CN212861971U - Automatic laminating and assembling equipment for profiling pressing block assembly - Google Patents

Abstract

An automatic film-coating assembly device for a profiling pressing block assembly comprises a machine body frame, a guide rail arranged on the machine body frame, and a first feeding device, a second feeding device, a first film-coating device, a third feeding device, a second film-coating device, a fourth feeding device and a cutting device which are sequentially arranged along the conveying direction of the guide rail, wherein a plurality of bases are uniformly distributed on the guide rail along the conveying direction; the first feeding device is used for conveying and clamping the packing boxes into the base; the second feeding device is used for conveying and installing the screen stencil in the packaging box, and the first film laminating device is used for stripping the inner film and coating the inner film on the top surface of the screen stencil; the third feeding device is used for conveying and covering the anti-forming press plate on the top surface of the silk screen template covered with the inner film; the fourth loading attachment is used for closing profile modeling briquetting conveying and lid at preventing shape clamp plate top surface, and cutting device is used for cutting inner membrance and packaging film, the utility model discloses equipment, tectorial membrane automatic strength to profile modeling briquetting subassembly are high, practice thrift the human cost.

Description

Automatic laminating and assembling equipment for profiling pressing block assembly

Technical Field

The utility model relates to a tectorial membrane equipment technical field, concretely relates to automatic tectorial membrane equipment of profile modeling briquetting subassembly.

Background

The profiling pressing block is widely applied to the field of packaging boxes of photoelectricity, semiconductors, communication, radio, dentistry, jewelry and the like, the film coating and packaging of the profiling pressing block are generally completed manually, the packaging boxes, a silk screen template, an inner film, a shape-preventing pressing plate profiling pressing block and a packaging film are sequentially packaged and coated, the labor cost is high, the automation degree is low, particularly, for the packaging of the inner film, the upper film, the bottom film and the inner film are required to be separated and then coated, the labor is very large, and equipment capable of automatically coating and packaging the profiling pressing block assembly is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to above-mentioned defect, provide an automatic tectorial membrane equipment of high, the saving human cost's of automatic intensity profile modeling briquetting subassembly

The utility model provides a technical scheme that its technical problem adopted as follows: an automatic film-coating assembly device for a profiling pressing block assembly comprises a machine body frame, a guide rail arranged on the machine body frame, and a first feeding device, a second feeding device, a first film-coating device, a third feeding device, a second film-coating device, a fourth feeding device and a cutting device which are sequentially arranged along the conveying direction of the guide rail, wherein a plurality of bases are uniformly distributed on the guide rail along the conveying direction;

the first feeding device is used for conveying and clamping the packing boxes into the base;

the second feeding device is used for conveying and installing the silk screen template in the packaging box;

the first film laminating device is used for stripping the inner film and coating the inner film on the top surface of the screen template;

the third feeding device is used for conveying and covering the anti-forming press plate on the top surface of the silk screen template covered with the inner film;

the fourth feeding device is used for conveying and covering the profiling pressing block on the top surface of the anti-forming pressing plate,

the second film coating device is used for coating a packaging film on the top surface of the square pressing block;

the cutting device is used for heating and cutting the inner film and the packaging film.

Further, first loading attachment includes first electric rotating platform and first manipulator, first electric rotating platform sets up the feed end at the guide rail, first manipulator includes first frame, first cross screw module, first suction cup frame and first suction pen, first frame sets up in first rotating platform one side, first cross screw module is installed in first frame, installs first slider and first cross screw module on the first cross screw module and can drive first slider front and back, up-and-down motion, first suction cup frame and first slider fixed connection, first suction pen is installed on first suction cup frame and is used for absorbing the packing carton.

Further, second loading attachment includes feeding and conveying belt and second manipulator, the second manipulator includes second frame, second letter of the ten heavenly stems screw module, second finger cylinder, second clamping jaw, second letter of the ten heavenly stems screw module is installed in the second frame, installs second slider and second letter of the ten heavenly stems screw module on the second letter of the ten heavenly stems screw module and can drive the second slider front and back, up-and-down motion, second finger cylinder and second slider fixed connection, second finger cylinder are connected with the second clamping jaw and can drive the second clamping jaw press from both sides and get the conveying of silk screen template and install at the packing box top surface.

