阅读说明：本技术 高可靠性多工况自动化送料机 (High-reliability multi-working-condition automatic feeder ) 是由 葛攀峰 于 2021-09-01 设计创作，主要内容包括：本发明涉及一种高可靠性多工况自动化送料机,其包括剥离机,所述剥离机包括膜料载料机构以及膜料收料机构；膜料收料机构包括收料筒以及夹料机构,夹料机构包括夹料杆以及收料杆,收料杆通过杆组连接机构与夹料杆适配连接；夹料杆沿杆组连接机构运动并与所述收料杆的端部紧密接触时,通过夹料杆能将待收纳膜层的端部夹紧在收料筒上；沿杆组连接机构拉动夹料杆并使得所述夹料杆与收料杆分离后,驱动夹料杆转动远离收料筒时,以能将收纳于所述收料筒上的膜料体与所述收料筒分离。本发明对膜层收纳时,能提高膜层收纳后分离的效率与可靠性,避免因磨损造成的浪费,使用方便,安全可靠。(The invention relates to a high-reliability multi-working-condition automatic feeder which comprises a stripping machine, wherein the stripping machine comprises a film material loading mechanism and a film material receiving mechanism; the film material receiving mechanism comprises a material receiving barrel and a material clamping mechanism, the material clamping mechanism comprises a material clamping rod and a material receiving rod, and the material receiving rod is connected with the material clamping rod in a matched mode through a rod group connecting mechanism; when the clamping rod moves along the rod group connecting mechanism and is in close contact with the end part of the material receiving rod, the end part of the film layer to be received can be clamped on the material receiving barrel through the clamping rod; after the clamping rod is pulled along the rod group connecting mechanism and is separated from the material receiving rod, the clamping rod is driven to rotate to be far away from the material receiving barrel, so that the film material body stored on the material receiving barrel can be separated from the material receiving barrel. When the film is stored, the film separation device can improve the separation efficiency and reliability after the film is stored, avoids waste caused by abrasion, and is convenient to use, safe and reliable.)

1. A high-reliability multi-working-condition automatic feeder comprises a stripping machine for stripping a film material, wherein the stripping machine comprises a film material loading mechanism for loading the film material to be stripped and a film material receiving mechanism for receiving the stripped film material; the method is characterized in that:

the film material receiving mechanism comprises a receiving barrel (6) and a clamping mechanism capable of clamping the end part of a film layer to be received on the receiving barrel (6), the clamping mechanism comprises a movable clamping rod (32) and a receiving rod (31) fixed on the receiving barrel (6), and the receiving rod (31) is in adaptive connection with the clamping rod (32) through a rod group connecting mechanism;

when the clamping rod (32) moves along the rod group connecting mechanism and is in close contact with the end part of the receiving rod (31), the end part of the film layer to be received can be clamped on the receiving cylinder (6) through the clamping rod (32); after the clamping rod (32) is pulled along the rod group connecting mechanism and the clamping rod (32) is separated from the material receiving rod (31), the clamping rod (32) is driven to rotate to be far away from the material receiving barrel (6), so that the film material body stored on the material receiving barrel (6) can be separated from the material receiving barrel (6).

2. The high-reliability multi-working-condition automatic feeder according to claim 1, which is characterized in that: the rod group connecting mechanism comprises a material receiving rod connecting rod (34) fixedly connected with the material receiving rod (31) and a material clamping rod connecting rod (35) in adaptive connection with the material clamping rod (32), the first end of the material clamping rod connecting rod (35) is hinged with a rod body connecting pin shaft (33), and the material clamping rod connecting rod (35) is connected with the material receiving rod connecting rod (34) through the rod body connecting pin shaft (33);

the second end of clamping bar connecting rod (35) is located in clamping bar (32), and can be in clamping bar (32) internal rotation drives through clamping bar connecting rod (35) clamping bar (32) winds when body of rod connecting pin axle (33) rotates to keep away from receipts feed cylinder (6) after making clamping bar (32) rotate.

3. The high-reliability multi-working-condition automatic feeder according to claim 2, characterized in that: an embedding locking groove (37) which can be matched with the second end of the connecting rod (35) of the material clamping rod is arranged in the material clamping rod (32), and a connecting rod elastic body (36) which can be connected with the second end of the connecting rod (35) of the material clamping rod is arranged in the embedding locking groove (37);

after the second end of the material clamping rod connecting rod (35) is aligned with the embedding locking groove (37), the second end of the material clamping rod connecting rod (35) can be embedded in the embedding locking groove (37), and if and only if the second end of the material clamping rod connecting rod (35) is embedded in the embedding locking groove (37), the material clamping rod (32) can be in close contact with the end part of the material receiving rod (31), and the material clamping rod (32) and the material clamping rod connecting rod (35) can be locked with each other; when the second end of the connecting rod (35) of the material clamping rod is withdrawn from the embedded locking groove (37), the material clamping rod (32) can rotate around the connecting rod (35) of the material clamping rod.

4. The high-reliability multi-working-condition automatic feeder according to any one of claims 1 to 3, characterized in that: the outer wall of the material receiving barrel (6) is provided with a barrel groove (30), one end of the material receiving rod (31) and one end of the material clamping rod (32) corresponding to the material receiving rod (31) can be embedded in the barrel groove (30), and the length direction of the material receiving rod (31) is consistent with that of the material receiving barrel (6).

5. The high-reliability multi-working-condition automatic feeder according to claim 3, characterized in that: the second end of the clamping rod connecting rod (35) is in an irregular polygonal shape, the shape of the embedding locking groove (37) is matched with that of the second end of the clamping rod connecting rod (35), and the clamping rod connecting rod (35) can be embedded in the embedding locking groove (37) only when the second end of the clamping rod connecting rod (35) is opposite to the embedding locking groove (37);

still set up in clamping bar (32) and accomodate chamber (38) with the rotation of clamping bar connecting rod (35) second end adaptation, when the second end of clamping bar connecting rod (35) withdraws from in embedding locking groove (37), the second end of clamping bar connecting rod (35) can be located and rotate and accomodate chamber (38).

6. The high-reliability multi-working-condition automatic feeder according to claim 2 or 3, characterized in that: the material clamping rod (32) is U-shaped, and the material receiving rod connecting rod (34) and the material receiving rod (31) are coaxially distributed.

7. The high-reliability multi-working-condition automatic feeder according to claim 1, which is characterized in that: the film material conveying and stripping device is characterized by further comprising a stripping and cleaning and material arranging mechanism (8) arranged on a film material conveying and stripping path, wherein a film material film body (3) pulled out by a film material to be stripped in the film material conveying and stripping mechanism can be in rolling contact with the stripping and cleaning and material arranging mechanism (8), the stripping and cleaning and material arranging mechanism (8) can sweep the surface of the corresponding contact peripheral area of the film material film body (3) in contact, the membrane material film body (3) in contact is adsorbed after sweeping, and when the film material receiving mechanism is used for receiving the film layer to be received stripped from the film material film body (3), the film layer to be stripped in the film material film body (3) and the film layer to be received are stripped mutually and the film layer to be received is collected after stripping.

