CN108971928B - Press riveting and mounting type reflecting paper integrated machine - Google Patents

Abstract

The invention relates to the technical field of LED (light emitting diode) and other assembly, in particular to a press riveting and mounting light reflecting paper integrated machine, which comprises a press riveting mechanism, a light reflecting paper sucking mechanism, a light reflecting paper mounting mechanism and a conveying mechanism, wherein the press riveting mechanism is used for pressing and riveting an external heat radiating aluminum strip, the light reflecting paper sucking mechanism is used for sucking external light reflecting paper and is placed on the heat radiating aluminum strip of which the press riveting mechanism is used for pressing and riveting the heat radiating aluminum strip, the light reflecting paper mounting mechanism is used for pressing and mounting the light reflecting paper so that the light reflecting paper is riveted on the heat radiating aluminum strip, and the conveying mechanism is used for conveying the light reflecting aluminum strip among the press riveting mechanism, the light reflecting paper sucking mechanism and the light reflecting paper mounting mechanism. The press-riveting and installing integrated machine for the reflective paper can improve the production efficiency of installing the reflective paper on the heat-dissipation aluminum strip, reduce the labor intensity, improve the product quality and strengthen the structural strength of installing the reflective paper on the heat-dissipation aluminum strip.

Description

Press riveting and mounting type reflecting paper integrated machine

Technical Field

The invention relates to the technical field of LED (light emitting diode) and other assembly, in particular to a press-riveting reflective paper integrated machine.

Background

The existing method for feeding the reflective paper in the LED lamp assembly production process is simple, generally, a piece of Zhang Fanguang paper is manually placed on a heat-dissipating aluminum strip provided with an LED lamp strip, on one hand, the reflective paper is thinner and inconvenient to manually take, and the production mode of manually installing the reflective paper is time-consuming and labor-consuming, low in production efficiency and high in labor intensity; on the other hand, because the force applied to the reflective paper is uneven when the reflective paper is manually installed, the structural strength of the reflective paper on the heat-dissipating aluminum strip cannot be ensured.

Disclosure of Invention

The invention aims to solve the technical problem of providing a press-riveting and mounting reflecting paper integrated machine, which can improve the production efficiency of mounting reflecting paper on a heat-dissipation aluminum strip, reduce the labor intensity, improve the product quality and strengthen the structural strength of mounting the reflecting paper on the heat-dissipation aluminum strip.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a press riveting dress reflection of light paper all-in-one, includes the board, be provided with on the board be used for pressing the riveting mechanism of riveting the heat dissipation aluminium strip of external world, be used for sucking external reflection of light paper place to accomplish the heat dissipation aluminium strip of riveting the riveting point down on absorb reflection of light paper mechanism, be used for pressing the heat dissipation aluminium strip of placing reflection of light paper so that reflection of light paper rivet dress reflection of light paper mechanism on the heat dissipation aluminium strip and be used for pressing riveting mechanism, absorb reflection of light paper mechanism and dress reflection of light paper mechanism between carry the conveying mechanism of heat dissipation aluminium strip.

Further, the riveting mechanism comprises a square bracket, a riveting seat, a plurality of riveting assemblies and a first driving piece, wherein the riveting seat is positioned below the square bracket and used for bearing external heat-dissipating aluminum strips, the riveting assemblies are arranged on the square bracket in a sliding mode, the first driving piece is used for driving the riveting assemblies to move up and down, and the riveting assemblies comprise riveting blocks, fixing blocks which are arranged on the riveting blocks in a sliding mode and used for fixing the heat-dissipating aluminum strips borne on the riveting seat, and riveting needles which are arranged on the riveting blocks and used for riveting points of the heat-dissipating aluminum strips borne on the riveting seat.

Further, absorb reflection of light paper mechanism including absorb the support, slide the setting and absorb the seat on absorbing the support, be used for driving and absorb the second driving piece that the seat removed, slide and set up and absorb the subassembly and be used for driving and absorb the subassembly and reciprocate the third driving piece that the subassembly removed, absorb the subassembly including be used for with reflection of light paper unsmooth adaptation absorb mould and first adsorption equipment, first adsorption equipment is including locating and inhale a plurality of first suction nozzles that absorb the mould, first suction nozzle is used for absorbing or releasing reflection of light paper.

