CN208101100U - A kind of automatic preparation facilities of Heat Conduction Material - Google Patents

Abstract

The utility model relates to a kind of automatic preparation facilities of Heat Conduction Material, including the first rotary electric machine, the first rotary electric machine is connected with rotating turret by the first rotating block, and storage glue component is equipped with above rotating turret；It is respectively equipped with feeding assembly, compression assemblies, pad pasting component and heating component along clockwise direction above four storage glue components；Heating component includes the first support frame, first support frame is equipped with the first pneumatic cylinder, and the first pneumatic cylinder is connected with the first telescopic rod, and the first telescopic rod is fixedly connected with heating plate, more the second heat-generating pipes side by side are equipped in heating plate, heating plate bottom end is equipped with a circle cutter on its outermost circumferencial direction；The continuous automatic production of Heat Conduction Material may be implemented in the utility model, saves the link manually prepared, the time and efforts manually prepared is saved, to improve preparation efficiency.

Description

A kind of automatic preparation facilities of Heat Conduction Material

Technical field

The utility model relates to a kind of devices, belong to Heat Conduction Material preparation field, more specifically, the utility model relates to A kind of automatic preparation facilities of Heat Conduction Material.

Background technique

Heat Conduction Material is a kind of infant industry material.These materials are to design in recent years for the heat transfer requirement of equipment , it has excellent performance, reliably.They are suitble to various environment and requirement, there is appropriate countermeasure to the heat conduction problem being likely to occur, right Equipment it is highly integrated and extra small it is ultra-thin provide strong help, which has more and more been applied to perhaps In multi-product, the reliability of product is improved.Wherein, thermally conductive rubber mat is relatively conventional one of Heat Conduction Material；Heat-conducting glue Pad, is high-performance gap filling Heat Conduction Material, is mainly used for the transmitting interface between electronic equipment and cooling fin or product casing.It leads Hot glue pad is with good viscosity, flexibility, good compression performance and with excellent pyroconductivity.Make it in use The air between electronic original part and cooling fin can be made to be discharged completely, it is abundant to reach contact.Heat dissipation effect obviously increases.Heat-conducting glue It pads while there is certain viscosity, bring great convenience in the installation process of product compared to common insulating heat-conduction material Property, it is not easily to fall off, convenient for operation.

The preparation process of existing thermally conductive rubber mat is that highly viscous thermally conductive slurry is placed on platform first, then with crowded Locating back squeezes thermally conductive slurry, and thermally conductive slurry is made to be squeezed into blob of viscose, then sticks film in the two sides of rubber block, finally again The blob of viscose for sticking film is heated, thermally conductive rubber mat can be made.

The whole preparation process of existing thermally conductive rubber mat is manually made, and such preparation method is time-consuming to be taken Power, preparation efficiency is low, is not able to satisfy the demand of present enterprise automation production.It would therefore be desirable to a kind of automatic Heat Conduction Material Preparation facilities improves the preparation efficiency of Heat Conduction Material, uses manpower and material resources sparingly, realizes the automated production of enterprise.

Utility model content

Based on the above technical problem, the utility model provides a kind of automatic preparation facilities of Heat Conduction Material, to solve Previous Heat Conduction Material cannot achieve automated production, prepare time-consuming and laborious and low preparation efficiency technical problem.

In order to solve the above technical problems, the technical solution adopted in the utility model is as follows：

A kind of automatic preparation facilities of Heat Conduction Material, including the first rotary electric machine,

The first rotating block is equipped with above first rotary electric machine, four side of the first rotating block is connected separately with rotating turret, turns Moving frame end bends straight down and is equipped with the first idler wheel, and storage glue component is equipped with above rotating turret；Four storage glue components Top is respectively equipped with feeding assembly, compression assemblies, pad pasting component and heating component along clockwise direction；

