CN211282862U - Automatic separating device for thin bonding sheet - Google Patents

Abstract

The utility model discloses a thin bonding sheet automatic separation device, which comprises a sucker mechanism, a first pressing mechanism, a second pressing mechanism, an ion air nozzle and a controller, wherein the first pressing mechanism and the second pressing mechanism are respectively arranged at two sides of a bearing platform, the first pressing mechanism comprises a pressing plate, a first driving piece and a second driving piece which are connected with the pressing plate, the first driving piece is used for driving the pressing plate to reciprocate along the direction vertical to the bearing platform, the second driving piece is used for driving the pressing plate to reciprocate along the direction parallel to the bearing platform, the sucker mechanism comprises a sucker and a sucker driving piece which is connected with the sucker, the ion air nozzle is arranged at the side part of the bearing platform, the first pressing mechanism and the second pressing mechanism are controlled by the controller to alternately press bonding sheets, then the bonding sheets are sucked by the sucker mechanism to divide materials, the problem that the bonding sheets below the bonding sheets are taken up or the bonding sheets are sucked by the bonding sheets below the sucker mechanism to fall off is avoided, and the production efficiency is high.

Description

Automatic separating device for thin bonding sheet

Technical Field

The utility model relates to a bonding sheet production facility field especially relates to a slim bonding sheet autosegregation device.

Background

The bonding sheets, namely the prepregs, are basic materials for manufacturing the copper-clad plate, are usually staggered and stacked in advance in the production process, are separated one by one and dragged to a processing station during production, and then are overlapped and pressed with the copper foil to form the copper-clad plate, and in the process, the bonding sheets are mainly clamped, separated and dragged through a material shoveling clamp.

However, for the thin adhesive sheet, a single sheet has the characteristics of thinness and softness, if the existing material shoveling clamp is used for clamping the single thin adhesive sheet, the probability of missed clamping is very high, and a shovel easily shovels the adhesive sheet; in addition, when the adhesive sheets are clamped and dragged away, a material carrying phenomenon often occurs, namely, the clamped first adhesive sheet can carry one or more adhesive sheets together and drag the next adhesive sheet together, because the material is tightly attached to the material due to the thin and soft characteristics of the single thin adhesive sheet to form vacuum, the single thin adhesive sheet is generally manually carried out, but the production efficiency is low due to the adoption of the mode.

Therefore, there is a need to provide an automatic separating device capable of rapidly clamping a single thin adhesive sheet without damaging the adhesive sheet, so as to solve the above-mentioned problems in the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can press from both sides fast and get the slim bonding sheet autosegregation device that the sola slim bonding sheet can not damage the bonding sheet.

In order to achieve the above purpose, the technical scheme of the utility model is that: the automatic separating device for the thin bonding sheets is used for separating the thin bonding sheets which are staggered and stacked on a bearing table and comprises a sucker mechanism, a first pressing mechanism, a second pressing mechanism, an ion air nozzle and a controller; the sucking disc mechanism comprises a sucking disc arranged above the bearing table and a sucking disc driving piece connected with the sucking disc, and the sucking disc driving piece drives the sucking disc to reciprocate along a direction vertical to the bearing table; the first pressing mechanism is arranged on one side of the bearing table and comprises a pressing plate, a first driving piece and a second driving piece, the first driving piece and the second driving piece are connected with the pressing plate, the first driving piece is used for driving the pressing plate to move in a reciprocating mode in a direction perpendicular to the bearing table, and the second driving piece is used for driving the pressing plate to move in a reciprocating mode in a direction parallel to the bearing table; the second pressing mechanism is arranged on the other side of the bearing table and corresponds to the first pressing mechanism; the ion air nozzle is arranged above the pressing plate and positioned on the side part of the bearing table; the controller is respectively electrically connected with the first pressing mechanism, the second pressing mechanism, the sucker mechanism and the ion air nozzle and is used for controlling the first pressing mechanism and the second pressing mechanism to alternately press the bonding sheet and controlling the sucker mechanism and the ion air nozzle to act.

Preferably, the sucker mechanism further comprises a sucker frame, the sucker driving piece and the sucker are respectively installed on two opposite sides of the sucker frame, the sucker faces the bearing table, and the sucker driving piece drives the sucker to move through the sucker frame.

