RU2065800C1 - Parting-off tool - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: one side of the housing of the parting-off tool is provided with a projection for interaction with the tool holder and the other side. Between fixed jaw of the housing, the ends of which project out of the ends of the movable jaw of the slide along the housing, and the movable jaw is plate cutter secured by way of a load- carrying screw received in the opening in the housing. The threaded end of the screw interacts with the threaded opening made in the slide. The tool is provided with bolts used for interconnecting the parts of the detachable housing which consists of stop beam with fixed jaw made up as a projection and threaded openings perpendicular to the fixed jaw. The housing has also at least one distant plank and plank with the projection for interaction with the tool holder. Both of the planks have projections with grooves between them. Each projection is provided with openings parallel to its sides. These openings and threaded openings in the stop beam for the bolts are axially alined. The slide is provided with grooves which enclose the projections on the planks. EFFECT: improved design. 4 dwg

Description

 The claimed invention relates to the processing of metals by cutting, and more particularly to processing by cutting on lathes and relates to cutting tools.

 Known prefabricated cutting tool designed for machining parts on a lathe with direct rotation of the spindle and the ability to install on the left and right sides of the tool holder.

 A prefabricated cutting tool consists of a body-plate, a fixing bar, three of its fixing bolts, a plate cutter. The body of the cutting tool is made in the form of a plate having a longitudinal protrusion on the front surface (wall), which is a fixed stop sponge and serves to install the edges of the plate tool. On the back wall there is a longitudinal protrusion holder designed for fixing in the wall. There are three threaded holes in the upper end wall of the housing into which three fastening bolts are wrapped. The mounting plate is superimposed on this wall of the housing and is fixed with three fixing bolts. The plate cutter is installed with an edge on the lower fixed thrust lip of the housing, while the plane of the cutter is in contact with the front wall of the housing-plate, and the opposite rib abuts against the protrusion of the movable fixing fixing plate. The mounting plate is movable under the influence of three mounting bolts. The length of the fixed support jaw is greater than the length of the movable supporting jaw. The ends of the fixed support jaws along the front wall protrude beyond the ends of the movable fixing jaws.

 The disadvantage of the analogue design is the solidity of the case, which has an unregulated size of the holder, as well as an invariable distance between the fixed and movable jaws, as a result of which this cutting tool can only be used on one type of machine and when fixing only one type of plate cutters (with a constant value of their width) , which reduces its technological capabilities. The considered design of the cutting tool due to the solidity of the body can only be used for machining parts on a lathe or with direct or reverse rotation of the spindle, which also reduces its technical capabilities. A significant drawback of the aforementioned design of the cutting tool is that its body-plate with protrusions on the rear and front walls have a complex configuration, as a result of which it is laborious to manufacture. Another drawback of this design is the effort created by one fixing bolt is small for reliable mounting of the cutter, therefore their number is increased to three, they are overloaded and, due to the frequent screwing and unscrewing, three threaded holes in the upper end wall of the plate-body and three fixing bolts are short-lived. In addition, the fastening and unfastening of these three bolts requires a relatively long time, for example, compared with a single bolt.

 The closest solution in terms of technical nature and the achieved result, the prototype, is a prefabricated cutting tool, consisting of a body-plate having a fixed sponge on the front wall, a holder on the back, a central hole on top, and a not-through T-slot from below; the slider located in this groove has a transverse movable jaw, and the power screw of constant diameter is located in the central hole of the housing, and its threaded end is wrapped in the hole of the slider, and the ends of the fixed jaws along the front wall of the housing protrude beyond the ends of the movable jaws.

 Compared with the analog design, the prototype design has the following advantages. It has a more efficient and reliable fastening of the plate cutter, which is provided by a power bolt and a slider. In this case, the time spent on fixing and unfastening the cutter is three times less.

 The main disadvantages of the design of the precast cutting tool prototype are the following.

 The body of this cutting tool is made in one piece and is therefore intended for only one method of machining a part, either with direct or reverse rotation of the spindle, for only one type of machine, and only for fixing one size (width) of plate cutters. The technological capabilities of such a cutting tool are limited. Due to the solidity of the body-plate with protrusions on the rear and front walls, it has a complex configuration and therefore is laborious to manufacture. Since the movable jaw - the fixing jaw is made in the form of two transverse cantilever protrusions-beams, it is deformed when the cutter is fixed and is of low strength. With insufficient thickness, the cutting tool becomes unsafe, and with a significant increase in the thickness of the protrusions-beams, the block becomes very cumbersome.

