RU2163530C1 - Method for sharpening cutting blade of tool - Google Patents

Abstract

FIELD: metal working, possibly sharpening of blade type tools. SUBSTANCE: method comprises steps of matching non-worked adjacent surface of blade with basic surface of base in the form of wedge-shape geometrical body having flat basic and free surfaces; at adjusting machine tool, placing free surface of base lower than blade surface to be worked by value equal to admission value for working; preliminarily applying upon basic surface of base layer of soft heat conductive metal; grinding surfaces of tool blade until contact of grinding wheel with free surface of base. Application of layer of soft heat conductive metal provides high contact heat conduction of blade-base butt, lowered thermal stress in blade at grinding. At the end of grinding cycle contact heat conduction of blade-base butt near edge of blade increases further. EFFECT: enhanced quality and efficiency of sharpening of blade type tool by means of grinding wheel. 3 dwg, 1 ex

Description

 The invention relates to metalworking and can be used for sharpening a blade tool.

 A known method of sharpening a blade tool (see Popov SA Grinding. - M .: Higher school, 1987, S. 226), in which the sharpened tool is installed on the table of the grinding machine, rotated by a certain angle. In this case, sharpening is performed on one of the surfaces (front or back, main or auxiliary).

The reasons that impede the achievement of the technical result indicated below when using the known method include the fact that in the known method due to the high heat strength of the grinding process, a burr is formed on the sharpened cutting edge. In addition, in the area adjacent to the edge, due to the reduced heat removal through the adjacent (currently untreated) surface, heat is generated in the grinding zone (see. Control of the grinding process / A.V. Yakimov, A.N. Parshakov, V.I. Svirshchev, V.P. Larshin. - Kiev: Technique, 1983, S. 78; Yakimov A.V. Optimization of the grinding process. - M.: Mechanical Engineering, 1975, S. 29). For example, at a point angle of 60 ^° of the tool blade, the temperature at the edge is 1.5 times higher than at some distance from it, and the presence of defects in the surface layer and the depth of their penetration are determined by the duration of exposure to temperatures exceeding the critical value. An increased temperature level and a longer time of their action lead to the appearance of undesirable structural changes in the tool material in the surface layer of the blade, which makes it possible to reduce the productivity of processing workpieces with a cutting tool and its durability.

 The closest method of the same purpose to the claimed invention in terms of features is a method of sharpening a cutting blade of a tool (see ed. Certificate of the USSR N 1816655, class B 24 B 3/36, 1990), in which the non-machined adjacent surface of the blade is mated with the base surface of the base, made in the form of a wedge-shaped geometric body with flat base and free surfaces, adopted as a prototype.

 For reasons that impede the achievement of the technical result indicated below when using the known method adopted for the prototype, the known method includes that the heat flux on its way from the grinding zone near the edge, passing through the blade of the sharpened tool, encounters an obstacle in the form of a section of two media of the blade - air is the base. The high temperature in the blade near the edge leads to undesirable structural changes in the material, which reduces the durability of the sharpened tool and its processing performance.

 The invention consists in the following.

 Improving the durability of the blade tool and processing performance is an urgent task. The requirements for the quality of sharpening of cutting tools have increased in the conditions of automated production. Here, among other things, stability of persistent indicators is required.

 The technical result is an increase in the quality and productivity of sharpening a blade tool with a grinding wheel.

 The specified technical result in the implementation of the invention is achieved by the fact that in the known method of sharpening the tool blade with a grinding wheel, the non-machined adjacent surface of the blade is mated with the base surface of the base, made in the form of a wedge-shaped geometric body with flat base and free surfaces. The peculiarity lies in the fact that the free surface of the base is set below the surface to be machined by the amount of the allowance for machining, and a layer of soft heat-conducting metal is preliminarily applied to the base surface of the base (for example, POS-40 solder). Then, grinding the surface of the tool blade is carried out until the grinding wheel touches the free surface of the base.

 As the stock is removed, the radius of rounding of the cutting edge of the tool decreases, but a burr is formed. Application of a layer of heat-conducting metal on the base base surface provides a significant increase in contact thermal conductivity of the interface by increasing the actual area of the metal-metal contact spots: heat transfers from the blade to the base, the temperature level in the blade decreases, and the depth of the defective layer decreases. Since the size of the allowance for regrinding exceeds the radius of rounding of the cutting edge of the worn tool by 0.1 - 0.2 mm, the defective layer formed when grinding the first part of the allowance when the heat sink to the base is insufficient will not exceed the value of the second part of the allowance when the heat sink is large base. The inventive method of sharpening ensures the removal of the burr from the cutting edge at the last working stroke of the grinding wheel. The flatness of the machined surface of the tool is ensured by the accuracy of movement of the grinding wheel, the flatness of the untreated face is copied from the base surface of the base. The quality of the surface layer of the blade is ensured at the level of the quality of the surface layer of the treated surface away from the blade.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find a source characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype as the closest in the totality of the features of the analogue allowed us to establish a set of essential distinguishing features in relation to the technical result perceived by the applicant in the claimed method set forth in the claims. Therefore, the claimed invention meets the condition of "novelty." To verify the compliance of the claimed invention with the condition "inventive step", the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed method from the prototype. The search results showed that the claimed invention does not follow explicitly from the prior art determined by the applicant for the specialist, the effect of the transformations provided for by the essential features of the claimed invention on the achievement of the technical result is not revealed, in particular, the following transformations are not provided for by the claimed invention:
- addition of a known product by any known part, attached to it according to known rules, to achieve a technical result, in respect of which the effect of such an addition is established;
- replacement of any part of a known product with another known part to achieve a technical result, in respect of which the effect of such a replacement is established;
- the exclusion of any part of the funds with the simultaneous exclusion due to its function and the achievement of the usual result for such exclusion;
- an increase in the number of elements of the same type, actions, to enhance the technical result due to the presence in the tool of precisely such elements, actions;
- the implementation of a known tool or part of a known material to achieve a technical result due to the known properties of this material;
- creating a tool consisting of known parts, the choice of which and the connection between them are based on known rules, recommendations, and the technical result achieved in this case is due only to the known properties of the parts of this tool and the connections between them.

