CN208674438U - Electrical connection module, connector and the electronic equipment of connector - Google Patents
Electrical connection module, connector and the electronic equipment of connector Download PDFInfo
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- CN208674438U CN208674438U CN201821588800.XU CN201821588800U CN208674438U CN 208674438 U CN208674438 U CN 208674438U CN 201821588800 U CN201821588800 U CN 201821588800U CN 208674438 U CN208674438 U CN 208674438U
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Abstract
The disclosure is directed to a kind of electrical connection module of connector, connector and electronic equipments, belong to electroplating technology.The electrical connection module includes function area part, and the function area part is coated with the first nickel coating, the first silvering, the first palladium nickel coating, the first gold plate and the first rhodium alloy coating;First nickel coating is plated on the substrate of the function area part;First silvering is plated in the upper layer of first nickel coating;First palladium nickel coating is plated in the upper layer of first silvering;First gold plate is plated in the upper layer of the first palladium nickel coating;First rhodium alloy coating is plated in the upper layer of first gold plate.The disclosure under the rhodium ruthenium alloy coating in the overlay coating of the electrical connection module functional areas of connector by increasing nickel coating, silvering, palladium nickel coating and gold plate, to effectively improve the resistance to corrosion of the coating entirety of the functional areas of electrical connection module.
Description
Technical field
This disclosure relates to electroplating technology, the in particular to electrical connection module of connector, connector and electronic equipment.
Background technique
With the development of science and technology, the size of the connector in electronic product is smaller and smaller, how effectively to extend company
The corrosion resistance for connecing the electrical connection module in device becomes urgent problem to be solved in electroplating technology.
In the related art, rhodium ruthenium alloy coating usually is plated on the electrical connection module surface layer of connector, is electrically connected with improving
The corrosion resistance of connected components.
Utility model content
The embodiment of the present disclosure provides the electrical connection module, connector and electronic equipment of a kind of connector, the technology
Scheme is as follows:
According to the first aspect of the embodiments of the present disclosure, a kind of electrical connection module for connector is provided, it is described to be electrically connected
Connected components include function area part;
The function area part is coated with the first nickel coating, the first silvering, the first palladium nickel coating, the first gold plate and
One rhodium alloy coating;
First nickel coating is plated on the substrate of the function area part;
First silvering is plated in the upper layer of first nickel coating;
First palladium nickel coating is plated in the upper layer of first silvering;
First gold plate is plated in the upper layer of the first palladium nickel coating;
First rhodium alloy coating is plated in the upper layer of first gold plate;
Optionally, first silvering is fine silver coating or silver alloy layers;
Optionally, the thickness of first nickel coating is at least 50 microinch;
Optionally, the thickness of first silvering is at least 80 microinch;
Optionally, the thickness of the first palladium nickel coating is at least 30 microinch;
Optionally, the thickness of first gold plate is at least 2 microinch;
Optionally, the thickness of the first rhodium alloy coating is at least 10 microinch;
It optionally, also include the second gold plate between first silvering and palladium nickel coating;
Optionally, the thickness of second gold plate is at least 2 microinch;
Optionally, the electrical connection module further includes middle area part and welding section part;
One end of the middle area part is connected with the function area part, the other end of the middle area part with it is described
Welding section part is connected;
It is coated with the second nickel coating, the second palladium nickel coating, third gold on the substrate of the middle area part respectively from inside to outside
Coating and the second rhodium alloy coating;
Third nickel coating and the 4th gold plate are coated with respectively from inside to outside on the substrate of the welding section part;
Optionally, the first palladium nickel coating is identical as the second palladium nickel coating thickness;Alternatively, the first palladium nickel plating
The thickness of layer is greater than the thickness of the second palladium nickel coating.
On the other hand, the disclosure additionally provides a kind of connector, and the connector includes at least one any described electricity
Connection component.
Another aspect, the disclosure additionally provide a kind of electronic equipment, and the electronic equipment includes the company described at least one
Connect device.
