CN117047224B - Ceramic heat-generating body processing is with propelling movement permutation equipment - Google Patents

Abstract

The invention discloses a pushing and positioning device for ceramic heating element processing, which comprises a pushing plate, wherein a plurality of first clamping assemblies and second clamping assemblies are arranged on the side wall of the pushing plate, the first clamping assemblies and the second clamping assemblies are distributed up and down, a driving mechanism is further arranged on one end surface of the pushing plate, which is far away from the first clamping assemblies and the second clamping assemblies, and is used for clamping the first clamping assemblies and the second clamping assemblies to displace the ceramic heating elements.

Description

Ceramic heat-generating body processing is with propelling movement permutation equipment

Technical Field

The invention belongs to the field of ceramic heating element processing, and particularly relates to pushing and positioning equipment for ceramic heating element processing.

Background

The pushing and positioning equipment for processing the ceramic heating elements clamps the ceramic heating elements, pushes and moves the ceramic heating elements to a soldering station simultaneously after clamping is completed, and performs welding treatment on the ceramic heating elements through a lead;

however, in the use process, though the clamping members for the ceramic heating elements can uniformly clamp the ceramic heating elements through the clamping members, so that the ceramic heating elements are all positioned on the same horizontal plane, and the subsequent welding work is convenient, the clamping members cannot ensure that the end parts of the ceramic heating elements are positioned on the same horizontal plane (namely, the ceramic heating elements are far away from one end surface of the clamping members), so that welding spots of the ceramic heating elements are not positioned on the same horizontal line in the welding process, and synchronous welding treatment on the ceramic heating elements through the automatic welding device is inconvenient.

Disclosure of Invention

The invention aims to provide a pushing and aligning device for ceramic heating element processing, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the pushing and positioning device for ceramic heating element processing comprises a pushing plate, wherein a plurality of first clamping assemblies and second clamping assemblies are arranged on the side wall of the pushing plate, the first clamping assemblies and the second clamping assemblies are distributed up and down, a driving mechanism is further arranged on one end surface of the pushing plate, which is far away from the first clamping assemblies and the second clamping assemblies, and the driving mechanism is used for carrying out displacement after the first clamping assemblies and the second clamping assemblies clamp ceramic heating elements; the suction mechanism is used for sucking smoke generated by soldering tin of the ceramic heating element and is arranged below the clamping assembly II; the utility model provides a push plate, including the push plate, the surface of push plate has been seted up and has been equidistant spacing straight flute that distributes, clamping assembly one includes clamping arm one, clamping arm one's lower extreme both sides are fixed to be equipped with two set square that are symmetrical distribution, and two rotate between the set square and be equipped with two clamping wheel one, clamping assembly two including locating a plurality of clamping arm two of push plate front end, and a plurality of clamping arm two's inside rotation is equipped with pivot one and pivot two, pivot one with pivot two's surface has all rotated and has cup jointed a plurality of clamping wheel two, just clamping wheel one with clamping wheel two is upper and lower symmetrical distribution, and wherein the push plate is assembled on push righting equipment, and mainly used plays the centre gripping to a plurality of ceramic heat-generating bodies, the propelling movement effect.

Preferably, the first clamping arm and the second clamping arm are close to one end of the pushing plate and are fixedly provided with connecting columns, a plurality of connecting columns are respectively and slidably embedded in the limiting straight grooves, two connecting plates which are vertically symmetrically distributed are arranged on one side of the first clamping arm and one side of the second clamping arm, the first clamping arm and the second clamping arm are fixedly connected with the two connecting plates respectively through the connecting columns, the first rotating shaft is farther away from the pushing plate than the second rotating shaft, and a slipping component is arranged between the first rotating shaft and each second clamping wheel, namely, the two connecting plates can be moved with the first clamping arms and the second clamping arms through sliding embedding of the connecting piece columns and the limiting straight grooves.

