CN112846325B - A kind of production method of ground titanium steel clad plate - Google Patents

Abstract

The invention discloses a production method of a titanium steel composite board, and relates to the technical field of titanium steel composite board processing. According to the production method of the titanium-steel-grinding composite plate, the rotation of the disc is driven through the rotation of the double-shaft motor II, the disc enables the hollow plate, the sliding plate, the fixing rod and the clamping plate to stably move downwards under the combined action of the pin shaft I, the connecting rod II, the hinge block and the telescopic rod in the rotation process, then the four clamping plates clamp and fix the titanium-steel composite plate in the downward movement process, so that stability in the edge milling machining process of the titanium-steel composite plate is guaranteed, the fixing mode is simple and rapid, time and labor are saved, the labor capacity of workers is reduced, the working efficiency is improved, and convenience is brought to the work of the workers.

Description

A kind of production method of grinding titanium steel composite plate

technical field

The invention relates to the technical field of processing titanium-steel composite plates, in particular to a production method for grinding titanium-steel composite plates.

Background technique

As a layered metal composite plate, titanium steel composite plate, because it combines the characteristics of low density of metal titanium, high specific strength, corrosion resistance and superior strength performance of steel, effectively saves production and manufacturing costs. It has broad application prospects in manufacturing fields such as engineering, aerospace and transportation construction.

Titanium steel composite panels need to go through multiple processes in the production process: surface pretreatment, explosive composite, leveling, etc. After rough machining of titanium steel composite panels, a series of edge milling and other series of titanium steel composite panels finishing.

When milling the titanium-steel composite plate, a milling device is needed, but when the existing milling device clamps and fixes the titanium-steel composite plate, workers need to turn multiple screws one by one to fix the titanium-steel composite plate For clamping and fixing, the fixing method is cumbersome, and the distance between the clamps cannot be adjusted according to the length of the titanium-steel composite plate, and then it does not have universal applicability, which brings inconvenience to the user and cannot meet the user's needs. Usage requirements.

Contents of the invention

(1) Solved technical problems

Aiming at the deficiencies of the prior art, the present invention provides a production method for grinding titanium-steel composite plates, which solves the problem that workers need to rotate multiple screw rods one by one when the existing edge milling device clamps and fixes the titanium-steel composite plates. Clamping and fixing the titanium-steel clad plate is cumbersome, and the distance between the clamps cannot be adjusted according to the length of the titanium-steel clad plate, so there is no problem of universal applicability.

(2) Technical solution

In order to achieve the above object, the technical solution adopted by the present invention is: a production method of titanium-ground steel composite plate, comprising a table plate, the lower surface of the table plate is fixedly connected with a second fixing frame, and the second fixing frame is fixedly installed There is a biaxial motor 2, the left and right output shafts of the biaxial motor 2 are fixedly connected with a disk, and the side of the disk away from the biaxial motor 2 is fixedly connected with the top of the connecting rod through the pin shaft 1, and the The bottom end of the connecting rod is hinged with the hinge block through the pin shaft 2, and the hinge block is fixedly connected to the upper surface of the hollow plate, and the lower surface of the hollow plate is fixedly connected with a fixed frame one, and the fixed frame one is fixedly installed There is a double-shaft motor 1, the two output shafts of the double-shaft motor 1 are fixedly connected with a worm, and the worm meshes with the worm gear, and the opposite end optical axes of the screw 1 and the screw 2 are sleeved inside the worm gear, so The optical shaft ends of the screw rod 1 and the screw rod 2 are sleeved with a bearing 1, and the two bearings 1 are respectively clamped in two fixed blocks, and the fixed block is fixedly connected with the lower surface of the hollow plate, and the screw rod 1 and the The second screw rod is threadedly connected with the two threaded barrels respectively, and the opposite ends of the two threaded barrels are fixedly connected to the connecting block, and the two connecting blocks are respectively fixedly connected to the lower surfaces of the two slide plates, and both slide plates slide Connected in the hollow plate, fixed rods are fixedly connected to the front and rear of the upper surface of the slide plate, and the top of the fixed rod passes through the chute provided by the table board and is fixedly connected with the splint.