The storage glue component includes the second rotary electric machine, and the second rotary electric machine is connected with the second rotating block, the second rotating block Top is fixedly connected with rotation slot, and rotation trench bottom is equipped with more the first heat-generating pipes side by side, is fixed with storage glue in rotation slot Slot, storage glue groove lower end are equipped with lower cover, are equipped with iron block in lower cover；The second rotating block side wall be equipped with connection frame, connection frame it is another One end is fixedly connected with rotation slot outer wall, and third rotary electric machine is fixed on connection frame, and the output shaft of third rotary electric machine passes through It wears rotation groove sidewall and is fixedly connected with storage glue groove；

The heating component includes the first support frame, and the first support frame is equipped with the first pneumatic cylinder, the connection of the first pneumatic cylinder There is the first telescopic rod, the first telescopic rod is fixedly connected with heating plate, more the second heat-generating pipes side by side, heating are equipped in heating plate Board bottom end is equipped with a circle cutter on its outermost circumferencial direction.

On the basis of above technical scheme：The feeding assembly includes loading hopper, and the discharge port of loading hopper is connected with Inclined discharge barrel, discharge barrel is interior to be equipped with screw rod along discharge barrel inclined direction, and the discharge port of discharge barrel is located at the top of storage glue groove, Support rod is fixedly connected with below discharge barrel, support rod bottom is equipped with the second idler wheel, and support rod lower end is equipped with the second telescopic rod, the Two telescopic rods are connected with the second pneumatic cylinder.

On the basis of above technical scheme：The compression assemblies include the second support frame, and the is equipped at the top of the second support frame Three pneumatic cylinders, the output shaft of third pneumatic cylinder are connected with third telescopic rod, and third telescopic rod bottom is fixedly connected with stripper plate；The Three telescopic rods are equipped with graduation mark.

On the basis of above technical scheme：The pad pasting component includes the first rotating bar being oppositely arranged and third support Frame；First rotating bar lower end is connected with the 4th rotary electric machine, and the first rotating bar upper end is equipped with and moves up and down motor, above moves down The output shaft of dynamic motor is connected with electric telescopic rod, and the end of electric telescopic rod bends straight down and is connected with by electromagnet Upper cover；Third support frame upper end is equipped with the 4th pneumatic cylinder, and the 4th pneumatic cylinder is equipped with the 4th telescopic rod, on the 4th telescopic rod Equipped with the 5th rotary electric machine, the output shaft of the 5th rotary electric machine is connected with the second rotating bar, and the second rotation boom end is fixedly connected There is film sticking plate, film sticking plate upper end is symmetrically arranged with two ventholes, is equipped with suction fan at venthole；Film sticking plate lower end is equipped with circle side by side Arc-shaped protrusions, arc-shaped projecting tip are equipped with through-hole, and arc-shaped protrusion lower end is equipped with film to be pasted.

In conclusion by adopting the above-described technical solution, the utility model has the beneficial effects that：

1, in the utility model, during preparing thermally conductive rubber mat, thermally conductive slurry is placed in loading hopper first, Then thermally conductive slurry enters in storage glue groove under the action of screw rod；Start the second rotary electric machine and the second gas during charging Cylinder pressure, the second rotary electric machine drive the second rotating block rotation, the second rotating block by rotation slot drive storage glue groove rotation, on one side into Storage glue groove does circular-rotation on one side during material, it is ensured that sizing material is evenly distributed in storage glue groove after entering storage glue groove；Together When, the elongation and shortening that the second pneumatic cylinder drives the second telescopic rod reciprocal, to drive the discharge port of discharge barrel along storage glue groove Horizontal diameter direction moves back and forth, and further guarantees to be evenly distributed in storage glue groove after sizing material enters storage glue groove；This structure can To realize the automatic feed in thermally conductive rubber mat preparation process, and it can guarantee that thermally conductive slurry is evenly distributed in storage glue groove, thus Guarantee the quality of the subsequent thermally conductive rubber mat being prepared；

