CN204992012U - Electric connector assembly - Google Patents

Abstract

The utility model relates to an electric connector assembly for be connected to an electron device. Electric connector assembly includes a first connector and a second connector. First connector includes one at least bus interface and one two at least bus interface. One one at least bus interface includes a first butt joint portion and a first electric portion. One two at least bus interface includes a second butt joint portion and the electric portion of a second. The second connector includes one three an at least bus interface and an at least fourth bus interface. First electric portion and form the electrical connection of no plug power between the electric portion of second. One one at least bus interface accords with USB type -C standard.

Description

Electric coupler component

Technical field

The utility model relates to a kind of electric connector field, particularly relates to a kind of electric coupler component for connecting an electronic installation.

Background technology

In prior art, one first electronic installation and a second electronic device form right bus interface assembly by one and are mutually electrically connected.Described first electronic installation is provided with a public bus interface, and described second electronic device is provided with a female bus interface of corresponding described male bus interface.Described public bus interface comprises at least one first pin, and described female bus interface comprises at least one second pin.Can keep electrical connection in order to ensure described first electronic installation and described second electronic device, described at least one first pin and described at least one second pin need physically and to be electrically connected to each other, and therefore create some technical problems.

The first, due to the continuous development of new bus interface (as USBType-C specification), the inside hollow member of described male/female bus interface reduces, and the quantity of described at least one the first/the second pin but increases.Therefore, it is less that the spacing of described at least one the first/the second pin and size become, because of the contact force also corresponding decline between described at least one first pin and described at least one second pin, and described at least one first pin and described at least one second pin are easy to wearing and tearing and cause loose contact, and bus interface (as the Type-C interface) limited amount that general electronic products itself configures.

The second, between described at least one first pin and described at least one second pin, plug/unplug can make decline the useful life of described at least one first pin and described at least one second pin frequently.

3rd, surprisingly pull electrical connection between bus interface as cable, and frequently plug the loose contact problem caused, all may cause reduction in useful life or the transmit error signal of connector.

Therefore, in order to solve the problem, be necessary to provide a kind of electric coupler component, to solve above-mentioned prior art problem.

Utility model content

In view of this, the purpose of this utility model is to provide an electric coupler component, is applicable to be connected to an electronic installation.By the design of electric coupler component of the present utility model, a limited number of bus interface on electronic installation (as Type-C interface) can be solved, be subject to surprisingly pull the electrical connection between bus interface and frequently plug the loose contact caused, the problems such as the service life of connector caused reduction or transmit error signal.

Another object of the present utility model is to provide an electric coupler component, for being connected to an electronic installation.Described electric coupler component comprises one first connector and one second connector.

Described first connector comprises at least one first bus interface and at least one second bus interface.Described at least one first bus interface comprises the first electrical part that first docking section and being docked to described electronic installation is configured at described first docking section.Described at least one second bus interface comprises one second docking section and and is configured at described second docking section and the second electrical part corresponding to the electrical characteristic of described first electrical part.

Described second connector comprises at least one 3rd bus interface and at least one 4th bus interface.Described at least one 3rd bus interface comprises described 3rd docking section and being docked to described second docking section and is configured at described 3rd docking section and the 3rd electrical part corresponding to the electrical characteristic of described second electrical part.Described at least one 4th bus interface comprises described 4th docking section and being docked to described 3rd docking section and is configured at described 4th docking section and the 4th electrical part corresponding to the electrical characteristic of described 3rd electrical part.

The bus interface specifications of described at least one first bus interface and described at least one 4th bus interface is different.The electrical connection of a zero insertion force is formed between described second electrical part and described 3rd electrical part.Described at least one first bus interface meets USBType-C specification.

In a preferred embodiment, described second docking section is provided with one first fixed part, and described 3rd docking section is provided with one second fixed part.Described first fixed part and described second fixed part is utilized to make between described second docking section and described 3rd docking section, to form a separable mechanicalness docking.

In a preferred embodiment, described first fixed part and described second fixed part are corresponding at least one groove and the spheroid of at least one linking springs.

In a preferred embodiment, described first fixed part and described second fixed part are corresponding at least one groove and at least one projection.

In a preferred embodiment, described first fixed part and described second fixed part are at least one magnet of corresponding opposite polarity.

In a preferred embodiment, described at least one 4th bus interface comprises wherein one or more the combination of a power interface, at least one USB interface, at least one HDMI and at least one RJ interface.

In a preferred embodiment, the electrical connection of described zero insertion force is that a magnetic force connects.

