JPH03101869A - Machine for applying coating material on floor - Google Patents

Abstract

PURPOSE:To obtain an applying machine which can apply a coating material capable of thinning a film while suppressing foaming and uniformizing the application, as well by providing a mechanism for driving an applicator which is rotationally moved along a floor surface while vertically oscillating the same. CONSTITUTION:The applicator 7 which applies a coating material soln. on the floor surface is attached to a moving machine body consisting of wheels 1, 2, a steering handle 3, a control box 4, etc. The applicator 7 made of an elastic body is rotated by a rotary cam 17 attached to the output shaft 18 of an electric motor M1. The attaching part 7a bends and deforms a rubber bar 1 by the turning force of the rotary cam transmitted by a bearing 19 and moves the applicator 7 upward and downward when the revolving cam 17 is driven. Consequently, the coating material soln. is diffused relatively widely with the uniform distribution in the hardly foaming state and the coating of the good finish is obtd.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a floor coating agent applicator in which an applicator for applying a coating agent solution to a floor surface is attached to a mobile body.

[Conventional technology]

In the above coating machine, conventionally, for example, Japanese Patent Application Laid-Open No. 633151
As shown in Japanese Patent No. 69, a drive mechanism for vertically vibrating the applicator was provided, and the coating layer could be thinned by the diffusion effect caused by the vertical vibration of the applicator.

[Problem to be solved by the invention]

Conventionally, foaming occurs in the coating agent solution on the floor due to the vertical vibration of the applicator, and the coating layer dries with the foam remaining, resulting in a poor finish such as becoming cloudy or having a rough surface. was there.

An object of the present invention is to provide a coating machine that can reduce the thickness of the coating while suppressing bubbling and achieving uniformity.

[Means to solve the problem]

In order to achieve the objective, the floor coating agent applicator according to the present invention is provided with an applicator drive mechanism that rotates the applicator for applying the coating agent solution along the floor surface while vibrating up and down. It is characterized by: The functions and effects thereof are as follows.

[For production]

Because the applicator is driven by the applicator drive mechanism, it does not vibrate vertically but rotates, and the application solution resonates with the vertical vibration of the applicator, which is effectively applied by efficiently applying horizontal force through the rotational movement. While effectively suppressing bubbling and uneven adhesion distribution caused by ripples due to resonance, the coating action is performed while effectively diffusing the coating solution through both vertical vibration and rotational motion.

〔Effect of the invention〕

Due to both the vertical vibration and rotational movement of the applicator, the coating agent solution is uniformly distributed and diffused relatively widely without foaming, resulting in a uniform coating layer thickness and smooth surface, resulting in a good finish. It has become possible to obtain a good coating, and it has also become possible to improve work efficiency by speeding up drying by making the film thinner.

〔Example〕

Next, examples will be shown.

As shown in FIG.
4), a coating agent tank (T) is installed inside the housing part (5) of the mobile body, a pair of heated air supply fans (Fl), (F1) arranged in parallel in the lateral direction of the body, and a normal temperature air supply fan (F2). At the same time, multiple coating agent supply nozzles (
6)..., elastic applicator (7), first ventilation port (8)
, a plurality of second ventilation ports (9) arranged in parallel in the lateral direction of the aircraft.
A walking-following type floor coating agent applicator is constructed by including a blower pipe (10 units).
A thermoplastic resin-based coating agent solution is poured into the coating agent tank (T) and stored, and the coating agent is applied to the floor by manually moving the aircraft on a floor made of stone, wood, concrete, or chemical flooring. It is used for coating, and the detailed structure is as follows.

That is, each of the coating agent supply nozzles (6) is arranged so as to float above the floor surface, and the liquid supply hose (
11), distribution supply device (12) and electric liquid supply pump (P)
It is connected to the coating agent tank (T) via.

The liquid supply pump (P) is controlled by the control box (4).
) is operated by the internal controller (l3),
By being arranged to remove the coating agent solution from the tank (T) and deliver it to the dispensing device (I2),
Each of the plurality of coating agent supply nozzles (6)... is connected to the supply amount by the liquid supply pump (P) and the distribution supply device (12).
The coating agent solution is supplied from the tank (T) and dripped onto the floor surface at a set flow rate determined by the number of distribution destinations.

