JPH0413028B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an improvement in a coating device for a track belt used in a tracked vehicle such as a tractor or a bulldozer.

(Prior Art) Regarding the painting of endless track belts, generally, due to the desire to maintain functionality and reduce manufacturing costs, painting is omitted at the component stage and is performed after assembly.

However, each track after assembly is 3 to 15 meters long and weighs approximately 500 to 10,000 kg.
In addition to having a weight of There were restrictions.

Therefore, as a coating method, simply spraying the paint from above the object to be coated has little effect; for example, when using the spray coating method, a more uniform coating thickness can be obtained than when using other methods. On the other hand, the overlapping portions of shoes and links, the back surface of the bushes, and the R portions around them are hardly painted.

On the other hand, the method of immersing the object to be painted in the paint solves the above problems to some extent, but
In this case, on the other hand, excessive paint adheres to the object and dries, which not only deteriorates the appearance of the product and adversely affects the product value, but also causes a large amount of paint to adhere, which is uneconomical. Such non-uniform film thickness has problems such as parts with abnormal film thickness easily peeling off, and in any case, in the field of this type of track belt, it is unreasonable in terms of coating. was.

Therefore, recently, attempts have been made to apply coating to automatic treatment facilities for surface treatment of steel strips. In other words, instead of applying oil to a strip-shaped steel plate that moves in a fixed direction, this system uses a continuous endless track strip that enters the device and uses a pair of nozzles to spray paint on its upper and lower surfaces. This is an application of the oiling device described in Japanese Patent Publication No. 48-44631, which is equipped with a mechanism and a blower mechanism for blowing air to blow off excess paint onto the sprayed paint surface.

(Problems to be Solved by the Invention) When the above-mentioned device is applied, it is possible to improve the efficiency of the painting work of the endless track belt, and the air blowing direction of the above-mentioned blower mechanism can be It is also expected that further rationalization can be achieved by installing the spray nozzle at an angle to the transport direction, as in the case of the fluid spray wiping device used for salt spray, etc.

However, the size of the track strip that is the object to be coated is not always constant, not only its length but also its width, so when a relatively wide track strip is fed into the coating equipment, However, it is difficult to obtain a sufficient air blowing effect.

In this case, it is conceivable to design the width of the blower mechanism to be larger in advance, but this is not preferable because the flow rate of the air to be blown becomes excessive, resulting in considerable waste.

Not only that, but because the air blow is always performed from a certain fixed position,
When the object to be painted has a complex shape, it is inevitable that the shape of the paint film will be uneven to some extent, which will increase the amount of paint used. I've reached my limit.

(Means for Solving the Problems) Therefore, the present invention solves the various problems in the prior art described above, and provides an economical and rational method for endless track belts that are complex and have various overlapping parts. This led to the development of a unique coating device, which includes a pair of upper and lower nozzle mechanisms that spray paint onto objects flowing in a fixed direction, and an upper and lower nozzle mechanism that applies air blow to the sprayed paint surface. A pair of blower mechanisms are installed in sequence, and at least one of the blower mechanisms is movable in a direction intersecting the flow direction of the object to be coated (width direction of the object to be coated). The present invention relates to a coating device for a track belt, which is inclined at a constant angle with respect to the flow direction of the track belt, and has each outlet oriented in the width direction of the object to be coated.

(Function) The blower mechanism is moved in a direction perpendicular to the flow direction of the object to be coated depending on the width of the track belt that is the object to be painted, and the air blow is started after adjusting the air blowing position to the most efficient air blowing position. Start by blowing away excess paint adhering to the track belt to form a uniform coating.

(Example) The specific content of the present invention will be explained below based on the illustrated example. Reference numeral 1 indicates a booth body, which is formed in a substantially box shape except for the entrance side and exit side. At the same time, a rail 2 is provided inside from the inlet side to the outlet side, and the rail 2
An entrance conveyor 11 is provided on the entrance side of the booth body 1 via a guide 11, and an exit conveyor 12 is provided on the exit side of the booth body 1 so as to be connected to the booth body 1.