Further, the first film covering device comprises a first film covering rack, a first unwinding shaft, a first speed reducing motor, a driving motor, a first unwinding shaft, a first rotating cylinder, an upper film winding shaft, a first tensioning shaft, a second unwinding shaft and a bottom film winding shaft, wherein the first unwinding shaft, the first speed reducing motor, the driving motor, the first unwinding shaft, the first rotating cylinder, the upper film winding shaft, the first tensioning shaft, the second tensioning shaft and the bottom film winding shaft are arranged on the first film covering rack, the first unwinding shaft is used for placing an original film, an output shaft of the driving motor is in belt transmission connection with the first unwinding shaft and the upper film winding shaft, the driving motor drives the first unwinding shaft and the upper film winding shaft to synchronously rotate, the first unwinding shaft is used for receiving the original film conveyed from the first unwinding shaft, the upper film winding shaft is used for receiving and winding the upper film stripped from the first unwinding shaft, the first rotating cylinder is connected with the first tensioning shaft and is used for rotating the first tensioning shaft, the first tensioning shaft is used for receiving the inner film, the first speed reduction motor is connected with the bottom film winding shaft and can drive the bottom film winding shaft to wind the bottom film stripped from the second split reel, and the second split reel outputs the inner film.

Further, third loading attachment pushes away platform and third manipulator including the material loading, the material loading pushes away the platform and includes place the platform and sets up material pushing cylinder, push pedal and sign indicating number work or material rest on place the platform, push away material cylinder and push pedal connection and can drive the push pedal and promote and prevent that the shape clamp plate passes sign indicating number work or material rest bottom, along the motion of place the platform direction, the third manipulator includes the third frame and sets up third thirty word lead screw module, third slider, third finger cylinder and the third clamping jaw in the third frame, the third thirty word lead screw module is connected with the third slider and can drive the third slider front and back, up-and-down motion, the third finger cylinder is installed on the third slider and can drive the third clamping jaw to press from both sides and get and prevent the shape clamp plate conveying and install at silk screen template top surface.

Furthermore, the third feeding device further comprises a supporting device, the supporting device comprises a lifting cylinder, an electric cylinder, a supporting plate and a clamping plate, the lifting cylinder is fixed on the third rack, the lifting cylinder is connected with the electric cylinder through a connecting plate and can drive the electric cylinder to lift up and down, the electric cylinder is connected with the supporting plate and can drive the supporting plate to move back and forth, and the clamping plate is fixed below the supporting plate.

Further, fourth loading attachment includes fourth revolving stage and fourth manipulator, the fourth manipulator includes forty words lead screw module, fourth slider and fourth suction pen of fourth, forty words lead screw module is connected with the fourth slider, forty words lead screw module passes through the fourth slider and is connected with the fourth suction pen of fourth, and forty words lead screw module can drive the fourth suction pen around, reciprocate and absorb the conveying of profile modeling briquetting and lid and close at the clamp plate top surface of preventing appearing.

Further, the second tectorial membrane device includes that the second unreels spool, step motor and second tensioning axle, step motor is connected and can drive the rotation of second tensioning axle with second tensioning axle, the spool is unreeled to the second and is connected with second tensioning axle belt drive, and the spool is unreeled to the second is used for installing the packaging film, and the spool is unreeled to the second is used for unreeling the packaging film.

Further, cutting device includes fifty words lead screw module, heating scriber, sixty words lead screw module and tailors the sword, the setting of heating scriber is in the one side that is close to second tectorial membrane device, and fifty words lead screw module is connected with the heating scriber and can drive the heating scriber around, reciprocate to tentatively press, heat inner membrance and packaging film, tailor the sword setting and keep away from one side of second tectorial membrane device at the heating scriber, sixty words lead screw module with tailor the sword and be connected and can drive the sword of tailorring around, reciprocate, thereby the inner membrance is cut with the packaging film.

The utility model has the advantages that: by adopting the scheme, the packaging box, the silk screen template, the inner film, the anti-deformation pressing plate profiling pressing block and the packaging film are sequentially packaged and coated, the automation strength is high, and the labor cost is saved.

Drawings

The foregoing and other objects, features, and advantages of the invention will be apparent from the following detailed description taken in conjunction with the accompanying drawings.

