CN211591733U - Automatic solar screen printing medium scroll jacketing machine - Google Patents

Abstract

The utility model discloses an automatic solar energy silk screen printing medium spool jacketing machine, include: the material feeding device, the material moving device, the correcting device, the assembling device, the adhesive tape pasting device, the collecting device and the electric control device are arranged on the supporting frame, and the electric control device is electrically connected with the material feeding device, the material moving device, the correcting device, the assembling device and the adhesive tape pasting device respectively. In this way, the utility model discloses automatic solar energy silk screen printing medium spool jacketing machine, a plurality of product clamping jaws through arranging remove the equipment reel simultaneously, realize that a plurality of equipment actions go on in step, production efficiency has been improved effectively, and to feed arrangement respectively through electrically controlled device, move the material device, correcting unit, the assembly device, the rubberizing tape device is controlled, automatic material loading, the equipment, the rubberizing tape, it is high to have reliable performance, the location is accurate, compact structure, advantages such as reduce cost, the while has extensive market prospect in the application and the popularization of medium paper reel equipment.

Description

Automatic solar screen printing medium scroll jacketing machine

Technical Field

The utility model relates to an electromechanical device technical field especially relates to an automatic solar energy silk screen printing medium spool jacketing machine.

Background

Solar power generation is the most ideal new energy, the solar energy irradiated on the earth is huge, the solar energy is the inexhaustible energy, the solar power generation is absolutely clean and pollution-free, screen printing is an important process for manufacturing solar cells, the quality of the screen printing can have important influence on the performance, particularly the electrical performance, of the solar cells, silver paste and aluminum paste are printed on the front and back sides of the solar cells through special printing machines and templates to form positive and negative electrode leads, and the positive and negative electrode leads are baked at low temperature and sintered at high temperature to finally manufacture the solar cells.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides an automatic solar energy silk screen printing medium spool jacketing machine.

In order to solve the technical problem, the utility model discloses a technical scheme be:

the utility model provides an automatic solar energy silk screen printing medium spool jacketing machine, includes: the device comprises a feeding device, a material moving device, a correcting device, an assembling device, a tape pasting device, a collecting device and an electric control device which are arranged on a supporting frame, wherein the electric control device is respectively electrically connected with the feeding device, the material moving device, the correcting device, the assembling device and the tape pasting device, a feeding waiting station, a correcting station, an assembling station, a tape pasting station and a collecting station are sequentially arranged on the supporting frame, the feeding device continuously conveys a single reel to be processed to the feeding waiting station of a discharge port of the single reel, the material moving device simultaneously moves the reel from the feeding waiting station, the correcting station, the assembling station and the tape pasting station to the next station, the correcting device rotates the reel to a set position, the assembling device installs end covers at two ends of the reel, the tape pasting device pastes a tape to the side wall of the reel, and the collecting device collects the assembled reel, the electric control device respectively with feed arrangement, move material device, correcting unit, assembly device and rubberizing tape device electric connection and to its send control command, feed arrangement includes the feed cylinder, ends material clamping jaw cylinder and striker plate cylinder, the discharge gate downward sloping setting of feed cylinder, it sets up to end material clamping jaw cylinder the top of the discharge gate of feed cylinder, the striker plate cylinder sets up the discharge gate of feed cylinder blocks or exposes the discharge gate through the removal, move the material device including setting up on the base along the horizontal direction move the year linear slide rail, install on the slider that moves year linear slide rail along vertical direction's centre gripping lift linear guide and a plurality of product clamping jaws of parallel arrangement on centre gripping lift linear guide's slider, correcting unit is including setting up on first support be used for cliping the calibration location cylinder of location reel, The calibration head and the fixed head are matched with each other, the calibration positioning cylinder is arranged at a calibration station, the calibration head and the fixed head are respectively arranged at two sides of the calibration positioning cylinder, the clamping end part of the calibration positioning cylinder is respectively provided with a corresponding roller, the outer side wall of the calibration head is provided with an elastic bulge structure corresponding to the groove of the winding drum, the calibration head drives the winding drum to rotate, the calibration head and the fixed head can relatively move the positioning winding drum along the horizontal direction, the assembling device comprises an assembling positioning cylinder, a terminal transfer device, a terminal overturning cylinder, an assembling assisting cylinder and a vibrating disc which are arranged on a second support and used for clamping the positioning winding drum, the assembling positioning cylinder is arranged at an assembling station, the vibrating disc conveys terminals to feed inlets at two sides of the assembling station, and the terminal overturning cylinder is provided with an imitated groove for placing the terminals, the terminal transfer device carries the terminal into the contour groove, the terminal overturning cylinder moves along the horizontal direction after overturning to install the terminal at two ends of the winding drum, the baffle plate of the assembly boosting cylinder moves along the horizontal direction to block the rear end of the contour groove, the tape pasting device comprises a tape support, a tape pasting positioning mechanism arranged on a third support and used for pressing and positioning the winding drum, a tape pasting guide rail and a tape pasting moving frame, the tape pasting moving frame can move along the tape pasting guide rail, the tape pasting positioning mechanism is arranged at a tape pasting station and positioned above the tape pasting moving frame, the tape support is arranged at one side of the third support, a tape tensioning wheel, a tape feeding guide plate, a tape feeding clamping cylinder, a tape cutting mechanism and a tape pasting mechanism are arranged on the moving frame, the upper end face of the moving frame inclines upwards, and the tensioning wheel is arranged at the side face of the moving frame, the adhesive tape feeding guide plates are covered on the upper end faces of the movable frames and can move along the upper end faces of the movable frames, gaps for adhesive tapes to penetrate through are formed between the adhesive tape feeding guide plates and the upper end faces of the movable frames, the adhesive tape feeding clamping cylinders are perpendicular to the adhesive tape feeding guide plates, the adhesive tape pasting mechanism can move in the vertical direction, and the collecting device is arranged at the collecting station.

