JPH06178957A - Roll coater - Google Patents

Abstract

PURPOSE:To decrease the operator's burden associated with coating by providing a viscometer in a coating material tank, automatically supplying and stopping a solvent, making the downstream side end of a recovery trough slidable and further, providing solvent introducing pipes within respective troughs. CONSTITUTION:The solvent is automatically supplied from a solvent tank 36 to the coating material tank 28 when the viscosity measured by the viscometer 38 in the coating material tank 28 exceeds the upper limit value of the viscosity of the coating material. The supply of the solvent from the solvent tank 36 to the coating material tank 28 is automatically stopped when the viscosity falls below the lower limit value of the viscosity. Then, the coating material in the coating material tank 28 is adjusted to the viscosity of always the specified range. The downstream side end of the recovering trough 27 is slidable. Then, the excess coating material is recovered into the coating material tank 28 during the coating operation and the washing liquid is recovered into a washing liquid tank 29 during washing of the device. Further, the inside surfaces of the guide troughs 25, 26 and the recovery trough 27 are provided with the solvent introducing pipes 34 having solvent ejection holes 35. Then, the solvent is ejected as the washing liquid from the solvent ejection holes 35 after the end of the coating operation. The respective inside surfaces of the guide troughs 25, 26 and the recovery trough 27 are thus washed.

Description

Detailed Description of the Invention

[0001]

[Object of the Invention]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a roll coater for coating the surface of plywood, for example.

[0002]

BACKGROUND OF THE INVENTION A roll coater is known as an apparatus for applying a uniform and beautiful coating to a flat plate such as plywood. This roll coater comprises a coating roll having a coating film formed on the upper and lower sides of the feeding side of a flat plate to be coated and a backup roll below it, and a reverse roll and a backup rubber roll below it on the upper and lower sides of the feeding side. Consist of the coating plate being transferred from the coating roll to the coating plate while passing the coating plate between the upper and lower rolls on the feeding side and the feeding side,
In addition, it is a device that applies paint by rubbing the paint while rotating the reverse roll in the reverse direction.

However, in this roll coater, most of the control of the viscosity of the coating material, the adjustment of the coating amount, and the cleaning after the work are done by the coating engineer, so that the burden on the worker is large and the work is dangerous. It also increases sex. Further, if the cleaning and cleaning work after the work is not carefully performed, the subsequent painting work may be adversely affected.

[0004]

[Technical Items Tried to Develop] The present invention has been made in view of such a background, and reduces the burden on the operator by automating the control of the viscosity of the paint, the adjustment of the coating amount, and the cleaning after the work. This is an attempt to develop a roll coater for the purpose of streamlining the cleaning work.

[0005]

[Constitution of the invention]

[Means for Achieving the Object] That is, the roll coater according to the first invention of the present application is a doctor roll that contacts a coating roll on the feeding side of a flat plate to be coated, a backup roll facing the coating roll from below, and a coating roll side. In addition, a reverse roll and a backup rubber roll facing downward from this are provided on the delivery side of the flat plate to be coated, and an inclined guide trough is provided in the front-back direction below both ends of the coating roll and the reverse roll. Respectively,
Collecting gutters are arranged at both inclining ends of these guide gutters, while a paint supply connected to a paint supply line extending from a paint tank is provided between the coating roll and the doctor roll and above the reverse roll. The nozzles face each other, and the paint supplied from this paint supply nozzle is applied to the upper surface of the flat plate to be coated sent from the inlet side, and at the same time, the reverse roll is rubbed against the flat plate to be coated while rotating in reverse. In the apparatus, a viscometer is provided in the paint tank, and when the viscometer detects a value exceeding the upper limit of the viscosity of the paint, the solvent is automatically supplied from the solvent tank to the paint tank, and the viscometer is When a value lower than the lower limit of the viscosity of the paint is detected, the supply of the solvent from the solvent tank to the paint tank is automatically stopped.

In addition to the above requirements, in the roll coater according to the second invention of the present application, the downstream end of the recovery gutter is slidable in the lengthwise direction, and the downstream end is used during the coating operation. Faces the paint tank, and faces the recovery liquid tank during the cleaning of the apparatus.

