KR102640569B1 - Coating thickness control system using gap maintenance wheel - Google Patents

Abstract

The present invention relates to a coating thickness control system using a gap maintenance wheel, which rotates around a shaft while the gap maintenance wheel is grounded to the surface to be coated, and guides the paint roller to contact the surface with uniform pressure. Accordingly, the coating thickness is maintained constant without being affected by the operator's skill level, and the paint can be applied with a uniform thickness even when applying the painting roller to an automatic painting system. In particular, when the painting roller is applied to the step area of the surface to be coated, the paint can be applied to a uniform thickness. As the structure has been improved so that the guide roller is protruded by the support arm into an expanded area compared to the outer diameter of the painting roller, and the painting roller and the surface to be coated are maintained in a state of being grounded in the negative step area where the painting roller is not in contact, the painting roller is tilted. The main components include a painting roller (10), a shaft (20), and a gap maintenance wheel (30) that can prevent variation in painting thickness due to load and improve painting quality.

Description

Coating thickness control system using gap maintenance wheel}

The present invention relates to a coating thickness control system using a gap maintenance wheel, and more specifically, the gap maintenance wheel rotates around the shaft while grounded to the surface to be coated, and the paint roller contacts the surface to be coated with uniform pressure. By guiding as much as possible, the coating thickness is maintained constant without being affected by the operator's skill level, and the paint can be applied with a uniform thickness even when applying the painting roller to an automatic painting system. In particular, the painting roller can be applied to the step area of the surface to be coated. When painting (passing), the guide roller protrudes by the support arm into an area expanded relative to the outer diameter of the painting roller, and the structure has been improved so that the painting roller and the surface to be coated remain parallel while being grounded in the concave step area where the painting roller is not in contact. Accordingly, it relates to a paint thickness control system using a gap maintenance wheel that can prevent paint thickness deviation due to the inclination of the paint roller and improve paint quality.

In general, in order to paint the exterior walls of buildings and structures, a worker hangs a workbench movable up and down on a rope using a gondola installed on the roof of the building, and then directly applies paint while the worker sits on the workbench. , workers perform painting work by climbing down a rope fixed to the rooftop.

Here, the painting work mainly uses the spray method or the roller method. In the case of the spray method, there is a serious problem of paint flying away, so most people prefer the roller method. However, in the case of the roller method, the spacing between rollers and painted surfaces is not constant depending on the operator's skill level, resulting in large variations in painting thickness and painting quality.

Accordingly, in the previously disclosed patent registration number 10-1484169, an apparatus for painting the outer wall of a building or structure includes a casing with an open surface opposite to the outer wall, and at least a device rotatably installed inside the casing to paint the outer wall. A painting unit including a painting roller unit consisting of one or more rollers, and a paint supply unit that supplies paint to an upper part of the painting roller unit; And, a winch unit detachably installed on the upper part of the outer wall and winding and unwinding at least one wire connected to the casing, and a winch unit detachably provided in front of the winch unit to interfere with the upper structure of the outer wall and the wire. A control unit including a wire guide portion that prevents and enables horizontal movement of the wire, wherein the wire guide portion includes at least one support member detachably installed on an upper portion of the front outer wall of the winch portion, and A technology including a guide member rotatably coupled to a support member to prevent interference between the wire and the upper structure of the outer wall and to enable horizontal movement of the wire has been previously proposed.

However, the prior art is intended to prevent spraying of paint and improve painting quality, but due to the structural characteristics of a plurality of gap adjusters provided on the outer wall of the casing to adjust the gap between the outer wall and the casing, the gap adjuster is installed on the painting roller unit. Because it is placed at a distance from the surface, the volume increases, and if there is a step on the painted surface, the moment the gap adjuster goes up on the stepped surface, the painting roller part moves away from the painted surface, causing a problem in that the painting thickness is reduced.

KR 10-1484169 B1 (2015.01.13.)

Accordingly, the present invention was conceived to solve the above-mentioned problem. As the gap maintenance wheel rotates around the shaft while grounded to the surface to be coated, it guides the painting roller to contact the surface to be coated with uniform pressure. In addition to maintaining a constant coating thickness without being affected by the operator's skill level, the paint can be applied to a uniform thickness even when applying the painting roller to an automatic painting system. In particular, when the painting roller is painting the stepped area of the surface to be coated, The guide roller is protruded by the support arm into an expanded area relative to the outer diameter of the painting roller, and the structure is improved so that the painting roller and the surface to be coated are maintained in parallel while being grounded in a negative step area where the painting roller is not in contact, resulting in the tilt of the painting roller. The purpose is to provide a paint thickness control system using a gap maintenance wheel that can prevent paint thickness deviation and improve paint quality.

