CN115106903B

CN115106903B - Full-automatic multi-station radiator polishing, grinding and milling integrated machine

Info

Publication number: CN115106903B
Application number: CN202210774496.2A
Authority: CN
Inventors: 傅华林
Original assignee: Zhejiang Junhong Machinery Co ltd
Current assignee: Zhejiang Junhong Machinery Co ltd
Priority date: 2022-07-01
Filing date: 2022-07-01
Publication date: 2023-12-26
Anticipated expiration: 2042-07-01
Also published as: CN115106903A

Abstract

The invention relates to a full-automatic multi-station radiator polishing and milling integrated machine, which comprises: the device comprises a base and a fixed plate fixedly arranged on the base, wherein a transverse plate which is arranged in parallel with the base is fixed on the fixed plate, and a bearing plate for placing a required processing part is also arranged on the fixed plate; the polishing device comprises a base, and is characterized in that a polishing disc which is arranged at equal intervals on the circumference is arranged on the base, an intermittent transmission mechanism which is used for driving the polishing disc to intermittently rotate is further arranged on the base, a limiting block is fixed on the intermittent transmission mechanism, a transverse plate is provided with a lifting mechanism, a cross groove which is clamped with the limiting block is formed in the lifting mechanism, a rotating mechanism which is used for driving the lifting mechanism to rotate is further arranged on the transverse plate, and a driving assembly which is connected with the lifting mechanism and drives the lifting mechanism to reciprocate in the vertical direction is arranged on the fixed plate.

Description

Full-automatic multi-station radiator polishing, grinding and milling integrated machine

Technical Field

The invention relates to the field of polishing and machining, in particular to a full-automatic multi-station radiator polishing and milling integrated machine.

Background

The radiator is a common name of a series of devices for conducting and releasing heat, and in the production process of the radiator, the radiating fins need to be polished so as to ensure the effect of the radiating fins.

In the processing process of the radiating fin, a plurality of steps such as polishing and grinding are needed, so that the radiating fin reaches a required effect, the traditional polishing and milling process needs to be operated on three stations respectively, the radiating fin needs to be carried back and forth to the required station, the processing efficiency is low, the number and occupied volume of required devices are large, and the production cost is greatly increased, so that the polishing and milling integrated machine for the full-automatic multi-station radiator is provided.

Disclosure of Invention

The invention aims to provide a full-automatic multi-station radiator polishing and milling integrated machine so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a full-automatic multistation radiator throws and grinds mill all-in-one, full-automatic multistation radiator throws and grinds mill all-in-one includes:

the device comprises a base and a fixed plate fixedly arranged on the base, wherein a transverse plate which is arranged in parallel with the base is fixed on the fixed plate, and a bearing plate for placing a required processing part is also arranged on the fixed plate;

the polishing device comprises a base, and is characterized in that a polishing disc which is arranged at equal intervals on the circumference is arranged on the base, an intermittent transmission mechanism which is used for driving the polishing disc to intermittently rotate is further arranged on the base, a limiting block is fixed on the intermittent transmission mechanism, a lifting mechanism is arranged on a transverse plate, a cross groove which is clamped with the limiting block is formed in the lifting mechanism, a rotating mechanism which is used for driving the lifting mechanism to rotate is further arranged on the transverse plate, a driving assembly which is connected with the lifting mechanism and the rotating mechanism is arranged on a fixed plate, and the driving assembly drives the lifting mechanism to reciprocate in the vertical direction and drives the lifting mechanism to rotate through the rotating mechanism.

As a further scheme of the invention: the intermittent transmission mechanism comprises a supporting rod, a supporting plate and a plurality of groups of fixed sleeves, wherein the supporting rod is rotatably arranged on the base, the supporting plate is fixedly arranged on the supporting rod, the fixed sleeves are fixedly arranged on the supporting plate and are circumferentially equidistant, the base is provided with a polishing assembly connected with the fixed sleeves, and the polishing assembly is fixedly connected with the polishing disc and the limiting block.

As still further aspects of the invention: the polishing assembly comprises a third rotating rod movably mounted on the fixed sleeve, a fixing ring fixedly mounted on the third rotating rod, and a second spring sleeved on the fixed sleeve and the third rotating rod and in butt joint with the fixing ring, wherein the third rotating rod is fixedly connected with the polishing disc and the limiting block.

