JP2016043343A - Automobile coating method and coating dedicated construction booth - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an automobile coating construction method that enables a uniform and favorable coating film to be formed over the whole body of an automobile and uniforms the observation variation of a construction surface and an automobile coating dedicated construction booth.SOLUTION: By utilizing an automobile coating dedicated construction booth where a heating and drying light source and an observation light source are arranged in vicinities to each other, a reflector for condensing light fluxes of infrared rays containing visible light wavelength components in a plurality of radial directions is used for the heating and drying light source to make a state of infrared irradiation visible from inside and outside. A configuration is adopted which utilizes a booth where a light source having a sufficiently wide area to suppress an amount of variation in hue and spectrum under constructor's observation from any position and under observation of any position is used to make the interior of the booth approximate outdoor environmental light.SELECTED DRAWING: Figure 1

Description

  The present invention relates to automotive coatings, and more specifically, it is possible to visually observe the infrared irradiation state with the naked eye from inside and outside the booth using a reflector as a heat drying light source installed in the coating booth, uniform irradiation to the entire vehicle body, Alternatively, a light source with a sufficiently large area should be provided so that it is easy to grasp the irradiation state of a specific part, and the amount of change in hue and spectrum can be suppressed no matter what position the installer observes. The present invention relates to an automobile coating construction method for approximating the inside of the booth to outdoor ambient light so that there is no variation in the judgment of an observer, and a coating booth technique used in the method.

  In automobile painting technology, various appearances (appearance) such as color, gloss, smoothness, fleshiness, metallic feeling, and depth (depth) are required by users, and automobile manufacturers respond to this. Has developed coating technology. Today, the coating line has been automated for mass production, and a multi-layered coating film with uniform and uniform thickness is formed by a robot arm with finely-tuned control. The final process, whether solid or metallic The painting of the new car that comes out of will show a good finish for the beauty seen by the general consumer. However, coatings are available as a dealer option not only for luxury cars but also for small cars. This means that there are still a few finishing areas left in the painted state of new cars delivered after finishing an automated production line. Appearance such as gloss and luster is considered to be required for coating technology. Of course, even if it is not a new car, there is a higher demand for the appearance required for vehicles that are used for viewing purposes, such as classic cars and vintage cars, or showroom exhibition vehicles for sales promotion. It can be said.

Following the history of automotive coating technology, it is thought that the polymer processing that was popular in the 1970s originated. The mainstream of coatings at that time was to finish the liquid surface by adding a liquid agent mainly composed of petroleum solvent to Teflon (registered trademark) or fluorine to the painted surface using a polisher. there were. After that, various liquid manufacturers and contractors continued to seek the ideal coating agent. As a result, the coating technology expressed as “glass-based coating”, which can be called the current mainstream, developed, and various coating agents were developed. Yes. Among these glass-based coating agents, for example, a hard glass-based film having a structure similar to quartz is strongly bonded to the paint, and a glossy feeling like real glass is obtained. Some of them use ceramics to improve smoothness. In addition, liquid agents with various concepts, such as highly curable resin coatings that provide a wet film feeling and conventional polymers, have been developed and are continuing to evolve.

In parallel with the development of such coating agents, it has evolved in the same way in terms of tools and equipment such as polishers and booths. In baking coating performed by heating to a high temperature, management of temperature, humidity, heating / drying time, etc. is a very important factor. Businesses that specialize in providing services have also been found.

  The surface condition of automobiles varies greatly depending on the usage and storage conditions of new cars. Also, new models announced at international car shows by individual car enthusiasts, or valuable luxury vintage cars, etc. The purpose and effect required for coating differ depending on the type and condition. It can be said that all of the various effects such as water repellency, prevention of dirt and scratches, etc. have been dramatically improved by the development of coating agents over the past 30 years. Therefore, automotive coating companies propose optimal coatings based on client preferences, budgets, storage locations and usage conditions, body colors, usage conditions, etc., and also offer coating menus to meet the finishing needs from customers. An abundant lineup has been made and enhancement has been achieved.

However, no matter how much the development of coating agents and equipment progresses, there is a great deal of manual work, such as polishing in the base process, coating agent application process, or finishing process. Large differences may occur. Regardless of the new car, depending on the state of the coating film that is the base of the coating, the finish is greatly affected. In particular, uneven coating and uneven polishing greatly depend on the technique and observation environment of the installer. In the baking operation, it is also important to manage the distance from the light source, the irradiation time, the temperature, and the like.