Further, the suction assembly further comprises a vibrator for vibrating the suction die.

Further, the board is located one side of the absorption support and is further provided with a reflective paper placing mechanism for bearing external reflective paper, the reflective paper placing mechanism comprises a paper placing support, a paper placing seat arranged on the paper placing support in a sliding mode and a fourth driving piece for driving the paper placing seat to move to or below the absorption assembly, and the paper placing seat is used for containing the external reflective paper.

Further, the light reflection paper loading mechanism comprises a loading support, a loading assembly arranged on the loading support in a sliding manner and a fifth driving piece for driving the loading assembly to move up and down, a loading seat for bearing a heat dissipation aluminum strip and a sixth driving piece for driving the loading seat to move are arranged below the loading support in a sliding manner, and the loading assembly is used for sucking and releasing the heat dissipation aluminum strip and is used for pressing the heat dissipation aluminum strip which is placed on the loading seat and bears light reflection paper.

Further, the charging assembly comprises a charging block and a second adsorption device, a charging die which is matched with the heat dissipation aluminum strips in a concave-convex mode is arranged on the charging block, a plurality of charging needles are arranged on the charging die and used for riveting the reflective paper to the riveting points of the heat dissipation aluminum plates, and the second adsorption device comprises a plurality of second suction nozzles arranged on the charging die and used for sucking or releasing the heat dissipation aluminum strips.

Further, the machine is provided with a sliding rail below the loading support, the sliding rail extends to the reflecting paper sucking mechanism, and the loading seat is connected to the sliding rail in a sliding manner.

Further, the board is located the both sides of conveying mechanism and is equipped with respectively and is used for bearing the material loading seat and the unloading seat of heat dissipation aluminium strip, conveying mechanism is including sliding the equidistance conveying component that sets up in the board and being used for driving the seventh driving piece that equidistant conveying component removed, equidistant conveying component is used for carrying the heat dissipation aluminium strip that bears on the material loading seat to the unloading seat through pressing riveting mechanism, absorbing reflection of light paper mechanism, dress reflection of light paper mechanism.

Further, equidistant conveying assembly includes the carriage, slides and set up the transport seat on the carriage and be used for driving the eighth driving piece that the transport seat reciprocated, be equipped with a plurality of conveyer grooves that are used for holding heat dissipation aluminium strip on the transport seat, eighth driving piece is used for driving the transport seat and upwards moves so that the transport seat protrusion in the up end of material loading seat and the up end of unloading seat or be used for driving the transport seat and downwards move so that the transport seat is less than the lower terminal surface of material loading seat and the lower terminal surface of unloading seat.

The invention has the beneficial effects that: during operation, the conveying mechanism conveys the external heat-dissipating aluminum strip to the riveting mechanism, the riveting mechanism presses the riveting point on the heat-dissipating aluminum strip, then the conveying mechanism conveys the heat-dissipating aluminum strip with the riveting point downwards to the reflecting paper sucking mechanism, the reflecting paper sucking mechanism places the external reflecting paper on the heat-dissipating aluminum strip, then the conveying mechanism conveys the heat-dissipating aluminum strip bearing the reflecting paper to the reflecting paper accommodating mechanism, and the reflecting paper accommodating mechanism downwards presses the heat-dissipating aluminum strip with the reflecting paper placed on the heat-dissipating aluminum strip so that the reflecting paper is riveted on the heat-dissipating aluminum strip. The press-riveting and installing integrated machine for the reflective paper can improve the production efficiency of installing the reflective paper on the heat-dissipation aluminum strip, reduce the labor intensity, improve the product quality and strengthen the structural strength of installing the reflective paper on the heat-dissipation aluminum strip.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic structural view of the press riveting mechanism of the present invention;

FIG. 3 is a schematic view of a press-riveting assembly according to the present invention;

FIG. 4 is a schematic diagram of a mechanism for placing reflective paper according to the present invention;

FIG. 5 is a schematic view of a mechanism for sucking reflective paper according to the present invention;

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

FIG. 7 is a schematic view of a light reflecting paper loading mechanism according to the present invention;

FIG. 8 is a schematic structural view of the charging assembly of the present invention;

FIG. 9 is an enlarged view of FIG. 8 at A;

FIG. 10 is a schematic diagram showing the connection between a conveying mechanism and a machine of the present invention;

fig. 11 is a schematic structural view of the conveying mechanism of the present invention.