As still further aspects of the invention: the lifting mechanism comprises a limiting assembly arranged on the fixed plate and connected with the driving assembly, a baffle fixedly arranged on the fixed plate, and a second rotating rod movably arranged on the baffle and connected with the limiting assembly, wherein a first spring abutted to the limiting assembly is sleeved on the second rotating rod, the second rotating rod is connected with the rotating mechanism and provided with a cross groove, and a second limiting rod is fixed on the second rotating rod.

As still further aspects of the invention: the limiting assembly comprises a hollow rod movably mounted on the driving assembly and clamped with the second rotating rod, a swash plate fixedly mounted on the hollow rod, and a limiting wheel rotatably mounted on the fixed plate and in butt joint with the swash plate, wherein the swash plate is in butt joint with the first spring, and a first limiting groove is formed in the hollow rod.

As still further aspects of the invention: the rotating mechanism comprises a first bevel gear fixedly arranged on the driving assembly, a receiving rod rotatably arranged on the fixing plate, and a second bevel gear fixedly arranged on the receiving rod and meshed with the first bevel gear, wherein the fixing plate is provided with a driven assembly connected with the receiving rod, and the driven assembly is connected with the second rotating rod.

As still further aspects of the invention: the driven component comprises a movable sleeve movably mounted on the second rotating rod, a movable plate movably mounted on the movable sleeve and movably connected with the bearing rod, and a belt sleeved on the movable sleeve and connected with the bearing rod, wherein the movable sleeve is provided with a second limiting groove clamped with the second limiting rod.

As still further aspects of the invention: the driving assembly comprises a motor fixedly installed on the fixing plate, a worm which is rotatably installed on the fixing plate and connected with an output shaft of the motor, a first rotating rod which is rotatably installed on the transverse plate and movably connected with the hollow rod, a worm wheel meshed with the worm is fixed on the first rotating rod, a first limit rod clamped with the first limit groove is fixed on the first rotating rod, and the worm is fixedly connected with the first bevel gear.

Compared with the prior art, the invention has the beneficial effects that: when using, the radiator production in-process need polish to the fin to ensure the effect of fin, drive assembly work this moment, drive slewing mechanism moves, thereby drive elevating system motion, simultaneously, drive assembly still can drive elevating system motion, and drive the cross groove move to with stopper block position, thereby drive intermittent drive mechanism pivoted is simultaneously towards base direction motion, in order to polish the fin, after polishing, elevating system moves towards initial position, make cross groove and stopper separation, intermittent drive mechanism rotates, thereby drive another dozen mill motion to the fin top, and polish once more, thereby realize automatic polishing and milling.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of a full-automatic multi-station radiator polishing and milling integrated machine.

Fig. 2 is a schematic structural diagram of a first angle in an embodiment of a full-automatic multi-station radiator polishing and milling integrated machine.

Fig. 3 is a schematic structural diagram of a second angle in an embodiment of a full-automatic multi-station radiator polishing and milling integrated machine.

Fig. 4 is an enlarged schematic view of the structure at a in fig. 3.

Fig. 5 is a schematic diagram of an explosion structure of a part of an intermittent transmission mechanism and a polishing disc of an embodiment of a full-automatic multi-station radiator polishing and milling integrated machine.

Fig. 6 is a schematic diagram of connection relation among a part of driving components, a rotating mechanism and a lifting mechanism in an embodiment of a full-automatic multi-station radiator polishing and milling integrated machine.

Fig. 7 is an exploded view of a part of the driving assembly and a part of the lifting mechanism of an embodiment of a full-automatic multi-station radiator polishing and milling integrated machine.

Fig. 8 is a schematic view of a partially exploded structure of an embodiment of a full-automatic multi-station heat sink polishing and milling integrated machine.