Preferably, the slip subassembly including set up in the inside a plurality of cavity of centre gripping wheel two, and a plurality of the cavity is circumference equidistance and distributes, every the inside of cavity is all slided and is inlayed a slide dish, the slide dish keep away from the one end of pivot one is equipped with spring one, just the other end fixed mounting of slide dish have slip run through in the jack-post of centre gripping wheel two, a plurality of with jack-post activity gomphosis arc recess has been seted up to the outer wall of pivot one, and the purpose of slip subassembly design is when centre gripping wheel two receives great resistance unable rotation, and when pivot one continuously rotated, its arc recess can push the jack-post to the inside of centre gripping wheel two, and the pivot one is at the inside idle running of centre gripping wheel two.

Preferably, the driving mechanism comprises a mounting plate arranged on one side of the pushing plate away from the two sides of the clamping arm, the mounting plate is fixedly connected with one connecting plate positioned below, the mounting plate is far away from a side wall of the pushing plate, a motor is fixedly arranged on the side wall of the mounting plate, the output end of the motor and the outer surface of the first rotating shaft are fixedly sleeved with synchronous gears, synchronous toothed belts are arranged between the synchronous gears in a transmission mode, and the motor rotates with the first rotating shaft through the action of the two synchronous gears and the synchronous toothed belts.

Preferably, the push plate is far away from one side of the first clamping arm is provided with a stirring mechanism, the stirring mechanism is arranged at one side of the first clamping arm and comprises a sliding column fixedly arranged at one side of the first clamping arm, which is far away from one end face of the push plate, the sliding column is located at the center position of the first clamping arm, one end face of the first clamping arm is further rotationally embedded with a positioning column, the positioning column is two symmetrical points of the first clamping arm, the outer surface of the positioning column is fixedly sleeved with a turntable, two arc grooves which are distributed at equal intervals in circumference are formed in the inner part of the turntable, the two sliding columns are respectively and slidingly embedded in the two arc grooves, one side of the sliding column, which is close to the center of the turntable, is fixedly provided with a second spring, the outer surface of the positioning column is rotationally sleeved with a frame plate, the frame plate is fixedly connected with the push plate, and the outer part of the positioning column is provided with a rotating assembly, so that when the turntable rotates, the turntable is in sliding embedded with the arc grooves, the two connecting plates synchronously and reversely move.

Preferably, the rotating assembly comprises a first gear fixedly sleeved on the outer surface of the positioning column, the rack plate is located between the first gear and the turntable, racks are arranged in external engagement of the first gear and are arranged in parallel with the connecting plate, one end, away from the first gear, of each rack is provided with a driving piece, namely the driving piece can push the racks, and then the positioning column is rotated through engagement of the racks and the first gear.

Preferably, the driving piece is an electric push rod or an air cylinder, and the output end of the electric push rod or the air cylinder is fixedly connected with the rack, so that the driving piece can be selected and matched in multiple options according to actual application conditions.

Preferably, the frame plate is far away from one end of the pushing plate and is fixedly provided with a clamping column, the rack is positioned between the first gear and the clamping column, and the clamping column is designed to ensure the stability of the rack when the rack is meshed with the first gear.

Preferably, the suction mechanism includes the suction tuber pipe that is located a plurality of centre gripping arm two below, just the suction tuber pipe with a plurality of centre gripping arm two is fixed connection, the inside rotation of suction tuber pipe has inlayed an optical axis, just pivot one with the one end that the motor was kept away from to the optical axis is fixed respectively to be equipped with gear two and gear three, gear two with gear three movable engagement, the inside of suction tuber pipe is fixed to be equipped with a plurality of separation piece, and a plurality of the separation piece will the inside separation of suction tuber pipe is a plurality of cavity, every the cavity all be equipped with axial impeller, just axial impeller fixed cup joint in the outside of optical axis, every the inside of cavity all is equipped with inlet port and exhaust hole, just the inlet port with the exhaust hole all with the external intercommunication of suction tuber pipe, the quantity of inlet port is a plurality of, and is the circumference equidistance and distributes, the exhaust hole is arranged in respectively the both sides of axial impeller, every the bottom all communicates and is equipped with a hose, a plurality of the hose is kept away from the suction impeller the inside is equipped with a common axial compressor impeller, and is equipped with the inside of hose through the high-speed intercommunication when the inside is equipped with a fixed air duct through the rotation of the air duct, then the outside of the hose is connected to the outside through the fixed air duct.

