CN112193873A - Material stripping device and feeding and discharging equipment - Google Patents

Abstract

The invention belongs to the technical field of mobile phone production and manufacturing, and discloses a stripping device and feeding and discharging equipment, wherein the stripping device comprises: the stripping workbench is used for bearing an adhesive tape, one side of the adhesive tape, which is far away from the stripping workbench, is an adhesive surface, the adhesive surface is used for adhering sheet materials, a plurality of second assemblies to be assembled are arranged on the sheet materials, and an inlet and an outlet are respectively arranged at two ends of the stripping workbench; the adhesive tape conveying mechanism is arranged below the stripping workbench and is configured to convey the adhesive tape and tension and wind the adhesive tape at the inlet and the outlet respectively, and the parts of the adhesive tape at two sides of the outlet are arranged at an included angle, so that the second assembly part to be assembled is separated from the sheet stock at the outlet. This shell material device, through shelling material workstation and sticky tape transport mechanism's arrangement, along with the removal of sticky tape, just can realize that a plurality of seconds treat that the material is shelled of built-up part, peel off efficiently, and need not both hands contact, avoid the second to treat that built-up part fold appears, improved and shelled the material quality.

Description

Material stripping device and feeding and discharging equipment

Technical Field

The invention relates to the technical field of mobile phone production and manufacturing, in particular to a stripping device and feeding and discharging equipment.

Background

The mobile phone plays an increasingly important role in daily life of people, and the requirements on the mobile phone are improved accordingly. The copper foil is arranged on the substrate surface and combined with the metal base material, so that the mobile phone has excellent conductivity and provides an electromagnetic shielding effect; the loudspeaker generates mechanical vibration to push surrounding air, so that the air medium generates fluctuation, and the conversion of electric energy to sound energy is realized.

The existing copper foils do not exist independently one by one, a plurality of copper foils are arranged on the sheet stock in a rectangular array, and the sheet stock plays a role in bearing the plurality of copper foils. Although this structure is convenient for packaging and transportation, the copper foil needs to be peeled off from the sheet when the copper foil needs to be mounted. The sheet material is specifically a release film, the sheet material is soft, the copper foil is difficult to tear off from the sheet material, if the sheet material is manually peeled off, the copper foil is wrinkled, the subsequent mounting quality is affected, and the sheet material is manually peeled off one by one, so that the production efficiency is low.

Disclosure of Invention

The invention aims to provide a stripping device and a loading and unloading device, which can improve the production efficiency and the assembly quality.

In order to achieve the purpose, the invention adopts the following technical scheme:

a stripping device, comprising:

the stripping workbench is used for bearing an adhesive tape, one side of the adhesive tape, which is far away from the stripping workbench, is an adhesive surface, the adhesive surface is used for adhering sheet materials, a plurality of second assemblies to be assembled are arranged on the sheet materials, and an inlet and an outlet are respectively arranged at two ends of the stripping workbench;

and the adhesive tape conveying mechanism is arranged below the stripping workbench and is configured to convey the adhesive tape and tension and wind the adhesive tape at the inlet and the outlet respectively, and the parts of the adhesive tape positioned at two sides of the outlet are arranged at an included angle, so that the second assembly waiting part is separated from the sheet material at the outlet.

Preferably, a suction nozzle is arranged on the stripping workbench, one end of the suction nozzle is communicated with the vacuum generator, and the other end of the suction nozzle can be adsorbed on the adhesive tape, so that the adhesive tape is attached to the table top of the stripping workbench.

Preferably, the adhesive tape peeling device further comprises a pressing piece, the pressing piece is rotatably arranged on the peeling workbench, and the pressing piece can abut against the sheet material and the second assembly to be assembled and press the sheet material on the adhesive tape.

Preferably, the adhesive tape conveying mechanism comprises an emptying roller, a receiving roller and a receiving driving source, the emptying roller is rotatably connected to the stripping workbench, and the receiving driving source can drive the receiving roller to rotate relative to the stripping workbench, so that the adhesive tape is respectively tensioned and wound on the emptying roller and the receiving roller.

Preferably, the adhesive tape conveying mechanism further comprises an adhesive tape tensioning wheel, the adhesive tape tensioning wheel is rotatably connected to the stripping workbench, the adhesive tape is wound on the adhesive tape tensioning wheel, and the adhesive tape tensioning wheel is used for tensioning the adhesive tape.

Preferably, the material conveying device further comprises a material conveying mechanism, wherein the material conveying mechanism is configured to bear a plurality of pieces of material which are arranged in a stacked mode and can convey the pieces of material to a direction close to the stripping workbench.

Preferably, the feeding mechanism comprises:

the carrying platform is used for carrying a plurality of sheet materials which are arranged in a superposition mode;

the output end of the jacking driving source is connected with the carrying platform, and the jacking driving source can drive the carrying platform and drive the sheet material to vertically move upwards

Preferably, the material conveying mechanism further comprises a fixed frame, the jacking driving source is arranged at the bottom of the fixed frame, and a limiting structure is annularly arranged at the top of the fixed frame and used for limiting the sheet materials.

Preferably, the apparatus further comprises a feeding mechanism configured to grasp the sheet and carry it to a position where the adhesive tape is located at the inlet.

In order to achieve the purpose, the invention also provides feeding and discharging equipment which comprises the stripping device.

The invention has the beneficial effects that:

the stripping device provided by the invention realizes the fixation of the sheet material by utilizing the bonding surface of the adhesive tape, and has the advantages of simple structure and convenience in use. Through sticky tape transport mechanism conveying sticky tape and with the sticky tape respectively around locating import and export, sticky tape transport mechanism realizes the conveying of sticky tape, along with the removal of sticky tape, drives the sheet stock of adhesion on the sticky tape and the second treats that the built-up member moves jointly, and at this moment, because the bearing and the conveying of sticky tape, the sheet stock that will be in the lamellar state is converted into the coil stock that is in transport state, provides convenience for the material loading. Because the sticky tape is in the tensioning state, the part that the sticky tape is located export both sides is the contained angle setting, and the sticky tape is horizontal state at the part of shelling the material workstation, and the sheet stock appears buckling at the export along with the sticky tape, and the second is waited to assemble the piece and is still horizontal state this moment for the second waits to assemble the piece and the sheet stock separation, realizes that the second waits to assemble the material process of shelling of piece. In this in-process, through the arrangement of shelling material workstation and sticky tape transport mechanism, along with the removal of sticky tape, just can realize that a plurality of seconds treat the material of shelling of built-up member, peel off efficiently, and need not both hands contact, avoid the second to treat that the built-up member fold appears, improved and shelled the material quality to guarantee the equipment precision of follow-up finished product work piece.

