CN212737408U - Piece formula FCCL loading mechanism for copper foil laminating - Google Patents

Abstract

The utility model provides a piece type FCCL loading mechanism for copper foil pasting, which comprises two lifting platforms which are arranged side by side, wherein one lifting platform is used as a feeding platform for placing FCCL, and the other lifting platform is used as a collecting platform for recovering spacing paper; each lifting platform comprises a mounting plate, a lifting plate and an automatic sorting mechanism; a first lifting mechanism is arranged on the lower side of the mounting plate, the lifting plate is arranged above the mounting plate, and the output end of the first lifting mechanism penetrates through the mounting plate and then is connected with the lifting plate; the automatic sorting mechanism is arranged on the mounting plate, the transfer tables are arranged on one side of the feeding table away from the collecting table side by side, and a material positioning mechanism and a vacuum adsorption device are arranged on the transfer tables; the lifting loader is arranged above the feeding table through the moving mechanism, and the moving mechanism drives the loading machine to move between the two lifting platforms and the middle rotating table. The utility model provides a piece formula FCCL loading mechanism for copper foil laminating, FCCL get the material and the blowing all is equipped with positioning mechanism, has improved the degree of accuracy that FCCL and FPBC correspond, the cost is reduced.

Description

Piece formula FCCL loading mechanism for copper foil laminating

Technical Field

The utility model relates to a copper foil laminating equipment technical field, concretely relates to piece formula FCCL loading mechanism for copper foil laminating.

Background

FCCL is one of the commonly used materials for copper foil lamination. In the automatic copper foil laminating equipment, the feeding mechanism of the FCCL is also an important component which influences the working efficiency and the product laminating quality.

Typical FCCL is roll-to-roll and needs to be cut before or after application, affecting overall application efficiency. The FCCL is cut into required sheets in advance, and the subsequent attaching efficiency can be improved. And the FCCL feed mechanism directly influences the laminating quality of product to the precision of FCCL location. The factors influencing the FCCL positioning accuracy mainly include the FCCL positioning accuracy of the feeding table and the FCCL positioning accuracy of the transfer mechanism.

Lack the FCCL among the automatic laminating equipment among the prior art and get the positioning mechanism of material and blowing, cause FCCL and FPBC to counterpoint less than accurate easily, influence product laminating quality, defective products volume increases, and manufacturing cost is high, and is efficient.

SUMMERY OF THE UTILITY MODEL

For solving the problem that exists among the above-mentioned prior art, the utility model provides a piece formula FCCL loading mechanism is used in copper foil laminating, FCCL get the material and the blowing all is equipped with positioning mechanism, has improved the degree of accuracy that FCCL and FPBC correspond, the cost is reduced.

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

a chip FCCL loading mechanism for copper foil lamination comprises

The two lifting platforms are arranged side by side, wherein one lifting platform is used as a feeding platform for placing FCCL, and the other lifting platform is used as a collecting platform for recovering partition paper;

each lifting platform comprises a mounting plate, a lifting plate and an automatic sorting mechanism;

a first lifting mechanism is arranged on the lower side of the mounting plate, the lifting plate is arranged above the mounting plate, and the output end of the first lifting mechanism penetrates through the mounting plate and then is connected with the lifting plate;

the automatic arranging mechanism is arranged on the mounting plate and can arrange and position the sheet materials placed on the lifting platform;

the transfer table is arranged on one side of the feeding table, which is far away from the collecting table, in parallel, and is provided with a material positioning mechanism and a vacuum adsorption device, the positioning mechanism positions the material, and the vacuum adsorption device fixes the material on the transfer table;

the lifting loading machine is arranged above the feeding table through a moving mechanism, and the moving mechanism drives the loading machine to move between the two lifting platforms and the transfer table so as to move the materials on the feeding table to the transfer table and the collecting table respectively.

Further, it also includes

The upper ends of the first guide rods are connected with the lifting plate;

the mounting plate is provided with a corresponding number of guide sleeves, and the lower end of the first guide rod is positioned in the guide sleeves and can move up and down in the guide sleeves.