Reference numeral 5 indicates an upper paint pipe, which is suspended in a direction crossing the rail 2 described above, and the upper paint pipe 5 includes:
A plurality of discharge nozzles 5a are arranged downward at regular intervals along the longitudinal direction.

Reference numeral 15 indicates a lower paint pipe, which is installed opposite to the upper paint pipe 5 from below the rail 2, and is provided with a plurality of discharge nozzles 15a corresponding to the discharge nozzles 5a of the upper paint pipe 5. The discharge nozzles 5a and 15a constitute a nozzle mechanism.

Furthermore, a lower blower 6 is disposed in a direction intersecting the rail 2, and its end is connected to a blower pipe (not shown), and the blower 6 is directed diagonally upward toward the object to be coated 13 moving on the rail 2. The air outlet is facing.

7 and 8 indicate upper blowers, which are disposed at positions displaced from the outlet of the lower blower 6, and in this case, upper blowers 7 and 8
are arranged at right angles, and each of these outlets is positioned diagonally downward toward the object 13 moving on the rail 2.

The above-mentioned upper and lower blowers 6, 7, and 8 are
Although not particularly shown, at least one of them uses a known step motor to move the object 1 to be coated.
Direction intersecting the flow direction of 3 (workpiece 1
It is configured to be movable in the width direction of 3).

In addition, 7a is the air pipe of the upper blower 7, 8a, 8
b shows the air pipe of the upper blower 8.

The above-described upper and lower blowers 6, 7, and 8 constitute a blower mechanism.

Further, 9 indicates an exhaust hood, 3 indicates a lower receiving portion of the booth main body 1, and 4 indicates a circulation device.

In the above configuration, the assembled endless track belt is placed on the entrance side conveyor 10 as the object to be coated 13 and is sequentially advanced into the booth body 1 via the guide 11 at a predetermined speed.

In the process of moving the object 13 at a constant speed, first, the phthalic acid resin paint diluted to a predetermined viscosity with thinner is applied to the object 1 from the nozzle mechanism.
At the same time, scale and oil adhering to the surface of the object to be painted are washed away by the paint liquid pressure.

Then, as it advances further and passes through a blower mechanism, it is blown with air at a predetermined amount from both the upper and lower sides as shown in FIG. At this time, at least one of the upper and lower blowers 6, 7, and 8 of the blower mechanism is moved in the width direction according to the width of the object 13 to be coated, and the air blowing is started after setting it at the optimal air blowing position. do.

As a result of this air blow, while the paint has fluidity, excessive paint P is applied to the surface of the object to be painted, even to the unpainted parts that are relatively difficult to coat, such as the overlapping parts of shoes or links and the R part on the back of the bush. While moving it toward the end face in the width direction of the painted object,
The final excess paint is blown off, and the paint film is further dried and sent out from the exit side of the booth body 1 by an exit side conveyor 12.

Due to the above, 20 to 40 μ over the entire surface of the endless track belt.
A uniform coating film can be applied.

Incidentally, since it is necessary that the paint sprayed from the above-mentioned nozzle mechanism be discharged from the nozzle without being atomized, in this case it is preferable to use a full conical nozzle or an empty conical nozzle.

In addition, regarding the air blow mechanism, it is preferable to use air blow within a range of preferably 10 to 80 C.PS so that it can be used satisfactorily even if the viscosity of the paint sprayed by the nozzle mechanism changes to some extent. Get results.

3 and 4 show another embodiment of the blower mechanism, in which the upper blower 8' is mounted in a displaced position relative to the lower blower 6.