In order to achieve this purpose, the present invention features a painting roller 10 that is provided to apply paint to the surface to be coated (1) while moving along the surface to be coated (1) by rotational movement; A shaft (20) inserted through the center of the painting roller (10) and provided to rotatably support the painting roller (10); And it is disposed at both ends of the painting roller 10, and a center hole 31 is formed in the center to rotate about the shaft 20. It is formed in a small size compared to the outer diameter of the painting roller 10, and is installed on the surface to be coated ( It is characterized in that it includes a gap maintenance wheel (30) that moves on 1) and is provided to adjust the coating thickness by spacing the painting roller (10) and the surface to be coated (1) at a predetermined interval.

At this time, the gap maintenance wheel 30 is provided to contact the surface to be painted (1) in an area expanded relative to the outer diameter of the painting roller 10 by the gap expansion module 40, and the gap expansion module 40 is, A support arm (43) extending from the center of the gap maintenance wheel (30) in the direction of the outer circumferential surface, at the end of which a guide roller (42) moving on the surface to be coated (1) is installed, and a pair of guide rollers (42) It includes a center wire 45, one end of which is connected to the 6 o'clock direction of the edge of the gap maintenance wheel 30 in a state grounded to the surface to be coated, and a weight 44 installed on the other end, and the center The gap expansion module 40 is maintained at a predetermined angle without being affected by the rotation angle of the shaft 20 due to the gravitational load of the weight 44 connected to the wire 45 and is in close contact with the surface to be coated (1). Maintaining this state, when the painting roller 10 is painting the step area P of the surface to be coated 1, the guide roller 42 is an area expanded compared to the outer diameter of the painting roller 10 by the support arm 43. It is characterized in that the painting roller 10 and the surface to be painted (1) are maintained in parallel while being grounded in a negative step area (P) that protrudes and does not contact the painting roller (10).

In addition, the gap maintenance wheel 30 is divided into two semicircular plates (30A) and is detachably fastened by a fastening means 33, and the gap maintenance wheel 30 is configured by specifications with different outer diameters, It is characterized in that it is provided to adjust the paint coating thickness by changing the gap between the painting roller 10 and the surface to be coated (1) by replacing the gap maintenance wheel (30).

In addition, the gap maintenance wheel 30 is formed of a spiral plate 30B, and is provided to be fitted into the center hole 31 by inserting a shaft 20 between the spiral plates 30B.

In addition, the gap maintenance wheel 30 is provided to adjust the gap between the painting roller 10 and the surface to be coated by moving the position by the variable module 50, and the variable module 50 has a shaft ( 20, a center block 51 is installed and a rail groove 51a is formed on the outer circumferential surface, an inner ring guide 52a is formed to be transported in a straight line on the center block 51, and a gap maintenance wheel 30 is formed on the outer circumferential surface. ( 52) It includes a center wire 45 with one end connected to the 6 o'clock direction of the edge and a weight 44 installed on the other end, and when the adjustment bolt 53 is rotated, the inner ring guide of the inner wheel 52 As (52a) moves along the rail groove (51a) of the center block (51), the rotation center of the gap maintenance wheel (30) is provided to move in position.

According to the above configuration and operation, the present invention is not affected by the operator's skill level as the gap maintenance wheel rotates around the shaft while grounded to the surface to be painted and guides the painting roller to contact the surface to be painted with uniform pressure. In addition to maintaining a constant coating thickness, the paint can be applied with a uniform thickness even when applying the painting roller to an automatic painting system. In particular, when the painting roller is painting the stepped area of the surface to be painted, the guide roller is attached to the support arm. By improving the structure so that the painting roller and the surface to be painted are maintained in parallel while being grounded in the negative step area where the painting roller is not in contact, it protrudes into an area that is expanded compared to the outer diameter of the painting roller, preventing deviation in the painting thickness due to the inclination of the painting roller. and has the effect of improving painting quality.