The feeding and discharging equipment provided by the invention is time-saving and labor-saving, reduces the labor intensity of operators, saves the production time and further improves the production efficiency.

Drawings

FIG. 1 is a schematic structural view of a loading and unloading apparatus according to the present invention;

FIG. 2 is a schematic structural view of a feeding device in the loading and unloading apparatus of the present invention;

FIG. 3 is a schematic structural view of another view of the feeding device in the loading and unloading apparatus of the present invention;

FIG. 4 is a schematic structural view of a view angle of a stripping device in the loading and unloading apparatus according to the present invention;

FIG. 5 is a schematic structural view of another view angle of the stripping device in the loading and unloading apparatus of the present invention;

FIG. 6 is a schematic structural view of one of the material receiving rollers of the stripping device in the loading and unloading apparatus of the present invention;

FIG. 7 is a schematic structural view of a feeding mechanism of the loading and unloading apparatus of the present invention;

FIG. 8 is a schematic structural view of a feeding mechanism of the feeding and discharging apparatus of the present invention;

FIG. 9 is a schematic structural diagram of an assembling apparatus in the loading/unloading apparatus according to the present invention;

FIG. 10 is a schematic structural view of a second assembly member of the loading and unloading apparatus of the present invention;

FIG. 11 is a schematic structural view of a conveying device in the loading and unloading apparatus according to the present invention;

fig. 12 is a schematic structural view of a jacking assembly in the loading and unloading apparatus of the present invention.

In the figure:

1. a feeding device; 11. a feeding frame; 10. a material tray;

12. a temporary storage mechanism; 121. an idle load part; 122. a full load part; 123. an avoidance groove; 124. a door body; 125. a baffle plate;

13. a lifting mechanism; 131. a lifting plate; 132. a first motor; 133. a first driven wheel; 134. a first belt; 135. a screw; 136. a connecting plate; 137. a second tensioning wheel; 138. a third tension pulley;

14. a carrying mechanism; 141. a connecting frame; 142. a first adsorption module; 143. a second motor; 144. a driving wheel; 145. a second driven wheel; 146. a second belt; 147. a first lifting drive member;

2. a stripping device; 21. a material stripping workbench; 22. a tape transport mechanism; 23. a material conveying mechanism; 24. a feeding mechanism;

211. an inlet; 212. an outlet; 213. a compression member;

221. a discharge roller; 222. a material receiving roller; 223. a material receiving driving source; 224. a material receiving driving wheel; 225. a first drive belt; 226. a second belt; 227. pressing the roller; 228. a material receiving frame; 229. a tape tensioning wheel; 2281. a spring; 2282. a connecting bolt; 2283. a damping member; 2284. rotating the disc; 2285. a limiting member;

231. a fixing frame; 232. a stage; 233. a jacking driving source; 234. a limiting structure;

241. a drive assembly; 242. an adsorption component; 2421. a suction cup;

2411. a feeding X-direction driving source; 2412. feeding an X-direction platform; 2413. a feeding Z-direction driving source; 2414. feeding a Z-direction platform;

3. assembling the device; 31. a first assembly component; 32. a second assembly component; 33. a moving assembly; 34. a first photographing section; 35. a second photographing section;

321. a clamping member; 3211. a main suction block; 3212. an auxiliary suction block;

322. a rotating member; 3221. a rotating electric machine; 3222. a rotating table;

323. a lifting member; 3231. a lifting drive member; 3232. a lifting platform;

331. a moving X-direction drive source; 332. moving the X-direction platform; 333. a moving Y-direction drive source; 334. moving the Y-direction platform;

4. a conveying device; 41. a delivery assembly; 42. a jacking assembly; 43. a code scanning mechanism; 44. a first detection assembly; 45. a second detection assembly; 46. a resisting component; 461. a resisting cylinder; 462. a stop block;

411. a conveying drive source; 412. a transport transmission assembly; 413. a conveyor belt;

421. an assembly table; 422. jacking a driving piece;

5. and (4) a bracket.

Detailed Description

In order to make the technical problems solved, technical solutions adopted and technical effects achieved by the present invention clearer, the technical solutions of the embodiments of the present invention will be described in further detail below with reference to the accompanying drawings, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

The last unloading equipment that this embodiment provided treats an equipment piece with first treating an equipment piece and second and treats an equipment piece and assemble to holding on the carrier, in this embodiment with, go up unloading equipment cell-phone and explain for the example, the cell-phone includes the center, copper foil and speaker, be provided with first holding tank in the center, first holding tank is used for holding first treating an equipment piece, the second holding tank is used for holding the second and treats an equipment piece, the speaker is placed in the first holding tank of center, the copper foil pastes the dress to the second holding tank of center in, first treating an equipment piece is the speaker promptly, the second treats an equipment piece and is the copper foil, the carrier is the center. Of course, the assembling device is not limited to assembling the middle frame, the loudspeaker and the copper foil of the mobile phone, and other electronic components can be assembled.

As shown in fig. 1, the feeding and discharging device provided by the embodiment comprises a support 5, a device main body and a shell, wherein the device main body is arranged on the support 5, the support 5 plays a role of integral support, and the shell covers the device main body and the support 5 to prevent the device main body from being polluted, so that the assembling precision of the device main body is ensured. The width direction of the bracket 5 is defined as X direction, the length direction is Y direction, the height direction is Z direction, and the X direction, the Y direction and the Z direction are mutually vertical in pairs, wherein the X direction, the Y direction and the Z direction only represent space directions and have no substantial significance.

This last unloading equipment's equipment main part includes feedway 1, shell material device 2, conveyor 4 and assembly quality 3, feedway 1, conveyor 4 and shell material device 2 and set gradually along Y, feedway 1 is used for carrying the first piece of waiting to assemble, shell material device 2 and be used for carrying the second and wait to assemble the piece, feedway 1 with shell material device 2 and set up respectively in conveyor 4's both sides, be convenient for carry first piece of waiting to assemble and the second respectively to conveyor 4 and wait to assemble the piece, and mutual interference in the direction of delivery can not appear. The assembling device 3 may be disposed between the conveying device 4 and the feeding device 1, and between the conveying device 4 and the stripping device 2, and the assembling device 3 is configured to grasp a first to-be-assembled member located on the feeding device 1 and a second to-be-assembled member located on the stripping device 2, and mount the first to-be-assembled member and the second to-be-assembled member with carriers located on an assembling station, respectively. The two ends of the conveying device 4 are provided with a feeding port and a discharging port, the conveying device 4 is configured to convey the bearing piece located at the feeding port to an assembling station, and convey the finished workpiece after assembling to the discharging port.