Preferably, the device comprises a plurality of suckers, each sucker is uniformly arranged on the sucker frame, and the sucker driving part is an air cylinder.

Preferably, the suction cup mechanism further comprises a plurality of air paths, each air path is provided with a valve, and each air path is connected with each suction cup.

Preferably, the first pressing mechanism further comprises a third driving element connected with the pressing plate, the stroke of the third driving element is greater than that of the second driving element, and the third driving element is used for driving the pressing plate to reciprocate along a direction parallel to the bearing table, so that the pressing plate is separated from the bearing table or moves above the bearing table.

Preferably, the first pressing mechanism further comprises a connecting plate, two ends of the connecting plate are respectively fixed to the first driving member and the second driving member, a telescopic end of the second driving member is fixed to a telescopic end of the third driving member, the third driving member drives the second driving member, the first driving member and the pressing plate to move synchronously, and the second driving member drives the first driving member and the pressing plate to move through the connecting plate so that the pressing plate is located above the bonding sheet or separated from the bonding sheet.

Preferably, the first driving member, the second driving member and the third driving member are all cylinders.

Preferably, the structure of the second pressing mechanism is the same as that of the first pressing mechanism.

Preferably, the second pressing mechanism comprises a presser foot arranged above the bearing table and a presser foot driving member connected with the presser foot, and the presser foot driving member is used for driving the presser foot to reciprocate along a direction vertical to the bearing table so as to press the bonding sheet or separate from the bonding sheet.

Preferably, the presser foot drive member is an air cylinder.

Compared with the prior art, the automatic separator for the thin bonding sheet of the utility model is provided with the sucking disc mechanism, the first pressing mechanism, the second pressing mechanism and the ion air nozzle, the first pressing mechanism and the second pressing mechanism are respectively arranged on two opposite sides of the bearing table, the sucker mechanism is provided with a sucker arranged above the bearing table and a sucker driving piece connected with the sucker mechanism, the first pressing mechanism comprises a pressing plate, a first driving piece and a second driving piece, the first driving piece and the second driving piece are connected with the pressing plate, the first driving piece is used for driving the pressing plate to reciprocate along the direction perpendicular to the bearing table so as to press the bonding sheet or separate from the bonding sheet, the second driving piece is used for driving the pressing plate to reciprocate along the direction parallel to the bearing table so as to enable the pressing plate to protrude above the bonding sheet or horizontally separate from the bonding sheet, and in addition, the ion air nozzle is arranged above the pressing plate and is positioned on the side portion of the bearing table. Therefore, the controller controls the first pressing mechanism and the second pressing mechanism to alternately press the bonding sheets, and the sucking discs are driven by the sucking disc driving parts to move so as to suck the bonding sheets which are overlapped in a staggered manner, so that the problem of missing clamping or shoveling the bonding sheets caused by the existing clamping type can be avoided, the problem of clamping or breaking the bonding sheets when the thin bonding sheets are clamped is fundamentally solved, and the bonding sheets can be prevented from being taken up; in addition, the ionic air flow blown out by the ionic air nozzle can neutralize the static electricity on the bonding sheet, so that the bonding sheet is prevented from being adsorbed and falling off by the bonding sheet below due to the problem of the static electricity after being absorbed; moreover, full-automatic material distribution of equipment is realized, and the manual material distribution mode in the existing mode is replaced, so that the production efficiency is improved.

Drawings

Fig. 1 is a schematic plan view of the thin bonding sheet automatic separating apparatus of the present invention.

Fig. 2 is a side view of fig. 1.

Fig. 3 is another state diagram of fig. 2.

Fig. 4 is a schematic view of a further state of fig. 2.

Detailed Description

Embodiments of the present invention will now be described with reference to the drawings, wherein like element numerals represent like elements throughout. The utility model provides a slim bonding sheet autosegregation device 100 mainly is applicable to and carries out the automation to crisscross stack in slim bonding sheet 300 on plummer 200 and divides the material, nevertheless does not use this as the limit, can also be used to divide the material to other similar materials.

