RU28461U1 - MANUAL GRINDING TOOL - Google Patents

Abstract

1. A manual grinding tool containing a wood base and a working abrasive layer fixed to the base surface of a wood base, characterized in that the working abrasive layer of the tool is preformed by solid phase sintering and contains silicon carbide as an abrasive material, as a bakelite resin and a filler as a binder in the following ratio of components, wt.%: Silicon carbide 75 - 90 Bakelite resin 5 - 15 Filler (cryolite) Else 2. The manual grinding tool according to claim 1, characterized in that it contains holes made in the body of the molded working abrasive layer perpendicular to the working surface of the tool, and the total area of the holes is selected from the condition S = (0.2-0.6) S where S is the total area holes; S is the area of the working surface of the tool. 3. The manual grinding tool according to claim 2, characterized in that the holes are arranged in rows along the large horizontal axis of the tool. A hand-held grinding tool according to claims 2 and 3, characterized in that the holes have a circular shape of different diameters. 5. A manual grinding tool according to claims 1 to 4, characterized in that the tool is equipped with a handle rigidly connected to the wood base.

Description

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MANUAL GRINDING TOOL

The utility model relates to hand-held grinding tools designed for surface treatment of non-metallic non-metallic materials, and can be used in construction during finishing works, for example, for grouting the plaster layer and putty surfaces of walls and ceilings of buildings and structures.

Known manual grinding tool for machining shaped surfaces, containing a profile mandrel connected to a handle with a longitudinal groove, on which abrasive material (grinding skin) is placed, see RF patent No. 2005058, cl. B24D15 / 02.1991 g.

The closest in technical dryness and the achieved result is an abrasive lapping tool for processing non-metallic materials containing a wood base and a working abrasive layer fixed to the base surface of the wood base, see RF patent No. 2051781, cl. B24D13 / 20.17 / 00.1993 g.

MKI B24D15 / 02

A disadvantage of the known manual grinding tools is their narrow technological capabilities, due to the physicomechanical properties of the working bunk: “base material - abrasive material.

In addition, using well-known grinding tools, it is impossible to process the surfaces of non-metallic steep materials during finishing works in construction, for example, for grouting the plaster layer and putty surfaces of walls and ceilings of buildings and structures.

In the process of using the known hand-grinding tools, a low flatness of the working surface of the tool is observed, due to the fact that, due to the roughness of the processed surface, the abrasive particles of the working abrasive layer of the tool begin to come off (peel, wear) in certain places, thereby the working surface of the tool becomes uneven, which causes the appearance of the above defect.

The basis of the proposed technical solution is the task of improving the design, increasing the durability and performance of the tool by ensuring uniform wear of its working surface.

The essence of the proposed technical solution is that, in a hand-held grinding tool containing a wood base and a working abrasive layer fixed to the base surface of a wood base, ACCORDING TO THE USEFUL MODEL, the working abrasive layer of the tool is preformed by solid phase sintering and contains carbide as an abrasive material silicon, as a bakelite resin binder, a filler in the following ratio of components, May. %:

silicon carbide 75 - 90;

Bakelite resin 5-15;

filler (cryolite) rest;

wherein the manual grinding tool contains holes made in the body of the molded working abrasive layer perpendicular to the working surface of the tool, and the total area of the holes is chosen from the condition

open jOJ slave over, instr.

Spa6. over, instr. the area of the working surface of the tool; while the holes made in the body of the molded working abrasive layer perpendicular to the working surface of the tool are arranged in rows along the large horizontal axis of the tool; while the holes made in the body of the molded working abrasive layer perpendicular to the working surface of the tool have a circular shape of different diameters; however, the manual grinding tool is equipped with a handle rigidly connected to the wood base.

