JPS6368353A - Polishing tool - Google Patents

Abstract

PURPOSE:To press a polishing member onto a polished surface by a large force, by installing a polished surface attracting magnet onto a casing which rotatably supports the polishing member. CONSTITUTION:In the first polishing work, position adjustment is performed by shifting a guide roller 25 consisting of a permanent magnet in the vertical direction for a casing 2 by an adjusting screw 30 so that a polishing member 4 contacts a polished surface S with a proper pressure. When an operator turns-ON a power switch by holding a handle, the polishing member 4 is revolved in the A direction through a belt 16 by a driving motor 10, and at the same time, a polishing dust collecting means is manually operated to absorb dusts from a suction pipe 32, and then a polishing tool is shifted in the B direction and polishing is performed. At this time, the guide rollers 24 and 25 consisting of permanent magnets operate the magnetic attractive force onto the polished surface S consisting of a steel plate, and the polishing member 4 is pressed onto the polished surface S by a large force. Therefore, the polishing work efficiency can be improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a polishing tool, and more particularly to a polishing tool for removing a relatively easily peeled adhesion layer present on the surface of a magnetic object. Such polishing tools are suitably used, for example, to remove surface layers of paint films that have deteriorated over time.

[Prior art and its problems] Conventionally, the exteriors of various structures and buildings have been widely painted for purposes such as surface protection and aesthetic improvement. However, when exposed to the external environment for a long period of time, the surface of the paint film gradually deteriorates and becomes brittle (for example, chalking occurs).As the paint film gradually loses its strength due to changes over time, it is generally necessary to periodically Repairs will be carried out. During repair, the chalking layer with a thickness of about 5 to 50 pm is removed to expose the effective paint film underneath, and a relief paint film is formed on top of it.

Conventionally, the removal of the chalking layer as a pre-process for such repair painting has been carried out by an operator using a polishing tool in which a drive means rotates an abrasive material in which abrasive grains are supported on a relatively soft carrier. This is done by pressing the polishing material against the surface to be polished.

Incidentally, such polishing is widely used not only for removing the chalking layer but also as a pretreatment for painting.

As the object to be polished in the above-mentioned polishing, steel, which is a magnetic material, or an appropriate layer coated on the surface thereof is often used.

By the way, in order to improve the polishing efficiency of polishing using the above-mentioned polishing tools, it is preferable to increase the size and circumferential speed of the polishing material. It is necessary to use a large one.

However, since the polishing tool is held and operated by the operator, if it is too heavy, it will be difficult to hold and operate it for a long time, so the operator will have to take frequent breaks while working. Therefore, it is difficult to improve the efficiency of polishing work.

Therefore, in the past, relatively light polishing tools have been used in order to reduce worker fatigue during polishing operations and improve the work efficiency even if polishing efficiency is sacrificed to some extent.

Note that the surface to be polished is not limited to upward-facing surfaces, but may also be sideways, crease-facing, or downward-facing surfaces, and when polishing such surfaces, the operator will experience significant fatigue from holding and operating the polishing tool. Conventionally, relatively lightweight polishing tools have been used to reduce the burden on the operator during such sharpening work.

As described above, with conventional polishing tools, it has not been possible to simultaneously improve polishing efficiency and improve the laboratory work fi rate.

Therefore, the present invention solves the problems of the prior art as described above, and provides a polishing method that can improve both the polishing efficiency and the simplification of polishing work in polishing the polished surface of a polished object made of a magnetic material. The purpose is to provide tools.

[Means for Solving the Problems] According to the present invention, the above objects are achieved by: a casing, an abrasive material rotatably supported with respect to the casing, and a drive for rotating the abrasive material. A polishing tool is provided, characterized in that it has means for doing so, and a magnet attached to the casing for attracting a surface to be polished.

[Example] Hereinafter, specific examples of the present invention will be described with reference to the drawings.

