CN101538697B - Spray coating method through non-burning smelting spray - Google Patents

Abstract

The invention relates to a spray coating method by non-burning smelting spray, which comprises the following steps that: firstly, a first conducting wire and a second conducting wire are coupled to a power supply respectively so that the first conducting wire and the second conducting wire have different electric properties after being coupled to the power supply, thus, with the different electric properties of the first conducting wire and the second conducting wire, voltaic arcs are generated between the first conducting wire and the second conducting wire; secondly, the first conducting wire and the second conducting wire are heated by the voltaic arcs and then are melted into melted materials; and finally, compressed air sprays the melted materials, blows off the same into a plurality of particles, and further blows the particles to a base material to form a spray coating layer on the base material, wherein the melted materials are cooled down after being blown off into the plurality of particles so that the base material adopting the spray coating method can be formed without being cooled any more.

Description

The method that sprays of non-combustion meltallizing

Technical field:

The invention relates to the method that sprays of a kind of working method, particularly a kind of non-combustion meltallizing.

Background technology:

Universalness along with 3C Product, electromagnetic interference (Electro-MagneticInterfering, EMI) new public hazards have been become, no matter from considering of electrical equipment normal operation demand or HUMAN HEALTH, electromagnetic interference problem has been subject to the common people's concern, and various countries are among the people or NGO also begins to pay attention to the Electromagnetic Interference problem, thereby stipulate the electromagnetic interference control test of various electronic products.Electromagnetic interference for the prevention electronic product, the most direct method is for using a kind of shell with good electromagnetism screening effect that the circuit element of electronic product and the external world are intercepted fully, the better screening effect of metal shell tool now, yet, metal shell is to adopt sheet-metal forming now, therefore metal shell is quite heavy, and is difficult to be configured as through the mode of sheet-metal forming the profile of complicated exquisiteness.

Because plastic cement tool plasticity-can utilize mould to become required profile, so plastic shell remains the now main flow of electronic product casing, but plastic shell itself is non-conductive, and can't reach the purpose of covering electromagnetic radiation.Therefore the working method of plastic cement conductionization is developed, such as: plastic cement adds electro-conductive fiber, the plastic shell surface sprays electric conduction paint or electroless nickel plating or hot dip process or vacuum splashing and plating etc., but the working method of known plastic cement conductionization has the problem that tension force is not enough, sticking power is not enough or stress can't overcome, in addition, the galvanizing electrochemical plating have the problem of corrosion, and the pickle solution that the flushing electronplate is used can affect environment, therefore the product of galvanizing is by control or forbid selling, and vacuum splashing and plating is considered based on cost and can't be used for large-area coating film.

In addition, known surface working mode more includes the meltallizing cladding process, and the meltallizing mode that it adopts comprises flame plasma spraying, electric arc plasma spraying, oxygen fuel plasma spraying at a high speed alive and electricity slurry plasma spraying.See also Fig. 1, it is the structural representation of the spray-coating device of known flame meltallizing.As shown in the figure, the spray-coating device 10 of known flame meltallizing is to comprise a nozzle 12, nozzle 12 inboards arrange a feed track 122, feed track 122 is carried and is sprayed material 14, be provided with a plurality of fuel flow channels 124 and a plurality of air flow channels 126 difference transfer the fuel and air around the feed track 122, spray-coating device 10 is via nozzle 12 combustion fuels and air and produce flame 128, with spraying on material 14 to one base materials 16 of meltallizing feed track 122, spray layer 162 and form one, wherein spray material 14 and can be powder or wire rod, but the flame meltallizing can be with higher transfer of heat to base material 16, so can produce easily hydrogen embrittlement to iron and steel material quality, and affect the intensity of steel member, toughness and endurance.