 The objective of the invention is the development of "Cutting tool", consisting of standardized parts (elements), providing the possibility of its transformation into various types of structures designed for a number of technological needs. That is, the task is to develop a cutter-transformer.

 This problem is solved due to the fact that when used in a known cutting tool, in the housing of which, on the one hand, a protrusion is designed to interact with the tool holder of the machine, and on the opposite side between the stationary sponge of the housing, the ends of which extend beyond the ends of the movable the slide of the slide, and the latter is placed a plate cutter, fixed with a power screw installed in the hole of the housing, while the threaded end of the power screw is designed to interact with the thread a slider hole; in accordance with the invention, the cutting tool is equipped with bolts designed to connect together parts of the housing, made of prefabricated and consisting of a thrust bar with a fixed jaw, made in the form of a protrusion, and threaded holes located perpendicular to the fixed jaw of at least one distance bar and strips with the said protrusion, designed to interact with the tool post of the machine, while both of these strips have protrusions with grooves between them, and in each of the protrusions parallel their faces provided with openings which are coaxial with said threaded holes resistant timber designed to contain said bolt, wherein the grooves formed on the slide covering strips protrusions.

 The above parts assembled to form the first modification of a detachable cutting tool when assembling them in the following order (top-down): thrust bar, spacer bars, holder fastened with two bolts, while the body of the power screw is located in the central threaded hole of the thrust bar, abutting against it head, and the end is wrapped in a threaded hole of the slider, and between the stop bar and the slider, covering the power screw, a spring is located.

 The above parts in the assembly form the second modification of the prefabricated cutting tool when they are assembled in the following order (from top to bottom): one, two or more spacers, a holder, one more, two (or none) spacers that are placed on the stop bar and together are fastened with two bolts, while the body of the power screw is located in the threaded hole of the slider, resting on it with the head through the sleeve, and the end is wrapped in the central threaded hole of the stop bar, and between it and the slider, covering the power screw, is located ins.

 Let us prove the significance of the signs.

 The main essential feature of the inventive cutting tool is its transformability, i.e. the ability of the same parts, depending on the order of their assembly, to implement modifications: the first or second. Further, respectively, they will be called cutting tools 1 and 2.

 Cutting tool 1 is designed to secure the plate cutters with a working cutting blade at the bottom. This cutting tool is designed for machining parts with reverse spindle rotation. At the same time, it can be fixed both on the left and on the right sides of the tool post of the machine.

 Cutting tool 2 is designed to fix plate cutters with a working blade at the top, so it is designed to process parts on lathes with direct rotation of the spindle. It can be fixed both on the left and on the right sides of the tool post of the machine.

 Each of the cutting tools 1 and 2 can be easily transformed (changed) into new modifications. When replacing only distance strips (on strips with a different thickness), the distance between the movable and fixed jaws will change, which will allow fixing plate-shaped cutters of various widths. The applicability of the cutting tool for the size of the machines will remain the same, since the toolholder was not replaced.

 When varying the thickness of the holder bar, only the thickness of the holder of the cutting tool will change, which will allow it to be fixed on machines of various sizes. The applicability of lamellar incisors will remain the same, since the distance between the fixing jaws does not change due to a change in the holder.

 Due to a change in the thickness of the spacer bars or holder, the height of the plate holder increases or decreases, therefore, to fasten (connect) its parts, it is also necessary to select fixing bolts and a power screw of appropriate lengths.

 The transformability property of a prefabricated cutter provides it with wide technological capabilities, in particular, the possibility of installing it on machines of various sizes and the possibility of fixing plate cutters of various widths in it.

 This property is ensured due to the structural features of the parts included in the cutting tool, the design features of which were listed above. This is the next essential feature of the invention.

 An essential feature of the design of the inventive cutting tool is a high level of manufacturability of manufacturing the parts included in it, the simplicity of their assembly, disassembly and readjustment, which is ensured by the simple configuration of the claimed parts. The manufacture of parts can be done on automatic machines with low qualification of the worker, since the parts are flat mutually perpendicular to one type of surface.

 The claimed technical solution allows you to completely solve the problem, in particular, provides the opportunity through various layouts of standardized parts (elements) to assemble from them structures designed for many technological needs. For example, from these parts it is possible to assemble a cutting tool for processing workpieces on a lathe with their forward and reverse rotation, or with the possibility of fixing plate cutters of various widths in it.

