CN111099347A - LED automatic production system - Google Patents

Abstract

The invention relates to the technical field of LEDs (light emitting diodes), and relates to an automatic LED production system which comprises a base, wherein a turntable is rotatably arranged on the base, more than 1 reflection cover positioning block mounting groove is formed in the turntable, a reflection cover positioning block is arranged in the reflection cover positioning block mounting groove, a reflection cover mounting groove is formed in the top surface of the reflection cover positioning block, and a heating column for fusing and pressing a positioning column in a reflection cover is arranged in the reflection cover mounting groove; install the press mold adjustment mechanism on the base of carousel one side, install the press mold cylinder on the press mold adjustment mechanism, the press mold cylinder links to each other with the press mold piece that sets up in reflection lid mounting groove top. The invention carries out melt-pressing solidification on the positioning column while pressing the membrane, thereby not only improving the working efficiency, but also improving the product quality.

Description

LED automatic production system

Technical Field

The invention relates to the technical field of LEDs, in particular to an automatic LED production system.

Background

The LED nixie tube is formed by packaging a plurality of light-emitting diodes together into an 8-shaped device, the lead wires are connected inside, and only the strokes and the common electrodes of the LED nixie tube need to be LED out.

The LED nixie tube comprises a reflection cover, and a positioning column for positioning the circuit board is installed in the reflection cover. When the circuit board is installed, firstly, injecting epoxy resin into the reflecting cover; then, the circuit board penetrates through the positioning column and is placed in epoxy resin, and the circuit board is fixed through the epoxy resin; after the epoxy resin is cured, the positioning column positioned outside the epoxy resin layer is fused and cured, so that the mounting stability of the circuit board is improved, and the subsequent reflection cover is convenient to mount.

The LED nixie tube also comprises a display film adhered on the reflecting cover. In the transportation process of the display film, in order to avoid cutting the display film by external force in the transportation process, the display film is generally adhered to release paper for transportation, and when the display film needs to be adhered to the reflection cover, the display film needs to be firstly pulled off from the release paper, and then the pulled off display film is adhered to the reflection cover.

The existing LED nixie tube is processed and produced, and whether the positioning column is fused, pressed and solidified or the display film is pasted to the reflecting cover, the existing LED nixie tube is separately processed, so that the production efficiency is directly influenced. Meanwhile, the existing positioning column is fused, pressed and solidified by an artificial electric heating pen, the display film is pasted and belongs to artificial film pasting, and the product quality is directly influenced by manual operation.

Disclosure of Invention

The invention aims to provide an automatic LED production system, which can melt, press and solidify a positioning column while pressing a film, thereby improving the working efficiency and the product quality.

The technical purpose of the invention is realized by the following technical scheme: an LED automatic production system comprises a base, wherein a turntable is rotatably mounted on the base, more than 1 reflection cover positioning block mounting groove is formed in the turntable, a reflection cover positioning block is mounted in the reflection cover positioning block mounting groove, a reflection cover mounting groove is formed in the top surface of the reflection cover positioning block, and a heating column for fusing and pressing a positioning column in a reflection cover is mounted in the reflection cover mounting groove; install the press mold adjustment mechanism on the base of carousel one side, install the press mold cylinder on the press mold adjustment mechanism, the press mold cylinder links to each other with the press mold piece that sets up in reflection lid mounting groove top.

By adopting the technical scheme, the heating column is arranged in the mounting groove of the reflecting cover, after the reflecting cover is placed in the mounting groove of the reflecting cover, the display film to be adhered is placed on the reflecting cover, the film pressing cylinder pushes the film pressing block to press the film on the reflecting cover, and the heating column generates upward extrusion force on the positioning column when the reflecting cover is pressed by downward acting force, so that the positioning column is fused, pressed and solidified; thereby carry out the fuse pressing solidification to the reference column when realizing the press mold, and mechanized operation not only improves work efficiency, improves product quality moreover.

The invention is further provided with: install the regulating block more than 2 in the reflection lid mounting groove, and be close to the regulating block top surface of press mold piece one side and install and have the clearance between the reflection lid in the reflection lid mounting groove.