In the figure: 1. a base; 2. a fixing plate; 3. a cross plate; 4. a motor; 5. a worm; 6. a worm wheel; 7. a first rotating rod; 8. a hollow rod; 9. a swash plate; 10. a limiting wheel; 11. a baffle; 12. a second rotating rod; 13. a first spring; 14. a movable sleeve; 15. a movable plate; 16. a belt; 17. a cross groove; 18. a first bevel gear; 19. a two-size bevel gear; 20. a receiving rod; 21. a support rod; 22. a support plate; 23. a fixed sleeve; 24. a third rotating rod; 25. a limiting block; 26. a fixing ring; 27. a second spring; 28. polishing the grinding disc; 29. and a receiving plate.

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.

In addition, an element in the present disclosure may be referred to as being "fixed" or "disposed" on another element or being directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Referring to fig. 1 to 8, in an embodiment of the present invention, a full-automatic multi-station radiator polishing and milling integrated machine includes:

base 1 and fixed mounting are in fixed plate 2 on the base 1, be fixed with on the fixed plate 2 with base 1 parallel arrangement's diaphragm 3, still be provided with on the fixed plate 2 and be used for placing the accepting board 29 of required processing part, wherein accept the board 29 and be used for holding the fin that needs to polish.

Referring to fig. 1-5, a polishing disc 28 is disposed on the base 1, an intermittent transmission mechanism for driving the polishing disc 28 to intermittently rotate is further disposed on the base 1, a limiting block 25 is fixed on the intermittent transmission mechanism, the intermittent transmission mechanism includes a support rod 21 rotatably mounted on the base 1, a support plate 22 fixedly mounted on the support rod 21, a plurality of groups of fixing sleeves 23 fixedly mounted on the support plate 22 and disposed at equal intervals on the circumference, a polishing assembly connected with the fixing sleeves 23 is disposed on the base 1, and the polishing assembly is fixedly connected with the polishing disc 28 and the limiting block 25, wherein the polishing assembly includes a third rotating rod 24 movably mounted on the fixing sleeve 23, a fixing ring 26 fixedly mounted on the third rotating rod 24, and a second spring 27 sleeved on the fixing sleeve 23 and the third rotating rod 24 and abutted to the fixing ring 26, and the third rotating rod 24 is fixedly connected with the polishing disc 28 and the limiting block 25.

It should be noted that, the third rotating rod 24 is provided with three groups, and the length of the third rotating rod 24 increases in turn, make the height that three groups of polishing discs 28 are located in initial state different, when polishing is required, place the fin on the bearing plate 29 this moment, the third rotating rod 24 that is located the bearing plate 29 rotates, and drive polishing disc 28 rotation, simultaneously, the third rotating rod 24 moves towards base 1 direction, under the effect of fixed sleeve 23, make the third rotating rod 24 move along the length direction of fixed sleeve 23, under the effect of polishing disc 28, polish the fin, no. two springs 27 are compressed, after polishing is accomplished, no. two springs 27 elastic release this moment, and drive the third rotating rod 24 and move towards initial position, when No. three rotating rods 24 get back to initial position, support bar 21 rotates this moment, and drive backup pad 22 rotation, after the round of support bar 21 rotates, another third of polishing disc 28 moves to the bearing plate 29 this moment, support bar 21 stops rotating, the third rotating rod 24 that is located the bearing plate 29 top, and move again, and make polishing disc 28 repeatedly carry out the step and make polishing to realize the polishing, thereby the effect is realized, the polishing is not to the polishing disc is realized, wherein, polishing effect is realized, and polishing disc 21 is not is finished, and polishing is finished, and the polishing is finished.

Referring to fig. 1-3 and 6-8, a lifting mechanism is disposed on the transverse plate 3, a cross groove 17 engaged with the limiting block 25 is disposed on the lifting mechanism, the lifting mechanism includes a limiting component disposed on the fixed plate 2 and engaged with the driving component, a baffle plate 11 fixedly disposed on the fixed plate 2, a second rotating rod 12 movably disposed on the baffle plate 11 and engaged with the limiting component, a first spring 13 abutting against the limiting component is sleeved on the second rotating rod 12, the second rotating rod 12 is connected with the rotating mechanism and provided with the cross groove 17, a second limiting rod is fixed on the second rotating rod 12, wherein the limiting component includes a hollow rod 8 movably disposed on the driving component and engaged with the second rotating rod 12, a swash plate 9 fixedly disposed on the hollow rod 8, a limiting wheel 10 rotatably disposed on the fixed plate 2 and abutting against the swash plate 9, and the first spring 13 abuts against the hollow rod 8.