Wherein: 1. a first feeding device; 11. a first electric rotating table; 12. a first frame; 13. a first cross screw module; 14. a first suction cup frame; 15. a first suction pen; 2. a second feeding device; 21. a feed conveyor belt; 22. a second frame; 23. a second cross lead screw module; 24. a second finger cylinder; 25. a second jaw; 3. a first laminating device; 31. a first laminating machine frame; 32. a first unreeling shaft; 33. a first reduction motor; 34. a first shunt shaft; 35. a first rotary cylinder; 351. a connecting rod; 36. an upper film winding shaft; 37. A first tensioning shaft; 38. a second sub-reel; 39. a basement membrane winding shaft; 4. a third feeding device; 411. placing a platform; 412; a material pushing cylinder; 413; pushing the plate; 414; a material stacking frame; 421. a third frame; 422. a third crossed lead screw module; 423. a third slider; 424. a third finger cylinder; 425. a third jaw; 431. a lifting cylinder; 432. an electric cylinder; 433. a support plate; 434. a splint; 5. a second laminating device; 51. a second unreeling shaft; 52. a stepping motor; 53. a second tensioning shaft; 6. a fourth feeding device; 61. a fourth rotating table; 62. a forty-shaped lead screw module; 63. a fourth slider; 64. a fourth suction pen; 7. a cutting device; 71. a fifty-first lead screw module; 72. heating the utility knife; 73. a sixteenth lead screw module; 74. a cutting knife; 8. a blanking device; 91. packaging boxes; 92. a screen stencil; 93. an inner membrane; 94. coating a film; 95. a base film; 96. packaging the film; 97. a shape-proof pressing plate; 98. profiling pressing blocks; 99. a base.

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the first feeding device of the present invention;

fig. 3 is a schematic structural view of a second feeding device of the present invention;

FIG. 4 is a schematic structural view of a first film coating apparatus according to the present invention;

FIG. 5 is a schematic structural view of a first film covering device according to the present invention in an in-use state of peeling an inner film;

fig. 6 is a schematic structural view of a third feeding device of the present invention;

fig. 7 is a schematic structural view of a fourth feeding device and a second film covering device of the present invention;

fig. 8 is a schematic structural diagram of the fourth feeding device, the second film covering device and the cutting device of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the protection scope of the present invention can be clearly and clearly defined.

As shown in fig. 1-8, an automatic laminating assembly equipment of profiling pressing block 98 assembly comprises a machine body frame, a guide rail arranged on the machine body frame, and a first feeding device 1, a second feeding device 2, a first laminating device 3, a third feeding device 4, a second laminating device 5, a fourth feeding device 6 and a cutting device 7 which are sequentially arranged along the conveying direction of the guide rail, wherein a plurality of bases 99 are uniformly distributed on the guide rail along the conveying direction, a mounting cavity is arranged in the bases 99, and the shape of the mounting cavity is designed according to the size and the shape of a packing box 91.

As shown in fig. 2, the first feeding device 1 is used for conveying and clamping the packing boxes 91 into the base 99, the first feeding device 1 includes a first electric rotating table 11 and a first manipulator, the first electric rotating table 11 is disposed at a feeding end of the guide rail, the first manipulator includes a first frame 12, a first cross screw module 13, a first suction cup frame 14 and a first suction pen 15, the first frame 12 is disposed on one side of the first rotating table, the first cross screw module 13 is mounted on the first frame 12, a first slider is mounted on the first cross screw module 13, the first cross screw module 13 can drive the first slider to move back and forth and up and down, the first suction cup frame 14 is fixedly connected with the first slider, and the first suction pen 15 is mounted on the first suction cup frame 14 and is used for sucking the packing boxes 91.

As shown in fig. 3, the second feeding device 2 is used for conveying and installing the screen stencil 92 in the packaging box 91, the second feeding device 2 includes a feeding conveyor belt 21 and a second manipulator, the second manipulator includes a second frame 22, a second cross screw module 23, a second finger cylinder 24 and a second clamping jaw 25, the second cross screw module 23 is installed on the second frame 22, a second slider is installed on the second cross screw module 23, the second cross screw module 23 can drive the second slider to move back and forth and up and down, the second finger cylinder 24 is fixedly connected with the second slider, and the second finger cylinder 24 is connected with the second clamping jaw 25 and can drive the second clamping jaw 25 to clamp the screen stencil 92 for conveying and installing on the top surface of the packaging box 91.