 The described invention is not based on a change in a quantitative characteristic, the presentation of such signs in relationship or a change in its appearance. This refers to the case when the fact of the influence of each of these characteristics on the technical result is known, and new values of these signs or their relationship could be obtained on the basis of known dependencies and patterns. Therefore, the claimed invention meets the condition of "inventive step".

The drawings show:
in FIG. 1 shows the layout of the base and the cutting blade of the tool when setting up the machine, FIG. 2 is a diagram of the distribution of heat fluxes during grinding of a cutting blade of a tool under the conditions of a prototype; FIG. 3 is an enlarged image of the junction of the cutting blade with a base covered with a layer of soft heat-conducting metal.

Information confirming the possibility of carrying out the invention with obtaining the above technical result:
the blade tool 3 (Fig. 1) is mounted on the base 1 so that the surface G of the tool mates with the surface B of the base, and surface A is set lower than surface B by the allowance Z. As the allowance is removed by the grinding wheel 2, the radius of rounding of the cutting edge R decreases. At the end of the grinding cycle, between the tool blade 3 and the base 1, as a result of elastic and plastic deformation of the metal, a tight contact is formed with good thermal conductivity. Heat q ₁ (Fig. 3) passes from the grinding zone in two directions: q ₂ - heat transferred from the blade 3 through the actual metal contact zones to the coating 4 to the base 1; q ₃ is the heat absorbed by the tool.

где α - угол заострения лезвия; K - коэффициент, учитывающий влияние скорости теплового источника: K = 1 при шлифовании вдоль кромки лезвия; 1 < K < 2 при шлифовании поперек кромки лезвия.When grinding a blade without cooling the non-machined surface of the blade, the temperature at its edge is several times higher than the temperature θ _m when grinding a massive workpiece:

where α is the angle of sharpening of the blade; K - coefficient taking into account the influence of the speed of the heat source: K = 1 when grinding along the edge of the blade; 1 <K <2 when grinding across the edge of the blade.

When α = 20 ^o θ = 4,5 · K · θ _m .
It is thanks to the features of the proposed method that the heat from the blade of the sharpened tool is almost equally distributed in two directions: to the base 1 and to the massive part of the tool 3 (see Figs. 1, 3). This is explained by the fact that the contact thermal conductivity of the joint blade 3 - base 1 reaches high values due to the large area of the actual metal contact (Khudobin L.V., Khusainov A.Sh. Flat grinding of thin-walled workpieces // STIN, 1997, N 9, C . 21, dependence 2). And in the area adjacent to the edge, the thermal conductivity of the joint is even higher, since here, as a result of deformation of the blade, it is pressed onto the base. In this case, the air gap is forced out and the entire joint is filled with soft metal.

 Under the conditions of the prototype (see Fig. 2), heat is redistributed only deep into the blade of the tool 3. The heat transfer to the environment from the surface to be treated in the edge region of the blade can be neglected, since the thermal conductivity of air is 4 and lower than that of metal by 2 orders of magnitude. Due to insufficient heat removal, the edge region of the tool blade is exposed to elevated temperatures (more than 4.5 times), supercritical temperatures are maintained for a longer time, which leads to undesirable structural changes in the surface layer of the blade, which reduces the operational properties of the sharpened tool.

Thus, the above information indicates the fulfillment when using the claimed invention (method) of the following set of conditions:
- a tool embodying the claimed method in its implementation, is intended for use in industry, namely in metalworking, and can be used for sharpening a blade tool;
- for the claimed method in the form described in the independent clause of the claims, the possibility of its implementation using the means and methods described in the application or known prior to the priority date is confirmed;
- therefore, the claimed invention meets the condition of "industrial applicability".

Claims (1)

 A method for sharpening a cutting blade of a tool with a grinding wheel, in which the non-machined adjacent surface of the blade is mated with a base surface made in the form of a wedge-shaped geometric body with flat base and free surfaces, characterized in that the free surface of the base when setting up the machine is placed below the surface of the blade to be machined the amount of allowance for processing, while on the base surface of the base previously applied a layer of soft heat-conducting metal and grinding the surface of the tool blade until the grinding wheel touches the free surface of the base.

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