In a preferred embodiment, described second electrical part and described 3rd electrical part are respectively conductive pad and shell fragment to form electrical connection.

In a preferred embodiment, described second electrical part and described 3rd electrical part are respectively conductive pad and probe to form electrical connection.

In a preferred embodiment, described at least one second bus interface comprises wherein one or more the combination of a power interface, at least one USB interface, at least one HDMI and at least one RJ interface.

Compared to prior art, connector assembly of the present utility model can solve a limited number of bus interface on electronic installation (as Type-C interface), unexpected pull the electrical connection between bus interface and frequently plug the loose contact caused, and then causes the problems such as the reduction in useful life of connector or transmit error signal.

Accompanying drawing explanation

Fig. 1, illustrates the electric coupler component schematic diagram according to the first preferred embodiment of the present utility model;

Fig. 2, illustrates the end view of the electric coupler component of Fig. 1;

Fig. 3, illustrates the schematic diagram of described first connector of Fig. 1;

Fig. 4, illustrates the electric coupler component schematic diagram according to the second preferred embodiment of the present utility model;

Fig. 5, illustrates the electric coupler component schematic diagram according to the 3rd preferred embodiment of the present utility model;

Fig. 6, illustrates the electric coupler component schematic diagram according to the 4th preferred embodiment of the present utility model;

Fig. 7, illustrates the electric coupler component schematic diagram according to the 5th preferred embodiment of the present utility model;

Fig. 8, illustrates the electric coupler component schematic diagram according to the 6th preferred embodiment of the present utility model;

Fig. 9, illustrates the electric coupler component schematic diagram according to the 7th preferred embodiment of the present utility model;

Figure 10, illustrates the electric coupler component schematic diagram according to the 8th preferred embodiment of the present utility model;

Figure 11, illustrates the electric coupler component schematic diagram according to the 9th preferred embodiment of the present utility model.

Embodiment

The method that the embodiment described in detail referring to accompanying drawing will make advantage of the present utility model and feature and realize these advantages and feature definitely.But, the utility model is not limited to following the disclosed embodiments, the utility model can be implemented in mutually different various mode, following the disclosed embodiments are only for making disclosure of the present utility model more complete, contribute to the utility model person of an ordinary skill in the technical field and can intactly understand category of the present utility model, the utility model defines according to claim.

In specification full text, identical Reference numeral represents identical device assembly.

With reference to 1st ~ 3 figure.Fig. 1, illustrates electric coupler component 100 schematic diagram according to the first preferred embodiment of the present utility model.Fig. 2, illustrates the end view of the electric coupler component 100 of Fig. 1.Fig. 3, illustrates the schematic diagram of described first connector 110 of Fig. 1.Described electric coupler component 100 is for being connected to a butt connector 102 of an electronic installation 101.Described electric coupler component 100 comprises one first connector 110 and one second connector 120.Described first connector 110 comprises at least one first bus interface 111 and at least one second bus interface 112.Described at least one first bus interface 111 comprises one and to be configured at the first electrical part 1112 in described first docking section 1111 for the first docking section 1111 and being docked to described electronic installation 101, to be electrically connected to described butt connector 102.Described at least one second bus interface 112 comprises one second docking section 1121 and and to be configured in described second docking section 1121 and the second electrical part 1122 corresponding to the electrical characteristic (as signal or interface conversion) of described first electrical part 1112.Described second connector 120 comprises at least one 3rd bus interface 121 and at least one 4th bus interface 122.Described at least one 3rd bus interface 121 comprises one and is configured at for described 3rd docking section 1211 and being docked to described second docking section 1121 the 3rd electrical part 1212 also corresponding to the electrical characteristic (as signal or interface conversion) of described second electrical part 1122 in described 3rd docking section 1211.Described at least one 4th bus interface 122 comprises one and is configured at for described 4th docking section 1221 and being docked to described 3rd docking section 1211 the 4th electrical part 1222 also corresponding to the electrical characteristic (as signal or interface conversion) of described 3rd electrical part 1212 in described 4th docking section 1221.The bus interface specifications of described at least one first bus interface 111 and described at least one 4th bus interface 112 is different.In the present embodiment, above-mentioned each electrical part is all conducting terminal, and each above-mentioned docking section is formed on each end of insulating body (sign) of above-mentioned corresponding connector 110,120 all respectively.