2, in the utility model, start the first rotary electric machine after the completion of charging, the first rotary electric machine passes through the first rotation Block drives rotating turret to rotate clockwise 90 °, and rotating turret rotation is arrived after driving the storage glue component for installing sizing material to rotate clockwise 90 ° and squeezed It presses below component, then stops the first rotary electric machine, start third pneumatic cylinder, third pneumatic cylinder drives the elongation of third telescopic rod, To drive stripper plate to be moved downwardly in storage glue groove, the sizing material in storage glue groove is squeezed；Third telescopic rod during this On graduation mark can guarantee that the height of each stripper plate decline is equal, to guarantee that thermally conductive rubber mat thickness after extruding is equal, And then guarantee the uniformity of heat-conducting glue mat thickness；The automatic extruding of thermally conductive sizing material may be implemented in this structure, saves manual compression Time and efforts improves extruding efficiency, and can guarantee the uniformity of heat-conducting glue mat thickness；

3, in the utility model, after the completion of extruding, be again started up the first rotary electric machine, the first rotary electric machine again by First rotating block and rotating turret drive storage glue groove to rotate clockwise 90 °, turn to storage glue groove after extruding below pad pasting component, Storage glue groove after the completion of next charging turns to below compression assemblies；When storage glue groove after extruding turns to below pad pasting component Afterwards, stop the first rotary electric machine, starting pad pasting component realizes the automatic coating to thermally conductive rubber mat；Heat-conducting glue may be implemented in this structure The two-sided automatic coating of pad, reduces the link of artificial pad pasting, to reduce the time and efforts of artificial pad pasting, improves pad pasting effect Rate；

4, in the utility model, after the completion of pad pasting, be again started up the first rotary electric machine, the first rotary electric machine again by First rotating block and rotating turret drive storage glue groove to rotate clockwise 90 °, and the storage glue groove after making pad pasting turns to below heating component, Storage glue groove after the completion of next extruding turns to below pad pasting component；Storage glue groove after pad pasting turns to below heating component Afterwards, start the first heat-generating pipe and the second heat-generating pipe, and start the first pneumatic cylinder, the first pneumatic cylinder is driven by the first telescopic rod to be added Hot plate is moved downwardly to above thermally conductive rubber mat, stops certain time, makes the first heat-generating pipe and the second heat-generating pipe simultaneously to heat-conducting glue Material is heated, and heating process is completed；After the completion of heating, start heating at store up glue component in the second rotary electric machine, second turn Dynamic motor drives storage glue groove rotation, and the cutter below heating plate cuts thermally conductive rubber mat during rotation, to will lead Extra sizing material is cut away in hot glue pad, guarantees the consistency of thermally conductive rubber mat size and the planarization at edge；This structure may be implemented Automatic heating in thermally conductive rubber mat preparation process reduces the link manually heated, thus use manpower and material resources sparingly, meanwhile, this Structure can also realize the automatic cutting of thermally conductive rubber mat, guarantee the consistency of thermally conductive rubber mat size, to guarantee thermally conductive rubber mat Quality；

5, in the utility model, realized by four storage glue grooves charging in thermally conductive rubber mat preparation process, extruding, pad pasting and The continuous and automatic of heating work carries out, and saves the time and efforts manually prepared, and preparation efficiency is high, meets modernization of business Automatically the requirement produced.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the top view for storing up glue component；

Fig. 3 is the structural schematic diagram for storing up glue component and heating component；

Fig. 4 is the structural schematic diagram for storing up glue component and compression assemblies；

Fig. 5 is the structural schematic diagram for storing up glue component and pad pasting component；

It is marked in figure：The first rotary electric machine of 1-；The first rotating block of 2-；3- rotating turret；The first idler wheel of 4-；5- second rotates electricity Machine；The second rotating block of 6-；7- rotation slot；The first heat-generating pipe of 8-；9- storage glue groove；10- lower cover；11- connection frame；The rotation of 12- third Motor；13- iron block；The first support frame of 14-；The first pneumatic cylinder of 15-；The first telescopic rod of 16-；17- heating plate；18- second generates heat Pipe；19- cutter；20- loading hopper；21- discharge barrel；22- screw rod；23- support rod；The second idler wheel of 24-；25- second is flexible Bar；The second pneumatic cylinder of 26-；The second support frame of 27-；28- third pneumatic cylinder；29- third telescopic rod；30- stripper plate；31- scale Line；The first rotating bar of 32-；The 4th rotary electric machine of 33-；34- moves up and down motor；35- electric telescopic rod；36- upper cover；37- Three support frames；The 4th pneumatic cylinder of 38-；The 4th telescopic rod of 39-；The 5th rotary electric machine of 40-；The second rotating bar of 41-；42- pad pasting Plate；43- venthole；44- suction fan；The arc-shaped protrusion of 45-；46- film to be pasted.

