RU2385205C2 - Procedure of cutting block of spongy titanium and facility for implementation of this procedure - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: invention refers to non-ferrous metallurgy, particularly to procedures and facilities for cutting block of spongy titanium produced by magnesium-thermal reduction of titanium tetra-chloride. The block is arranged on a table with axis parallel to support surface. Further the block is gripped with a handling device and transferred moving a part of the block beyond the table. A defect layer is cut off the projected part of the block with a cutting tool. The facility for cutting the block of spongy titanium consists of a bed, of a cutting tool, of the table, and of a power frame with the hydro-cylinder and slider. The handling device with a claw and drive from the hydro-cylinder is mounted on the table. A movable stop is secured to the power frame and can travel in the direction of cutting plane. The table is rigidly attached to the bed. Support surface of the table conjugates with working surface of the bed and is equipped with side walls. The slider is fixed to the power frame and travels vertically together with the cutting tool.

EFFECT: increased efficiency and service life of cutting tool, elimination of additional equipment for cutting blocks of spongy titanium, improved quality of spongy titanium block.

9 cl, 4 dwg, 1 ex

Description

The invention relates to non-ferrous metallurgy, in particular to methods and devices for cutting a block of sponge titanium, which is obtained by magnetothermic reduction of titanium tetrachloride.

A known method and device for cutting a titanium block (US Pat. RF No. 2167760, publ. 09/27/2000). The method of cutting the block is to install a titanium block on the table, apply pressure to the hydraulic cylinders, connect the clamp to the block, move the slider together with the clamped block to the fixed knife, guide the block to the knife and remove chips across the entire width of the block in one pass.

A device for cutting a block of spongy titanium includes a bed with guides, a receiving table for a titanium block mounted on the bed, a cutting tool, a main working hydraulic cylinder and clamps located opposite each other with the possibility of mutual rapprochement on the mechanism of joint movement of the clamps with the titanium block, while one of the clamps is connected to the hydraulic cylinder of its movement, the cutting tool is fixedly mounted on the bed, and the mechanism for the joint movement of the clamps with the titanium block is made in the form of a slider, with knitted with the main working hydraulic cylinder and mounted on the guides of the bed with the ability to move relative to the cutting tool and ensure contact of the titanium block with the cutting tool over the entire width of the titanium block, while the second clamp is mounted in a bore made in the slider.

The disadvantage of this device is that at the first working strokes, the cutting edge of the tool is worn due to the uneven force of the titanium block on the fixed mounted cutting tool, and an inclined plane is formed in the upper part of the tool. With subsequent working strokes, the slider with the clamping mechanism and the block is lifted due to the gaps between the bed guides and the slider, and during the reverse stroke, the cutting plane with the slider (several tens of tons) slides along the knife. Intensive heating of the tool and block occurs, which affects the durability of the cutting tool and the quality of the resulting sponge metal.

A known method and device for cutting a block of refractory metal (US Pat. RF 2242332, publ. 12/20/2004). The method of cutting the block is to install a titanium block on the table, apply pressure to the hydraulic cylinders, connect the clamp to the block, move the slider together with the clamped block to the fixed knife, guide the block to the knife and remove chips across the entire width of the block in one pass.

A device for cutting a block of refractory metal includes a bed on which a receiving table for mounting the block is mounted, a cutting tool mounted motionless over the entire width of the block and a mechanism for moving clamps with the block, made in the form of a slider driven by a working hydraulic cylinder, while the cutting tool is made integral of several knives, the cutting edges of which are offset in the direction of cutting the block by an amount not less than the thickness of the descending chips, and the front angles of adjacent knives are made of different sizes.

The disadvantage of this device is that at the very first working strokes, the cutting edge of the tool is worn due to the uneven force of the titanium block on the fixed mounted cutting tool. With subsequent working strokes, the slider with the clamping mechanism and the block is lifted due to the gaps between the bed guides and the slider, and during the reverse stroke, the cutting plane with the slider (several tens of tons) slides along the knife. Intensive heating of the tool and block occurs, which affects the durability of the cutting tool and the quality of the resulting sponge metal.