Further, in addition to the above requirements, the roll coater according to the third invention of the present application is provided with a solvent conduit having a plurality of solvent ejection holes formed on each inner surface of the guide gutter and the recovery gutter. The solvent conduit is connected to the solvent tank.

Furthermore, in addition to the above requirements, the roll coater according to the fourth invention of the present application is characterized in that the paint supply nozzle is configured to be rotatable upward. The above objects are achieved by these inventions.

[0009]

According to the present invention, a viscometer is provided in the paint tank, and when the viscometer detects a value exceeding the upper limit of the viscosity of the paint, the solvent is automatically supplied from the solvent tank to the paint tank. When the viscometer detects a value below the lower limit of the viscosity of the paint, the supply of solvent from the solvent tank to the paint tank is automatically stopped, so the paint in the paint tank will always have a viscosity within a certain range. Adjusted.

Further, the downstream end of the recovery gutter is slidable in the longitudinal direction, and the downstream end faces the paint tank during the coating operation and the recovery liquid tank during the cleaning of the apparatus. For example, during the painting operation, the excess paint is collected from the guide gutter into the paint tank through the collection gutter, and during the cleaning of the apparatus, the cleaning liquid is collected into the cleaning liquid tank through the guide gutter and the collection gutter.

Further, if a solvent conduit having a plurality of solvent ejection holes is provided on each inner surface of the guide gutter and the recovery gutter and the solvent conduit is connected to the solvent tank, the solvent can be used as a cleaning liquid after the coating work. The inner surfaces of the guide gutter and the recovery gutter can be cleaned by spraying from the solvent spray holes.

Further, if the paint supply nozzle is constructed so as to be rotatable upward, the tip of the paint supply nozzle is directed upward after completion of the painting work or cleaning, and the paint or cleaning liquid is automatically dropped from the nozzle. It can be prevented.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be specifically described below with reference to illustrated embodiments. Reference numeral 1 is a roll coater of the present invention,
This is composed of an apparatus main body 2, a paint adjusting section 3 and a control panel 4.

The apparatus main body 2 is an apparatus for applying a flat plate A to be coated between rotating upper and lower rolls to apply a coating, and this unit is provided with a coating roll 6 on the feeding side of the flat plate A to be coated with respect to the machine frame 5. And a backup roll 7 therebelow. A passage gap 8a for the flat plate A to be coated is formed between the coating roll 6 and the backup roll 7, and both rolls are driven by a motor M ₁ provided on the side of the machine frame 5 in the traveling direction of the flat plate A to be coated. On the other hand, they rotate in the same phase in the forward feed direction (indicated by the arrow in FIG. 3). The front side of feeding the flat plate A to be coated is defined as the front side of the apparatus main body 2 in the following description.

A doctor roll 9 is provided on the front side of the coating roll 6. This is for adjusting the state of coating film formation on the peripheral surface of the coating roll 6 by rotating the peripheral surface of the coating roll 6 while contacting the peripheral surface during the coating operation. This is rotated by the motor M _{2 in the} opposite direction to the coating roll 6, and the forward / reverse rotation of the motor M ₃ is converted into a reciprocating motion by the gear box, and is connected to the screw rod 10 protruding from the gear box. It is possible to adjust the state of contact with or separation from the coating roll 6 or the state of pressure contact with the coating roll 6.

Next, a reverse roll 11 and a backup rubber roll 12 therebelow are provided on the rear side of the machine frame 5, that is, on the delivery end side of the flat plate A to be coated. The lower surface of the reverse roll 11 and the upper surface of the backup rubber roll 12 are set to substantially the same level as the lower surface of the coating roll 6 and the upper surface of the backup roll 7, respectively, and a passage gap 8b is formed between the both rolls. The reverse roll 11 mainly has a function of rubbing the coating material transferred and adhered to the upper surface of the flat plate A to be coated by the coating roll 6, so that the reverse roll 11 is driven by the motor M _{4 in} the traveling direction of the flat plate A to be coated. It is designed to rotate in the opposite direction. Further, the backup rubber roll 12 is rotated by the motor M _{5 in the} forward direction with respect to the traveling direction of the flat plate A to be coated.