Preferably, the outer diameter of the second gear is larger than that of the third gear, namely, a differential effect exists between the first rotating shaft and the optical axis, and the rotating speed of the optical axis is a multiple of the rotating speed of the first rotating shaft.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the roller type clamping assembly I and the roller type clamping assembly II are used for clamping a plurality of ceramic heating elements simultaneously, the driving mechanism drives the rotating shaft to rotate with the clamping wheel II, so that the ceramic heating elements can move towards the pushing plate simultaneously until the ceramic heating elements are propped against the pushing plate, at the moment, the end faces of the ceramic heating elements, which are far away from the pushing plate, can be positioned on the same horizontal plane, namely welding spots on the ceramic heating elements can be positioned on the same straight line, and the ceramic heating elements can be directly welded through the automatic welding device;

2. when the driving mechanism is started, the suction mechanism can enable the axial flow impeller to rotate at a high speed, and external air is sucked through the air inlet holes, so that smoke generated by solder can be sucked, and the phenomenon that a worker sucks excessive solder smoke to cause discomfort is avoided.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of another view angle structure of the whole present invention;

FIG. 3 is a schematic view of a first clamping assembly and a second clamping assembly according to the present invention;

FIG. 4 is an enlarged view of the invention at A in FIG. 3;

FIG. 5 is a schematic view of a toggle mechanism according to the present invention;

FIG. 6 is a schematic view of the suction mechanism of the present invention;

fig. 7 is an enlarged view of fig. 6 at B in accordance with the present invention.

In the figure: 1. a pushing plate; 2. a clamping assembly I; 3. a clamping assembly II; 4. a driving mechanism; 5. a suction mechanism; 6. a toggle mechanism; 7. limiting straight grooves; 8. a clamping arm I; 9. a triangle; 10. a clamping wheel I; 11. a connecting plate; 12. a clamping arm II; 13. a first rotating shaft; 14. a second rotating shaft; 15. a clamping wheel II; 16. a mounting plate; 17. a motor; 18. a synchronizing gear; 19. a synchronous toothed belt; 20. an arc-shaped groove; 21. a cavity; 22. a slide plate; 23. a dome column; 24. a first spring; 25. positioning columns; 26. a turntable; 27. an arc groove; 28. a spool; 29. a second spring; 30. a frame plate; 31. a clamping column; 32. a first gear; 33. a rack; 34. a suction duct; 35. an optical axis; 36. a second gear; 37. a third gear; 38. a separator sheet; 39. a chamber; 40. an axial flow impeller; 41. an air inlet hole; 42. an exhaust hole; 43. a hose; 44. a communicating pipe; 45. and an air duct.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples

Referring to fig. 1-6, a pushing and positioning device for ceramic heating element processing in the drawing includes a pushing plate 1, wherein a plurality of first clamping assemblies 2 and second clamping assemblies 3 are arranged on a side wall of the pushing plate 1, the first clamping assemblies 2 and the second clamping assemblies 3 are distributed up and down, a driving mechanism 4 is further arranged on one end surface of the pushing plate 1, which is far away from the first clamping assemblies 2 and the second clamping assemblies 3, and the driving mechanism 4 is used for clamping the first clamping assemblies 2 and the second clamping assemblies 3 to perform displacement after clamping the ceramic heating element; the suction mechanism 5 is used for sucking smoke generated by soldering tin of the ceramic heating element, and the suction mechanism 5 is arranged below the clamping assembly II 3; the surface of push plate 1 has been seted up and has been equidistant spacing straight flute 7 that distributes, clamping assembly one 2 includes clamping arm one 8, clamping arm one 8's lower extreme both sides are fixed to be equipped with two set square 9 that are symmetrical distribution, and rotate between two set square 9 and be equipped with two centre gripping wheel one 10, clamping assembly two 3 is including locating a plurality of clamping arm two 12 of push plate 1 front end, and the inside rotation of a plurality of clamping arm two 12 is equipped with pivot one 13 and pivot two 14, the surface of pivot one 13 and pivot two 14 has all rotated and has cup jointed a plurality of centre gripping wheel two 15, and centre gripping wheel one 10 and centre gripping wheel two 15 are upper and lower symmetrical distribution, wherein push plate 1 is assembled on push righting equipment, mainly used plays the centre gripping to a plurality of ceramic heat-generating bodies, the propelling movement effect.

