CN210943881U - Feeding mechanism of automatic graphite sheet sticking machine - Google Patents

Abstract

The utility model relates to an automatic paste graphite flake machine's feed mechanism, it is including the storage component that is used for storing the graphite flake and move the material subassembly, it is located to move the material subassembly the storage component top, the graphite flake pile up place in storage component is last, storage component promotes the graphite flake and rises, it is used for being located to move the material subassembly the graphite flake of storage component is transferred to shelling the material mechanism and is shelled the material. Above-mentioned automatic graphite flake machine's material loading subassembly can realize graphite flake automatic feeding, need not manual operation, improves production efficiency and laminating precision, makes the yields promote.

Description

Feeding mechanism of automatic graphite sheet sticking machine

Technical Field

The utility model belongs to the technical field of the graphite flake laminating and specifically relates to an automatic graphite flake machine's feed mechanism is related to.

Background

The graphite flake is as a brand-new heat conduction heat dissipation material, can follow the even heat conduction of two directions, shielding heat source and unit, make electronic product property improve, in the laminating of graphite flake, often adopt face and the laminating of pushing down, because there is great adhesion between graphite flake and the product in this laminating, there is the gassing and the bubble is difficult for getting rid of in the laminating, influence the efficiency of heat conduction, the graphite flake product that is used for on the existing market adopts the manual work to laminate usually, artifical laminating production efficiency is low, laminating position precision is not enough, the yields is difficult to control, and the human cost is high, in order to solve the problem that manual operation brought, adopt automatic material loading to realize the automatic indispensable component part of laminating the graphite flake to the product.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides an automatic subsides graphite flake machine's feed mechanism, and it can solve above-mentioned problem, can realize automatic feeding.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an automatic paste graphite flake machine's feed mechanism, its is including the storage component that is used for storing the graphite flake and move the material subassembly, it is located to move the material subassembly the storage component top, the graphite flake pile up place in on the storage component, storage component promotes the graphite flake and rises, it is used for will being located to move the graphite flake of storage component to shell the material mechanism and shell the material.

Preferably, the storage assembly comprises a first lifting unit, a storage push rod and a storage push plate; the first lifting unit drives the material storage push rod to push the material storage push plate to move.

Preferably, the storage assembly comprises a storage limiting rod, and the storage limiting rod surrounds the storage push rod.

Preferably, the storage assembly further comprises a material sensor, and the material sensor is arranged at the upper end of the storage limiting rod.

Preferably, first lift unit is including first elevator motor, first lifting guide, first elevating screw and first lifting slide, first elevator motor drive first elevating screw rotates, first lifting slide follows first elevating guide removes, and with first elevating screw meshing, storage push rod one end with first elevating slide sets firmly, the other end with the storage push pedal sets firmly.

Preferably, the material moving assembly comprises an adsorption unit and a transverse moving unit, and the transverse moving unit is used for driving the adsorption unit to move between the material storage assembly and the material stripping mechanism.

Preferably, the adsorption unit comprises a second lifting unit and an adsorption plate, and the second lifting unit drives the adsorption plate to move.

Preferably, the suction plate is provided with a suction nozzle for sucking a graphite sheet.

Preferably, the traversing unit comprises a traversing motor, a traversing belt, a traversing driving wheel and a traversing driven wheel; the transverse moving motor drives the transverse moving driving wheel to rotate, and the transverse moving belt is driven between the transverse moving driving wheel and the transverse moving driven wheel.

The transverse moving unit further comprises a transverse moving guide rail, a transverse moving sliding block and a synchronizing block, the synchronizing block and the transverse moving sliding block are fixedly arranged with the adsorption unit respectively, the transverse moving sliding block moves along the transverse moving guide rail, and the synchronizing block and the transverse moving belt move synchronously.

The beneficial effects of the utility model reside in that: above-mentioned automatic graphite flake machine's feed mechanism can realize graphite flake automatic feeding, need not manual operation, improves production efficiency and laminating precision, makes the yields promote.

Drawings

Fig. 1 is a schematic structural diagram of a feeding mechanism of an automatic graphite sheet sticking machine according to the present invention;

fig. 2 is a schematic structural view of a magazine assembly according to the present invention;

fig. 3 is a schematic structural view of a material moving structure according to the present invention;

fig. 4 is a schematic structural view of an adsorption unit according to the present invention;

fig. 5 is a schematic structural view of a traverse unit according to the present invention;

fig. 6 is a schematic structural diagram of a synchronization block according to the present invention;

FIG. 7 is a schematic structural view of an automatic graphite sheet sticking machine according to the present invention;

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1 and 7, a feeding mechanism of an automatic graphite sheet sticking machine comprises a storage component 1 and a material moving component 2, wherein the material moving component 2 is located above the storage component 1, graphite sheets are stacked and placed on the storage component 1, the storage component 1 pushes the graphite sheets to ascend, and the material moving component 2 moves the graphite sheets of the storage component 1 to a material peeling mechanism B for material peeling.