8. The high-reliability multi-working-condition automatic feeder according to claim 7, characterized in that: the stripping, cleaning and material arranging mechanism (8) comprises a material arranging roller (18) and a plurality of purging and material arranging units (20) which are in adaptive connection with the material arranging roller (18), wherein the purging and material arranging units (20) are distributed on the material arranging roller (18) in an array manner;

the purging and material arranging unit (20) comprises an adsorption contact cover (22) and an air outlet control mechanism for controlling the communication state of the adsorption contact cover (22) and an air storage cavity (21) in the material arranging roller (18), when the adsorption contact cover (22) is in contact with a film layer to be stripped in the film material to be stripped and the adsorption contact cover (22) is extruded, the adsorption contact cover (22) can be communicated with the air storage cavity (21) through the air outlet control mechanism, and the gas in the air storage cavity (21) can perform required purging on the film layer to be stripped after escaping through the adsorption contact cover (22); when stopping right adsorb contact cover (22)'s extrusion, can close the connected state of adsorbing contact cover (22) and gas storage chamber (21) through giving vent to anger control mechanism, utilize adsorb contact cover (22) can adsorb the rete of waiting to peel off that the contact corresponds.

9. The high-reliability multi-working-condition automatic feeder according to claim 8, characterized in that: the air outlet control mechanism comprises a purging plug (25) which can be placed in the air storage cavity (21), a plug connecting rod (24) connected with the purging plug (25) and a cover body connecting cylinder (23) connected with the plug connecting rod (24), one end of the cover body connecting cylinder (23) is connected with the adsorption contact cover (22), the other end of the cover body connecting cylinder (23) is connected with one end of a corrugated connecting pipe (26), and the other end of the corrugated connecting pipe (26) is hermetically connected with the outer wall of the material arranging roller (18);

one end of the plug connecting rod (24) is fixedly connected with the inner wall of the cover body connecting cylinder (23), and the other end of the plug connecting rod (24) penetrates through the cover body connecting cylinder (23) and the corrugated connecting pipe (26) and then is connected with the purging plug (25); when the adsorption contact cover (22) is extruded, the adsorption contact cover (22) compresses the corrugated connecting pipe (26) through the cover body connecting cylinder (23), and can push the purging plug (25) to move in the gas storage cavity (21) through the plug connecting rod (24), so that the gas storage cavity (21) is communicated with the adsorption contact cover (22); when the adsorption contact cover (22) is stopped to be extruded, the corrugated connecting pipe (26) pushes the adsorption contact cover (22) through the cover body connecting cylinder (23) so as to drive the blowing plug (25) to be tightly attached to the inner wall of the gas storage cavity (21) through the plug connecting rod (24) and shut off the communication state of the adsorption contact cover (22) and the gas storage cavity (21).

10. The high-reliability multi-working-condition automatic feeder according to claim 8 or 9, characterized in that: the physiotherapy roller lifting driving mechanism comprises a lifting driver (9), and the lifting driver (9) is in adaptive connection with the material arranging roller (18) through a driving connecting frame; the distance between the material arranging roller (18) and the film material to be stripped can be adjusted through the lifting driver (9), and the material arranging roller (18) can relatively drive the connecting frame to rotate, so that when the film material to be stripped on the film material loading mechanism is stripped, the film layer to be stripped on the film material to be stripped can be in contact with the corresponding purging material arranging unit (20) on the material arranging roller (18).

Technical Field

The invention relates to stripping equipment, in particular to a high-reliability multi-working-condition automatic feeder.

Background

For a multilayer film material, when the multilayer film material is processed and used, a stripping machine is generally required to strip the multilayer film material so as to meet the processing and using requirements subsequently. In the film layer after peeling, one end of the film layer needs to be fixed to a drum for storing the film layer during storage, the film layer can be gradually wound and stored on the drum as the drum for storing the film layer rotates continuously, and after the storage is finished, the drum for storing the film layer and the film layer wound on the drum need to be removed integrally so as to replace a new storage drum.

At present, the rete with accomodate the fixed mode of material clip that adopts between the cylinder of rete has the material clip fixed stability ground poor, and it is not convenient enough to use, and when the rete after will accomodating and cylinder separation, causes the rete easily and causes too much wearing and tearing, has caused very big waste.

In addition, dust, impurities and the like are easy to fall on the membrane material in the processing and conveying processes. When the stripping machine strips the film material, the stripping machine cannot clean the dust, the sundries and the like on the film material when the film material with the dust and/or the sundries on the surface is stripped, the dust and the sundries can influence the stripping efficiency in the stripping process, and the dust and the sundries can be gathered on the stripping machine along with the stripping process, so that the stripping machine can be damaged or the normal stripping work of the stripping machine can be influenced.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a high-reliability multi-working-condition automatic feeder which can improve the separation efficiency and reliability after a film layer is stored when the film layer is stored, avoids waste caused by abrasion, and is convenient to use, safe and reliable.

According to the technical scheme provided by the invention, the high-reliability multi-working-condition automatic feeder comprises a stripping machine for stripping a film material, wherein the stripping machine comprises a film material loading mechanism for loading the film material to be stripped and a film material receiving mechanism for receiving the stripped film material;

the film material receiving mechanism comprises a receiving cylinder and a clamping mechanism capable of clamping the end part of a film layer to be received on the receiving cylinder, the clamping mechanism comprises a movable clamping rod and a receiving rod fixed on the receiving cylinder, and the receiving rod is in adaptive connection with the clamping rod through a rod group connecting mechanism;

when the clamping rod moves along the rod group connecting mechanism and is in close contact with the end part of the material receiving rod, the end part of the film layer to be received can be clamped on the material receiving barrel through the clamping rod; after the clamping rod is pulled along the rod group connecting mechanism and is separated from the material receiving rod, the clamping rod is driven to rotate to be far away from the material receiving barrel, so that the film material body stored on the material receiving barrel can be separated from the material receiving barrel.

The rod group connecting mechanism comprises a material receiving rod connecting rod fixedly connected with the material receiving rod and a material clamping rod connecting rod adaptively connected with the material clamping rod, a first end of the material clamping rod connecting rod is hinged with a rod body connecting pin shaft, and the material clamping rod connecting rod is connected with the material receiving rod connecting rod through a rod body connecting pin shaft;

the second end of the clamping rod connecting rod is located in the clamping rod and can rotate in the clamping rod, and the clamping rod is driven by the clamping rod connecting rod to wind around the rod body connecting pin shaft so as to enable the clamping rod to rotate and then to be far away from the material collecting barrel.

An embedding locking groove which can be matched with the second end of the connecting rod of the clamping rod is arranged in the clamping rod, and a connecting rod elastic body which can be connected with the second end of the connecting rod of the clamping rod is arranged in the embedding locking groove;

after the second end of the clamping rod connecting rod is aligned with the embedding locking groove, the second end of the clamping rod connecting rod can be embedded in the embedding locking groove, and if and only if the second end of the clamping rod connecting rod is embedded in the embedding locking groove, the clamping rod can be in close contact with the end part of the material receiving rod, and the clamping rod connecting rod can be locked with each other; when the second end of the connecting rod of the clamping rod is withdrawn from the embedded locking groove, the clamping rod can rotate around the connecting rod of the clamping rod.