The clamping arm I8 and the clamping arm II 12 are close to the equal fixed mounting of one end of push plate 1 and have the spliced pole, and a plurality of spliced pole slides respectively and inlays in the inside of a plurality of spacing straight flute 7, one side that push plate 1 kept away from clamping arm I8 and clamping arm II 12 is equipped with two connecting plates 11 that are upper and lower symmetric distribution, and a plurality of clamping arm I8 and a plurality of clamping arm II 12 are fixed connection respectively with two connecting plates 11 through the spliced pole, pivot I13 is farther from push plate 1 than pivot II 14, all be equipped with the slippage subassembly between pivot I13 and every clamping wheel II 15, through the slip gomphosis of connecting piece post and spacing straight flute 7, can let two connecting plates 11 carry a plurality of clamping arms I8 and clamping arm II 12 to remove.

The actuating mechanism 4 is including locating the mounting panel 16 that push away from centre gripping arm two 12 one side of push away from board 1, and mounting panel 16 is fixed connection with a connecting plate 11 that is located the below, and a side wall that push away board 1 was kept away from to mounting panel 16 is fixed to be equipped with motor 17, and synchronous gear 18 has all been fixedly cup jointed to the surface of motor 17's output and pivot one 13, and the transmission is equipped with synchronous toothed belt 19 between two synchronous gear 18, and motor 17 carries pivot one 13 to rotate through the effect of two synchronous gear 18 and synchronous toothed belt 19.

One side of pushing plate 1 keeping away from centre gripping arm one 8 is equipped with toggle mechanism 6, toggle mechanism 6 is including fixing the slide post 28 that locates two connecting plates 11 and keep away from push plate 1 terminal surface, and slide post 28 is located the central point of connecting plate 11, push plate 1 keeps away from centre gripping arm one 8 and centre gripping wheel one 10's a terminal surface still rotates and has inlayed reference column 25, reference column 25 is the symmetry point of two connecting plates 11, the fixed surface of reference column 25 has cup jointed carousel 26, two arc grooves 27 that are circumference equidistance distribution have been seted up to the inside of carousel 26, and two slide posts 28 slip respectively inlay in the inside of two arc grooves 27, slide post 28 is close to one side and the arc groove 27 of carousel 26 centre of a circle between fixed mounting have spring two 29, the surface of reference column 25 has still rotated cup jointed frame plate 30, and 30 and pushing plate 1 are fixed connection, the outside of reference column 25 is equipped with rotating assembly, when carousel 26 rotates, through the slip gomphosis of slide post 28 and arc groove 27, can make the synchronous reverse removal of two connecting plates 11.

The rotating assembly comprises a first gear 32 fixedly sleeved on the outer surface of the positioning column 25, the rack plate 30 is positioned between the first gear 32 and the turntable 26, a rack 33 is arranged on the outer portion of the first gear 32 in a meshed mode, the rack 33 and the connecting plate 11 are arranged in parallel, a driving piece is arranged at one end, away from the first gear 32, of the rack 33, namely the driving piece can push the rack 33, and then the positioning column 25 is enabled to rotate through meshing of the rack 33 and the first gear 32.

The driving piece is an electric push rod or an air cylinder, and the output end of the electric push rod or the air cylinder is fixedly connected with the rack 33, so that the driving piece can be selected and matched in multiple options according to actual application conditions.

The end of the frame plate 30 away from the push plate 1 is fixedly provided with a clamping column 31, and a rack 33 is positioned between the first gear 32 and the clamping column 31, and the clamping column 31 is designed to ensure the stability when the rack 33 is meshed with the first gear 32.

