CN114714633A

CN114714633A - Automatic film pasting process for radiator insulating film

Info

Publication number: CN114714633A
Application number: CN202210395561.0A
Authority: CN
Inventors: 张琴
Original assignee: Chengdu Jinhuanke Technology Co ltd
Current assignee: Chengdu Jinhuanke Technology Co ltd
Priority date: 2022-04-14
Filing date: 2022-04-14
Publication date: 2022-07-08

Abstract

The invention discloses an automatic film pasting process for a radiator insulating film, which comprises the following steps: adopting an attaching device for coating heat-conducting silicone grease on two sides of an insulating film to perform film coating operation, mounting the insulating film on a discharging mechanism in advance, then adding the heat-conducting silicone grease into a storage tank of a paint storage mechanism, and sequentially winding the insulating film on a calibration guide assembly in the storage tank and penetrating through a cutting mechanism; the radiator is arranged on the movable carrying mechanism, and the movable carrying mechanism is started to drive the radiator to approach the cutting mechanism; driving the clamping mechanism to move along the cutting mechanism and clamp the insulating film, then driving the clamping mechanism for clamping the insulating film to move towards the direction far away from the cutting mechanism, and closing the clamping mechanism when the clamping mechanism moves to be close to the end face of the radiator; further adjusting the position of the clamping mechanism, then starting the movable carrying mechanism and driving the radiator to move upwards and contact with the lower surface of the insulating film; the cutting mechanism is started to cut the insulating film, so that the conditions of film breaking and the like of the insulating film are avoided.

Description

Automatic film pasting process for radiator insulating film

Technical Field

The invention relates to the technical field of insulating film attaching processes, in particular to an automatic film attaching process for a radiator insulating film.

Background

The description of the background of the invention pertaining to the related art to which this invention pertains is given for the purpose of illustration and understanding only of the summary of the invention and is not to be construed as an admission that the applicant is explicitly or implicitly admitted to be prior art to the date of filing this application as first filed with this invention.

Along with the development of electronic technology, the size space in the electronic product is smaller and smaller, and the connection density of the electronic elements is larger and larger, so that heat is not easy to dissipate, and the heat in the electronic product is accumulated more and more. In order to solve the heat dissipation problem of electronic products, heat-conducting silicone grease and an insulating film are often required to be coated on the back surface of a heat radiator.

The traditional heat conduction silicone grease smearing and insulating film attaching process is completed by manually smearing and attaching through an artificial roller, only one piece of heat conduction silicone grease can be attached at each time, the heat conduction silicone grease smearing is uneven, double-sided smearing of the heat conduction silicone grease cannot be achieved, and the heat conduction silicone grease smearing device has the advantages of low efficiency and serious waste of the heat conduction silicone grease. Secondly, the roller is easy to be doped with foreign matters in the process of manually smearing the heat-conducting silicone grease, so that the insulating film is broken and the like.

Disclosure of Invention

The invention aims to provide an automatic film pasting process for a radiator insulating film, which aims to solve the problems that the existing insulating film pasting is not standard and heat-conducting silicone grease cannot be stably smeared.

The technical scheme for solving the technical problems is as follows:

an automatic film pasting process of a radiator insulating film comprises the following steps: adopting the attaching equipment for smearing heat-conducting silicone grease on two sides of the insulating film to carry out film coating operation, and specifically comprising the following steps:

s1: the insulation film is installed on the discharging mechanism in advance, then heat conduction silicone grease is added into a storage tank of the paint storage mechanism, and the insulation film is sequentially wound on a calibration guide assembly in the storage tank and penetrates through the cutting mechanism;

s2: the radiator is arranged on the movable carrying mechanism, and the movable carrying mechanism is started to drive the radiator to approach the cutting mechanism;

s3: driving the clamping mechanism to move along the cutting mechanism and clamp the insulating film, then driving the clamping mechanism for clamping the insulating film to move towards the direction far away from the cutting mechanism, and closing the clamping mechanism when the clamping mechanism moves to be close to the end face of the radiator;

s4: further adjusting the position of the clamping mechanism, enabling the insulating film to be parallel to the upper end face of the radiator, then starting the movable carrying mechanism, driving the radiator to move upwards and enabling the radiator to be in contact with the lower surface of the insulating film;

s5: and starting a cutting mechanism to cut the insulating film, completing automatic film pasting of the radiator and resetting each component.