Referring to fig. 1-2, the thin adhesive sheet automatic separating apparatus 100 of the present invention includes a first pressing mechanism 110, a second pressing mechanism 120, a suction cup mechanism 130, an ion nozzle 140, and a controller (not shown). The first pressing mechanism 110 and the second pressing mechanism 120 are respectively arranged on two opposite sides of the bearing table 200 to alternately press the bonding sheets 300 stacked in a staggered manner, the suction cup mechanism 130 is arranged above the bearing table 200 and used for sucking a single bonding sheet 300 and removing the single bonding sheet 300, and the ion air nozzle 140 is arranged on any side of the bearing table 200 and used for blowing air flow with ions towards the bonding sheet 300; the controller is electrically connected with the first pressing mechanism 110, the second pressing mechanism 120, the suction cup mechanism 130 and the ion air nozzle 140 respectively, and is used for controlling the first pressing mechanism 110 and the second pressing mechanism 120 to alternately press the bonding sheet 300, controlling the suction cup mechanism 130 to suck the bonding sheet 300 one by one and move away, and simultaneously controlling the ion air nozzle 140 to work in cooperation with the equipment.

Referring to fig. 1-2, according to the bonding sheet 300 with different specifications and sizes, the thin bonding sheet automatic separation apparatus 100 of the present invention can be provided with at least one set of first pressing mechanism 110, second pressing mechanism 120 and ion tuyere 140, and in a preferred manner, three sets of first pressing mechanisms 110 and second pressing mechanisms 120 are provided, and each set of first pressing mechanism 110 is correspondingly provided with two ion tuyeres 140.

As shown in fig. 1-2, the suction cup mechanism 130 includes a suction cup driving member 131, a suction cup holder 132, and a suction cup 133, wherein a plurality of suction cups 133 are uniformly installed at the bottom of the suction cup holder 132, the suction cup driving member 131 has at least one, and the suction cup driving member 131 is installed at the top of the suction cup holder 132, and the suction cup driving member 131 drives the plurality of suction cups 133 to synchronously reciprocate along a direction perpendicular to the carrier table 200 through the suction cup holder 132, so that the suction cups 133 can suck the adhesive sheet 300 and drag the adhesive sheet 300 sucked by the suction cups.

Preferably, the suction cup driving member 131 is a cylinder, but is not limited thereto, and may be other driving mechanisms.

Furthermore, the sucking disc mechanism 130 further comprises a plurality of air paths, each air path is provided with a valve, and the plurality of sucking discs 133 are connected through the plurality of air paths respectively, so that the valves on the different air paths are controlled to open and close to supply air to the different sucking discs 133 according to the bonding sheets 300 with different specifications and sizes, and the sucking disc mechanism 130 can adapt to the bonding sheets 300 with various sizes.

With continued reference to fig. 2, the first pressing mechanism 110 includes a first driving element 111, a second driving element 112, a pressing plate 114 and a connecting plate 115, wherein the telescopic end of the first driving element 111 is fixed to the pressing plate 114, which is used to drive the pressing plate 114 to move back and forth in a direction perpendicular to the carrier table 200, so that the pressing plate 114 can press on the adhesive sheet 300 or separate the adhesive sheet 300 upwards; in addition, the bottom of the first driving member 111 is fixed to one end of the connecting plate 115, and the other end of the connecting plate 115 is connected to the second driving member 112, so that the second driving member 112 can drive the first driving member 111 and the pressing plate 114 to reciprocate along the direction parallel to the carrier table 200 through the connecting plate 115, thereby enabling the pressing plate 114 to horizontally protrude above the adhesive sheet 300 or horizontally separate from the adhesive sheet 300.

Additionally, because the utility model discloses a plummer 200 is elevation structure, so that receive bonding sheet 300 after rising, reduces to getting and can divide material to bonding sheet 300 when expecting the station. For the material loading of cooperation plummer 200, the utility model discloses in, first pressing mechanism 110 still includes third driving piece 113, this third driving piece 113 is fixed in the installation frame, the flexible end of third driving piece 113 is fixed mutually with the flexible end of second driving piece 112, and the stroke of third driving piece 113 is greater than the stroke of second driving piece 112, therefore when the flexible end of this third driving piece 113 is flexible, can drive second driving piece 112 horizontal migration, second driving piece 112 rethread connecting plate 115 drives first driving piece 111 and pressboard 114 along the direction reciprocating motion that is on a parallel with plummer 200, so that pressboard 114 level breaks away from plummer 200 or horizontal migration to the top of plummer 200, through the cooperation of the third driving piece 113 of long stroke and the second driving piece 112 of short stroke, make control simpler and more accurate.