The welding spots of the ceramic heating elements can be positioned on the same horizontal straight line, and the automatic welding device replaces the manual work to synchronously weld the ceramic heating elements: when a user conveys the ceramic heating element to the pushing and positioning equipment through a manipulator, the rack 33 is moved through the driving piece, the positioning column 25 is driven to rotate along with the turntable 26 under the meshing of the rack 33 and the first gear 32, at the moment, due to the jogging of the sliding column 28 and the arc groove 27, the two connecting plates 11 can synchronously move reversely, namely the first clamping wheel 10 and the second clamping wheel 15 can move oppositely, and a plurality of ceramic heating elements are clamped simultaneously, and the design of the second spring 29 is remarkable in order to avoid overlarge displacement of the rack 33, so that the clamping force exerted by the first clamping wheel 10 and the second clamping wheel 15 on the ceramic heating element is overlarge, and the ceramic heating element is damaged, and when the displacement of the rack 33 is overlarge, the second spring 29 is compressed, namely the clamping force exerted on the ceramic heating element is elastic clamping force, after the first clamping wheel 10 and the second clamping wheel 15 are abutted against the ceramic heating element, the compression of the second spring 29 can play a buffering role, and the ceramic heating element is prevented from being damaged;

after the clamping is completed and the manipulator is removed, at the moment, the motor 17 is started, the motor 17 drives the first rotating shaft 13 to rotate under the action of the synchronous gear 18 and the synchronous toothed belt 19, the first rotating shaft 13 can move the ceramic heating bodies towards the direction of the pushing plate 1 through the second clamping wheel 15 until the ceramic heating bodies are propped against the pushing plate 1, at the moment, the fact that a plurality of ceramic heating bodies are far away from one end face of the pushing plate 1 and are on the same horizontal plane can be ensured, welding spots of the ceramic heating bodies can be positioned on the same straight line, and an automatic welding device can be utilized to weld the ceramic heating bodies to replace manual welding;

in this embodiment, the outer surfaces of the first clamping wheel 10 and the second clamping wheel 15 are coated with rubber.

Examples

Referring to fig. 4, this embodiment further illustrates embodiment 1, the sliding component includes a plurality of cavities 21 formed in the second clamping wheel 15, and the plurality of cavities 21 are distributed at equal intervals in circumference, a sliding plate 22 is slidably embedded in each cavity 21, a first spring 24 is disposed at one end of the sliding plate 22 away from the first rotating shaft 13, a dome post 23 slidably penetrating through the second clamping wheel 15 is fixedly disposed at the other end of the sliding plate 22, and a plurality of arc-shaped grooves 20 movably engaged with the dome post 23 are formed in the outer wall of the first rotating shaft 13.

In this embodiment: after the ceramic heating element is propped against the pushing plate 1, the second clamping wheel 15 cannot displace the ceramic heating element, and the second clamping wheel 15 receives a larger resistance, and the first rotating shaft 13 continuously rotates, so that the arc-shaped groove 20 pushes the dome post 23 into the second clamping wheel 15, that is, the first rotating shaft 13 idles in the second clamping wheel 15.

Examples

Referring to fig. 6 and 7, in this embodiment, for further description of other embodiment 2, the suction mechanism 5 includes a suction air duct 34 located below the second plurality of holding arms 12, the suction air duct 34 is fixedly connected with the second plurality of holding arms 12, an optical axis 35 is rotationally embedded in the suction air duct 34, one end of the first rotating shaft 13 and one end of the optical axis 35, which are far away from the motor 17, are respectively fixedly provided with a second gear 36 and a third gear 37, the second gear 36 is movably meshed with the third gear 37, a plurality of separating sheets 38 are fixedly provided in the suction air duct 34, the plurality of separating sheets 38 separate the interior of the suction air duct 34 into a plurality of chambers 39, each chamber 39 is provided with an axial flow impeller 40, and the axial flow impellers 40 are fixedly sleeved outside the optical axis 35, the inside of every cavity 39 all is equipped with inlet port 41 and exhaust hole 42, and inlet port 41 and exhaust hole 42 all communicate with the external world of suction tuber pipe 34, and the quantity of inlet port 41 is a plurality of, and be circumference equidistance and distribute, inlet port 41 and exhaust hole 42 are arranged in the both sides of axial flow impeller 40 respectively, the bottom of every exhaust hole 42 all communicates and is equipped with a hose 43, the one end that suction tuber pipe 34 was kept away from to a plurality of hose 43 is fixed intercommunication jointly is equipped with a communicating pipe 44, and communicating pipe 44's outside fixed intercommunication is equipped with wind channel 45, when axial flow impeller 40 is rotatory at the inside high speed of cavity 39, can suck external air through inlet port 41, then carry to the inside in wind channel 45 through hose 43.