In a preferred embodiment of the present invention, the respective moving directions of the material stopping clamping jaw cylinder and the material baffle cylinder are perpendicular to the downward inclined plane of the material outlet.

In a preferred embodiment of the present invention, the material moving device includes a clamping and transferring cylinder, a clamping and lifting cylinder and a product clamping cylinder.

In a preferred embodiment of the present invention, buffers are disposed at two ends of the transfer linear slide rail.

In the utility model discloses a preferred embodiment, correcting unit includes calibration clamp guide rail, calibration clamp motor, calibration motor and calibration module, calibration clamp guide rail installs on first support, the calibration head is installed on the calibration module that corresponds with the fixed head, and calibration clamp motor drive calibration module moves along calibration clamp guide rail, and calibration motor drive calibration head rotates.

In a preferred embodiment of the present invention, the aligning and positioning cylinder holds the roll with the circumferential surface of the roller against the roll.

In a preferred embodiment of the present invention, the assembling device includes an assembling guide rail and an assembling motor, and the assembling motor drives the terminal-overturning cylinder to move along the assembling guide rail to install the terminals at both ends of the winding drum.

In a preferred embodiment of the present invention, the terminal transferring device includes a terminal horizontal transferring cylinder, a terminal lifting cylinder, a terminal clamping cylinder, the terminal clamping cylinder is installed on the terminal lifting cylinder, and the terminal lifting cylinder is installed on the terminal horizontal transferring cylinder.

In a preferred embodiment of the present invention, the tape-attaching device includes a tape-attaching moving cylinder, a tape-feeding cylinder, a tape-attaching cylinder, a tape-cutting cylinder, a tape-attaching moving cylinder driving a tape-attaching moving frame to move along a tape-attaching guide rail, a tape-feeding cylinder driving a tape-feeding guide to move forward along an upper end surface of the tape-attaching moving frame to drive the tape to move forward, a tape-attaching cylinder driving a tape-attaching mechanism to move upward to attach an upper end of the tape to a side wall of the reel, and a tape-cutting cylinder driving a tape-cutting mechanism to cut off the tape with a tool bit.