Reference numerals illustrate: 100. a machine table; 110. a feeding seat; 120. a blanking seat; 130. a transition seat; 200. a conveying mechanism; 210. equidistant conveying components; 220. a seventh driving member; 221. a carriage; 222. a conveying seat; 223. an eighth driving member; 224. a conveying trough; 300. a press riveting mechanism; 310. a square bracket; 320. pressing a riveting seat; 330. a press riveting assembly; 331. pressing a riveting block; 332. a fixed block; 333. pressing a riveting needle; 340. a first driving member; 400. a reflective paper sucking mechanism; 410. sucking a bracket; 420. a suction seat; 430. a second driving member; 440. a suction assembly; 441. sucking a die; 442. a first suction nozzle; 450. a third driving member; 460. a vibrator; 500. a reflective paper loading mechanism; 510. a loading bracket; 520. a charging assembly; 521. a charging mould; 522. a charging needle; 523. a second suction nozzle; 530. a fifth driving member; 540. a slide rail; 550. a charging seat; 551. a positioning block; 560. a sixth driving member; 600. a reflective paper placing mechanism; 610. a paper placing bracket; 620. a paper placing seat; 630. and a fourth driving member.

Detailed Description

The invention will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the invention.

As shown in fig. 1, the press-riveting reflective paper integrated machine provided by the invention comprises a machine table 100, wherein the machine table 100 is provided with: the riveting device comprises a riveting mechanism 300 for pressing riveting points on an external heat-dissipating aluminum strip, a light-reflecting paper sucking mechanism 400 for sucking external light-reflecting paper and placing the external light-reflecting paper on the heat-dissipating aluminum strip of which the riveting point is pressed by the riveting mechanism 300, a light-reflecting paper accommodating mechanism 500 for pressing the heat-dissipating aluminum strip with the light-reflecting paper placed thereon so as to rivet the light-reflecting paper on the heat-dissipating aluminum strip, and a conveying mechanism 200 for conveying the heat-dissipating aluminum strip among the riveting mechanism 300, the light-reflecting paper sucking mechanism 400 and the light-reflecting paper accommodating mechanism 500. During operation, the conveying mechanism 200 conveys the external heat dissipation aluminum strips to the riveting mechanism 300, the riveting mechanism 300 presses down the riveting points on the heat dissipation aluminum strips, then the conveying mechanism 200 conveys the heat dissipation aluminum strips pressed down with the riveting points to the reflective paper absorbing mechanism 400, the reflective paper absorbing mechanism 400 places the external reflective paper on the heat dissipation aluminum strips, then the conveying mechanism 200 conveys the heat dissipation aluminum strips bearing the reflective paper to the reflective paper accommodating mechanism 500, and the reflective paper accommodating mechanism 500 presses down the heat dissipation aluminum strips placed with the reflective paper so as to rivet the reflective paper on the heat dissipation aluminum strips. The press-riveting and installing integrated machine for the reflective paper can improve the production efficiency of installing the reflective paper on the heat-dissipation aluminum strip, reduce the labor intensity, improve the product quality and strengthen the structural strength of installing the reflective paper on the heat-dissipation aluminum strip.