Further, the swash plate 9 is inclined, under the action of the first spring 13, the swash plate 9 is always in an abutting state with the limiting wheel 10, in an initial state, the limiting wheel 10 is located at the lowest point position of the inclined surface of the swash plate 9, the second rotating rod 12 is located at the maximum stroke position far away from the direction of the base 1, the limiting block 25 and the cross groove 17 are in a separated state, when the driving assembly moves, under the action of the first limiting groove, the hollow rod 8 is driven to rotate and the swash plate 9 is driven to rotate, under the action of the limiting wheel 10, the swash plate 9 moves towards the direction of the base 1 and compresses the first spring 13, so that the hollow rod 8 moves towards the direction of the base 1, and because the hollow rod 8 is clamped with the second rotating rod 12, the second rotating rod 12 moves towards the limiting block 25 and drives the cross groove 17 to move, meanwhile, under the action of the rotating mechanism, the second rotating rod 12 is rotated, when the second rotating rod 12 is abutted against the limiting block 25, the third rotating rod 24 moves towards the base 1 under the action of the second spring 27, and as the second rotating rod 12 rotates, the cross groove 17 is clamped with the limiting block 25 after rotating a certain angle, so as to drive the third rotating rod 24 to rotate, when the highest point of the swash plate 9 moves to the position abutted against the limiting wheel 10, the third rotating rod 24 moves to the maximum stroke, the swash plate 9 continues to rotate, under the action of the first spring 13, the swash plate 9 moves towards the initial position and drives the second rotating rod 12 to move, when the cross groove 17 is separated from the limiting block 25, the third rotating rod 24 returns to the initial position and stops rotating, and at the moment, the other grinding disc 28 can be driven to the positive direction of the bearing plate 29 through the supporting rod 21, when the swash plate 9 moves to the initial position, the device is reset and the above steps are repeated, thereby realizing that only the grinding disc 28 above the bearing plate 29 is driven to rotate at a time.

Referring to fig. 1-3 and 6, the transverse plate 3 is further provided with a rotation mechanism for driving the lifting mechanism to rotate, the rotation mechanism includes a first bevel gear 18 fixedly installed on the driving component, a receiving rod 20 rotatably installed on the fixed plate 2, a second bevel gear 19 fixedly installed on the receiving rod 20 and meshed with the first bevel gear 18, the fixed plate 2 is provided with a driven component connected with the receiving rod 20, the driven component is connected with the second rotation rod 12, wherein the driven component includes a movable sleeve 14 movably installed on the second rotation rod 12, a movable plate 15 movably installed on the movable sleeve 14 and movably connected with the receiving rod 20, and a belt 16 sleeved on the movable sleeve 14 and connected with the receiving rod 20, and a second limit groove clamped with the second limit rod is formed in the movable sleeve 14.

Still further, when the driving assembly works, the first bevel gear 18 is driven to rotate, and as the first bevel gear 18 is meshed with the second bevel gear 19, the second bevel gear 19 is driven to rotate, and the receiving rod 20 is driven to rotate, the receiving rod 20 drives the movable sleeve 14 connected with the receiving rod through the belt 16 to rotate, and under the action of the movable plate 15, when the second rotating rod 12 moves in the vertical direction, the movable sleeve 14 does not move along with the second rotating rod 12, and when the movable sleeve 14 rotates, the second limiting groove is clamped with the second limiting rod, so that the second rotating rod 12 is driven to rotate, and under the action of the cross groove 17 and the limiting block 25, the grinding disc 28 is driven to rotate.

The fixed plate 2 is provided with a driving component connected with the lifting mechanism and the rotating mechanism, the driving component drives the lifting mechanism to reciprocate in the vertical direction and drives the lifting mechanism to rotate through the rotating mechanism, the driving component comprises a motor 4 fixedly installed on the fixed plate 2, a worm 5 rotatably installed on the fixed plate 2 and connected with an output shaft of the motor 4, a first rotating rod 7 rotatably installed on the transverse plate 3 and movably connected with the hollow rod 8, a worm gear 6 meshed with the worm 5 is fixed on the first rotating rod 7, a first limiting rod clamped with the first limiting groove is fixed on the first rotating rod 7, and the worm 5 is fixedly connected with the first bevel gear 18.