Two fixing plates are fixedly connected to the left and right positions of the surface of the table top, and bearings 2 are clamped in the four fixing plates, and screw rods are sleeved in the two opposite bearings in the front and rear respectively. The front and rear optical axes of the screw three, the rear optical axis of the screw three is sleeved with a sprocket, and the two sprockets are connected by the same chain transmission, and the rear end of the left screw three is connected to the output shaft of the positive and negative motor Fixedly connected, the positive and negative motors are fixedly installed on the upper surface of the table, and the two screw rods are threaded with nuts, and the opposite surfaces of the two nuts are fixedly connected with support plates, and the two support plates are The bearing three is clamped, and the two bearings three are sleeved with the same rotating shaft, the right end of the rotating shaft is fixedly connected with the output shaft of the driving motor, and the rear side of the driving motor is fixedly connected with a fixing seat, and the fixing seat It is fixedly connected with the right side of the right support plate, two sliding sleeves are slidably connected to the rotating shaft, and the two sliding sleeves are respectively fixedly connected to the inner rings of the two cutter heads, and the opposite sides of the two cutter heads are There are two fixed rings fixedly connected, and a plurality of mounting holes are provided at the left and right positions of the rotating shaft, and the same bolt passes through the two vertically opposite fixed rings and the mounting holes.

Preferably, the four corners of the upper surface of the hollow plate are fixedly connected with telescopic rods, and the fixed ends of the telescopic rods are fixedly connected with the lower surface of the table.

Preferably, the opposite ends of the first screw and the second screw are fixedly connected, and the thread directions of the first screw and the second screw are opposite.

Preferably, the four corners of the lower surface of the table board are fixedly connected with table legs.

Preferably, four supporting feet are fixedly connected to the upper surface of the table board, and all four supporting feet are fixedly connected to the lower surface of the placing board.

Preferably, a control box is fixedly installed on the front of the table, and the output ends of the control box are respectively electrically connected to the input ends of the first biaxial motor, the second biaxial motor, the drive motor and the forward and reverse motors.

A method for producing a titanium-steel composite plate, comprising the following steps:

S1. First use the pretreatment equipment to rinse and clean the plate;

S2, then combine the plates after cleaning into one piece, and then perform compounding in an explosive compounding manner to obtain a titanium-steel clad plate blank;

S3, then put the titanium-steel composite plate blank into the straightening equipment for leveling;

S4. Then place the finished titanium steel composite plate on the placement plate, then support the titanium steel composite plate through the placement plate, and then control the rotation of the biaxial motor 1 through the control box, and the rotation of the biaxial motor 1 drives the two When the worm rotates, the two worms are respectively meshed to drive the two worm gears, and then the two sets of screw one and screw two are rotated synchronously. During the rotation of the screw one and the second screw, the two slide plates are moved away from each other with the movement of the two threaded cylinders. Or approach, and then adjust the position of the left and right splints to adapt to the length of the titanium-steel composite plate;

S5. Then separate the bolts from the two fixing rings and the mounting holes, and no longer fix the cutterhead, and then adjust the position of the cutterhead according to the length of the titanium-steel composite plate, so that the cutterhead can be connected to the side of the titanium-steel composite plate contact, and then pass the bolts through the two fixing rings and the mounting holes to fix the position of the cutter head;

S6. Control the rotation of the biaxial motor 2 through the control box. The rotation of the biaxial motor 2 drives the rotation of the disc. Under the action, the hollow plate, slide plate, fixed rod and splint move down smoothly, and then the four splints clamp and fix the titanium-steel composite plate during the downward movement to ensure the milling process of the titanium-steel composite plate is stable in

S7. Control the rotation of the driving motor and the positive and negative motor through the control box, the rotation of the driving motor drives the rotation of the rotating shaft and the two cutter heads, and then the two cutter heads simultaneously mill the left and right sides of the titanium steel composite plate during the rotation process At the same time, through the cooperation of sprockets, chains and positive and negative motors, the two screw threes can realize synchronous forward rotation. During the rotation of the two screw threes, two nuts, two support plates, driving motors, rotating shafts and The two cutterheads move forward, and then expand the milling range of the cutterhead, so that the left and right sides of the titanium-steel composite plate can be fully milled, and finally the worker can remove the finished titanium-steel composite plate.