As shown in Figure 2, it is the spray-coating device 20 of known electric arc meltallizing, it comprises a nozzle 22, a plurality of guide units 24 and a plurality of supply units 26, those guide units 24 are arranged at nozzle 22 both sides, and the outlet of those guide units 24 is oppositely arranged, those supply units 26 are delivered to a plurality of wires 262 respectively in those guide units 24, spray-coating device 30 is via the pressurized gas that produces electric arc and utilize jet orifice 222 to spray in nozzle 22 outsides between those wires 262, with those wire 262 to one substrate surfaces 28 of meltallizing, spray layer 282 on substrate surface 28 and form one, but known electric arc meltallizing still has the problem that layer 282 is peeled off substrate surface 28 that sprays.As shown in Figure 3, it is the spray-coating device 30 of known high speed oxygen fuel alive meltallizing, it comprises a nozzle 32, a plurality of fuel flow channel 34, a plurality of air flow channel 36 and one and sprays material runner 38, fuel flow channel 34 carries the oxygen fuel of living to nozzle 32, air flow channel 36 carries pressurized air to nozzle 32, spray 38 conveyings of material runner and spray material 382 to nozzle 32, blow and the astable burning of the oxygen fuel of living by pressurized air, and cause producing seismic wave square 322, spray material 382 to one substrate surfaces 40 with meltallizing, form one and spray layer 42 on substrate surface 40.

As shown in Figure 4, it is the spray-coating device 50 of electricity slurry meltallizing, it comprises a nozzle 52, a positive electrode 54, a negative potential 56, a plurality of gas flows 58, a plurality of powder syringes 522 are set around the nozzle 52, positive electrode 54 is located on nozzle 52 inboards, negative potential 56 is arranged at nozzle 52 inboard central authorities, the rare gas element of so carrying by gas flow 58 forms electricity slurry 524 by the electric arc between positive electrode 54 and the negative potential 56, with the powder of meltallizing powder syringe 524 injection on a substrate surface 60, spray layer 62 on substrate surface 60 and form one, in addition, the melt temperature of electricity slurry meltallizing is quite high, need by water-cooling pattern nozzle 52 to be cooled off, with rapid cooling, so electricity slurry meltallizing can increase cooling cost.Shown in following table one, it is the result that sprays of above-mentioned four kinds of meltallizing modes.

The meltallizing kind	Melt temperature (Celsius)	Porosity	Bond strength (every square of inch of pound)
				The flame powder meltallizing	2800 degree-3000 degree	Greater than 5%	1000-7000
Flame wire rod meltallizing	2800 degree-3000 degree	Greater than 10%	1000-5000
				The electric arc meltallizing	80 degree-300 degree	Greater than 5%	2000-5000
Oxygen meltallizing at a high speed alive	2000 degree-3000 degree	1％-5％	7000-12000
				Electricity slurry meltallizing	12000 degree-15000 degree	Large dried 5%	5000-10000

Table one

As shown in Table 1, the melt temperature of above-mentioned meltallizing mode is minimum to be 80 degree Celsius, so still, can the thermoplastic cement case surface, and affect the plastic shell outward appearance, in addition, because the melt temperature of above-mentioned meltallizing technology is higher, restricted for the upper meeting of selecting of base material, the base material that burning-point is lower or temperature tolerance is relatively poor, such as: paper, plastic cement etc. also can't utilize above-mentioned meltallizing technology to spray, so above-mentioned meltallizing mode can't be used for spraying all substrate surfaces, most of 3C electronic products also can't use above-mentioned meltallizing technology to carry out spraying of ELECTROMAGNETIC OBSCURANT simultaneously.

Therefore, a kind of method that sprays of non-combustion meltallizing is proposed for the problems referred to above, not only improve the traditional metal shell and can't be configured as the shortcoming of random appearance and the shortcoming of traditional plastic shell conductionization processing, can promote the bond strength that sprays thing again, to solve the above problems.

Summary of the invention:

Main purpose of the present invention is to provide a kind of method that sprays of non-combustion meltallizing, and it is to utilize electric arc that the wire melting is the melting material, and the jet compression air is to the melting material,, is used to form and sprays layer on base material on base material with the particle that blows this melting material.

Secondary objective of the present invention is to provide a kind of method that sprays of non-combustion meltallizing, and it provides the normal temperature meltallizing, is used for spraying material in base material.