The technical solution that the embodiment of the present disclosure provides can include the following benefits:
The first nickel coating is plated outside the substrate of electrical connection module, the first silvering is plated outside the first nickel coating,
The first palladium nickel coating is plated on one silvering, plates the first gold plate on the first palladium nickel coating, the first rhodium is plated on the first gold plate
Alloy layer, by the overlay coating of the electrical connection module functional areas of connector, increasing nickel coating, silvering, the plating of palladium nickel
Layer and gold plate, to effectively improve the resistance to corrosion of the coating entirety of the functional areas of electrical connection module.
It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not
The disclosure can be limited.
Detailed description of the invention
The drawings herein are incorporated into the specification and forms part of this specification, and shows the implementation for meeting the disclosure
Example, and together with specification for explaining the principles of this disclosure.
Fig. 1 be this disclosure relates to a kind of electroplating principle schematic diagram;
Fig. 2 is a kind of electroplated layer structural representation of electrical connection module for connector of one exemplary embodiment of the disclosure
Figure;
Fig. 3 is a kind of electrical connection module structural schematic diagram for connector that one exemplary embodiment of the disclosure is related to;
Fig. 4 is a kind of schematic diagram for connector that the embodiment of the present disclosure is related to;
Fig. 5 is a kind of electro-plating method flow chart for electrical connection module that one exemplary embodiment of the disclosure is related to Fig. 2.
Specific embodiment
Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to
When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment
Described in embodiment do not represent all implementations consistent with this disclosure.On the contrary, they be only with it is such as appended
The example of the consistent device and method of some aspects be described in detail in claims, the disclosure.
In terms of the connector of electronic product, bonder terminal material is aoxidized in order to prevent, reduces contact impedance, Yi Jizeng
Add solderability, wearability, the resistance to electrolysis time of extension etc. of connector, it will usually it is electroplated on the connector manufactured, with
Improve service life and the aesthetic measure of connector.
Plating refers in the salt electrolyte solution containing pre- plating metal, using plated parent metal as cathode, passing through
Point Xie Zuoyong is learned, is deposited preplating metal ion in electrolyte solution in cathode base metal surface, in parent metal table
A kind of method of surface finish of face formation coating.It should be noted that the unit that the disclosure uses thickness of coating is microinch,
That is 1 microinch=1u ".
Referring to FIG. 1, it illustrates this disclosure relates to a kind of electroplating principle schematic diagram.As shown in Figure 1, wherein containing
Power supply 101, electrolytic cell 102, conducting wire 103, negative ions 104 and anode and cathode 105 etc..In cathode zone, electrolytic cell 102
Cation is reacted with the parent metal of cathode, and the corresponding metal of cation is precipitated in cathode base metal surface, forms coating.
It, can be by electrolyte in displacement electrolytic cell 102 or past when coated metal cations deficiency in electrolytic cell 102
Increase the methods of the salts substances containing coated metal cation, the content of Lai Zengjia coated metal cation in electrolytic cell.Its
In, according to the difference of the metallics of coating, the electrolyte in electrolytic cell 102 can be palladium nickel electrolyte, oxidation zinc electrolyte,
Sulfuric acid silver electrolyte and rhodium ruthenium electrolyte etc..
Further, in the plating process, multiple electrolytic cells can be preset, different electricity is held in each electrolytic cell
Liquid, and the sequence according to coating from inside to outside are solved, the substrate to be plated connected on cathode is immersed in the electricity for holding different electrolytes
Xie Chizhong, to successively plate multiple electroplated layers in substrate surface to be plated.
The electroplated layer organization plan that the electrical connection module of connector in the related technology uses, plates rhodium alloy on substrate
The resistance to electrolytic etching effect of coating, the coating that the program provides is undesirable, therefore, reaches needed for enough resistance to electrolytic etching effects
The thickness for the rhodium alloy coating wanted is higher, causes the service life of rhodium ruthenium electrolyte system short, increases electricity to a certain extent
Plate cost.