In a preferred embodiment of the present invention, the tape cutting mechanism includes a stepped knife groove and a knife head moving in a vertical direction.

The utility model has the advantages that: the utility model provides an automatic solar energy silk screen printing medium spool jacketing machine, a plurality of product clamping jaws through arranging remove the equipment reel simultaneously, realize that a plurality of equipment actions go on in step, production efficiency has been improved effectively, and control feed arrangement, move the material device respectively through electrically controlled device, correcting unit, assembly device, rubberizing tape device, automatic material loading, equipment, the rubberizing tape, have reliable performance height, the location is accurate, compact structure, advantages such as reduce cost, the while has extensive market prospect in the application and the popularization of medium paper reel equipment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic view of the overall structure of a preferred embodiment of the automatic solar screen printing medium scroll jacketing machine of the present invention;

FIG. 2 is a side view of a feeding device of a preferred embodiment of the automatic solar screen printing medium reel jacketing machine of the present invention;

fig. 3 is a perspective view of a material moving device of a preferred embodiment of the automatic solar screen printing medium scroll jacketing machine of the present invention;

fig. 4 is a side view of the material moving device of a preferred embodiment of the automatic solar screen printing medium scroll jacketing machine of the present invention;

fig. 5 is a top view of the material moving device of a preferred embodiment of the automatic solar screen printing medium scroll jacketing machine of the present invention;

FIG. 6 is a perspective view of a preferred embodiment of the automatic solar screen printing medium reel jacketing machine of the present invention;

fig. 7 is a side view of the correcting device of a preferred embodiment of the automatic solar screen printing medium scroll jacketing machine of the present invention;

fig. 8 is a perspective view of an assembly device of a preferred embodiment of the automatic solar screen printing medium reel jacketing machine of the present invention;

fig. 9 is a side view of the assembly apparatus of a preferred embodiment of the automatic solar screen printing medium reel jacketing machine of the present invention;

FIG. 10 is a top view of the assembly apparatus of a preferred embodiment of the automatic solar screen printing media reel jacketing machine of the present invention;

fig. 11 is a left side view of the assembly apparatus of a preferred embodiment of the automatic solar screen printing medium reel jacketing machine of the present invention;

fig. 12 is a perspective view of a tape-attaching device according to a preferred embodiment of the automatic solar screen printing medium reel jacketing machine of the present invention;

fig. 13 is a side view of the taping device of a preferred embodiment of the automatic solar screen printing medium reel jacketing machine of the present invention;

FIG. 14 is a top view of the taping device of a preferred embodiment of the automatic solar screen printing medium reel jacketing machine of the present invention;

fig. 15 is a left side view of the tape-sticking device according to a preferred embodiment of the automatic solar screen printing medium reel jacketing machine of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-15, an embodiment of the present invention includes:

an automatic solar energy silk screen printing medium spool jacketing machine includes: the automatic winding machine comprises a feeding device 2, a material moving device 3, a correcting device 4, an assembling device 5, a tape sticking device 6, a collecting device 7 and an electric control device 8 which are arranged on a supporting frame 1, wherein the electric control device 8 is respectively electrically connected with the feeding device 2, the material moving device 3, the correcting device 4, the assembling device 5 and the tape sticking device 6, a feeding waiting station, a correcting station, an assembling station, a tape sticking station and a collecting station are sequentially arranged on the supporting frame 1, the feeding device 2 continuously conveys a single reel 9 to be processed to the feeding waiting station of a discharge port of the single reel, the material moving device 3 simultaneously moves the reel 9 to the next station from the feeding waiting station, the correcting station, the assembling station and the tape sticking station, the correcting device 4 rotates the reel 9 to a set position, the assembling device 5 installs end covers at two ends of the reel 9, the tape sticking device 6 sticks a tape to the side wall of the reel 9, the collecting device 7 collects the assembled winding drum 9, and the electric control device 8 is respectively electrically connected with the feeding device 2, the material moving device 3, the correcting device 4, the assembling device 5 and the tape sticking device 6 and sends control instructions to the feeding device, the material moving device 3, the correcting device 4, the assembling device 5 and the tape sticking device 6.