The feeding and discharging equipment provided by the embodiment is characterized in that after the bearing piece is placed in the feeding port, the conveying device 4 conveys the bearing piece to the assembling station, meanwhile, the assembling device 3 grabs a first to-be-assembled piece positioned on the feeding device 1 and a second to-be-assembled piece positioned on the stripping device 2, and pastes the first to-be-assembled piece and the second to-be-assembled piece with the bearing piece positioned on the assembling station respectively, so that after the first to-be-assembled piece, the second to-be-assembled piece and the bearing piece complete the assembling process, the conveying device 4 conveys the finished product workpiece which is completed to the discharging port.

Through the mutual cooperation of the feeding device 1, the stripping device 2, the conveying device 4 and the assembling device 3, time and labor are saved, the labor intensity of operators is reduced, the production time is saved, and the production efficiency is improved. Meanwhile, the skill requirement on operators is reduced in the whole assembling process, the conditions of folds and the like caused by the fact that two hands contact the first to-be-assembled part and the second to-be-assembled part are avoided, the assembling quality is guaranteed, and the assembling qualified rate is improved.

The feeding device 1 can provide a first to-be-assembled part for the assembling device 3, and can continuously feed the assembling device 3, so that the working efficiency of the feeding and discharging equipment is ensured.

The specific structure of the supply device 1 will be described first.

As shown in fig. 2, the feeding device 1 includes a feeding frame 11, a temporary storage mechanism 12, a lifting mechanism 13, and a carrying mechanism 14. The temporary storage mechanism 12 is slidably disposed on the supply rack 11 to switch between the inside of the supply rack 11 and the outside of the supply rack 11, when the temporary storage mechanism 12 is located inside the supply rack 11, the temporary storage mechanism 12 is located at a supply position, and when the temporary storage mechanism 12 is located outside the supply rack 11, the temporary storage mechanism 12 is located at a loading position.

The buffer mechanism 12 has a full loading section 122 for loading a full tray 10 and an empty loading section 121 for loading an empty tray 10. The lifting mechanism 13 is disposed on the feeding frame 11, and when the temporary storage mechanism 12 is located at the loading position, the lifting mechanism 13 can lift the tray 10 placed on the full loading portion 122 to the preset position. The conveying mechanism 14 is disposed at the upper end of the supply frame 11, and when the temporary storage mechanism 12 is located at the loading position, the conveying mechanism 14 is configured to convey the uppermost tray 10 on the lifting mechanism 13 to the empty loading part 121.

The working process of the feeding device 1 is as follows: the temporary storage mechanism 12 is pulled out to the feeding position from the feeding rack 11, a plurality of stacked full-load trays 10 are manually placed in the full-load part 122, the empty tray 10 in the empty-load part 121 is taken out at the same time, then the tray 10 is pushed to the feeding position, the lifting mechanism 13 lifts the tray 10 placed on the full-load part 122 to a preset position, so that the first to-be-assembled part in the tray 10 at the top is taken away, after all the first to-be-assembled parts in the tray 10 at the top are taken away, the carrying mechanism 14 carries the tray 10 to the empty-load part 121, and the lifting mechanism 13 and the carrying mechanism 14 repeat the above actions until all the trays 10 are taken out. The feeding device 1 provided by the embodiment does not need to manually take and place a single material tray 10, so that the working efficiency is improved, and the working strength is reduced.

As shown in fig. 2, when a plurality of trays 10 are stacked in the full loading portion 122 and the empty loading portion 121, in order to prevent the trays 10 from falling down, the temporary storage mechanism 12 further includes a door 124 and a plurality of baffles 125, and the door 124 is connected to one end of the empty loading portion 121 away from the full loading portion 122 and is located outside the feeding rack 11. The plurality of baffle plates 125 are arranged at intervals on the peripheries of the empty loading part 121 and the full loading part 122, the baffle plates 125 arranged on the periphery of the empty loading part 121, the door body 124 and the empty loading part 121 enclose a first space for stacking empty trays 10, and the baffle plates 125 arranged on the periphery of the full loading part 122 and the full loading part 122 enclose a second space for stacking full trays 10.

Specifically, the lifting mechanism 13 includes a first driving assembly connected to the supply frame 11 and a lifting plate 131 connected to an output end of the first driving assembly, and the first driving assembly drives the lifting plate 131 to reciprocate in a vertical direction.

As shown in fig. 2 and fig. 3, specifically, the first driving assembly is a nut-screw mechanism driven by a pulley and a belt, the first driving assembly includes a first motor 132, two first driven pulleys 133, a first belt 134 and two screws 135, a cylinder of the first motor 132 is connected to the feeding frame 11, a driving pulley group is connected to an output shaft of the first motor 132, the first belt 134 is sleeved on the driving pulley group and the two first driven pulleys 133, and the two screws 135 are disposed on the feeding frame 11 at intervals and rotatably. The first driven pulley 133 is coupled to a lower end of a screw 135, and the lifting plate 131 is coupled to the screw 135 by a nut. The output shaft of first motor 132 rotates, drives the driving pulley group and rotates, and the driving pulley group drives the belt motion, and the belt drives two from clockwise (anticlockwise) rotations of driving wheel, and two are first from driving wheel 133 and drive screw 135 clockwise (anticlockwise) rotations to make nut and lifting plate 131 rise. The output shaft of first motor 132 is rotated in reverse, drives driving pulley group antiport, and driving pulley group drives the belt motion, and the belt drives two first from the anticlockwise (clockwise) rotation of driving wheel 133, and two first from the driving wheel 133 drive screw 135 anticlockwise (clockwise) rotation to make nut and lifting plate 131 descend.

As shown in fig. 3, the driving wheel set includes a first tensioning wheel, a second tensioning wheel 137 and a third tensioning wheel 138 which are arranged in a triangle, the first tensioning wheel is connected with the output end of the first motor 132, the cylinder of the first motor 132 is arranged on the supply frame 11 and can slide along the direction perpendicular to the arrangement direction of the second tensioning wheel 137 and the third tensioning wheel 138. For making first motor 132 can slide, the cylinder body and the connecting plate 136 of first motor 132 are connected, offer the rectangular hole that extends along first motor 132 slip direction on the connecting plate 136, offer the screw hole on the support 5, first motor 132 slides and targets in place the back, and the bolt passes rectangular hole and is connected with the screw hole, and the nut and the connecting plate 136 butt of bolt are in order to realize the fixed of first motor 132.