  Therefore, in baking coating, it is necessary to set detailed conditions such as adjusting the temperature, time, and humidity related to heating, and to prepare an observation environment for workers who work while observing this. . Conventionally, a movable type light source used for baking painting or an automobile painting booth has been used. The use of such a car paint booth has the advantage of facilitating temperature control and preventing dust and the like from adhering. However, on the other hand, special booths for automobile painting are not used as light sources for observation, but are often just fluorescent lamps. In such a case, there is a problem that the color tone is different from the appearance.

In view of such a problem, various techniques have been conventionally proposed. For example, a technique in which the name of the invention is “a manufacturing method of a protective coating film and a booth used therefor” is a known technique (see Patent Document 1).

In addition, in Document 2, the title of the invention is “automatic coating method for automobiles”, and “starting from the process of cleaning the painted surface of the outer surface and then drying, using each process, far infrared rays are used. And a process for baking the coating agent on the painted surface by heating at a temperature of 60 to 90 degrees "is described and is a known technique (Patent Document 2). reference).

Reference 3 describes a “peelable water-based coating composition and a method for temporarily protecting an automobile skin coating film using the same”, which is a known technique. This is because a peelable water-based coating composition capable of forming a film that can be easily peeled even after a long period of time without greatly changing the adhesive force with the coating film on the outer surface of the automobile and the automobile using the composition. It is provision of the temporary protection method of an outer-plate coating film (refer patent document 3).

Reference 4 describes a “protective film forming method and apparatus for uniformly forming a protective film by applying and drying a strippable paint” with the name of the invention as “protective film forming method and apparatus”. It is a known technique. This protective film forming method includes a coating process 1 for applying strippable paint to a finished paint car, a preliminary drying process 2 for predrying the strippable paint applied to the finished paint car, and a main drying of the pre-dried finished car. The main drying step 3 is performed (see Patent Document 4). The related invention is to process each process in a dedicated booth, and requires a large site area to install each booth, and the configuration in which most of the processing steps are performed in the same booth as in the present invention It is very different.

Further, in Document 5, the name of the invention is “surface protective coating”, and the content is “a cured film for surface protection that has an appropriate surface hardness on a plastic substrate and has excellent heat resistance, weather resistance, and adhesion”. There is also provided a technique called “a method that combines productivity and economy” (see Patent Document 5).

  In any of the documents 1 to 5 shown as the above prior art, a common problem is to form a coating film excellent on the painted surface as in the present invention. However, comparing any of the above inventions with the present invention, “visualization of infrared irradiation” from the heat drying light source, which can be said to be the technical essential part of the present invention, and “observation of outdoor environmental light” from the observation light source. There is no description or suggestion about “allowing close observation” in these technical documents.

JP2013-215635A JP 07-014633 JP-A-11-001640 JP 07-080397 JP 2010-017644 A

  Uniformly forms a film layer that exhibits the excellent characteristics of each coating agent, such as brightness such as wrinkles and gloss, and durability that scratches and dirt are difficult to adhere to, on the painted body of automobiles. At the same time, the water repellent angle becomes Max from the initial stage, and it is an object to provide a coating method and a coating booth used for the method in which the possibility of water spot generation due to insufficient drying is reduced even when wet after raining. .

  In order to achieve the above object, the present invention provides a coating method for automobiles that forms a uniform and good coating film over the entire body of an automobile and averages the observation variation of the construction surface. And a construction using an automobile coating construction booth that includes a paint surface drying process, a coating process, and a coating complete drying process as basic processes, and a heat drying light source and an observation light source are arranged close to each other. The heating / drying light source can be viewed from inside and outside the booth using a reflector for condensing an infrared light beam including a visible light wavelength component in a plurality of radiation directions, and the observation light source In order to suppress the amount of change in hue and spectrum no matter what position the installer observes from which position Using a light source having a large area, the inside of the booth is approximated to outdoor environment light, and the heating and drying light source and the observation light source are at least on both side walls and the ceiling facing the depth direction from the front of the booth. By providing each one or more rows, making the infrared irradiation range irradiated from the heat drying light source visible in the coating surface drying treatment step and the coating agent complete drying treatment step, and using the observation light source The observation in the booth employs a configuration that enables observation in an environment close to outdoor environmental light.

Further, the automobile coating construction method according to the present invention is the above automotive coating construction method, after the surface treatment step of cleaning and removing foreign matter adhering to the paint surface, before the paint surface drying treatment step. Moreover, the structure which passes through the degreasing washing process for performing the degreasing washing process by a pure water is also employable.