The feeding device 2 comprises a feeding barrel 21, a material stopping clamping jaw cylinder 22 and a material baffle cylinder 23, wherein the opening of a feeding port of the feeding barrel 21 is upward, a discharging port of the feeding barrel 21 is arranged in a downward inclined mode and is positioned at the bottom of the feeding barrel 21, a winding drum 9 moves to the discharging port due to the action of gravity and the inclined angle, the material stopping clamping jaw cylinder 22 is arranged above the discharging port of the feeding barrel 21, the material baffle cylinder 23 is arranged at the discharging port of the feeding barrel 21, in an initial state, the material stopping clamping jaw cylinder 22 is positioned above the discharging port, the material baffle cylinder 23 ascends to block the discharging port, when the feeding device starts to work, the material stopping clamping jaw cylinder 22 moves downward to block a second winding drum 9 close to the discharging port, the discharging port is connected with a feeding waiting station through an inclined connecting plate, the material baffle cylinder 23 descends, and a first winding drum 9 close to the discharging, the striker plate cylinder 23 rises, the material stopping clamping jaw cylinder 22 moves upwards, the second reel 9 is loosened, the second reel 9 and the reels 9 behind the second reel are sequentially advanced, and the actions are repeated to continuously feed the single reel 9.

The material moving device 3 comprises a shifting linear slide rail 32 arranged on a base 31 along the horizontal direction, a clamping lifting linear guide rail 33 arranged on a slide block of the shifting linear slide rail 32 along the vertical direction, a plurality of product clamping jaws 34 arranged on the slide block of the clamping lifting linear guide rail 33 in parallel, a clamping shifting cylinder 35, a clamping lifting cylinder 36 and a product clamping cylinder 37, the assembling equipment of the application comprises four product clamping jaws 34 which are arranged in a row in parallel and arranged on the slide block of the clamping lifting linear guide rail 33, the four product clamping jaws 34 move simultaneously during working, the clamping shifting cylinder 35 drives the product clamping jaws 34 to move linearly along the shifting linear slide rail 32 in the horizontal direction, the clamping lifting cylinder 36 drives the product clamping jaws 34 to move linearly along the clamping lifting linear guide rail 33 in the vertical direction, and the product clamping cylinder 37 drives the product clamping jaws 34 to grab or release the reel 9, the two ends of the shifting linear slide rail 32 are provided with buffers 38, so that the product clamping jaws 34 are prevented from moving beyond the measuring range in the horizontal direction, and the working safety is ensured.

The correcting device 4 comprises a calibration positioning cylinder 42 arranged on a first support 41 and used for clamping and positioning the winding drum 9, a calibration head 43 and a fixed head 44 which move along the horizontal direction and are matched with each other, a calibration clamping guide rail 45, a calibration clamping motor 46, a calibration motor 47 and a calibration module 48, wherein the calibration clamping guide rail 45 is arranged on the first support 41, the calibration positioning cylinder 42 is arranged at a correction station, the calibration head 43 and the fixed head 44 are arranged on the corresponding calibration module 48, the calibration modules 48 are respectively arranged at two sides of the calibration positioning cylinder 42, the clamping end parts of the calibration positioning cylinder 42 are respectively provided with corresponding rollers, the outer side wall of the calibration head 43 is provided with an elastic bulge structure corresponding to the groove of the winding drum 9, when the material moving device 3 grabs and moves the winding drum 9 to be placed on the calibration positioning cylinder 42 of the correction station, the calibration positioning cylinder 42 positions and clamps the winding drum 9 through the rollers, at this time, the circumferential surface of the roller abuts against the outer wall of the winding drum 9, the calibration clamping motor 46 drives the calibration module 48 to move along the calibration clamping guide rail 45, so that the calibration head 43 and the fixed head 44 move relatively toward the winding drum 9, a through hole formed by a penetrating cylindrical cavity is arranged inside the winding drum 9 along the radial direction of the winding drum 9, a limit groove is arranged on the inner wall of the through hole along the radial direction, the calibration head 43 and the fixed head 44 respectively penetrate from the through holes at the two ends of the winding drum 9, when the winding drum 9 is not placed at a right position, the elastic bulge structure of the calibration head 43 penetrating into the through hole abuts against the side wall of the through hole, the calibration motor 47 drives the calibration head 43 to rotate due to elastic retraction, when the calibration head 43 rotates for a certain angle, the elastic bulge structure rotates into the limit groove of the winding drum 9, due to the elastic reaction force extends out of the limit groove, the winding drum 9 is further driven, the correction of the placement position of the roll 9 is completed.

