Forging intelligent heating equipment with correction function and use method
阅读说明:本技术 具有校正功能的锻铸件智能化加热设备及使用方法 (Forging intelligent heating equipment with correction function and use method ) 是由 周勤忠 管君 符多友 于 2021-08-12 设计创作,主要内容包括:本发明公开了具有校正功能的锻铸件智能化加热设备及使用方法,属于锻铸件加工技术领域,具有校正功能的锻铸件智能化加热设备,包括底座、第一摆动板、传动轮和第一推板,底座的表面设置有旋转盘,旋转盘的顶部设置有带动第一摆动板摆动的旋转杆,第一摆动板的尾部固定连接有第一衔接板,该具有校正功能的锻铸件智能化加热设备及使用方法,适用性强,在使用时,可通过控制夹板使其对锻铸件进行夹持,防止设备其在加热时出现位移,在加热时,可通过第一传动杆带动安装台进行移动,大大增强了设备的灵活性,便于对锻铸件进行校正,且加工完毕后,能够对锻铸件实现自动转移。(The invention discloses forging intelligent heating equipment with a correction function and a use method thereof, belonging to the technical field of forging processing, and the forging intelligent heating equipment with the correction function comprises a base, a first swinging plate, a driving wheel and a first push plate, wherein the surface of the base is provided with a rotating disc, the top of the rotating disc is provided with a rotating rod for driving the first swinging plate to swing, the tail of the first swinging plate is fixedly connected with a first connecting plate, the intelligent heating equipment with the correction function for the forging and casting piece and the use method have strong applicability, and when in use, the clamping plate can be controlled to clamp the forging and casting piece, the displacement of the device during heating is prevented, when the heating, the first transfer line of accessible drives the mount table and removes, has strengthened the flexibility of equipment greatly, is convenient for rectify the forging and casting piece, and the back of finishing, can realize automatic transfer to the forging and casting piece.)
1. Intelligent heating equipment of forging and casting with calibration function, including base (1), first swing board (4), drive wheel (7) and first push pedal (13), its characterized in that: the surface of base (1) is provided with rotary disk (2), the top of rotary disk (2) is provided with the drive first swing board (4) wobbling rotary rod (3), the first linkage plate (5) of the first tail fixedly connected with of first swing board (4), the top of first linkage plate (5) is provided with the drive two sets of driving plate (6) of drive wheel (7) rotation, the surface of drive wheel (7) is provided with first transfer lever (8), the bottom of first transfer lever (8) is provided with links up pole (9), the surperficial swivelling joint of linking pole (9) has the lantern ring (10), the fixed surface of the lantern ring (10) is connected with the drive gliding first transfer plate (11) of first push pedal (13) and second transfer plate (12).
2. Intelligent heating equipment of forged parts with correction function according to claim 1, characterized in that: the surface sliding connection of base (1) has mount table (14), and the inside of mount table (14) is provided with locking loose mechanism (18), the surface sliding connection of mount table (14) has splint (15), and the surface that the side of mount table (14) is located base (1) is provided with transfer table (19), the bottom of transfer table (19) is provided with transport mechanism (17), and the top of mount table (14) is provided with firing equipment main part (16).
3. Intelligent heating equipment of forged parts with correction function according to claim 1, characterized in that: the rotary rod (3) is arranged in a mode of deviating from the circle center of the rotary disk (2), a sliding groove matched with the rotary rod (3) is formed in the surface of the first swinging plate (4), and the joint point of the first swinging plate (4) and the base (1) is located at the center point of the first swinging plate.
4. Intelligent heating equipment of forged parts with correction function according to claim 1, characterized in that: the two groups of the poking plates (6) are arranged in a splayed and staggered mode, convex rods attached to the inner walls of the poking plates (6) are arranged on the surfaces of the driving wheels (7), and the length of the second driving plate (12) is one half of that of the first driving plate (11).