Further, the automatic arrangement mechanism comprises

Two parallel second guide rods, wherein two ends of each second guide rod are horizontally arranged on the mounting plate;

two ends of the T-shaped adjusting plate are respectively sleeved on the two second guide rods through adjusting cylinders, and the adjusting cylinders drive the T-shaped adjusting plate to move along the second guide rods;

the two adjusting rods are respectively vertically arranged at intervals at the other end of the T-shaped adjusting plate;

the two movable baffles are respectively connected with the opposite sides of the two adjusting cylinders;

the lifting plate is provided with two parallel sliding grooves, the two sliding grooves and the two adjusting rods are correspondingly arranged, the upper ends of the adjusting rods are located in the sliding grooves, and the adjusting cylinders are driven to move in the sliding grooves.

Further, the mounting panel is kept away from the one end of adjusting the pole and both sides are equipped with fixed stop respectively, fixed stop with moving the same and not less than the maximum height that lift platform rose, fixed stop with moving the upper end of baffle all to keeping away from the one side slope of lifter plate.

Furthermore, the first lifting mechanism is arranged in the middle of the mounting plate, and the upper end of the first lifting mechanism is connected with the middle of the lifting plate.

Further, the loader comprises

The second lifting mechanism is arranged on the moving mechanism;

and the suction assembly is connected with the second lifting mechanism through a connecting plate and comprises a plurality of suction nozzles and a vacuum generator, the suction nozzles are respectively connected with the vacuum generator, and the arrangement shapes of the suction nozzles are matched with the shape of the material.

Furthermore, the loading machine further comprises a shaking device, the shaking device is connected with one of the suction nozzles, and the shaking device works to shake off more than one material sucked by the suction nozzle, so that only one material is sucked at a time.

Further, the positioning mechanism comprises

The L-shaped positioning foot is positioned on one corner of the transfer table;

the plurality of stop rods are arranged on two sides of the transfer table, which are far away from the positioning feet, mounting grooves with corresponding numbers are formed in the side surface of the transfer table, and the stop rods are arranged in the mounting grooves; and the height of the stop lever is greater than that of the transfer table.

Further, lift platform still contains the material level inductor, and it is located through the installation pole on the mounting panel, with first elevating system connects, and is located the top of lifter plate.

Compared with the prior art, the beneficial technical effects of this application do: according to the chip type FCCL loading mechanism for copper foil lamination, the automatic arrangement mechanism is arranged on the feeding table to arrange and position FCCL, so that accurate material taking of the FCCL is guaranteed; the feeding table can be arranged in a lifting manner, so that smooth material taking of the FCCL is guaranteed; in addition, a positioning mechanism is arranged on the transfer table, so that the accuracy of FCCL material discharging and attaching material taking is improved, the attaching quality is guaranteed, the working efficiency is improved, and the production cost is reduced.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a loader in an embodiment of the present application;

fig. 3 is a schematic structural diagram of the lifting platform in the embodiment of the present application.

In the figure: 10-moving mechanism, 20-loading machine, 21-second lifting mechanism, 22-connecting plate, 23-vacuum generator, 24-shaking device, 25-suction nozzle, 301-collection platform, 302-feeding platform, 303-mounting plate, 304-fixed baffle, 305-level sensor, 306-lifting plate, 307-sliding chute, 308-adjusting rod, 309-moving baffle, 310-T-shaped adjusting plate, 311-adjusting cylinder, 312-guide sleeve, 313-second guide rod, 314-first lifting mechanism, 315-first guide rod, 40-transfer table, 41-stop rod, 42-positioning foot, 43-mounting groove.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined below to clearly and completely describe the technical solution of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be derived from the description of the embodiments of the present invention by a person skilled in the art, are within the scope of the present invention.