In addition, the automobile coating construction method according to the present invention is different from the booth in the automobile coating construction method in at least the initial state in the ground treatment process and the observation of the ground after completion of the ground treatment such as cleaning and polishing. The booth is a dark room with a black interior, and adopts a configuration that incorporates an observation method for grasping the state of the paint surface by using a booth that uses a substantially point light source or a substantially linear light source as the light source. You can also.

Moreover, the automotive coating construction method according to the present invention is the above-described automotive coating construction method, wherein the heat-drying light source has any one of a plurality of wavelengths of near infrared rays, medium wave infrared rays, and far infrared rays, or a plurality of wavelengths. Using a light source capable of simultaneous irradiation by a combination of, from the relationship between the ground material with different thermal conductivity and infrared absorption rate or the relationship between the curing characteristics of the coating agent and the wavelength, from preheating and from the beginning to the end of heating, It is also possible to adopt a configuration that adopts a method of selectively using such wavelengths.

In addition, the automobile coating construction method according to the present invention is the above-mentioned automobile coating construction method, in addition to the heating means using the heating / drying light source, as a countermeasure to the coating agent that dislikes the rapid temperature rise due to infrared drying. A structure employing an air drying means, adopting a method that selectively uses depending on the type of coating agent, such as performing initial drying by the hot air drying means and then performing baking drying by infrared irradiation using the heat drying light source; You can also

The invention of the present application is an automotive coating construction booth that is used in the automobile coating construction method, forms a uniform and good coating film on the entire vehicle body, and averages the observation variation of the construction surface, and is a light source for heating and drying. And two types of light sources for observation, wherein both light sources are arranged in the vicinity of at least one row on each side of the side walls and the ceiling in the depth direction from the front of the booth, and for the heating and drying. The light source can be viewed from inside and outside the booth by using a reflector for condensing an infrared light beam containing a visible light wavelength component in a plurality of radiation directions. Regardless of the position from which to observe, the interior of the booth is set up using a light source with a sufficiently large area so that the amount of change in color and spectrum can be suppressed. It is also possible to automotive coatings dedicated construction booth, characterized in that is approximated to the ambient light.

Further, the construction booth dedicated to automobile coating according to the present invention may employ a configuration in which either or both of a position adjusting mechanism with respect to a vehicle body and an irradiation angle adjusting mechanism are provided in the heating and drying light source.

Moreover, the construction booth for exclusive use for automobile coating according to the present invention can adopt a configuration provided with a hot air drying means using a boiler in addition to the heating means using the heat drying light source or in combination.

In addition, the booth dedicated to automobile coating according to the invention of the present application can irradiate the light source for heating and drying with one of three wavelengths of near infrared, medium wave infrared, and far infrared, or a plurality of these wavelengths simultaneously. A configuration using a simple light source can also be adopted.

According to the construction booth dedicated to automobile coating and the construction booth dedicated to automobile coating according to the present invention, in the construction of a car coating (long-term durability protective film), a paint surface drying treatment process that is a pre-process of the coating agent coating process, In order to maximize the performance and effectiveness of the coating agent, in addition to avoiding the adhesion of dust by performing it in the construction booth dedicated to body coating in the two processes of coating complete drying treatment process to dry the coating Since the infrared irradiation state can be visually confirmed, in combination with the conventional control technology, an excellent effect that a better baking coating can be performed is exhibited.

In addition, according to the automotive coating dedicated construction booth method and the automotive coating dedicated construction booth according to the present invention, each coating, such as brightness such as wrinkles and gloss, durability that scratches and dirt are difficult to adhere to the painted surface of the automobile body, etc. The film layer that exhibits the excellent properties of each agent can be molded uniformly, and the water repellent angle is maximized from the initial stage. An excellent effect that the possibility of occurrence can be reduced is exhibited.

  In addition, according to the automotive coating dedicated construction booth method and the automotive coating dedicated construction booth according to the present invention, the observation light source can be observed from any position, regardless of the position, regardless of the color or spectrum. Since the inside of the booth is approximated to outdoor environment light using a light source having a sufficiently large area so that the amount of change can be suppressed, it is possible to prevent variations in individual judgments of the installer.

  In addition, the booth method dedicated to automobile coating according to the present invention and the visualization of the infrared irradiation situation using a reflector are the expected of the owner who waits with the expectation of the finish of his car, with the beautifully emitted luminous flux. It produces a stunning effect that responds to the feeling and can also perform advertising functions such as customer attraction.