To solve the problems, such as that above-mentioned the relevant technologies exist, present disclose provides a kind of schemes using 4 layers of electroplated layer, specifically
, the electroplating schemes are as follows: the overlay coating of the electrical connection module of connector, and first layer is nickel coating, nickel coating from inside to outside
Upper plating palladium nickel coating is coated with gold plate on palladium nickel coating, and the outer layer of gold plate is coated with rhodium ruthenium alloy coating.The disclosure passes through above-mentioned
4 layers of electroplating schemes, can be improved the performances such as solderability, oxidative resistance, corrosion stability, wearability and the electric conductivity of coating, simultaneously
The thickness of rhodium ruthenium alloy coating can be reduced.
The disclosure additionally provides a kind of electrical connection module of connector and the electro-plating method of electrical connection module.Please refer to figure
2, it illustrates a kind of structural schematic diagrams of electrical connection module for connector of one exemplary embodiment of the disclosure.This is electrically connected
Connected components include function area part;As shown in Fig. 2, the function area part contains substrate 201, the first nickel coating 202, the first silver medal
Coating 203, the first palladium nickel coating 204, the first gold plate 205 and the first rhodium alloy coating 206.
The plating 202 of first nickel coating is on the substrate 201 of function area part;
First silvering 203 is plated in the upper layer of the first nickel coating 202;
First palladium nickel coating 204 is plated in the upper layer of the first silvering 203;
First gold plate 205 is plated in the upper layer of the first palladium nickel coating 204;
The plating 206 of first rhodium alloy coating is on the upper layer of the first gold plate 205.
On the electrical connection module of connector, electroplated layer structure provided by the disclosure will be in above-mentioned 4 layers of electroplating schemes
Nickel coating nickel coating and silvering bilayer coating substitution, outer layer recombinant plate the hard alloy plating of palladium nickel coating and rhodium alloy
Layer, the disclosure provide scheme, by introduce silvering so that the resistance to corrosion of electrical connection module better than only nickel coating,
The electrical connection module of the electroplated structural of palladium nickel coating, gold plate and rhodium alloy coating.
Please refer to table 1, it illustrates this disclosure relates to the electrical connection module shown in Fig. 2 using five layers of coating structure with adopt
With electrolytic experiment result of the electrical connection module of four layers of coating structure in identical electrolyte.
Table 1
As shown in table 1, it on the functional areas of two identical electrical connection modules, is plated shown in the above-mentioned Fig. 2 of the disclosure respectively
5 layers of electroplated layer, and four not comprising silvering layers of electroplated layer, identical electroplated layer uses identical thickness of coating, by this
The functional areas of two electrical connection modules are immersed in respectively in the first vessel and the second vessel, wherein the first vessel and the second vessel
In be contained with the salt water of same concentrations.To the electrical connection module immersed in two vessel while applying 5v voltage, carries out electrolysis survey
Examination experiment.It is found according to experimental result, after ten minutes, the coating surface being coated on the connector of four layers of electroplated layer starts electricity occur
It solves phenomenon (corrosion phenomenon), and the coating surface being coated on the connector of five layers of electroplated layer comprising silvering ability after 25 minutes
Start Electrolysis (corrosion phenomenon) occur, can be obtained by Experimental comparison results, the anti-corruption of five layers of plating layered scheme of the disclosure
Erosion ability is substantially better than the resistance to corrosion of four layers of electroplated layer.
Wherein, the first silvering added in disclosure scheme can be chemically reacted with the chloride ion in salt water, plated
Layer is internal to generate silver chlorate, increases the tightness in coating between each molecule, plays isolation effect, so that the five of the disclosure
The layer integrally-built corrosion resistance effect of electroplated layer is more preferable.
In conclusion the application is plated by the rhodium ruthenium alloy in the overlay coating of the electrical connection module functional areas of connector
Layer is lower to increase nickel coating, silvering, palladium nickel coating and gold plate, to effectively improve the coating of the functional areas of electrical connection module
Whole resistance to corrosion.