Referring to fig. 1-3, finally, when the motor 4 works, the worm 5 is driven to rotate and the first bevel gear 18 is driven to rotate, meanwhile, the worm 5 is meshed with the worm wheel 6 to drive the worm wheel 6 to rotate and the first rotating rod 7 to rotate, and the hollow rod 8 is driven to rotate due to the fact that the first limiting groove is clamped with the first limiting rod, wherein the worm 5 and the worm wheel 6 are arranged to drive to have the effect of low transmission rate, so that when the worm wheel 6 rotates for one circle, the worm 5 rotates for many circles to enable the polishing disc 28 to achieve the polishing effect.

Taking the embodiment of combining all the features described in the application as an example, when in use, the three rotating rods 24 are provided with three groups, and the lengths of the three groups of three rotating rods 24 are sequentially increased, so that the heights of the three groups of polishing discs 28 in the initial state are different, the inclined disc 9 is obliquely arranged, the inclined disc 9 is always in an abutting state with the limiting wheel 10 under the action of the first spring 13, the limiting wheel 10 is positioned at the lowest point position of the inclined surface of the inclined disc 9 in the initial state, when polishing is needed, the radiating fin is arranged on the bearing plate 29 at the moment, the motor 4 works to drive the worm 5 to rotate and drive the first bevel gear 18 to rotate, and as the first bevel gear 18 is meshed with the second bevel gear 19 to drive the second bevel gear 19 to rotate and drive the bearing rod 20 to rotate, the bearing rod 20 drives the movable sleeve 14 connected with the bearing rod 20 to rotate through the belt 16, and under the action of the movable plate 15, when the second rotating rod 12 moves in the vertical direction, the movable sleeve 14 does not move along with the second rotating rod 12, when the movable sleeve 14 rotates, the second limiting groove is clamped with the second limiting rod, so that the second rotating rod 12 is driven to rotate, meanwhile, the worm 5 is meshed with the worm wheel 6, so that the worm wheel 6 is driven to rotate, the first rotating rod 7 is driven to rotate, the first limiting groove is clamped with the first limiting rod, so that the hollow rod 8 rotates, and the swash plate 9 is driven to rotate, under the action of the limiting wheel 10, the swash plate 9 moves towards the base 1, and the first spring 13 is compressed, so that the hollow rod 8 moves towards the base 1, and because the hollow rod 8 is clamped with the second rotating rod 12, the second rotating rod 12 moves towards the limiting block 25, and the cross groove 17 is driven to move, when the second rotating rod 12 is abutted with the limiting block 25, under the effect of No. two spring 27, make No. three dwang 24 move towards base 1 direction, and because No. two dwang 12 rotates, make cross groove 17 and stopper 25 block after rotating certain angle, thereby drive No. three dwang 24 rotation, and drive the rotation of polishing dish 28, simultaneously, no. three dwang 24 moves towards base 1 direction, under the effect of fixed sleeve 23, make No. three dwang 24 move along the length direction of fixed sleeve 23, under the effect of polishing dish 28, polish the fin, no. two spring 27 is compressed, when the highest point of sloping cam plate 9 moves to the position of abutment with spacing wheel 10, no. three dwang 24 moves to maximum stroke department, sloping cam plate 9 continues to rotate, under the effect of No. one spring 13, make sloping cam plate 9 move towards the initial position, and drive No. two dwang 12 motions, when cross groove 17 and stopper 25 separate, no. three dwang 24 get back to the initial position, and stop rotating, and drive bracing piece 21 rotates, after bracing piece 21 one third rotation circle, another is polished to the top of polishing dish 28, when the motion is repeated to the initial position of polishing plate 29, when the step is realized, the abrasive plate is reset and the effect is carried out to the polishing plate is reset to the position when the initial plate is rotated.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The full-automatic multi-station radiator polishing and milling all-in-one machine is characterized by comprising:

the device comprises a base (1) and a fixed plate (2) fixedly arranged on the base (1), wherein a transverse plate (3) which is arranged in parallel with the base (1) is fixed on the fixed plate (2), and a bearing plate (29) for placing required processing components is also arranged on the fixed plate (2);