In addition, in the automobile coating construction method according to the present invention, when implemented in a configuration including a degreasing cleaning step, it is possible to prevent impurities remaining in the water from remaining compared to cleaning tap water. Therefore, the excellent effect that the factor which obstructs adhesion with a coating agent can be eliminated is exhibited.

  In addition, in the automobile coating construction method and the dedicated construction booth according to the present invention, when the heating and drying light source adopts a configuration in which the distance and angle can be adjusted, for example, a tall wagon car and a low vehicle height. In a sports car, the reflector can visually check the deviation of the infrared irradiation area, so the distance and angle can be adjusted as the vehicle height changes, and the excellent effect of enabling uniform infrared irradiation over the entire vehicle body is achieved. Demonstrate.

  In addition, in the automobile coating construction method according to the present invention, in addition to the heat drying light source, in the case of using a booth provided with heating drying means using a boiler, when using only one or both And can be selected. In normal booths, only one of them is equipped. Compared with these, for example, when the temperature is low, such as early morning in winter, both can be used in the preheating stage. The booth can be warmed up over time. On the other hand, in the case of overheating of a coating agent that does not like rapid temperature changes or when it is better to cool over time, either of the two types of heating devices is used to obtain the desired effect. You may choose.

  Moreover, in the construction booth dedicated to automobile coating according to the present invention, when the light source for heating and drying to be used is selected and irradiated from three wavelengths of near infrared, medium wave infrared, and far infrared, these different wavelengths In the case of a configuration using a light source capable of simultaneous irradiation by combining different thermal conductivity and infrared absorptivity of iron, aluminum, resin, etc., or the coating film of an automobile such as a solid type or metallic type In addition, an excellent effect that more detailed settings can be made even with different reflected light distributions is achieved.

It is the whole explanatory drawing of the construction booth only for automobile coating concerning the present invention. It is use condition explanatory drawing of the construction booth only for automobile coating concerning the present invention. It is visualization explanatory drawing of the infrared irradiation which concerns on this invention. It is an irradiation condition contrast diagram of the light source for heat drying which concerns on this invention, and the light source for observation. It is an enlarged view of the visualization part concerning the present invention. 3 is a flowchart according to claim 1 of the present invention. 3 is a flowchart according to claim 2 of the present invention. It is the use condition explanatory view which looked at the inside of the booth concerning the present invention from the outside.

  The present invention uses a booth dedicated to automotive coating in which a heat drying light source and an observation light source are arranged in the vicinity of each other, and collects an infrared light beam including a visible light wavelength component in a plurality of radiation directions in the heat drying light source. Using a reflector to illuminate, the infrared irradiation state can be seen from inside and outside the booth, and the observation light source can be seen from any position, any position, regardless of the position of the shade or spectrum. The most characteristic feature is that it uses a booth having a configuration in which the inside of the booth is approximated to outdoor environment light by using a light source having a sufficiently large area so that the amount of change can be suppressed. Hereinafter, description will be given based on the drawings.

FIG. 1 is an overall explanatory view of a construction booth 10 dedicated to automobile coating according to the present invention, and FIG. 2 is an explanatory diagram of a use state of the construction booth 10 dedicated to automobile coating according to the present invention. As shown in FIG. 1, the automobile coating dedicated construction booth 10 is composed of left and right side walls BK, a floor BY, a ceiling BT, a back wall BO, and a door BD that opens on the front side. A heating / drying light source 20 and an observation light source 30 are provided at the position, a heating / drying light source 20, an observation light source 30 and a ventilation window 40 are provided on the ceiling BT, and an observation wall is provided on the back wall BO. A light source 30 and a ventilation port 50 are provided. The front door BD is provided with an observation window 31 so that the internal situation can be seen from the outside.
In addition, when the opening door BD is opened and closed due to the entry / exit of an operator, a rapid temperature change occurs. Therefore, it is desirable to have a double wall structure with a distance. Further, it is more preferable to install a dustproof filter so that dust and dust do not enter from the ventilation window 40.

Although not shown in the drawings, the construction booth 10 dedicated to automotive coating according to the present invention is provided with a heating drying boiler J in addition to the heating drying light source 20, and two types of heating devices are provided. By using separately or in combination, a wide and delicate temperature control can be realized. Such temperature management commands are operated from an operation panel 60 installed outside, a terminal in a separate room in which a monitor or the like is installed, and the like. In addition, the structure provided with the ventilation apparatus F, the air conditioner E, or the air cleaner F is desirable. Boiler J is a general heating device that generates steam from combustion gas and warms the booth, and is a heating device that is completely different from the light source 20 for heating and drying. Two types of heating devices are used separately or in combination, for example, when maintaining a constant temperature or when cooling gently.

