JP3141060B2 - Coating equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001] The present invention relates to a coating apparatus for industrially forming a coating on the surface of an object having a uniform flat or curved surface.

2. Description of the Related Art As a method or means for forming a uniform coating film on the surface of an object, a coating material placed on one end of a surface to be coated is coated with a roller or a spatula. There is a method in which the film is moved in the direction of forming the coating film.
In addition, there is a method of forming a coating film on a curved surface by immersing a coating surface called a dip coating in a coating material.

[Problems to be Solved by the Invention] When more precise requests are made for the thickness of a coating film,
Conventional technology cannot cope. In recent years, in the field of electronics or electronic materials, the film thickness has been reduced and the control thereof has been strictly required.

[0004] Furthermore, the greatest problem for the uniform formation of the coating is the removal of air bubbles in the coating material.

On the other hand, maintaining the material properties of the coating material is also as important as that of the preceding paragraph ([0004]), and the prevention of oxidation and the adjustment of temperature and viscosity of the material, which is resistant to oxidation, are also important.

It is naturally important that the coating operation is continuously repeated or performed automatically.

[Means for Solving the Problems] In order to solve the above problems, first, a coating apparatus according to the present invention comprises a coating material delivery device having a housing structure which is a main part thereof, and a coating material feeding device which is arranged along a coating film direction. And moving means for continuously reciprocating.

Next, the coating apparatus according to the present invention is provided with the spacer thickness adjusting mechanism for making the coating film thickness uniform.

Next, the coating apparatus according to the present invention is provided with a defoaming means for the material in the coating material feeding apparatus which is a main part, or a coating object or its holding table outside the feeding apparatus. A defoaming vibrator group may be provided immediately below.

Furthermore, the coating apparatus according to the present invention is provided with various means for preventing oxidation of the coating material and adjusting the temperature and viscosity.

The coating apparatus according to the present invention has means for supplying coating material to a coating material delivery apparatus which is a main part of the apparatus.

It should be noted that, among the terms of the present invention used so far and also used below, the housing structure, the blade storage portion, the auxiliary side wall, and the front and rear along the coating film direction stored in the blade storage portion. The concept, meaning, and configuration of the blades and the like that make up a set of two sheets are similar to those found in the literature (Japanese Patent Application No. 5-39222). However, regarding the movement of the blades, the meaning of moving back and forth and coming close to or away from each other includes both cases where each one moves alone and cases where both move simultaneously and cooperatively. .

[Operation] In the coating apparatus according to the present invention, a housing in which the coating material contained in the apparatus does not come into direct contact with the outside air is used as a coating material delivery apparatus which is a main part of the coating apparatus. By adopting a structure, a coating film having a required film thickness can be formed on the surface of the object to be coated by moving the apparatus in the direction of the coating film.

Next, in the coating apparatus according to the present invention, the coating film is formed on the bottom surface on the coating surface side of the auxiliary side wall outside the blade storage portion of the coating material feeding device along the width direction of the coating surface. By providing a spacer corresponding to the thickness, a coating film having a desired thickness can be uniformly formed.

Subsequently, in the coating apparatus according to the present invention, a defoaming means is provided immediately below the material storage section or the coated section of the coating material delivery apparatus, or an inert gas supply provided outside the delivery apparatus is provided. The apparatus is configured to be able to supply the gas to the material storage unit, the material storage unit is provided with a temperature adjusting unit for the material, and the material storage unit is configured to more efficiently perform the temperature adjustment. The wall surface to be formed is made of a heat insulating material, the material delivery device is provided with a viscosity adjusting means for the material, and the replenishing device for the solvent is provided outside the material delivery device in order to more efficiently perform the viscosity adjustment means. Thus, the above-mentioned coating material can be used in a state where desired material characteristics are maintained, by configuring so that the solvent can be supplied to the material storage portion.

Further, by supplying the coating material into the material storage section from the replenishing device provided outside the material delivery device, continuous and automatic work of the coating film becomes possible.

[0017] [Example] Hereinafter, referring to a reluctant describing the drawings based on examples for the subject matter of the present invention. FIG. 1 is a cross-sectional view of a main part of a coating material delivery device, which is a main part of a coating device according to the present invention, as viewed from a coating film direction (P) perpendicular to the paper surface. Reference numeral 1 denotes the entire coating material delivery device having a housing structure, and at the same time represents the side wall. Reference numeral 2 denotes an auxiliary side wall attached below the side wall, and the suffixes L and R of the left and right (hereinafter the same) 2 are U-shaped groove-shaped concave portions formed along the coating film direction. The holding base of the coated object or the coated object itself,
4 is the upper surface of the width side of the holding table, and A is the bottom surface of the concave portion or the coating film surface provided along the coating film direction at the center of the width of the holding table which can hold the object to be coated. , A hatched portion B separated by upper and lower dotted lines represents a blade or a blade storage portion, t represents a sum of the thickness of a coated body and a desired coating thickness or the coating thickness itself, and W represents an upper structure. This means that illustration is omitted. Claim 1 and [001] in a state where the bottom surface of 2 and the upper surface (4) of the outer wall of 3 are in contact with each other.
As described in 2], the blade (B) provided at the lowermost part of 1 is opened, the coating material is sent out toward A, and the feeding device (1) is moved along the coating direction. By the movement, a coating film having a desired thickness is formed on A, which is also the surface of the object to be coated held at A or the surface of the object to be coated itself.