That is, the upper blower 8' is disposed over the entire width of the object 13 to be coated and is inclined at a certain angle with respect to the flow direction of the object 13, and each of its air outlets 8'' Especially when arranged as shown in the figure, when the excess paint P on the object 13 that has been sprayed with paint reaches the first part of the blower 8', The sprayer moves sequentially along the width direction from the side end of the object to be coated, and is blown off from the other side, so that uniform coating can be applied over the entire surface of the object to be coated.

As a result of various experiments, the correlation between the paint viscosity, the surface air velocity of the blower on the object coated with the paint, and the passing speed of the object is as follows: A: Paint viscosity A ₁ = 10CST A ₂ = 30CST B: Surface wind speed of the object to be painted B ₁ = 10 m/s B ₂ = 18 m/s C: Passing speed of the object to be painted C ₁ = 4.5 m/min C ₂ = 6.0 m/min It became clear that this was as shown in the graphs in Figures a and b.

(Effects of the Invention) As described above, the coating device of the present invention includes a pair of upper and lower nozzle mechanisms that spray paint onto an object flowing in a fixed direction, and a pair of upper and lower blowers that blow air onto the sprayed paint surface. We will establish a mechanism and
Moreover, at least one of the blower mechanisms is movable in a direction crossing the flow direction of the workpiece (width direction of the workpiece), and is tilted at a certain angle with respect to the flow direction of the workpiece. Moreover, since each outlet is oriented in the width direction of the object to be coated, compared to conventional spray painting methods,
The overlapping parts of shoes or links, the R part on the back of the bushings, etc. can be sufficiently coated, and a uniform coating film can be formed even when compared with the dipping method. can.

In particular, since at least one of the blower mechanisms of the present invention is movable in a direction intersecting the flow direction of the object to be coated, it can be used regardless of the length or width of the track belt that is the object to be coated. Regardless of the situation, a sufficient air blowing effect can always be obtained within the coating equipment. In this case, there is no need to design the width of the blower mechanism to be large in advance, and even for objects with complicated shapes, the air blow position of the blower mechanism can be adjusted according to the shape of the overlapping parts and R parts. Because it can be finely adjusted, it is possible to form a uniform coating film even on overlapping parts of links and R parts, and the air flow rate and amount of paint used are always kept to a minimum, eliminating waste. The amount of paint used can be reduced by at least 30% compared to conventional painting methods.

Furthermore, the cleaning effect on the surface of the object to be coated makes it possible to omit the pretreatment steps of degreasing and scale removal, which greatly contributes to improvement in coating quality and economic efficiency.

[Brief explanation of drawings]

FIG. 1 is a vertical cross-sectional view of a main part of a coating device that is an embodiment of the present invention, FIG. 2 is a schematic plan view thereof, and FIG.
The figure is a partially enlarged plan view showing another embodiment of the blower mechanism, FIG. 4 is a front view of FIG. 3, and FIG.
Figure 6, an enlarged cross-sectional view of the essential parts showing the state of excessive paint being blown away, shows the correlation between the viscosity of the paint, the surface wind speed of the blower on the object coated with the paint, and the passing speed of the object. It is a graph. 1...Booth body, 2...Rail, 3...Lower receiver, 4...Collection device, 5...Upper paint pipe, 5
a...Discharge nozzle, 6...Lower blower, 7, 8
...Upper blower, 9...Exhaust hood, 10...
Entrance side conveyor, 11...Guide, 12...Outlet side conveyor, 13...Object to be painted, 15...Lower paint pipe, 15a...Discharge nozzle.

Claims (1)

[Claims] 1 A pair of upper and lower nozzle mechanisms 5a, 15a that spray paint onto the object 13 flowing in a certain direction.
and a pair of upper and lower blower mechanisms 6, 7, 8 that blow air onto the sprayed paint surface, and at least one of the blower mechanisms intersects with the flow direction of the object 13 to be coated. An endless track which is movable in the direction, is inclined at a certain angle with respect to the flow direction of the object 13 to be coated, and has each outlet 8'' facing in the width direction of the object 13 to be coated. Obi painting equipment.