As shown in fig. 2, 3 and 10, the press riveting mechanism 300 includes a square bracket 310, a press riveting seat 320 located below the square bracket 310 and used for carrying external heat dissipation aluminum strips, five press riveting assemblies 330 slidably disposed on the square bracket 310, and a first driving member 340 for driving the press riveting assemblies 330 to move up and down, where the first driving member 340 is a force doubling cylinder. The press riveting assembly 330 comprises a press riveting block 331, a fixing block 332 which is slidably arranged on the press riveting block 331 and is used for fixing the heat dissipation aluminum strips loaded on the press riveting seat 320, and a press riveting needle 333 which is arranged on the press riveting block 331 and is used for riveting points on the heat dissipation aluminum strips loaded on the press riveting seat 320. The press riveting seat 320 is provided with a carrier which is matched with the concave-convex shape of the heat dissipation aluminum strip, and the carrier can avoid the heat dissipation aluminum strip from shifting when riveting points are formed. The position and the angle of the riveting needle 333 can be adjusted according to different types of heat dissipation aluminum strips for the riveting needle 333. In particular, during operation, the conveying mechanism 200 conveys the external heat-dissipating aluminum strip to the press-riveting seat 320, the first driving member 340 drives the press-riveting assembly 330 to descend, the fixing block 332 abuts against the heat-dissipating aluminum strip carried on the press-riveting seat 320, the press-riveting needle 333 presses down the riveting point of the heat-dissipating aluminum strip, and meanwhile, the fixing block 332 moves upwards under the action of the reaction force of the heat-dissipating aluminum strip, so as to avoid the fixing block 322 from crushing the heat-dissipating aluminum strip. The fixed block 332 is provided with the latch for clamping the heat dissipation aluminum strip, so that the heat dissipation aluminum strip can be prevented from shifting when riveting points, and the riveting point accuracy is improved.

As shown in fig. 1 and 4, in order to facilitate the suction of the reflective paper mechanism 400, a reflective paper placing mechanism 600 for carrying the external reflective paper is disposed on the machine 100 and on one side of the suction reflective paper mechanism 400, and the reflective paper placing mechanism 600 includes a paper placing support 610, a paper placing seat 620 slidably disposed on the paper placing support 610, and a fourth driving member 630 for driving the paper placing seat 620 to move below the suction assembly 440 or move out below the suction assembly 440, where the fourth driving member 630 is an air cylinder, and the paper placing seat 620 is used for accommodating the external reflective paper. In order to increase the paper discharging speed, two groups of paper discharging seats 620 and fourth driving members 630 are provided, which are respectively located at the upper part and the lower part of the paper discharging support 610, each paper discharging seat 620 accommodates a plurality of pieces of reflective paper, the fourth driving member 630 at the upper part of the paper discharging support 610 drives the paper discharging seat 620 at the upper part of the paper discharging support 610 to approach to the reflective paper sucking mechanism 400, after the reflective paper in the paper discharging seat 620 at the upper part of the paper discharging support 610 is sucked, the fourth driving member 630 at the upper part of the paper discharging support 610 drives the paper discharging seat 620 at the upper part of the paper discharging support 610 to be far away from the reflective paper sucking mechanism 400, and meanwhile, the fourth driving member 630 at the lower part of the paper discharging support 610 drives the paper discharging seat 620 at the lower part of the paper discharging support 610 to approach to the reflective paper sucking mechanism 400, and the paper discharging seats 620 at the lower part of the upper part of the paper discharging support 610 alternately run, so that the paper discharging speed is increased.

As shown in fig. 5 and 6, the reflecting paper sucking mechanism 400 includes a sucking bracket 410, a sucking seat 420 slidably disposed on the sucking bracket 410, a second driving part 430 for driving the sucking seat 420 to move, a sucking assembly 440 slidably disposed on the sucking seat 420, and a third driving part 450 for driving the sucking assembly 440 to move up and down, the sucking assembly 440 includes a sucking die 441 for being adapted to the concave-convex of the reflecting paper and a first sucking device including a plurality of first suction nozzles 442 provided on the sucking die 441, the first suction nozzles 442 for sucking or releasing the reflecting paper. One side of the suction holder 410 is located above the paper discharge holder 610. In particular, during operation, the second driving member 430 drives the suction unit 420 to move above the paper placing frame 610, the third driving member 450 drives the suction unit 440 to move downward to be close to the paper placing frame 620, the suction die 441 abuts against the reflective paper placed on the paper placing frame 620, the first suction nozzle 442 sucks the reflective paper, the third driving member 450 drives the suction unit 440 to move upward to be away from the paper placing frame 620, and then the third driving member 450 and the fourth driving member 630 coordinate to move to place the reflective paper on the heat dissipating aluminum strip with riveted points.