(3) Beneficial effects

The beneficial effects of the present invention are:

1. The production method of grinding titanium-steel composite board is to place the titanium-steel composite board on the placement board, then support the titanium-steel composite board through the placement board, and drive the rotation of the disc through the rotation of the biaxial motor 2, and the circle During the rotation of the disk, the hollow plate, the sliding plate, the fixed rod and the splint move downward smoothly through the joint action of the first pin, the connecting rod, the second pin, the hinge block and the telescopic rod, and then the four splints move downward During the moving process, the titanium steel composite plate is clamped and fixed to ensure the stability of the titanium steel composite plate in the milling process, and the fixing method is simple and fast, saving time and effort, reducing the labor load of workers and improving work efficiency , thus bringing convenience to workers' work.

2. The production method of the titanium-ground steel composite plate drives the rotation of the two worms through the rotation of the biaxial motor 1, and the two worms respectively engage and drive the two turbines, and then the two groups of screw 1 and screw 2 realize synchronous rotation. During the rotation of screw 1 and screw 2, the two slide plates are moved away from or close to each other with the movement of the two threaded cylinders, and then the positions of the left and right splints are adjusted to adapt to the length of the titanium-steel composite plate, so as to facilitate the adjustment of the titanium-steel composite plate. The edge milling process is carried out on the composite plate, so that the device has universal applicability and meets the needs of users.

3. The production method of the titanium-steel composite plate, by separating the bolts from the two fixing rings and the installation holes, the cutter head is no longer fixed, and then the position of the cutter head can be adjusted according to the length of the titanium-steel composite plate, so that the knife The disc can be in contact with the side of the titanium-steel composite plate, so as to facilitate milling of the titanium-steel composite plate.

4. The production method of grinding titanium-steel composite plate is to drive the rotation of the rotating shaft and the two cutterheads through the rotation of the drive motor, and then the two cutterheads will simultaneously perform edge milling on the left and right sides of the titanium-steel composite plate during the rotation process , and then improve the processing efficiency of the titanium-steel composite plate, and through the cooperation of the sprocket, chain and positive and negative motors, the two screw threes can realize synchronous rotation, and the two screw threes can make two nuts, two The support plate, drive motor, rotating shaft and two cutterheads move back and forth, and then the milling range of the cutterhead is expanded, so as to facilitate the comprehensive milling process on the left and right sides of the titanium-steel composite plate.

Description of drawings

Fig. 1 is the schematic diagram of the front view sectional structure of the present invention;

Fig. 2 is a schematic diagram of the front view structure of the present invention;

Fig. 3 is a schematic view of the top view structure of the present invention;

Fig. 4 is a schematic view of the structure of the hollow plate of the present invention viewed from above;

Fig. 5 is a schematic diagram of the three-dimensional structure of the hollow plate of the present invention.

In the figure: 1 table board, 2 connecting block, 3 threaded cylinder, 4 screw rod 1, 5 fixed frame 1, 6 biaxial motor 1, 7 worm screw, 8 turbine, 9 fixed block, 10 screw rod 2, 11 hollow plate, 12 slide plate , 13 biaxial motor 2, 14 disc, 15 telescopic rod, 16 connecting rod, 17 hinged block, 18 chute, 19 screw rod 3, 20 fixed plate, 21 support plate, 22 bolt, 23 cutter head, 24 fixed rod, 25 chain, 26 placement plate, 27 rotating shaft, 28 fixed frame two, 29 support feet, 30 plywood, 31 fixed ring, 32 fixed seat, 33 drive motor, 34 nut, 35 table foot, 36 control box, 37 sliding sleeve, 38 Sprocket, 39 positive and negative motors, 40 mounting holes.