As shown in fig. 4 to 5, the first laminating device 3 includes a first laminating frame 31, and a first unwinding shaft 32, a first speed reducing motor 33, a driving motor, a first unwinding shaft 34, a first rotating cylinder 35, an upper film winding shaft 36, a first tensioning shaft 37, a second unwinding shaft 38, and a lower film winding shaft 39 which are provided on the first laminating frame 31, the first unwinding shaft 32 being used for placing the original film, an output shaft of the driving motor being belt-driven to the first unwinding shaft 32 and the upper film winding shaft 36, the driving motor driving the first unwinding shaft 32 and the upper film winding shaft 36 to rotate synchronously, the first unwinding shaft 34 being used for receiving the original film transferred from the first unwinding shaft 32, the upper film winding shaft 36 being used for receiving and winding the upper film 94 peeled off from the first unwinding shaft 34, the first rotating cylinder 35 being connected to the first tensioning shaft 37 and being capable of driving the first tensioning shaft 37 to rotate, the first tensioning shaft 37 is used for receiving the inner film 93 and the bottom film 95 after the upper film 94 is stripped, the second sub-reel 38 is used for receiving the inner film 93 and the bottom film 95 transmitted by the first tensioning shaft 37, the first speed reducing motor 33 is connected with the bottom film winding shaft 39 and can drive the bottom film winding shaft 39 to wind the bottom film 95 stripped from the second sub-reel 38, the second sub-reel 38 outputs the inner film 93, and further, the first unwinding shaft 32 is in belt transmission connection with a bottom film winding shaft 39, the upper film winding shaft 36 is in belt transmission connection with a first tensioning shaft 37, the first rotating cylinder 35 is connected with a connecting rod 351, the first tensioning shaft 37 is arranged at one end of the connecting rod 351 far away from the first rotating cylinder 35, the first rotating cylinder 35 drives the first tensioning shaft 37 to rotate through the connecting rod 351, of course, the driving members such as the first reduction motor 33, the driving motor, the first rotary cylinder 35, etc. are all connected to the control system.

Preferably, a first inductive switch and a second inductive switch are respectively installed above and below the side portion of the first rotary cylinder 35, the first inductive switch and the second inductive switch are connected to the control system, when the first inductive switch detects that the first tensioning shaft 37 rotates counterclockwise to an upper limit position, the first rotary cylinder 35 stops driving the first tensioning shaft 37 to rotate counterclockwise continuously and turns to rotate clockwise, and when the second inductive switch detects that the first tensioning shaft 37 rotates clockwise to a lower limit position, the first rotary cylinder 35 stops driving the first tensioning shaft 37 to rotate clockwise continuously and turns to rotate counterclockwise.

Preferably, the below of first tectorial membrane frame 31 is equipped with the spout that vertical direction set up, install the regulating roller in the spout, the back of first tectorial membrane frame 31 corresponds the position with the regulating roller and is equipped with the stopper with regulating roller fixed connection, the width of stopper is greater than the width of spout, basement membrane 95 is installed on basement membrane 95 coiling membrane after encircleing from the regulating roller bottom, spout top and bottom all are equipped with the sensor, because the quality of regulating roller is light, when basement membrane winding shaft 39 convolutes more tightly, the regulating roller shifts up along the spout, until reaching upper limit, basement membrane winding shaft 39 slows down the coiling after the sensor detects, until stopping, then wait for second branch spool 38 to continue to unreel basement membrane 95, the regulating roller moves down to lower limit, the sensor detects the back, basement membrane winding shaft 39 begins to coil, automatic intensity is high.

As shown in fig. 6, the third feeding device 4 is configured to convey and cover the anti-form press plate 97 on the top surface of the wire mesh template 92 covered with the inner film 93, further, the third feeding device 4 includes a feeding push table and a third manipulator, the feeding push table includes a placing platform 411, and a material pushing cylinder 412, a push plate 413 and a material stacking frame 414 which are arranged on the placing platform 411, the material pushing cylinder 412 is connected with the push plate 413 and can drive the push plate 413 to push the anti-form press plate 97 to pass through the bottom of the material stacking frame 414 and move along the direction of the placing platform 411, the bottom of the material stacking frame 414 has a through slot, the third manipulator includes a third frame 421, a third cross lead screw module 422, a third slider 423, a third finger cylinder 424 and a third clamping jaw 425 which are arranged on the third frame 421, the third cross lead screw module 422 is connected with the third slider 423 and can drive the third slider 423 to move back and forth, The third finger cylinder 424 is mounted on the third slider 423 and can drive the third clamping jaw 425 to clamp the anti-form pressing plate 97 and transmit the anti-form pressing plate and mount the anti-form pressing plate on the top surface of the screen template 92, the third feeding device 4 further comprises a supporting device, the supporting device comprises a lifting cylinder 431, an electric cylinder 432, a supporting plate 433 and a clamping plate 434, the lifting cylinder 431 is fixed on the third frame 421, the lifting cylinder 431 is connected with the electric cylinder 432 through a connecting plate and can drive the electric cylinder 432 to lift up and down, the electric cylinder 432 is connected with the supporting plate 433 and can drive the supporting plate 433 to move back and forth, the clamping plate 434 is fixed below the supporting plate 433, a groove is formed in the middle of the clamping plate 434, and when the inner film 93 is transmitted, the inner film 93 is smoothly transmitted through the groove in the clamping plate 434.