The beneficial effects of adopting the above technical scheme are: drop feed mechanism is used for placing the insulating film, store and paint the mechanism and be used for smearing the two-sided at the insulating film with heat conduction silicone grease, the insulating film further passes cutting mechanism then rethread fixture will be smeared the insulating film that has heat conduction silicone grease and carry out the centre gripping, and move along removing year thing mechanism and remove, the insulating film that has smeared heat conduction silicone grease this moment is stretched, it carries the thing to remove year thing mechanism and be used for placing, when the insulating film that has smeared heat conduction silicone grease is stretched to carrying the position department of the thing with removing on year thing mechanism, cutting mechanism cuts the insulating film, make the two-sided homoenergetic of insulating film scribble heat conduction silicone grease, realize the automatic pad pasting process that carries the thing of completion, avoid the circumstances such as insulating film rupture of membranes.

Further, in step S1: the insulating film is installed on the rotation holder between drop feed mechanism's first backup pad and second backup pad, rotates the holder and rotates with first backup pad and second backup pad respectively through the pivot and is connected, rotates first holding frame and second holding frame on the holder and fixes the insulating film.

The beneficial effects of adopting the above technical scheme are: the insulating film is clamped and fixed through the first clamping frame and the second clamping frame, and in the subsequent drawing process of the clamping mechanism, the rotary clamping piece rotates around the rotating shaft to discharge the insulating film.

Further, the calibration guide assembly comprises a calibration wheel and a guide wheel which are rotatably arranged in the storage box, and the insulation film is sequentially wound on the calibration wheel and the guide wheel and then penetrates through a film outlet on a fixing plate of the cutting mechanism.

The beneficial effects of adopting the above technical scheme are: the calibration wheel is used for calibrating the position of the insulating film, so that the position is prevented from being deviated; the guide wheel plays a role in guiding, and the film outlet on the fixing plate of the cutting mechanism is convenient for an insulating film to pass through and then is clamped by the clamping mechanism, so that subsequent cutting is facilitated.

Further, in step S2: install the radiator on the objective table of mount pad, drive the objective table removal on the mount pad through starting horizontal cylinder to order about the radiator and be close to cutting mechanism.

The beneficial effects of adopting the above technical scheme are: the radiator is placed on the objective table, and the telescopic driving mounting seat through the horizontal cylinder moves, so that the radiator on the objective table is driven to move, the operation is simple and convenient, and the horizontal cylinder enables the moving position of the radiator to be controllable.

Further, in step S3: the telescopic cylinder is started and drives the bottom plate to move along the direction of the cutting mechanism, then the clamping cylinder on the bottom plate is started, and the clamping cylinder drives the movable clamping plate to slide along the fixed clamping plate on the bottom plate and clamps the insulating film.

The beneficial effects of adopting the above technical scheme are: when the clamping cylinder is started, the movable clamping plate is driven to slide along the fixed clamping plate, and the fixed clamping plate is in a fixed state, so that the insulating film is clamped.

Further, in step S4: the fine adjustment cylinder on the adjusting plate of the telescopic cylinder is started to drive the bottom plate to move, and the insulating film is adjusted to be parallel to the radiator.

The beneficial effects of adopting the above technical scheme are: the fine setting cylinder is used for adjusting the position of the bottom plate more accurately, the invalid attached part of the insulating film is further reduced, and the film material is saved.

Further, start vertical cylinder and order about to remove the supporting seat upward movement who carries in the thing mechanism, the supporting seat is located the below of mount pad and horizontal cylinder, orders about the lower surface contact of radiator and insulating film through the supporting seat.

The beneficial effects of adopting the above technical scheme are: drive supporting seat up-and-down motion when starting through vertical cylinder to drive mount pad, objective table up-and-down motion, radiator on the objective table is upward movement down of doing of vertical cylinder for prop up the insulating film between fixture and the cutting mechanism, no longer need press mold part alone, the effectual possibility of being avoided the radiator to be destroyed by press mold part.

Further, in step S5, the insulation film is pressed by the pressing rod on the tool holder by activating the cutting cylinder at the top of the fixing plate, and then the insulation film is cut by the cutter on the tool holder.

The beneficial effects of adopting the above technical scheme are: the purpose of depression bar is in order to guarantee that the cutter can go on smoothly when cuting the insulating film, avoids the insulating film to follow the cutter and removes.

