JP3646788B2 - Method and apparatus for activation treatment of base material surface - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is suitable for pretreatment in, for example, electrochemical treatment such as electroplating, and by using a safe and inexpensive solution, the degreasing treatment and removal of the oxide film on the surface of the base material such as metal can be performed simultaneously and efficiently, The present invention relates to a method for activation treatment of a base material surface and a treatment apparatus thereof that can improve productivity and reduce equipment costs, streamline waste liquid treatment, and prevent reuse and environmental pollution.
[0002]
[Prior art]
For example, in the electrochemical treatment such as electroplating, the pre-treatment step of degreasing and pickling removes the fat and oxide film on the metal surface that is the object to be treated, and activates the metal surface, A good metal film can be coated.
[0003]
The degreasing cleaning is performed by immersing the object to be processed in an alkaline aqueous solution, and the pickling is performed by immersing the object to be processed in an acidic aqueous solution diluted with sulfuric acid or hydrochloric acid. The product was neutralized with an acidic or alkaline chemical, and discharged from the factory.
[0004]
Therefore, the conventional pretreatment process requires a dedicated bathtub and a washing tank, which requires a large amount of equipment, requires various chemicals and a large amount of water, increases the treatment cost, and further includes degreasing and pickling. In addition to poor productivity, the neutralization treatment cannot remove heavy metals such as lead, zinc, and tin, and requires a wastewater treatment facility. It was increasing.
[0005]
Furthermore, in the conventional pretreatment process, the work environment is poor due to being forced to work under the situation where the treatment liquid is scattered and harmful gas is generated, and furthermore, the hydrogen gas generated in the pickling process causes the object to be treated. There is a possibility of causing hydrogen embrittlement, and there is a problem that a separate means is required for removing the hydrogen embrittlement.
[0006]
In order to solve such a problem, Japanese Patent Application Laid-Open No. 2000-73191 uses a solution containing phosphine, which is an organic solvent, and immerses an object to be treated in the solution, or uses this solution with a brush or spray. The oil and fat and the oxide film are removed without applying dangerous chemicals such as strong acid and cyanide or toxic chemicals and substantially not damaging the base material.
[0007]
However, the phosphine is expensive and promotes an increase in production cost, and there is a problem that the fat and oil and the oxide film cannot be sufficiently removed.
[0008]
By the way, as a cleaning method for semiconductors, precision machine parts and the like, a cleaning method using a supercritical fluid or a subcritical high density fluid as a cleaning solvent has been proposed in, for example, Japanese Patent Application Laid-Open No. 2000-308862.
However, although the above method can cope with the removal of oil and fat adhering to machine parts, etc., it cannot deal with the removal of oxide films on machine parts, etc. In that case, a separate oxide film removal treatment is required. , Productivity is poor, which helps increase equipment costs.
[0009]
As another method, carbon dioxide as a cleaning medium is pressurized, particulate dry ice is ejected from a cleaning gun, and this is sprayed on the surface of the member to be cleaned, so that the oil and fat on the surface of the member is blown away. The method is known.
However, this method is also the same as described above, and there is a problem that it can cope with the removal of oil and fat but cannot cope with the removal of the oxide film.
[0010]
[Problems to be solved by the invention]
The present invention solves such a problem, and is suitable for pretreatment in electrochemical treatment such as electroplating. For example, the degreasing treatment and removal of the oxide film on the surface of a base material such as metal can be performed simultaneously with a safe and inexpensive solution. A method for activating the surface of a base material that can be performed efficiently and rationally, improve productivity and reduce equipment costs, streamline waste liquid treatment, and reuse and prevent environmental pollution. An object is to provide an apparatus.