Another object of the present invention is to provide a kind of method that sprays of non-combustion meltallizing, and it provides metallic substance and is formed on the base material, is used for preventing electromagnetic interference.

Another object of the present invention is to provide a kind of method that sprays of non-combustion meltallizing, and it is that profile along with base material sprays and is not subjected to the shape limitation of base material.

For realizing the object of the invention to solve the technical problems, the present invention is achieved through the following technical solutions.The present invention provides a kind of method that sprays of non-combustion meltallizing, it comprises first wire of use and second wire couples respectively a power supply, this power supply provides difference electrically to the first wire and the second wire, continue according to different electrically the produce electric arcs of the first wire from the second wire, thereby utilize electric arc that the first wire and the second wire-heated to melting are the melting material, continue and use blast injection melting material and dispel and be a plurality of particles, to blow to a base material, spray layer on base material and form one.Because it is low that the present invention forms the temperature spray layer, so the present invention can be used for spraying on the base material that hangs down heatproof, and can spray the tool electromagnetic wave shielding spray material on base material, but to allow the base material electromagnetic wave shielding.

For realizing the object of the invention to solve the technical problems, the present invention also is achieved through the following technical solutions.

The method that sprays of aforesaid non-combustion meltallizing, wherein in using first wire and second wire to couple respectively the step of a power supply, this power supply provides first current potential to this first wire, this power supply provides second current potential to this second wire, and this first current potential is relative electrical with this second current potential.

The method that sprays of aforesaid non-combustion meltallizing, wherein this first wire is positive potential, this second wire is negative potential.

The method that sprays of aforesaid non-combustion meltallizing, wherein this first wire is negative potential, this second wire is positive potential.

The method that sprays of aforesaid non-combustion meltallizing wherein dispels the step into a plurality of particles in using this melting material of blast injection, more cool off those particles.

The method that sprays of aforesaid non-combustion meltallizing, wherein this first wire and this second wire are the electric arc that produces the different heating temperature according to the strength of current of this power supply.

The method that sprays of aforesaid non-combustion meltallizing, wherein this first wire and this second wire are a kind of electro-conductive material.

The method that sprays of aforesaid non-combustion meltallizing, wherein this compressed-air actuated output rating is 10 kilograms of per seconds.

The method that sprays of aforesaid non-combustion meltallizing, the step that is a plurality of particles in this melting material of use blast injection wherein is to use pressurized air to this melting material cooling.

The method that sprays of aforesaid non-combustion meltallizing, wherein the bond strength of those particles is 1419.489104 pounds of every square of inch.

The method that sprays of aforesaid non-combustion meltallizing, wherein this porosity that sprays layer is that one of percentage is to 5 percent.

Compared with former technology, the invention has the beneficial effects as follows: a kind of method that sprays provided by the present invention, it comprises a nozzle, one first output module and one second output module, the present invention exports module and second first wire of output module output and second wire to the nozzle outside by first, and by producing an electric arc in the nozzle outside after the first wire and the second wire conduction, and melting the first wire and the second wire are a kind of melting material, and blowed to base material by the pressurized gas that nozzle sprays, be attached on the base material to allow the melting material see through superthermal effect, spray layer on base material and form one.Be to form at normal temperatures, need not to cool off and to be shaped because melting material of the present invention sprays in the process of layer in formation, so the present invention is except Cost reduction, more applicable to the substrate surface processing of low heatproof.

Description of drawings:

Fig. 1 is the structural representation of the spray-coating device of known flame meltallizing;

Fig. 2 is the structural representation of the spray-coating device of known electric arc meltallizing;

Fig. 3 is the structural representation of the spray-coating device of known high velocity oxygen fuel meltallizing;

Fig. 4 is the structural representation of the spray-coating device of known electricity slurry meltallizing;

Fig. 5 is the structural representation of an embodiment of spray-coating device of the present invention;

Fig. 6 is the structural representation of another embodiment of spray-coating device of the present invention;

Fig. 7 is the schema that sprays an embodiment of method of the present invention.