5. Intelligent heating equipment for forged parts with correction function as claimed in claim 2, characterized in that: the transfer mechanism (17) comprises a threaded rod (1701), a moving plate (1702), a second swinging plate (1703), a stress plate (1704), springs (1705), an embedded rod (1706), a limiting plate (1707) and a second connecting plate (1708), wherein the threaded rod (1701) is arranged on the surface of the base (1), two groups of moving plates (1702) are meshed on the surface of the threaded rod (1701), the stress plate (1704) is attached to the inner wall of the two groups of moving plates (1702), the springs (1705) are arranged on the side face of the stress plate (1704), the limiting plate (1707) is rotatably connected to the surface of the stress plate (1704), the second connecting plate (1708) is embedded into the limiting plate (1707), the embedded rod (1706) is fixedly connected to the surface of the second connecting plate (1708), and the second swinging plate (1703) is slidably connected to the surface of the embedded rod (1706).
6. Intelligent heating equipment of forged parts with correction function according to claim 5, characterized in that: the two groups of moving plates (1702) are both designed to be right-angled triangles, the two groups of moving plates (1702) are connected in an embedded manner, and threaded grooves which are opposite to each other are formed in the two groups of moving plates (1702).
7. Intelligent heating equipment for forged parts with correction function as claimed in claim 2, characterized in that: locking mechanism (18) of taking off includes control panel (1801), rotor plate (1802), second push pedal (1803), motion pole (1804), fly leaf (1805), slide (1806), arm-tie (1807) and control lever (1808), control panel (1801) sets up in the surface of base (1), and the side swivelling joint of control panel (1801) has second push pedal (1803) of side swivelling joint of rotor plate (1802), the surface of second push pedal (1803) is provided with two sets of motion poles (1804), and the equal sliding connection in surface of two sets of motion poles (1804) has fly leaf (1805) with base (1) sliding connection, the top swivelling joint of fly leaf (1805) has slide (1806), and the top of slide (1806) is provided with two sets of arm-tie (1807), and is two sets of the equal swivelling joint in side of arm-tie (1807) has control lever (1808).
8. Intelligent heating equipment of forged castings with correction function according to claim 7, characterized in that: the connecting point of the rotating plate (1802) deviates from the circle center of the control disc (1801), the length of the rotating plate (1802) is larger than the diameter of the control disc (1801), and the control disc (1801) drives the second push plate (1803) through the rotating plate (1802) to form a sliding structure.
9. Intelligent heating equipment of forged castings with correction function according to claim 7, characterized in that: the two groups of movable plates (1805) are mutually crossed, the crossing point of the two groups of movable plates (1805) and the connection point of the sliding plate (1806) are positioned at the same point, and the two groups of control rods (1808) penetrate through the mounting table (14) and are fixedly connected with the clamping plate (15).
10. Use of the intelligent heating device of forged parts with correction function according to claim 1, characterized by comprising the following steps:
s1, when the device is used, firstly, the forging is fixed, the forging to be heated is placed at the top of the mounting table (14), then the control panel (1801) is driven by the motor to rotate, when the control panel (1801) rotates, the rotating plate (1802) applies thrust to the second push plate (1803), so that the second push plate (1803) drives the moving rod (1804) to slide, and as the moving rod (1804) is embedded in the movable plate (1805), when the forging and casting device slides, the two groups of movable plates (1805) are driven to slide towards a central point on the surface of the base (1), then the included angle of the two groups of movable plates (1805) is reduced, the sliding plate (1806) can pull the pull plate (1807) through the change of the two groups of movable plates (1805), and then the two groups of pull plates (1807) can drive the clamping plate (15) to form a clamping structure through the two groups of control rods (1808) so as to clamp a forging and casting;
s2, then, carrying out correction operation, when the position of the forging piece needs to be adjusted, controlling the rotating disc (2) to rotate through the motor, driving the first swinging plate (4) to swing around the joint point with the base (1) through the rotating disc (2) when the rotating disc (2) rotates due to the eccentric design of the rotating rod (3), driving the driving wheel (7) to rotate through the swinging of the first joint plate (5) by the two groups of poking plates (6), then driving the first driving rod (8) and the joint rod (9) to rotate by the driving wheel (7), driving the first driving plate (11) to rotate around the joint point with the first push plate (13) through the rotation of the joint rod (9) by the lantern ring (10), then, under the matching of the first driving plate (11) and the joint rod (9), rolling the second driving plate (12) along the inner wall of the first push plate (13) and driving the first push plate (13) to slide in a reciprocating manner, then the first push plate (13) can correct the position of the forging piece while moving the drive mounting table (14);