As shown in fig. 2, the storage assembly 1 includes a storage substrate 11 and a storage platform 12 fixedly disposed at the upper end of the storage substrate 11, the storage substrate 11 extends downward and is fixed with a storage rack 13, the storage assembly 1 further includes a first lifting unit 14, a storage push rod 15, a storage limit rod 16 and a storage push plate 17, the first lifting unit 14 includes a first lifting motor 141, a first lifting screw base 142, a first lifting guide rail 143, a first lifting screw 144 and a first lifting slider 145, the first lifting screw base 142 is provided with two, the two first lifting screw bases 142 are fixed at two ends of the storage rack 13, the first lifting screw 144 is rotatably disposed between the two first lifting screw bases 142, the first lifting motor 141 drives the first lifting screw 144 to rotate, the first lifting guide rail 143 is fixed on the storage rack 13, the first lifting slider 145 moves along the first lifting guide rail 143 and is engaged with the first lifting screw 144, storage push rod 15 one end sets firmly with first lifting slide block 145, the other end sets firmly with storage push plate 17, storage push plate 17 is fixed in storage platform 12 top, the graphite flake is placed in storage push plate 17's top, first lift unit 14 drives storage push rod 15 and promotes storage push plate 17 and upwards removes, storage push plate 17 promotes the graphite flake and rises, storage gag lever post 16 is fixed in storage platform 12's upper end, storage gag lever post 16 is four, four storage gag lever posts 16 form the storage area, be used for placing the graphite flake, and this storage area's shape matches with the shape of graphite flake, make the graphite flake neatly put, storage push plate 17 removes in the storage area, avoid the skew of graphite flake, lead to follow-up laminating position inaccurate.

Storage component 1 still further includes material inductor 18, and material inductor 18 sets up in the upper end of storage gag lever post 16, and material inductor 18 is two, and two material inductors 18 set up relatively, and when material inductor 18 can not respond to two material inductors 18 and have the graphite flake, first lift unit 14 promotes storage push pedal 17 and upwards removes, makes the graphite flake rise.

As shown in fig. 3, the material moving assembly 2 includes a material moving support 21, and an adsorption unit 22 and a traverse unit 23 which are arranged on the material moving support 21, the material moving support 21 is fixed on the rack a, the traverse unit 23 drives the adsorption unit 22 to move, after the adsorption unit 22 adsorbs graphite flakes, the traverse unit 23 moves the adsorption unit 22 to the upper side of the material peeling mechanism B, and the adsorption unit 22 moves downwards to place the graphite flakes on the material peeling mechanism B.

As shown in fig. 4, the suction unit 22 includes a suction substrate 221, a second lifting unit 222 and a suction plate 226, the second lifting unit 222 is fixed on the suction substrate 221 and drives the suction plate 226 to move, the second lifting unit 222 includes a second lifting cylinder 223, a second lifting slider 224 and a second lifting guide rail 225, the second lifting cylinder 223 and the second lifting guide rail 225 are fixed on the suction substrate 221, the second lifting cylinder 223 drives the second lifting slider 224 to move, the second lifting slider 224 moves along the second lifting guide rail 225, the second lifting slider 224 extends downward and is fixed with the suction plate 226, the second lifting cylinder 223 drives the suction plate 226 to move, a suction nozzle 227 is disposed on the suction plate 226, and the suction nozzle 227 is communicated with a vacuum pump and is used for sucking graphite flakes.

As shown in fig. 5 and 6, the traverse unit 23 includes a traverse base 231, a traverse motor 232, a traverse belt 233, a traverse guide 234, a traverse slider 235, a traverse driving wheel 236, a traverse driven wheel 237 and a synchronizing block 238, the traverse base 231 is fixed on the material moving bracket 21, the traverse motor 232, the traverse guide 234 and the traverse driven wheel 237 are respectively fixed on the traverse base 231, the traverse motor 232 and the traverse driving wheel 236 are rotatably connected, the traverse belt 233 is respectively engaged with the traverse driving wheel 236 and the traverse driven wheel 237, the synchronizing block 238 is fixed on the traverse belt 233, the traverse motor 232 drives the traverse belt 233 to drive the synchronizing block 238 to move, the traverse slider 235 moves along the traverse guide 234, the synchronizing block 238 and the traverse slider 235 are fixed on the adsorption base 221, the adsorption base 221 is driven to move when the traverse slider 235 moves, the synchronizing block 238 includes a synchronizing fixing seat 2321 and a synchronizing clamping piece 2322, the synchronous fixing seat 2321 is fixedly arranged with the adsorption substrate 221, a synchronous groove 2323 for placing the traverse belt 233 is arranged on the synchronous fixing seat 2321, and the synchronous clamping piece 2322 is fixedly arranged on the synchronous fixing seat 2321 and clamps the traverse belt 233, so that the synchronous block 23 is fixedly arranged relative to the traverse belt 233.

As shown in fig. 3, the traverse unit 23 further includes a traverse drag chain 239, the adsorption unit 22 further includes an adsorption drag chain fixing plate 228, the adsorption drag chain fixing plate 228 is fixed on the adsorption substrate 221, one end of the traverse drag chain 239 is fixed to the traverse substrate 231, and the other end is fixed to the adsorption drag chain fixing plate 228, so as to bind the electric wire or the air pressure pipe to facilitate the movement of the traverse unit 23.