Further, layered scheme is electroplated by above-mentioned five comprising silvering layer, is wanted in the specification of identical resistance to corrosion
It asks down, it is possible to reduce the thickness of outermost layer rhodium alloy coating increases rhodium ruthenium electricity to extend the use time of rhodium ruthenium electrolyte
The access times for solving liquid, reduce electroplating cost to a certain extent.
Referring to FIG. 3, a kind of electrical connection module knot for the connector being related to it illustrates one exemplary embodiment of the disclosure
Structure schematic diagram.Electrical connection module 300 as shown in Figure 3, it comprises functional areas 301, middle area 302, welding section 303, functions
The corresponding coating structure 304 in area, the corresponding coating structure 306 of the corresponding coating structure 305 in middle area and welding section.
I.e. functional areas 301 are electroplated according to its corresponding coating structure 304.
Specifically, plating the first nickel coating outside the substrate of the functional areas of connector 300 301, plated outside the first nickel coating
Upper first silvering plates the first palladium nickel coating outside the first silvering, plates the first gold plate outside the first palladium nickel coating,
The first rhodium alloy coating is plated outside first gold plate.
Optionally, which is fine silver coating or silver alloy layers.
Optionally, the thickness of above-mentioned first nickel coating is at least 50 microinch, and the thickness of above-mentioned first silvering is at least
80 microinch, the thickness of above-mentioned first palladium nickel coating are at least 30 microinch, and the thickness of above-mentioned first gold plate is at least 2 microinch
Very little, the thickness of above-mentioned first rhodium alloy coating is at least 10 microinch.
It optionally, also include the second gold plate between above-mentioned first silvering and the first palladium nickel coating.I.e. above-mentioned first
Before plating the first palladium nickel coating outside silvering, the second gold plate is first plated outside first silvering, outside the second gold plate
The plating step of subsequent plating layer is carried out again.Optionally, the thickness of the second gold plate is at least 2 microinch.
Optionally, which further includes 303 part of 302 part of middle area and welding section.
Wherein, one end of 302 part of middle area is connected with 301 part of functional areas, the other end of 302 part of middle area and weldering
303 part of area is connect to be connected;
It is coated with the second nickel coating, the second palladium nickel coating, the plating of third gold on the substrate of 302 part of middle area respectively from inside to outside
Layer and the second rhodium alloy coating;
Third nickel coating and the 4th gold plate are coated with respectively from inside to outside on the substrate of 303 part of welding section.
I.e. in Fig. 3, middle area 302, welding section 303, the corresponding coating structure 305 in middle area and welding are further comprised
The corresponding coating structure 306 in area.
Specifically, plating the second nickel coating outside the substrate of the middle area of connector 300 302, plated outside the second nickel coating
Upper second palladium nickel coating plates the second gold plate outside the second palladium nickel coating, and the plating of the second rhodium alloy is plated outside third gold plate
Layer.Third nickel coating is plated outside the substrate of the welding section of connector 300 303, and the 4th gold plate is plated outside third nickel coating.
Optionally, above-mentioned first palladium nickel coating is identical as the second palladium nickel coating thickness;Alternatively, the thickness of the first palladium nickel coating
Greater than the thickness of the second palladium nickel coating.
In conclusion the application by plating the first nickel coating outside the substrate of functional areas, plates outside the first nickel coating
First silvering plates the first palladium nickel coating on the first silvering, the first gold plate is plated on the first palladium nickel coating, in the first gold medal
The first rhodium alloy coating is plated on coating.It is plated by the rhodium ruthenium alloy in the overlay coating of the electrical connection module functional areas of connector
Layer is lower to increase nickel coating, silvering, palladium nickel coating and gold plate, to effectively improve the coating of the functional areas of electrical connection module
Whole resistance to corrosion.