s3, finally, transferring the forging and casting piece, after the forging and casting piece is heated, pushing the forging and casting piece to a transfer table (19), then controlling a threaded rod (1701) to rotate, wherein the two groups of moving plates (1702) can open towards two sides through the rotation of the threaded rod (1701), a stress plate (1704) can lose the thrust and drive a limit plate (1707) to move on a base (1) under the action of a spring (1705), because a second connecting plate (1708) is embedded in the limit plate (1707) which is obliquely arranged, when the limit plate (1707) and the two groups of stress plates (1704) move repeatedly through the spring (1705), the second connecting plate (1708) can drive an embedding rod (1706) to slide inside the second swinging plate (1703), and then the second swinging plate (1703) can swing around a connecting point of the base (1) through the second embedding rod (1706), the transfer table (19) fixedly connected with the transfer table drives the forged casting to be transferred.
Technical Field
The invention relates to the technical field of forging and casting processing, in particular to intelligent heating equipment with a correction function for a forging and casting and a using method.
Background
The casting and forging piece has important functions in the fields of machine tool manufacturing, automobile manufacturing, ships, power stations, weapon industry, steel manufacturing and the like, has large volume and weight as an important part, is relatively complex in process and machining, is generally smelted and cast into a ingot by adopting the process, is forged or remelted and cast into a shape, and meets the requirements of service conditions by obtaining the required shape, size and technical requirements through a high-frequency heating machine.
Heating is an important process for machining a forging piece, but many existing devices for heating the forging piece have various inconveniences in use, for example, when the placing position of the forging piece deviates, the forging piece cannot be automatically corrected, so that the heating position is inaccurate, and therefore intelligent heating devices and using methods for the forging piece with the correcting function are provided.
Disclosure of Invention
The invention aims to solve the problems that in the prior art, a lot of existing equipment for heating a forging part has inconvenience in use, for example, when the placing position of the forging part is deviated, the forging part cannot be automatically corrected, so that the heating position is inaccurate, and provides intelligent heating equipment for the forging part with a correcting function and a using method thereof.
In order to achieve the purpose, the invention adopts the following technical scheme:
intelligent firing equipment of forging and casting with calibration function, including base, first swing board, drive wheel and first push pedal, the surface of base is provided with the rotary disk, the top of rotary disk is provided with the drive first swing board wobbling rotary rod, the first linkage plate of the first fixedly connected with of afterbody swing board, the top of first linkage plate is provided with the drive two sets of striking plates of drive wheel rotation, the surface of drive wheel is provided with first transmission rod, the bottom of first transmission rod is provided with the linking pole, the surperficial swivelling joint of linking pole has the lantern ring, the fixed surface of the lantern ring is connected with the drive gliding first transmission plate of first push pedal and second transmission plate.
Preferably, the sliding surface of base is connected with the mount table, and the inside of mount table is provided with locking loose mechanism, the sliding surface of mount table is connected with splint, and the side of mount table is located the surface of base and is provided with the transfer platform, the bottom of transfer platform is provided with transport mechanism, and the top of mount table is provided with the firing equipment main part.
Preferably, the rotating rod is arranged in a manner of deviating from the circle center of the rotating disk, a sliding groove matched with the rotating rod is formed in the surface of the first swinging plate, and the joint point of the first swinging plate and the base is located at the midpoint of the first swinging plate and the base.
Preferably, the two groups of the poking plates are arranged in a splayed and staggered mode, convex rods attached to the inner walls of the poking plates are arranged on the surfaces of the driving wheels, and the length of the second driving plate is one half of that of the first driving plate.