The material collecting device is characterized in that a material barrel groove is formed in the outer wall of the material collecting barrel, one end, corresponding to the material collecting rod, of the material collecting rod can be embedded in the material barrel groove, and the length direction of the material collecting rod is consistent with the length direction of the material collecting barrel.

The second end of the clamping rod connecting rod is in an irregular polygonal shape, the shape of the embedding locking groove is matched with that of the second end of the clamping rod connecting rod, and the clamping rod connecting rod can be embedded in the embedding locking groove only when the second end of the clamping rod connecting rod is opposite to the embedding locking groove;

still set up in the clamping bar and accomodate the chamber with the rotation of clamping bar connecting rod second end adaptation, when the second end of clamping bar connecting rod withdraws from the embedding locking inslot, the second end of clamping bar connecting rod can be located and rotate and accomodate the intracavity.

The material clamping rod is U-shaped, and the material receiving rod connecting rod and the material receiving rod are coaxially distributed.

The film material conveying and stripping device is characterized by further comprising a stripping and cleaning and material arranging mechanism arranged on the film material conveying and stripping path, a film material membrane pulled out from a film material to be stripped loaded in the film material loading mechanism can be in rolling contact with the stripping and cleaning and material arranging mechanism, the surface of the corresponding contact peripheral area of the film material membrane in contact can be swept by the stripping and cleaning and material arranging mechanism, the membrane material membrane in contact is adsorbed after sweeping, and when the film material receiving mechanism is used for simultaneously receiving the film layer to be received stripped from the film material membrane, the film layer to be stripped in the film material membrane and the film layer to be received can be mutually stripped and the film layer to be received can be received after stripping.

The stripping, cleaning and material arranging mechanism comprises a material arranging roller and a plurality of purging and material arranging units which are in adaptive connection with the material arranging roller, wherein the purging and material arranging units are distributed on the material arranging roller in an array manner;

the purging and material arranging unit comprises an adsorption contact cover and a gas outlet control mechanism for controlling the communication state of the adsorption contact cover and a gas storage cavity in the material arranging roller, the adsorption contact cover is in contact with a film layer to be stripped in a film material to be stripped and can be communicated with the gas storage cavity through the gas outlet control mechanism when the adsorption contact cover is extruded on the adsorption contact cover, and gas in the gas storage cavity can perform required purging on the film layer to be stripped after escaping through the adsorption contact cover; when stopping right the extrusion of absorption contact cover, can close the connected state who adsorbs contact cover and gas storage cavity through the control mechanism of giving vent to anger, utilize absorption contact cover can adsorb the rete of waiting to strip that the contact corresponds.

The air outlet control mechanism comprises a purging plug which can be arranged in the air storage cavity, a plug connecting rod connected with the purging plug and a cover body connecting cylinder connected with the plug connecting rod, one end of the cover body connecting cylinder is connected with the adsorption contact cover, the other end of the cover body connecting cylinder is connected with one end of a corrugated connecting pipe, and the other end of the corrugated connecting pipe is hermetically connected with the outer wall of the material arranging roller;

one end of the plug connecting rod is fixedly connected with the inner wall of the cover body connecting cylinder, and the other end of the plug connecting rod penetrates through the cover body connecting cylinder and the corrugated connecting pipe and then is connected with the blowing plug; when the adsorption contact cover is extruded, the adsorption contact cover compresses the corrugated connecting pipe through the cover body connecting cylinder, and the blowing plug can be pushed to move in the gas storage cavity through the plug connecting rod, so that the gas storage cavity is communicated with the adsorption contact cover; when stopping adsorbing the contact cover extrusion, corrugated connection pipe promotes through cover body connecting cylinder and adsorbs the contact cover to can drive through the end cap connecting rod and sweep the end cap and hug closely at the inner wall in gas storage chamber, with the connected state of shutoff absorption contact cover and gas storage chamber.

The physiotherapy drum lifting driving mechanism comprises a lifting driver, and the lifting driver is in adaptive connection with the material arranging drum through a driving connecting frame; the distance between the material arranging roller and the to-be-stripped film material can be adjusted through the lifting driver, the material arranging roller can drive the connecting frame to rotate relatively, and when the to-be-stripped film material on the film material loading mechanism is stripped, the to-be-stripped film layer on the to-be-stripped film material can be in contact with the corresponding blowing material arranging unit on the material arranging roller.

The invention has the advantages that: the film collecting device comprises a film collecting barrel, a clamping mechanism, a film collecting rod, a film clamping rod, a film collecting rod, a film conveying mechanism and a film conveying mechanism, wherein the film collecting barrel is matched with the clamping mechanism, the material collecting rod and the material collecting barrel in the clamping mechanism are fixed, the clamping rod in the clamping mechanism is U-shaped, and when a U-shaped opening of the clamping rod corresponds to the end part of the film collecting barrel and the clamping rod is tightly contacted with the end part of the film collecting rod, the end part of a film body can be clamped on the film collecting barrel through the clamping rod and the clamping state is locked; when the clamping rod is rotated to ensure that the U-shaped opening of the clamping rod is completely not corresponding to the end part of the material receiving cylinder, the film material body can be conveniently separated from the material receiving cylinder, so that when the film is received, the separation efficiency and reliability of the received film can be improved, the waste caused by abrasion is avoided, and the use is convenient; in addition, the membrane material is cleaned through the stripping and cleaning material arranging mechanism, the membrane material stripping mechanism is compatible with the existing membrane material stripping process, the membrane material stripping efficiency is improved, and the safety and the reliability of the stripping process are ensured.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

FIG. 3 is a schematic view of the material clamping mechanism and the material receiving cylinder in a non-clamping state.

FIG. 4 is a schematic view of the clamping mechanism and the material receiving cylinder in a clamping state.

FIG. 5 is a schematic view of the clamping mechanism of the present invention in a clamped state.

FIG. 6 is a schematic view of the clamping mechanism of the present invention in a non-clamping state.

FIG. 7 is a schematic view of the movement of the material clamping rod in the material clamping mechanism of the present invention.

Fig. 8 is a cross-sectional view of the material clamping mechanism of the present invention.

FIG. 9 is a schematic view of the purging and material arranging unit on the material arranging roller.

FIG. 10 is a cross-sectional view of the purge material arranging unit and the material arranging roller in cooperation.

Fig. 11 is a perspective view of the purging and tidying unit of the invention.

FIG. 12 is a schematic view of the present invention showing the state of the gas storage chamber and the adsorption contact cover being closed by the gas outlet control mechanism.

FIG. 13 is a schematic view of the present invention communicating with a gas storage chamber through an adsorbent contact housing.