Further, by above-mentioned plating layered scheme, under the specification requirement of identical resistance to corrosion, it is possible to reduce outermost
The thickness of layer rhodium alloy coating increases the access times of rhodium ruthenium electrolyte to extend the use time of rhodium ruthenium electrolyte,
Electroplating cost is reduced to a certain extent.
Referring to FIG. 4, a kind of schematic diagram for the connector being related to it illustrates the embodiment of the present disclosure.As shown in figure 4, it is wrapped
Containing at least one above-mentioned electrical connection module.
In addition, one exemplary embodiment of the disclosure also provides a kind of electronic equipment, the electronic equipment include at least one such as
Connector shown in Fig. 4.
Above-mentioned connector can be the connector of a kind of electronic equipment, which can be intelligent terminal, computer
Equipment, electrical equipment, electro mechanical devices and circuit board etc..Wherein, intelligent terminal can be mobile phone, tablet computer or electricity
The mobile terminals such as philosophical works reader;Above-mentioned computer equipment can be the individual calculus such as laptop or stationary computers
Machine, alternatively, computer equipment is also possible to each quasi-controller and server etc..Electrical equipment can be household electrical appliance or quotient
Electrical appliance, for example, electronic equipment can be air-conditioning, refrigerator, television set etc..The connector is also possible to the charging cable of intelligent terminal
Connector and the connector of data line etc..
Specifically, be smart phone with electronic equipment, for connector is the connector on the data line of mobile phone, in the company
It connecing on device, there is multiple above-mentioned electrical connection modules, mobile phone, which can be connected by the connector of data line with power supply, to charge, or
Person is connected with other smart machines (such as PC) by the connector of data line and is carried out data transmission, in routine use
In the process, the connector of data line can inevitably be stained with the sweat or other liquid of user, so that connector is in saltwater environment,
Under the electroplated layer structure of the disclosure, silvering can be reacted with the chloride ion in sweat, and silver chlorate is generated inside coating, be increased
Add the tightness in coating between each molecule, played isolation effect, the resistance to corrosion of connector can be effectively improved,
Extend the service life of connector.
Referring to FIG. 5, it illustrates one exemplary embodiments of the disclosure to be related to a kind of plating side of electrical connection module of Fig. 2
Method flow chart, for the electroplated layer structure for realizing electrical connection module in above-described embodiment, the disclosure also discloses a kind of electrical connection group
The electro-plating method of part, the electrical connection module include function area part, method includes the following steps:
Step 501, plating obtains the first nickel coating on the substrate of function area part;
Step 502, plating obtains the first silvering on the first nickel coating;
Step 503, plating obtains the first palladium nickel coating on the first silvering;
Step 504, plating obtains the first gold plate on the first palladium nickel coating;
Step 505, plating obtains the first rhodium alloy coating on the first gold plate.
It, can be by the full-automatic or automanual equipment in electroplating system by connector for example, in an electroplating system
Electrical connection module be immersed in different immersion plating liquid to connector implement be electroplated, specifically, by the funtion part of electrical connection module
The electroplate liquid that nickel ion is filled in the electroplating pool passed sequentially through fills the electroplate liquid of silver ion, fills the electroplate liquid of palladium nickel ion,
The electroplate liquid for filling gold ion fills the electroplate liquid of rhodium alloy ion, reaches the plating to electrical connection module functional areas position.
Specifically, can in the following manner, reach the electroplated layer knot of the electric connection structure of connector shown in above-mentioned Fig. 3
Structure.
Firstly, by the way that entire electrical connection module is immersed in the electroplating pool for filling nickel ion electroplate liquid, outside connector
Plate the first nickel coating.
Optionally, which further includes middle area part and welding section part;
One end of middle area part is connected with function area part, and the other end of middle area part is connected with welding section part.
Optionally, plating obtains the first nickel coating on the substrate of function area part, including in electrical connection module
Function area part, middle area part and welding section part carry out immersion plating, obtain the second nickel of the first nickel coating, middle area part
Coating and the third nickel coating of welding section part.