Please further refer to Fig. 3, preferably, described at least one first bus interface 111 meets USBType-C specification, therefore is applicable to the butt connector 102 meeting USBType-C specification of any form electronic product (iMac as Apple computer).Ensuing each embodiment, can have the pin of different quantity and different arrangement according to different Demand Design for illustration of described second bus interface 112.

In the preferred embodiment, described second docking section 1121 of described first connector 110 and the second connector 120 and described 3rd docking section 1211 can adopt the corresponding link structure design of various types to form a separable mechanicalness docking; Similar, described first electrical part 1122 also can adopt the corresponding conductive structure of various types to design with described second electrical part 1212.

Ask for an interview Fig. 2, in the preferred embodiment, described first electrical part 1122 is at least one conducting probes, and described second electrical part 1212 is at least one conductive pads, and both attracting magnetic of tool described, and then make the electrical connection between described second electrical part 1122 and described 3rd electrical part 1212 be the electrical connection of formation one zero insertion force, therefore can reduce each electrical part 1122, the loss of 1212, and then the technical problem avoiding loose contact and service life reduction.Once there is above-mentioned technical problem, only need to change described first connector 110 and/or described second connector 120, can follow-up maintenance problem be reduced.

Fig. 4, illustrates electric coupler component 100 schematic diagram according to the second preferred embodiment of the present utility model.This preferred embodiment is with the difference of the first preferred embodiment: described electric coupler component 100 is electrically connected a connector assembly 130 further.Described connector assembly 130 is as the known charging wire being a tool twin adapter, comprise one first joint 131 and one second joint 132, described first joint 131 is for being connected with described 4th bus interface 122, and described second joint 132 is for being electrically connected with an external power source feed end (non-accompanying drawing).Generally speaking, if only use described time known connector assembly 130 to be directly connected to the butt connector 102 of described electronic installation 101, when described twin adapter 131, cable 163 between 132 is pullled by unexpected or hooked then, and with regard to being very easy to make, described electronic installation 101 is also related to be damaged by pulling off; Otherwise, described electric coupler component 100 intermediary of the present utility model is utilized to be connected between described electronic installation 102 and described connector assembly 130, because are separable mechanicalness docking between described second docking section 1121 and described 3rd docking section 1211, this makes when described cable 163 is pullled by unexpected or hook then, can be separated easily between described second docking section 1121 and described 3rd docking section 1211, and then avoid that described electronic installation 101 is related to be damaged by pulling off.

Fig. 5, illustrates electric coupler component 100 schematic diagram according to the 3rd preferred embodiment of the present utility model.This preferred embodiment is with the difference of the first preferred embodiment: described first electrical part 112 is at least one electroconductive elastic sheet.Described second docking section 1121 is provided with one first fixed part 171 and described 3rd docking section 1211 is provided with one second fixed part 172; In this preferred embodiment, described first fixed part 171 and described second fixed part 172 are for corresponding magnet assembly is to form a magnetic fixed mechanism 169, use described first connector 110 of separable connection and described second connector 120.

Fig. 6, illustrates the electric coupler component schematic diagram according to the 4th preferred embodiment of the present utility model.This preferred embodiment is with the difference of the first preferred embodiment: described second electrical part 1122 is at least one conductive pad, and described 3rd electrical part 1212 is at least one conducting probes, be namely exchange with the allocation position of the conducting probe in described first preferred embodiment and conductive pad.

Fig. 7, illustrates electric coupler component 100 schematic diagram according to the 5th preferred embodiment of the present utility model.The difference of this preferred embodiment and the first preferred embodiment is: described at least one 4th bus interface 122 is wherein one or more the combination of 1 ~ x bus interface Conn1 ~ Connx: in this preferred embodiment, and a described 1 ~ x bus interface Conn1 ~ Connx is including but not limited to wherein one or more the combination of a power interface, at least one USB interface, at least one HDMI and at least one RJ interface.Therefore, other electronic installations more can be connected to simultaneously.

Fig. 8, illustrates electric coupler component 100 schematic diagram according to the 6th preferred embodiment of the present utility model.This preferred embodiment is with the difference of the 3rd preferred embodiment: described first fixed part 171 is for being arranged at least one groove of the outer surface of described second docking section 1121, described second fixed part 172 comprises and being arranged in described 3rd docking section 1211 and at least one spheroid 1512 of linking springs 1511, utilizes described first fixed part 171 and described second fixed part 172 to be combined into a mechanical fixed structure 167.When described first connector 110 and described second connector 120 in conjunction with time, described spheroid 1512 can be pushed in described at least one groove 153, and maintain the fixing of described first connector 110 and described second connector 120 according to the elastic force of described spring 1511, this fixed form have too as described in be easy to the advantage that departs from the 3rd preferred embodiment.Certainly, the allocation position of described first fixed part 171 and described second fixed part 172 also can exchange.