Description of reference numerals: 1-stripping frame, 2-material carrying disc, 3-film material film body, 4-transition tensioning wheel, 5-material rolling cylinder, 6-material collecting cylinder, 7-stripping driving mechanism, 8-stripping cleaning and material arranging mechanism, 9-lifting driver, 10-material disc adjusting and assembling rod, 11-stripping driving motor, 12-first material rolling cylinder rotating disc, 13-material collecting cylinder shaft, 14-first driving belt, 15-second driving belt, 16-stripping working table, 17-to-be-collected film layer gap, 18-material arranging roller, 19-roller assembling and connecting hole, 20-purging and material arranging unit, 21-gas storage cavity, 22-adsorption contact cover, 23-cover body connecting cylinder, 24-plug connecting rod, 25-purging plug, 26-corrugated connecting pipe, 27-winding cylinder second rotating disc, 28-receiving cylinder rotating disc, 29-receiving cylinder shaft, 30-receiving cylinder groove, 31-receiving rod, 32-clamping rod, 33-rod body connecting pin shaft, 34-receiving rod connecting rod, 35-clamping rod connecting rod, 36-connecting rod elastic body, 37-embedded locking groove and 38-rotating receiving cavity.

Detailed Description

The invention is further illustrated by the following specific figures and examples.

As shown in fig. 1, 2, 3 and 4: when the film is stored, in order to improve the separation efficiency and reliability of the stored film and avoid waste caused by abrasion, the film stripping machine comprises a film material loading mechanism for loading the film material to be stripped and a film material receiving mechanism for storing the stripped film material;

the film material receiving mechanism comprises a receiving barrel 6 and a clamping mechanism capable of clamping the end part of a film layer to be received on the receiving barrel 6, the clamping mechanism comprises a movable clamping rod 32 and a receiving rod 31 fixed on the receiving barrel 6, and the receiving rod 31 is in adaptive connection with the clamping rod 32 through a rod group connecting mechanism;

when the clamping rod 32 moves along the rod group connecting mechanism and is tightly contacted with the end part of the receiving rod 31, the end part of the film layer to be received can be clamped on the receiving cylinder 6 through the clamping rod 32; after the clamping rod 32 is pulled along the rod group connecting mechanism and the clamping rod 32 is separated from the material receiving rod 31, when the clamping rod 32 is driven to rotate away from the material receiving barrel 6, the film body received on the material receiving barrel 6 can be separated from the material receiving barrel 6.

Specifically, the stripping machine can adopt the form that can peel off the membrane material in current commonly used, generally, peels off the quick-witted body and need include that the membrane material carries material mechanism and membrane material receiving mechanism, wherein, carries the material mechanism through the membrane material and accomodates the membrane material of waiting to peel off, and the membrane material of waiting to peel off is generally the disk, and at the in-process of peeling off, the membrane material carries the material mechanism internal rotation or follows the membrane material and carries the material mechanism synchronous rotation to can progressively peel off the membrane material of loading. The stripped membrane material is stored through a membrane material receiving mechanism for subsequent use. Generally, the membrane material to be peeled is formed by coiling the membrane material membrane body 3, when the membrane material loaded in the membrane material carrying mechanism is peeled, namely, the membrane material membrane body 3 pulled out from the membrane material carrying mechanism in the disc-shaped membrane material is peeled, the membrane material membrane body 3 can be divided into a membrane layer to be peeled and a membrane layer to be received after being peeled, after the membrane layer to be received is separated from the membrane layer to be peeled, the membrane layer to be received is finally received through the membrane material receiving mechanism, and the membrane material is specifically consistent with the prior art, specifically known by persons in the art, and is not described herein again.

The film material receiving mechanism comprises a receiving cylinder 6, the receiving cylinder 6 is cylindrical, and the receiving cylinder 6 can rotate in the receiving process. As known to those skilled in the art, when the film to be stored is initially stored, the end of the film to be stored needs to be fixed on the material receiving barrel 6, and the fixing manner includes, but is not limited to, clamping the film to be stored on the material receiving barrel 6. After the film layer to be received is completely received on the material receiving cylinder 6, or after a set amount of film layer is received on the material receiving cylinder 6, the material receiving cylinder 6 needs to be replaced with a new one, and the film layer received on the material receiving cylinder 6 is removed from the material receiving cylinder 6, so that the subsequent use, processing or transportation needs to be facilitated.

In the embodiment of the invention, the material clamping mechanism can be matched with the material receiving barrel 6, namely, when the film is initially received, the end part of the film can be fixed on the material receiving barrel 6 through the material clamping mechanism, namely, the film is clamped on the material receiving barrel 6. Specifically, the material receiving rod 31 of the material clamping mechanism is fixedly connected with the material receiving cylinder 6, the material clamping rod 32 is in a movable state in a non-clamping state, and when a film layer needs to be clamped, the clamping state can be locked, and the material clamping rod 32 and the material receiving rod 31 are both located outside the material receiving cylinder 6. The material receiving rod 31 and the material clamping rod 32 are connected with each other through a rod group connecting mechanism.

During specific implementation, when the clamping rod 32 moves along the length direction of the rod group connecting mechanism and the material receiving rod 31 and is in close contact with the end part of the material receiving rod 31, the clamping rod 32 is matched with the material receiving cylinder 6, the end part of the film layer can be clamped on the outer wall of the material receiving cylinder 6, and the clamping rod 32 can be locked in a clamping state. When the clamp cylinder 32 is pulled so that the end of the clamp rod 32 is separated from the end of the take-up rod 31 from the close contact state, the clamped state of the clamp rod 32 can be released, and after the clamped state of the clamp rod 32 is contacted, the clamp rod 32 is in a free-moving state. When the clamping rod 32 is driven to rotate and is far away from the material receiving barrel 6, the end part of the film layer is not in a clamping state, and the clamping rod 32 cannot obstruct the film layer to be detached from the material receiving barrel 6 after being accommodated, so that the film body can be conveniently separated from the material receiving barrel 6.

In the whole process, can realize pressing from both sides the rete tightly on the receiving cylinder 6 through pressing from both sides tight pole 32, change the position state between tight pole 32 and receiving cylinder 6 through rotating tight pole 32, can not influence the separation of membrane material body and receiving cylinder 6, avoid the waste that causes because of factors such as wearing and tearing to membrane material body among the current, improve the efficiency and the reliability that improve the rete and accomodate the back separation. The film body on the material collecting barrel 6 is formed by collecting the film layer to be collected after the film body 3 is separated on the material collecting barrel 6.

As shown in fig. 5, 6, 7 and 8, the rod set connection mechanism includes a material receiving rod connection rod 34 fixedly connected to the material receiving rod 31 and a material clamping rod connection rod 35 connected to the material clamping rod 32 in a fitting manner, a first end of the material clamping rod connection rod 35 is hinged to the rod connection pin 33, and the material clamping rod connection rod 35 is connected to the material receiving rod connection rod 34 through the rod connection pin 33;

the second end of the material clamping rod connecting rod 35 is located in the material clamping rod 32 and can rotate in the material clamping rod 32, and the material clamping rod 32 is driven by the material clamping rod connecting rod 35 to rotate around the rod body connecting pin shaft 33, so that the material clamping rod 32 is far away from the material collecting barrel 6 after rotating.

In the embodiment of the invention, the material receiving rod connecting rod 34 is fixed with the material receiving rod 31, the material clamping rod connecting rod 35 is connected with the material clamping rod 32 in a matching manner, wherein the first end of the material clamping rod connecting rod 35 is hinged with the rod body connecting pin shaft 33, so that the material clamping rod connecting rod 35 can rotate around the rod body connecting pin shaft 33, the material clamping rod connecting rod 35 can rotate relative to the material receiving rod connecting rod 34 and the material receiving rod 31, and when the material clamping rod connecting rod 35 rotates, the material clamping rod 32 can be driven to rotate, so that the position state between the material clamping rod 32 and the material receiving barrel 6 can be changed. Of course, the material clamping rod 32 can be reset to a clamping state after rotating, that is, after resetting, the end of the film material body can still be clamped on the outer wall of the material receiving cylinder 6 through the matching of the material clamping rod 32 and the material receiving cylinder 6.