[0011]
[Means for Solving the Problems]
  According to the first aspect of the present invention, the pressurized carbon dioxide contacts the contacted member.And separating or peeling off the oil and fat on the surface of the member to be treated, generating the oxide film removing solution by dissolving the pressurized carbon dioxide in water, and bringing the oxide film removing solution into contact with the member to be treated. The oxide film on the surface of the member is removed, and the degreasing cleaning and the oxide film removal process are performed simultaneously.In the activation treatment method of the base material surface,Perform degreasing and oxide film removal treatment in an open space, and perform degreasing and oxide film removal processing quickly, efficiently and inexpensively to improve productivity and reduce equipment costs. -The space can be made compact and the work space can be easily secured and the workability can be improved as compared with the conventional processing method in a closed container.I am doing so.
[0012]
  The invention of claim 2 provides the degreasing cleaning.WhenOxide film removalThe treatment is performed in an open space in which the supply of oxygen is shut off, and the surface of the base material after the treatment is prevented from being oxidized and activated. For example, a good metal film can be obtained during the next plating process.I am doing so.
  Invention of Claim 3 is the said degreasing washing | cleaning and oxide film removal processWhenThe, Performed in an atmosphere of carbon dioxide, preventing oxidation of the surface of the base material after the treatment, promoting its activation, for example, obtaining a good metal film during the next plating treatmentI am doing so.
  Invention of Claim 4 is the said degreasing washing | cleaning and an oxide film removal processAfter that, the supply of oxygen is cut off and / or plating is performed in an atmosphere of carbon dioxide to prevent oxidation of the surface of the base material and maintain its activated surface state to obtain a good metal film.I try to do it.
[0013]
  The invention of claim 5When reusing the treatment liquid after the degreasing or oxide film removal treatment, the heavily contaminated treatment liquid is depressurized to reduce the solubility of carbon dioxide, allowing it to be drained into sewage, and sufficient reuse of the treatment liquid. As well as reducing the acid concentration of the treatment liquid, it can be drained safely and inexpensively without the need for neutralization equipment.I have to.
[0014]
  According to the sixth aspect of the present invention, the pressurized carbon dioxide contacts the contacted member.EnableWhile allowing the oil and fat on the surface of the treated member to be separated or peeled off,SaidDissolve pressurized carbon dioxide in waterTo produce an oxide film removal solution,Contact the treated member with the oxide film removal solutionEnablePossible to remove the oxide film on the surface of the workpieceThe degreasing and oxide film removal process can be performed simultaneously.In the activation treatment apparatus for the base material surface,Perform degreasing and oxide film removal in an open spaceEnableDegreasing and oxide film removal treatment can be performed quickly, efficiently, inexpensively and rationally to improve productivity and reduce equipment costs. Compared to the processing equipment in the container, the work space can be easily secured and workability can be improved.I am doing so.
[0015]
  The invention of claim 7 provides the degreasing cleaning.WhenOxide film removalThe processing can be performed in an open space where the supply of oxygen is cut off, the surface of the base material after the processing is prevented from being oxidized, and the activation thereof is promoted. For example, a good metal film can be obtained during the next plating processI am doing so.
  The invention of claim 8 provides the degreasing cleaning and oxide film removal treatment.WhenTheUnder the atmosphere of carbon dioxideMake it executable,Prevents oxidation of the surface of the base material after the treatment and promotes its activation, for example, a good metal film can be obtained during the next plating treatmentI am doing so.
  Invention of Claim 9 is the said degreasing washing | cleaning and oxide film removal processAfter that, cut off the supply of oxygen and / or allow plating in an atmosphere of carbon dioxide,Prevents and activates the surface of the base materialKeep the surface,A good metal film is obtained.
[0016]
  Claim10The invention ofThe oxide film removal solution and supercritical carbon dioxide are guided to a spray gun, and these can be ejected simultaneously from the nozzles provided in the spray gun. The small and lightweight device enables simultaneous processing of degreasing and oxide film removal. Precisely feasibleI have to.
[0017]
  Claim11The invention ofAn annular port communicating with a compressed air source is provided around the supercritical carbon dioxide nozzle, and disturbance of the supercritical carbon dioxide is prevented by the annular air flow so that stable degreasing can be obtained.
