RU2179506C2 - Method for cutting refractory metal block and apparatus for performing the same - Google Patents

Abstract

FIELD: non-ferrous metallurgy, namely processes and apparatuses for cutting sponge metal block. SUBSTANCE: method comprises steps of placing metal block on table that is preliminarily placed according to predetermined level of cutting-off; clamping block; cutting off defective layer and cutting remained part of block. Cutting is realized by means of cutter from lower portion of block along its whole width. Block is moved horizontally against cutter. Apparatus for performing the method includes housing with wedge cutter rigidly secured to it; table for placing metal block and powered frame for clamping block. Said frame is horizontally moved together with block. EFFECT: enhanced quality, increased rate of cutting. 5 cl, 2 dwg

Description

 The invention relates to ferrous metallurgy, in particular to methods and devices for cutting a block of sponge metal.

 A known method of cutting a block of refractory metal and a device for implementing the method (see the book. Metallurgy of titanium. - Sergeev V.V., Bezukladnikov A. B., Malshin V.M. - Metallurgy. - 1979. p. 220; book. Magnetothermic production of sponge titanium. Baybekov MK, Popov VD, Cheprasov IM - M.: Metallurgy, 1984. - P. 59; ed. certificate 146044, publ. 12, 1964).

 The method includes the following operations. The frame moves vertically in the bed guides. The downward stroke is carried out by means of a hydraulic cylinder fixed in the cross member. The working fluid enters the hydraulic cylinder through a hollow plunger rigidly fixed in the bed. Idling up is carried out by two return hydraulic cylinders through the plunger.

 A device for cutting blocks of sponge metal includes a bed, a frame with a cross member, a wedge-shaped knife fixed in a vertically moving cross member, a movable table, a plunger drive of the frame, hydraulic cylinders and two-way valves. On the bed is a movable table on which the sponge block is mounted. The table consists of a fixed plate and a movable top plate, which, when moving, rolls along two rows of rollers guided by slats. Moving the table when operating with a sponge block is carried out by hydraulic cylinders. When cutting the blocks, the cavities of the hydraulic cylinders are automatically connected through the valve, and the table is set under the influence of a small horizontal force, to which the valve is adjusted. This method of cutting blocks of refractory metals and a device for its implementation are used in industry.

 The disadvantages of the method of cutting the block and device for its implementation are low productivity and low quality grinding of the block.

 A device for cutting a block (Acherkon N.S. and other metal-cutting machines. M., 1966, v. 1, p. 183-211), comprising a table mounted on a bed with the ability to move, a cutting tool mounted on a carriage, moved along the bed in a horizontal direction, and clamps located one against the other with the possibility of mutual movement of at least one of them.

 The disadvantage of this device is that the wedge tool is placed under the feed table, therefore, when processing the lower end of the block, high-quality metal is contaminated with detachable chips containing defective inclusions.

 A known method and device for cutting a block of refractory metal (ed. Certificate. 707704, IPC 23 D 15/04, 23 D 7/00, 26 D 1/10, publ. BI 1, 1980), the closest in number common features and the achieved result and used as a prototype. The cutting method is as follows. A block of sponge titanium is installed in the frame opening on a table pre-installed below the level of the cutting edge of the wedge knife to a predetermined cutting depth. By clamping using a power cylinder, the block is pressed against the teeth, which, crashing into the body of the block, ensure the reliability of its fastening. The table is moved down with the help of the power cylinder, the frame is moved down with the power cylinder, and the sponge titanium block is fed into the processing zone to the required cut width, which can be equal to or less than the width of the wedge knife. Then the power cylinder is moved into operation, moving the carriage with a wedge knife. A defective layer of sponge titanium is cut from the end of the block. The return of the knife to its original position is also carried out using a power cylinder. A slice of the defective layer over the entire surface of the end face of the block is produced for 3-5 strokes of the wedge knife, which leads to high productivity of the device. Further grinding of the block can be carried out by repeating the cycle described above.

 A cutting device comprising a table mounted on a bed with the possibility of vertical movement, a block, a carriage carrying a cutting tool and installed with the possibility of horizontal movement on the bed, and clamps located opposite each other with the possibility of mutual movement in the frame are fixedly placed on the table at least one of them, and the carriage with the knife is placed parallel to the table, and the clamps are mounted on the bed with the possibility of joint horizontal movement above the table and the carriage with the knife and in direction perpendicular to the movement of the carriage. One clamp is made of a cylinder connected to a displacement drive, the other is rigidly attached to the stop frame, equipped with teeth. The power cylinders serve as drives for moving the carriage and frame.