During specific implementation, a material barrel groove 30 is formed in the outer wall of the material receiving barrel 6, one end, corresponding to the material receiving rod 31, of the material receiving rod 31 and the material clamping rod 32 can be embedded in the material barrel groove 30, and the length direction of the material receiving rod 31 is consistent with that of the material receiving barrel 6.

In the embodiment of the invention, the material cylinder grooves 30 are distributed on the outer wall of the material receiving cylinder 6 along the length direction of the material receiving cylinder 6, the outer diameter of the material receiving rod 31 is matched with the outer diameter of the material receiving rod 31, the material receiving rod 31 can be arranged in the material cylinder grooves 30, and after the material receiving rod 31 is positioned in the material cylinder grooves 30, the length direction of the material receiving rod 31 is consistent with the length direction of the material receiving cylinder 6.

In addition, the material clamping rod 32 is U-shaped, and the material receiving rod connecting rod 34 and the material receiving rod 31 are coaxially distributed. When the clamping rod 32 is in a U shape, one end of the clamping rod 32 can be matched with the end of the material receiving rod 31, the other end of the clamping rod 32 can be abutted against the end of the material receiving barrel 6, and the clamping rod 32 is matched with the material receiving barrel 6 to prevent the film material body from falling off from the material receiving barrel 6 in the storage process, so that the reliability of the storage process is improved. When the film material body needs to be separated from the material collecting cylinder 6, the clamping rod 32 needs to be rotated, so that the clamping rod 32 does not overlap with the end part of the material collecting cylinder 6, namely, the whole clamping rod 32 rotates to one side of the material collecting cylinder 6, and the film material body is not influenced to be removed from the material collecting cylinder 6.

Furthermore, an embedding locking groove 37 which can be matched with the second end of the material clamping rod connecting rod 35 is arranged in the material clamping rod 32, and a connecting rod elastic body 36 which can be connected with the second end of the material clamping rod connecting rod 35 is arranged in the embedding locking groove 37;

after the second end of the material clamping rod connecting rod 35 is aligned with the embedding locking groove 37, the second end of the material clamping rod connecting rod 35 can be embedded in the embedding locking groove 37, and if and only if the second end of the material clamping rod connecting rod 35 is embedded in the embedding locking groove 37, the material clamping rod 32 can be in close contact with the end part of the material receiving rod 31, and the material clamping rod 32 and the material clamping rod connecting rod 35 can be locked with each other; when the second end of the clamping bar link 35 is withdrawn from the insertion locking groove 37, the clamping bar 32 can be rotated about the clamping bar link 35.

In the embodiment of the invention, the embedding and locking groove 37 is arranged in the end part of the clamping rod 32 corresponding to the material receiving rod 31, and the embedding and locking groove 37 can be matched with the second end of the clamping rod connecting rod 35, namely, the second end of the clamping rod connecting rod 35 can be allowed to be embedded. Set up connecting rod elastomer 36 in embedding locking groove 37, the one end of connecting rod elastomer 36 is connected with the tank bottom of embedding locking groove 37, and the other end of connecting rod elastomer 36 and the second end fixed connection of clamping bar connecting rod 35, and connecting rod elastomer 36 can adopt the spring, or adopt other elastic component, specifically can select as required.

When the clamping bar 32 needs to be brought into close contact with the end of the receiving bar 31, the second end of the clamping bar link 35 needs to be fitted in the fitting-locking groove 37. When the material clamping bar 32 is in close contact with the end of the material clamping bar 31, the end of the material clamping bar 32 corresponding to the material receiving bar 31 is positioned in the material barrel groove 30, and the end of the film body can be pressed in the material barrel groove 30 by the material clamping bar 32. While the clamping rod 32 is kept in the current locking state, the end part of the film material and the receiving cylinder 6 can be clamped all the time.

After the clamping rod 32 is pulled, the second end of the connecting rod 35 can be withdrawn from the embedded locking groove 37, at this time, the clamping rod 32 is relatively in only state, so that the clamping rod 32 can be rotated, that is, the U-shaped opening of the clamping rod 32 is positioned at one side of the material collecting barrel 6. When the connecting rod 35 of the material clamping rod rotates around the connecting pin shaft 33 of the rod body, the material clamping rod 32 can be further driven to move, and the position state between the material clamping rod and the material receiving cylinder 6 can be changed to the maximum extent, as shown in fig. 7.

Further, the second end of the clamping bar connecting rod 35 is irregular and polygonal, the shape of the embedding locking groove 37 is matched with the shape of the second end of the clamping bar connecting rod 35, and the clamping bar connecting rod 35 can be embedded in the embedding locking groove 37 if and only if the second end of the clamping bar connecting rod 35 is opposite to the embedding locking groove 37;

and a rotating containing cavity 38 which can be matched with the second end of the clamping rod connecting rod 35 is further arranged in the clamping rod 32, and when the second end of the clamping rod connecting rod 35 is withdrawn from the embedded locking groove 37, the second end of the clamping rod connecting rod 35 can be positioned in the rotating containing cavity 38.

In the embodiment of the present invention, the second end of the connecting rod 35 is preferably polygonal, such as rectangular. The shape of the insertion locking groove 37 is matched with the second end of the clamping bar link 35, that is, when the second end of the clamping bar link 35 is aligned with the insertion locking groove 37, the second end of the clamping bar link 35 can be inserted into the insertion locking groove 37. And after the second end of the connecting rod 35 of the material clamping rod is embedded in the embedding locking groove 37, the material clamping rod 32 and the connecting rod 35 of the material clamping rod can be locked, and at the moment, the material clamping rod 32 cannot rotate, so that the material clamping rod 32 can be locked. Of course, the material clamping rod 32 can be locked in other manners, which can be selected according to actual needs and will not be described herein.

Of course, still set up in pressing from both sides the material pole 32 and rotate and accomodate chamber 38, rotate and accomodate chamber 38 than the embedding locking groove 37 is more adjacent to the tip of pressing from both sides the material pole 32, rotates and accomodates chamber 38 and inlays and put mutual intercommunication between locking groove 37, rotates the internal diameter of accomodating chamber 37 and is greater than the width of the groove of embedding locking groove 37, also is greater than the width that presss from both sides the width that material pole connecting rod 35 second end was held to the second end of pressing from both sides material pole connecting rod 35 is followed and is inlayed locking groove 37 and withdraw the back, can get into to rotate and accomodate the intracavity 38. When the connecting rod 35 is located in the rotary accommodating cavity 38, the connecting rod 35 is connected to the material clamping rod 32 only through the connecting rod elastic body 36, and the mutual rotation or movement between the material clamping rod 32 and the connecting rod 35 is not affected by the characteristics of the connecting rod elastic body 36. In addition, the connecting rod elastic body 36 can ensure that the clamping rod connecting rod 35 and the clamping rod 32 can be always connected, so that the clamping rod 32 and the clamping rod connecting rod 35 cannot be completely separated.