Preferably, the first driving member 111, the second driving member 112, and the third driving member 113 in the present invention are all cylinders, but not limited to these, and other driving mechanisms may also be adopted.

Referring to fig. 1-2 again, each first pressing mechanism 110 is correspondingly provided with at least one ion tuyere 140, in the present invention, an ion tuyere 140 is respectively disposed on both sides of the pressing plate 114, each ion tuyere 140 is disposed above the pressing plate 114 and located on the lateral portion of the carrying platform 200, and the air blowing port of each ion tuyere 140 is just opposite to the bonding sheet 300, therefore, when the suction cup 133 sucks the bonding sheet 300, the ion airflow blown out by the ion tuyere 140 can neutralize the static electricity on the bonding sheet 300, and the bonding sheet 300 is prevented from being sucked and then being sucked and dropped off by the bonding sheet below due to the static electricity problem.

It should be understood that the position of the ion tuyere 140 is not limited to the above-mentioned manner, and the arrangement thereof on the other side of the susceptor 200 does not affect the realization of the function thereof.

Referring to fig. 2 again, in the present invention, the structure of the second pressing mechanism 120 may be the same as that of the first pressing mechanism 110, or a structure different from that of the first pressing mechanism 110 may be provided. In a preferred mode, the thin adhesive sheet automatic separating device 100 of the present invention is modified on the basis of the original separating device, and specifically, the first pressing mechanism 110 and the suction cup mechanism 130 are added on the basis of the original separating device, so that the back shoveling clamp of the original separating device is directly used as the second pressing mechanism 120. Specifically, the second pressing mechanism 120 includes a presser foot 121 disposed above the carrier 200 and a presser foot driving member 122 connected to the presser foot 121, wherein the presser foot driving member 122 is configured to drive the presser foot 121 to reciprocate in a direction perpendicular to the carrier 200 to press the adhesive sheet 300 or to separate the adhesive sheet 300.

In addition, in this embodiment, the first pressing mechanism 110 is additionally disposed above the front shoveling clamp 150 of the original separating device, the front shoveling clamp 150 is disposed opposite to the second pressing mechanism 120 (i.e., the rear shoveling clamp), and the front shoveling clamp 150 has the same structure as the second pressing mechanism 120, so that the front shoveling clamp 150 and the second pressing mechanism 120 cooperate to clamp the thicker adhesive sheet 300. Therefore, the thin adhesive sheet automatic separating apparatus 100 according to the present invention can be applied to the separation of a thin adhesive sheet and a thick adhesive sheet, and has a wider application range.

In the present invention, the presser foot driving member 122 is preferably an air cylinder, but is not limited thereto, and may be other driving mechanisms.

The operation principle and process of the automatic thin bonding sheet separator 100 of the present invention will be described with reference to fig. 1-3.

As shown in fig. 2-3, a plurality of thin adhesive sheets 300 are alternately stacked on the carrier 200, and at this time, the adhesive sheet 300 at the uppermost layer in fig. 2 needs to be separated, and then the adhesive sheet 300 at the second layer needs to be pressed, specifically, the controller controls the first pressing mechanism 110 to operate, so that the second driving member 112 drives the first driving member 111 and the pressing plate 114 to move horizontally, so that the pressing plate 114 moves to a position above the adhesive sheet 300 at the second layer, i.e., a position a in fig. 2-3, and then the first driving member 111 drives the pressing plate 114 to move downward, so that the pressing plate 114 presses the adhesive sheet 300 at the second layer, as shown in fig. 2. Then, the controller controls the suction cup driving member 131 to drive the suction cup 133 to move downward to suck the adhesive sheet 300 on the uppermost layer, and the suction cup mechanism 130 drags away the adhesive sheet 300 sucked by the suction cup driving member, and in this process, since the adhesive sheet 300 on the second layer is pressed, the adhesive sheets 300 on the second layer and below can be prevented from being dragged away by the sucked adhesive sheet 300, and damage to the adhesive sheet 300 can be avoided. In the above process, the ion airflow blown out by the ion air nozzle 140 can neutralize the static electricity on the bonding sheet 300, and the bonding sheet 300 is prevented from being adsorbed and falling off by the bonding sheet below due to the static electricity problem after being absorbed.