As shown in fig. 2, in order to enable the lifting plates 131 to lift the tray 10 located in the full loading portion 122 and not to affect the sliding of the temporary storage mechanism 12, the two lifting plates 131 are arranged at intervals, the avoidance slots 123 are respectively formed at both ends of the full loading portion 122, and the lifting plates 131 can pass through the avoidance slots 123 to abut against the lower surface of the tray 10 at the lowest side. When all the trays 10 on the lifting plate 131 are conveyed to the empty loading part 121 by the conveying mechanism 14, the temporary storage mechanism 12 is extracted, and the first driving assembly drives the lifting plate 131 to move downwards to a position lower than the full loading part 122, so as to prevent the temporary storage mechanism 12 from being pushed to the loading position. When the temporary storage mechanism 12 is located at the feeding position inside the feeding frame 11, the first driving assembly drives the lifting plate 131 to move upward until abutting against the lower surface of the tray 10 located at the lowest side, and the first driving assembly drives the lifting plate 131 to continue moving upward until the tray 10 located at the highest side is located at the preset position.

In order to enable the carrying mechanism 14 to carry the tray 10, the carrying mechanism 14 includes a second driving component, a connecting frame 141 and a first adsorbing component 142, the second driving component is disposed at the upper end of the feeding frame 11, the second driving component is connected with the connecting frame 141 and drives the connecting frame 141 to move in a reciprocating manner, and the first adsorbing component 142 is disposed at the connecting frame 141 and can adsorb the tray 10.

Specifically, the second driving assembly is a pulley and belt transmission structure, which includes a second motor 143, a second belt 146, a driving pulley 144, and a second driven pulley 145. The second motor 143 is connected in the upper end of feed frame 11, and driving wheel 144 and the second set of taking turns 145 interval setting, and the output shaft and the driving wheel 144 of second motor 143 are connected, and the second is followed driving wheel 145 and is rotated and set up in the upper end of feed frame 11, and outside driving wheel 144 and the second driven wheel 145 were located to the transmission cover of second belt 146, connection frame 141 was connected with second belt 146. The second motor 143 rotates clockwise and counterclockwise to reciprocate the connection frame 141.

In order to avoid interference between the first adsorption component 142 of the carrying mechanism 14 and the material tray 10, the carrying mechanism 14 further includes a first lifting driving component 147, a cylinder of the first lifting driving component 147 is connected to the connecting frame 141, the first adsorption component 142 is connected to an output end of the first lifting driving component 147, when the material tray 10 needs to be adsorbed, the first driving component drives the connecting frame 141 to move right above the material tray 10, the first lifting driving component 147 drives the first adsorption component 142 to move downwards to adsorb the material tray 10, then, the first lifting driving component 147 drives the first adsorption component 142 to move upwards, the first driving component drives the connecting frame 141 to move right above the idle part 121, the first adsorption component 142 cancels adsorption of the material tray 10, and the material tray 10 falls to the idle part 121 or falls to the material tray 10 located in the idle part 121 under the action of gravity.

Dropping the tray 10 onto the empty loading section 121 or the tray 10 located in the empty loading section 121 causes the buffer mechanism 12 to vibrate, but since the full tray 10 has been lifted by the lifting plate 131, the full tray 10 does not contact the buffer mechanism 12, and therefore, the material in the full tray 10 is not affected by the vibration of the buffer mechanism 12.

In order to improve the mechanism compactness of the lifting mechanism 13, the cylinder of the first lifting driving member 147 is connected to the upper side of the connecting frame 141, the output end thereof is slidably disposed through the connecting frame 141 along the vertical direction, and the first absorbing assembly 142 is located below the first lifting driving member 147.

The stripping device 2 can provide a second standby assembly for the assembling device 3, and can uninterruptedly supply materials for the assembling device 3, so that the working efficiency of the feeding and discharging equipment is ensured. The second assembly part to be assembled specifically refers to copper foils, the existing copper foils do not exist independently one by one, a plurality of copper foils are arranged on the copper foils in a rectangular array, the copper foils play a role in bearing the plurality of copper foils, and the structure is convenient to transport. When the copper foil needs to be mounted, the copper foil needs to be stripped from a sheet material, and the sheet material can also be called a release film. Because the sheet material is soft, the copper foil is difficult to tear off the sheet material, if the sheet material is manually stripped, the copper foil is wrinkled, the subsequent mounting quality is affected, and the sheet material is manually stripped one by one, so that the production efficiency is low.

In order to solve the problem, as shown in fig. 4, the stripping device 2 provided by the present embodiment includes a stripping table 21 and a tape conveying mechanism 22, the stripping table 21 is similar to a rectangular parallelepiped in shape, the stripping table 21 is used for carrying a tape, one side of the tape away from the stripping table 21 is an adhesive surface, the adhesive surface is used for adhering the sheet, a plurality of second components to be assembled are arranged on the sheet, and an inlet 211 and an outlet 212 are respectively arranged at two ends of the stripping table 21. The adhesive tape conveying mechanism 22 is disposed below the peeling table 21, the adhesive tape conveying mechanism 22 is configured to convey an adhesive tape and tension and wind the adhesive tape around the inlet 211 and the outlet 212, respectively, and portions of the adhesive tape on both sides of the outlet 212 are disposed at an included angle, so that the second to-be-assembled member is separated from the sheet material at the outlet 212. Optionally, the inlet 211 and the outlet 212 are two short sides of the stripping table 21, or a through hole may be provided at an end of the stripping table 21 away from the inlet 211, where the through hole is located at the outlet 212, and the adhesive tape enters the stripping table 21 from the inlet 211 and passes through the through hole.

The stripping device 2 provided by the embodiment realizes the fixation of the sheet material by utilizing the bonding surface of the adhesive tape, and has the advantages of simple structure and convenient use. The adhesive tape is conveyed by the adhesive tape conveying mechanism 22 and wound around the inlet 211 and the outlet 212 respectively, the adhesive tape conveying mechanism 22 conveys the adhesive tape, the sheet material adhered to the adhesive tape and the second to-be-assembled part are driven to move together along with the movement of the adhesive tape, and at the moment, the sheet material in a sheet state is converted into a coil material in a conveying state due to the bearing and conveying of the adhesive tape, so that convenience is provided for feeding. Because the adhesive tape is in a tensioned state, the parts of the adhesive tape positioned at the two sides of the outlet 212 are arranged in an included angle, the part of the adhesive tape on the stripping workbench 21 is in a horizontal state, the sheet material is bent at the outlet 212 along with the adhesive tape, and at the moment, the second assembly waiting part is still in a horizontal state, so that the second assembly waiting part is separated from the sheet material, and the stripping process of the second assembly waiting part is realized. In this process, through the arrangement of shelling material workstation 21 and sticky tape transport mechanism 22, along with the removal of sticky tape, just can realize that a plurality of seconds treat the shelling of built-up member material, peel off efficiently, and need not both hands contact, avoid the second to treat that built-up member fold appears, improved and shelled the material quality to guarantee the equipment precision of follow-up finished product work piece.