Preferably, in order to avoid stacking when the first suction nozzle 442 sucks the reflective paper, the suction assembly 440 further includes a vibrator 460 for vibrating the suction mold 441, and the vibrator 460 is mounted on the suction mold 441, wherein the vibrator 460 may be a vibration motor.

The light-reflecting paper loading mechanism 500 is positioned between the squeeze riveter 300 and the light-reflecting paper sucking mechanism 400, the light-reflecting paper placing mechanism 600 is positioned on one side of the light-reflecting paper sucking mechanism 400 away from the squeeze riveter 300, and the heat dissipation aluminum strips and the light-reflecting paper are fed from two directions, so that the space of the machine 100 can be reasonably utilized, and the occupied space of the squeeze riveter light-reflecting paper loading integrated machine is reduced.

As shown in fig. 7 to 9, the light reflecting paper loading mechanism 500 comprises a loading bracket 510, a loading assembly 520 slidably arranged on the loading bracket 510, and a fifth driving member 530 for driving the loading assembly 520 to move up and down, wherein the loading assembly 520 comprises a loading block and a second adsorption device, a loading die 521 which is matched with the concave-convex shape of the heat dissipating aluminum strip is arranged on the loading block, a plurality of loading needles 522 are arranged on the loading die 521, the plurality of loading needles 522 are used for riveting the light reflecting paper into the riveting points of the heat dissipating aluminum strip, the second adsorption device comprises a plurality of second suction nozzles 523 arranged on the loading die 521, and the second suction nozzles 523 are used for sucking or releasing the heat dissipating aluminum strip. The machine 100 and be located the below of charging stand 510 and be equipped with slide rail 540, slide rail 540 extends to and absorbs reflection of light paper mechanism 400, and slide on the slide rail 540 is provided with the charging seat 550 that is used for bearing the heat dissipation aluminium strip, is equipped with the sixth driving piece 560 that is used for driving charging seat 550 removal on the machine 100, is equipped with the locating piece 551 that is used for holding fixed heat dissipation aluminium strip on the charging seat 550, and the heat dissipation aluminium strip is placed more stably on the locating piece 551, is favorable to improving the precision of dress paper.

In specific operation, the charging seat 550 is located below the suction bracket 410, the conveying mechanism 200 conveys the riveted aluminum strip to the position right below the charging bracket 510, the fifth driving member 530 drives the charging assembly 520 to move downward, and the second suction nozzle 523 sucks the aluminum strip; the fifth driver 530 drives the loading assembly 520 to move upward, and the sixth driver 560 drives the loading seat 550 to move directly under the loading stand 510; the fifth driving part 530 drives the loading assembly 520 to move downwards, the second suction nozzle 523 releases the heat dissipation aluminum strip onto the loading seat 550, the sixth driving part 560 drives the loading seat 550 carrying the heat dissipation aluminum strip to move below the suction bracket 410, and the suction reflective paper mechanism 400 places the reflective paper on the reflective paper placing mechanism 600 onto the heat dissipation aluminum strip on the loading seat 550; the sixth driving member 560 drives the loading seat 550 with finished paper placement to move to the right below the loading bracket 510, the fifth driving member 530 drives the loading assembly 520 to move downwards, and the loading needle 522 rivets the reflective paper into the riveting point of the heat dissipation aluminum strip; the second suction nozzle 523 sucks the heat-dissipating aluminum strip filled with the reflective paper, the fifth driving member 530 drives the loading assembly 520 to move upward, the sixth driving member 560 drives the loading seat 550 not carrying the heat-dissipating aluminum strip to move below the suction bracket 410, the fifth driving member 530 drives the loading assembly 520 to move downward, and the second suction nozzle 523 releases the heat-dissipating aluminum strip filled with the reflective paper onto the conveying mechanism 200.