The observation light source 30 can suppress the amount of change in color and spectrum regardless of the position observed by the installer when observing the spots or glossy state due to the coating. The light source 30 has a sufficiently large area and is used as an observation light source 30 to approximate the interior of the automobile coating booth 10 to outdoor environment light. The fluorescent lamp used for the observation light source 30 has a white color rendering. Use special fluorescent lamps. The special fluorescent lamp for color rendering is expressed as an index of the color shift that occurs when the light source to be measured illuminates the color chart for color rendering evaluation based on comparison with the standard light defined by JIS (Japanese Industrial Standards). The color rendering index includes an average color rendering index (Ra) and a special color rendering index (R9 to R15), and the average color rendering index (Ra) is an average of the color rendering indices for eight colors (R1 to R8). The special color rendering index is red (R9), yellow (R10), green (R11), blue (R12), western skin color (R13), leaf color (R14), Japanese skin There are seven types of colors (R15), and these are selected as appropriate with reference to the special color rendering index.

The installation location of the observation light source 30 is a position where the state of unevenness, skin, scratches, spots, dirt, and spots on the painted surface of the entire vehicle can be confirmed from all angles. For this reason, the vehicle is installed at a position where illumination is evenly applied to the upper surface portion, side surface portion, and front and rear portions of the vehicle. In addition, the specific installation position is, for example, from a car with a low vehicle height, such as a sports car, to a position where there is no blind spot even with a tall wagon car or a car of any vehicle shape and size. Deploy. For example, in the embodiment shown in FIGS. 1 and 2, the heating and drying light source 20 provided to irradiate the lower, front and rear fenders, doors, and pillars with infrared rays is 70 cm above the floor BY on the side wall BK. In this example, the light source 25 is placed at a position where the center is located, and is further installed at a height of 250 cm from the floor BY in order to irradiate infrared rays from the side upper surface to the pillar portion.

The heat drying light source 20 is installed in the vicinity of the observation light source 30 and heats the inside of the booth by irradiation with infrared rays so as to obtain an optimum temperature for curing the coating agent. With respect to the upper part of the ceiling BT and the side wall BK, the brightness is secured on the basis of 2000 lux or more, and the lower part of the side wall BK is secured on the basis of 1500 lux, and the color temperature is secured at 5000 kelvin or more. In addition, infrared rays that are outside the visible light region are not visible, but by including a visible light region component, the infrared light is condensed in the radiation direction and used as the visualization light 21.

As the heat drying light source 20, a light source capable of simultaneous irradiation by any one of the three wavelengths of near infrared, middle infrared, and far infrared, or a combination of a plurality of wavelengths is used. Thermal conductivity and infrared absorption Depending on the relationship between the base materials having different rates or the relationship between the curing characteristics of the coating agent and the wavelength, it is possible to selectively use the wavelength during the preheating and the initial period from the heating to the end. In the case of such a configuration, for example, if a near-infrared wavelength is used, not only the surface of the coating rises quickly but also penetrates through the coating film to the ground metal layer and acts on the iron plate to conduct heat from the coating. In addition, in the mid-infrared, the wavelength is very close to the heat absorption rate of the solvent. In addition, the bent portion can be efficiently dried.

In addition, when coating with a coating agent that dislikes the rapid rise in temperature due to wavelength and infrared drying, after performing initial drying by boiler drying, infrared baking is performed using a triple wave carbon heater device with a wide wavelength range. It can be used properly according to the type of coating agent, and can be in an ideal dry state.

The heating / drying light source 20 installed in the booth shown in the photographs shown in FIGS. 4, 5 and 8 shows an embodiment in which the triple wave carbon heater device is used. The triple wave carbon heater device generates three wavelengths of near infrared, mid infrared, and far infrared rays at the same time, and is characterized by the near infrared wavelength. The wavelength that penetrates to the layer, acts on the iron plate and conducts heat from the paint, and the wavelength that is characteristic of the medium wave is very close to the heat absorption rate of the solvent, so there is little reflection on the surface and the whole from the bottom of the coating film It is a light source that can take advantage of the characteristics that it can be efficiently and evenly dried, there is almost no difference in drying time depending on the paint color, and a bent portion can be efficiently dried.