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

As shown in Figures 1-5, the present invention provides a technical solution: a method for producing a titanium-ground steel composite plate, comprising a table plate 1, the lower surface of the table plate 1 is fixedly connected with a fixing frame 2 28, and a fixing frame 2 28 The two-axis motor 13 is fixedly installed inside, and the left and right output shafts of the two-axis motor two 13 are fixedly connected with a disc 14, and the side of the disc 14 away from the two-axis motor 13 passes through the pin shaft one and the top of the connecting rod 16 Fixedly connected, the bottom end of the connecting rod 16 is hinged with the hinge block 17 through the pin shaft two, and the hinge block 17 is fixedly connected to the upper surface of the hollow plate 11, and its function is: the disc 14 is connected through the pin shaft one and Under the combined action of rod 16, pin shaft 2, hinge block 17 and telescopic rod 15, hollow plate 11, slide plate 12, fixed rod 24 and splint 30 are moved up and down smoothly, and the lower surface of hollow plate 11 is fixedly connected with fixed frame One 5, the double shaft motor one 6 is fixedly installed in the fixed frame one 5, and its two shaft motor one 6 can carry out forward and reverse rotation, and the two output shafts before and after the two shaft motor one 6 are all fixedly connected with the worm screw 7, and the worm screw 7 and The worm gears 8 are meshed, and the worm gear 8 is sleeved with the optical shafts at the opposite ends of the screw 1 4 and the screw 2 10, and the rotation of the two worms 7 is driven by the rotation of the biaxial motor 1 6, and the two worms 7 are engaged to drive the two worm gears respectively. 8. Then, the two groups of screw one 4 and screw two 10 are rotated synchronously, and the optical shaft ends of screw one 4 and screw two 10 are sleeved with bearing one, and the two bearings one are clamped in two fixed blocks 9 respectively , the fixed block 9 is fixedly connected to the lower surface of the hollow plate 11, the first screw 4 and the second screw 10 are threadedly connected to the two threaded barrels 3 respectively, and the opposite ends of the two threaded barrels 3 are fixedly connected to the connecting block 2, And the two connecting blocks 2 are respectively fixedly connected to the lower surfaces of the two slide plates 12, and its effect is that the screw rod one 4 and the screw rod two 10 make the two slide plates 12 move away from each other along with the movement of the two threaded cylinders 3 or approach, and then adjust the positions of the splints 30 on the left and right sides to adapt to the length of the titanium-steel composite plate, so as to facilitate the milling of the titanium-steel composite plate, so that the device has universal applicability and meets the needs of users , and the two slides 12 are slidably connected in the hollow plate 11. By setting the hollow plate 11, on the one hand, the two slides 12 can be supported, and on the other hand, the two slides 12 can be restricted, so that the two slides 12 There is stability in the process of moving left and right. The upper surface of the slide plate 12 is fixedly connected with a fixed rod 24 at the front and rear positions. Its function is: the four splints 30 clamp and fix the titanium-steel composite plate during the downward movement along with the slide plate 12 and the hollow plate 11, so as to ensure the stability and fixation of the titanium-steel composite plate in the milling process. The method is simple and fast, saves time and effort, reduces the labor load of workers, and improves work efficiency, thereby bringing convenience to workers' work.

Two fixed plates 20 are fixedly connected to the left and right positions of the upper surface of the table plate 1, and the four fixed plates 20 are all clamped with bearings 2, and the two opposite bearings 2 at the front and rear are respectively sleeved with The front and rear end optical axes of the screw three 19, the rear end optical axis of the screw three 19 are sleeved with a sprocket 38, and the two sprockets 38 are connected by the same chain 25 transmission, and the rear end of the left screw three 19 is connected to the positive The output shaft of anti-motor 39 is fixedly connected, and through the cooperation of sprocket wheel 38, chain 25 and positive and negative motor 39, two screw rods three 19 are realized to rotate synchronously, and positive and negative motor 39 is fixedly installed on the upper surface of table board 1, and two Nuts 34 are all threaded on the three screw rods 19, and the opposite surfaces of the two nuts 34 are fixedly connected with support plates 21, and the two screw rods three 19 make the two nuts 34, the two support plates 21, the drive Motor 33, rotating shaft 27 and two cutterheads 23 move forward and backward, and then expand the milling range of cutterhead 23, so that the left and right sides of the titanium-steel composite plate are carried out full-scale edge milling processing, and both support plates 21 are The bearing three is clamped, and the same rotating shaft 27 is sleeved in the two bearings three, the right end of the rotating shaft 27 is fixedly connected with the output shaft of the drive motor 33, and the rotation of the drive motor 33 drives the rotation of the rotating shaft 27 and the two cutter heads 23. Rotate, then two cutterheads 23 carry out edge milling processing to the left and right sides of titanium-steel composite plate simultaneously in the process of rotation, then improved the processing efficiency to titanium-steel composite plate, the rear side of drive motor 33 is fixedly connected with holder 32, the fixed seat 32 is fixedly connected with the right side of the right support plate 21, two sliding sleeves 37 are slidably connected on the rotating shaft 27, and the two sliding sleeves 37 are respectively fixedly connected to the inner rings of the two cutterheads 23, and Two fixed rings 31 are fixedly connected to the opposite sides of the two cutterheads 23, and a plurality of mounting holes 40 are provided on the left and right positions of the rotating shaft 27, and the two vertically opposite fixed rings 31 and the mounting holes 40 There is the same bolt 22 inside, its function is: by separating the bolt 22 from the two fixing rings 31 and the mounting hole 40, the cutter head 23 is no longer fixed, and then the cutter head can be adjusted according to the length of the titanium-steel composite plate 23, the cutter head 23 can be in contact with the side of the titanium-steel clad plate, so that the edge milling process is carried out to the titanium-steel clad plate.