FIG. 1 is a plan view showing one embodiment of the polishing tool according to the present invention, and FIGS. 2 and 3 are parts of the polishing tool.
They are a cross-sectional front view and a partial ■-■ cross-sectional side view.

In these figures, 2 is a casing, and the casing has an opening only at the bottom. A cylindrical abrasive material 4 is arranged inside the casing. A rotating shaft 6 is fixed to the abrasive material along its axis of rotational symmetry, and the rotating shaft faces in the horizontal direction, and both ends thereof are supported by bearings 8 provided on the front and rear surfaces of the casing. (Only the bearing on the front surface is shown) allows it to be rotatably held. A pulley 9 is attached to the front end of the bearing. The abrasive material 4 is formed into a roll body made by molding a nonwoven fabric made of nylon or the like around a base material 4a, and has a grain size of #60 to ##.
It is constructed by attaching a machine member 4b in which about 600 abrasive grains of emery, garnet, etc. are dispersed and fixed.

An electric motor 10 with a continuously variable transmission serving as a driving means is fixedly supported on the upper part of the casing 2.

The output shaft 12 of the motor is rotatably held by a bearing 14. A pulley 13 is attached to the front end of the bearing. The output shaft 12 of the motor 10 is arranged horizontally parallel to the abrasive material rotating shaft 6, and the pulleys 9 and 13 attached to their front ends are located at corresponding positions, and there is a rotation drive between these pulleys. bell for force transmission)
16 are wound. These pulleys 13 to 9
A cover 18 is attached to the driving force transmission system leading to.

A handle 20 is attached to the front surface of the casing 2 for the operator to hold with one hand, and a handle 22 is attached to the drive motor 10 for the operator to hold with the other hand. There is.

On the other hand, on both left and right sides of the inside of the casing 2, there is a section where the abrasive material 4 is arranged and a partitioned section, and each of these sections is provided with a guide roller 24 made of a permanent magnet.
25 are arranged. The guide roller 25 is the support member 2
6 and is rotatably supported. The support member can move in parallel in the vertical direction along a guide member 28 fixed within the casing 2. Further, a screw 30 for adjusting the vertical position of the guide roller 25 is provided in this casing portion. That is, the screw is threadedly connected to the casing, and its lower end is connected to the support member 26 as shown in the partially enlarged sectional view of FIG.
Since the roller 25 is connected to the upper end so as to be rotatable in the vertical direction, by turning the upper end of the screw from the outside, the roller 25 moves only in the vertical direction. The structure regarding the roller 25 is the same as the guide roller 24 mentioned above.
The same applies to the structure related to .

Further, an abrasive dust suction pipe 32 is connected to the casing 2 and communicates with a portion inside the casing 2 where the abrasive material 4 is arranged. The pipe is connected to an externally arranged abrasive dust collection means.

A cord 38 is connected to the handle 22 for connecting the drive motor 10 to a power source, and
A switch 40 for the drive motor is attached to the handle z2.

In the polishing tool of this embodiment as described above, first, 2g
When the guide roller 25 is moved vertically with respect to the casing 2 by operating the J adjustment screw 30 and the roller 25 is brought into contact with the surface S to be polished, the abrasive material 4 is applied with appropriate pressure against the surface S to be polished. After that, the operator holds the nodles 20 and 22 and presses the IS switch 40 to drive the drive motor 10, thereby transmitting rotational driving force to the abrasive material 4 via the belt 16. death,
At the same time, an abrasive dust collecting means (not shown) is activated. The abrasive material 4 rotates in the direction of arrow A, and the operator
2 and move the polishing tool in the direction of arrow B. As a result, the surface to be polished is polished. Since the dust generated by Ti+ polishing is immediately sucked into the polishing dust suction pipe 32 and removed, there is no possibility that the dust will be scattered around the area.

In this embodiment, the surface to be polished S is made of a steel plate, and guide rollers 24 and 25 made of permanent magnets are attached to the surface to be polished.
exerts a magnetic attraction force, and thus the entire tool is attracted to the surface S to be polished.