The ventilation system is not particularly shown, but in order to prevent dust and the like from sticking to the coating layer, a ventilation window 40 and a ventilation device are installed at the front of the ceiling BT or booth, and dust / dust is removed from the ventilation window 40. A dustproof filter is installed to prevent intrusion, and a ventilation port 50 and an exhaust device are installed in the rear to design a forced air flow from front to back. Prevents sticking. Moreover, the temperature difference in a booth is eliminated with such an apparatus.

FIG. 3 is an explanatory diagram for visualizing infrared irradiation according to the present invention. The light source 20 for heating and drying according to the present invention is provided with a plurality of reflecting mirrors 22 (reflectors) on the back side of the light source 25, and condenses an infrared light beam including a visible light wavelength component in a plurality of radiation directions. Is visible from inside and outside the booth.
Infrared rays deviating from the visible light region do not appear to the eye, but by including a visible light region component, the infrared light is condensed in the radiation direction for visualization. It is also desirable to employ a configuration in which the heating / drying light source 20 is provided with either or both of a position adjusting mechanism and an irradiation angle adjusting mechanism for the vehicle body K of the automobile. The position adjustment mechanism adjusts the distance in the straight movement region 23 when the linear distance to the vehicle body is different on the left and right, and the irradiation angle adjustment mechanism has an irradiation angle on the left and right in relation to the vehicle body K of the automobile. In different cases, the angle in the angle region 24 is adjusted.

  FIG. 4 is an overall irradiation state view of the heat drying light source 20 and the observation light source 30 according to the present invention. FIG. 4A shows a state in which light is emitted only by the heating and drying light source 20, and FIG. 4B shows a state in which light is emitted only by the observation light source 30. In particular, FIG. 4A shows that it is clearly visible as the visible light 21 that the irradiation state of infrared rays including the visible light region component is radiated from the light source 20 for heating and drying. FIG. 4B shows that the vehicle body K is illuminated uniformly from the observation light source 30 with uniform diffused light.

  FIG. 5 is a partially enlarged view of the irradiation state of the heat drying light source 20 and the observation light source 30 according to the present invention. FIG. 5A shows an irradiation state from above, and FIGS. 5B and 5C show a state where light is emitted only by the observation light source 30, respectively. FIG. 5 shows FIG. 4 more clearly.

  FIG. 6 is a flowchart showing the steps of the entire automobile coating construction method according to claim 1 of the present invention. The construction method includes at least each of a base treatment process 100, a paint surface drying process 110, a coating process 120, a coating complete drying process 130, and a finishing process 140. Note that “* 1” in FIG. 6 and FIG. 7 indicates a process of using the automobile coating construction booth 10 according to the present invention, and “* 2” is necessary before and after each process. This indicates that it is desirable to observe using another booth 15 different from the booth. However, the observation by the separate booth 15 may be performed as necessary, and is not an essential requirement of the present invention.

The separate booth 15 has a black dark room inside to prevent diffusion and scattering, and a light source 25 uses a substantially point light source or a substantially linear light source such as a highly directional halogen lamp H. This is a booth that grasps the reflection distortion from the paint surface without scattering. In particular, this booth is suitable for grasping in detail the coating state before coating. By adopting such an observation method in combination, it is possible to clearly understand the degree of finish etc. for the required quality.

  The surface treatment process 100 is generally performed to clean the entire vehicle body K, remove foreign matter (iron powder, pitch tar, etc.) on the paint surface, and polish the paint surface by machine and manual work (removal of paint stains and scratches). )I do.

  The coating surface drying treatment step 110 generally includes the step N of applying the coating agent immediately after the base treatment step 10 or after the degreasing washing treatment, but the water is applied when the car is washed. Depending on the type of coating, film formation due to chemical bonding of the coating agent may be hindered. Therefore, the coating is applied after completely drying by infrared irradiation with the heat drying light source 20. It is supposed to go through a process.

In the coating process 120, spray coating or hand coating is performed in the same manner as normal coating.

  In the coating complete drying treatment step 130, the temperature at the time of baking and drying the coating surface is 60 degrees to 80 degrees or less, and the heat irradiation is performed for about 30 minutes. When the heating temperature is 80 ° C. or higher, there is a possibility that the iron plate may be distorted or parts such as resin may be dissolved. Regarding temperature management, it is desirable to control the temperature to be kept at a set temperature by automatically repeating ON / OFF within a set time by setting an upper limit of 80 degrees using a laser temperature sensor or the like.

In the finishing process 140, the final polishing process and the presence or absence of unevenness are observed. If there is a reworked part, it corresponds to this.