FIG. 2 shows another embodiment similar to the embodiment shown in FIG. 1. Reference numeral 5 denotes a kind of spacer having a thickness d substantially corresponding to a desired coating film thickness (t). The meanings of the symbols other than the above are exactly the same as those in FIG. After the bottom surface of the spacer 5 provided at the bottom of 2 directly contacts a part of the surface to be coated, a coating film is formed by the same mechanism as in FIG. FIG. 3 illustrates this situation. Even in the case of a thin film having a coating thickness of 100 μm to 10 μm or less, a foil-like spacer is attached to the bottom surface of 2, or a magnet is built in near the bottom of 2, and the magnetic foil or magnetic thin film is attracted by magnetic force to form a spacer. You can also.

FIG. 3 specifically shows a mechanism in which the coating material delivery device (1) moves in the direction of the coating film. The main surface method of the side wall and the auxiliary side wall of the delivery device perpendicular to the coating film direction is shown. It is principal part structure sectional drawing seen from the line direction. That is, reference numeral 6 denotes a support or suspension device for supporting the object to be coated and 7 for supporting and supporting the aforementioned 1 on the guide rail (8). Become. If a and b are the starting point and the ending point of the coating process, the two sheets opened at the point a
The blades of the set are closed at the point b, float as the movement of 1 holds and stores the material from the surface to be coated, and return to a by 9. The coating apparatus according to the present invention is an apparatus having a function and a mechanism capable of automatically processing the required number of times continuously and without human intervention, taking this as one cycle. In addition, U means that an ultrasonic vibrator or the like for defoaming the coating film body immediately after the coating film is provided along the medium direction of 1 or 6 perpendicular to the paper surface. Child group is 1
With the movement of ゝ, it moves in the direction of P from behind.

FIG. 4 is a side view of a main part of a coating material delivery device according to the present invention for explaining additional functions and mechanisms, and a conceptual drawing for explaining the functions and mechanisms of the apparatus 1. However, in that sense, it is also a view in which the side wall perpendicular to the coating film direction is removed and viewed. Reference numeral 10 denotes defoaming means for coating material uniformly provided on the inner surface of one rear wall along P along the width direction of 1 perpendicular to P. A vibrator utilizing each effect of electrostriction may be used. However, illustration of electrical connections or terminals is omitted. G is a supply port for supplying the gas from the inert gas supply device, such as nitrogen, provided outside 1 to the inside 1 when there is a possibility that the coating material may be denatured by air or oxygen. . In this case, the mechanism of the gas supply device is not particularly limited, including functions such as automatic and manual. Reference numeral 11 denotes a temperature adjusting means, which is mounted in the same arrangement as that of FIG. 10 and has a function of absorbing and generating heat, which is called an electronic thermostat, and may be used when a temperature-sensitive coating material is used. In such a case, if the lower part of each of the walls, the ceiling and the bottom part 2 as one housing structure, or the inner surface, the outer surface, or the inside thereof is made of a heat insulating agent, the above-mentioned temperature adjustment can be performed more efficiently. Numeral 12 generally indicates the presence of this thermal insulator. 13 and 14 are both 10, 11
When 13 is rotated clockwise (W ₁ ) and 14 is rotated counterclockwise (W ₂ ) with cylindrical rollers having the same arrangement as described above, the viscosity of the coating material is adjusted in cooperation with the partition plate 15. It is a good thing. Although not shown in the drawings, the same temperature adjusting means as described above can also be used by ventilating warm / cold air through the rollers. Further, S means a replenishing port for replenishing the solvent from the solvent replenishing device provided on the outside of the device, which can adjust the viscosity of the coating material, so that the viscosity can be adjusted more efficiently. I do. Such a configuration of the replenishing device is not particularly limited as in the case of the inert gas supply device.

In addition to the above embodiments, various configurations and structures are permissible as long as they do not depart from the gist of the present invention. In particular, the present invention is not limited to the drawings and the like of the above embodiments. Absent. For example, the material, structure, configuration, operation mechanism, and the like of the blade in the coating film material delivery device, which is the main device in the present invention, are not particularly restricted by the literature (Japanese Patent Application No. 5-39222). A kind of strip 2
The only spirit is that the cycle of sending and holding and sending again by opening and closing the thin blades can be performed.