 The claimed technical solution with the given set of characteristics characterizing it is currently unknown in the Russian Federation and abroad and meets the requirements of the "novelty" criterion.

 The claimed technical solution is original, it uses an unconventional approach to solving the problem, in particular, such configurations and sizes of parts (elements) are developed that, depending on their layout (assembly) form various options for cutting tools with different technological functions properties. Such a technical solution is not obviously derived from the prior art and meets the requirements of the criterion of "inventive step".

 The claimed technical solution can be widely used on turning and rotary machines for performing operations of external turning of grooves and deep grooves, as well as complex shapes of surfaces. The cutting tool has technologically simple parts from inexpensive structural steels; they can be made by known industrial methods. Therefore, the "Cutter" meets the requirements of the criterion of "industrial application".

 An example of a specific implementation.

 In FIG. 1, 2, 3, 4 presents the design modifications of the cutting tool. In FIG. 1 cutting tool 1 for the reverse, and in FIG. 2 cutting tool 2 for direct rotation of the part. In FIG. 3 shows a cutting tool 1, and in FIG. 4 - detachable cutter 2 disassembled with axonometric separate image of their constituent parts.

 The numerals in FIG. 1, 2, 3, 4.

 1 thrust bar with a fixed sponge, 2, 3 spacers, 4 - holder for fixing in the tool holder of the machine, 5, 6 fixing bolts, fastening parts 1, 2, 3, 4; 7 slider with a movable sponge; 8 power screw to drive the slider; 9 slider return spring, 10 sleeve or ring, 11 plate cutter, shown transparent, 12 cutting (working) plate.

 The installation and fastening of cutting tools 1 and 2 in lathes, as well as their maintenance during operation, is no different from the installation, fixing and maintenance of their analogue and prototype. Before work, the holder 4 of the cutting tool 1 (or cutting tool 2) is installed in the groove of the tool holder of the machine and bolted to it. The plate cutter 11 is fixed between the fixed jaw of the thrust beam 1 and the movable jaw of the slider 7. Forceful fixing or unfastening of the cutter is carried out with the help of screw 8. The spring 9 is used to unfasten the plate cutter. After fixing the blade tool according to the views shown in FIG. 1 or 2, its plate facing the part is brought to the processing surface and performs the process of removing the allowance by the cutting method with the formation of chips. In cutting tools 1 and 2, plate tools with cutting inserts can be used to turn the outer cylindrical surfaces, collars, grooves, ends, threads, etc.

 The technical and economic effect consists in a significant increase (expansion) of the technological functions of the proposed design, while ensuring its necessary strength, reliability, vibration resistance and ergonomics, as well as in the reduction of manufacturing costs, the possibility of using low-cost automated machines with maintenance by low-skilled personnel.

 The proposed design from an environmental perspective is substantially appropriate. Its application in 2 3 or more times saves metal costs for cutting tools. (It is known that metallurgical and mining industries are the most environmentally harmful). 2 times savings, because the same parts form a cutting tool 1 (for reverse part rotation) and a cutting tool 2 (for direct part rotation). Since each of the parts included in the cutting tools 1 and 2 can be repeatedly used in their readjustments, the savings in metal costs will, apparently, be 3 or more times.

 There is also energy savings for the manufacture of the constituent parts of the cutting tools 1 and 2. They are much simpler than their competitors - analogue and prototype. Reducing energy costs also improves the environmental situation of energy enterprises and machining enterprises. YYY2

Claims (1)

 A cutting tool, in the case of which there is a protrusion on one side, designed to interact with the tool holder of the machine, and on the opposite side, between the stationary body sponge, the ends of which extend along the body wall beyond the ends of the movable sponge of the slide, and the last one has a plate tool fixed with a power screw installed in the hole of the housing, while the threaded end of the power screw is designed to interact with the threaded hole of the slider, characterized in that the cutting tool is equipped with a bolt designed to connect together parts of the housing, made of prefabricated and consisting of a thrust bar with a fixed jaw, made in the form of a protrusion, and threaded holes located perpendicular to the fixed jaw of at least one spacer bar and a bar with said protrusion, intended for interaction with the tool holder of the machine, while both of these strips have protrusions with grooves between them, and in each of the protrusions parallel to their faces holes are made, coaxial with the specified threads Vym holes resistant timber designed to contain said bolt, wherein the grooves formed on the slide covering strips protrusions.

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