The figure number explanation:

10 spray-coating devices, 12 nozzles

122 feed tracks, 124 fuel flow channels

126 air flow channels 14 spray material

16 base materials 162 spray layer

20 spray-coating devices, 22 nozzles

222 jet orifices, 24 guide units

26 supply units, 262 wires

28 base materials 282 spray layer

30 spray-coating devices, 32 nozzles

322 seismic wave squares, 34 fuel flow channels

36 air flow channels 38 spray the material runner

382 spray material 40 base materials

42 spray layer 50 spray-coating device

52 nozzles, 522 powder syringes

524 electricity slurries, 54 positive electrodes

56 negative potentials, 58 gas flows

60 base materials 62 spray layer

70 spray-coating devices, 72 nozzles

74 first output modules, 742 first guide units

744 first supply units, 746 first wires

748 first electrodes, 76 second output modules

762 second guide units, 764 second supply units

766 second wires, 768 second electrodes

782 melting materials, 784 particles

80 base materials 82 spray layer

Embodiment:

Further understand and understanding for the juror is had constitutional features of the present invention and the effect reached, sincerely help with preferred embodiment and cooperate detailed explanation, illustrate as after:

The invention provides a kind of method that sprays, it utilizes non-combustion meltallizing to be used to spray the melting material in a base material, and see through a plurality of jet orifices of injection unit tool, to spray a plurality of pressurized air, the present invention utilizes a plurality of pressurized air to blow the melting material, be cooled to rapidly normal temperature when making the melting material spray on base material, the purpose that sprays to reach normal temperature.

See also Fig. 5, it is the structural representation of a preferred embodiment of spray-coating device of the present invention.As shown in the figure, the present invention is a kind of spray-coating device 70 of non-combustion meltallizing, it comprises a nozzle 72, first an output module 74 and one second output module 76, wherein the first output module 74 is to comprise first guide unit 742 to export modules 76 with first supply unit 744, the second and comprise second guide unit 762 and second supply unit 764.One side of nozzle 72 has a plurality of jet orifices, it comprises a central injection mouth 722 and a plurality of side spray loopholes 724, the first output module 74 and the second output module 76 are a side and the opposite sides that are arranged at respectively nozzle 72, namely the first guide unit 742 and the second guide unit 762 also are arranged at respectively a side and the opposite side of nozzle 72 simultaneously, wherein the first guide unit 742 and the second guide unit 762 are the line guide rail in present embodiment, and the first supply unit 744 and the second supply unit 764 are a plurality of rollers in present embodiment.The first output module 74 is to export first wire 746 to the outside of nozzle 72, and the second output module 76 is to export second wire 766 to the outside of nozzle 72, and has a spacing distance between the first wire 746 and the second wire 766.

The opposite side of nozzle 72 is to connect an air compressor machine (not shown), its output pressure power is 10.5 kilograms of per seconds (Kgs), therefore the air inlet power of nozzle 72 also is 10.5 kilograms of per seconds, central injection mouth 722 is the pressurized air that sprays different pressures with side spray loophole 724, and be gathered together in nozzle 72,29.0075 pounds of every square of inch to 58.0150 of air inlet power barometric point pound every square of inch of central injection mouth 722 wherein, the air inlet power of side spray loophole 724 is 87.0226 pounds of every square of inch to 145.037 of barometric point pound every square of inch, therefore the output pressure of side spray loophole 724 can be greater than central injection mouth 722, and because side spray loophole 724 sprays side mouth 722 in an angle for inclination and with central authorities, so the pressurized air that side spray loophole 724 sprays can concentrate on central authorities, and the pressurized air that is sprayed by central injection mouth 722 drives.The first supply unit 744 and the second supply unit 764 are a plurality of rollers in present embodiment, its respectively clamping and push the first wire 746 and the second wire 766 to first guide units 742 and the second guide unit 762, via the first guide unit 742 the first wire 746 is directed to the outside of nozzle 72 and the outside that the second wire 766 is directed to nozzle 72 via the second guide unit 764.The first electrode 748 and the second electrode 768 are positive potential and the negative potentials that couple respectively a power supply (not shown).