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

As shown in fig. 1-3, a piece-type FCCL loading mechanism for copper foil lamination comprises two lifting platforms, a transfer table 40 and a lifting loader 20;

specifically, two lifting platforms are arranged side by side, wherein one lifting platform is used as a feeding platform 302 for placing FCCL, the other lifting platform is used as a collecting platform 301 for recovering the partition paper, and the collecting platform 301 is used for collecting the partition paper, so that the collecting process of the partition paper is saved, and the working efficiency is improved;

each lifting platform comprises a mounting plate 303, a lifting plate 306 and an automatic sorting mechanism; the mounting plate 303 is used for mounting the lifting platform on a workbench of the laminating device;

a first lifting mechanism 314 is arranged on the lower side of the mounting plate 303, the lifting plate 306 is arranged above the mounting plate 303, the output end of the first lifting mechanism 314 passes through the mounting plate 303 and then is connected with the lifting plate 306, and the first lifting mechanism 314 is used for driving the lifting plate 306 to move up and down so as to enable the FCCL on the upper layer to be always kept at the suction height of the loader 20, so that the loader can suck smoothly;

the automatic sorting mechanism is arranged on the mounting plate 303 and can sort and position the sheet materials placed on the lifting platform so as to ensure that the FCCL position is accurate when the loading machine takes the materials;

the transfer tables 40 are arranged side by side on one side of the feeding table 302 away from the collecting table 301 and used for temporarily storing FCCL so as to facilitate the absorption of the bonding assemblies; the transfer table 40 is provided with a material positioning mechanism and a vacuum adsorption device, the positioning mechanism is used for positioning materials, the vacuum adsorption device is used for fixing the materials on the transfer table 40, and the FCCL position deviation is prevented from influencing the laminating effect when laminating and taking materials;

the loader 20 is arranged above the feeding table 302 through the moving mechanism 10, and the moving mechanism 10 drives the loader 20 to move between the two lifting platforms and the transfer platform 40 so as to move the materials on the feeding table 302 to the transfer platform 40 and the collecting table 301 respectively;

every two adjacent FCCL are provided with spacing paper on the feeding table 302, and the loading machine 20 is driven by the moving mechanism 10 to alternately and respectively place the FCCL and the spacing paper on the transfer table 40 and the collecting table 301, so that the FCCL is continuously fed.

Preferably, the loading mechanism further includes a plurality of first guide rods 315 and a corresponding number of guide sleeves 312 disposed on the mounting plate 303;

the upper end of the first guide rod 315 is connected with the lifting plate 306, and the lower end thereof is positioned in the guide sleeve 312 and can move up and down in the guide sleeve 312;

when the lifting plate 306 is driven by the first lifting mechanism 314 to lift, the first guide rod 315 is used to guide the lifting plate 306, so that the lifting plate 306 can move smoothly.

Optionally, the finishing mechanism comprises

Two parallel second guide rods 313, wherein two ends of each second guide rod 313 are respectively fixed on the mounting plate 303 through mounting seats;

the two ends of the T-shaped adjusting plate 310 are respectively sleeved on the two second guide rods 313 through adjusting cylinders 311, and the adjusting cylinders 311 drive the T-shaped adjusting plate 310 to move along the second guide rods 313;

the two adjusting rods 308 are respectively vertically arranged at intervals at the other end of the T-shaped adjusting plate 310, and the adjusting cylinder 311 drives the T-shaped adjusting plate 310 to move along the second guide rod 313 to drive the adjusting rods 308 to horizontally move;

two movable baffles 309 respectively connected to opposite sides of the two adjusting cylinders 311 and moving along with the adjusting cylinders 311;

the lifting plate 306 is provided with two parallel sliding chutes 307, and the two sliding chutes 307 are respectively arranged corresponding to the two adjusting rods 308; the upper ends of the adjusting rods 308 are positioned in the corresponding sliding chutes 307 and move in the sliding chutes 307 under the driving of the adjusting cylinders 311;

when materials are placed on the lifting plate 306, the adjusting cylinder 311 drives the T-shaped adjusting plate 310 to move, so that the materials are adjusted in order, and all the materials are in correspondence; the two movable baffles 309 move along with the adjusting cylinder 311 to adapt to the position of the material, so that the material can be better arranged.