the polishing device comprises a base (1), wherein polishing discs (28) which are circumferentially and equidistantly arranged are arranged on the base (1), an intermittent transmission mechanism used for driving the polishing discs (28) to intermittently rotate is further arranged on the base (1), a limiting block (25) is fixed on the intermittent transmission mechanism, a lifting mechanism is arranged on a transverse plate (3), a cross groove (17) which is clamped with the limiting block (25) is formed in the lifting mechanism, a rotating mechanism used for driving the lifting mechanism to rotate is further arranged on the transverse plate (3), a driving assembly connected with the lifting mechanism and the rotating mechanism is arranged on a fixed plate (2), and the driving assembly drives the lifting mechanism to reciprocate in the vertical direction and drives the lifting mechanism to rotate through the rotating mechanism;

the lifting mechanism comprises a limiting component arranged on the fixed plate (2) and connected with the driving component, a baffle plate (11) fixedly arranged on the fixed plate (2), a second rotating rod (12) movably arranged on the baffle plate (11) and connected with the limiting component, a first spring (13) abutted with the limiting component is sleeved on the second rotating rod (12), the second rotating rod (12) is connected with the rotating mechanism and provided with a cross groove (17), and a second limiting rod is fixed on the second rotating rod (12);

the limiting assembly comprises a hollow rod (8) movably mounted on the driving assembly and clamped with the second rotating rod (12), a swash plate (9) fixedly mounted on the hollow rod (8), and a limiting wheel (10) rotatably mounted on the fixed plate (2) and abutted with the swash plate (9), wherein the swash plate (9) is abutted with the first spring (13), and a first limiting groove is formed in the hollow rod (8);

the rotating mechanism comprises a first bevel gear (18) fixedly installed on the driving assembly, a bearing rod (20) rotatably installed on the fixed plate (2), a second bevel gear (19) fixedly installed on the bearing rod (20) and meshed with the first bevel gear (18), a driven assembly connected with the bearing rod (20) is arranged on the fixed plate (2), and the driven assembly is connected with the second rotating rod (12).

2. The full-automatic multi-station radiator polishing and milling integrated machine according to claim 1, wherein the intermittent transmission mechanism comprises a supporting rod (21) rotatably mounted on the base (1), a supporting plate (22) fixedly mounted on the supporting rod (21), a plurality of groups of fixing sleeves (23) fixedly mounted on the supporting plate (22) and arranged at equal intervals in circumference, a polishing assembly connected with the fixing sleeves (23) is arranged on the base (1), and the polishing assembly is fixedly connected with the polishing disc (28) and the limiting block (25).

3. The full-automatic multi-station radiator polishing and milling all-in-one machine according to claim 2, wherein the polishing assembly comprises a third rotating rod (24) movably mounted on the fixed sleeve (23), a fixed ring (26) fixedly mounted on the third rotating rod (24), and a second spring (27) sleeved on the fixed sleeve (23) and the third rotating rod (24) and abutted with the fixed ring (26), and the third rotating rod (24) is fixedly connected with the polishing disc (28) and the limiting block (25).

4. The full-automatic multi-station radiator polishing and milling all-in-one machine according to claim 1, wherein the driven component comprises a movable sleeve (14) movably mounted on the second rotating rod (12), a movable plate (15) movably mounted on the movable sleeve (14) and movably connected with the bearing rod (20), and a belt (16) sleeved on the movable sleeve (14) and connected with the bearing rod (20), and the movable sleeve (14) is provided with a second limiting groove clamped with the second limiting rod.

5. The full-automatic multi-station radiator polishing and milling all-in-one machine according to claim 1, wherein the driving assembly comprises a motor (4) fixedly installed on the fixed plate (2), a worm (5) rotatably installed on the fixed plate (2) and connected with an output shaft of the motor (4), a first rotating rod (7) rotatably installed on the transverse plate (3) and movably connected with the hollow rod (8), a worm wheel (6) meshed with the worm (5) is fixed on the first rotating rod (7), a first limiting rod clamped with the first limiting groove is fixed on the first rotating rod (7), and the worm (5) is fixedly connected with the first bevel gear (18).