By adopting the technical scheme, when the film pressing block does not extrude the reflecting cover, a gap exists between the reflecting cover and the adjusting block, and the heating column is abutted against the positioning column; when the film pressing block extrudes the reflecting cover, the heating column generates melt-pressing solidification on the positioning column, so that the positioning column positioned outside the epoxy resin is shortened due to the heating melt, and the film pressing and the positioning column melt-pressing solidification are completed after the reflecting cover is abutted against the adjusting block for tight contact.

The invention is further provided with: first coupling groove has been seted up on the top surface that the regulating block is close to film pressing piece one side, the regulating block has been kept away from and has been seted up second coupling groove on the bottom surface of film pressing piece one side, adjacent two the regulating block passes through the connecting strip and links to each other, the one end screens of connecting strip is installed in first coupling groove, the other end screens of connecting strip is installed in second coupling groove.

By adopting the technical scheme, because the positioning columns positioned outside the epoxy resin are different in length, the heights of the adjusting blocks need to be adjusted, the adjusting blocks are connected with the two adjacent adjusting blocks through the connecting strips when the heights of the adjusting blocks are adjusted, the heights of the adjusting blocks are determined according to the heights of the positioning columns after fusion pressing solidification, if the heights of the positioning columns after fusion pressing solidification are shorter, the heights of the adjusting blocks are longer, and if the heights of the positioning columns after fusion pressing solidification are longer, the heights of the adjusting blocks are shorter; but the height of the regulating blocks cannot be higher than the length of the heating column.

The invention is further provided with: press mold adjustment mechanism is including installing the slide rail on the base, slidable mounting has the slide on the slide rail, slidable mounting has press mold bracing piece subassembly on the slide, press mold bracing piece subassembly includes first press mold bracing piece and second press mold bracing piece, first press mold bracing piece one end slides with the slide and links to each other, second press mold bracing piece has been cup jointed to first press mold bracing piece other end external sliding, install the press mold cylinder on the second press mold bracing piece, the press mold cylinder passes behind the second press mold bracing piece and links to each other with the press mold piece.

By adopting the technical scheme, the sliding seat can flexibly slide on the sliding rail, the length direction of the sliding seat can be adjusted, the first film pressing supporting rod is in sliding connection with the second film pressing supporting rod, and the width direction of the second film pressing supporting rod can be adjusted; therefore, the position is adjusted according to the reflecting cover positioning block arranged on the turntable, so that the film pressing block is positioned above the reflecting cover positioning block. After the display film is placed on the reflection cover, the reflection cover on which the display film is placed is rotated to the lower part of the film pressing block, and the cylinder pushes the film pressing block to move downwards, so that the display film is adhered to the reflection cover.

The invention is further provided with: install on the base and show that the membrane dials from conveying mechanism, it dials from conveying mechanism including installing the conveyer belt support on the base to show the membrane, rotate on the conveyer belt support and install the action wheel and follow the driving wheel, the action wheel with from installing the conveyer belt on the driving wheel, spacing lug is installed at the interval on the conveyer belt.

Through adopting above-mentioned technical scheme, the conveyer belt realizes carrying the type paper that is adhered to and shows the membrane, owing to keep apart between display film and the conveyer belt and have type paper, consequently can reduce the friction damage of conveyer belt to showing the membrane. The arrangement of the limiting lug can position the release paper adhered with the display film, so that the cross superposition between the release paper and the release paper is avoided, and the separation rate of the display film and the release paper can be improved.

The invention is further provided with: install the separation receiving platform who deposits the display film on the base of conveyer belt support one side, separation receiving platform installs the separation piece that is used for separating from type paper and display film near on the lateral wall of conveyer belt support one side, there is the clearance between separation angle and the conveyer belt of separation piece, the clearance is greater than the thickness from type paper, and the clearance is less than the length from type paper.

Through adopting above-mentioned technical scheme, the setting of separation piece can realize showing the separation between membrane and the type paper. Because the clearance between separation angle and the conveyer belt is greater than the thickness of type paper, and the clearance is less than the length of type paper, consequently can improve the separation rate between demonstration membrane and the type paper, reduce to adhere to the direct clearance that falls from between separation angle and the conveyer belt of type paper that shows the membrane.