The material moving assembly 2 further comprises a first induction switch 24 and a first induction sheet 25, the first induction switch 24 is fixed on the traverse substrate 231, the first induction sheet 25 is fixed on the adsorption substrate 221, and the first induction sheet 25 can pass through the first induction switch 24 to control the start and stop of the traverse unit 23, so that the traverse unit 23 can accurately control the movement of the adsorption unit 22.

The material moving assembly 2 further comprises a vacuum gauge 26 for detecting the vacuum degree of the suction nozzle 227 during suction.

The utility model provides another embodiment, as shown in fig. 7, an automatic graphite sheet sticking machine comprises a frame A, a feeding mechanism, a stripping mechanism B, a laminating rolling mechanism C, a moving mechanism D and an operating platform E of the automatic graphite sheet sticking machine, wherein the feeding mechanism, the stripping mechanism B and the operating platform E are fixed on the frame A, the moving mechanism D is fixed on the operating platform E, the moving mechanism D drives the laminating rolling mechanism C to move, the feeding mechanism moves graphite sheets to the stripping mechanism B, the stripping mechanism B peels off a protective film coated on the surfaces of the graphite sheets, the moving mechanism D moves the laminating rolling mechanism C to the position above the stripping mechanism B, and laminating rolling mechanism C pushes down and adsorbs the graphite flake, moving mechanism D will laminate rolling mechanism C and move to operation platform E top, laminate rolling mechanism C pushes down and laminates the graphite flake to the product.

The above-mentioned embodiments are merely preferred examples of the present invention, and do not limit the scope of the present invention, so all equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (10)

1. The utility model provides an automatic subsides graphite flake machine's feed mechanism, its characterized in that, it is including storage component (1) and the material subassembly (2) that move that are used for storing the graphite flake, move material subassembly (2) and be located storage component (1) top, the graphite flake pile up place in on the storage component (1), storage component (1) promotes the graphite flake and rises, it is used for will being located to move material subassembly (2) the graphite flake of storage component (1) is transferred to shell material mechanism (B) and is shelled the material.

2. The feeding mechanism of the automatic graphite sheet sticking machine according to claim 1, wherein the storage assembly (1) comprises a first lifting unit (14), a storage push rod (15) and a storage push plate (17); the first lifting unit (14) drives the material storage push rod (15) to push the material storage push plate (17) to move.

3. The feeding mechanism of the automatic graphite sheet sticking machine according to claim 2, wherein the storage assembly (1) comprises a storage limiting rod (16), and the storage limiting rod (16) is arranged around the storage push rod (15).

4. The feeding mechanism of the automatic graphite sheet sticking machine as claimed in claim 3, wherein the storage assembly (1) further comprises a material sensor (18), and the material sensor (18) is arranged at the upper end of the storage limiting rod (16).

5. The feeding mechanism of the automatic graphite sheet sticking machine as claimed in any one of claims 2 to 4, wherein the first lifting unit (14) comprises a first lifting motor (141), a first lifting guide rail (143), a first lifting lead screw (144) and a first lifting slide block (145), the first lifting motor (141) drives the first lifting lead screw (144) to rotate, the first lifting slide block (145) moves along the first lifting guide rail (143) and is engaged with the first lifting lead screw (144), one end of the storage push rod (15) is fixedly arranged with the first lifting slide block (145), and the other end of the storage push rod is fixedly arranged with the storage push plate (17).

6. The feeding mechanism of the automatic graphite sheet sticking machine as claimed in claim 5, wherein the moving assembly (2) comprises an adsorption unit (22) and a traverse unit (23), and the traverse unit (23) is used for driving the adsorption unit (22) to move between the storage assembly (1) and the stripping mechanism (B).

7. The feeding mechanism of the automatic graphite sheet sticking machine as claimed in claim 6, wherein the adsorption unit (22) comprises a second lifting unit (222) and an adsorption plate (226), and the second lifting unit (222) drives the adsorption plate (226) to move.

8. The feeding mechanism of the automatic graphite flake pasting machine as claimed in claim 7, wherein the suction plate (226) is provided with a suction nozzle (227) for sucking graphite flakes.

9. The feeding mechanism of the automatic graphite sheet pasting machine as claimed in claim 7, wherein the traverse unit (23) comprises a traverse motor (232), a traverse belt (233), a traverse driving wheel (236) and a traverse driven wheel (237); the transverse moving motor (232) drives the transverse moving driving wheel (236) to rotate, and the transverse moving belt (233) is transmitted between the transverse moving driving wheel (236) and the transverse moving driven wheel (237).

10. The feeding mechanism of the automatic graphite sheet pasting machine as claimed in claim 9, wherein the traverse unit (23) further comprises a traverse guide rail (234), a traverse slide block (235) and a synchronizing block (238), the synchronizing block (238) and the traverse slide block (235) are respectively fixed to the adsorption unit (22), the traverse slide block (235) moves along the traverse guide rail (234), and the synchronizing block (238) moves synchronously with the traverse belt (233).

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