As shown in fig. 10 and 11, a feeding seat 110 for carrying heat dissipation aluminum strips is disposed on a side of the machine 100, away from the light reflection paper loading mechanism 500, of the squeeze riveting mechanism 300, a discharging seat 120 for carrying heat dissipation aluminum strips is disposed on a side of the machine 100, away from the light reflection paper sucking mechanism 400, of the light reflection paper discharging mechanism 600, the feeding seat 110, the squeeze riveting seat 320 and the discharging seat 120 are at the same height, the conveying mechanism 200 comprises an equidistant conveying assembly 210 and a seventh driving member 220 for driving the equidistant conveying assembly 210 to move, the equidistant conveying assembly 210 is used for conveying the heat dissipation aluminum strips carried on the feeding seat 110 to the discharging seat 120 through the squeeze riveting mechanism 300, the light reflection paper sucking mechanism 400 and the light reflection paper loading mechanism 500. The equidistant conveying assembly 210 comprises a conveying frame 221, a conveying seat 222 arranged on the conveying frame 221 in a sliding manner, and an eighth driving piece 223 for driving the conveying seat 222 to move up and down, wherein a plurality of conveying grooves 224 for accommodating heat radiation aluminum strips are formed in the conveying seat 222, the eighth driving piece 223 is used for driving the conveying seat 222 to move up so that the conveying seat 222 protrudes out of the upper end face of the feeding seat 110 and the upper end face of the blanking seat 120 or is used for driving the conveying seat 222 to move down so that the conveying seat 222 is lower than the lower end face of the feeding seat 110 and the lower end face of the blanking seat 120, and the equidistant conveying assembly 210 is used for conveying the heat radiation aluminum strips loaded on the feeding seat 110 to the blanking seat 120 through the squeeze riveting mechanism 300, the light reflection paper sucking mechanism 400 and the light reflection paper loading mechanism 500. Specifically, the seventh driving member 220 drives the equidistant conveying assembly 210 to approach the feeding seat 110, the eighth driving member 223 drives the conveying seat 222 to move upwards, the conveying groove 224 jacks up the heat-dissipating aluminum strip on the feeding seat 110, the seventh driving member 220 drives the equidistant conveying assembly 210 to approach the discharging seat 120, the eighth driving member 223 drives the conveying seat 222 to move downwards, the machine 100 is further provided with a plurality of excessive seats 130 for bearing the heat-dissipating aluminum strip, the excessive seats 130 jack up the heat-dissipating aluminum strip on the conveying groove 224, and the heat-dissipating aluminum strip sequentially moves between the conveying groove 224 and the excessive seats 130 until reaching the discharging seat 120.

All technical features in the embodiment can be freely combined according to actual needs.

The foregoing embodiments are preferred embodiments of the present invention, and in addition, the present invention may be implemented in other ways, and any obvious substitution is within the scope of the present invention without departing from the concept of the present invention.

Claims (10)

1. The utility model provides a press riveting dress reflection of light paper all-in-one, includes board, its characterized in that: the machine is provided with a riveting mechanism for pressing riveting points on an external heat-dissipating aluminum strip, a light-reflecting paper sucking mechanism for sucking external light-reflecting paper and placing the external light-reflecting paper on the heat-dissipating aluminum strip with the riveting points, a light-reflecting paper loading mechanism for pressing the heat-dissipating aluminum strip with the light-reflecting paper placed thereon so that the light-reflecting paper is riveted on the heat-dissipating aluminum strip, and a conveying mechanism for conveying the heat-dissipating aluminum strip among the riveting mechanism, the light-reflecting paper sucking mechanism and the light-reflecting paper loading mechanism.

2. The press-riveting reflective paper integrated machine according to claim 1, wherein: the riveting mechanism comprises a square bracket, a riveting seat, a plurality of riveting assemblies and a first driving piece, wherein the riveting seat is positioned below the square bracket and used for bearing external heat-dissipating aluminum strips, the riveting assemblies are arranged on the square bracket in a sliding mode, the first driving piece is used for driving the riveting assemblies to move up and down, and the riveting assemblies comprise riveting blocks, fixing blocks which are arranged on the riveting blocks in a sliding mode and used for fixing the heat-dissipating aluminum strips borne on the riveting seat, and riveting needles which are arranged on the riveting blocks and used for riveting points of the heat-dissipating aluminum strips borne on the riveting seat.