A known method and device for cutting a block of sponge metal (RF Patent No. 2179506, publ. 02.20.2002, bull. 5) by the number of common features adopted for the closest analogue of the prototype. The method includes placing a block on a table previously set to a predetermined table height, clamping a block, cutting a defective layer over the entire width of a block by moving it horizontally with a direction to a cutting tool, setting a new cutting height after cutting a defective layer, and cutting the remaining part of the block in layers, the cut of the defective layer is carried out at a reduced cutting speed in the range of 15-30 mm / s, and the remainder at an increased speed in the range of 45-60 mm / s.

A device for cutting a block of refractory metal includes a bed, a cutting tool, a table designed to accommodate a block of refractory metal and mounted with the possibility of horizontal movement, a device for vertical movement of the table, a power frame with a slider, a clamp, a stop and a drive for moving the power frame, while the power frame installed with the possibility of horizontal movement with a clamped block of refractory metal, and the cutting tool is made in the form of a wedge knife and is rigidly fixed to the parallel bed Flaxen the horizontal surface of the table.

The disadvantages of the above method and device for cutting a block of refractory metal are:

- high energy intensity and limited speed required to move the power frame with the clamped block,

- insufficient resistance of the cutting tool as a result of its overheating during the reverse stroke of the power frame with the block, while partial oxidation of the cut surface of the block occurs,

- complex and inaccessible mechanisms for horizontal and vertical movement of the table.

The technical result is aimed at increasing the productivity of the method and device for cutting a block of sponge titanium by increasing the cutting speed of the block, reducing the installation and dismantling of the cutting tool, increasing the life of the cutting tool, which will reduce downtime for its replacement and also increase productivity, simplifying device design. In addition, this device allows the re-grinding of pieces of sponge titanium, which leads to the exclusion of additional equipment for cutting pieces of a block of sponge titanium. By eliminating overheating of sponge titanium during block cutting, its quality will significantly improve.

The technical result is achieved by the fact that in the known method of cutting a block of spongy titanium, including placing the block on the table, clamping the block, cutting the defective layer with a cutting tool over the entire width of the block and layer-by-layer cutting at different speeds, it is new that the block is placed with the axis parallel to the supporting surface the table, move the block using the manipulator in a horizontal position on the supporting surface of the table until the part of the block extends beyond the table and until it comes into contact with the movable stop, is separated by a cutting tool with defective layer of the block, then the cutting tool is raised vertically above the block, again the manipulator unit is moved in a horizontal position to the movable stop and carried discretely layered cutting unit.

In addition, pieces of sponge titanium after primary cutting are loaded onto a table with side walls and subjected to additional grinding.

In addition, the defective layer from the block is cut off with a feed rate of the cutting tool up to 20 mm / sec.

In addition, layer-by-layer cutting of the block is carried out with a feed rate of the cutting tool of 20-80 mm / s.

To implement the method, a device is proposed for cutting a block of spongy titanium, including a bed, a cutting tool, a table designed to install the block, a power frame used to clamp the block, with a hydraulic cylinder and with a slider, new is that it contains a manipulator with a gripper for horizontal movement of the block on a table driven by a hydraulic cylinder, a movable stop attached to the power frame and made with the possibility of its movement to the cutting plane, while the table on one side is rigidly is attached to the bed, its supporting surface is aligned with the working surface of the bed and is provided with side walls between which the unit is installed, the slider is attached to the power frame with the possibility of vertical movement together with the cutting tool.

In addition, the step of discrete movement of the manipulator is 30-40 mm, and the step of discrete movement of the manipulator when cutting the top of the block is 50-60 mm.

In addition, a recess and a tray for collecting crushed sponge titanium are made on the bed.

In addition, a recess and an edge located on the side of the recess are made on the bed.

In addition, the height of the side walls of the fixed table is 0.9-1.2 distance to the axis of the sponge titanium block.