Preferably, transport mechanism includes threaded rod, movable plate, second swing board, atress board, spring, embedding pole, limiting plate and second linkage plate, the threaded rod sets up in the surface of base, and the surface engagement of threaded rod has two sets of movable plates, and is two sets of the inner wall laminating of movable plate has the atress board, and the side of atress board is provided with the spring, the surperficial swivelling joint of atress board has the limiting plate, and the inside embedding of limiting plate has the second linkage plate, the fixed surface of second linkage plate is connected with the embedding pole, and the surperficial sliding connection of embedding pole has the second swing board.
Preferably, the two groups of moving plates are designed to be right triangles, are connected in an embedded manner, and are internally provided with thread grooves which are opposite to each other.
Preferably, locking mechanism includes control panel, rotor plate, second push pedal, motion pole, fly leaf, slide, arm-tie and control lever, the control panel sets up in the surface of base, and the side swivelling joint of control panel has the side swivelling joint of rotor plate to have the second push pedal, the surface of second push pedal is provided with two sets of motion poles, and the equal sliding connection in surface of two sets of motion poles has the fly leaf with base sliding connection, the top swivelling joint of fly leaf has the slide, and the top of slide is provided with two sets of arm-ties, and is two sets of the equal swivelling joint in side of arm-tie has the control lever.
Preferably, the joining point of the rotating plate deviates from the circle center of the control disk, the length of the rotating plate is greater than the diameter of the control disk, and the control disk drives the second push plate through the rotating plate to form a sliding structure.
Preferably, the two groups of movable plates are mutually crossed, the cross point of the two groups of movable plates and the joint point of the sliding plate are positioned at the same point, and the two groups of control rods penetrate through the mounting table and are fixedly connected with the clamping plate.
The scheme also provides a use method of the intelligent heating equipment for the forged castings with the correcting function, and the method comprises the following steps:
s1, when the device is used, firstly, a forging is fixed, the forging to be heated is placed at the top of the mounting table, then the control disc is driven to rotate by the motor, when the control disc rotates, thrust is applied to the second push plate by the rotating plate, so that the second push plate drives the moving rod to slide, as the moving rod is embedded in the movable plates, when the moving rod slides, the two movable plates are driven to slide towards a central point on the surface of the base, then the included angle of the two movable plates is reduced, the sliding plate can pull the pulling plate by the change of the two movable plates, then the two pulling plates can drive the clamping plates by the two control rods to form a clamping structure, and the forging is clamped;
s2, then, carrying out correction operation, when the position of the forging piece needs to be adjusted, controlling the rotation of the rotating disc through the motor, due to the eccentric design of the rotating rod, driving the first swinging plate to swing around the joint point with the base through the rotating rod when the rotating disc rotates, then driving the driving wheel to rotate through the swinging of the first joint plate by the two groups of poking plates, then driving the first driving rod and the joint rod to rotate by the driving wheel, driving the first driving plate to rotate around the joint point with the first push plate by the lantern ring through the rotation of the joint rod, then, under the matching of the first driving plate and the joint rod, rolling the second driving plate along the inner wall of the first push plate and driving the first push plate to form reciprocating sliding, and then, correcting the position of the forging piece while driving the mounting table to move by the first push plate.
S3, finally, the forging is transferred, after the forging is heated, the forging is pushed to a transfer table, and then the control threaded rod rotates, because the threads in the two groups of moving plates are oppositely arranged, the two groups of moving plates can open towards two sides through the rotation of the threaded rod, the stress plate can lose thrust and drive the limiting plate to move on the base under the action of the spring, because the second connecting plate is embedded in the limiting plate which is obliquely arranged, when the limiting plate moves repeatedly through the spring and the two groups of stress plates, the second connecting plate can drive the embedded rod to slide in the second swinging plate, and then the second swinging plate can swing around the connecting point with the base through the second embedded rod, and then the transfer table which is fixedly connected with the second connecting plate can drive the forging to transfer.