In an embodiment of the application, a fixed baffle 304 is respectively arranged at one end and two sides of the mounting plate 303 far away from the adjusting rod 308, the fixed baffle 304 and the movable baffle 309 have the same height and are not less than the maximum height of the lifting platform, and the upper ends of the fixed baffle 304 and the movable baffle 309 are inclined towards one side far away from the lifting plate 306, so that the material can be conveniently taken and placed;

the fixed baffle 304 is used for limiting the material and ensuring that the material is always sucked.

Preferably, the first lifting mechanism 315 is disposed in the middle of the mounting plate 303, and the upper end of the first lifting mechanism is connected to the middle of the lifting plate 306, so that the lifting plate 306 is stressed evenly and moves smoothly during the driving process.

In another embodiment of the present application, the loader 20 comprises

A second lifting mechanism 21 provided on the moving mechanism 10;

the suction assembly is connected with the second lifting mechanism 21 through a connecting plate 22, the moving mechanism 10 drives the second lifting mechanism 21 to horizontally move, and the second lifting mechanism 21 drives the suction nozzle group to move so as to suck and place materials;

the suction assembly comprises a plurality of suction nozzles 25 and a vacuum generator 23, the suction nozzles 25 are respectively connected with the vacuum generator 23, and the shapes of the materials in the arrangement shapes of the suction nozzles 25 are matched;

the vacuum generator 23 is operated to vacuumize the suction nozzle 25 so that the suction nozzle 25 has a negative pressure to suck the material.

According to some embodiments of the present application, the loader 20 further comprises a shaking device 24, the shaking device 24 is connected to one suction nozzle 25, and the shaking device 24 is operative to shake off more than one piece of material sucked by the suction nozzle 25, ensuring that only one piece of material is sucked at a time;

preferably, the shaking device 24 is arranged on a suction nozzle 25 positioned at one corner of the suction assembly, so that redundant materials are more easily shaken off, and the working efficiency is improved.

Optionally, the positioning mechanism comprises

An L-shaped positioning foot 42 positioned on one corner of the transfer table;

the stop levers 41 are arranged on two sides of the transfer table 40 far away from the positioning feet 42, the side surface of the transfer table 40 is provided with a corresponding number of mounting grooves 43, and the stop levers 41 are arranged in the mounting grooves 43; the height of the stop lever 41 is greater than that of the transfer table 40; the positioning feet 42 and the plurality of stop levers 41 define a material placement area, and thus, a material.

According to other embodiments of the present application, the lifting platform further comprises a material level sensor 305, which is disposed on the mounting plate 303 through a mounting rod, connected to the first lifting mechanism 315, and located above the lifting plate 306, and is used for sensing the height of the material and controlling the first lifting mechanism 315 to operate;

the two level sensors 305 can be arranged at an interval at one end of the mounting plate 303 far away from the adjusting rod 308 to ensure accurate sensing results.

According to the chip type FCCL loading mechanism for copper foil lamination, the automatic arrangement mechanism is arranged on the feeding table to arrange and position FCCL, so that accurate material taking of the FCCL is guaranteed; the feeding table can be arranged in a lifting manner, so that smooth material taking of the FCCL is guaranteed; in addition, a positioning mechanism is arranged on the transfer table, so that the accuracy of FCCL material discharging and attaching material taking is improved, the attaching quality is guaranteed, the working efficiency is improved, and the production cost is reduced.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. A chip FCCL loading mechanism for copper foil lamination is characterized by comprising