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

1. according to the invention, through certain operation steps, the film breaking condition can be effectively avoided when the insulating film is coated, and through the special attaching equipment for coating the heat-conducting silicone grease on the two sides of the insulating film, the automatic completion of the film attaching process on the back surface of the radiator is realized, the workload of workers is reduced, and the efficiency is improved;

2. in step S1 of the present invention, the insulating film is held by the holding mechanism in advance so that the insulating film does not have positional deviation when rotated, thereby reducing the possibility of film rupture.

3. The invention further reduces the ineffective adhering part of the insulating film and saves the film material by more accurately adjusting the position of the clamping mechanism in the step S4.

Drawings

FIG. 1 is a schematic structural view of an attaching apparatus;

FIG. 2 is a schematic top view of the attachment apparatus;

FIG. 3 is a schematic side view of the attaching apparatus;

FIG. 4 is a schematic structural view of the discharging mechanism, the storing and coating mechanism and the cutting mechanism;

fig. 5 is a schematic structural diagram of the moving carrier mechanism and the base.

In the figure: 1-insulating film, 11-vertical cylinder, 12-slide rail, 13-telescopic cylinder, 131-adjusting plate, 132-fine adjusting cylinder, 2-discharging mechanism, 21-first supporting plate, 22-second supporting plate, 23-rotating shaft, 24-rotating clamping piece, 241-first clamping frame, 242-second clamping frame, 3-storage coating mechanism, 31-storage box, 32-calibration wheel, 33-guide wheel, 4-cutting mechanism, 41-fixing plate, 42-cutting cylinder, 43-cutter, 44-film outlet, 45-cutter seat, 46-guide table, 47-pressure rod, 5-moving carrying mechanism, 51-mounting seat, 52-carrying table, 53-horizontal cylinder, 54-supporting seat, 6-clamping mechanism, 61-bottom plate, 62-clamping cylinder, 63-fixed clamping plate, 64-movable clamping plate and 7-base.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1 to 5, an automatic film-coating process for a heat spreader insulation film includes: adopt the insulating film two-sided attached equipment of paining heat conduction silicone grease to advance the tectorial membrane operation, wherein the attached equipment that is used for the insulating film two-sided heat conduction silicone grease of paining specifically includes: the base 7, and set gradually the drop feed mechanism 2 that is used for placing insulating film 1 on base 7, the mechanism 3 is paintd in storage for storing heat conduction silicone grease, the cutting mechanism 4 that is used for carrying out the cutting to insulating film 1 that scribbles heat conduction silicone grease, the removal that is used for placing the radiator carries thing mechanism 5, and fixture 6, fixture 6 carries out the centre gripping and removes then cutting through cutting mechanism 4 along removing year thing mechanism 5 with insulating film 1 that scribbles heat conduction silicone grease.

An automatic film pasting process for a radiator insulating film comprises the following specific steps:

s1: the insulation film 1 is arranged on the emptying mechanism 2 in advance, then heat-conducting silicone grease is added into a storage tank 31 of the paint storage mechanism 3, and the insulation film 1 is sequentially wound on a calibration guide assembly in the storage tank 31 and penetrates through the cutting mechanism 4;

the storing and coating mechanism 3 comprises a storage tank 31 for storing heat-conducting silicone grease, the calibration guide assembly comprises a calibration wheel 32 and a guide wheel 33 which are rotatably arranged in the storage tank 31, and the insulation film 1 sequentially winds the calibration wheel 32 and the guide wheel 33 and then penetrates through a film outlet 44 on a fixing plate 41 of the cutting mechanism 4. The rotating shafts of the calibration wheel 32 and the guide wheel 33 are in rotating fit with the storage tank 31; calibration wheel 32 is located the below of heat conduction silicone grease, and when calibration wheel 32 was used for fixed insulating film 1, still make insulating film 1 stable be located the below of heat conduction silicone grease in storage tank 31 to make insulating film 1's two-sided homoenergetic scribble heat conduction silicone grease.