The proposed method for cutting a block of spongy titanium due to a new sequence of actions: installing the block with an axis parallel to the table support surface, moving the block with the manipulator in a horizontal position on the table until a part of the block extends to the table, cutting from the extended part of the defective layer block with a cutting tool, lifting the cutting tool vertically above the block, again discrete displacement of the block in horizontal position by the manipulator to the stop and discrete layered cutting of the block - allows to increase productivity method and device by increasing the speed of movement of the tool both during the working stroke and idling (the mass of the moving parts is much less), increase the service life of the cutting tool by eliminating friction between the block and the tool during its reverse stroke, reduce installation time and dismantling of the cutting tool, to cut pieces after the initial cutting of the block. To implement the method proposed a new set of structural elements of a device for cutting a block of sponge titanium:

- a table made stationary and provided with side walls, between which a block is installed, allows you to orient the block relative to the cutting tool (in terms of the axis of the block is perpendicular to the cutting plane). This is especially necessary when cutting a defective layer,

- a manipulator with a gripper located on the table for horizontal movement of the block on the table allows you to orient the block relative to the cutting tool (the axis of the block is horizontal to the table surface) and perform the functions of a pusher,

- emphasis attached to the power frame and providing a given value of the cut layer, allows you to cut pieces after the initial cutting of the block,

- a cutting tool rigidly attached to the slider perpendicular to the horizontal surface of the table and made with the possibility of vertical movement in the plane of the power frame, eliminates the load on the cutting tool during its reverse stroke, thereby reducing tool wear and increasing its service life.

The claimed group of inventions meets the requirement of unity of invention, since the claimed method of cutting a block of sponge titanium and a device for its implementation form a single inventive concept. Indeed, the implementation of the method of cutting a block of sponge titanium is possible only if there is a special device for cutting a block of sponge titanium.

An 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 that are identical (identical) to all the essential features of the invention. The determination from the list of identified analogues of the prototype as the closest in terms of the totality of the features of the analogue made it possible to establish the set of salient features that are essential to the applicant’s technical result in the claimed method for cutting a block of sponge titanium and a device for its implementation 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 signs that match the distinctive features of the claimed device and method of installation. As a result of the search, no new sources were found and the claimed objects did not follow explicitly for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention was not revealed from the prior art determined by the applicant to achieve a technical result. Therefore, the claimed invention meets the condition of "inventive step"

Figure 1-4 shows a device for cutting a block of sponge titanium, and

figure 1 shows a General view of the device, the moment of the beginning of the cut,

figure 2 is a top view of the device,

figure 3 is a view of the working surface of the bed,

figure 4 is a section along the table.

The device includes a bed 1 with a working surface 2, a cutting tool 3, a table 4, designed to install a block of sponge titanium 5, rigidly attached to the bed, a power frame 6 made with the possibility of vertical movement of the slide 7 from the hydraulic cylinders 8 and the clamp 9 of the block of sponge titanium with a displacement drive 10, a manipulator 11 with a gripper 12 for horizontal movement of the block along the supporting surface of the table driven by a hydraulic cylinder 13, a movable stop 14 attached to the power frame and providing a given value of the cut layer, while the table is stationary, the supporting surface 15 of the table is combined with the working surface of the bed. The table is provided with side walls 16, between which a block is mounted. The cutting tool is rigidly attached to the slider. The cutting edge of the tool moves in the cutting plane, which passes through the upper edge 17 of the working surface of the bed, located on the side of the recess 18, the tray 19 and the container 20.

An example implementation of the method and operation of the device for cutting a block of sponge titanium