Compared with the prior art, the invention provides the intelligent heating equipment for the forged castings with the correction function, and the intelligent heating equipment has the following beneficial effects:
1. according to the intelligent heating equipment for the forging and casting part with the correction function, by arranging the clamping plates, the moving rods are embedded into the movable plates, when the movable plates slide, the two groups of movable plates are driven to slide towards a central point on the surface of the base, then the included angle of the two groups of movable plates is reduced, the sliding plates can pull the pulling plates through the change of the two groups of movable plates, then the two groups of pulling plates can drive the clamping plates through the two groups of control rods to form a clamping structure, and the forging and casting part is clamped;
2. according to the intelligent heating equipment for the forging and casting part with the correction function, through the arrangement of the rotary rod and the eccentric design of the rotary rod, when the rotary rod rotates, the rotary rod drives the first swinging plate to swing around a joint point with the base, then the two groups of poking plates drive the driving wheel to rotate through the swinging of the first joint plate, and then the driving wheel drives the first driving rod and the joint rod to rotate so as to drive the first push plate to apply power to the second driving plate;
3. this intelligent firing equipment of forging and casting with calibration function, through setting up the push pedal, when first driving lever is rotatory, the lantern ring can drive first driving plate through the rotation of linking the pole around rotatory with the linking point of first push pedal, under the cooperation of first driving plate and linking the pole afterwards, the second driving plate can roll and drive first push pedal constitution reciprocating sliding along first push pedal inner wall, first push pedal can drive the mount table removal afterwards, rectify the position of forging and casting.
4. This intelligent firing equipment of forging and casting piece with calibration function places the slope of limiting plate through setting up, passes through the spring at the limiting plate and when two sets of atress boards removed repeatedly, and the second links up the board and can drive the embedding pole and swing the inboard inside slip at the second, and the second can swing the board through second embedding pole around linking point with the base afterwards, and then can drive the forging and casting piece with fixed connection's transfer platform and shift.
5. This intelligent firing equipment of forging and casting with correction function, the suitability is strong, and when using, accessible control splint make it carry out the centre gripping to the forging and casting, prevents that equipment it from appearing the displacement when the heating, and when the heating, the first transfer line of accessible drives the mount table and removes, has strengthened the flexibility of equipment greatly, is convenient for rectify the forging and casting, and the processing back that finishes, can realize automatic the shifting to the forging and casting.
Drawings
Fig. 1 is a front structural schematic diagram of the intelligent heating equipment for the forged castings with the correcting function, which is provided by the invention.
Fig. 2 is a schematic rear view structural diagram of the intelligent heating equipment for the forged castings with the correcting function, which is provided by the invention.
Fig. 3 is a schematic view of a first perspective structure of an anti-loosening mechanism of the intelligent heating equipment for forged castings with a correcting function according to the present invention.
Fig. 4 is a schematic structural diagram of a rotating rod of the intelligent heating device for the forged castings with the correcting function.
Fig. 5 is a schematic structural diagram of a push plate of the intelligent heating equipment for the forged castings with the correcting function, which is provided by the invention.
Fig. 6 is a schematic view of a first perspective structure of a transfer mechanism of the intelligent heating equipment for forged parts with a correcting function.
Fig. 7 is a schematic structural diagram of a second view angle of the transfer mechanism of the intelligent heating equipment for forged parts with the correcting function provided by the invention.
In the figure: 1. a base; 2. rotating the disc; 3. rotating the rod; 4. a first swing plate; 5. a first connector tile; 6. a poking plate; 7. a driving wheel; 8. a first drive lever; 9. a connecting rod; 10. a collar; 11. a first drive plate; 12. a second drive plate; 13. a first push plate; 14. an installation table; 15. a splint; 16. heating the apparatus main body; 17. a transfer mechanism; 1701. a threaded rod; 1702. moving the plate; 1703. a second swing plate; 1704. a stress plate; 1705. a spring; 1706. an embedded rod; 1707. a limiting plate; 1708. a second connector tile; 18. an anti-loosening mechanism; 1801. a control panel; 1802. a rotating plate; 1803. a second push plate; 1804. a motion bar; 1805. a movable plate; 1806. a slide plate; 1807. pulling a plate; 1808. a control lever; 19. a transfer platform.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.