The invention is further provided with: and a second vacuum chuck mechanical arm is arranged between the separation receiving platform and the turntable.

Through adopting above-mentioned technical scheme, second vacuum chuck robotic arm's setting can with from the display film transport after the type paper separation to the reflection lid on, not only transport efficiency is high, can reduce the friction damage to the display film moreover.

The invention is further provided with: the separation angle is in the same horizontal plane as the upper surface of the load side of the conveyor belt.

Through adopting above-mentioned technical scheme, on separation angle and the conveyer belt upper surface that transports and have the display membrane to leave type paper on same horizontal plane, the separation angle can directly aim at the display membrane and paste the department from type paper to can improve the separation rate that shows the membrane and leave between the type paper.

The invention is further provided with: the base is provided with a release paper conveying support, the release paper conveying support is provided with a lead screw mounting support, a lead screw is rotatably mounted on the lead screw mounting support, and a nut of the lead screw is connected with a release paper supporting table; install on the base between type paper brace table and the conveyer belt and be used for adsorbing from the first vacuum chuck robotic arm of type paper.

By adopting the technical scheme, the lead screw can drive the release paper supporting table to move up and down along the length direction of the lead screw, and after the first vacuum chuck mechanical arm conveys the release paper from the release paper supporting table to the conveying belt, the thickness of the release paper stored on the release paper supporting table is reduced; after the thickness of the release paper on the release paper supporting table is reduced, the lead screw drives the release paper supporting table to ascend, so that the uppermost release paper stored on the release paper supporting table is on the same horizontal plane with the upper surface of the conveying belt, and the first vacuum chuck mechanical arm is convenient to adsorb and carry.

The invention is further provided with: install anti-sticking mechanism on the base between conveyer belt support and the conveyer belt, anti-sticking mechanism is including installing first cylinder and the second cylinder on the base, first cylinder and second cylinder are located the both sides of conveyer belt, and all install antiseized ejector pad on shown first cylinder and the second cylinder.

Through adopting above-mentioned technical scheme, because the separation angle can only separate one and show the membrane and leave type paper when showing the membrane with leaving type paper in the separation, nevertheless can adhere together from type paper and from between the type paper, if many are from type paper adhesion together, then can reduce the separation rate from type paper and demonstration membrane. When first vacuum chuck robotic arm from adsorbing from type paper transportation support live from type paper and transporting to between the conveyer belt, first vacuum chuck robotic arm stops aloft, then antiseized cylinder promotes antiseized ejector pad rebound, makes antiseized ejector pad upwards promote to strike from type paper, if many from type paper adhesion together, then not by first vacuum chuck robotic arm adsorbed from type paper then can drop to avoid transporting on the conveyer belt from type paper appear many adhesion together.

In conclusion, the beneficial technical effects of the invention are as follows:

(1) the positioning columns are fused, pressed and solidified while film pressing is achieved, and mechanical operation is achieved, so that not only is the working efficiency improved, but also the product quality is improved;

(2) the separation between the display film and the release paper can be realized by the arrangement of the separation block;

(3) the antiseized ejector pad avoids transporting the type paper on the conveyer belt and appears a plurality of adherences together.

Drawings

FIG. 1 is a schematic diagram of the mechanism of the present invention;

FIG. 2 is a schematic structural view of a reflective cover positioning mechanism;

FIG. 3 is a schematic view showing the structure of the film peeling and conveying mechanism and the anti-sticking mechanism;

fig. 4 is a schematic view of the installation of the release paper support table.