The four corners of the upper surface of the hollow plate 11 are fixedly connected with telescopic rods 15, the fixed ends of the telescopic rods 15 are fixedly connected with the lower surface of the table plate 1, the opposite ends of the screw rod one 4 and the screw rod two 10 are fixedly connected, and the screw rod one 4 and the screw rod two are fixedly connected. The thread direction of two 10 is opposite, and the four corners of the lower surface of the table board 1 are all fixedly connected with table legs 35, and the upper surface of the table board 1 is fixedly connected with four supporting feet 29, and the four supporting feet 29 are all fixedly connected on the placement board. The lower surface of 26, by placing the titanium-steel composite board on the placement board 26, then the titanium-steel composite board is supported by the placement board 26, the front of the table board 1 is fixedly equipped with a control box 36, and the output ends of the control box 36 are respectively It is electrically connected with the access ends of the first biaxial motor 6, the second biaxial motor 13, the driving motor 33 and the positive and negative motor 39.

A method for producing a titanium-steel composite plate, comprising the following steps:

S1. First use the pretreatment equipment to rinse and clean the plate;

S2, then combine the plates after cleaning into one piece, and then perform compounding in an explosive compounding manner to obtain a titanium-steel clad plate blank;

S3, then put the titanium-steel composite plate blank into the straightening equipment for leveling;

S4, then place the finished titanium-steel composite plate on the placement plate 26, then support the titanium-steel composite plate by the placement plate 26, then control the rotation of the biaxial motor-6 through the control box 36, the biaxial motor-6 The rotation of the two worms 7 drives the rotation of the two worms 7, and the two worms 7 mesh and drive the two worm gears 8 respectively, and then the two groups of screw one 4 and screw two 10 realize synchronous rotation, and the two sets of screw one 4 and screw two 10 make the two A slide plate 12 moves away from or approaches each other along with the movement of the two threaded cylinders 3, and then adjusts the positions of the splints 30 on the left and right sides to adapt to the length of the titanium-steel composite plate;

S5, then the bolt 22 is separated from the two fixing rings 31 and the mounting holes 40, and the cutter head 23 is no longer fixed, and then the position of the cutter head 23 can be adjusted according to the length of the titanium-steel composite plate, so that the cutter head 23 can be aligned with the titanium steel composite plate. The sides of the steel composite plates are in contact, and then the bolts 22 pass through the two fixing rings 31 and the mounting holes 40 to fix the position of the cutter head 23;

S6, control the rotation of the biaxial motor 2 13 through the control box 36, the rotation of the biaxial motor 13 drives the rotation of the disc 14, and the disc 14 is hinged by the first pin, the connecting rod 16, the second pin, and the hinge during the rotation. Under the combined action of the block 17 and the telescopic rod 15, the hollow plate 11, the sliding plate 12, the fixed rod 24 and the splint 30 move downward steadily, and then the four splints 30 clamp the titanium-steel composite plate during the downward movement Fixed to ensure the stability during the milling process of the titanium-steel composite plate;

S7, control the rotation of the driving motor 33 and the positive and negative motor 39 by the control box 36, the rotation of the driving motor 33 drives the rotation of the rotating shaft 27 and the two cutter heads 23, and then the two cutter heads 23 rotate against the titanium steel composite plate At the same time, the left and right sides of the two screw rods 19 are synchronously rotated in the forward direction through the cooperation of the sprocket 38, the chain 25 and the positive and negative motor 39, and the two screw rods 19 make the two Nut 34, two support plates 21, drive motor 33, rotating shaft 27 and two cutterheads 23 move forward, and then expand the milling range of cutterhead 23, so that the left and right sides of the titanium-steel composite plate are fully milled Processing, and finally the worker removes the titanium-steel composite plate that has been milled.