Specific embodiment

The utility model will be further described below with reference to the accompanying drawings.The embodiments of the present invention includes but unlimited In the following example.

Specific embodiment

Embodiment 1

As shown in Figs. 1-5, the automatic preparation facilities of a kind of Heat Conduction Material, including the first rotary electric machine 1, the first rotary electric machine 1 Top is equipped with the first rotating block 2, and 2 four side of the first rotating block is connected separately with rotating turret 3, and 3 end of rotating turret is bent straight down And it is equipped with the first idler wheel 4, storage glue component is equipped with above rotating turret 3；Divide along clockwise direction above four storage glue components It She You not feeding assembly, compression assemblies, pad pasting component and heating component；Storing up glue component includes the second rotary electric machine 5, the second rotation Motor 5 is connected with the second rotating block 6, and rotation slot 7 is fixedly connected with above the second rotating block 6, and 7 bottom of rotation slot is equipped with more simultaneously The first heat-generating pipe 8 of row, storage glue groove 9 is fixed in rotation slot 7, and 9 lower end of storage glue groove is equipped with lower cover 10, is equipped in lower cover 10 Iron block 13；Second rotating block, 6 side wall is equipped with connection frame 11, and the other end and 7 outer wall of rotation slot of connection frame 11 are fixed to be connected Connect, be fixed with third rotary electric machine 12 on connection frame 11, the output shaft of third rotary electric machine 12 through 7 side wall of rotation slot and with Storage glue groove 9 is fixedly connected；Heating component include the first support frame 14, the first support frame 14 be equipped with the first pneumatic cylinder 15, first Pneumatic cylinder 15 is connected with the first telescopic rod 16, and the first telescopic rod 16 is fixedly connected with heating plate 17, is equipped with more in heating plate 17 The second heat-generating pipe 18 side by side, 17 bottom end of heating plate are equipped with a circle cutter 19 on its outermost circumferencial direction；

In use, driving the rotation of the first rotating block 2 by the first rotary electric machine of bottom 1, the first rotating block 2 drives the present embodiment Rotating turret 3 rotates, and the rotation of rotating turret 3 drives four storage glue components on rotating turret 3 to turn to charging respectively along clockwise direction Below component, compression assemblies, pad pasting component and heating component, the thermally conductive sizing material stored up in glue component to four respectively carries out serialization Charging, extruding, pad pasting and heating, realize that the serialization of thermally conductive rubber mat produces automatically, reduce the link that manually prepares, save people The time and efforts of work production, to improve production efficiency；After storage glue groove 9 after pad pasting turns to below heating component, open Dynamic first heat-generating pipe 8 and the second heat-generating pipe 18, and start the first pneumatic cylinder 15, the first pneumatic cylinder 15 passes through 16 band of the first telescopic rod Dynamic heating plate 17 is moved downwardly to above thermally conductive rubber mat, is stopped certain time, is made the first heat-generating pipe 8 and the second heat-generating pipe 18 simultaneously Thermally conductive sizing material is heated, heating process is completed；After the completion of heating, start the second rotary electric machine stored up in glue component at heating 5, the second rotary electric machine 5 drives storage glue groove 9 to rotate, and the cutter 19 of 17 lower section of heating plate carries out thermally conductive rubber mat during rotation Cutting, so that sizing material extra in thermally conductive rubber mat be cut away, guarantees the consistency of thermally conductive rubber mat size and the planarization at edge；This The automatic heating in thermally conductive rubber mat preparation process may be implemented in structure, the link manually heated is reduced, to save manpower Material resources, meanwhile, this structure can also realize the automatic cutting of thermally conductive rubber mat, guarantee the consistency of thermally conductive rubber mat size, to protect Demonstrate,prove the quality of thermally conductive rubber mat.

