connection weld part that a grafting arranges the combination of DIP mode, and the width of this power supply weld part and this second ground connection weld part is 0.8 millimeter;