  FIG. 7 is a flowchart showing the steps of the entire automobile coating enforcement method according to claim 2 of the present invention. A configuration is adopted in which a degreasing and cleaning step 105 is performed between the base treatment step 100 in FIG. 6 and the pre-base coating surface drying treatment step 110. Steps common to the steps described in the description of FIG. 5 are omitted.

The degreasing cleaning step 105 is a step of cleaning the painted surface of the vehicle body K with pure water by a reverse osmosis membrane filtration device. Even in a normal case, when a careful coating treatment is performed, a degreasing treatment with tap water may be performed after the base treatment step. However, even if clean tap water is clean, it contains minerals such as calcium and magnesium, and also contains harmful substances such as chlorine and lead. Impurities that remain are a factor that hinders adhesion to the coating. Note that water once boiled may be used as a method for removing trihalomethane, which has been regarded as a problem in recent years, but there are many impurities that cannot be removed by boiling, and treated water by such boiling is not sufficient.

  As described above, generally, a step of applying a coating immediately after degreasing and washing is performed, but water may have penetrated into the paint when the car is washed. Since formation may be hindered, a step of applying the coating is performed after completely drying with an infrared heater.

FIG. 8 shows the usage state of the automobile coating construction booth 10 according to the present invention. In addition to the technical effect described above, the effect obtained by setting the infrared irradiation state as the visualization light 21 is that a production effect is exhibited as a by-product effect. That is, when viewed from the client who requested the coating, a scene as if his own car was taking a shower of light can be seen from the observation window 31, and the technical aspects such as high quality due to such effects. It also has the effect of generating reliability, superiority and satisfaction from

In addition, according to the method according to the present invention and the construction booth 10 dedicated to automobile coating, it is possible to uniformly irradiate the entire vehicle body K with infrared rays from the heating and drying light source 20, By using the air conditioner E and the air purifier F together, the coating is not limited to drying. For example, heating during peeling of the car film and acceleration of drying after application can be used. It can be used for a wide range of applications, such as for promoting the drying of the entire interior of the vehicle, including the seats.

DESCRIPTION OF SYMBOLS 10 Automotive coating exclusive construction booth 20 Heating and drying light source 21 Visible light 22 Reflecting mirror 23 Straight movement area 24 Angle area 25 Light source 30 Observation light source 31 Observation window 40 Ventilation window 50 Ventilation opening 60 Operation panel 100 Ground treatment process 105 Degreasing cleaning process 110 Paint surface drying process 120 Coating process 130 Coating complete drying process 140 Finishing process H Halogen lamp J Boiler E Air conditioner F Air cleaner K Car BK Side wall BY Floor BT Ceiling BO Back wall BD Open door BB Dark room Booth SS Outdoor light

In order to achieve the above object, the present invention provides a coating method for automobiles that forms a uniform and good coating film over the entire body of an automobile and averages the observation variation of the construction surface. And a construction using an automobile coating construction booth that includes a paint surface drying process, a coating process, and a coating complete drying process as basic processes, and a heat drying light source and an observation light source are arranged close to each other. The heating and drying light source is provided with a reflector for condensing and collecting infrared luminous flux containing visible light wavelength components at a plurality of different radiation angles, and the infrared irradiation state can be visually observed from inside and outside the booth . Regardless of the position from which the installer observes or the position of the observation light source, the amount of change in color and spectrum Suppressed As described above, by using the light source having a sufficiently large area, to approximate the viewing environment within the booth visual outdoor viewing environment visually, the heating drying light source and the observation light source, the booth Irradiation of infrared rays emitted from the heating and drying light source in the coating surface drying treatment step and the coating agent complete drying treatment step, with at least one row on each side wall and ceiling facing the depth direction from the frontage. It is possible to observe the range with a contrast at the different irradiation angles, and by using the observation light source, it is possible to observe in an environment in which the observation environment in the booth is visually approximated to the outdoor observation environment by visual observation. The structure which becomes is adopted.

In addition , the automobile coating construction method according to the present invention is used in the automobile coating construction method, and forms a uniform and good coating film on the entire vehicle body, and at the automobile coating construction booth that averages the observation variation of the construction surface. The light source for heating and drying and the light source for observation are provided, and both the light sources are adjacent to each other on at least one row on each side of the side walls and the ceiling from the front of the booth in the depth direction. The heating and drying light source is equipped with a reflector that concentrates the infrared light flux containing visible light wavelength components at a plurality of different radiation angles, and the infrared irradiation state can be viewed from inside and outside the booth. And
The observation light source is arranged in the longitudinal direction in the booth so that the amount of change in color and spectrum can be suppressed no matter what position the installer observes from which position. A light source having a sufficiently large area may be adopted, and a construction booth dedicated to automobile coating, characterized in that the visual observation environment in the booth is approximated to the visual outdoor observation environment .