When the first nickel coating, the second nickel coating are identical as the thickness of coating of third nickel coating, in above-mentioned electroplating system
Electrical connection module can be integrally immersed in the electroplating pool for filling nickel ion electroplate liquid by full-automatic or automanual equipment, be obtained
First nickel coating, the second nickel coating, third nickel coating.In the plating thickness of the first nickel coating, the second nickel coating and third nickel coating
Degree is different, and the thickness of the first nickel coating is greater than the thickness of the second nickel coating, and the thickness of the second nickel coating is greater than third nickel coating
Thickness when, electrical connection module can be integrally immersed in by the full-automatic or automanual equipment in above-mentioned electroplating system fills nickel
In the electroplating pool of ion-conductance plating solution, third nickel coating is obtained, then functional areas and middle area are immersed in and fill nickel ion electricity
In the electroplating pool of plating solution, the first nickel coating, the second nickel coating are obtained.Wherein, the plating mode of the disclosure is only for example, right
Same coating has the plating mode of different-thickness requirement and is not limited.
Optionally, after plating obtains the first nickel coating, immersion plating is carried out to function area part, obtains the first silvering;
Wherein, the first silvering is fine silver coating or silver alloy layers.
That is, after plating obtains the first nickel coating on the electric connection structure of connector, in above-mentioned electroplating system it is complete from
Function area part on electric connection structure is immersed in the electroplating pool containing silver ion by dynamic or automanual equipment, is carried out to it
Immersion plating, to obtain the first silvering.
Optionally, plating obtain the first silvering after, in electrical connection module function area part and middle area portion
Divide and carry out immersion plating, obtains the second palladium nickel coating of the first palladium nickel coating and middle area part;
Alternatively,
Plating obtain the first silvering after, in electrical connection module function area part and middle area part soak
Plating obtains the second palladium nickel coating of middle area part, and brush plating is carried out on the palladium nickel coating of function area part, obtains the first palladium nickel
Coating.
I.e. after plating obtains the first silvering, functional areas and middle area are immersed in nickel containing palladium again by electroplating system jointly
In the electroplate liquid of ion, wherein if the second palladium nickel coating thickness of middle area is different from the first palladium nickel coating thickness of functional areas,
In the electroplate liquid that functional areas and middle area are immersed in the nickel ion containing palladium jointly, after obtaining the second palladium nickel coating, to functional areas
Brush plating is carried out, the thickness of the second palladium nickel coating of functional areas is plating to the thickness of the first palladium nickel coating.It is specifically for example, if intermediate
Second palladium nickel coating thickness requirement of area part is 5 microinch, and the first palladium nickel coating thickness requirement of function area part is 30
Functional areas and middle area are immersed in the electroplate liquid of the nickel ion containing palladium jointly at this time, plate 5 microinch to connector by microinch
Palladium nickel coating, then to function area part by brush plating, by the second palladium nickel coating thickness brush plating to 30 microinch of function area part
The first palladium nickel coating of very little acquisition, to obtain the first palladium nickel coating of functional areas.It certainly, can also to functional areas the first palladium nickel coating
To obtain (such as in a manner of rack plating, immersion plating etc.) by method for distinguishing, the disclosure is to this and is not limited.
Optionally, before plating obtains the first palladium nickel coating on the first silvering, can also the first silvering it
Upper plating obtains the second gold plate.
It is full-automatic in above-mentioned electroplating system after plating obtains the first silvering i.e. on the electric connection structure of connector
Or the function area part on electric connection structure is immersed in the electroplating pool containing gold ion by automanual equipment, is soaked to it
Plating, to obtain the second gold plate.
Optionally, after plating obtains the first palladium nickel coating, to the function area part in electrical connection module, middle area portion
Divide and welding section part carries out immersion plating, obtains the first gold plate, the third gold plate of middle area part and welding section part
The 4th gold plate.