The specific embodiments described above have further described the purpose, technical solutions and beneficial effects of the present invention in detail. It should be understood that the above descriptions are only specific embodiments of the present invention and are not intended to limit the present invention. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention shall be included within the protection scope of the present invention.

Claims (7)

1. A production method of grinding titanium-steel composite plate, the production method is based on a production device of grinding titanium-steel composite plate, the device comprises a table (1), it is characterized in that: the bottom of the table (1) The surface is fixedly connected with two fixed frames (28), and the two shaft motors (13) are fixedly installed in the two fixed frames (28), and the two left and right output shafts of the two shaft motors (13) are all fixedly connected with circular shafts. disc (14), the side of the disc (14) away from the biaxial motor two (13) is fixedly connected with the top end of the connecting rod (16) through the pin shaft one, and the bottom end of the connecting rod (16) is fixedly connected through the pin The second shaft is hinged to the hinge block (17), and the hinge block (17) is fixedly connected to the upper surface of the hollow plate (11), and the lower surface of the hollow plate (11) is fixedly connected to a fixed frame one (5), Two-axis motor one (6) is fixedly installed in the fixed frame one (5), and two output shafts before and after the two-axis motor one (6) are all fixedly connected with a worm screw (7), and the described worm screw (7) and The turbines (8) are meshed, and the turbines (8) are sleeved with the optical axes of the opposite ends of the screw one (4) and the screw two (10), and the optical axes of the screw one (4) and the screw two (10) Both ends are sleeved with a bearing one, and the two bearings one are clamped in two fixed blocks (9) respectively, and the fixed block (9) is fixedly connected with the lower surface of the hollow plate (11), and the screw rod one ( 4) and screw rod two (10) are threadedly connected with two threaded barrels (3) respectively, and the opposite ends of the two threaded barrels (3) are all fixedly connected in the connecting block (2), and the two connecting blocks (2 ) are fixedly connected to the lower surfaces of the two slide plates (12) respectively, and the two slide plates (12) are all slidably connected in the hollow plate (11), and the upper surface of the slide plate (12) is located near the front and behind. Fixedly connected with a fixed rod (24), the top of the fixed rod (24) passes through the chute (18) that the table board (1) offers and is fixedly connected with the splint (30); Two fixed plates (20) are fixedly connected to the left and right positions of the upper surface of the table plate (1), and the four fixed plates (20) are clamped with two bearings, and the front and rear two are opposite to each other. The bearings two are respectively sleeved with the front and rear end optical axes of the screw rod three (19), and the rear end optical shafts of the screw rod three (19) are sleeved with sprocket wheels (38), and the two sprocket wheels (38) pass through The same chain (25) is transmission connected, and the rear end of the left screw rod three (19) is fixedly connected with the output shaft of the positive and negative motor (39), and the positive and negative motor (39) is fixedly installed on the top of the table (1). upper surface, and two screw rods three (19) are threaded with nuts (34), and the opposite surfaces of the two nuts (34) are fixedly connected with support plates (21), and the two support plates (21) Bearings 3 are clamped, and the same rotating shaft (27) is sleeved in the two bearings 3, the right end of the rotating shaft (27) is fixedly connected with the output shaft of the drive motor (33), and the drive motor (33) The rear side of the rear side is fixedly connected with a fixed seat (32), and the fixed seat (32) is fixedly connected with the right side of the right support plate (21), and two sliding sleeves (37) are slidably connected on the rotating shaft (27). ), and the two sliding sleeves (37) are respectively fixedly connected to the inner rings of the two cutterheads (23), and the opposite sides of the two cutterheads (23) are fixedly connected with two fixed rings (31), the A plurality of installation holes (40) are provided on the left and right positions of the rotating shaft (27), and the same bolt (22) passes through the two fixed rings (31) and the installation holes (40) opposite up and down. . 