[0018]
  Claim12The invention ofThe nozzles are arranged apart from each other, the spray gun can be moved to the nozzle side of the supercritical carbon dioxide, the oxide film removing solution and the supercritical carbon dioxide are sprayed, and degreasing is performed prior to the removal of the oxide film. Can be done naturally, and the oxide film removal can be processed precisely and rationallyI am doing so.
[0019]
  Claim13The invention ofThe supercritical carbon dioxide nozzles are arranged concentrically outside the oxide film removal solution nozzle, and the degreasing cleaning is oxidized in all the movement directions of the spray gun without restricting the movement direction of the spray gun. Enables advanced removal of oxide film and enables precise and rational treatment of oxide film removalI am doing so.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, the present inventionBasic configuration1 is applied to a degreasing and oxide film removal (hereinafter referred to as pickling) process, which is a pretreatment of electroplating (nickel plating). It is a bottom-cylinder pressure-resistant degreasing tank or pickling tank (hereinafter referred to as a bathtub), and its inner surface is lined with vinyl chloride or hard rubber, and the lid 2 is airtight in the upper opening. It is detachably attached.
[0021]
In the bathtub 1, a member 3 to be treated which is an object to be degreased and oxide film removed is accommodated so that it can be taken in and out, and a stirrer 4 such as a stirrer is accommodated at the bottom.
Further, water 5 such as tap water or pure water is accommodated in the bathtub 1, a water supply pipe 6 is connected to the upper peripheral surface thereof, and the pipe 6 communicates with a water supply source 7.
[0022]
In the figure, 8 is an on-off valve inserted in the water supply pipe 6, 9 is a heater mounted on the peripheral surface of the bathtub 1, and the water 5 can be heated to a predetermined temperature, in the embodiment, 50 to 150 ° C. In this case, warm water heated to the above temperature may be supplied to the bathtub 1.
[0023]
A gas container 10 containing, for example, carbon dioxide, which is a safe and stable pressurized liquid or pressurized gas, is installed outside the bathtub 1, and its gas conduit 11 is connected via a compression pump 12 and an on-off valve 13, It is connected to the lower peripheral surface of the bathtub 1.
[0024]
The compression pump 12 pressurizes the carbon dioxide to a high pressure as much as possible in the range of atmospheric pressure or higher, preferably 2 atmospheric pressure or higher to subcritical or supercritical pressure in the embodiment. Is supplied into the bathtub 1 and dissolved in the water 5, and carbonic acid (H₂CO_Three) The water can be generated. Since the pressure value in this case is related to the acidity of the oxide film removal solution, it is optimally adjusted appropriately depending on the situation of the oxide film.
[0025]
A communication pipe 14 is connected to the lower part of the bathtub 1, an opening / closing valve 15 is inserted into the pipe 14, and a downstream end thereof is connected to the storage tank 16.
The storage tank 16 is configured to have substantially the same volume and substantially the same volume as the bathtub 1, and a heater 17 is attached to the peripheral surface of the storage tank 16, so that the stored liquid 18 stored in the tank 17 is kept at a predetermined temperature. Heating is possible.
In the embodiment, the stored liquid 18 is heated to approximately 50 ° C., and carbonated water that is the main component of the stored liquid 18 can be decomposed into water and carbon dioxide.
[0026]
Return pipes 19 and 20 are connected to the storage tank 16, and the other ends thereof are connected to the bathtub 1 and the compression pump 12 so that the decomposed water and carbon dioxide can be recirculated thereto.
In the figure, 21 and 22 are on-off valves inserted in the return pipes 19 and 20, and 23 is a filter or ion exchange resin inserted in the return pipe 19.
[0027]
A discharge pipe 24 is connected to the lower part of the storage tank 16, its downstream end communicates with the sewer, and 25 is an on-off valve inserted into the discharge pipe 24.