When the first gold plate, third gold plate are identical as the thickness of coating of the 4th gold plate, in above-mentioned electroplating system
Electrical connection module can be integrally immersed in the electroplating pool for filling gold ion electroplate liquid by full-automatic or automanual equipment, be obtained
First gold plate, third gold plate, the 4th gold plate.In the plating thickness of the first gold plate, third gold plate and the 4th gold plate
Degree is different, and the thickness of the first gold plate is greater than the thickness of third gold plate, and the thickness of third gold plate is greater than the 4th gold plate
Thickness when, electrical connection module can be integrally immersed in by the full-automatic or automanual equipment in above-mentioned electroplating system fills gold
In the electroplating pool of ion-conductance plating solution, the 4th gold plate is obtained, then functional areas and middle area are immersed in and fill gold ion electricity
In the electroplating pool of plating solution, the first gold plate, third gold plate are obtained.Wherein, the plating mode of the disclosure is only for example, right
Same coating has the plating mode of different-thickness requirement and is not limited.
Optionally, plating obtain the first gold plate after, in electrical connection module function area part and middle area portion
Divide and carry out immersion plating, obtains the second rhodium alloy coating of the first rhodium alloy coating and middle area part.
The first silvering is obtained in plating and then functional areas and middle area are immersed in the electricity of the ion containing rhodium alloy jointly
In plating solution, wherein if the second rhodium alloy thickness of coating of middle area is different from the first rhodium alloy thickness of coating of functional areas, in function
Energy area and middle area are immersed in jointly in the electroplate liquid of the ion containing rhodium alloy, after obtaining the second rhodium alloy coating, to functional areas
Brush plating is carried out, the thickness of the second rhodium alloy coating of functional areas is plating to the thickness of the first rhodium alloy coating.It is specific for example, if
The second rhodium alloy thickness of coating requirement of middle area part is 2 microinch, and the first rhodium alloy thickness of coating of function area part
It is required that being 10 microinch, functional areas and middle area are immersed in jointly in the electroplate liquid of the ion containing rhodium alloy at this time, to connector
The rhodium alloy coating of 2 microinch is plated, then to function area part by immersion plating, the second rhodium alloy of function area part is plated into thickness
Degree is plating to 10 microinch and obtains the first rhodium alloy coating, to obtain the first rhodium alloy coating of functional areas.Alternatively possible
In the mode of realization, functional areas and middle area are immersed in jointly in the electroplate liquid of the ion containing rhodium alloy, it is micro- to plate 2 to connector
After the rhodium alloy coating of inch, then to function area part by brush plating, by the second rhodium alloy thickness of coating brush of function area part
It is plating to 30 microinch and obtains the first rhodium alloy coating, to obtain the first rhodium alloy coating of functional areas.Certainly, to functional areas
One rhodium alloy coating can also be obtained (such as rack plating etc.) by method for distinguishing, and the disclosure is to this and is not limited.
Optionally, the mode of the plating in above-mentioned each step, can also be including rack plating etc. other than immersion plating and brush plating
The combination of mode and various plating modes, the disclosure is to the concrete mode of plating and is not limited.
In conclusion the application is outside the functional areas substrate of electrical connection module by plating the first nickel coating, in the first nickel
The first silvering is plated outside coating, the first palladium nickel coating is plated on the first silvering, the plating of the first gold medal is plated on the first palladium nickel coating
Layer, plates the first rhodium alloy coating on the first gold plate.By in the overlay coating of the electrical connection module functional areas of connector
Rhodium ruthenium alloy coating under increase nickel coating, silvering, palladium nickel coating and gold plate, to effectively improve electrical connection module
The resistance to corrosion of the coating entirety of functional areas.In addition, passing through the plating layered scheme of the disclosure, in the rule of identical resistance to corrosion
Under lattice require, it is possible to reduce the thickness of outermost layer rhodium alloy coating increases rhodium to extend the use time of rhodium ruthenium electrolyte
The access times of ruthenium electrolyte, reduce electroplating cost to a certain extent.