The applicator (7) is located at the rear of the machine from the coating agent supply nozzle (6), and is attached to the applicator (7) with a bolt so that it can be easily removed for cleaning or replacement. (14) A mounting part (7a) formed by fixing a sheet metal member, between this mounting part (7a) and the sheet metal fuselage frame (15), as shown in Fig. 2 when viewed from above of the fuselage. Four rubber rods (l6) arranged in the vertical direction of the fuselage are arranged to form a rectangular loop and are arranged in a dispersed manner.
It is attached to the fuselage frame (I5) via... That is, it is attached to the fuselage frame (15) so as to be suspended and supported via a plurality of rubber rods (16).

The height of the fuselage frame (15) from the floor, and the height of the fuselage frame (l5) and the applicator (7) are adjusted so that the contact pressure of the applicator (7) with the floor surface is at an appropriate value. The intervals for each are set. A rotary cam (17) placed between the attachment part (7a) and the fuselage frame (15)
, and an electric motor (
The applicator drive mechanism (A) having the applicator (M1) is constructed as shown in FIG. 3, and enables the electric motor (M.) to drive the applicator (7) in rotational motion and in vertical vibration. That is, the rotating cam ({7) is configured to be supported by the fuselage frame (15) via the electric motor (M1) by being attached to the output shaft (L8) of the electric motor (M1) so as to rotate integrally therewith. and the controller (l3)
The output shaft (18) is rotated by the electric motor (M1) which is driven and rotated by the
It is designed to be rotationally driven at a speed of 0,000 rpm. The rotary cam (17) is formed into an eccentric rotary cam in which the center of the cylindrical outer circumferential surface of the rotary cam (17) and the vertical axis (X) of the machine body, which is the center of rotation, are shifted in the horizontal direction,
In addition, four rubber rods (I6)... are positioned to position the vertical axis (X) of the aircraft body at the center of the square loop in plan view, and furthermore, as shown in FIG. 4, a rotating cam (17) Bearing (19) with inner ring (19a) fitted externally
the mounting part (7a) via the bearing holder (20).
) is fixed to the top side of the rotating cam (17
) is driven, the mounting part (7a) is moved by the rubber rod (
While bending and deforming the applicator (7), the applicator (7) rotates along the floor surface by rotating around the vertical axis (X) of the machine at a radius equal to the eccentric distance of the rotary cam (17). In addition, the rubber rod (16) repeats bending deformation and extension restoration with the rotational movement of the attachment part (7a), and the inner ring (19a) slides up and down with respect to the rotating cam (17). This is why the attachment part (7a) moves up and down, causing the applicator (7) to vibrate up and down.

In other words, the applicator (7) rotates along the floor while vibrating up and down due to the driving force from the electric motor (M1), the eccentricity of the rotary cam (17), and the deformation of the rubber rod (16). The coating agent solution from the supply nozzle (6) is applied to the floor surface in a uniform thickness.

The first air outlet (8) is located at the rear of the aircraft body than the applicator (7), and is connected to a downward opening type air guide member (21) attached to the aircraft frame (l5) at that location. It is formed by a wind guide plate (22) attached inside the wind member (21). A pair of heated air supply fans (Fl
), (Fl) are each connected to the wind guiding member (
When the electric motor (1, i2) attached to the fan case (23) attached to the upper plate part of 2l) is operated by the controller (13), the rotating fan is driven by the electric motor (M2). The main body (24) sucks room-temperature air from outside the fan case through the intake port (25) and connects it to the heater hot wire (2).
6) through the internal air exhaust tube (23a), heated hot air heated to approximately 60°C by the heater hot wire (26), and sent into the air guiding member (2■). With this structure, the first air outlet (8) directs the heated hot air from the pair of heated air supply fans (F+) and (P+) to the floor surface after being coated with the applicator (7). It is designed to be supplied to In other words, at the point where the applicator (7) has passed and there is no longer an obstacle to the surface shape of the coating agent and the vaporization of moisture, the coating agent solution is heated with hot air, and the coating agent is plasticized and has a mirror-like surface. The coating is designed to form a smooth surface and allow moisture to evaporate easily so that the coated floor surface dries quickly.