These essential features of the proposed technical solution can improve the durability and performance of the tool by ensuring uniform wear of its working surface, thereby increasing the flatness of the working surface of the tool. In the process of surface treatment of large non-metallic materials with the inventive tool, the abrasive particles of the working abrasive layer of the tool and the particles of the processed material begin to come off evenly (peel, wear) and accumulate in the holes made in the body of the molded working abrasive layer of the tool, while the total area of these holes promotes unhindered circulation abrasive in the holes, its replacement and leaching of sludge from the recesses during grinding.

The proposed utility model is NEW, as the applicant and the authors, the combination of its essential features is not known from the prior art.

The proposed utility model is INDUSTRIAL APPLICABLE and is intended for surface treatment of large non-metallic materials, for example, in construction during finishing works.

The utility model is illustrated by drawings, where in FIG. 1 shows a general view (front view) of a hand grinding tool, FIG. 2 shows a view “B (side view), in FIG. 3 shows a view of "G (view from below).

A hand-held grinding tool consists of wood base 1 and a working abrasive layer 2 fixed with an adhesive composition (epoxy glue) to the base surface “A of wood base 1. For the manufacture of base 1, a sheet of wood material is taken, for example, from birch or pine. To the wood base 1 of the tool is rigidly attached

plastic 3 by means of fasteners (screws) 4, thereby ensuring ease of use of the inventive grinding tool.

The composition of the working abrasive layer 2 of the proposed tool includes the following components: silicon carbide 75 - 90 wt.%; bakelite resin 5-15 wt.%; filler (cryolite) - the rest.

A method of manufacturing a working abrasive layer 2 includes the preparation of an abrasive-containing bakelite mixture; molding the working abrasive layer 2 in the mold by pressing (specific pressure 16.0-30.0 MPa); heat treatment of the molded working abrasive layer 2 in accordance with the technological regulations for the bakelization of abrasive tools (within 21-32 hours at a temperature of 180-220 C).

The working abrasive layer 2 of the proposed tool has holes 5 and 6 of different diameters "D and" D2 with a depth of "N, perpendicular to the working surface" B of the working abrasive layer 2 of the grinding tool and arranged in rows along the large horizontal axis of the tool; this ensures uniform wear of the working surface "B of the working abrasive layer 2 of the tool due to improved contact of the working surface" B of the working abrasive layer 2 of the grinding tool with the machined surface of large non-metallic materials and the collection of spent abrasive material (not shown) in holes 5 and 6 of the working abrasive layer 2.

In the proposed manual grinding tool, the total area of all holes 5 and 6 is selected from the condition:

open Wj is a slave. over, instr. j

where is the sotb. - total area of holes;

Spa6. over, instr. - the area of the working surface of the tool; the area of the working surface of the tool is equal to the product of the length and width of the working abrasive layer 2 of the tool minus the total area of all holes:

slave over, instr. / holes J s

Analysis of the test results shows that the manual grinding tool according to the proposed technical solution has increased durability and performance than tools according to known technical solutions, as well as uniform wear of the working surface.

Claims (5)

1. A manual grinding tool containing a wood base and a working abrasive layer fixed to the base surface of a wood base, characterized in that the working abrasive layer of the tool is preformed by solid phase sintering and contains silicon carbide as an abrasive material, as a bakelite resin and a filler as a binder in the following ratio of components, wt.%: Silicon Carbide 75 - 90 Bakelite resin 5 - 15 Filler (cryolite) Else 2. A manual grinding tool according to claim 1, characterized in that it contains holes made in the body of the molded working abrasive layer perpendicular to the working surface of the tool, and the total area of the holes is selected from the condition S _holes = (0.2-0.6) S _{working surface tool,} where S _resp. - total area of holes; S _{rab.poverhn.instr} - working surface area instrument. 3. The manual grinding tool according to claim 2, characterized in that the holes are arranged in rows along the large horizontal axis of the tool. 4. Manual grinding tool according to claims 2 and 3, characterized in that the holes have a circular shape of different diameters. 5. Manual grinding tool according to claims 1 to 4, characterized in that the tool is equipped with a handle rigidly connected to the wood base.