2. The production method of a kind of titanium-ground steel composite plate according to claim 1, characterized in that: the four corners of the upper surface of the hollow plate (11) are fixedly connected with telescopic rods (15), and the telescopic rods The fixed end of (15) is fixedly connected with the lower surface of table board (1). 3. the production method of a kind of titanium-ground steel composite plate according to claim 2, is characterized in that: the opposite end of described screw rod one (4) and screw rod two (10) is fixedly connected, and described screw rod one (4) It is opposite to the thread direction of screw rod two (10). 4. The production method of a titanium-ground steel composite plate according to claim 3, characterized in that: the four corners of the lower surface of the table plate (1) are fixedly connected with table feet (35). 5. the production method of a kind of titanium-ground steel composite plate according to claim 4, is characterized in that: the upper surface of described table board (1) is fixedly connected with four supporting feet (29), and four supporting feet (29) are all fixedly connected on the lower surface of placing plate (26). 6. the production method of a kind of titanium-ground steel composite plate according to claim 5, is characterized in that: the front of described table board (1) is fixedly installed with control box (36), and the control box (36) The output ends are respectively electrically connected to the access ends of the first biaxial motor (6), the second biaxial motor (13), the driving motor (33) and the positive and negative motor (39). 7. a kind of production method of grinding titanium steel clad plate according to claim 6, comprises the following steps: S1. First use the pretreatment equipment to rinse and clean the plate; S2, then combine the plates after cleaning into one piece, and then perform compounding in an explosive compounding manner to obtain a titanium-steel clad plate blank; S3, then put the titanium-steel composite plate blank into the straightening equipment for leveling; S4, then place the finished titanium-steel composite plate on the placement plate (26), then support the titanium-steel composite plate by the placement plate (26), and then control the biaxial motor one (6) through the control box (36) The rotation of the double-axis motor one (6) drives the rotation of the two worms (7), and the two worms (7) respectively engage and drive the two turbines (8), and then the two sets of screw one (4) and screw two (10) to realize synchronous rotation, the screw rod one (4) and the screw rod two (10) make the two slide plates (12) move away from or approach each other along with the movement of the two threaded cylinders (3) during the rotation process, and then the left and right sides The position of clamping plate (30) is adjusted, to adapt to the length of titanium-steel composite plate; S5, then the bolt (22) is separated from the two fixing rings (31) and the mounting holes (40), and the cutter head (23) is no longer fixed, and then the cutter head (23) can be adjusted according to the length of the titanium-steel composite plate position, so that the cutter head (23) can be in contact with the side of the titanium-steel composite plate, and then the bolt (22) passes through the two fixing rings (31) and the mounting holes (40) to the position of the cutter head (23) to fix; S6, control the rotation of the two-axis motor two (13) through the control box (36), the rotation of the two-axis motor two (13) drives the rotation of the disc (14), and the disc (14) passes through the pin shaft one during the rotation. , connecting rod (16), pin shaft two, hinge block (17) and telescopic rod (15) under the joint action, make hollow plate (11), slide plate (12), fixed rod (24) and splint (30) stable Move downwards, and then four splints (30) clamp and fix the titanium-steel composite plate during the downward movement, so as to ensure stability in the milling process of the titanium-steel composite plate; S7, control the rotation of the driving motor (33) and the positive and negative motor (39) by the control box (36), the rotation of the driving motor (33) drives the rotation of the rotating shaft (27) and the two cutter heads (23), and then the two During the rotation process, the cutter head (23) mills the left and right sides of the titanium-steel composite plate simultaneously, and at the same time through the cooperation of the sprocket (38), the chain (25) and the positive and negative motors (39), the two screw rods Three (19) realize synchronous forward rotation, and two screw rod three (19) make two nuts (34), two support plates (21), drive motor (33), rotating shaft (27) and two The cutterhead (23) moves forward, and then expands the milling range of the cutterhead (23), so that the left and right sides of the titanium-steel composite plate are fully milled, and finally the workman takes the finished titanium-steel composite plate out of the milling Just download it.