In specific implementation, when the clamping bar 32 is required to clamp the end of the film body again, the clamping bar 32 is required to be rotated so that the U-shaped opening of the clamping bar 32 corresponds to the end of the material receiving cylinder 6, and then the clamping bar 32 is pushed so that the clamping bar 32 is in close contact with the end of the material receiving bar 31. When the material clamping rod 32 is in close contact with the end of the material receiving rod 31, the material clamping rod connecting rod 35 and part of the material receiving rod connecting rod 34 can be completely accommodated in the material clamping rod 32.

As shown in fig. 1 and 2, the film material collecting device further comprises a stripping and cleaning mechanism 8 disposed on the film material conveying and stripping path, the film material film body 3 pulled out from the film material to be stripped loaded in the film material loading mechanism can be in rolling contact with the stripping and cleaning mechanism 8, the surface of the corresponding contact peripheral area of the film material film body 3 can be swept by the stripping and cleaning mechanism 8, the contacted film material film body 3 is adsorbed after sweeping, and when the film material collecting mechanism is used for simultaneously collecting the film layer to be collected stripped from the film material film body 3, the film layer to be stripped and the film layer to be collected in the film material film body 3 can be mutually stripped and the collection of the stripped film layer to be collected can be realized.

In the embodiment of the invention, a stripping, cleaning and material arranging mechanism 8 is arranged on a conveying and stripping path of the film material film body 3, wherein the stripping, cleaning and material arranging mechanism 8 can be in rolling contact with the film material film body 3, namely in rolling contact with a film layer to be stripped of the film material film body 3. When the film is in rolling contact with the film to be stripped, the contact surrounding area of the film to be stripped can be swept through the stripping and cleaning mechanism 8, so that dust, sundries and the like on the film material film body 3 can be removed, and the pollution of the dust and the sundries to the film to be stored in the subsequent stripping process is avoided. After sweeping the membrane material lamina membranacea 3, peel off and clean reason material mechanism 8 and can also adsorb the membrane material lamina membranacea 3 after cleaning, simultaneously, utilize membrane material receiving agencies to treat the effort of accomodating the rete and accomodate, can realize waiting to peel off the rete in the membrane material lamina membranacea 3 and wait to accomodate the rete interlaminar separation, will wait to accomodate the rete through membrane material receiving agencies at last. Certainly, in the process of separating the film layer to be peeled from the film layer to be received, the film layer to be peeled also needs to be collected, and in the process of collecting the film layer to be peeled, the film layer to be peeled also needs to be pulled so as to ensure the reliability of separating the film layer to be peeled from the film layer to be received.

As shown in fig. 9 and 10, the stripping, cleaning and material arranging mechanism 8 includes a material arranging drum 18 and a plurality of purging and material arranging units 20 adapted to and connected with the material arranging drum 18, and the purging and material arranging units 20 are distributed in an array on the material arranging drum 18;

the purging and material arranging unit 20 comprises an adsorption contact cover 22 and an air outlet control mechanism for controlling the communication state of the adsorption contact cover 22 and the air storage cavity 21 in the material arranging roller 18, when the adsorption contact cover 22 is in contact with the film to be stripped in the film material to be stripped and the adsorption contact cover 22 is extruded, the adsorption contact cover 22 can be communicated with the air storage cavity 21 through the air outlet control mechanism, and the gas in the air storage cavity 21 can perform required purging on the film to be stripped after escaping through the adsorption contact cover 22; when stopping right the extrusion of absorption contact cover 22, can close the communicating state of absorption contact cover 22 and gas storage cavity 21 through giving vent to anger control mechanism, utilize absorption contact cover 22 can adsorb the corresponding rete of waiting to peel off of contact.

In the embodiment of the invention, the stripping, cleaning and material arranging mechanism 8 comprises a material arranging roller 18 and a plurality of purging and material arranging units 20, wherein the material arranging roller 18 is cylindrical, and the purging and material arranging units 20 protrude out of the outer wall of the material arranging roller 18. The material sweeping and arranging units 20 are distributed in an array on the material arranging roller 18, namely, a plurality of rows of material sweeping and arranging units 20 are arranged on the material arranging roller 18, each row of material sweeping and arranging units 20 can be multiple, the specific number and the distribution on the material arranging roller 18 can be selected according to actual needs, so that the effective contact and the adsorption with the film material film body 3 are determined, the separation between the film layer to be peeled and the film layer to be received in the film material film body 3 can be improved, and the description is omitted here.

Specifically, a gas storage cavity 21 is arranged in the material arranging roller 18, and gas which can be used for purging is stored in the gas storage cavity 21; the blowing and material arranging unit 20 comprises an adsorption contact cover 22, the contact with a film layer to be stripped in the film material film body 3 can be realized through the cover body opening of the adsorption contact cover 22, and the state that gas in the gas storage cavity 21 is blown out of the adsorption contact cover 22 can be controlled through the gas outlet control mechanism.

In specific implementation, when the film material film body 3 is peeled off, the blowing and sorting units 20 in the adjacent row on the sorting roller 18 are in contact with the film layer to be peeled of the film material film body 3, along with the pulling movement of the film material film body 3, the blowing and sorting units 20 are in contact with the film material film body 3 to drive the sorting roller 18 to rotate, along with the rotation of the blowing and sorting unit 20, the adsorption contact cover 20 in the blowing and sorting unit 20 can be extruded by utilizing the gap between the sorting roller 18 and the working table top, and after the adsorption contact cover 20 is extruded, the gas outlet control mechanism can control the gas storage cavity 21 to be communicated with the adsorption contact cover 22, so that gas in the gas storage cavity 21 can be blown out through the adsorption contact cover 22, and the blowing of the area around the contact of the film layer to be peeled in the adsorption contact cover 20 and the film material film body 3 can be realized.

Along with the further rotation of the material arranging roller 18 that drives of the film material film body 3, after stopping the extrusion to the adsorption contact cover 20, the air outlet control mechanism cuts off the communication state between the air storage cavity 21 and the adsorption contact cover 22, at this moment, the negative pressure in the adsorption contact cover 22 can be utilized to adsorb the film layer to be stripped in the film material film body 3, so as to realize the respective movement between the film layer to be stripped and the film layer to be collected, and realize the separation of the film layer to be stripped and the film layer to be collected.

During specific work, the purging and material arranging units 20 in each row are matched with the film material film body 3 repeatedly, the material arranging roller 18 can be driven to rotate in the stripping process of the film material film body 3, so that the different purging and material arranging units 20 on the material arranging roller 18 can work circularly, the film material stripping efficiency is improved, and the method is compatible with the existing film material stripping process.