Accept above-mentioned, this power supply that the first wire 746 and the second wire 766 couple via the first electrode 748 and the second electrode 768 and conducting electricity, therefore, the first wire 746 and the second wire 766 produce electric arc in the outside of nozzle 72, the strength of current that electric arc can provide according to this power supply and produce corresponding melt temperature, its temperature range is that 2200 degree Celsius are to 5000 degree Celsius, its corresponding strength of current is 5 amperes to 1400 amperes, and the present invention also provides the different device specification for different voltage specifications, for example: corresponding 220 volts, the spray-coating device of the voltage specification of 380 volts or 440 volts, in addition, the present invention also can provide the operating mode of the selection correspondence of self adaptive (Adaptive), the present invention can be operated under the power supply of different voltage specifications, and can can't not operate because voltage specification is inconsistent.

Electric arc is that melting the first wire 746 and the second wire 766 are in nozzle 72 outsides, and form a kind of melting material 782 in nozzle 72 outsides, nozzle 72 with blast injection to melting material 782, melting material 782 is dispelled be a plurality of particles 784, to blow those particles 784 and to be deposited on the base material 80, spray layer 82 on base material 80 and form one.The present invention utilizes the superthermal effect of particle 784 and is attached on the base material 80, therefore, the bond strength that sprays layer 82 is 1419.489104 pounds of every square of inch to 2133.500658 pound every square of inch, the porosity that sprays layer 82 is 1% to 5%, and particle 784 sprays in the process of layer 82 in formation, the temperature of particle 784 is to keep at normal temperatures, namely 24 degree Celsius are to 40 degree Celsius, therefore, the heatproof degree is that base material under the normal temperature is applicable to spray-coating device 70 of the present invention, for example: paper, plastic cement, timber and fabric etc., it all can see through spray-coating device 70 of the present invention and spray particle 784, spray layer on finished surface with formation, and the present invention does not need cooling namely to finish surface working.

The spray-coating device 70 of present embodiment preferably more can utilize cooling gas, shortening cooling time, and forms and sprays in layer process that temperature is minimum to reach 12 degree Celsius.Because spray-coating device 70 of the present invention is the modes that adopt jet compression gas, make melting material 782 dispel as particle 784 and be deposited on the base material 80, so the present invention can spray particle 784 on the base material of various geometric shapes, and be not subject to the restriction of geometric shape.In addition, the material of the first wire 746 of the present invention and the second wire 766 can adopt the material of anti-electromagnetic interference, for example: metallic substance, but so that also electromagnetic wave shielding of base material that can't electromagnetic wave shielding.In addition, as shown in Figure 6, spray-coating device 70 of the present invention more can comprise a gas cap 726, and it is arranged between nozzle 72 and the electric arc, with adjustment central injection mouth 722 and the compressed air that side spray loophole 724 is sprayed, blow the stability of particle 784 for increasing pressurized air.And supply unit 744 of the present invention and 764 more can be carried the first wire 746 and the second wire 766 by air pressure.

See also Fig. 7, it is the schema of an embodiment of spraying method of the present invention.As shown in the figure, the step of spraying method of the present invention is to comprise: at the beginning first shown in step S110, because spray-coating device 70 of the present invention is to couple power supply via the first electrode 748 and the second electrode 768, the first electrode 748 and the second electrode 768 conductions that the first wire 746 and the second wire 766 are coupled via spray-coating device 70; Shown in step S120, the first wire 746 and the second wire 768 are after step S110 conduction, namely cause between the first wire 748 and the second wire 768 at nozzle 72 outsides of spray-coating device 70 generation electric arc, continuing is performing step S130, electric arc melting the first wire 746 and the second wire 766, make the first wire 746 and the second wire 766 be fused together and form a kind of melting material 782, this melting material 782 can be the anti electromagnetic wave material; Shown in step S140, utilize blast injection melting material 782 and dispel and be those particles 784, blowing to base material 80, and those particles 784 are attached on the base material 80 via superthermal effect, spray layer 82 and form one.Because the present invention need not cool off those particles 784 and can form and spray layer 82 on base material 80, so the present invention reduces the cost of cooling process, and be base material under the normal temperature applicable to heatproof.