[0028]
  The base material surface activation treatment apparatus configured in this wayBasic configurationIs a pressure-resistant bathtub 1 that can be sealed, a water supply source 7 that can supply water 5 to the bathtub 1, and a liquid or gaseous state in the bathtub 1,Basic configurationIs a gas container 10 capable of supplying high-density liquid carbon dioxide and a treatment liquid after the degreasing and oxide film removal treatment of the bath 1.TimeStorage tank 16 that can be accommodated
[0029]
Therefore, the conventional degreasing tank, pickling tank, each washing tank and neutralization tank are not required, so the equipment is simple, the equipment cost can be reduced and the installation space can be made compact, and the configuration can be reduced. Since it is simple, it can be manufactured easily and inexpensively.
Moreover, since the treated liquid after the treatment is decomposed into water and carbon dioxide by the storage tank 16 as will be described later, and after impurities such as an oxide film precipitated in the treated liquid are removed, the treated liquid can be reused. , The effective use and consumption of them can be saved.
[0030]
Next, when degreasing and oxide film removal processing are performed by the processing device, the member 3 to be processed is accommodated in the bathtub 1, the lid 2 is attached and the inside is sealed, and then water 5 is supplied from the water source 7 to the bathtub 1. And the treated member 3 is immersed in the water 5.
[0031]
After the water 5 is supplied in a fixed amount, carbon dioxide is supplied from the gas container 10 to the bathtub 1, pressurized by the compression pump 12, and further heated by the heater 9. Also, the stirrer 4 is operated around this time to stir the water 5.
For this reason, the carbon dioxide in the water 5 atomizes and moves at high speed, and a large amount of the fine carbon dioxide collides with the member 3 to be treated, and the oil and fat adhering to the surface of the member 3 is peeled off and degreased.
[0032]
In this case, since the carbon dioxide is supplied from below the bathtub 1 and rises in the water 5 in a bubbling state, the carbon dioxide quickly dissolves and saturates in the water 5 to promote an increase in solubility and the stirring. Combined with the child 4, a uniform and precise stirring effect is obtained, and the degreasing action is enhanced.
[0033]
Instead of the above method, if the water 5 is sprayed into the bathtub 1 in the form of a mist, and at the same time, the carbon dioxide is supplied and mixed, the contact area further increases and the solubility increases. And a precise stirring effect is obtained, and the degreasing action is further enhanced.
[0034]
Simultaneously with the stirring, the carbon dioxide dissolves in the water 5, and carbonic acid (H₂CO_Three) And the water 5 is acidic.
In this case, since the carbon dioxide is pressurized to a high pressure, dissolution in water 5 is promoted, and the amount of dissolution is proportional to the pressure.
Therefore, the acidity rises, and acidity (PH3-4) sufficient for pickling is quickly formed, contacting the oxide film on the surface of the treated member 3 after degreasing, and decomposing and removing the oxide film. To do.
And since the said water 5 is heated, melt | dissolution of a carbon dioxide is accelerated | stimulated, the raise of the said acidity is promoted, and the decomposition | disassembly effect | action of the said oxide film is accelerated | stimulated.
[0035]
Thus, degreasing and removal of the oxide film of the member to be treated 3 are performed simultaneously, and the oil and fat and the oxide film are deposited on the bottom of the bathtub 1. Then, the processing is executed for a predetermined time, and when sufficient degreasing and oxide film removal effects are obtained, the supply of carbon dioxide is stopped, the drive of the stirrer 4 is stopped, and the on-off valve 15 is opened.
[0036]
  If it does in this way, the inside of the bathtub 1 will be pressure-reduced, the solubility of the said carbon dioxide will fall, and the process liquid will be guide | induced to the communicating pipe 14, and a storage tank16Pushed out into the storage tank16When the valve is moved, the on-off valve 15 is closed. This situation is as shown in FIG.
[0037]
  The storage tank16The stored liquid 18 is depressurized and the solubility of carbon dioxide decreases, so that its acid concentration rapidly decreases and becomes weakly acidic, so that there is no possibility of actual harm.
  Therefore, the on-off valve 25 is opened, and the stored liquid 18 can be discharged into the sewage as it is through the discharge pipe 24.