As shown in fig. 11, 12 and 13, the air outlet control mechanism includes a purging plug 25 capable of being placed in the air storage cavity 21, a plug connecting rod 24 connected to the purging plug 25, and a cover connecting cylinder 23 connected to the plug connecting rod 24, one end of the cover connecting cylinder 23 is connected to the adsorption contact cover 22, the other end of the cover connecting cylinder 23 is connected to one end of a corrugated connecting pipe 26, and the other end of the corrugated connecting pipe 26 is hermetically connected to the outer wall of the material arranging drum 18;

one end of the choke plug connecting rod 24 is fixedly connected with the inner wall of the cover connecting cylinder 23, and the other end of the choke plug connecting rod 24 penetrates through the cover connecting cylinder 23 and the corrugated connecting pipe 26 and then is connected with the purging choke plug 25; when the adsorption contact cover 22 is extruded, the adsorption contact cover 22 compresses the corrugated connecting pipe 26 through the cover body connecting cylinder 23, and can push the purging plug 25 to move in the gas storage cavity 21 through the plug connecting rod 24, so that the gas storage cavity 21 can be communicated with the adsorption contact cover 22; when the adsorption contact cover 22 is stopped being extruded, the corrugated connecting pipe 26 pushes the adsorption contact cover 22 through the cover body connecting cylinder 23, so that the purging plug 25 can be driven by the plug connecting rod 24 to be tightly attached to the inner wall of the gas storage cavity 21, and the communication state of the adsorption contact cover 22 and the gas storage cavity 21 is cut off.

In the embodiment of the invention, each purging and material-managing unit 20 comprises a purging plug 25, wherein the purging plug 25 is located in the gas storage cavity 21, and the communication state between the adsorption contact cover 22 and the gas storage cavity 21 in the same purging and material-managing unit 20 as the purging plug 25 can be controlled through the position state of the purging plug 25 in the gas storage cavity 21.

During specific implementation, the adsorption contact cover 22 is trumpet-shaped, is connected with the cover body connecting cylinder 23 at the bottom of the adsorption contact cover 22, and the adsorption contact cover 22 is connected with the corrugated connecting pipe 26 through the cover body connecting cylinder 23, and the adsorption contact cover 22 is communicated with the corrugated connecting pipe 26 and can be fixedly connected with the outer wall of the material arranging roller 18 in a sealing manner through the corrugated connecting pipe 26. One end of the plug connecting rod 24 is connected to the inner wall of the cover connecting cylinder 23, and the other end of the plug connecting rod 24 is connected to the purge plug 25, and generally, is connected to the purge plug 25 through a plurality of plug connecting rods 24 uniformly distributed.

The adsorption contact cover 22, the cover body connecting cylinder 23 and the plug connecting rod 24 are all made of materials with certain hardness, and the corrugated connecting pipe 26 can be contracted and has certain elasticity, namely, the corrugated connecting pipe 26 can be automatically reset after being compressed. When the plug contact cover 22 is squeezed, the plug contact cover 22 moves towards the direction close to the outer wall of the material arranging roller 18, at the moment, the corrugated connecting pipe 26 can be compressed through the cover body connecting cylinder 23, the plug connecting rod 24 can push the purging plug 25 along with the compression of the corrugated connecting pipe 26 to the outer wall of the material arranging roller 18, the purging plug 25 leaves the inner wall corresponding to the gas storage cavity 21, as shown in fig. 7, at the moment, the adsorption contact cover 22 can be communicated with the gas storage cavity 21, gas in the gas storage cavity 21 can enter the adsorption contact cover 22 through the corrugated connecting pipe 26 and the cover body connecting cylinder 23, and finally the gas is blown out through the adsorption contact cover 22. Generally, when the adsorption contact cover 22 is in contact with the film material 3, a part of the cover opening of the adsorption contact cover 22 is in contact with the film material 3 first, and after the contact and the pressing, the gas in the gas reserving chamber 21 can be blown out through the region not in contact with the film material 3.

After extrusion of the adsorption contact cover 22 is stopped, the adsorption contact cover 22 is in a free state, at the moment, the compressed corrugated connecting pipe 26 is reset by using elasticity of the corrugated connecting pipe 26, and in the process that the corrugated connecting pipe 26 is restored to the initial state by using the elasticity, the plug connecting rod 24 can drive the purging plug 25 to move until the purging plug 25 is tightly attached to the inner wall corresponding to the gas storage cavity 21, as shown in fig. 6, at the moment, gas in the gas storage cavity 21 cannot enter the adsorption contact cover 22 any more, and the communication between the adsorption contact cover 22 and the gas storage cavity 21 is cut off.

In specific implementation, the gas storage cavity 21 is pre-filled with purging gas, and after the purging plug 25 is driven by the plug connecting rod 24 to move in the gas storage cavity 21, the gas in the gas storage cavity 21, which is larger than the external atmospheric pressure, can enter the adsorption contact cover 22 and finally be blown out through the adsorption contact cover 22. In order to guarantee the effect that the gas blows off in the gas storage cavity 21, can be connected gas storage cavity 21 with outside aeration equipment, aeration equipment inflates gas storage cavity 21 after, can guarantee that the gas is no less than certain capacity in the gas storage cavity 21, can guarantee that the gas that gets into in the gas storage cavity 21 adsorbs in the contact cover 22 can blow off and can realize sweeping of regional dust, debris around the contact of membrane material membrane body 3, aeration equipment can adopt current commonly used equipment, aeration equipment can pass through pipeline and gas storage cavity 21 intercommunication, when the pipeline is connected with gas storage cavity 21, with do not influence the rotation of reason material cylinder 18 in-service and be accurate, can not influence on the reason material cylinder 18 different reason materials sweep unit 20 respectively with membrane material membrane body 3 roll contact, pipeline and the concrete coupling between gas storage cavity 21 this technical field personnel can be according to actual selection, no longer repeated here.

Further, the air storage cavity 21 is located at the outer ring of the cylinder assembling connecting hole 19 in the material arranging cylinder 18, the air storage cavity 21 is annular, and the air storage cavity 21, the cylinder assembling connecting hole 19 and the material arranging cylinder 18 are coaxially distributed.

In the embodiment of the invention, the roller assembly connecting hole 19 can penetrate through the material arranging roller 18, the material arranging roller 18 is assembled at a required position through the roller assembly connecting hole 19, the air storage cavity 21 is annular, and the air storage cavity 21 can be in adaptive connection with all the blowing and material arranging units 20 on the material arranging roller 18, so that the continuity and convenience of air supply are improved.

As shown in fig. 1 and 2, the physiotherapy equipment further comprises a roller lifting driving mechanism which can be in adaptive connection with the material arranging roller 18, wherein the physiotherapy roller lifting driving mechanism comprises a lifting driver 9, and the lifting driver 9 is in adaptive connection with the material arranging roller 18 through a driving connection frame; the distance between the material arranging roller 18 and the film to be stripped can be adjusted through the lifting driver 9, and the material arranging roller 18 can relatively drive the connecting frame to rotate, so that when the film to be stripped on the film material loading mechanism is stripped, the film layer to be stripped on the film to be stripped can be in contact with the corresponding purging material arranging unit 20 on the material arranging roller 18.

In the embodiment of the present invention, the lifting driver 9 may adopt a lifting cylinder or the like, and may be specifically selected according to the requirement. Can realize managing material cylinder 18 lift drive through lift driver 9 to when peeling off the membrane material membrane body 3, can conveniently arrange the membrane material membrane body 3 in the below of managing the material cylinder 3 in advance, and in peeling off the in-process, adjust the position of managing the material cylinder 18, can make on the reason material cylinder 18 sweep reason material unit 20 can contact with the membrane material membrane body 3, and can extrude and sweep the absorption contact cover 22 in reason material unit 20, concrete position is based on in order to satisfy above-mentioned and membrane material membrane body 3 between the cooperation of peeling off, this no longer gives details.