As described above, the apparatus main body 2 is provided with five rollers, of which the coating roll 6 and the doctor roll 9 are in the front movable machine frame 13, and the reverse roll 11 is in the rear movable machine frame 14. According to the thickness of the flat plate A to be coated, the front movable machine frame 13 and the rear movable machine frame 14 are vertically moved to adjust the passage gaps 8a and 8b. The tension of the drive transmission chain 15 of the motor M ₁ by the vertical movement of the front movable machine frame 13 is adjusted by the balance weight 16. At the same level as the upper surface of each of the backup roll 7 and the backup rubber roll 12,
A plurality of free rollers 17 are arranged with their axes parallel to each roll, and a transfer surface 18 is formed on the upper surface thereof.

Next, above the space between the coating roll 6 and the doctor roll 9, a flat paint supply nozzle 19 which is long in the axial direction of the roll faces the center of each roll in the width direction.
A paint supply pipe 20 is connected to the paint supply nozzle 19 from the side of the machine frame 5 as shown in FIG. This is the paint supply tube 20 driven gear 21 is provided, whereas in the driving gear 22 provided on the output shaft of the motor M ₆ is engaged, paint supply nozzle 19 is the paint feed tube by the driving of the motor M ₆ It can rotate about 20 as an axis. Incidentally, such a structure is one of the characteristic configurations of the present invention,
Accordingly, if the coating material supply nozzle 19 is rotated upward after the cleaning work is completed, it is possible to prevent the cleaning liquid from dripping from the nozzle to stain the coating roll 6 and to prevent a part of the roll surface from expanding due to the dripping. In addition to the roll coater of this embodiment, this structure can also be applied to supply nozzles for paints, inks, cleaning agents, etc. in various coating or printing apparatuses. Below the backup roll 7 or the backup rubber roll 12, a pan 22a is provided over the entire roll width so as to catch spilled paint or cleaning liquid.

A paint supply nozzle 23 faces the center of the rear of the reverse roll 11 from above, and a receiving gutter 24 for receiving the excess paint supplied from this nozzle is provided immediately after the reverse roll 11. To be
The paint supply nozzle 23 has a nozzle rotating mechanism similar to the paint supply nozzle 19.

Further, as shown in FIG. 3, the coating roll 6 and the reverse roll 11 are provided with a blade B on the upper rear side.
Is facing. The blade B has the above-mentioned paint supply nozzle 19 so that its tip can come in contact with and separate from the roll surface.
The blade B is brought into contact with the roll surface during the coating work and separated from the roll surface after the cleaning is completed.

Next, below each end of the coating roll 6 and the reverse roll 11, two guide gutters 25, 26 extending in the front-rear direction are arranged in a rearward tilted state. The guide gutter 25 is for collecting excess paint and a cleaning liquid at the time of cleaning, and receives the paint and the cleaning liquid dropped from the end portions of the coating roll 6 and the reverse roll 11 and the gutter 24. The paint and the cleaning liquid guided through the chute 24a from both ends are received.
Regarding the paint and the cleaning liquid spilled on the saucer 22a, see FIG.
In particular, although no recovery path is provided, the recovery may be performed by directly introducing it to a paint tank or a cleaning liquid tank, which will be described later, or by pouring it into the guide gutters 25 and 26.

Chutes 25a and 26b are formed at the rear ends of the guide gutters 25 and 26, that is, at the ends in the flow direction of the paint. Below the chute 25a and 26b, as shown in FIG. It is installed so as to tilt. Then, near the downstream (left side in FIG. 2) end of the recovery gutter 27, the paint tank 2
8 and the cleaning liquid tank 29 are provided side by side. Further, a cylinder 30 is provided below the recovery gutter 27, and a rod end portion of the cylinder 30 is fixed to a bracket 31 attached to a lower surface of the recovery gutter 27, while an abutment piece 3 is attached to a lower surface of the upstream side of the recovery gutter 27.
2 is formed, and two stoppers 33 are provided for the machine frame 5 on both sides of the contact piece 32.