Embodiment 2

As shown in Figs. 1-5, the feeding assembly includes loading hopper 20, and the discharge port of loading hopper 20 is connected with inclined Discharge barrel 21, discharge barrel 21 is interior to be equipped with screw rod 22 along 21 inclined direction of discharge barrel, and the discharge port of discharge barrel 21 is located at storage glue groove 9 Top, be fixedly connected with support rod 23 below discharge barrel 21,23 bottom of support rod is equipped with the second idler wheel 24, under support rod 23 End is equipped with the second telescopic rod 25, and the second telescopic rod 25 is connected with the second pneumatic cylinder 26；

Thermally conductive slurry is placed on loading hopper 20 first in use, during preparing thermally conductive rubber mat by the present embodiment In, then thermally conductive slurry enters in storage glue groove 9 under the action of screw rod 22；Start the second rotary electric machine 5 during charging With the second pneumatic cylinder 26, the second rotary electric machine 5 drives the rotation of the second rotating block 6, and the second rotating block 6 drives storage by rotation slot 7 Glue groove 9 rotates, and does circular-rotation while storage glue groove 9 during feeding, it is ensured that sizing material enter after storage glue groove 9 It is evenly distributed in storage glue groove 9；Meanwhile second pneumatic cylinder 26 drive the reciprocal elongation and shortening of the second telescopic rod 25, to drive The discharge port of discharge barrel 21 is moved back and forth along the horizontal diameter direction of storage glue groove 9, after further guaranteeing that sizing material enters storage glue groove 9 It is evenly distributed in storage glue groove 9；The automatic feed in thermally conductive rubber mat preparation process may be implemented in this structure, and can guarantee thermally conductive Slurry is evenly distributed in storage glue groove 9, to guarantee the quality of the subsequent thermally conductive rubber mat being prepared.

Embodiment 3

As shown in Figs. 1-5, the compression assemblies include the second support frame 27, are equipped with third air pressure at the top of the second support frame 27 Cylinder 28, the output shaft of third pneumatic cylinder 28 are connected with third telescopic rod 29, and 29 bottom of third telescopic rod is fixedly connected with stripper plate 30；Third telescopic rod 29 is equipped with graduation mark 31；

For the present embodiment in use, starting the first rotary electric machine 1 after the completion of charging, the first rotary electric machine 1 passes through first turn Motion block 2 drives rotating turret 3 to rotate clockwise 90 °, and the rotation of rotating turret 3 drives the storage glue component for installing sizing material to rotate clockwise 90 ° It is arrived below compression assemblies afterwards, then stops the first rotary electric machine 1, start third pneumatic cylinder 28, third pneumatic cylinder 28 drives third Telescopic rod 29 extends, so that stripper plate 30 be driven to be moved downwardly in storage glue groove 9, squeezes the sizing material in storage glue groove 9；This The height that the graduation mark 31 on third telescopic rod 29 can guarantee that each stripper plate 30 declines in the process is equal, to guarantee thermally conductive Rubber mat thickness after extruding is equal, and then guarantees the uniformity of heat-conducting glue mat thickness；Oneself of thermally conductive sizing material may be implemented in this structure It is dynamic to squeeze, it saves the time and efforts of manual compression, improve extruding efficiency, and can guarantee the unification of heat-conducting glue mat thickness Property.

Embodiment 4

As shown in Figs. 1-5, the pad pasting component includes the first rotating bar 32 being oppositely arranged and third support frame 37；It is described First rotating bar, 32 lower end is connected with the 4th rotary electric machine 33, and 32 upper end of the first rotating bar is equipped with and moves up and down motor 34, up and down The output shaft of mobile motor 34 is connected with electric telescopic rod 35, and the end of electric telescopic rod 35 bends straight down and passes through electromagnetism Iron is connected with upper cover 36；37 upper end of third support frame is equipped with the 4th pneumatic cylinder 38, and the 4th pneumatic cylinder 38 is equipped with the 4th and stretches Contracting bar 39, the 4th telescopic rod 39 are equipped with the 5th rotary electric machine 40, and the output shaft of the 5th rotary electric machine 40 is connected with the second rotation Bar 41,41 end of the second rotating bar are fixedly connected with film sticking plate 42, and 42 upper end of film sticking plate is symmetrically arranged with two ventholes 43, outlet Suction fan 44 is equipped at hole 43；42 lower end of film sticking plate is equipped with arc-shaped protrusion 45 side by side, is equipped at the top of arc-shaped protrusion 45 logical Hole, arc-shaped 45 lower end of protrusion are equipped with film 46 to be pasted；