Referring to fig. 1-7, the intelligent heating equipment for the forged parts with the correcting function comprises a base 1, a first swing plate 4, a driving wheel 7 and a first push plate 13, wherein a rotating disc 2 is arranged on the surface of the base 1, a rotating rod 3 for driving the first swing plate 4 to swing is arranged at the top of the rotating disc 2, a first connecting plate 5 is fixedly connected to the tail of the first swing plate 4, two groups of shifting plates 6 for driving the driving wheel 7 to rotate are arranged at the top of the first connecting plate 5, a first driving rod 8 is arranged on the surface of the driving wheel 7, a connecting rod 9 is arranged at the bottom of the first driving rod 8, a sleeve ring 10 is rotatably connected to the surface of the connecting rod 9, and a first driving plate 11 and a second driving plate 12 for driving the first push plate 13 to slide are fixedly connected to the surface of the sleeve ring 10.
Further, the surface of the base 1 is slidably connected with an installation table 14, an anti-loosening mechanism 18 is arranged inside the installation table 14, the surface of the installation table 14 is slidably connected with a clamping plate 15, a transfer table 19 is arranged on the surface, located on the base 1, of the side surface of the installation table 14, a transfer mechanism 17 is arranged at the bottom of the transfer table 19, and a heating device main body 16 is arranged at the top of the installation table 14.
Further, the rotary rod 3 is deviated from the centre of a circle setting of rotary disk 2, and the 4 surfaces of first swing board are provided with the spout with 3 assorted rotary rod, first swing board 4 is located self midpoint department with base 1 joint point, through the eccentric design of rotary rod 3, the revolving force of rotary disk 2 can be better utilized, can drive first swing board 4 through rotary rod 3 and swing around the joint point with base 1 when rotary disk 2 is rotatory, two sets of boards 6 of dialling can drive wheel 7 through the swing of first joint board 5 then and rotate.
Further, two sets of stirring board 6 are the crisscross setting of splayed interaction, and the surface of drive wheel 7 is provided with the nose bar with the laminating of stirring board 6 inner wall, and the length of second driving plate 12 is half of first driving plate 11 length, can drive the swing of first linkage board 5 then drive wheel 7 and rotate when two sets of stirring board 6 swings, and drive wheel 7 drives first driving rod 8 afterwards and links up the pole 9 and rotate, and second driving plate 12 can roll and drive first push pedal 13 along first push pedal 13 inner wall and constitute reciprocating sliding, realizes the position correction to the forging and casting through the removal of first push pedal 13.
Further, the transfer mechanism 17 includes a threaded rod 1701, a moving plate 1702, a second swing plate 1703, a force-bearing plate 1704, a spring 1705, an embedded rod 1706, a stopper plate 1707, and a second engaging plate 1708, the threaded rod 1701 is disposed on a surface of the base 1, and the surface of the threaded rod 1701 is engaged with two groups of moving plates 1702, the inner walls of the two groups of moving plates 1702 are adhered with stress plates 1704, and the lateral surface of the stress plate 1704 is provided with a spring 1705, the surface of the stress plate 1704 is rotatably connected with a limit plate 1707, and a second connection plate 1708 is embedded in the limiting plate 1707, an embedding rod 1706 is fixedly connected to the surface of the second connection plate 1708, and a second swing plate 1703 is slidably connected to the surface of the embedding rod 1706, through setting up transport mechanism 17, can realize shifting the forging and casting piece that the heating finishes automatically, need not the manual work and realize manual the shifting to the forging and casting piece that has certain weight, when having promoted the automation, can also improve production efficiency.
Furthermore, the two sets of moving plates 1702 are designed as right triangles, and the two sets of moving plates 1702 are connected in an embedded manner, and the two sets of moving plates 1702 are provided with opposite screw grooves inside, so that the two sets of moving plates 1702 open towards both sides through the rotation of the screw rods 1701, and the force bearing plate 1704 loses thrust and drives the limit plate 1707 to move on the base 1 under the action of the spring 1705.