In order to ensure the flatness of the adhesive tape, a suction nozzle is arranged on the stripping workbench 21, one end of the suction nozzle is communicated with the vacuum generator, and the other end of the suction nozzle can be adsorbed on the adhesive tape, so that the adhesive tape is attached to the table top of the stripping workbench 21. Optionally, arrange a plurality of suction nozzles along rectangular array on the mesa of shelling material workstation 21, adopt vacuum adsorption's mode, adsorb the sticky tape, avoid having great space between sticky tape and the mesa, lead to the sticky tape unevenness to guarantee the second and treat the roughness of built-up member. It can be understood that the suction force of the suction nozzle is set within a certain range, i.e., the suction and leveling of the adhesive tape can be ensured, and a large moving resistance to the movement of the adhesive tape cannot be caused.

Since the stripping of the second assembly-to-be-assembled member is affected if the adhesion between the sheet material and the adhesive tape is not firm, the stripping device 2 further includes a pressing member 213, as shown in fig. 4, in order to solve the problem, the pressing member 213 is cylindrical, the pressing member 213 is rotatably disposed on the stripping table 21, and the pressing member 213 can abut against the sheet material and the second assembly-to-be-assembled member and press the sheet material against the adhesive tape. The pressing piece 213 is rotatably arranged on the stripping workbench 21, so that the two purposes are achieved, firstly, along with the movement of the adhesive tape, the pressing piece 213 is matched with the sheet material and the second assembly piece to be assembled in a rolling mode, the bonding surface of the sheet material and the adhesive tape is more stable, and the sheet material can always move along with the adhesive tape, so that the stripping effect of the second assembly piece to be assembled from the sheet material is ensured. Secondly, the pressing member 213 acts as a rolling pin, and serves to smooth the second member to be assembled and the sheet material, thereby further ensuring the flatness of the second member to be assembled.

Further, the tape conveying mechanism 22 includes an emptying roller 221, a receiving roller 222 and a receiving driving source 223, the emptying roller 221 is rotatably connected to the peeling table 21, and the receiving driving source 223 can drive the receiving roller 222 to rotate relative to the peeling table 21, so that the tapes are respectively tensioned and wound on the emptying roller 221 and the receiving roller 222. The feeding of the adhesive tape is completed by the mutual cooperation of the discharging roller 221 and the receiving roller 222, and it can be understood that the discharging roller 221 discharges the adhesive tape only, and the receiving roller 222 winds the adhesive tape adhered with the sheet material.

Since the material receiving roller 222 and the material receiving driving source 223 are driving components for moving the adhesive tape, in order to ensure rapidity and accuracy of material receiving, the number of the material receiving rollers 222 may be two. As shown in fig. 5, a material receiving driving wheel 224 is arranged at an output end of the material receiving driving source 223, a first annular groove and a second annular groove are arranged on an outer wall of the material receiving driving wheel 224 at intervals, a first driving belt 225 is respectively tensioned and wound on the first annular groove and one of the material receiving rollers 222, a second driving belt 226 is respectively tensioned and wound on the second annular groove and the other one of the material receiving rollers 222, the material receiving driving source 223 drives the material receiving driving wheel 224 to rotate, the two material receiving rollers 222 are driven to rotate along with the movement of the first driving belt 225 and the second driving belt 226, and by adopting the manner, the synchronous rotation of the two material receiving rollers 222 is ensured, the two material receiving rollers 222 are matched with each other to receive materials, and the rapidity and the reliability of material receiving are improved.

Optionally, as shown in fig. 6, a pressing roller 227 is disposed above one of the material receiving rollers 222, the material receiving roller 222 and the pressing roller 227 are both rotatably disposed on the material receiving frame 228, a gap between the material receiving roller 222 and the pressing roller 227 is small, and only the adhesive tape and the sheet material can be accommodated, and two sides of the adhesive tape respectively abut against the material receiving roller 222 and the pressing roller 227, so that the adhesive tape at the outlet 212 is in a tight state. Specifically, the tape conveying mechanism 22 further includes a spring 2281, a connecting bolt 2282, a damping member 2283, a rotating disc 2284 and a limiting member 2285, all of which are connected to the material receiving frame 228, the connecting bolt 2282 is disposed through the spring 2281, the upper end of the spring 2281 abuts against the inner wall of the material receiving frame 228, the lower end of the spring 2281 abuts against the damping member 2283, one side of the damping member 2283, which is close to the material receiving roller 222, is provided with a V-shaped groove, the rotating shaft of the material receiving roller 222 is disposed in the V-shaped groove and abuts against the inner wall of the V-shaped groove, and the rotating shaft is limited while the rotation of the rotating shaft is ensured, so as to. By means of the elasticity of the spring 2281, good compression can be ensured no matter whether a pure adhesive tape part is arranged between the material receiving roller 222 and the pressing roller 227 or a common part of the adhesive tape and the sheet material. The outside of receiving the material frame 228 is provided with the locating part 2285, and the locating part 2285 is bar structure, and the rolling disc 2284 has been worn to locate in the pivot, has seted up the work plane on the outer wall of rolling disc 2284, and the drive handle drives the rolling disc 2284 and rotates, makes the work plane butt in the top surface of locating part 2285, has played spacing effect.

Further, as shown in fig. 5, the tape conveying mechanism 22 further includes a tape tensioning wheel 229, the tape tensioning wheel 229 is rotatably connected to the peeling table 21, the tape is wound around the tape tensioning wheel 229, and the tape tensioning wheel 229 is used for tensioning the tape. Alternatively, the number of the tape tensioning rollers 229 is two, and the two tape tensioning rollers 229 are respectively disposed on both sides of the peeling table 21.

Since the plurality of sheets bearing the second components to be assembled are stacked, in order to facilitate loading of the sheets, as shown in fig. 7, the stripping device 2 further includes a feeding mechanism 23, and the feeding mechanism 23 is configured to bear the plurality of sheets stacked and can feed the plurality of sheets in a direction close to the stripping table 21. Through setting up defeated material mechanism 23, realize the material loading of sheet stock, compare with the artifical manual material loading of prior art, save production time, alleviate operating personnel's intensity of labour, production efficiency is higher.

Specifically, as shown in fig. 7, the feeding mechanism 23 includes a fixing frame 231, a stage 232, and a lift-up driving source 233, the fixing frame 231 is connected to the outside of the support 5 or the stripping table 21, the lift-up driving source 233 is provided on the fixing frame 231, and the fixing frame 231 plays a role of mounting the lift-up driving source 233. The output end of the jacking driving source 233 is connected to the carrier 232, the carrier 232 is used for bearing a plurality of sheet materials which are arranged in a stacked mode, and the jacking driving source 233 can drive the carrier 232 and drive the sheet materials to move vertically upwards, namely the sheet materials move along the Z direction. When the carrier 232 is located at the lowest end, a plurality of sheet materials are placed on the carrier 232, and under the driving action of the jacking driving source 233, the carrier 232 rises to the topmost end, so that the feeding of the sheet materials is realized.