The present embodiment is again started up the first rotary electric machine 1, the first rotary electric machine 1 leads to again in use, after the completion of squeezing It crosses the first rotating block 2 and rotating turret 3 drives storage glue groove 9 to rotate clockwise 90 °, storage glue groove 9 after extruding is made to turn to pad pasting group Below part, the storage glue groove 9 after the completion of next charging is turned to below compression assemblies；When storage glue groove 9 after extruding turns to patch Stop the first rotary electric machine 1 starting suction fan 44 after below membrane module, film 46 to be pasted is inhaled below arc-shaped protrusion 45；So Afterwards, start the 4th pneumatic cylinder 38, the 4th pneumatic cylinder 38 drives the elongation of the 4th telescopic rod 39, and the elongation of the 4th telescopic rod 39 drives pad pasting Plate 42 moves downward, and when film sticking plate 42, which is moved to, to be contacted with heat-conducting glue, closes the 4th cylinder pressure of gas and suction fan 44, makes thin wait paste Film 46 leaves arc-shaped protrusion 45 and is laid on heat-conducting glue, finally starts the 5th rotary electric machine 40, and the 5th rotary electric machine 40 passes through Second rotating bar 41 drives the arc-shaped protrusion 45 on film sticking plate 42 to do circular-rotation, squeezes during circular-rotation wait paste Film 46 is attached to film 46 to be pasted closely on heat-conducting glue, completes the pad pasting work of heat-conducting glue one side；When a mask is completed After film sticking plate 42 returns to original position, start the 4th rotary electric machine 33, the 4th rotary electric machine 33 drives upper cover 36 to turn to level side To when upper cover 36 turns to horizontal direction, the 4th rotary electric machine 33 of stopping starts electric telescopic rod 35,35 band of electric telescopic rod Dynamic upper cover 36 moves to right above storage glue groove 9, stops electric telescopic rod 35 when upper cover 36 moves to 9 surface of storage glue groove, opens It is dynamic to move up and down motor 34, it moves up and down motor 34 and upper cover 36 is driven to cover in storage glue groove 9；When upper cover 36 is covered in storage glue groove 9 Stop moving up and down motor 34 afterwards, start third rotary electric machine 12, third rotary electric machine 12 drives storage glue groove 9 to overturn 360 °, so Successively starting moves up and down motor 34, electric telescopic rod 35 and the 4th rotary electric machine 33 and connect lower cover 10 simultaneously with electromagnet afterwards Leave 9 top of storage glue groove；Above-mentioned pad pasting work is carried out again after the completion of the overturning of storage glue groove 9, to realize to thermally conductive rubber mat Two sides carries out automatic coating；The two-sided automatic coating of thermally conductive rubber mat may be implemented in this structure, reduces the link of artificial pad pasting, thus The time and efforts of artificial pad pasting is reduced, pad pasting efficiency is improved.

It is as described above the embodiments of the present invention.Each preferred embodiment described previously for the utility model, Preferred embodiment in each preferred embodiment if not obvious contradictory or premised on a certain preferred embodiment, Each preferred embodiment can any stack combinations use, the design parameter in the embodiment and embodiment be only for The utility model verification process of clear statement utility model people, not to limit the scope of patent protection of the utility model, The scope of patent protection of the utility model is still subject to the claims, all specifications with the utility model and attached The variation of equivalent structure made by figure content, similarly should be included in the protection scope of the utility model.