The discharging mechanism 2 comprises a first supporting plate 21 and a second supporting plate 22 which are symmetrically arranged on the base 1, a rotating shaft 23 arranged between the first supporting plate 21 and the second supporting plate 22, and a rotating clamping piece 24 rotatably arranged on the rotating shaft 23, wherein the rotating clamping piece 24 is used for clamping the insulating film 1. The first and

second support plates

21 and 22 and the rotation shaft 23 are used to provide a rotation space for the insulating film 1;

the rotating holder 24 includes a first holder 241 and a second holder 242 rotatably provided on the rotating shaft 23 and located at both sides of the insulating film 1. The insulating film 1 is clamped and fixed by the first and

second clamping holders

241 and 242 so that the insulating film 1 does not generate a positional deviation when rotated. In this embodiment, one side of the first holding frame 241 is provided with a circular tube, one side of the second holding frame 242 is provided with an annular clamping groove clamped with the circular tube, the inner diameter of the circular tube is matched with the outer diameter of the rotating shaft, the insulating film 1 is sleeved on the outer wall of the circular tube, and the whole clamping piece 24 is rotated to drive the insulating film 1 to rotate when the clamping mechanism 6 is pulled.

In step S1, the insulation film 1 is mounted on the rotating clamp 24 between the first support plate 21 and the second support plate 22 of the discharge mechanism 2, the rotating clamp 24 is rotatably connected to the first support plate 21 and the second support plate 22 by the rotating shaft 23, and the first clamping frame 241 and the second clamping frame 242 on the rotating clamp 24 fix the insulation film 1.

S2: the radiator is arranged on the movable carrying mechanism 5, and the movable carrying mechanism 5 is started to drive the radiator to approach the cutting mechanism 4;

the movable carrying mechanism 5 comprises a supporting seat 54 arranged on the base 7, guide rails symmetrically arranged on two sides of the supporting seat 54, a mounting seat 51 arranged at the top end of the guide rails in a sliding manner, and a horizontal air cylinder 53 arranged on the supporting seat 54 and positioned below the mounting seat 51, wherein a piston rod of the horizontal air cylinder 53 is connected with the mounting seat 51, and a carrying platform 52 is placed at the top end of the mounting seat 51. The bottom of mount pad 51 is provided with the lug, offers the spout that matches with the guide rail on the lug for mount pad 51 and guide rail sliding connection.

In step S2: the radiator is arranged on the object stage 52 of the mounting seat 51, the horizontal air cylinder 53 is started to drive the object stage 52 on the mounting seat 51 to move, and the radiator is driven to approach the cutting mechanism 4. By moving the stage mechanism 5, the end face of the heat sink fixed to the stage 52 can be brought close to the end face of the cutter 43, and the size of the residual insulating film 1 after cutting can be reduced, thereby reducing the amount of the ineffective film.

S3: driving the clamping mechanism 6 to move along the cutting mechanism 4 and clamp the insulating film 1, then driving the clamping mechanism 6 for clamping the insulating film 1 to move towards the direction far away from the cutting mechanism 4, and closing the clamping mechanism 6 when the clamping mechanism 6 moves to be close to the end face of the radiator;

be provided with slide rail 12 and telescopic cylinder 13 on the base 1, fixture 6 include with telescopic cylinder 13 the piston rod be connected and with along slide rail 12 gliding bottom plate 61, the centre gripping cylinder 62 of setting on bottom plate 61, set up on bottom plate 61 and be located the fixed splint 63 of centre gripping cylinder 62 below, and the movable splint 64 of being connected with the piston rod of centre gripping cylinder 62, movable splint 64 and fixed splint 63 sliding connection, the slip direction of bottom plate 61 is the same with the slip direction of mount pad 53, and the stroke direction of bottom plate 61 is parallel with the tensile direction of membrane. The clamping cylinder 62 drives the movable clamping plate 64 to slide along the fixed clamping plate 63 when starting, and the fixed clamping plate 63 is in a fixed state, so that the insulating film 1 is clamped, the height of the insulating film 1 at the clamping end is matched with the height of the film outlet 44, and the purpose is to keep the insulating film 1 to be attached to be horizontal as much as possible, so that the insulating film 1 can be conveniently supported by the radiator. In this embodiment, the side wall of the movable clamping plate 64 close to the fixed clamping plate 63 is provided with a sliding block, and the fixed clamping plate 63 is provided with a sliding groove matched with the sliding block, so that the movable clamping plate 64 can be connected in a sliding manner along the fixed clamping plate 63.