The outer diameter of the second gear 36 is larger than that of the third gear 37, so that a differential effect exists between the first rotating shaft 13 and the optical axis 35, and the rotating speed of the optical axis 35 is a multiple of the rotating speed of the first rotating shaft 13.

In this embodiment: when the motor 17 drives the first rotating shaft 13 to rotate, the optical axis 35 can rotate at a high speed with the plurality of axial flow impellers 40 under the meshing of the second gear 36 and the third gear 37, at this time, the axial flow impellers 40 in each cavity 39 can suck the outside air through the air inlet holes 41, namely, the smoke generated by solder is sucked, and the sucked smoke is conveyed to the air duct 45 through the hose 43 and is uniformly discharged, so that the phenomenon that the staff excessively sucks the solder smoke to cause discomfort can be avoided.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. Ceramic heat-generating body processing is with propelling movement permutation equipment, its characterized in that: the ceramic heating element pushing device comprises a pushing plate (1), wherein a plurality of first clamping assemblies (2) and second clamping assemblies (3) are arranged on the side wall of the pushing plate (1), the first clamping assemblies (2) and the second clamping assemblies (3) are distributed up and down, the pushing plate (1) is far away from one end face of the first clamping assemblies (2) and one end face of the second clamping assemblies (3) are also provided with driving mechanisms (4), and the driving mechanisms (4) are used for carrying out displacement after the first clamping assemblies (2) and the second clamping assemblies (3) clamp ceramic heating elements;

the suction mechanism (5) is used for sucking smoke generated by soldering tin of the ceramic heating element, and the suction mechanism (5) is arranged below the clamping assembly II (3);

the push plate is characterized in that limiting straight grooves (7) which are distributed at equal intervals are formed in the surface of the push plate (1), the clamping assembly I (2) comprises clamping arms I (8), two symmetrically distributed triangular plates (9) are fixedly arranged on two sides of the lower end of the clamping arms I (8), two clamping wheels I (10) are rotationally arranged between the triangular plates (9), the clamping assembly II (3) comprises a plurality of clamping arms II (12) which are arranged at the front end of the push plate (1), a rotating shaft I (13) and a rotating shaft II (14) are rotationally arranged in the clamping arms II (12), a plurality of clamping wheels II (15) are rotationally sleeved on the outer surfaces of the rotating shaft I (13) and the rotating shaft II (14), and the clamping wheels I (10) and the clamping wheels II (15) are vertically symmetrically distributed;

the clamping arm I (8) and the clamping arm II (12) are fixedly arranged at one end, close to the pushing plate (1), of each connecting column, a plurality of connecting columns are respectively embedded in the limiting straight grooves (7) in a sliding mode, two connecting plates (11) which are vertically symmetrically distributed are arranged at one side, far away from the clamping arm I (8) and the clamping arm II (12), of each pushing plate (1), the clamping arm I (8) and the clamping arm II (12) are fixedly connected with the two connecting plates (11) through the connecting columns respectively, the distance between the rotating shaft I (13) and the pushing plate (1) is farther than that between the rotating shaft II (14), and a slipping component is arranged between the rotating shaft I (13) and each clamping wheel II (15);

the sliding component comprises a plurality of cavities (21) which are formed in the clamping wheel II (15), the cavities (21) are distributed at equal intervals in circumference, a sliding disc (22) is slidably embedded in each cavity (21), a first spring (24) is arranged at one end, away from the first rotating shaft (13), of the sliding disc (22), a dome column (23) which penetrates through the clamping wheel II (15) in a sliding manner is fixedly arranged at the other end of the sliding disc (22), and a plurality of arc-shaped grooves (20) which are movably embedded with the dome column (23) are formed in the outer wall of the first rotating shaft (13);