Claims (4)

1. a kind of automatic preparation facilities of Heat Conduction Material, including the first rotary electric machine (1), it is characterised in that：

The first rotating block (2) are equipped with above first rotary electric machine (1), (2) four side of the first rotating block is connected separately with rotation Frame (3), rotating turret (3) end bend straight down and are equipped with the first idler wheel (4), and storage glue component is equipped with above rotating turret (3)； It is respectively equipped with feeding assembly, compression assemblies, pad pasting component and heating component along clockwise direction above four storage glue components；

The storage glue component includes the second rotary electric machine (5), and the second rotary electric machine (5) is connected with the second rotating block (6), and second turn It is fixedly connected with rotation slot (7) above motion block (6), rotation slot (7) bottom is equipped with more the first heat-generating pipes (8) side by side, rotation It is fixed with storage glue groove (9) in slot (7), storage glue groove (9) lower end is equipped with lower cover (10), is equipped with iron block (13) in lower cover (10)；Institute The second rotating block (6) side wall is stated equipped with connection frame (11), the other end of connection frame (11) is fixedly connected with rotation slot (7) outer wall, It is fixed on connection frame (11) third rotary electric machine (12), the output shaft of third rotary electric machine (12) runs through rotation slot (7) side Wall is simultaneously fixedly connected with storage glue groove (9)；

The heating component includes the first support frame (14), and the first support frame (14) is equipped with the first pneumatic cylinder (15), the first gas Cylinder pressure (15) is connected with the first telescopic rod (16), and the first telescopic rod (16) is fixedly connected with heating plate (17), in heating plate (17) The second heat-generating pipe (18) equipped with more side by side, heating plate (17) bottom end are equipped with a circle cutter on its outermost circumferencial direction (19)。

2. the automatic preparation facilities of a kind of Heat Conduction Material according to claim 1, it is characterised in that：The feeding assembly includes Loading hopper (20), the discharge port of loading hopper (20) are connected with inclined discharge barrel (21), along discharge barrel in discharge barrel (21) (21) inclined direction is equipped with screw rod (22), and the discharge port of discharge barrel (21) is located at the top of storage glue groove (9), discharge barrel (21) lower section It is fixedly connected with support rod (23), support rod (23) bottom is equipped with the second idler wheel (24), and support rod (23) lower end is equipped with second and stretches Contracting bar (25), the second telescopic rod (25) are connected with the second pneumatic cylinder (26).

3. the automatic preparation facilities of a kind of Heat Conduction Material according to claim 1, it is characterised in that：The compression assemblies include Second support frame (27), the second support frame (27) top are equipped with third pneumatic cylinder (28), and the output shaft of third pneumatic cylinder (28) connects It is connected to third telescopic rod (29), third telescopic rod (29) bottom is fixedly connected with stripper plate (30)；Third telescopic rod is set on (29) There are graduation mark (31).

4. the automatic preparation facilities of a kind of Heat Conduction Material according to claim 1, it is characterised in that：The pad pasting component packet phase To the first rotating bar (32) and third support frame (37) of setting；First rotating bar (32) lower end is connected with the 4th rotation electricity Machine (33), the first rotating bar (32) upper end are equipped with and move up and down motor (34), and the output shaft for moving up and down motor (34) is connected with Electric telescopic rod (35), the end of electric telescopic rod (35) bend straight down and are connected with upper cover (36) by electromagnet；Institute Third support frame (37) upper end is stated equipped with the 4th pneumatic cylinder (38), the 4th pneumatic cylinder (38) is equipped with the 4th telescopic rod (39), the Four telescopic rods (39) are equipped with the 5th rotary electric machine (40), and the output shaft of the 5th rotary electric machine (40) is connected with the second rotating bar (41), the second rotating bar (41) end is fixedly connected with film sticking plate (42), and film sticking plate (42) upper end is symmetrically arranged with two ventholes (43), suction fan (44) are equipped at venthole (43)；Film sticking plate (42) lower end is equipped with arc-shaped protrusion (45) side by side, arc-shaped Through-hole is equipped at the top of protrusion (45), arc-shaped protrusion (45) lower end is equipped with film to be pasted (46).