Jacking driving source 233 specifically is jacking cylinder or jacking motor, the preferred jacking driving source 233 of this embodiment is jacking motor, jacking motor's output is connected with the lead screw, the lead screw is along the Z to setting up, lead screw nut cover is located on the lead screw and is connected in microscope carrier 232 through the mounting panel, jacking motor drive lead screw rotates, lead screw nut is when rotating along with the lead screw, lead screw nut moves along the axial direction of lead screw to drive microscope carrier 232 and sheet stock along Z to the removal. The jacking motor is preferably a servo motor, the stepping value of the servo motor can be controlled, if the position sensor cannot detect the preset position, the fact that the feeding of the sheet material located on the topmost layer is finished means that the servo motor can step by the thickness of at least one sheet material, and the situation of empty materials is avoided.

During the sheet material loading process, the stage 232 is disposed in the fixing frame 231 and can move in the Z direction relative to the fixing frame 231, and the fixing frame 231 plays a role of accommodating and limiting the stage 232. The bottom of fixed frame 231 is provided with jacking driving source 233, encircles at the top of fixed frame 231 and is equipped with limit structure 234, and limit structure 234 is used for spacing sheet stock. Specifically, the limiting strips extend inwards from the top surface of the fixing frame 231, the limiting strips are arranged around the fixing frame 231 in a ring mode, and when the carrier 232 rises to the highest point, the limiting strips abut against the sheet material on the uppermost layer, so that the situation that the lifting position of the sheet material is too high by the jacking driving source 233, and the feeding accuracy of the sheet material is affected is avoided.

After the feeding of the sheet is completed, it is necessary to carry the sheet to the inlet 211 of the peeling table 21, and for this purpose, as shown in fig. 8, the peeling device 2 further includes a feeding mechanism 24, and the feeding mechanism 24 is configured to grasp the sheet on the feeding mechanism 23 and carry it to a position where the adhesive tape is located at the inlet 211. Through setting up feed mechanism 24, realize the transport of sheet stock, compare with the artifical manual transport of prior art, save production time, alleviate operating personnel's intensity of labour, production efficiency is higher.

The feeding mechanism 24 includes a driving assembly 241 and an adsorbing assembly 242, the adsorbing assembly 242 is used for adsorbing the sheet material, and the driving assembly 241 is connected to the adsorbing assembly 242 and can drive the adsorbing assembly 242 to move along the X direction and the Z direction, respectively. Specifically, the driving assembly 241 includes a feeding X-direction driving source 2411, a feeding X-direction platform 2412, a feeding Z-direction driving source 2413 and a feeding Z-direction platform 2414, the feeding X-direction driving source 2411 is disposed on the bracket 5, an output end of the feeding X-direction driving source 2411 is connected to the feeding X-direction platform 2412, and the feeding X-direction driving source 2411 can drive the feeding X-direction platform 2412 to move along the X-direction. A feeding Z-direction driving source 2413 is arranged on the feeding X-direction platform 2412, the output end of the feeding Z-direction driving source 2413 is connected to the feeding Z-direction platform 2414, and the feeding Z-direction driving source 2413 can drive the feeding Z-direction platform 2414 to move along the Z direction. An adsorption component 242 is arranged on the feeding Z-direction platform 2414, and under the combined action of the feeding Z-direction driving source 2413 and the feeding Z-direction platform 2414, the adsorption component 242 can move along the Z direction, so that the adsorption component 242 can grab and release the sheet materials conveniently; under the combined action of the feeding X-direction driving source 2411 and the feeding X-direction platform 2412, the adsorbing assembly 242 can move in the X direction, so that the adsorbing assembly 242 can convey the sheet materials from the conveying mechanism 23 to the stripping table 21.

Specifically, the adsorption assembly 242 comprises a suction disc 2421, the suction disc 2421 is arranged on a feeding Z-direction platform 2414, a vacuum generator is communicated with the suction disc 2421, the vacuum generator extracts vacuum of the suction disc 2421, the sheet material is adsorbed on the suction disc 2421 by using vacuum negative pressure, and the sheet material fixing effect is good. Meanwhile, the shape of the sucking disc 2421 is a cuboid structure, the adsorption surface of the sucking disc 2421 is flat, the sheet material is prevented from being bent, and the flatness of the sheet material is guaranteed.

The working process of the stripping device 2 is as follows:

after a plurality of sheet materials are stacked on the carrier 232, the jacking driving source 233 can drive the carrier 232 and drive the sheet materials to move in the Z direction.

After the feeding of the sheet materials is completed, the driving component 241 of the feeding mechanism 24 drives the suction component 242 to move in a direction close to the carrier 232, so that the suction component 242 sucks the sheet material positioned at the uppermost layer, and then the driving component 241 drives the suction component 242 to move in a direction close to the stripping table 21, so as to position the sheet material placing tape at the position of the inlet 211, so as to convert the sheet material in a sheet state into a coil material in a conveying state;

the material receiving driving source 223 drives the material receiving roller 222 to rotate relative to the material stripping workbench 21, so that the adhesive tapes are respectively tensioned and wound on the material receiving roller 222 and the material discharging roller 221 to complete conveying of the adhesive tapes, and along with movement of the adhesive tapes, the adhesive tapes adhered to the adhesive tapes and the second to-be-assembled parts are driven to move together.

After the first to-be-assembled member and the second to-be-assembled member are completely loaded, the assembling device 3 is required to assemble the first to-be-assembled member, the second to-be-assembled member, and the carrier. As shown in fig. 9, the assembling apparatus 3 includes a first assembling component 31, a second assembling component 32, and a moving component 33, the first assembling component 31 is configured to selectively grasp the first to-be-assembled member, and the second assembling component 32 is configured to selectively grasp the second to-be-assembled member. The moving assembly 33 is connected to the first assembly 31 and the second assembly 32, and the moving assembly 33 can drive the first assembly 31 and the second assembly 32 to move toward the conveying device 4.

Specifically, the moving unit 33 includes a moving X-direction driving source 331, a moving X-direction stage 332, a moving Y-direction driving source 333, and a moving Y-direction stage 334, the moving X-direction driving source 331 is disposed on the support 5, an output end of the moving X-direction driving source 331 is connected to the moving X-direction stage 332, and the moving X-direction driving source 331 can drive the moving X-direction stage 332 to move in the X direction. The moving X-direction stage 332 is provided with two moving Y-direction driving sources 333, output ends of the two moving Y-direction driving sources 333 are connected to the two moving Y-direction stages 334, and the moving Y-direction driving sources 333 can drive the moving Y-direction stage 334 to move in the Y direction. The first assembly unit 31 and the second assembly unit 32 are respectively arranged on the two movable Y-direction platforms 334, and the two assemblies of the first assembly unit 31 and the second assembly unit 32 can be driven to move along the X direction and the Z direction simultaneously by arranging one movable assembly 33.