the driving mechanism (4) comprises a mounting plate (16) arranged on one side, far away from the clamping arm II (12), of the pushing plate (1), the mounting plate (16) is fixedly connected with one connecting plate (11) positioned below, a motor (17) is fixedly arranged on one side wall, far away from the pushing plate (1), of the mounting plate (16), a synchronous gear (18) is fixedly sleeved on the output end of the motor (17) and the outer surface of the rotating shaft I (13), and a synchronous toothed belt (19) is arranged between the two synchronous gears (18) in a transmission mode;

one side of the pushing plate (1) far away from the clamping arm I (8) is provided with a toggle mechanism (6), the toggle mechanism (6) comprises two sliding columns (28) fixedly arranged on one end face of the connecting plate (11) far away from the pushing plate (1), the sliding columns (28) are positioned at the central positions of the connecting plate (11), one end face of the pushing plate (1) far away from the clamping arm I (8) and the clamping wheel I (10) is also rotationally embedded with a positioning column (25), the positioning column (25) is a symmetrical point of the two connecting plates (11), the outer surface of the positioning column (25) is fixedly sleeved with a rotary table (26), two arc grooves (27) which are circumferentially and equidistantly distributed are formed in the rotary table (26), the two sliding columns (28) are respectively and slidingly embedded in the inner parts of the two arc grooves (27), one side, close to the center of the circle, of the sliding columns (28) is fixedly provided with a spring II (29) between the arc grooves (27), and the outer surface of the positioning column (25) is fixedly sleeved with a positioning column (30), and the positioning column (30) is fixedly sleeved with the positioning column (30).

The rotating assembly comprises a first gear (32) fixedly sleeved on the outer surface of the positioning column (25), the frame plate (30) is located between the first gear (32) and the rotary table (26), a rack (33) is arranged on the outer portion of the first gear (32) in a meshed mode, the rack (33) and the connecting plate (11) are arranged in parallel, and a driving piece is arranged at one end, away from the first gear (32), of the rack (33).

2. The pushing and positioning device for ceramic heating element processing according to claim 1, wherein: the driving piece is an electric push rod or an air cylinder, and the output end of the electric push rod or the air cylinder is fixedly connected with the rack (33).

3. The pushing and positioning device for ceramic heating element processing according to claim 1, wherein: one end of the frame plate (30) far away from the pushing plate (1) is fixedly provided with a clamping column (31), and the rack (33) is positioned between the first gear (32) and the clamping column (31).

4. The pushing and positioning device for ceramic heating element processing according to claim 1, wherein: the suction mechanism (5) comprises a suction air pipe (34) positioned below a plurality of clamping arms II (12), the suction air pipe (34) is fixedly connected with the clamping arms II (12), an optical axis (35) is embedded in the suction air pipe (34) in a rotating way, one end, far away from the motor (17), of the rotating shaft I (13) and the optical axis (35) is fixedly provided with a gear II (36) and a gear III (37) respectively, the gear II (36) is movably meshed with the gear III (37), a plurality of separating sheets (38) are fixedly arranged in the suction air pipe (34), the inside of the suction air pipe (34) is separated into a plurality of chambers (39), each chamber (39) is provided with an axial flow impeller (40), the axial flow impellers (40) are fixedly sleeved on the outside of the optical axis (35), the inside of each chamber (39) is provided with an air inlet hole (41) and an air outlet (42), the axial flow impellers (41) and the suction air pipe (34) are respectively distributed on the two sides of the air inlet (41) and the air inlet (42) in equal distance, the bottom of each exhaust hole (42) is communicated with a hose (43), one end, away from the suction air pipe (34), of each hose (43) is fixedly communicated with a communicating pipe (44) together, and an air duct (45) is fixedly communicated with the outside of each communicating pipe (44).

5. A ceramic heat-generating body processing is with propelling movement permutation equipment according to claim 4, characterized in that: the outer diameter of the second gear (36) is larger than the outer diameter of the third gear (37).