Claims (9)

A coating method for an automobile that forms a uniform and good coating film on the entire body of an automobile and averages the observation variation of the construction surface, including a base treatment process, a paint surface drying treatment process, a coating treatment process, , Consisting of a configuration using an automobile coating construction booth that includes a coating complete drying treatment process as a basic process and arranges a heat drying light source and an observation light source in the vicinity of each other,
In the heating and drying light source, the infrared irradiation state is visible from inside and outside the booth using a reflector for condensing an infrared light beam including a visible light wavelength component in a plurality of radiation directions,
The light source for observation uses a light source having a sufficiently large area so that the amount of change in color and spectrum can be suppressed no matter what position the installer observes from any position. The inside is approximated to outdoor ambient light,
The light source for heating and drying and the light source for observation comprise at least one row on each side wall and ceiling facing the depth direction from the front of the booth,
In the coating surface drying treatment step and the coating agent complete drying treatment step, the infrared irradiation range irradiated from the heating and drying light source can be visually observed, and the inside of the booth is outdoors by using the observation light source. An automobile coating construction method characterized in that observation is possible in an environment close to. In the automobile coating method, degreasing for performing degreasing cleaning with pure water after cleaning and removing the foreign matter adhering to the coating surface and before the coating surface drying processing step. 2. The automobile coating method according to claim 1, wherein the method is subjected to a cleaning process. In the automobile coating construction method, at least in the initial state in the ground treatment process, and at the time of observation of the ground after completion of ground treatment such as cleaning and polishing, the booth is different from the booth, and the inside is a black dark room shape. The automobile according to claim 1 or 2, wherein an observation method for grasping the state of the painted surface is adopted by using a booth that uses a substantially point light source or a substantially linear light source as a light source. Coating construction method. In the automobile coating method, the light source for heating and drying uses a light source capable of simultaneous irradiation by any one of the three wavelengths of near infrared, middle infrared, and far infrared, or a combination of a plurality of wavelengths, Claims characterized by adopting a method of selectively using such wavelengths during preheating and from the beginning to the end of heating from the relationship between base materials having different conductivities and infrared absorption rates or the relationship between the curing characteristics and wavelengths of coating agents. The automobile coating construction method according to any one of claims 1 to 3. In the automobile coating construction method, as a measure for a coating agent that dislikes a rapid temperature increase due to infrared drying, in addition to the heating means by the heating and drying light source, a hot air drying means by a boiler is provided, and the hot air drying means 5. The method according to any one of claims 1 to 4, wherein a method of selectively using the coating agent according to the type of coating agent is adopted, such as baking by infrared irradiation using the light source for heat drying after the initial drying. The automobile coating construction method according to crab. An automobile coating construction booth used in the automobile coating construction method, which forms a uniform and good coating film on the entire vehicle body and averages the observation variation of the construction surface,
Equipped with two types of light source: a heat drying light source and an observation light source,
The two light sources are arranged in the vicinity of each other at least one row on each side of the side walls and the ceiling facing the depth direction from the frontage of the booth,
In the heating and drying light source, the infrared irradiation state is visible from inside and outside the booth using a reflector for condensing an infrared light beam including a visible light wavelength component in a plurality of radiation directions,
The light source for observation uses a light source having a sufficiently large area so that the amount of change in color and spectrum can be suppressed no matter what position the installer observes from any position. A booth dedicated to automobile coating, characterized by the interior being approximated by outdoor ambient light. The construction booth dedicated to automobile coating according to claim 6, wherein the heat-drying light source is provided with either or both of a position adjusting mechanism with respect to a vehicle body and an irradiation angle adjusting mechanism. In the construction booth dedicated to automobile coating,
The construction booth dedicated to automobile coating according to claim 6 or 7, further comprising a hot air drying means using a boiler in addition to or in combination with the heating means using the heat drying light source. The light source for heating and drying uses a light source capable of simultaneously irradiating any one of three wavelengths of near infrared rays, medium wave infrared rays, and far infrared rays, or a plurality of these wavelengths. A construction booth dedicated to automobile coating according to any one of claims 6 to 8.