Next, the adhesive sheet 300 on the second layer, i.e. the adhesive sheet 300 on the uppermost layer, needs to be separated, so that the adhesive sheet 300 pressed by the first pressing mechanism 110 needs to be released, specifically, the controller controls the first driving member 111 to drive the pressing plate 114 to move upward, so as to separate the pressing plate 114 from the adhesive sheet 300 upward, and then controls the second driving member 112 to drive the first driving member 111 and the pressing plate 114 to move horizontally, so as to separate the pressing plate 114 from the adhesive sheet 300 horizontally, which is shown in fig. 2-3 as position B. Then, the controller controls the second pressing mechanism 120 to act to press the adhesive sheet 300 projecting rearward, i.e., the presser foot drive 122 drives the presser foot 121 to move downward and press on the adhesive sheet 300 which is now on the second layer. Finally, the controller controls the suction cup driving member 131 to drive the suction cup 133 to move downward to suck the bonding sheet 300 on the uppermost layer at this time, and drags away the sucked bonding sheet 300 by the suction cup mechanism 130. The controller then controls the presser foot drive 122 to drive the presser foot 121 to move upward to disengage the adhesive sheet 300 to wait for the next adhesive sheet 300 to be dispensed.

Then, the controller controls the action of the first pressing mechanism 110 again to repeat the above process to realize the separation of the next bonding sheet 300, the utility model discloses a thin bonding sheet automatic separation device 100 can stably realize the absorption of sola thin bonding sheet 300 and divide the material production to effectively avoid dividing the problem that the bonding sheet 300 is broken or pressed from both sides in the material process.

Referring to fig. 4, when the bonding sheet 300 on the carrier 200 is used and the carrier 200 needs to be recharged, the controller controls the third driving element 113 of the first pressing mechanism 110 to operate, so that the third driving element 113 drives the second driving element 112, the first driving element 111 and the pressing plate 114 to horizontally move for a large stroke at the same time, and the pressing plate 114 horizontally moves away from the carrier 200 and is separated from the carrier 200, which is shown as position C in fig. 4; meanwhile, the presser foot driving member 122 is controlled to drive the presser foot 121 to horizontally move in a direction away from the plummer 200 so as to be separated from the plummer 200; then, the carrier 200 can be lifted to receive the material, and after the material is received, the carrier 200 is lowered to the material distribution station to be distributed.

In summary, the thin adhesive sheet automatic separation apparatus 100 of the present invention comprises a first pressing mechanism 110, a second pressing mechanism 120, a suction cup mechanism 130 and an ion wind nozzle 140, wherein the first pressing mechanism 110 and the second pressing mechanism 120 are respectively disposed on two opposite sides of the carrier 200, the suction cup mechanism 130 has a suction cup 133 disposed above the carrier 200 and a suction cup driving member 131 connected thereto, the first pressing mechanism 110 comprises a pressing plate 114, a first driving member 111 and a second driving member 112 connected to the pressing plate 114, the first driving member 111 is used for driving the pressing plate 114 to reciprocate along a direction perpendicular to the carrier 200 to press the adhesive sheet 300 or to separate from the adhesive sheet 300, the second driving member 112 is used for driving the pressing plate 114 to reciprocate along a direction parallel to the carrier 200 so that the pressing plate 114 protrudes above the adhesive sheet 300 or horizontally separates from the adhesive sheet 300, and in addition, the ion wind nozzle 140 is disposed above the pressing plate 114 and at the side of the susceptor 200. Therefore, the controller controls the first pressing mechanism 110 and the second pressing mechanism 120 to alternately press the bonding sheets 300, and drives the suction cups 133 to move through the suction cup driving members 131 to suck the bonding sheets 300 which are overlapped in a staggered manner, so that the problem that the conventional clamping type is missed to clamp or shovel the bonding sheets 300 can be avoided, the problem that the thin bonding sheets 300 are clamped or broken is fundamentally solved, and the bonding sheets 300 below the bonding sheets 300 can be prevented from being taken up; in addition, the ionic airflow blown out by the ionic air nozzle 140 can neutralize the static electricity on the bonding sheet 300, so that the bonding sheet 300 is prevented from being adsorbed and falling off by the bonding sheet below due to the static electricity problem after being absorbed; moreover, full-automatic material distribution of equipment is realized, and the manual material distribution mode in the existing mode is replaced, so that the production efficiency is improved.