Further, the anti-loosening mechanism 18 comprises a control panel 1801, a rotating plate 1802, a second push plate 1803, a moving rod 1804, a moving plate 1805, a sliding plate 1806, a pull plate 1807 and a control rod 1808, the control panel 1801 is arranged on the surface of the base 1, the side surface of the control panel 1801 is rotatably connected with the side surface of the rotating plate 1802 and is rotatably connected with the second push plate 1803, two sets of moving rods 1804 are arranged on the surface of the second push plate 1803, the surfaces of the two sets of moving rods 1804 are both slidably connected with the moving plate 1805 slidably connected with the base 1, the top of the moving plate 1805 is rotatably connected with the sliding plate 1806, the top of the sliding plate 1806 is provided with two sets of pull plates 1807, the side surfaces of the two sets of pull plates 1807 are both rotatably connected with the control rod 1808, by arranging the anti-loosening mechanism 18, the forged piece can be automatically controlled by the clamping plate 15 to fix the forged piece when being heated, prevent the forged piece from being displaced during heating, and avoid the trouble of manual support, the arrangement of the anti-loosening mechanism 18 further improves the applicability of the apparatus.
Further, the joining point of the rotation plate 1802 deviates from the center of the circle of the control panel 1801, and the length of the rotation plate 1802 is greater than the diameter of the control panel 1801, the control panel 1801 drives the second push plate 1803 through the rotation plate 1802 to form a sliding structure, through the setting of the rotation plate 1802, when the control panel 1801 rotates, thrust can be applied to the second push plate 1803 through the rotation plate 1802, so that the second push plate 1803 drives the movement rod 1804 to slide, because the movement rod 1804 is embedded inside the movable plate 1805, when it slides, it can drive two sets of movable plates 1805 to slide to the central point on the surface of the base 1.
Further, two sets of fly leaf 1805 are the intercrossing setting each other, and the intersect of two sets of fly leaf 1805 and the linkage point with slide 1806 are located the same point, and two sets of control lever 1808 run through mount table 14 and splint 15 fixed connection, through setting up two sets of fly leaf 1805, slide 1806 can change and spur arm-tie 1807 through the contained angle of two sets of fly leaf 1805, and two sets of arm-ties 1807 can drive splint 15 through two sets of control lever 1808 and constitute clamping structure afterwards, carry out the centre gripping to the forging and casting.
The embodiment also provides a use scheme of the intelligent heating equipment for the forged castings with the correcting function, and the intelligent heating equipment for the forged castings adopts the above device, and comprises the following steps:
s1, when using the device, firstly, fixing the forging, placing the forging to be heated on the top of the mounting platform 14, then driving the control disc 1801 to rotate by the motor, when the control disc 1801 rotates, applying thrust to the second push plate 1803 by the rotation plate 1802, so that the second push plate 1803 drives the motion rod 1804 to slide, because the motion rod 1804 is embedded inside the movable plate 1805, when it slides, it drives the two sets of movable plates 1805 to slide to the central point on the surface of the base 1, then the included angle of the two sets of movable plates 1805 is reduced, the sliding plate 1806 will drive the pulling plate 1807 by the change of the two sets of movable plates 1805, then the two sets of pulling plates 1807 will drive the clamping plate 15 by the two sets of control rods 1808 to form a clamping structure, clamping the forging;
s2, followed by a correction operation, when the position of the forged piece needs to be adjusted, the rotating disc 2 is controlled to rotate by the motor, and due to the eccentric design of the rotating bar 3, when the rotating disk 2 rotates, the rotating rod 3 can drive the first swinging plate 4 to swing around a joint point with the base 1, the two groups of poking plates 6 can drive the driving wheel 7 to rotate through the swinging of the first joint plate 5, then the driving wheel 7 drives the first driving rod 8 and the joint rod 9 to rotate, the lantern ring 10 can drive the first driving plate 11 to rotate around the joint point with the first push plate 13 through the rotation of the joint rod 9, then under the matching of the first driving plate 11 and the joint rod 9, the second driving plate 12 can roll along the inner wall of the first push plate 13 and drive the first push plate 13 to form reciprocating sliding, and then the first push plate 13 can drive the mounting table 14 to move and correct the position of a forged piece.