1 is a schematic diagram showing the overall configuration of a coating thickness control system using a gap maintenance wheel according to an embodiment of the present invention.
Figure 2 is a configuration diagram showing the change in paint thickness according to the size of the gap maintenance wheel of the paint thickness control system using a gap maintenance wheel according to an embodiment of the present invention.
Figure 3 is a configuration diagram showing a detachable gap expansion module of the coating thickness control system using a gap maintenance wheel according to an embodiment of the present invention.
4 to 5 are configuration diagrams showing a modified example of the gap maintenance wheel of the coating thickness control system using the gap maintenance wheel according to an embodiment of the present invention.
Figure 6 is a configuration diagram showing the variable module of the coating thickness control system using a gap maintenance wheel according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. Also, in describing the present invention, if it is determined that related known functions may unnecessarily obscure the gist of the present invention as they are obvious to those skilled in the art, the detailed description thereof will be omitted.

Figure 1 is a diagram showing the overall configuration of the paint thickness control system using a gap maintenance wheel according to an embodiment of the present invention, and Figure 2 is a gap maintenance diagram of the paint thickness control system using a gap maintenance wheel according to an embodiment of the present invention. It is a configuration diagram showing the change in coating thickness according to wheel size, and Figure 3 is a configuration diagram showing a detachable gap expansion module of the coating thickness adjustment system using a gap maintenance wheel according to an embodiment of the present invention, and Figures 4 to 5 is a configuration diagram showing a modification of the gap maintenance wheel of the paint thickness control system using a gap maintenance wheel according to an embodiment of the present invention, and Figure 6 is a paint thickness control system using a gap maintenance wheel according to an embodiment of the present invention. This is a configuration diagram showing the variable module.

The present invention relates to a coating thickness control system using a gap maintenance wheel, which rotates without interference around the shaft while the gap maintenance wheel is grounded to the surface to be coated, so that the paint roller contacts the surface to be coated with uniform pressure. As a guide, the coating thickness is maintained constant without being affected by the operator's skill level, and even when applying the painting roller to an automatic painting system, the paint can be applied with a uniform thickness. In particular, the painting roller is used to minimize the difference in the area of the surface to be coated. When painting, the guide roller protrudes into an area expanded relative to the outer diameter of the painting roller by the support arm, and the structure is improved so that the painting roller and the surface to be coated are maintained in parallel while being grounded in the negative step area where the painting roller is not in contact. The main components include a painting roller (10), a shaft (20), and a gap maintenance wheel (30) that can prevent coating thickness deviation due to inclination and improve painting quality.

The painting roller 10 according to the present invention is provided to apply paint to the surface to be coated (1) while moving along the surface (1) through rotation.

The painting roller 10 has a hole in the center through which a shaft 20, which will be described later, is inserted, and bristles are formed on the outer peripheral surface.

Accordingly, the painting roller 10 rotates around the shaft 20 and moves along the surface to be coated 1 to apply paint.

Meanwhile, the painting roller 10 is applied to an unmanned painting device or is used as a manual painting roller.

In addition, the shaft 20 according to the present invention is inserted through the center of the painting roller 10 and is provided to rotatably support the painting roller 10.

The shaft 20 can be applied to an automatic painting system in which both ends move while rotatably supported on a support, or to a manual painting roller in which painting is performed by connecting a handle to the shaft.

In addition, the gap maintenance wheel 30 according to the present invention is disposed at both ends of the painting roller 10, and a center hole 31 is formed in the center so that it rotates around the shaft 20.

In addition, the gap maintenance wheel 30 is formed in a smaller size compared to the outer diameter of the painting roller 10 and moves along the surface to be coated (1) at a predetermined interval between the painting roller (10) and the surface to be coated (1). It is provided to adjust the thickness of the coating by keeping them spaced apart.

That is, when the painting roller 10 is in close contact with the surface to be coated (1) as shown in Figure 1 (a), the gap maintenance wheel 30 is centered on the shaft 20 while grounded to the surface to be coated (1). As it rotates, the coating roller (10) is guided to contact the surface to be coated (1) with uniform pressure, so the coating thickness is maintained constant without being affected by the operator's skill level. In particular, the coating roller (10) is automatically applied. There is an advantage that the paint is applied to a uniform thickness even when applied to the system.

Meanwhile, Figure 2 (a) shows a state in which the coating thickness is formed relatively thin by applying a standard with a relatively large diameter of the gap maintenance wheel 30, and Figure 2 (b) shows a state in which the diameter of the gap maintenance wheel 30 is relatively small. A state in which the coating thickness is formed relatively thick by applying the standard is shown. At this time, the gap maintenance wheel 30 is prepared according to the standard and is replaceable, as shown in FIGS. 4 to 5, which will be described later.