[Effects of the Invention] As will be understood from the above description, the present invention has the following effects.

In addition to adopting a housing material as a coating material delivery device, which is a main part of the coating device, the delivery device having a spacer provided on the bottom surface of an auxiliary side wall of the structure is moved along the coating film direction. With this configuration, a thin and uniform coating film can be formed.

Next, a defoaming means, a temperature adjusting means and a viscosity adjusting means for the coating material are provided inside the housing structure, and a defoaming device such as a vibrator group, an inert gas supplying means and a viscosity adjusting solvent supplying means are provided. In addition to providing each outside the structure,
Since the wall surface of the above-mentioned structure is made of a heat insulating material, the coating material can be used while maintaining the desired characteristics, so that a high quality coating film can be formed.

Further, by providing the coating material replenishing means outside the structure, the material can be automatically supplied into the structure, so that the structure can be continuously reciprocated along the coating direction. In addition to adopting such a configuration, continuous and automatic work of the coating film becomes possible, which can exhibit great industrial value.

[Brief description of the drawings]

FIG. 1 is a vertical sectional view showing a main part of an embodiment of a coating material delivery device.

FIG. 2 is a longitudinal sectional view showing a main part of an embodiment of a coating material delivery device.

FIG. 3 is a main part configuration diagram showing an example of coating film formation.

FIG. 4 is a cross-sectional view of an essential part showing an embodiment of a coating material delivery device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Housing structure (side wall) 2 Auxiliary side wall 3 Holder 4 Side surface upper surface 5 Spacer 6 Coating object 7 Supporting device (suspension device) 8 Guide rail 9 Motor 10 Defoaming means 11 Temperature adjusting means 12 Heat insulating material 13, 14 Roller 15 Partition plate P Coating direction A Bottom surface B Blade (part) U Vibrator G Inert gas S Solvent M Coating material a Coating starting point b Coating end point

Continuation of front page (56) References JP-A-62-201672 (JP, A) JP-A-62-140670 (JP, A) JP-A-5-161864 (JP, A) JP-A-5-15828 (JP) JP-A-5-4066 (JP, A) JP-A 56-98368 (JP, U) JP-B 52-26751 (JP, B2) JP-B 40-8859 (JP, Y1) (58) Field surveyed (Int.Cl. ⁷ , DB name) B05C 5/00-5/02 B05C 3/12-3/18 B05D 1/26 B05C 11 / 02,11 / 10 B05C 13/00

Claims (9)

(57) [Claims] 1. A total of two sheets, one each before and after along the coating direction.
A set of blades is provided at the lowermost portion of the housing structure coating material delivery device toward the surface to be coated. Until the start of coating, the tips of the two blades toward the surface to be coated are provided. Department has housed the by Ri materials to be closed in close proximity to each other,
In contact with the holder outer wall top surface the bottom surface that can face contact with the coated surface of the auxiliary side wall on the outside of along the Hare the blade or the storage unit in the width direction of the coating film surface, and holding a coating material In this state, the set of blades is opened by moving back and forth along the coating direction and moving away from each other, and the material is delivered from the opening and the delivery device moves in the coating direction. A solvent that is formed so that a film made of the material is formed on the surface to be coated, and that can adjust the viscosity of the coating material.
Is provided outside of the coating material delivery device,
Coating device configured to supply solvent Wherein the Hare along the width direction of the coated surface the blade or
2. A coating apparatus according to claim 1, wherein a spacer corresponding to the thickness of the coating is provided on a bottom surface of the auxiliary side wall outside the storage portion which can come into contact with the coating surface. 3. The coating apparatus according to claim 1, wherein the coating material delivery device includes means for defoaming the coating material. 4. A vibrator group, which is movable in the direction of the coating film in the width direction of the surface of the coating film in synchronism with the movement of the coating material feeding device, directly below the object to be coated or its holding table. 2. The coating apparatus according to claim 1, wherein the coating apparatus comprises: 5. The coating apparatus according to claim 1, wherein the inert gas supply means is provided outside the coating material delivery apparatus so that the inert gas can be supplied into the apparatus. 6. A coating apparatus according to claim 1, wherein said coating material delivery device includes means for adjusting the temperature of the coating material. 7. The coating apparatus according to claim 6, wherein the wall surface of the coating material delivery device is formed of a heat insulating material. 8. The coating apparatus according to claim 1, wherein the coating material delivery device includes means for adjusting the viscosity of the coating material. 9. A coating material replenishing means is provided outside the coating material delivery device.
Provided on, it is configured to be supplemented with pre-Symbol material within the device
The coating apparatus according to claim 1,