[0038]
  At that time, when heavy metal is present in the storage liquid 18, carbon dioxide disappears from the liquid 18, so that it is separated from carbonated water,Storagetank16To settle inside.
  Therefore, it can be collected together with other foreign substances and oxide film through a filter (not shown) provided in the discharge pipe 24, ensuring the safety of the drainage, preventing environmental pollution, and after the collection. Can be treated as normal waste.
[0039]
  On the other hand, the present inventionBasic configurationCan reuse the stored liquid 18, in which case the heater 17 is heated and the storage tank is heated.16The stored liquid 18 is heated to about 50 ° C.
  If it does in this way, the carbonated water of the storage liquid 18 will be decomposed | disassembled into a carbon dioxide and water, and these will be isolate | separated into a gas-liquid two layer. That is, gaseous carbon dioxide is located at the upper position and water is located at the lower position.
[0040]
Therefore, if the on-off valves 21 and 22 are opened, the decomposed carbon dioxide and water are guided to the return pipes 19 and 20 and moved to the bathtub 1 and the compression pump 12 so that they can be reused. Become.
At that time, heavy metals, oxide films, and foreign substances are removed from the carbon dioxide and water by the filters 23 inserted in the return pipes 19 and 20.
In this case, carbon dioxide completely escapes from the stored liquid 18 due to the decomposition, so that the heavy metal, oxide film, etc. are completely precipitated and can be recovered with high accuracy.
[0041]
  In addition, since the storage tank 16 is configured substantially the same as the bathtub 1, for example, another member to be processed 3 is accommodated in the storage tank 16, and thereafter, the storage liquid 18 is guided to the storage tank 16. If the tank 16 is replenished with high-pressure carbon dioxide from the gas container 10 and the water 5 is replenished from the water supply source 7 and the inside of the storage tank 16 is set to the pressure and temperature conditions, the tank 16 is also covered. Degreasing the processing member 3 andOxidationRemove filmNaThe productivity increases.
[0042]
Then, after the treatment of the storage tank 16, the degree of contamination of the stored liquid 18 is checked. If the storage liquid 18 is contaminated, the storage tank 16 is depressurized to be weakly acidic and drained into sewage.
On the other hand, if the stored liquid 18 is mildly fouled, the tank 16 can be decompressed to decompose the stored liquid 18 into water and carbon dioxide and reuse them.
[0043]
  The bathtub 1 or the storage tankNkIf the pressure of 16 carbon dioxide and the heating temperature by the heaters 9 and 17 are set as high as possible, the degreasing and oxide film removal processes can be performed with high accuracy and high efficiency. Therefore, if the carbon dioxide is brought into a supercritical state, the degreasing and oxide film removing treatments can be performed with higher accuracy and efficiency.
[0044]
  Thus, the present inventionBasic configurationIs an inexpensive material of water and carbon dioxide, which simultaneously degreases and removes the oxide film of the member to be treated 3 and does not require complicated washing between them, so that this kind of treatment can be performed easily and quickly. , Improve productivity.
  In addition, since it is not necessary to use conventional harmful alkali or acidic chemicals as a degreasing and oxide film removal medium, it is possible to improve the working environment under generation of harmful gas, and to perform this safely, quickly and easily.
[0045]
Moreover, the treatment liquid after degreasing and oxide film removal is treated safely and promptly, ensuring its rationalization and safety, eliminating the conventional complicated neutralization work, and safe drainage of the treatment liquid by a simple method. It is intended to be processed and reused.
[0046]
  3 to 5 show the present invention.The fruitShowing the embodiment, the above-mentionedBasic structureCorresponding partsInThe same code is used.
  In this embodiment, a carbonated water generation tank 26 similar to that of the bathtub 1 is provided, andBasic configurationSimilarly to this, water and high-pressure carbon dioxide are supplied to produce carbonated water 27 having a predetermined acidic concentration.
[0047]
The carbonated water 27 is guided to a spray gun 29 via a conduit 28, and high-pressure carbon dioxide is guided from the gas container 10 to the spray gun 29 via a conduit 30.