As a result, even if the operator does not press the tool against the surface S with great force, the abrasive material 4 can be applied with great force to the surface S to be polished.
Polishing is carried out with good polishing efficiency and good polishing work efficiency.

FIG. 4 is a partial sectional view showing another embodiment of the polishing tool according to the present invention. This figure shows parts similar to those in Figure i2 above, and the same members as in Figure 2 are given the same reference numerals.

In FIG. 4, 25a is a guide roller made of a normal material other than a permanent magnet. The roller is a support member 26
It is rotatably supported at the lower end of a. A key 36 is formed in the downward direction F at the L end of the support means. On the other hand, a permanent magnet 42 is fixed inside the casing 2, and the magnet has a guide member 28 for the support member 26a.
a is fixed. A keyway is formed in the guide member to correspond to the key 36, so that the support member 26a can move vertically parallel to the guide member 28a. Further, an adjustment screw 30 similar to that in the embodiment shown in Figs. Since the rollers 25a are rotatably connected, by turning the upper end of the screw from the outside, the roller 25a moves only in the vertical direction.

In the wooden embodiment, by making the permanent magnet 42 vertically adjustable with respect to the casing 2, it is possible to adjust the attraction force of the magnet to the surface S to be polished.

In Figs. 1 to 4 above, the surface to be polished S is an upward facing surface, and therefore the tool is pressed against the surface to be polished from above. However, when the surface to be polished is an oblique surface, In the case of a downward facing surface, polishing can be performed in the same manner while suction is being applied.

In addition, when the surface to be polished faces downward, diagonally downward, or sideways, the force required by the operator to hold the tool in an upward or upward position is reduced, reducing worker fatigue. Therefore, even if the weight of the polishing tool is relatively large, the polishing work can be performed without taking frequent breaks, which improves the efficiency of the polishing work.

In the above practical example, a nonwoven fabric containing abrasive grains is used as the abrasive material, but in the present invention, the abrasive material may be a wire brush, a wire brush containing abrasive grains, or a flexible material with fixed abrasive grains. It is also possible to use a grid brush made of four resinous linear bodies held in the shape of a brush.

[Effects of the Invention] According to the present invention as described above, polishing can be performed while the polishing tool is attracted to the surface of the polishing object made of a magnetic material, so that the surface of the polishing object made of a magnetic material can be polished. It can be pressed against a surface, further reducing the burden on the operator in holding the polishing tool, thus making it possible to improve both polishing efficiency and polishing work efficiency.

[Brief explanation of the drawing]

FIG. 1 is a plan view showing a polishing tool according to the present invention;
FIGS. 2 and 3 are a partially sectional front view taken along the line 1--n and a partially sectional side view taken along the line 2-2, respectively. Figure 4 shows tree 9. FIG. 3 is a partial cross-sectional view showing a polishing tool according to the present invention. 2: Casing, 4: Abrasive material, IO: Drive motor, 20, 22: Handle, 24.
25: Permanent magnet guide roller, 25a Ni guide roller, 42: Permanent magnet, S: Surface to be polished. Figure 3

Claims (8)

[Claims] (1) It includes a casing, an abrasive material rotatably supported with respect to the casing, means for driving the rotation of the abrasive material, and a magnet attached to the casing for attracting the surface to be polished. Features: Polishing tools. (2) The polishing tool according to claim 1, wherein the polishing material has a cylindrical shape and rotates around its axis of symmetry. (3) The polishing tool according to claim 1, wherein the position of the magnet relative to the surface to be polished can be adjusted. (4) The polishing tool according to claim 1, further comprising a guide roller that is brought into contact with the surface to be polished. (5) The polishing tool according to claim 4, wherein the position of the guide roller can be adjusted. (6) The polishing tool according to claim 4, wherein the guide roller also serves as a magnet. (7) The polishing tool according to claim 1, wherein a handle is attached to the casing. (8) The polishing tool according to claim 1, wherein the casing is provided with a polishing dust suction means.