In FIG. 3, the gap maintenance wheel 30 is provided to contact the surface to be coated 1 in an area expanded relative to the outer diameter of the painting roller 10 by the gap expansion module 40.

The gap expansion module 40 extends from the center of the gap maintenance wheel 30 in the direction of the outer circumferential surface, a pair of which is formed at different angles, and a guide roller 42 that moves along the surface to be coated 1 is installed at the end. With the support arm 43 and the pair of guide rollers 42 grounded on the surface to be coated (1), one end is connected to the 6 o'clock direction on the edge of the gap maintenance wheel (30), and a weight is attached to the other end. It includes a detachable center wire (45) on which (44) is installed.

Meanwhile, the support arm 43 can also be configured to be detachably installed in the support hole 41 formed in the gap maintenance wheel 30.

In addition, the gap expansion module 40 is maintained at a predetermined angle without being affected by the rotation angle of the shaft 20 due to the gravitational load of the weight 44 connected to the center wire 45, and the surface to be coated ( 1) It is provided to maintain close contact.

Accordingly, when the painting roller (10) paints (passes) the step area (P) of the surface to be coated (1), the guide roller (42) moves to an area expanded compared to the outer diameter of the painting roller (10) by the support arm (43). As the painting roller 10 and the surface to be painted (1) are maintained in parallel while being grounded at the concave step area (P) that protrudes and is not in contact with the painting roller (10), the painting roller (10) is tilted. It is possible to improve coating quality by preventing coating thickness deviation due to

In Figure 4, the gap maintenance wheel 30 is divided into two semicircular plates 30A, and is detachably fastened by a fastening means 33. Here, the fastening means 33 may be formed of a bolt, a hook, a hook groove, or a magnet, or one end may be connected by a bridge 32.

In addition, the gap maintenance wheel 30 is composed of different sizes with different outer diameters, so that anyone can easily replace the gap maintenance wheel 30 in the field, thereby changing the gap between the painting roller 10 and the surface to be coated (1). This has the advantage of being able to control the thickness of the paint coating.

In Figure 5, the gap maintenance wheel 30 is formed of a spiral plate 30B. That is, the gap maintenance wheel 30 is formed by forming a plate with a predetermined thickness in a spiral shape, and inserting the shaft 20 between the spiral plates 30B to fit into the center hole 31.

At this time, the spiral plate (30B) is formed to extend more than 360° and has an overlapping portion, and the outer peripheral surface of the spiral plate (30B) forms a true circle in the 360° direction due to the overlapping portion, thereby preventing rolling failure during rotation.

In FIG. 6, the gap maintenance wheel 30 is moved by the variable module 50 to adjust the gap between the painting roller 10 and the surface to be coated 1.

The variable module 50 includes a center block 51 that is inserted into the shaft 20 and has a rail groove 51a formed on the outer circumferential surface, and an inner ring guide 52a to be transported in a straight line along the center block 51. An inner wheel 52 is formed, and a gap maintenance wheel 30 is rotatably installed on the outer peripheral surface, one end is screwed to the inner wheel 52, and the other end is rotatably restrained to the center block 51. It includes an adjustment bolt 53 and a center wire 45, one end of which is connected to the 6 o'clock direction of the edge of the inner wheel 52, and a weight 44 installed on the other end.

That is, the inner ring wheel 52 is maintained at a stationary state at a predetermined angle without being affected by the rotation angle of the shaft 20 due to the pulling load in the gravity direction of the weight 44, and as a result, the inner ring guide 52a ) is generated to form a holding force forming a predetermined angle with the surface to be coated (1).

Then, when the adjustment bolt 53 is rotated, the inner ring guide 52a of the inner wheel 52 moves along the rail groove 51a of the center block 51, and the rotation center of the gap maintenance wheel 30 moves. It is provided to adjust the coating thickness by spacing the coating roller 10 and the surface to be coated 1 at a predetermined interval.

Figure 6 (a) shows a state in which the center of the inner wheel 52 is positioned to coincide with the center of the shaft 20 and the coating thickness is formed relatively thin, and Figure 6 (b) shows a state in which the center of the inner wheel 52 is aligned with the center of the shaft 20. (20) This shows a state in which the coating thickness is relatively thick by moving to the center and eccentric position.