In the figure, 31 and 32 are on-off valves inserted in the conduits 28 and 29, 33 is a heater provided on the downstream side of the conduit 30 as much as possible (or in the spray gun 29). Carbon is heated to form a supercritical state.
[0048]
As shown in FIG. 4, the nozzle 34 of the spray gun 29 is formed by separating the nozzle holes 35, 36 communicating with the conduits 28, 30, and an annular hole communicating with a compressed air source (not shown) outside the nozzle hole 36. 37 is formed.
FIG. 5 shows another arrangement form of the nozzle holes 35, 36, which are arranged concentrically inside and outside, and an annular hole 37 communicating with a compressed air source (not shown) is formed outside the nozzle hole 36 for carbon dioxide. ing. In the figure, 38 is a degreasing and pickling work space.
[0049]
That is, in this embodiment, as described above, the member to be treated 3 is accommodated in the sealed bathtub 1 and the member to be treated 3 is opened instead of processing the degreasing and oxide film removal in the sealed space. Housed in a space 38, carbonated water 27 and carbon dioxide in a supercritical state are sprayed onto the member to be treated 3 through a spray gun 29.
If it does in this way, the carbon dioxide of a supercritical state will eject from the nozzle hole 36, the carbonated water 27 will eject from the nozzle hole 35, and these will be sprayed on the to-be-processed member 3.
[0050]
At that time, the carbon dioxide is adiabatically expanded at the time of ejection, and is generated in dry ice by the heat of vaporization. When this dry ice is ejected vigorously, it is pulverized and collides with the member 3 to be treated. Remove oil and fat, blow away and degrease.
[0051]
On the other hand, the carbonated water 27 collides with the member 3 to be treated after degreasing, decomposes and removes the oxide film of the part, and blows away.
At this time, the carbonated water 27 is cooled during the movement of the conduit 28, so that the solubility of carbon dioxide is lowered, the acid concentration is lowered, and the oxide film removing action may be lowered.
Therefore, the carbonated water 27 is heated to a high temperature, and the periphery of the nozzle 34 of the spray gun 29 is appropriately heated to prevent the carbon dioxide solubility from being lowered or the oxide film removing action from being lowered.
[0052]
Thus, after the carbonated water 27 and the supercritical carbon dioxide are sprayed on the member 3 to be treated, the dry ice is sublimated on the sprayed surface, and the carbonated water scatters vigorously and is instantly dried.
[0053]
The operation of the spray gun 29 is performed, for example, by moving the nozzle 34 in the direction of the arrow in FIG. 4 and spraying supercritical carbon dioxide on the processing surface of the member 3 to be processed. Spray to remove oxide film.
In this case, in the example of FIG. 5, the nozzle 36 is located outside the nozzle 35, and the spray of supercritical carbon dioxide precedes the spray of carbonated water 27 against the processing surface of the member 3 to be processed. Regardless of the operation direction of 29, there is an advantage that a desired procedure, that is, degreasing-oxide film removal can be naturally obtained.
[0054]
In addition, an annular air flow is coaxially ejected from an annular port 37 around the supercritical carbon dioxide jet port 36 to prevent disturbance of the jet flow of the dry ice and facilitate its shaping. The certainty of the processing position when separated from the member to be processed 3 can be obtained.
[0055]
Thus, in this embodiment, the member 3 to be treated is degreased and the oxide film is removed simultaneously. In addition, by making the work space 38 an open space, the space can be easily obtained.
On the other hand, if the work space 38 is cut off from the surroundings, that is, the supply of oxygen is cut off and performed in an atmosphere of carbon dioxide, oxidation of the member 3 to be treated after degreasing and removal of the oxide film can be prevented. If the next plating process is performed below, a good metal film can be obtained.
[0056]
【The invention's effect】
  As described above, the invention of claim 1Degreasing cleaning and oxide film removal treatment are performed in an open space, and degreasing cleaning and oxide film removal processing are carried out quickly, efficiently, and reasonably at low cost, improving productivity and reducing equipment costs. Space can be made compact, and work space is easily secured and workability is improved compared to conventional processing methods in sealed containers.can do.