In step S110, the first electrode 748 and the second electrode 768 are to couple respectively simultaneously the first guide unit 762 and the second guide unit 762, therefore, when the first electrode 748 and the second electrode 768 coupled the positive potential of a power supply and negative potential, the first wire 746 and the second wire 766 namely had respectively positive potential and negative potential.In step S120, owing to have a spacing distance between the first wire 746 and the second wire 766, therefore the first wire 746 and the second wire 766 do not join, have positive potential and negative potential so work as the first wire 746 and the second wire 766, the first wire 746 and the second wire 766 can produce electric arc in the outside of nozzle 72.In step S130, electric arc is to the first wire 746 and the second wire 766 is heated to the first wire 746 and the second wire 766 is melting material 782 in nozzle 72 outside meltings.In step S140, nozzle 72 is that the jet compression air is to melting material 782, to dispel as particle 784 and to blow to base material 80, because compressed-air actuated blowing change under the general air pressure particle 784 under compressed-air actuated air pressure, so the high temperature of particle 784 is reduced to normal temperature after pressure changes, and namely 24 degree Celsius are to 40 degree Celsius, in addition, but the present invention more can make particle 784 coolings more rapid in this step chilling particle 784 more, and minimum temperature more can reach 12 degree Celsius.

The above, it only is a preferred embodiment of the present invention, be not to limit scope of the invention process, all equalizations of doing according to the described shape of claim scope of the present invention, structure, feature and spirit change and modify, and all should be included in the claim scope of the present invention.

Claims (11)

1. the method that sprays of a non-combustion meltallizing is characterized in that it comprises:

Use first wire and second wire to couple respectively a power supply, to provide difference electrically to this first wire and this second wire;

According to the different electrical generation electric arc of this first wire from this second wire;

Using this first wire of electric-arc heating and this second wire to melting is a kind of melting material;

Central injection mouth and side spray loophole dispel this melting material of blast injection and are a plurality of particles among the use different pressures, to blow on those particle to one base materials, the air inlet power of this central injection mouth is barometric point 29.0075 pound per square inch to 58.0150 pound per square inches, and the air inlet power of this side spray loophole is barometric point 87.0226 pound per square inch to 145.037 pound per square inches; And

Form one and spray layer on this base material.

2. the method that sprays of non-combustion meltallizing as claimed in claim 1, it is characterized in that, in using first wire and second wire to couple respectively the step of a power supply, this power supply provides first current potential to this first wire, this power supply provides second current potential to this second wire, and this first current potential is relative electrical with this second current potential.

3. the method that sprays of non-combustion meltallizing as claimed in claim 2 is characterized in that, this first wire is positive potential, and this second wire is negative potential.

4. the method that sprays of non-combustion meltallizing as claimed in claim 2 is characterized in that, this first wire is negative potential, and this second wire is positive potential.

5. the method that sprays of non-combustion meltallizing as claimed in claim 1 is characterized in that, dispels the step into a plurality of particles in using this melting material of blast injection, more cools off those particles.

6. the method that sprays of non-combustion meltallizing as claimed in claim 1 is characterized in that, this first wire and this second wire are the electric arc that produces the different heating temperature according to the strength of current of this power supply.

7. the method that sprays of non-combustion meltallizing as claimed in claim 1 is characterized in that, this first wire and this second wire are a kind of electro-conductive material.

8. the method that sprays of non-combustion meltallizing as claimed in claim 1 is characterized in that, this compressed-air actuated output rating is 10 kilograms of per seconds.

9. the method that sprays of non-combustion meltallizing as claimed in claim 1 is characterized in that, in the step that this melting material of use blast injection is a plurality of particles, is to use pressurized air to this melting material cooling.

10. the method that sprays of non-combustion meltallizing as claimed in claim 1 is characterized in that, the bond strength of those particles is 1419.489104 pound per square inches.

11. the method that sprays of non-combustion meltallizing as claimed in claim 1 is characterized in that, this porosity that sprays layer is that one of percentage is to 5 percent.

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