Reference numerals: 1. a base; 2. a turntable; 3. a positioning block of the reflection cover is provided with a groove; 4. a reflection cover positioning block; 5. the reflection cover is provided with a groove; 6. heating the column; 7. a film pressing cylinder; 8. pressing the membrane block; 9. an adjusting block; 10. a reflective cover; 11. a first connection groove; 12. a second connecting groove; 13. a connecting strip; 21. a slide rail; 22. a slide base; 23. a first film pressing support rod; 24. a second film pressing support rod; 31. a conveyor belt support; 32. a driving wheel; 33. a driven wheel; 34. a conveyor belt; 35. a limiting bump; 36. separating the receiving platform; 37. separating the blocks; 41. A release paper transport support; 42. a lead screw mounting bracket; 43. a lead screw; 44. a release paper support table; 45. a first vacuum chuck robot arm; 46. a first cylinder; 47. a second cylinder; 48. an anti-sticking push block; 49. a second vacuum chuck robot.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the automatic LED production system disclosed by the present invention includes a base 1, a turntable 2 is rotatably mounted on the base 1, a turntable motor is mounted on the bottom wall of the base 1, and a motor shaft of the turntable motor passes through the base 1 and then is connected to the turntable 2. The turntable 2 is provided with 4 reflection cover positioning block mounting grooves 3, and the 4 reflection cover positioning block mounting grooves 3 are arranged at equal intervals along the axis of the turntable 2. A reflection cover positioning block 4 is arranged in the reflection cover positioning block mounting groove 3. The top surface of each reflection cover positioning block 4 is provided with a reflection cover mounting groove 5.

Install many heating post 6 in the reflection cover mounting groove 5, install the power in the carousel 2, this embodiment power adopts the battery, and heating post 6 is connected with the power electricity, by the power for heating post 6 power supply generate heat. Still install multiunit regulating block group in the reflecting cover mounting groove 5, every group regulating block group is overlapped by a plurality of regulating blocks 6 and is constituteed, and regulating block 6 of every group regulating block group supports the recess lateral wall of reflecting cover mounting groove 5 tightly. First connecting groove 11 has been seted up on the top surface of every regulating block 6, second connecting groove 12 has been seted up on the bottom surface of every regulating block 6, and two adjacent regulating blocks 9 link to each other through connecting strip 13, and the one end screens of connecting strip 13 are installed in first connecting groove 11, and the other end screens of connecting strip 13 are installed in second connecting groove 12. The height formed by the adjusting blocks 9 of each group of adjusting block groups cannot be higher than the length of the heating column 6.

As shown in fig. 1 and 3, a conveyor belt bracket 31 is mounted on the base 1, a driving wheel 32 is mounted at one end of the conveyor belt bracket 31, a driving wheel motor is mounted on the conveyor belt bracket 31 near one end of the driving wheel 32, and the driving wheel motor passes through the conveyor belt bracket 31 and is connected with the driving wheel 32; the other end of the belt support 31 is provided with a driven pulley 33, and the driven pulley 33 and the driving pulley 32 are provided with a belt 34. The two sides of the conveyor belt 34 close to the conveyor belt bracket 31 are provided with limiting convex blocks 35, the limiting convex blocks 35 are arranged along the length direction of the conveyor belt 34, and gaps exist between every two adjacent limiting convex blocks 35.

A separation receiving platform 36 is arranged on the base 1 close to one end of the driven wheel 33, and the area of the upper surface of the separation receiving platform 36 is larger than that of the release paper. The side wall of the separation receiving platform 36 close to the side of the conveyor belt 34 is provided with a separation block 37, the separation block 37 in the embodiment is triangular, and the angle of the triangle far away from the separation receiving platform 36 is a separation angle. The separation angle is in the same horizontal plane as the upper surface of the conveyor belt 34. There is a clearance between the separation angle of the separation block 37 and the conveyor belt 34, the clearance is greater than the thickness of the release paper, and the clearance is less than the length of the release paper. A release paper storage groove is formed in the base 1 below the separation block 37.

As shown in fig. 1 and 4, a release paper transportation support 41 is mounted on the base 1 near one end of the driving wheel 32, and the release paper transportation support 41 adopted in this embodiment is L-shaped. Install lead screw installing support 42 on the horizontal bottom plate of L type from paper transport support 41, lead screw installing support 42 lateral wall links to each other with the vertical baffle of L type from paper transport support 41. The screw rod mounting bracket 42 is rotatably provided with a screw rod 43, the screw rod mounting bracket 42 is provided with a screw rod motor, and the screw rod motor passes through the screw rod mounting bracket 42 and then is connected with the screw rod 43. The nut of the lead screw 43 is connected to a release paper support table 44. The release paper support table 44 is arranged in parallel with the horizontal bottom plate of the L-shaped release paper transport bracket 41.