[0057]
  The invention of claim 2 provides the degreasing cleaning.WhenOxide film removalSince the treatment is performed in an open space in which the supply of oxygen is shut off, the surface of the base material after the treatment is prevented from being oxidized, and the activation thereof is promoted. For example, a good metal film can be obtained during the next plating treatment. is there.
  Invention of Claim 3 is the said degreasing washing | cleaning and oxide film removal processWhenTheSince it is performed in an atmosphere of carbon dioxide, the surface of the base material after the treatment is prevented from being oxidized, and its activation is promoted. For example, a good metal film can be obtained during the next plating treatment..
  Invention of Claim 4 is the said degreasing washing | cleaning and an oxide film removal processAfter that, the supply of oxygen is cut off and / or plating is performed under an atmosphere of carbon dioxide to prevent the surface of the base material from being oxidized and maintain its activated surface state.There is an effect that a good metal film can be obtained.
[0058]
  Claim5The invention ofWhen reusing the treatment liquid after the degreasing or oxide film removal treatment, the treatment liquid that has been heavily soiled is decompressed to reduce the solubility of carbon dioxide, and can be drained into sewage. In addition to reducing the acid concentration of the treatment liquid, drain water safely and inexpensively without the need for neutralization equipment.be able to.
[0059]
  The invention of claim 6Since degreasing and oxide film removal processing can be performed in an open space, degreasing and oxide film removal processing can be performed quickly, efficiently, and reasonably, improving productivity and reducing equipment costs. In addition, the installation space can be made compact, and the work space can be easily secured and the workability can be improved compared with the conventional processing equipment in a sealed container.Can.
[0060]
  The invention of claim 7 provides the degreasing cleaning.WhenOxide film removalSince the treatment can be performed in an open space where the supply of oxygen is cut off, the surface of the base material after the treatment is prevented from being oxidized and activated so that a good metal film can be obtained, for example, during the next plating process. Has the effectThe
  The invention of claim 8 provides the degreasing cleaning and oxide film removal treatment.WhenTheUnder the atmosphere of carbon dioxideSo thatPrevents oxidation of the surface of the base material after the treatment, promotes its activation, and has an effect of obtaining a good metal film, for example, at the next plating treatment.The
Invention of Claim 9 is the said degreasing washing | cleaning and oxide film removal processAfter that, because the supply of oxygen was cut off and / or the plating treatment was possible under an atmosphere of carbon dioxide, the surface of the base material was prevented from being oxidized, and its activated surface was maintained.There is an effect that a good metal film can be obtained.
[0061]
  Claim10The invention ofThe oxide film removal solution and supercritical carbon dioxide are guided to a spray gun, and these can be ejected simultaneously from each nozzle provided in the spray gun. Execute with high precisionbe able to.
[0062]
  Claim11The invention ofSince an annular port communicating with the compressed air source is provided around the supercritical carbon dioxide nozzle, disturbance of the supercritical carbon dioxide is prevented by the annular air flow, and stable degreasing cleaning is performed.be able to.
[0063]
  Claim12The invention ofSince each of the nozzle holes is spaced apart, the spray gun can be moved to the nozzle hole side of the supercritical carbon dioxide, and the oxide film removing solution and the supercritical carbon dioxide can be sprayed. Naturally prior to removal, precise and rational treatment of oxide film removalbe able to.
[0064]
  Claim13The invention ofSince the supercritical carbon dioxide nozzles are arranged concentrically outside the oxide film removal solution nozzle, degreasing cleaning can be performed for all the movement directions of the spray gun without restricting the direction of movement of the gun. Makes it possible to precede oxide film removal and treat oxide film removal precisely and rationally.be able to.
[Brief description of the drawings]
FIG. 1 of the present inventionBasic configurationFIG. 2 shows a situation where an oxide film removal treatment solution is prepared in a sealed bath, a member to be treated is immersed in the solution, and the degreasing treatment and the oxide film removal treatment are performed simultaneously.