As shown in fig. 6-8, the fourth feeding device 6 is configured to convey and cover the profiling pressing block 98 on the top surface of the anti-form pressing plate 97, further, the fourth feeding device 6 includes a fourth rotating table 61 and a fourth manipulator, the fourth manipulator includes a fourth lead screw module 62 in a shape like a forty, a fourth slider 63 and a fourth suction pen 64, the fourth lead screw module 62 in a shape like a forty is connected to the fourth slider 63, the fourth lead screw module 62 in a shape like a forty is connected to the fourth suction pen 64 through the fourth slider 63, and the fourth lead screw module 62 can drive the fourth suction pen 64 to move back and forth, move up and down, and suck the profiling pressing block 98 to convey and cover the top surface of the anti-form pressing plate 97.

As shown in fig. 6-8, the second film coating device 5 is used for coating the packaging film 96 on the top surface of the square pressing block, the second film coating device 5 includes a second unwinding shaft 51, a stepping motor 52, a second tensioning shaft 53 and a plurality of guide cylinders, the stepping motor 52 is connected with the second tensioning shaft 53 and can drive the second tensioning shaft 53 to rotate, the tension of the packaging film 96 is adjusted, the second unwinding shaft 51 is used for installing the packaging film 96, the second unwinding shaft 51 is used for unwinding the packaging film 96, the packaging film 96 is transmitted to the guide cylinders and the second tensioning shaft 53 through the second unwinding shaft 51, and finally transmitted out through the guide cylinders at the bottom.

As shown in fig. 6-8, the cutting device 7 is used for heating and cutting the inner film 93 and the packaging film 96, further, the cutting device 7 comprises a fifty-first lead screw module 71, a heating scriber 72, a sixty-first lead screw module 73 and a cutting scriber 74, the heating scriber 72 is disposed at a side close to the second film covering device 5, the fifty-first lead screw module 71 is connected with the heating scriber 72 and can drive the heating scriber 72 to move forward and backward and up and down to primarily press and thermally scribe the inner film 93 and the packaging film 96, the cutting scriber 74 is disposed at a side of the heating scriber 72 far away from the second film covering device 5, the sixty-first lead screw module 73 and the cutting scriber 74 are connected and can drive the cutting scriber 74 to move forward and backward and up and down to cut the inner film 93 and the packaging film 96, it should be noted that the heating scriber 72 and the cutting scriber 74 are common devices in the prior art, the heating scriber 72, The pressing action and the cutting blade 74 serves the main cutting action.

As shown in fig. 8, the blanking device 8 comprises a fifth manipulator and a conveyor belt, the fifth manipulator comprises a seventh cross lead screw module, a fourth clamping jaw and a fourth finger cylinder, the seventh cross lead screw module and the fourth finger cylinder vertically lift and horizontally move, and the first finger cylinder is connected with the fourth clamping jaw and can drive the fourth clamping jaw to clamp a finished product copying press block 98 component and discharge.

What need to explain is the utility model provides a first cross lead screw module 13, the twentieth lead screw module 23, the thirty-first lead screw module 422, the fortieth word lead screw module 62, the fifty-first word lead screw module 71, the sixteenth word lead screw module 73, the seventeenth word lead screw module are prior art commonly used, can carry out x in the plane, the y direction carries out the driver part and removes, also have among the prior art and carry out x, y, the z direction removes in the plane, this department is for practicing thrift the cost, only use cross lead screw module.