3. The press-riveting reflective paper integrated machine according to claim 1, wherein: the light reflecting paper sucking mechanism comprises a sucking bracket, a sucking seat arranged on the sucking bracket in a sliding manner, a second driving part for driving the sucking seat to move, a sucking component arranged on the sucking seat in a sliding manner and a third driving part for driving the sucking component to move up and down, wherein the sucking component comprises a sucking die and a first adsorption device which are matched with the light reflecting paper in a concave-convex manner, the first adsorption device comprises a plurality of first suction nozzles arranged on the sucking die, and the first suction nozzles are used for sucking or releasing the light reflecting paper.

4. The press-riveting reflective paper integrated machine according to claim 3, wherein: the suction assembly further comprises a vibrator for vibrating the suction die.

5. The press-riveting reflective paper integrated machine according to claim 3, wherein: the machine is characterized in that a light reflecting paper placing mechanism used for bearing external light reflecting paper is further arranged on one side of the suction support, the light reflecting paper placing mechanism comprises a paper placing support, a paper placing seat arranged on the paper placing support in a sliding mode and a fourth driving piece used for driving the paper placing seat to move to or from the lower portion of the suction assembly, and the paper placing seat is used for containing the external light reflecting paper.

6. The press-riveting reflective paper integrated machine according to claim 1, wherein: the light-reflecting paper loading mechanism comprises a loading support, a loading assembly arranged on the loading support in a sliding manner and a fifth driving piece for driving the loading assembly to move up and down, a loading seat for bearing a heat-dissipating aluminum strip and a sixth driving piece for driving the loading seat to move are arranged below the loading support in a sliding manner, and the loading assembly is used for sucking and releasing the heat-dissipating aluminum strip and is used for pressing the heat-dissipating aluminum strip which is placed on the loading seat and bears light-reflecting paper.

7. The press-riveting reflective paper integrated machine according to claim 6, wherein: the feeding assembly comprises a feeding block and a second adsorption device, a feeding die which is matched with the heat dissipation aluminum strips in a concave-convex mode is arranged on the feeding block, a plurality of feeding needles are arranged on the feeding die and used for riveting reflective paper to riveting points of the heat dissipation aluminum plates, and the second adsorption device comprises a plurality of second suction nozzles arranged on the feeding die and used for sucking or releasing the heat dissipation aluminum strips.

8. The press-riveting reflective paper integrated machine according to claim 6, wherein: the machine is provided with a sliding rail below the loading support, the sliding rail extends to the reflecting paper sucking mechanism, and the loading seat is connected to the sliding rail in a sliding manner.

9. The press-riveting reflective paper integrated machine according to claim 1, wherein: the machine is located the both sides of conveying mechanism and is equipped with respectively and is used for bearing the material loading seat and the unloading seat of heat dissipation aluminium strip, conveying mechanism is including sliding the equidistance conveying component that sets up in the machine and being used for driving the seventh driving piece that equidistant conveying component removed, equidistant conveying component is used for carrying the heat dissipation aluminium strip that bears on the material loading seat to the unloading seat through pressing riveting mechanism, absorption reflection of light paper mechanism, dress reflection of light paper mechanism.

10. The press-riveting reflective paper integrated machine according to claim 9, wherein: the equidistant conveying assembly comprises a conveying frame, a conveying seat arranged on the conveying frame in a sliding mode and an eighth driving piece used for driving the conveying seat to move up and down, a plurality of conveying grooves used for containing heat dissipation aluminum strips are formed in the conveying seat, the eighth driving piece is used for driving the conveying seat to move up so that the conveying seat protrudes out of the upper end face of the feeding seat and the upper end face of the discharging seat or is used for driving the conveying seat to move down so that the conveying seat is lower than the lower end face of the feeding seat and the lower end face of the discharging seat.