The structure and operation of the front material shoveling clamp 150 and the rear material shoveling clamp of the present invention are conventional manners known to those skilled in the art, and will not be described in detail herein.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, therefore, the invention is not limited thereto.

Claims (10)

1. The utility model provides a thin bonding sheet autosegregation device for separate the thin bonding sheet of crisscross stack on the plummer, its characterized in that includes:

the sucking disc mechanism comprises a sucking disc arranged above the bearing table and a sucking disc driving piece connected with the sucking disc, and the sucking disc driving piece drives the sucking disc to reciprocate along the direction vertical to the bearing table;

the first pressing mechanism is arranged on one side of the bearing table and comprises a pressing plate, a first driving piece and a second driving piece, the first driving piece and the second driving piece are connected with the pressing plate, the first driving piece is used for driving the pressing plate to reciprocate along the direction vertical to the bearing table, and the second driving piece is used for driving the pressing plate to reciprocate along the direction parallel to the bearing table;

the second pressing mechanism is arranged on the other side of the bearing table and corresponds to the first pressing mechanism;

the ion air nozzle is arranged above the pressing plate and positioned on the side part of the bearing table;

and the controller is respectively electrically connected with the first pressing mechanism, the second pressing mechanism, the sucker mechanism and the ion air nozzle, and is used for controlling the first pressing mechanism and the second pressing mechanism to alternately press the bonding sheet and controlling the sucker mechanism and the ion air nozzle to act.

2. The thin adhesive sheet automatic separating device as claimed in claim 1, wherein the suction cup mechanism further comprises a suction cup frame, the suction cup driving member and the suction cup are respectively installed on two opposite sides of the suction cup frame, the suction cup is opposite to the bearing table, and the suction cup driving member drives the suction cup to move through the suction cup frame.

3. The thin adhesive sheet automatic separating device as claimed in claim 2, wherein there are a plurality of said suction cups, each of said suction cups is uniformly mounted to said suction cup holder, and said suction cup driving member is an air cylinder.

4. The thin adhesive sheet automatic separating device according to claim 3, wherein said suction cup mechanism further comprises a plurality of air passages, each of said air passages being provided with a valve, and each of said suction cups being connected to each of said air passages, respectively.

5. The thin adhesive sheet automatic separating device as claimed in claim 1, wherein the first pressing mechanism further comprises a third driving member connected to the pressing plate, and the stroke of the third driving member is greater than the stroke of the second driving member, the third driving member is used for driving the pressing plate to reciprocate in a direction parallel to the carrier table, so as to separate the pressing plate from the carrier table or move the pressing plate above the carrier table.

6. The thin adhesive sheet automatic separating device as claimed in claim 5, wherein said first pressing mechanism further comprises a connecting plate, two ends of said connecting plate are fixed to said first driving member and said second driving member respectively, and a telescopic end of said second driving member is fixed to a telescopic end of said third driving member, said third driving member drives said second driving member, said first driving member and said pressing plate to move synchronously, said second driving member drives said first driving member and said pressing plate to move through said connecting plate so as to position said pressing plate above said adhesive sheet or separate from said adhesive sheet.

7. The thin adhesive sheet automatic separating device according to claim 5 or 6, wherein the first driving member, the second driving member and the third driving member are all air cylinders.

8. The thin adhesive sheet automatic separating device according to claim 1, wherein the second pressing mechanism has the same structure as the first pressing mechanism.

9. A thin adhesive sheet separator as claimed in claim 1 wherein said second pressing mechanism includes a presser foot disposed above said carrier and a presser foot drive member connected to said presser foot for driving said presser foot to reciprocate in a direction perpendicular to said carrier to press or separate said adhesive sheet.

10. The thin adhesive sheet debonder apparatus of claim 9 wherein said pressure foot drive member is an air cylinder.

Images