S3, and finally, the transfer of the forged parts, which, after heating, are pushed onto the transfer table 19, which in turn controls the rotation of the threaded bar 1701, which, due to the opposite arrangement of the threads in the two sets of mobile plates 1702, therefore, the two sets of moving plates 1702 will expand towards both sides by the rotation of the threaded rods 1701, the force-bearing plate 1704 will lose the pushing force and will drive the stopper plate 1707 to move on the base 1 under the action of the spring 1705, since the second connecting plate 1708 is embedded in the inclined stopper plate 1707, when the retainer plate 1707 is repeatedly moved with the two sets of force bearing plates 1704 by the spring 1705, the embedding rods 1706 will be driven by the second joint plate 1708 to slide inside the second swing plate 1703, and then the second swing plate 1703 will swing around the joint point with the base 1 by the second embedding rods 1706, and then the transfer table 19 fixedly connected thereto will drive the transfer of the forged cast piece.
The working principle of the invention is as follows: when the device is used, firstly, a forging is fixed, the forging to be heated is placed at the top of the mounting table 14, then the control disc 1801 is driven to rotate by the motor, when the control disc 1801 rotates, thrust is applied to the second push plate 1803 by the rotating plate 1802, so that the second push plate 1803 drives the moving rods 1804 to slide, as the moving rods 1804 are embedded in the moving plates 1805, when the moving rods 1804 slide, the two groups of moving plates 1805 are driven to slide towards the central point on the surface of the base 1, then the included angle of the two groups of moving plates 1805 is reduced, the sliding plates 1806 can drive the pulling plates 1807 by the change of the two groups of moving plates 1805, and then the two groups of pulling plates 1807 can drive the clamping plates 15 to form a clamping structure by the two groups of control rods 1808, so as to clamp the forging;
then, a correction operation is carried out, when the position of the forging is required to be adjusted, the rotating disc 2 is controlled to rotate by the motor, and due to the eccentric design of the rotating bar 3, when the rotating disk 2 rotates, the rotating rod 3 can drive the first swinging plate 4 to swing around a joint point with the base 1, the two groups of poking plates 6 can drive the driving wheel 7 to rotate through the swinging of the first joint plate 5, then the driving wheel 7 drives the first driving rod 8 and the joint rod 9 to rotate, the lantern ring 10 can drive the first driving plate 11 to rotate around the joint point with the first push plate 13 through the rotation of the joint rod 9, then under the matching of the first driving plate 11 and the joint rod 9, the second driving plate 12 can roll along the inner wall of the first push plate 13 and drive the first push plate 13 to form reciprocating sliding, and then the first push plate 13 can drive the mounting table 14 to move and correct the position of a forged piece.
Finally, the forging and casting piece is transferred, after the forging and casting piece is heated, the forging and casting piece is pushed to the transfer platform 19, then the threaded rod 1701 is controlled to rotate, because the threads in the two groups of moving plates 1702 are oppositely arranged, the two groups of moving plates 1702 can open towards two sides through the rotation of the threaded rod 1701, the stress plate 1704 can lose the thrust force and drive the limit plate 1707 to move on the base 1 under the action of the spring 1705, because the second connecting plate 1708 is embedded in the obliquely arranged limit plate 1707, when the limit plate 1707 repeatedly moves with the two groups of stress plates 1704 through the spring 1705, the embedding rod 1706 can be driven to slide in the second swinging plate 1703 through the second connecting plate 1708, then the second swinging plate 1703 can swing around the connecting point with the base 1 through the second embedding rod 1706, and then the transfer platform 19 fixedly connected with the second swinging plate 170can drive the forging and casting piece to be transferred.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.