In step S3, by activating the telescopic cylinder 13 and driving the bottom plate 61 to move in the direction of the cutting mechanism 4, and then activating the clamping cylinder 62 on the bottom plate 61, the clamping cylinder 62 drives the movable clamp plate 64 to slide along the fixed clamp plate 63 on the bottom plate 61 and clamp the insulation film 1. The fixed clamping plate 63 is provided with a groove, the movable clamping plate 64 is provided with a lug matched with the groove, the lug and the groove are matched to clamp the insulating film 1, the height of the clamped end of the insulating film 1 is matched with the height of the film outlet 44, the groove and the lug are combined to clamp the insulating film 1, and the clamping stability is improved.

S4: further adjusting the position of the clamping mechanism 6, enabling the insulating film 1 to be parallel to the upper end face of the radiator, then starting the movable carrying mechanism 5, driving the radiator to move upwards and contact with the lower surface of the insulating film 1;

an adjusting plate 131 is fixed at the output end of the telescopic cylinder 13, a fine adjustment cylinder 132 is arranged on the adjusting plate 131, and a piston rod of the fine adjustment cylinder 132 is connected with the bottom plate 61.

In step S4, by activating the trimming cylinder 132 on the adjusting plate 131 of the telescopic cylinder 13, the trimming cylinder 132 drives the bottom plate 61 to move and adjusts the insulating film 1 to be parallel to the heat sink. The trimming cylinder 132 is used to more precisely adjust the position of the base plate 61, further reducing the ineffective adhesion of the insulating film 1.

The movable loading mechanism 5 further comprises a vertical cylinder 11 arranged on the inner wall of the base 1, and a piston rod of the vertical cylinder 11 is connected with the bottom of the supporting seat 51. The vertical cylinder 11 is used for driving the supporting base 51 to move up and down and is used for supporting the insulating film 1 between the clamping mechanism 6 and the cutting mechanism 4.

The vertical cylinder 11 is started and drives the supporting seat 54 in the movable loading mechanism 5 to move upwards, the supporting seat 54 is located below the mounting seat 51 and the horizontal cylinder 53, the supporting seat 54 drives the radiator to be in contact with the lower surface of the insulating film 1, the vertical cylinder 11 is used for supporting the insulating film 1 between the clamping mechanism 6 and the cutting mechanism 4, a film pressing component is not needed independently, and the possibility that the radiator is damaged by the film pressing component is effectively avoided.

S5: and starting the cutting mechanism 4 to cut the insulating film 1, completing automatic film pasting of the radiator and resetting each component.

The cutting mechanism 4 comprises a fixing plate 41 which is arranged on the base 1 and adjacent to the storage box 31, a cutting cylinder 42 which is arranged at the top of the fixing plate 41, and a cutter 43 which is arranged on a piston rod of the cutting cylinder 42, wherein a film outlet 44 is formed in the fixing plate 41, the film outlet 44 is positioned below the cutter 43, and the cutter 43 is connected with the fixing plate 41 in a sliding manner in the vertical direction.

The insulating film 1 penetrates out of the film outlet 44, and the film outlet 44 can remove redundant heat-conducting silicone grease on the surface of the insulating film 1, so that the purpose of uniform coating of the heat-conducting silicone grease is achieved; then, the cutting cylinder 42 drives the cutter 43 to cut the insulating film 1. In this embodiment, the cutting knife 43 is provided with a sliding block, and a sliding groove matched with the sliding block is formed in the side wall of the fixing plate 41, so that the cutting knife 43 can smoothly slide along the fixing plate 41.

The cutter 43 is connected with the cutting cylinder 42 through a cutter holder 45, a guide table 46 is arranged at the position of the membrane outlet 44, a vertical through hole is formed in the cutter holder 45, a pressure rod 47 is connected in the vertical through hole in a sliding mode, and a spring is arranged between the outer wall of the pressure rod 47 and the inner wall of the vertical through hole. The guide table 46 serves to guide the insulating film 1 out of the film outlet 44.