Further, as shown in fig. 10, each of the first assembling component 31 and the second assembling component 32 includes a clamping component 321, a rotating component 322, and a lifting component 323, and the clamping component 321 is used for clamping the first to-be-assembled component or the second to-be-assembled component, so as to ensure the clamping stability of the to-be-assembled component. The lifting component 323 is connected to the moving Y-direction platform 334, the lifting component 323 can drive the rotating component 322 to move up and down, that is, to move along the Z-direction, and by the cooperation of the moving assembly 33 and the lifting component 323, the clamping component 321 and the rotating component 322 can move along the X-direction, the Y-direction and the Z-direction, respectively, and the movement is flexible, so as to ensure the accuracy of assembling the second assembly to be assembled in space. The rotating member 322 is connected to the clamping member 321, and the rotating member 322 can drive the clamping member 321 to rotate for adjusting the angle of the clamping member 321 to ensure that the clamping member 321 clamps and mounts the second to-be-assembled member at an optimal angle.

Specifically, the lifting member 323 includes a lifting driver 3231 and a lifting table 3232, the lifting driver 3231 is preferably a lifting cylinder, an output end of the lifting driver 3231 is connected to the lifting table 3232, and the lifting driver 3231 can drive the lifting table 3232 to move in the Z direction. The rotating member 322 includes a rotating motor 3221 and a rotating table 3222, the rotating motor 3221 is disposed on the lifting table 3232, an output end of the rotating motor 3221 is connected to the rotating table 3222, and the rotating motor 3221 can drive the rotating table 3222 to rotate. The clamping member 321 includes a main suction block 3211 and an auxiliary suction block 3212, the vacuum generator is respectively communicated with the main suction block 3211 and the auxiliary suction block 3212, the main suction block 3211 plays a role of mainly adsorbing the second to-be-assembled member, and the auxiliary suction block 3212 plays a role of auxiliarily adsorbing the second to-be-assembled member.

It can be understood that, as for the selection of the main suction block 3211 and the sub suction block 3212 in the clamping component 321, it can be determined according to the size of the second assembly to be assembled, which is a copper foil in this embodiment, and the suction area of the suction component needs to be larger, so that the clamping component 321 simultaneously provides the main suction block 3211 and the sub suction block 3212. If the holding member 321 is used to suck the first to-be-assembled member, which is a speaker, the suction area of the to-be-sucked member needs to be small, and therefore the holding member 321 may be provided with only the main suction block 3211.

In order to ensure the assembling accuracy of the assembling device 3, as shown in fig. 9, the assembling device 3 further includes a first photographing part 34 and a second photographing part 35, the first photographing part 34 is disposed on the first assembling component 31, the first photographing part 34 is configured to detect the position of a first accommodating groove in the bearing member, the first accommodating groove is used for accommodating the first to-be-assembled component, the position of the first accommodating groove is detected by the first photographing part 34, and according to the position information, the position of the first to-be-assembled component is adjusted to ensure the mounting accuracy of the first to-be-assembled component. The second photographing part 35 is disposed on the second assembly component 32, and the second photographing part 35 is configured to detect a position of a second receiving groove in the carrier, where the second receiving groove is used for receiving the second assembly component. The second photographing part 35 is used for detecting the position of the second accommodating groove, and according to the position information, the position of the second assembly waiting part is adjusted, so that the mounting accuracy of the second assembly waiting part is guaranteed.

Further, as shown in fig. 11, the conveying device 4 includes a code scanning mechanism 43, the code scanning mechanism 43 is specifically a code scanner, the code scanning mechanism 43 is disposed on the conveying device 4, the code scanning mechanism 43 is preferably disposed at an entrance position of the conveying device 4, and the code scanning mechanism 43 is used for identifying the identification code of the carrier, which plays a role in identifying the identity of the carrier.

Further, the conveying device 4 further includes a conveying assembly 41 and a jacking assembly 42, the conveying assembly 41 can bear two ends of the bearing member and convey the bearing member onto the jacking assembly 42, the jacking assembly 42 can abut against the bottom of the bearing member, so that the bearing member is separated from the conveying assembly 41, and the conveying assembly 41 can bear two ends of the finished workpiece located on the jacking assembly 42 and convey the finished workpiece to the discharge port. The conveying component 41 realizes conveying of the bearing component and the finished workpiece, the jacking component 42 is an assembly station, an assembly space is provided for assembly of the bearing component, the conveying component 41 and the jacking component 42 are mutually matched, conveying and assembly processes are not interrupted, production continuity is guaranteed, and production efficiency is high.

Specifically, conveying assembly 41 includes conveying driving source 411, conveying transmission assembly 412 and conveyer belt 413, and conveying transmission assembly 412 includes conveying the action wheel and carries from the driving wheel, and the output of conveying driving source 411 is connected to conveying the action wheel, and conveyer belt 413 tensioning is around locating conveying the action wheel and carrying from the driving wheel, and conveying driving source 411 drives the rotation of conveying the action wheel to drive the rotation of carrying from the driving wheel and the removal of conveyer belt 413, and conveyer belt 413 is used for bearing the both ends of bearing the piece or the both ends of finished product work piece. Wherein, the conveying belt 413 is of an integral structure or a split structure. With the integral structure, the whole conveying belt 413 can be moved by one conveying driving source 411, the conveying belt 413 is long in size, but the number of the driving sources is small, and the production cost is low. Adopt split type structure, conveyer belt 413 divide into the three-section at least, and the first section is used for holding carrier and follows the feed inlet feeding, and the second section is used for holding carrier and carries to the equipment station on, and the third section is used for the ejection of compact of finished product work piece from the discharge gate.

It can be understood that, if the conveyer belt 413 adopts a split type structure, in order to ensure that each segment has a certain temporary storage space, a blocking assembly 46 is arranged between two adjacent segments, the blocking assembly 46 comprises a blocking cylinder 461 and a blocking piece 462, the output end of the blocking cylinder 461 is provided with the blocking piece 462, the blocking cylinder 461 drives the blocking piece 462 to move upwards along the Z direction, so that the bearing piece is limited, the bearing piece temporarily does not flow into the next segment, if the blocking cylinder 461 drives the blocking piece 462 to move downwards along the Z direction, the bearing piece is released, the bearing piece temporarily flows into the next segment, and the conveyer belt is convenient and flexible, and meets different use requirements.