The air pipes (10) are installed in a predetermined mounting position on the rear side of the control box (4) so that the second air outlet (9) is located at the rear of the aircraft body than the first air outlet (8) and faces downward. It is installed with.

The blower pipe (10) is connected to the room temperature air supply fan (F2) via the air hose (27), and the room temperature air supply fan (F2) is powered by an electric motor (M3) fixed to the fan case (28). is operated by the controller (13), the rotating fan body (29) driven by the electric motor (M3) sucks room temperature air from outside the fan case through the intake filter (30) and blows the air. hose(
27), all of the second ventilation ports (9) are supplied with heated warm air from the normal temperature air supply fan (F2) by the first ventilation port (8). It is designed to be supplied towards the rear floor surface. That is, room temperature air is supplied to the coated floor surface after heating with heated hot air, so that the remaining moisture is quickly removed by forced drying by air blowing regardless of heating and drying.

To construct the applicator (7), as shown in FIG. 6, the applicator main body is formed by a rubber body (31) and a coating action surface forming sheet (33) that are combined. As the application surface forming sheet (33), woven fabric, non-woven fabric, felt, paper, leather, etc. are used.

In other words, the rubber body (3) is used as a mounting member for the seat (33).
1) is relatively soft and highly elastic, and this rubber body (3L) provides cushioning properties while preventing air intake that causes foaming.
3) provides wettability for solution inclusion.

[Another example]

FIG. 7 shows another implementation structure of the applicator, in which the applicator (7) is made of a water-containing material such as a sponge, and the coating agent supply nozzle (6) is arranged so as to drop the coating agent into the applicator (7). It has been done. That is, the applicator (7) is impregnated with the coating agent solution supplied from the tank (T) and applied to the floor surface.

FIG. 8 shows another implementation structure of the applicator drive mechanism (A), in which the applicator support member (31) to which the applicator (7) is attached via the first electric motor (M4) is connected to the connecting shaft (32). The operating arm portion (31a) of the applicator support member (3l) is attached to the guide portion (33) of the machine frame (l5) so as to be able to rise and lower through the applicator support member (3l).
An eccentric rotary cam (34) fitted into an elliptical hole is attached to the fuselage frame (15) via a second electric motor (M5). Then, the eccentric rotary cam (34) is rotationally driven around the horizontal axis (Y) by the second electric motor (M,) to move the applicator support member (31) along the guide hole of the guide part (33). In addition, the first
The electric motor (M4) is configured to rotate the applicator (7) around the vertical axis (Z) of the machine body. That is, the applicator (7), the first electric motor (M4) that rotates the applicator, and the applicator support member (31) are all moved to the second
By vertically vibrating the electric motor (M,), the applicator (7) is rotated along the floor surface while vertically vibrating.

Incidentally, although reference numerals are written in the claims section for convenient comparison with the drawings, the present invention is not limited to the structure shown in the accompanying drawings.

[Brief explanation of drawings]

The drawings show an embodiment of the floor coating agent applicator according to the present invention, and FIG. 1 is a side view of the entire applicator, FIG. 2 is a bottom view of the applicator, and FIG. 3 is a line taken along ■-m line in FIG. 4 is a partially cutaway plan view of the rotary cam installation part, FIG. 5 is a sectional view taken along the line ■-V in FIG. 1, and FIG. 6 is a sectional view of the applicator. 7
The figure is a partially cutaway side view of an alternative application unit, and FIG. 8 is a partially cutaway front view of an alternative applicator drive mechanism. (7)...Applicator, (A)...Applicator drive mechanism. 5th prisoner

Claims (1)

[Claims] This is a floor coating agent applicator in which an applicator (7) for applying a coating agent solution to a floor surface is attached to a mobile body, and the applicator (7) is rotated along the floor surface while vibrating up and down. A floor coating agent applicator equipped with an applicator drive mechanism (A) for