The slider 7, to which it is rigidly attached, for example by a bolt connection, the cutting tool 3, is set to its highest position, the movable stop 14 is set to a position of a predetermined cut value L (~ 20 mm). Block 5 of sponge titanium is installed on the supporting surface 15 of table 4 with gaps K (5-10 mm) relative to the sides 16 so that the axis of the block is parallel to the supporting surface 15 of table 4. The hydraulic cylinder 13 moves the manipulator 11 to contact with block 5, the grips 12 cover the top of block 5, fixing its axis. Next, the block 5 is moved by the manipulator 11 to the working surface 2 of the bed 1 until the part of the block 5 is extended beyond the cutting plane passing through the cutting edge of the tool 3 and the edge 17 of the working surface of the bed 1, located on the side of the recess 18 until it contacts the stop 14, pressure is applied to the hydraulic cylinders 8 and the slider 7 with the cutting tool 3 cuts the defective layer at a speed of ~ 20 mm / s, while the movable stop 14 is removed. The cutting edge of the tool 3 moves to the plane 2 of the bed 1 and at the end of the stroke falls 5-10 mm below the working plane 2 of the bed 1, the entire cutting force is perceived by the working surface of the bed 1. After the end of the cut, the slider 7 with the cutting tool 3 is raised to the upper position. Next, adjust the movable stop 14 to the size of the cut-off layer of 30-40 mm and carry out layer-by-layer cutting at a speed of 40-60 mm / sec. After each discrete cut, the manipulator 11 advance the block 5 to the movable stop 14 and press it. When cutting the top of the block (about 1 / 3-1 / 4 of the length of the block 5), the movable stop 14 is adjusted to the size of the cut-off layer of 40-60 mm, the remainder of the block 5 is advanced to the movable stop 14 without using grippers, lower the clamp 9, remove the movable stop 14 and perform cutting at a speed of 80 mm / sec. In the process of cutting, the pieces of the product fall on the tray 19, located in the recess 18 of the bed 1, and then into the container 20. After the initial cutting, the pieces of sponge titanium are re-loaded onto the table 4 with side walls 16 and subjected to additional grinding.

Thus, the proposed method and device for cutting a block of sponge titanium allows:

- increase the cutting speed of the block and thereby increase its productivity,

- increase the life of the cutting tool and thereby reduce downtime for its replacement and increase productivity,

- simplify the design of the device.

In addition, this device allows re-grinding of pieces of sponge titanium, which eliminates the use of additional equipment for cutting pieces of a block of sponge titanium. Due to the exclusion of overheating of sponge titanium during block cutting, its quality is significantly improved.

Claims (9)

1. The method of cutting a block of spongy titanium, including placing the block on the table, clamping the block, cutting the defective layer with a cutting tool over the entire width of the block and layer-by-layer cutting at different speeds, characterized in that the block is placed with an axis parallel to the table supporting surface, the block is moved using the manipulator in a horizontal position on the supporting surface of the table until the part of the block extends to the table and touches the movable stop, the defective layer is separated by a cutting tool from the extended part of the block, then the cutting tool under imayut vertically above the block, again the manipulator unit is moved in a horizontal position to the movable stop and carried discretely layered cutting unit. 2. The method according to claim 1, characterized in that the pieces of titanium sponge after primary cutting are loaded onto a table with side walls and subjected to additional grinding. 3. The method according to claim 1, characterized in that the defective layer from the block is cut off with a feed rate of the cutting tool up to 20 mm / s. 4. The method according to claim 1, characterized in that the layer-by-layer cutting of the block is carried out at a cutting tool speed of 20-80 mm / s. 5. A device for cutting a block of spongy titanium, including a bed, a cutting tool, a table for installing the block, a power frame with a hydraulic cylinder and a slider, designed to clamp the block, characterized in that it contains a manipulator placed on the table with a grip for horizontal movement of the block on the table driven by a hydraulic cylinder, a movable stop attached to the power frame and made with the possibility of its movement to the cutting plane, while the table on one side is rigidly attached to the bed, and its supporting surface is placed with the working surface of the bed and provided with side walls for installing a block between them, and the slider is attached to the power frame with the possibility of vertical movement together with the cutting tool. 6. The device according to claim 5, characterized in that the step of discrete movement of the manipulator is 30-40 mm, and when cutting the top of the block is 50-60 mm. 7. The device according to claim 5, characterized in that a recess is made on the bed in which a tray for collecting crushed sponge titanium is mounted. 8. The device according to claim 5, characterized in that a recess and an edge located on the side of the recess are made on the bed. 9. The device according to claim 5, characterized in that the height of the side walls of the fixed table is 0.9-1.2 distances to the axis of the sponge titanium block.

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