The working principle is as follows: from the first feeding device 1, a first mechanical arm clamps the packaging box 91 from a first electric rotating table 11 to a base 99, the packaging box 91 and the base 99 are conveyed to a second feeding device 2 along with a guide rail, a second mechanical arm clamps a screen template 92 onto the packaging box 91 from a feeding conveying belt 21, the screen template 92, the packaging box 91 and the base 99 are conveyed to a first laminating device 3, the first laminating device 3 strips out an inner membrane 93 in a raw membrane and then covers the screen template 92, it needs to be described that first laminating needs to be manually covered, subsequent laminating can be automatically carried out, the screen template 92, the packaging box 91 and the base 99 are conveyed to a third feeding device 4 after being laminated, a third mechanical arm conveys a shape-preventing pressing plate 97 from a feeding push table and covers the top surface of the screen template 92 covered with the inner membrane 93, the shape-preventing pressing plate 97, the screen template 92, the packaging box 91 and the base 99 are conveyed to a fourth feeding device 6, the copying press block 98 is conveyed from the fourth rotating table 61 and covered on the top surface of the anti-form press plate 97 by the fourth mechanical arm to be conveyed continuously, the packaging film 96 is covered on the top surface of the copying press block 98 by the second film covering device 5, the packaging film is preheated and primarily cut by the heating cutter 72, the inner film 93 and the packaging film 96 are cut by the cutting cutter 74, finally the components of the copying press block 98 are packaged and conveyed to the blanking device 8, and the components of the copying press block 98 are clamped by the fifth mechanical arm and then conveyed to the conveying belt.

The utility model has the advantages that: by adopting the scheme, the packaging box 91, the silk screen template 92, the inner film 93, the anti-deformation pressing plate 97, the profiling pressing block 98 and the packaging film 96 are sequentially packaged and coated, the automation strength is high, and the labor cost is saved.

In all examples shown and described herein, any particular value should be construed as merely exemplary, and not as a limitation, and thus other examples of example embodiments may have different values.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In addition, in the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "disposed," "provided," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Finally, it should be noted that: the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the technical solution of the present invention, and the protection scope of the present invention is not limited thereto, although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: those skilled in the art can still modify or easily conceive of changes in the technical solutions described in the foregoing embodiments or make equivalent substitutions for some technical features within the technical scope of the present disclosure; such modifications, changes or substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides an automatic tectorial membrane equipment of profile modeling briquetting subassembly which characterized in that: the machine body frame comprises a machine body frame, a guide rail arranged on the machine body frame, and a first feeding device, a second feeding device, a first film laminating device, a third feeding device, a second film laminating device, a fourth feeding device and a cutting device which are sequentially arranged along the conveying direction of the guide rail, wherein a plurality of bases are uniformly distributed on the guide rail along the conveying direction;

the first feeding device is used for conveying and clamping the packing boxes into the base;

the second feeding device is used for conveying and installing the silk screen template in the packaging box;

the first film laminating device is used for stripping the inner film and coating the inner film on the top surface of the screen template;

the third feeding device is used for conveying and covering the anti-forming press plate on the top surface of the silk screen template covered with the inner film;

the fourth feeding device is used for conveying and covering the profiling pressing block on the top surface of the anti-forming pressing plate,

the second film coating device is used for coating a packaging film on the top surface of the square pressing block;

the cutting device is used for heating and cutting the inner film and the packaging film.

2. The automatic laminating and assembling equipment for profiling pressure block assemblies according to claim 1, wherein the first feeding device comprises a first electric rotating table and a first mechanical arm, the first electric rotating table is arranged at the feeding end of the guide rail, the first mechanical arm comprises a first rack, a first cross screw module, a first suction cup frame and a first suction pen, the first rack is arranged on one side of the first rotating table, the first cross screw module is arranged on the first rack, a first sliding block is arranged on the first cross screw module, the first cross screw module can drive the first sliding block to move back and forth and up and down, the first suction cup frame is fixedly connected with the first sliding block, and the first suction pen is arranged on the first suction cup frame and is used for sucking the packaging boxes.

3. The automatic laminating and assembling equipment for the copying press block assembly according to claim 1, wherein the second feeding device comprises a feeding conveyer belt and a second manipulator, the second manipulator comprises a second frame, a second cross lead screw module, a second finger cylinder and a second clamping jaw, the second cross lead screw module is mounted on the second frame, a second sliding block is mounted on the second cross lead screw module and can drive the second sliding block to move back and forth and up and down, the second finger cylinder is fixedly connected with the second sliding block, and the second finger cylinder is connected with the second clamping jaw and can drive the second clamping jaw to clamp the silk screen template for conveying and mounting on the top surface of the packaging box.