Incidentally, such a structure is also one of the characteristic features of the present invention. When the rod of the cylinder 30 contracts, the downstream end of the recovery gutter 27 automatically reaches above the paint tank 28, and When the rod of 30 is extended, the same end portion automatically reaches above the cleaning liquid tank 29 so that the paint and the cleaning liquid can be recovered separately.
In this embodiment, a structure is adopted in which the entire recovery gutter 27 is slid in the length direction. However, an auxiliary gutter which is slidable in the length direction is provided on the downstream side of the collection gutter 27 in a stacked manner from below, and the auxiliary gutter is slid. Thus, the position of the gutter end may be switched above the paint tank and the cleaning liquid tank. Further, such a gutter or a slide structure of a part thereof can be similarly applied to various painting or printing apparatuses.

Further, inside the guide gutters 25 and 26 and the recovery gutter 27, a solvent conduit 34 having a plurality of solvent ejection holes 35 formed on both sides thereof in a substantially downward direction is provided. Incidentally, the solvent ejection holes 35 are for ejecting a solvent at the time of cleaning to clean each gutter cleanly, and this structure can be similarly applied to various painting or printing apparatuses.

Next, the paint adjusting unit 3 and each piping system for paint, cleaning liquid and solvent will be described. First of all, paint adjustment unit 3
Comprises a paint tank 28, a cleaning liquid tank 29 and a solvent tank 36. The paint tank 28 has a stirring device 3
7 and a viscometer 38. As the viscometer 38, a publicly known one can be appropriately applied. For example, when a propeller-shaped rotating body is rotationally driven by an electric motor, a change in the load applied to the electric motor according to the viscosity of the paint is regarded as a change in current value. It is something to detect. This current value is displayed and managed on the ammeter 39 of the control panel 4, and when it deviates from the range between the upper limit value and the lower limit value of the current preset in the control panel 4, the lower side of the solvent tank 36 A signal can be sent to the adjusting valve 40 to control the opening and closing thereof.

That is, when the viscometer 38 detects a value exceeding the set upper limit value of the paint viscosity of the paint tank 28, an "open" command is transmitted from the control panel 4 to the adjusting valve 40, and the solvent is discharged from the solvent tank 36. It is supplied into the paint tank 28.
When the viscometer 38 detects a value below the lower limit of the paint viscosity, the control panel 4 sends a "close" command to the control valve 40, and the solvent supply is stopped. By the way, such a configuration is also one of the features of the present invention, and by doing so, it is possible to automate the viscosity adjustment of the paint, which has hitherto been completely dependent on manpower.

Explaining the piping system, first, a pipe line is formed from the paint tank 28 through the pump P ₁ on the way, and the other end side is connected to the two paint supply pipes 20.
The pipe from the cleaning liquid tank 29 is also connected to the pipe system from the paint tank 28 before the pump P ₁ so that the paint and the cleaning liquid share substantially the same pipe. It should be noted that switching between the two is performed by the valve V on the paint tank 28 side.
_This is performed by switching the opening and closing of ₁ and the valve V ₂ on the cleaning liquid tank 29 side.

On the other hand, in the piping system from the solvent tank 36, in addition to the conduit leading to the paint tank 28 as described above, the conduit leading to each solvent conduit 34 via the pump P ₂ and each paint supply nozzle 19, 23. A pipe line is formed which communicates with the solvent ejection nozzle 41 provided adjacent to the. In addition, the supply of the solvent to each solvent jet nozzle 41 is performed by the control valve 4 from the control valve 40.
When the "open" command is transmitted to, the valve communicating with the solvent ejection nozzle 41 is opened at the same timing.

In addition to the above pipes, a pipe for supplying pressurized air is provided. That is, on the surface of the coating roll 6, the reverse roll 11, etc., a pressure air pipe 44 in which a plurality of air ejection holes 43 are formed faces, and between the pressure air pipe 44 and the air compressor 45, a pressure air supply pipe. A path is formed. Furthermore, from this pressure air supply pipeline, branch in the middle, to a paint or cleaning liquid supply pipeline, a pipeline leading to the solvent jet nozzle 41, and a pipeline leading to each solvent conduit 34,
Each is connected via a valve. By the way, in order to prevent the cleaning liquid and solvent remaining in each pipe from being pressurized by the pressure air after the painting work, the branch pipes for these pressure air are used to prevent dripping of the cleaning liquid, etc., and contamination of the roll surface due to dripping. belongs to.