The two lifting platforms are arranged side by side, wherein one lifting platform is used as a feeding platform for placing FCCL, and the other lifting platform is used as a collecting platform for recovering partition paper;

each lifting platform comprises a mounting plate, a lifting plate and an automatic sorting mechanism;

a first lifting mechanism is arranged on the lower side of the mounting plate, the lifting plate is arranged above the mounting plate, and the output end of the first lifting mechanism penetrates through the mounting plate and then is connected with the lifting plate;

the automatic arranging mechanism is arranged on the mounting plate and can arrange and position the sheet materials placed on the lifting platform;

the transfer table is arranged on one side of the feeding table, which is far away from the collecting table, in parallel, and is provided with a material positioning mechanism and a vacuum adsorption device, the positioning mechanism positions the material, and the vacuum adsorption device fixes the material on the transfer table;

the lifting loading machine is arranged above the feeding table through a moving mechanism, and the moving mechanism drives the loading machine to move between the two lifting platforms and the transfer table so as to move the materials on the feeding table to the transfer table and the collecting table respectively.

2. The copper foil-bonding sheet-type FCCL loading mechanism according to claim 1, further comprising

The upper ends of the first guide rods are connected with the lifting plate;

the mounting plate is provided with a corresponding number of guide sleeves, and the lower end of the first guide rod is positioned in the guide sleeves and can move up and down in the guide sleeves.

3. The copper foil-bonding sheet-type FCCL loading mechanism of claim 1, wherein the finishing mechanism comprises

Two parallel second guide rods, wherein two ends of each second guide rod are horizontally arranged on the mounting plate;

two ends of the T-shaped adjusting plate are respectively sleeved on the two second guide rods through adjusting cylinders, and the adjusting cylinders drive the T-shaped adjusting plate to move along the second guide rods;

the two adjusting rods are respectively vertically arranged at intervals at the other end of the T-shaped adjusting plate;

the two movable baffles are respectively connected with the opposite sides of the two adjusting cylinders;

the lifting plate is provided with two parallel sliding grooves, the two sliding grooves and the two adjusting rods are correspondingly arranged, the upper ends of the adjusting rods are located in the sliding grooves, and the adjusting cylinders are driven to move in the sliding grooves.

4. The copper foil lamination sheet type FCCL loading mechanism according to claim 3, wherein a fixed baffle is respectively disposed at one end of the mounting plate away from the adjusting rod and at two sides of the mounting plate, the fixed baffle and the movable baffle have the same height and are not less than the maximum height of the lifting platform, and the upper ends of the fixed baffle and the movable baffle are both inclined towards one side away from the lifting plate.

5. The copper foil-bonding piece-type FCCL loading mechanism according to claim 1, wherein the first elevating mechanism is provided in a middle portion of the mounting plate, and an upper end thereof is connected to a middle portion of the elevating plate.

6. The copper foil-bonding sheet-type FCCL loading mechanism of claim 1, wherein the loader comprises

The second lifting mechanism is arranged on the moving mechanism;

and the suction assembly is connected with the second lifting mechanism through a connecting plate and comprises a plurality of suction nozzles and a vacuum generator, the suction nozzles are respectively connected with the vacuum generator, and the arrangement shapes of the suction nozzles are matched with the shape of the material.

7. The copper foil-bonding sheet-type FCCL loading mechanism of claim 6 wherein the loader further comprises a shaker mechanism, the shaker mechanism being coupled to one of the nozzles, the shaker mechanism being operable to shake off more than one of the materials being picked up by the nozzle to ensure that only one material is picked up at a time.

8. The copper foil-bonding sheet-type FCCL loading mechanism of claim 1, wherein the positioning mechanism comprises

The L-shaped positioning foot is positioned on one corner of the transfer table;

the plurality of stop rods are arranged on two sides of the transfer table, which are far away from the positioning feet, mounting grooves with corresponding numbers are formed in the side surface of the transfer table, and the stop rods are arranged in the mounting grooves; and the height of the stop lever is greater than that of the transfer table.

9. The copper foil-bonding piece-type FCCL loading mechanism of claim 1, wherein the elevating platform further comprises a level sensor disposed on the mounting plate via a mounting rod, connected to the first elevating mechanism, and located above the elevating plate.

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