The material arranging roller 18 can be connected and matched with the driving connecting frame through the roller assembly connecting hole 19, the material arranging roller 18 can rotate relative to the driving connecting frame, the driving connecting frame can adopt the existing common form, and can be selected specifically according to the requirement so as to meet the requirements of rotation of the material arranging roller 18 and matching of the lifting driver 9, and the description is omitted here.

Further, the membrane material carries material mechanism, membrane material receiving agencies to install on peeling off frame 1, membrane material carries material mechanism including can accomodate the year charging tray 2 of waiting to peel off the membrane material and with the charging tray of carrying 2 looks adaptation connection adjusts assembly pole 10, carries charging tray 2 to adjust assembly pole 10 through the charging tray and assembles on peeling off frame 1, and can adjust the position state who carries charging tray 2 through charging tray regulation assembly pole 10.

In the embodiment of the present invention, the film material loading mechanism and the film material receiving mechanism are both mounted on the peeling frame 1, generally, the film material loading mechanism is located above the film material receiving mechanism, and the peeling frame 1 may specifically adopt the existing common form so as to meet the actual requirement, which is not described herein again. The membrane material carries the material mechanism and has the space that holds the membrane material of waiting to peel off including carrying charging tray 2 in carrying charging tray 2, and after the membrane material loaded on carrying charging tray 2, the membrane material can rotate. The material carrying disc 2 is in adaptive connection with the stripping frame 1 through the material disc adjusting and assembling rod 10, the material disc adjusting and assembling rod 10 can adopt a screw rod and other forms, the position state of the material carrying disc 2 can be adjusted through the material disc adjusting and assembling rod 10, the film material film body 3 which can come out from the material carrying disc 2 can stably meet the subsequent stripping requirement, and the reliability and the stability of the stripping operation are improved.

Further, a winding barrel 5 is further arranged on the peeling rack 1, and the winding barrel 5 is adjacent to the film material receiving mechanism on the peeling rack 1;

still including peeling off actuating mechanism 7, can drive the material collecting barrel 6 synchronous revolution in winding barrel 5 and the membrane material receiving mechanism through peeling off actuating mechanism 7, the rete of waiting to receive after peeling off by peeling off and cleaning reason material mechanism 8 is accomodate on material collecting barrel 6 behind 5 coil stocks of winding barrel.

In the embodiment of the invention, when the film layer to be received is received in the receiving cylinder 6, the transition is generally required to be carried out through the winding cylinder 5, so that the film layer to be received is prevented from passing a longer distance to influence the regular receiving on the receiving cylinder 6.

The peeling driving mechanism 7 comprises a peeling driving motor 11, and the peeling driving motor 11 is fixedly arranged on the peeling machine frame 1. The winding cylinder 5 is mounted on the stripping frame 1 by means of a cylinder shaft 29, the cylinder shaft 29 being rotatable on the stripping frame 1 so that the winding cylinder 5 can be driven in rotation by means of the cylinder shaft 29. The material receiving barrel 6 is assembled on the peeling rack 1 through a material receiving barrel shaft 13, and the material receiving barrel 6 can be driven to rotate through the material receiving barrel shaft 13. With the rotation of the material receiving barrel 6, the film layer to be received can be gradually received on the material receiving barrel 6.

The barrel shaft 29 is provided with a first winding barrel rotating disk 12 and a second winding barrel rotating disk 27, and the receiving barrel rotating shaft 13 is provided with a receiving barrel rotating disk 28. The output shaft of the peeling driving motor 11 is connected with the first rotating disc 12 of the material rolling barrel through a first driving belt 14, the second rotating disc 27 of the material rolling barrel is connected with the rotating disc 28 of the material receiving barrel through a second driving belt 15, and when the output shaft of the peeling driving motor 11 rotates, the first driving belt 14 and the second driving belt 15 can simultaneously drive the material receiving barrel shaft 29 and the material receiving barrel shaft 13 to synchronously rotate, so that the material rolling barrel 5 and the material receiving barrel 6 are synchronously rotated. In addition, the peeling driving mechanism 7 may also take other forms, which may be selected according to actual needs, and is not described herein again.

In addition, a plurality of transition tensioning rollers 4 are further arranged on the peeling rack 1, the film to be peeled loaded on the material loading tray 2 can be in rolling contact with the peeling and cleaning material arranging mechanism after being tensioned by the transition tensioning rollers 4, and the film to be received peeled by the peeling and cleaning material arranging mechanism can be received on the material receiving barrel 6 after being coiled by the material coiling barrel 5.

In the embodiment of the invention, the specific number of the transition tension rollers 4 can be selected as required, after the film body 3 which is loaded with the film to be peeled from the material loading tray 2 and pulled out passes through the transition tension rollers 4 and then is cleaned by the peeling and cleaning material arranging mechanism 8, the film is separated, the film to be collected is sent to the material winding barrel 5 through the film to be collected gap 17 between the peeling worktable 16 and the peeling and cleaning material arranging mechanism 8, and the film can be finally collected on the material collecting barrel 6 after being transited by the material winding barrel 5.

In summary, the stripping method of the multi-working-condition automatic feeder, which is disclosed by the invention, is characterized in that a film material to be stripped is loaded into a film material loading mechanism in a stripping machine body; in the process of material collection by using a film material collecting mechanism in a stripping machine body, the stripping cleaning material arranging mechanism 8 can be in rolling contact with a film material film body 3 pulled out from the film material carrying mechanism before being conveyed to the film material collecting mechanism, the stripping cleaning material arranging mechanism 8 can sweep the surface of the corresponding contact peripheral area of the contacted film material film body 3 and adsorb the contacted film material film body 3 after sweeping, and when the film material collecting mechanism is used for simultaneously collecting a to-be-collected film layer stripped from the film material film body 3, the to-be-stripped film layer and the to-be-collected film layer in the film material film body 3 can be mutually stripped and the to-be-collected film layer can be collected after stripping.

Specifically, the film material loading mechanism and the film material receiving mechanism are arranged on the stripping frame 1, the stripping frame 1 is also provided with a material rolling barrel 5, and the material rolling barrel 5 on the stripping frame 1 is adjacent to the film material receiving mechanism; the film collecting mechanism comprises a film collecting mechanism and a stripping driving mechanism, wherein the stripping driving mechanism can drive a material winding barrel 5 and a material collecting barrel 6 in the film material collecting mechanism to synchronously rotate, and a film layer to be collected after being stripped by the stripping cleaning and material arranging mechanism is collected on the material collecting barrel 6 after being coiled by the material winding barrel 5.

In the embodiment of the present invention, the film material loading mechanism, the film material receiving mechanism, the material rolling barrel 5, the peeling driving mechanism, and the peeling cleaning mechanism 8 are specifically matched to complete the separation and storage processes of the film layer to be peeled and the film layer to be stored in the film material film body 3, which are referred to above description and will not be described herein again.