FIG. 2 shows a state in which the used processing liquid is transferred to another container (storage tank) after the degreasing process and the oxide film removing process, and drained or decomposed or regenerated.
FIG. 3The fruitAn embodiment is shown, an oxide film removal treatment solution is prepared in a sealed bath, the solution and supercritical carbon are supplied to a spray gun, and a degreasing treatment and an oxide film removal treatment of a member to be treated stored in an open space are performed. I do it at the same time.
FIG. 4 is a front view showing a state of a nozzle of the spray gun.
FIG. 5 is a front view showing another embodiment of the nozzle of the spray gun.
[Explanation of symbols]
            1 Bathtub
            3 Processed material
            5 Water
          16 container (storage tank)
          29 Spray gun
          35, 36                  Crater
          37                        Annular hole
          38                        Open space (work space)

Claims (13)

Pressurized carbon dioxide is brought into contact with the member to be contacted , oil or fat on the surface of the member to be treated is separated or peeled off, and the pressurized carbon dioxide is dissolved in water to form an oxide film removing solution. In the activation treatment method for the surface of the base material, the degreasing cleaning and the oxide film removal treatment are performed by contacting the member to be treated, removing the oxide film on the surface of the treatment member, and simultaneously performing the degreasing cleaning and the oxide film removal processing. And activating the surface of the base material in an open space . The degreasing and the oxide film removal process,請 Motomeko 1 activation treatment method of the base material surface according performed in open space blocked the supply of oxygen. The degreasing and washing the oxide film removal process,請 Motomeko 1 activation treatment method of the base material surface according performed under an atmosphere of carbon dioxide. After the degreasing and oxide film removal process,請 Motomeko 2 or 3 activation treatment method of the base material surface according to plating in an atmosphere of blocking the supply of oxygen and or carbon dioxide.   The base material surface according to claim 1, wherein when reusing the treatment liquid after the degreasing cleaning or the oxide film removal treatment, the heavily contaminated treatment liquid is depressurized to reduce the solubility of carbon dioxide so that it can be discharged into sewage. Activation processing method. The pressurized carbon dioxide to allow contact with the contact member, thereby allowing separation or peeling of the oil of the treated member surface, the pressurized carbon dioxide to be generated was dissolved in water oxidation film removal solution, the oxidation In the activation treatment device for the surface of the base material , which makes it possible to contact the member to be treated with the film removing solution, remove the oxide film on the surface of the member to be treated, and simultaneously perform the degreasing cleaning and the oxide film removing treatment . The base material surface activation treatment apparatus characterized in that the degreasing and oxide film removal treatment can be performed in an open space . The base material surface activation treatment apparatus according to claim 6, wherein the degreasing cleaning and the oxide film removal treatment can be performed in an open space where supply of oxygen is blocked . The degreasing and the oxide film removal process, the activation processing unit of the base material surface according to claim 6, wherein the executable under an atmosphere of carbon dioxide. The degreasing cleaning and oxidation after film removal treatment, cut off the supply of oxygen and or activation processor of the base material surface of the 請 Motomeko 7 or 8, wherein the allowed plating under an atmosphere of carbon dioxide.   The base material surface activation treatment apparatus according to claim 6, wherein the oxide film removing solution and supercritical carbon dioxide are guided to a spray gun, and these can be ejected simultaneously from each nozzle provided in the spray gun. The base material surface activation treatment apparatus according to claim 10, wherein an annular hole communicating with a compressed air source is provided around the supercritical carbon dioxide nozzle.   The surface of the base material according to claim 10, wherein the nozzle holes are arranged apart from each other, the spray gun is movable toward the nozzle hole side of the supercritical carbon dioxide, and the oxide film removing solution and the supercritical carbon dioxide are sprayed. Activation processing device.   The base material surface activation treatment apparatus according to claim 10, wherein the supercritical carbon dioxide nozzles are arranged concentrically outside a nozzle hole of the oxide film removing solution.

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