A first vacuum chuck mechanical arm 45 for adsorbing release paper is arranged on the base 1 between the release paper support table 44 and the conveyor belt 34. The first vacuum chuck robot 45 used in this embodiment is a vacuum chuck mounted on a robot arm, and a vacuum chuck robot manufactured by shanghai haner automated equipment limited may be used.

As shown in fig. 1, a second vacuum chuck robot 49 is installed between the reflective cover positioning block 4 and the separation receiving platform 36. The second vacuum chuck robot 49 and the first vacuum chuck robot 45 used in this embodiment are the same, and therefore are not described in detail.

And a film pressing mechanism is arranged on the base 1 at one side of the turntable 2, which is far away from the separation receiving platform 36. Film pressing mechanism is including setting up slide rail 21 on base 1, and slidable mounting has slide 22 on slide rail 21, and slidable mounting has first film pressing bracing piece 23 on slide 22, and first film pressing bracing piece 23 passes through slide locating pin and slide 22 sliding connection. Second press mold bracing piece 24 cup joints and is keeping away from the one end that first press mold bracing piece 23 and slide 22 link to each other, and second press mold bracing piece 24 slides with first press mold bracing piece 23 through the bracing piece locating pin and links to each other. One of the ends that links to each other with first press mold bracing piece 23 is kept away from to second press mold bracing piece 24 and is installed press mold cylinder 7, and press mold cylinder 7's piston rod passes second press mold bracing piece 24 and links to each other with press mold piece 8, and press mold piece 8 is located the top of carousel 2.

The working principle of the automatic LED production system shown in the embodiment is as follows:

(1) firstly, sliding the slide seat 22 on the slide rail 21, and adjusting the connecting position of the first film pressing support rod 23 and the second film pressing support rod 24 at the same time to make the film pressing block 8 located above the reflective cover positioning block 4, and adjusting the distance between the second film pressing support rod 24 and the turntable 31, so that the film pressing block 8 can press the display film when the film pressing cylinder 7 pushes out the film pressing block 8, and the display film can be adhered on the reflective cover;

(2) secondly, determining the stacking height of a plurality of adjusting blocks 9 according to the length of the positioning column after fusion pressing and solidification, when two adjacent adjusting blocks 9 are installed, clamping one end of a connecting strip 13 into a first connecting groove 11, and clamping the other end of the connecting strip 13 into a second connecting groove 12, so that the two adjusting blocks 9 are fixedly connected in a stacking manner; because the adjusting block 9 has certain self weight, the stacking of the adjusting block 9 is not influenced when the reflecting cover is taken and placed in the reflecting cover mounting groove 5;

(3) then, a driving wheel motor, a first vacuum chuck mechanical arm 45, a first air cylinder 46, a second air cylinder 47, a second vacuum chuck mechanical arm 49 and a turntable motor are sequentially started, the first vacuum chuck mechanical arm 45 sequentially adsorbs and conveys the release paper stacked on the release paper supporting table 44 to the conveyor belt 34, when the release paper is conveyed to one end close to the separation receiving platform 36, the separation angle of the separation block 37 is aligned with the display film and the release paper to be separated, and the display film slides to the upper part of the separation angle along the separation angle and is pushed to the upper surface of the separation receiving platform 36; the release paper slides to the position below the separation angle along the separation angle, so that the release paper falls into the release paper storage groove;

the second vacuum chuck robot 49 sucks and conveys the display film on the upper surface of the separation receiving platform 36 to the upper side of the reflection cover;

(4) finally, the turntable 2 rotates, the reflecting cover with the display film placed on the reflecting cover is conveyed to the position below the film pressing block 8, then the film pressing cylinder 7 is started, the film pressing cylinder 7 drives the film pressing block 8 to enable the film pressing block 8 to compress the display film, and the reflecting cover bears downward acting force when pressing the film, so that the heating column 6 generates upward extrusion force on the positioning column when in use, and the positioning column is fused, pressed and solidified; thereby carry out the melt-compression solidification to the reference column when realizing the press mold to accomplish the pasting of demonstration membrane and reflection lid, and accomplish simultaneously and carry out the melt-compression solidification to the reference column.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (10)