Those skilled in the art will readily occur to the disclosure after considering specification and practicing utility model disclosed herein
Other embodiments.This application is intended to cover any variations, uses, or adaptations of the disclosure, these modifications are used
Way or adaptive change follow the general principles of this disclosure and including the disclosure it is undocumented in the art known in
Common sense or conventional techniques.
It should be understood that the present disclosure is not limited to the precise structures that have been described above and shown in the drawings, and
And various modifications and changes may be made without departing from the scope thereof.The scope of the present disclosure is only limited by the accompanying claims.
Claims (7)
1. a kind of electrical connection module of connector, which is characterized in that the electrical connection module includes function area part;
The function area part is coated with the first nickel coating, the first silvering, the first palladium nickel coating, the first gold plate and the first rhodium
Alloy layer;
First nickel coating is plated on the substrate of the function area part;
First silvering is plated in the upper layer of first nickel coating;
First palladium nickel coating is plated in the upper layer of first silvering;
First gold plate is plated in the upper layer of the first palladium nickel coating;
First rhodium alloy coating is plated in the upper layer of first gold plate.
2. electrical connection module according to claim 1, which is characterized in that first silvering is that fine silver coating or silver close
Gold plate.
3. electrical connection module according to claim 1, which is characterized in that first silvering and the first palladium nickel plating
It also include the second gold plate between layer.
4. electrical connection module according to claim 1, which is characterized in that the electrical connection module further includes middle area part
With welding section part;
One end of the middle area part is connected with the function area part, the other end of the middle area part and the welding
Area part is connected;
It is coated with the second nickel coating, the second palladium nickel coating, third gold plate on the substrate of the middle area part respectively from inside to outside
And the second rhodium alloy coating;
Third nickel coating and the 4th gold plate are coated with respectively from inside to outside on the substrate of the welding section part.
5. electrical connection module according to claim 4, which is characterized in that
The first palladium nickel coating is identical as the second palladium nickel coating thickness;
Alternatively,
The thickness of the first palladium nickel coating is greater than the thickness of the second palladium nickel coating.
6. a kind of connector, which is characterized in that the connector includes at least one electricity as claimed in claim 1 to 5
Connection component.
7. a kind of electronic equipment, which is characterized in that the electronic equipment includes at least one connection as claimed in claim 6
Device.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821588800.XU CN208674438U (en) | 2018-09-27 | 2018-09-27 | Electrical connection module, connector and the electronic equipment of connector |
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CN201821588800.XU CN208674438U (en) | 2018-09-27 | 2018-09-27 | Electrical connection module, connector and the electronic equipment of connector |
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CN208674438U true CN208674438U (en) | 2019-03-29 |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109038007A (en) * | 2018-09-27 | 2018-12-18 | 北京小米移动软件有限公司 | The electro-plating method of the electrical connection module of connector, connector and electrical connection module |
CN110820024A (en) * | 2019-12-25 | 2020-02-21 | 无锡华晶利达电子有限公司 | Coating structure for enhancing corrosion resistance of mobile phone plug connector |
CN112467431A (en) * | 2019-09-09 | 2021-03-09 | 苹果公司 | Noble metal alloy contact |
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2018
- 2018-09-27 CN CN201821588800.XU patent/CN208674438U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109038007A (en) * | 2018-09-27 | 2018-12-18 | 北京小米移动软件有限公司 | The electro-plating method of the electrical connection module of connector, connector and electrical connection module |
CN112467431A (en) * | 2019-09-09 | 2021-03-09 | 苹果公司 | Noble metal alloy contact |
CN112467431B (en) * | 2019-09-09 | 2022-04-19 | 苹果公司 | Noble metal alloy contact |
CN110820024A (en) * | 2019-12-25 | 2020-02-21 | 无锡华晶利达电子有限公司 | Coating structure for enhancing corrosion resistance of mobile phone plug connector |
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