The roll coater 1 of the present invention has the above-mentioned structure, and its working condition will be described below. First, with the paint, cleaning liquid, and solvent supplied to each tank, the thickness of the coating plate A is set by operating the control panel 4, and the coating roll 6 is moved up and down to automatically set the sizes of the passage gaps 8a and 8b. To decide. Recovery gutter 27
The downstream end of the is placed on the paint tank 28.

Next, the rotation speed of the rolls is determined by the control board 4, the doctor roll 9 is brought into contact with the coating roll 6, and each roll is rotated while supplying an appropriate amount of paint from the paint supply nozzle 19. Further, the blade B automatically contacts with the rotation of the coating roll 6. still,
At this time, the viscosity of the coating material is measured by the viscometer 38, and the coating material is appropriately diluted with the solvent by the opening / closing operation of the adjusting valve 40 by the above feedback control to be adjusted to a viscosity within a predetermined range. The application amount is adjusted by pressing the application amount setting button (not shown) on the control panel 4 to adjust the pressure contact state of the doctor roll 9 to the coating roll 6.

In such a state, the flat plate A to be coated is put into the passing gap 8a and while being transferred to the passing gap 8b side, the coating material on the coating roll 6 is transferred and adhered to the upper surface of the flat plate A to be coated, and the reverse roll 11 is used. Rub this paint with. In this way, the flat plate A to be coated is sequentially coated, but the excess amount of the coating material remaining on the coating roll 6 is scraped off by the blade B and flows into the guide troughs 25, 26 from both ends of the coating roll 6. It reaches the collection gutter 27 and is collected in the paint tank 28. When the viscosity of the paint rises during the painting operation, the viscometer 38 detects this and the control valve 40 opens, the solvent is supplied to the paint tank 28, and at the same time, the solvent jet nozzle 41.
Is also supplied to the coating roll 6.

Next, when the painting work is completed, the remaining paint is automatically collected in the paint tank 28 by operating the control panel 4. After that, by the rod extension of the cylinder 30, the recovery gutter 27 slides so that the downstream end of the rod moves to above the cleaning liquid tank 29, the valve V ₁ closes, the valve V ₂ opens, and this time the cleaning liquid becomes paint. It comes to flow through the pipe that was flowing. As a result, the rolls to which the paint is attached, the blade B, the guide gutters 25 and 26, the recovery gutter 27, and the inside of the pipe through which the paint is flowing are cleaned, and the cleaning liquid is recovered in the cleaning liquid tank 29 via the recovery gutter 27. . In addition, such cleaning has a cleaning time determined in advance by a timer, and is automatically performed within the set time. When this automatic cleaning is completed, the blade B automatically opens.

Further, this time, a solvent free from dirt is discharged from the solvent jet nozzle 41 and the solvent jet hole 35 to the coating roll 6,
Reverse roll 11, guide gutters 25 and 26, recovery gutter 27
And is subjected to finishing cleaning. And after the doctor roll 9 automatically separates from the coating roll 6,
The valves of the cleaning liquid and solvent supply pipes are closed, and the valves of the pressure air supply pipes are opened instead of them, and the pressure air is supplied to the coating roll 6 and the doctor roll 9.
And the solvent remaining in the coating material supply nozzles 19 and 23 and the solvent ejection nozzle 41 are discharged. After that, the paint supply nozzle 1 to prevent the liquid from dripping
9 and 23 automatically rotate upward, and finally the rotation of all rolls is stopped.

[0035]

According to the present invention, a viscometer is provided in the paint tank, and the solvent can be automatically supplied or stopped from the solvent tank to the paint tank according to the viscosity of the paint detected by the viscometer. By doing so, the viscosity measurement work, which was conventionally performed manually using a Ford cup or the like, becomes unnecessary, and the burden on the worker is considerably reduced.

The downstream end of the recovery gutter is slidable in the longitudinal direction, and the downstream end faces the paint tank during the painting operation and the recovery liquid tank during the cleaning of the apparatus. During operation, excess paint can be collected from the guide gutter into the paint tank via the collection gutter, and during cleaning of the device, the cleaning liquid can be collected into the cleaning liquid tank via the guide gutter and the collection gutter. The switching can be automatically performed.