1. An LED automatic production system, includes base (1), its characterized in that: a rotary table (2) is rotatably mounted on the base (1), more than 1 reflection cover positioning block mounting groove (3) is formed in the rotary table (2), a reflection cover positioning block (4) is mounted in the reflection cover positioning block mounting groove (3), a reflection cover mounting groove (5) is formed in the top surface of the reflection cover positioning block (4), and a heating column (6) for fusing and pressing a positioning column in the reflection cover is mounted in the reflection cover mounting groove (5); install the press mold adjustment mechanism on base (1) of carousel (2) one side, install press mold cylinder (7) on the press mold adjustment mechanism, press mold cylinder (7) link to each other with setting up die block (8) in reflection lid mounting groove (5) top.

2. An automatic LED production system according to claim 1, characterized in that: more than 2 adjusting blocks (9) are installed in the reflection cover installation groove (5), and a gap exists between the top surface of the adjusting block (9) close to one side of the film pressing block (8) and the reflection cover (10) installed in the reflection cover installation groove (5).

3. An automatic LED production system according to claim 2, characterized in that: first connecting groove (11) have been seted up on regulating block (9) is close to the top surface of moulding block (8) one side, second connecting groove (12), adjacent two have been seted up on regulating block (9) the bottom surface of keeping away from moulding block (8) one side regulating block (9) link to each other through connecting strip (13), the one end screens of connecting strip (13) is installed in first connecting groove (11), the other end screens of connecting strip (13) are installed in second connecting groove (12).

4. An automatic LED production system according to claim 1, characterized in that: press mold adjustment mechanism is including installing slide rail (21) on base (1), slidable mounting has slide (22) on slide rail (21), slidable mounting has press mold bracing piece subassembly on slide (22), press mold bracing piece subassembly includes first press mold bracing piece (23) and second press mold bracing piece (24), first press mold bracing piece (23) one end slides with slide (22) and links to each other, second press mold bracing piece (24) have been cup jointed in first press mold bracing piece (23) other end external slip, install press mold cylinder (7) on second press mold bracing piece (24), press mold cylinder (7) link to each other with press mold block (8) after passing second press mold bracing piece (24).

5. An automatic LED production system according to claim 1, characterized in that: install on base (1) and show that the membrane dials from conveying mechanism, it dials from conveying mechanism including installing conveyer belt support (31) on base (1) to show the membrane, it installs action wheel (32) and follows driving wheel (33) to rotate on conveyer belt support (31), install conveyer belt (34) on action wheel (32) and follow driving wheel (33), spacing lug (35) are installed at the interval on conveyer belt (34).

6. An automatic LED production system according to claim 5, wherein: install separation receiving platform (36) of depositing the display film on base (1) of conveyer belt support (31) one side, separation receiving platform (36) are close to and install separation piece (37) that are used for separating from type paper and display film on the lateral wall of conveyer belt support (31) one side, there is the clearance between separation angle and conveyer belt (34) of separation piece (37), the clearance is greater than the thickness from type paper, and the clearance is less than the length from type paper.

7. An automatic LED production system according to claim 6, wherein: and a second vacuum chuck mechanical arm (49) is arranged between the separation receiving platform (36) and the turntable (2).

8. An automatic LED production system according to claim 6, wherein: the separation angle is in the same horizontal plane as the upper surface of the carrying side of the conveyor belt (34).

9. An automatic LED production system according to claim 5, wherein: a release paper conveying support (41) is installed on the base (1), a lead screw installation support (42) is installed on the release paper conveying support (41), a lead screw (43) is installed on the lead screw installation support (42) in a rotating mode, and a nut of the lead screw (43) is connected with a release paper support table (44); install on base (1) between type paper brace table (44) and conveyer belt (34) and be used for adsorbing from the first vacuum chuck robotic arm (45) of type paper.

10. An automatic LED production system according to claim 9, wherein: install anti-sticking mechanism on base (1) between conveyer belt support (31) and conveyer belt (34), anti-sticking mechanism is including installing first cylinder (46) and second cylinder (47) on base (1), first cylinder (46) and second cylinder (47) are located the both sides of conveyer belt (34), and all install antiseized ejector pad (48) on shown first cylinder (46) and second cylinder (47).

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