In step S5, by activating the cutting cylinder 42 on the top of the fixed plate 41, the cutting cylinder 42 drives the knife holder 45 to slide along the fixed plate 41 and cuts the insulation film 1 by the cutting knife 43. When the cutting cylinder 42 is started, a piston rod of the cutting cylinder 42 can push the cutter holder 45, the cutter 43 and the pressing rod 47 to move downwards, the pressing rod 47 is enabled to fix the insulating film 1 on the guide table 46, the purpose of the pressing rod 47 is to ensure that the cutter 43 can smoothly cut the insulating film 1, the insulating film 1 is prevented from moving along with the cutter 43, and the spring is used for driving the pressing rod 47 and the cutter holder 45 to integrally reset with the cutter 43.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. An automatic film pasting process of a radiator insulating film is characterized by comprising the following steps: adopting the attaching equipment for smearing heat-conducting silicone grease on two sides of the insulating film to carry out film coating operation, and specifically comprising the following steps:

s1: the insulation film (1) is arranged on the discharging mechanism (2) in advance, then heat-conducting silicone grease is added into a storage tank (31) of the paint storage mechanism (3), and the insulation film (1) is sequentially wound on a calibration guide assembly in the storage tank (31) and penetrates through the cutting mechanism (4);

s2: the radiator is arranged on the movable carrying mechanism (5), and the movable carrying mechanism (5) is started to drive the radiator to approach the cutting mechanism (4);

s3: driving the clamping mechanism (6) to move along the cutting mechanism (4) and clamp the insulating film (1), then driving the clamping mechanism (6) for clamping the insulating film (1) to move towards the direction far away from the cutting mechanism (4), and closing the clamping mechanism (6) when the clamping mechanism (6) moves to be close to the end face of the radiator;

s4: further adjusting the position of the clamping mechanism (6), enabling the insulating film (1) to be parallel to the upper end face of the radiator, and then starting the moving loading mechanism (5) to drive the radiator to move upwards and contact with the lower surface of the insulating film (1);

s5: and starting the cutting mechanism (4) to cut the insulating film (1), completing automatic film pasting of the radiator and resetting each part.

2. The automatic film-laminating process for a heat spreader insulating film according to claim 1, wherein in step S1: insulating film (1) is installed on rotation holder (24) between first backup pad (21) and second backup pad (22) of drop feed mechanism (2), rotate holder (24) through pivot (23) respectively with first backup pad (21) with second backup pad (22) rotate and connect, first holding frame (241) and second holding frame (242) on rotation holder (24) will insulating film (1) is fixed.

3. The automatic pasting process of heat sink insulating film according to claim 1, wherein the alignment guide assembly comprises an alignment wheel (32) and a guide wheel (33) rotatably disposed in the storage tank (31), and the insulating film (1) is sequentially wound around the alignment wheel (32) and the guide wheel (33) and then passes through the film outlet (44) of the fixing plate (41) of the cutting mechanism (4).

4. The automatic film-laminating process for a heat spreader insulating film according to claim 1, wherein in step S2: the radiator is arranged on an object stage (52) of an installation base (51), the horizontal air cylinder (53) is started to drive the object stage (52) on the installation base (51) to move, and the radiator is driven to approach to the cutting mechanism (4).

5. The automatic film-laminating process for a heat spreader insulating film according to claim 4, wherein in step S3: and starting a telescopic cylinder (13) and driving a bottom plate (61) to move along the direction of the cutting mechanism (4), and then starting a clamping cylinder (62) on the bottom plate (61), wherein the clamping cylinder (62) drives a movable clamping plate (64) to slide along a fixed clamping plate (63) on the bottom plate (61) and clamp the insulating film (1).

6. The automatic film-laminating process for a heat spreader insulating film according to claim 1, wherein in step S4: by starting a fine adjustment cylinder (132) on an adjustment plate (131) of the telescopic cylinder (13), the fine adjustment cylinder (132) drives the bottom plate (61) to move, and the insulation film (1) is adjusted to be parallel to the radiator.

7. The automatic pasting process of heat sink insulating film according to claim 6, wherein a vertical cylinder (11) is activated and a support (54) in the moving loading mechanism (5) is driven to move upwards, the support (54) is located below the mounting seat (51) and the horizontal cylinder (53), and a heat sink is driven to contact with the lower surface of the insulating film (1) through the support (54).

8. The automatic pasting process for heat sink insulating film according to claim 1, wherein in step S5, by activating the cutting cylinder (42) on the top of the fixing plate (41), the cutting cylinder (42) drives the tool holder (45) to slide along the fixing plate (41), and presses the insulating film (1) by the pressing rod (47) on the tool holder (45), and then cuts the insulating film (1) by the cutting knife (43) on the tool holder (45).