Further, as shown in fig. 12, the jacking assembly 42 includes an assembly table 421 and a jacking driving element 422, the jacking driving element 422 is specifically a jacking cylinder, an output end of the jacking driving element 422 is connected to the assembly table 421, the jacking driving source 233 can drive the assembly table 421 to move up and down, and the assembly table 421 is configured to bear and adsorb the bearing component and the finished workpiece. The assembly table 421 provides the workspace of equipment for carrying the thing, is provided with the suction nozzle on the assembly table 421 to adsorb carrying the thing, avoid carrying the thing and position removal to appear in the assembly process, guarantee the accuracy of equipment. By providing the jacking driving member 422, the position of the assembly table 421 relative to the conveying belt 413 can be adjusted, and if the jacking driving member 422 drives the assembly table 421 to move upwards along the Z direction, the assembly table 421 bears the bearing member and separates the bearing member from the conveying belt 413, so as to complete the assembly process. Then, the jacking driver 422 drives the assembly table 421 to move downward along the Z direction, and the assembly table 421 drops the carriers to the conveying belt 413, so that the carriers are conveyed by the conveying belt 413.

Further, as shown in fig. 11, the conveying device 4 further includes a first detecting component 44 and a second detecting component 45, the first detecting component 44 and the second detecting component 45 are respectively disposed at two sides of the conveying component 41, the first detecting component 44 is used for detecting a position of the first to-be-assembled component on the assembling device 3, and the second detecting component 45 is used for detecting a position of the second to-be-assembled component on the assembling device 3. By arranging the first detection component 44 and the second detection component 45, the accurate positioning of the first to-be-assembled part, the second to-be-assembled part and the bearing part is realized. It will be understood that the first detecting element 44 and the second detecting element 45 each comprise a detecting camera for photographing the first to-be-assembled part and the second to-be-assembled part, and a detecting light source for providing sufficient light to the detecting camera.

The production process of the feeding and discharging equipment provided by the embodiment is as follows:

the carrier enters from the feeding port of the conveying device 4, the code scanning mechanism 43 is used for identifying the identification code of the carrier, the conveying component 41 can bear two ends of the carrier and convey the carrier onto the jacking component 42, and the jacking component 42 can abut against the bottom of the carrier to separate the carrier from the conveying component 41;

the feeding device 1 conveys the first to-be-assembled member, the first assembling component 31 grabs the first to-be-assembled member, and the moving components 33 can respectively drive the first assembling component 31 to move towards the direction close to the conveying device 4;

the stripping device 2 conveys the second assembly waiting member, the second assembly component 32 grabs the second assembly waiting member, and the moving components 33 can respectively drive the second assembly component 32 to move towards the direction close to the conveying device 4;

detecting the position of the first accommodating groove by using the first photographing part 34, and adjusting the position of the first to-be-assembled part according to the position information; the second photographing part 35 is used for detecting the position of the second accommodating groove, and according to the position information, the position of the second assembly waiting part is adjusted, meanwhile, the first detecting component 44 is used for detecting the position of the first assembly waiting part on the assembling device 3, and the second detecting component 45 is used for detecting the position of the second assembly waiting part on the assembling device 3, so that the first assembling component 31 and the second assembling component 32 complete the assembly of the first assembly waiting part, the second assembly waiting part and the bearing part;

the conveying device 4 conveys the assembled finished workpieces to a discharge port.

In the description herein, it is to be understood that the terms "upper", "lower", "right", and the like are based on the orientations and positional relationships shown in the drawings and are used for convenience in description and simplicity in operation, but do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be constructed in a particular operation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used merely for descriptive purposes and are not intended to have any special meaning.

In the description herein, references to the description of "an embodiment," "an example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

In addition, the foregoing is only the preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A stripping device, comprising:

the stripping workbench (21) is used for bearing an adhesive tape, one side of the adhesive tape, which is far away from the stripping workbench (21), is an adhesive surface, the adhesive surface is used for adhering a sheet material, a plurality of second assemblies to be assembled are arranged on the sheet material, and an inlet (211) and an outlet (212) are respectively arranged at two ends of the stripping workbench (21);

a tape conveying mechanism (22) disposed below the peeling table (21), wherein the tape conveying mechanism (22) is configured to convey the tape and tension the tape around the inlet (211) and the outlet (212), respectively, and portions of the tape on both sides of the outlet (212) are disposed at an angle so that the second member to be assembled is separated from the sheet material at the outlet (212).

2. The stripping device as claimed in claim 1, characterized in that a suction nozzle is arranged on the stripping table (21), one end of the suction nozzle is communicated with a vacuum generator, and the other end can be adsorbed on the adhesive tape, so that the adhesive tape is attached to the table surface of the stripping table (21).

3. The stripping device according to claim 1, further comprising a pressing member (213), wherein the pressing member (213) is rotatably disposed on the stripping table (21), and the pressing member (213) can abut against the sheet stock and the second to-be-assembled member and press the sheet stock against the adhesive tape.

4. The stripping device according to claim 1, characterized in that the belt conveying mechanism (22) comprises an emptying roller (221), a receiving roller (222) and a receiving driving source (223), the emptying roller (221) is rotatably connected to the stripping table (21), the receiving driving source (223) can drive the receiving roller (222) to rotate relative to the stripping table (21), so that the belt is respectively tensioned around the emptying roller (221) and the receiving roller (222).

5. The stripping device according to claim 4, characterized in that the tape conveying mechanism (22) further comprises a tape tensioning wheel (229), the tape tensioning wheel (229) is rotatably connected to the stripping table (21), the tape is wound around the tape tensioning wheel (229), and the tape tensioning wheel (229) is used for tensioning the tape.

6. The stripping device according to claim 1, characterized by further comprising a feeding mechanism (23), wherein the feeding mechanism (23) is configured to carry a plurality of the sheets in a stacked arrangement and to feed the sheets in a direction close to the stripping table (21).

7. A stripping device as claimed in claim 6, characterized in that the delivery means (23) comprise:

a carrier (232) for carrying a plurality of said sheet materials in a stacked arrangement;

and the output end of the jacking driving source (233) is connected to the carrying platform (232), and the jacking driving source (233) can drive the carrying platform (232) and drive the sheet material to vertically move upwards.

8. The stripping device as claimed in claim 7, characterized in that the feeding mechanism (23) further comprises a fixed frame (231), the bottom of the fixed frame (231) is provided with the jacking driving source (233), the top of the fixed frame (231) is provided with a limiting structure (234) in a surrounding manner, and the limiting structure (234) is used for limiting the sheet material.

9. The stripping device according to claim 1, further comprising a loading mechanism (24), wherein the loading mechanism (24) is configured to grab the sheet material and transport it to a position where the adhesive tape is located at the inlet (211).

10. A loading and unloading apparatus, characterized by comprising a stripping device according to any one of claims 1 to 9.

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