Further, a solvent conduit having a plurality of solvent ejection holes is provided on each inner surface of the guide gutter and the recovery gutter, and the solvent conduit is connected to the solvent tank, whereby the guide gutter and the recovery gutter are separated. It can be cleaned automatically without removing each time.

Further, if the paint supply nozzle is constructed so as to be rotatable upward, the tip of the paint supply nozzle is directed upward after completion of the painting work or cleaning, and the paint or cleaning liquid is automatically dropped from the nozzle. It can be prevented.

[Brief description of drawings]

FIG. 1 is a perspective view showing a roll coater of the present invention.

FIG. 2 is an explanatory view showing the piping system of the same main member, broken away.

FIG. 3 is a vertical side view of the same.

FIG. 4 is a plan view of the same.

FIG. 5 is a perspective view showing a drive mechanism of a paint supply nozzle.

FIG. 6 is an enlarged perspective view showing a connection portion between a guide gutter and a recovery gutter.

FIG. 7 is a side view showing a lifting drive mechanism for the front movable machine frame and the rear movable machine frame.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 roll coater 2 device main body 3 paint adjustment unit 4 control panel 5 machine frame 6 coating roll 7 backup roll 8a passage gap 8b passage gap 9 doctor roll 10 screw rod 11 reverse roll 12 backup rubber roll 13 front movable machine frame 14 rear movable machine Frame 15 Chain 16 Weight 17 Free roller 18 Transfer surface 19 Paint supply nozzle 20 Paint supply pipe 21 Driven gear 22 Drive gear 22a Saucepan 23 Paint supply nozzle 24 Receptor gutter 24a Chute 25 Guide gutter 25a Chute 26 Guide gutter 26a Chute 27 Recovery gutter Paint tank 29 Cleaning liquid tank 30 Cylinder 31 Bracket 32 Abutment piece 33 Stopper 34 Solvent conduit 35 Solvent ejection hole 36 Solvent tank 37 Stirrer 38 Viscometer 39 Ammeter 40 Control valve 41 Solvent ejection nozzle 43 Air ejection hole 44 Pressure air tube 45 Air compressor A Flat plate to be coated B Blade C Cylinder M ₁ , M ₂ , M ₃ , M ₄ , M ₅ Motor P ₁ , P ₂ Pump V ₁ , V ₂ valve

Claims (4)

[Claims] 1. A coating roll, a backup roll facing the coating roll from below, and a doctor roll contacting from the side of the coating roll are provided on the feeding side of the coated flat plate, and a reverse roll is provided on the feeding side of the coated flat plate. And a backup rubber roll facing this from the lower side, further, below the both ends of the coating roll and the reverse roll, inclined guide troughs are respectively arranged in the front-back direction,
Collecting gutters are arranged at both inclining ends of these guide gutters, while a paint supply connected to a paint supply line extending from a paint tank is provided between the coating roll and the doctor roll and above the reverse roll. The nozzles face each other, and the paint supplied from this paint supply nozzle is applied to the upper surface of the flat plate to be coated sent from the inlet side, and at the same time, the reverse roll is rubbed against the flat plate to be coated while rotating in reverse. In the apparatus, a viscometer is provided in the paint tank, and when the viscometer detects a value exceeding the upper limit of the viscosity of the paint, the solvent is automatically supplied from the solvent tank to the paint tank, and the viscometer is A roll coater, wherein the supply of the solvent from the solvent tank to the paint tank is automatically stopped when a value below the lower limit of the viscosity of the paint is detected. 2. The downstream end of the recovery gutter is slidable in the length direction, and the downstream end faces the paint tank during a painting operation and the recovery liquid tank during a cleaning of the apparatus. The roll coater according to claim 1, wherein: 3. The guide conduit and the recovery conduit each have an inner surface provided with a solvent conduit having a plurality of solvent ejection holes, and the solvent conduit is connected to the solvent tank. Item 1. The roll coater according to Item 1 or 2. 4. The roll coater according to claim 1, wherein the paint supply nozzle is configured to be rotatable upward.