4. The automatic laminating and assembling equipment of a profiling pressing block assembly according to claim 1, wherein the first laminating device comprises a first laminating machine frame, and a first unwinding shaft, a first speed reducing motor, a driving motor, a first sub-winding shaft, a first rotating cylinder, an upper film winding shaft, a first tensioning shaft, a second sub-winding shaft and a bottom film winding shaft which are arranged on the first laminating machine frame, the first unwinding shaft is used for placing a raw film, an output shaft of the driving motor is in belt transmission connection with the first unwinding shaft and the upper film winding shaft, the driving motor drives the first unwinding shaft and the upper film winding shaft to rotate synchronously, the first sub-winding shaft is used for receiving the raw film transmitted from the first unwinding shaft, the upper film winding shaft is used for receiving and winding the upper film stripped from the first sub-winding shaft, the first rotating cylinder is connected with the first tensioning shaft and can drive the first tensioning shaft to rotate, the first tensioning shaft is used for receiving the inner film and the bottom film after the film is stripped, the second sub-winding shaft is used for receiving the inner film and the bottom film conveyed by the first tensioning shaft, the first speed reducing motor is connected with the bottom film winding shaft and can drive the bottom film winding shaft to wind the bottom film stripped from the second sub-winding shaft, and the second sub-winding shaft outputs the inner film.

5. The automatic laminating and assembling equipment for the profiling pressure block assembly according to claim 1, the third feeding device comprises a feeding push table and a third manipulator, the feeding push table comprises a placing platform, a material pushing cylinder, a push plate and a material stacking frame, the material pushing cylinder, the push plate and the material stacking frame are arranged on the placing platform, the material pushing cylinder is connected with the push plate and can drive the push plate to push the anti-shape pressing plate to pass through the bottom of the material stacking frame and move along the direction of the placing platform, the third manipulator comprises a third frame, a third cross-shaped lead screw module, a third slide block, a third finger cylinder and a third clamping jaw which are arranged on the third frame, the third crossed lead screw module is connected with the third slide block and can drive the third slide block to move back and forth and up and down, and the third finger cylinder is arranged on the third sliding block and can drive the third clamping jaw to clamp the anti-form pressing plate for conveying and installing on the top surface of the silk screen template.

6. The automatic laminating and assembling equipment for the copying press block assembly according to claim 5, wherein the third feeding device further comprises a supporting device, the supporting device comprises a lifting cylinder, an electric cylinder, a supporting plate and a clamping plate, the lifting cylinder is fixed on the third frame, the lifting cylinder is connected with the electric cylinder through a connecting plate and can drive the electric cylinder to lift up and down, the electric cylinder is connected with the supporting plate and can drive the supporting plate to move back and forth, and the clamping plate is fixed below the supporting plate.

7. The automatic laminating and assembling equipment for the copying press block assembly according to claim 1, wherein the fourth feeding device comprises a fourth rotating table and a fourth manipulator, the fourth manipulator comprises a forty-shaped lead screw module, a fourth sliding block and a fourth suction pen, the forty-shaped lead screw module is connected with the fourth sliding block, the forty-shaped lead screw module is connected with the fourth suction pen through the fourth sliding block, and the forty-shaped lead screw module can drive the fourth suction pen to move front and back, up and down and suck the copying press block to convey and cover the copying press block on the top surface of the anti-form press plate.

8. The automatic laminating assembly equipment of profile modeling briquetting subassembly of claim 1, characterized in that, second tectorial membrane device includes that the second unreels axle, step motor and second tensioning axle are connected and can drive the rotation of second tensioning axle, the second unreels axle and second tensioning axle belt transmission and is connected, and the second unreels the axle and is used for installing the packaging film, and the second unreels the axle and is used for unreeling the packaging film.

9. The automatic laminating assembly equipment of a profiling pressing block assembly according to claim 1, wherein the cutting device comprises a fifty-first lead screw module, a heating scraper, a sixty-first lead screw module and a cutting knife, the heating scraper is arranged on one side close to the second laminating device, the fifty-first lead screw module is connected with the heating scraper and can drive the heating scraper to move back and forth and up and down so as to preliminarily press and thermally scrape the inner film and the packaging film, the cutting knife is arranged on one side of the heating scraper far away from the second laminating device, and the sixty-first lead screw module is connected with the cutting knife and can drive the cutting knife to move back and forth and up and down so as to cut the inner film and the packaging film.

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