In this way, there is an advantage in that the paint thickness can be quickly and precisely controlled in the field by finely adjusting the gap maintenance wheel 30 by a simple operation of rotating the adjustment bolt 53.

Meanwhile, a scale is marked on the corresponding position of the inner ring guide 52a and the center block 51, and the positions of the gap maintenance wheels 30 disposed on both sides of the painting roller 10 are set to be the same, or the gap maintenance wheels ( 30) can be set to the desired inclination angle and changed to suit field conditions.

As described above, the most preferred embodiments of the present invention have been described in the detailed description of the present invention, but various modifications may be made without departing from the technical scope of the present invention. Therefore, the scope of protection of the present invention should not be limited to the above embodiments, but should be recognized to the technologies in the patent claims described later and to equivalent technical means from these technologies.

10: Painting roller 20: Shaft
30: gap maintenance wheel 40: gap expansion module
50: Variable module

Claims (5)

A painting roller 10 provided to apply paint to the surface to be coated (1) while moving along the surface to be coated (1) by rotational movement; A shaft (20) inserted through the center of the painting roller (10) and provided to rotatably support the painting roller (10); And it is disposed at both ends of the painting roller 10, and a center hole 31 is formed in the center to rotate about the shaft 20. It is formed in a small size compared to the outer diameter of the painting roller 10, and is installed on the surface to be coated ( It includes a gap maintenance wheel (30) that moves on 1) and is provided to adjust the coating thickness by spacing the painting roller (10) and the surface to be coated (1) at a predetermined interval,
The gap maintenance wheel 30 is provided to contact the surface to be coated (1) in an area expanded relative to the outer diameter of the painting roller (10) by the gap expansion module (40),
The gap expansion module 40 extends from the center of the gap maintenance wheel 30 in the direction of the outer circumferential surface, a pair of which is formed at different angles, and a guide roller 42 that moves along the surface to be coated 1 is installed at the end. With the support arm 43 and the pair of guide rollers 42 grounded on the surface to be coated (1), one end is connected to the 6 o'clock direction on the edge of the gap maintenance wheel (30), and a weight is attached to the other end. It includes a center wire (45) on which (44) is installed,
The gap expansion module 40 is maintained at a predetermined angle without being affected by the rotation angle of the shaft 20 due to the gravitational load of the weight 44 connected to the center wire 45, thereby maintaining the surface to be coated 1. Maintain close contact with
When the painting roller 10 paints (passes) the step area P of the surface to be coated (1), the guide roller 42 protrudes into an area expanded compared to the outer diameter of the painting roller 10 by the support arm 43. While the painting roller 10 is grounded to the non-contacting negative step area P, the painting roller 10 and the surface to be coated 1 are maintained parallel, and the painting thickness due to the inclination of the painting roller 10 A coating thickness control system using a gap maintenance wheel, which is provided to prevent deviation.
delete According to clause 1,
The gap maintenance wheel 30 is divided into two semicircular plates 30A and is detachably fastened by a fastening means 33,
The gap maintenance wheels 30 are configured for different sizes with different outer diameters, and the paint coating thickness is adjusted by changing the gap between the painting roller 10 and the surface to be coated 1 by replacing the gap maintenance wheels 30. A coating thickness control system using a gap maintenance wheel, characterized in that it is provided to do so.
According to clause 1,
The gap maintenance wheel 30 is formed of a spiral plate 30B, and is provided to be fitted into the center hole 31 by inserting a shaft 20 between the spiral plates 30B. Paint thickness control system.
According to clause 1,
The gap maintenance wheel 30 is moved by the variable module 50 to adjust the gap between the painting roller 10 and the surface to be coated (1),
The variable module 50 is,
A center block (51) inserted into the shaft (20) and having a rail groove (51a) formed on the outer peripheral surface,
An inner wheel guide (52a) is formed so as to be transported in a straight line along the center block (51), and an inner wheel (52) is rotatably installed on the outer circumferential surface of a gap maintenance wheel (30),
An adjustment bolt (53) with one end screwed to the inner ring wheel (52) and the other end rotatably restrained to the center block (51),
It includes a center wire (45) with one end connected to the 6 o'clock direction of the edge of the inner wheel (52) and a weight (44) installed at the other end,
When the adjustment bolt 53 is rotated, the inner wheel guide 52a of the inner wheel 52 moves along the rail groove 51a of the center block 51, and the rotation center of the gap maintenance wheel 30 moves. A coating thickness control system using a gap maintenance wheel, characterized in that.

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