 The device for moving the table is made in the form of two parallel levers and is connected with the movement drive, made in the form of a power cylinder. The table moves up and down due to the movement of levers.

 The disadvantage of this method and device for cutting blocks of refractory metal is that the block is cut along the height of the block on one side from the end, which causes the complexity of the cutting process, and therefore the cutting device is inoperative.

 The objective of the invention is to improve the quality of cutting a block of sponge titanium due to layer-by-layer cutting of the block in width, increasing the cutting speed.

 This problem is solved by the proposed method of cutting a block of refractory metal and a device for its implementation, the essence of which is as follows.

 A method of cutting a block of refractory metal, including placing the block on a table previously set to a predetermined cutting height, clamping the block, cutting the defective layer and cutting the remaining part of the block, while cutting is carried out with a knife from the bottom of the block, new is that the cutting of the defective layer carry out the entire width of the block by moving it horizontally with a direction to the knife, after cutting the defective layer, a new cutting height is set and layer-by-layer cutting of the remaining part of the block is performed, while the cut of the defective layer is carried out Thaw at a reduced cutting speed, and the remainder at a higher.

 In addition, when cutting a defective layer, the cutting speed is maintained within 15-30 mm / s.

 In addition, when cutting the remainder of the block, the cutting speed is maintained within 45-60 mm / s.

 To implement the method, a device is proposed for cutting a block of refractory metal containing a bed, a wedge knife, a table designed to accommodate a block of refractory metal, a device for vertical movement of the table, mounted with the possibility of horizontal movement and serving to clamp the block of refractory metal, a power frame with a slider, a clamp and focus, and the drive moving the power frame, new is that it contains spring blocks, while the table is installed with the possibility of horizontal movement of forces -hand frame mounted for horizontal movement with clamped refractory metal block and the wedge knife is rigidly fixed on the frame parallel to the horizontal table surface, one end is rigidly connected to the device for its vertical displacement, and the other mounted on the spring blocks.

 In addition, it contains a device for horizontal movement of the table, made in the form of a gear motor mounted on a frame and transmission of a screw-nut.

 This technology of cutting a block of refractory metal by directing the block to a knife allows you to increase the cutting speed of the block, automate the cutting process, and carrying out the cutting process at different speeds allows you to completely separate the originally contaminated part of the block, which significantly improves the quality of the refractory metal.

 Fixing the knife motionlessly on the bed will improve the quality of cutting a block of refractory metal.

 Vertical and horizontal movement of the table and a device for moving it allow you to increase the cutting speed of the block.

 The use of a motor-reducer and a screw-nut transmission as drives can increase the productivity of the device and thereby the cutting speed of the block.

 The use of a motor-reducer and a screw-nut transmission as drives can increase the productivity of the device and thereby the cutting speed of the block.

 The claimed group of inventions meets the requirement of unity of invention, since the group of diverse inventions forms a single inventive concept, moreover, one of the claimed objects of the group — a device for cutting a block of refractory metal is designed to implement another object - a method of cutting a block of refractory metal, both objects of the group of inventions are aimed at solving the same problem with obtaining a single technical result.

 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 group of inventions for both the object - method and the object - device, allowed to establish that the applicant did not find analogues for both method, and for the device of the claimed group, characterized by features identical (identical) to all the essential features of both the method and the device of the claimed group of inventions. The determination from the list of identified prototype analogues for both the method and the device as the closest analogues in terms of the totality of features made it possible to identify the set of distinctive features that are essential to the applicant's technical result.

 To verify the compliance of each object of the claimed group of inventions 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 selected prototypes for each object of the claimed group of inventions. The search results showed that each object of the claimed group of inventions does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of each of the objects of the claimed group of inventions on the achievement of the technical result is not revealed from the prior art. Therefore, each of the objects of the claimed group meets the condition of "inventive step", as for the part of the device for cutting the block - the device for moving the table, then a new interconnection of known structural elements is declared, which improves the technical result - the speed of cutting a block of refractory metal and, therefore, meets the condition of "inventive step".