Fig. 9, illustrates the electric coupler component schematic diagram according to the 7th preferred embodiment of the present utility model.This preferred embodiment is with the difference of the 6th preferred embodiment: described first fixed part 171 is at least one projection to inner process, described second fixed part 172 is at least one groove, utilizes described first fixed part 171 and described second fixed part 172 to be combined into described mechanical fixed mechanism 167.Certainly, the allocation position of described first fixed part 171 and described second fixed part 172 also can exchange.

Figure 10, illustrates the electric coupler component schematic diagram according to the 8th preferred embodiment of the present utility model.This preferred embodiment is with the difference of the 5th preferred embodiment: without showing described second connector, simultaneously described at least one second bus interface 112 is wherein one or more the combination of 1 ~ x bus interface Conn1 ~ Connx: in this preferred embodiment, a described 1 ~ x bus interface Conn1 ~ Connx including but not limited to a power interface, at least one USB interface, at least one HDMI and at least one RJ interface wherein one or more combines.

Figure 11, illustrates electric coupler component 100 schematic diagram according to the 9th preferred embodiment of the present utility model.This preferred embodiment is with the difference of the 8th preferred embodiment: described first connector 110 also comprises a cable, for extending the distance between described first bus interface 111 and described second bus interface 112, allow user also can connect described electronic installation 101 (see Fig. 1) in place far away.

Although the utility model openly preferred embodiment is as above, non-for limiting the utility model, with the utility model person of ordinary skill in the field, various change and amendment are carried out to the utility model, still in the scope that these claims are claimed.

Claims (10)

1. an electric coupler component, for being connected to an electronic installation, comprising:

One first connector, comprise at least one first bus interface and at least one second bus interface, described at least one first bus interface comprises the first electrical part that first docking section and being docked to described electronic installation is configured at described first docking section, and described at least one second bus interface comprises one second docking section and and is configured at described second docking section and the second electrical part corresponding to the electrical characteristic of described first electrical part;

One second connector, comprise at least one 3rd bus interface and at least one 4th bus interface, described at least one 3rd bus interface comprises the 3rd docking section and being docked to described second docking section and is configured at described 3rd docking section and the 3rd electrical part corresponding to the electrical characteristic of described second electrical part, and described at least one 4th bus interface comprises the 4th docking section and being docked to described 3rd docking section and is configured at described 4th docking section and the 4th electrical part corresponding to the electrical characteristic of described 3rd electrical part; And it is characterized in that, the bus interface specifications of described at least one first bus interface and described at least one 4th bus interface is different, form the electrical connection of a zero insertion force between described second electrical part and described 3rd electrical part, described at least one first bus interface meets USBType-C specification.

2. electric coupler component as claimed in claim 1, it is characterized in that, described second docking section is provided with one first fixed part, described 3rd docking section is provided with one second fixed part, utilizes described first fixed part and described second fixed part to make to form a separable mechanicalness docking between described second docking section and described 3rd docking section.

3. electric coupler component as claimed in claim 2, it is characterized in that, described first fixed part and described second fixed part are corresponding at least one groove and the spheroid of at least one linking springs.

4. electric coupler component as claimed in claim 2, it is characterized in that, described first fixed part and described second fixed part are corresponding at least one groove and at least one projection.

5. electric coupler component as claimed in claim 2, it is characterized in that, described first fixed part and described second fixed part are at least one magnet of corresponding opposite polarity.

6. electric coupler component as claimed in claim 1, is characterized in that, described at least one 4th bus interface comprises wherein one or more the combination of a power interface, at least one USB interface, at least one HDMI and at least one RJ interface.

7. electric coupler component as claimed in claim 1, is characterized in that, the electrical connection of described zero insertion force is that a magnetic force connects.

8. the electric coupler component as described in claim 1, is characterized in that, described second electrical part and described 3rd electrical part are respectively conductive pad and shell fragment to form electrical connection.

9. electric coupler component as claimed in claim 1, is characterized in that, described second electrical part and described 3rd electrical part respectively conductive pad and probe to form electrical connection.

10. electric coupler component as claimed in claim 1, is characterized in that, described at least one second bus interface comprises wherein one or more the combination of a power interface, at least one USB interface, at least one HDMI and at least one RJ interface.