 Figures 1 and 2 show a device for cutting a sponge titanium block. The device consists of a frame 1 with a knife 2 fixed on it, a power frame 3 with the possibility of its movement along the cutting axis from the working cylinders 4. The power frame is equipped with a slider 5, a stop 6 and a cylindrical clamp 7 with the possibility of its movement from the hydraulic cylinder 8; from table 9 with a device for moving the table, consisting of a frame 10 and a wedge 11. Table 9 at one end is rigidly connected to the frame 10 using a hinge 12, and from the other end relies on spring blocks 13, which reduce the dynamic load on the table during loading block 14, the spring blocks are fastened to the carrier 15 and placed in the frame 10. The frame 10 is supported by a wedge 11, which is provided with a wedge surface 16 in contact with the frame 10. The vertical movement of the table with the frame is carried out by a gear motor 18 and a screw-nut transmission 17 connected to the motor redu 18. Moving the torus section 9 horizontal pusher 19 is carried out via the gear motor 20 and screw-nut transmission 21.

 An example implementation of the method and operation of the device.

 The movable power frame 3 is retracted to the extreme position, allowing the block 14 to be loaded onto the table 9, lowered to a height A of 15-20 mm, necessary for cutting the bottom of the block. Install block 14 and apply pressure to hydraulic cylinder 8 by moving clamp 7, which provides an adjustable clamping force of 40-147 tf, pushing it to the stop 6. When clamping the bottom of block 14, maximum force is necessary, as the cut weight of the block decreases, moreover, it the structure becomes more fragile; accordingly, the clamping force decreases. Sandwiched between the clamp 7 and the abutment 6, the block with the slider 5 is lifted above the table, pushed onto the cutting edge of the knife 2, and at the speed of 15-30 mm / sec the lower part of the block is separated. After the end of the cut, the block is left sandwiched between the clamp 7 and the stop 6 and returned to its original position. The pressure in the cylinder 8 of the clamp 7 is relieved, the unit, under its own weight, is lowered onto the plate 9 of the receiving table, which is rigidly connected to the frame 10 using the hinge 12, and the other end is mounted on the spring blocks 13 located in the frame 10. The spring blocks serve to reduce dynamic loads on the table during loading and layer-by-layer cutting of the block, at the time of expansion (at the end of the reverse stroke) and lowering by the size of the cut layer. The vertical movement of the table 9 is due to the gear motor 18, mounted on the wedge surface 16, and the transmission of the screw-nut 17, placed in the frame 10. Horizontal movement of the wedge 11 on the wedge surface 16 with a speed of 8.3 mm / sec establish a new height A cutting block. The block is clamped again and, at a speed of 45-60 mm / s, the rest is cut, and depending on the height and density of the block, the cutting height A changes. The horizontal movement of the table is carried out by the gear motor 20 by means of a screw-nut transmission 21 located in the pusher 19, which is fixed with the carrier 15. The horizontal movement of the table allows you to set the size of the gap between the table 9 and the knife 2 mounted on the bed 1. During cutting, the pieces the product is served in a receiving box (not shown).

 Thus, this invention improves the quality of cutting a block of refractory metal, increases the cutting speed and automates the process of cutting blocks.

Claims (5)

 1. A method of cutting a block of refractory metal, including placing the block on a table previously set to a predetermined cutting height, clamping the block, cutting the defective layer and cutting the remaining part of the block, while cutting is carried out with a knife from the bottom of the block, characterized in that the cutting of the defective layer is carried out over the entire width of the block by moving it horizontally with a direction to the knife, after cutting the defective layer, a new cutting height is set and layer-by-layer cutting of the remaining part of the block is performed, while the cut of the defective layer is carried out Thaw at a reduced cutting speed, and the remainder at a higher.  2. The method according to p. 1, characterized in that when cutting a defective layer, the cutting speed is maintained within 15-30 mm / s.  3. The method according to p. 1, characterized in that when cutting the remaining part of the block, the cutting speed is maintained within 45-60 mm / s.  4. A device for cutting a block of refractory metal containing a bed, a wedge knife, a table designed to accommodate a block of refractory metal, a device for vertical movement of the table, installed with the possibility of horizontal movement and serving to clamp the block of refractory metal, a power frame with a slider, a clamp and a stop and drive movement of the power frame, characterized in that it contains spring blocks, while the table is installed with the possibility of horizontal movement, the power frame is installed with the possibility Horizontal displacement with clamped refractory metal block and the wedge knife is rigidly fixed on the frame parallel to the horizontal table surface, one end is rigidly connected to the device for its vertical displacement, and the other mounted on the spring blocks.  5. The device according to p. 4, characterized in that it contains a device for horizontal movement of the table, made in the form of a gear motor mounted on a frame and transmission of a screw-nut.

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