The assembling device 5 comprises a vibrating disk 58, an assembling positioning cylinder 52 arranged on the second support 51 and used for clamping and positioning the winding drum 9, a terminal transferring device 53, a terminal overturning cylinder 54, an assembling boosting cylinder 55, an assembling guide rail 56 and an assembling motor 57, wherein the assembling positioning cylinder 52 is arranged at an assembling station, the terminal transferring device 53, the terminal overturning cylinder 54, the assembling boosting cylinder 55, the vibrating disk 58, the assembling guide rail 56 and the assembling motor 57 are respectively arranged at two sides of the assembling station, terminals 10 are installed on through holes at two ends of the winding drum 9, the vibrating disk 58 adjusts the terminals to be in set postures and conveys the terminals to feeding holes 59 at two sides of the assembling station, a contour groove for placing the terminals is arranged on the terminal overturning cylinder 54, the terminal transferring device 53 conveys the terminals into the contour groove, preferably, the terminal transferring device 53 comprises a terminal horizontal cylinder 531, The terminal clamping cylinder 533 is installed on the terminal lifting cylinder 532, the terminal lifting cylinder 532 is installed on the terminal horizontal transferring cylinder 531, the terminal lifting cylinder 532 drives the terminal clamping cylinder 533 to descend to grab the terminal at the feed inlet of the assembly station, the terminal horizontal transferring cylinder 531 drives the terminal clamping cylinder 533 to move to the upper side of the profile groove, the terminal lifting cylinder 532 drives the terminal clamping cylinder 533 to descend to place the terminal into the profile groove, and then the terminal clamping cylinder 533 ascends to move linearly along the horizontal direction to retreat to the initial position to prepare for grabbing of the next terminal; after the terminal is put to the profile groove, terminal upset cylinder 54 upset 90 degrees, equipment motor 57 drive terminal upset cylinder 54 along the removal of equipment guide rail 56 install the terminal at the both ends of reel 9, the baffle of equipment helping hand cylinder 55 can stretch out or retract along the horizontal direction of perpendicular reel 9, when terminal upset cylinder 54 equipment terminal, the baffle of equipment helping hand cylinder 55 stretches out the rear end that blocks the profile groove, supports the terminal, supplementary installation, the installation back, the baffle of equipment helping hand cylinder 55 retracts.

The tape sticking device 6 comprises a tape support 65, a tape sticking positioning mechanism 62 arranged on the third support 61 and used for pressing the positioning reel 9, a tape sticking guide rail 63 and a tape sticking moving frame 64, wherein the tape support 65 is arranged on one side of the third support 61, the moving frame is provided with a tape tensioning wheel 641, a tape feeding guide plate 642, a tape feeding clamping cylinder 643, a tape cutting mechanism 645, a tape sticking mechanism 646, a tape sticking cylinder 647, a tape sticking moving cylinder 648, a tape feeding cylinder 649 and a tape cutting cylinder 644, the tape support 65 is arranged on one side of the third support 61, a tape disc is placed on a rotating shaft of the tape support 65, the tape feeding is realized in a rotating mode, the tape sticking positioning mechanism 62 is arranged at a tape sticking station and positioned above the tape sticking moving frame 64, and preferably, the tape sticking positioning mechanism 62 comprises tape sticking grooves for placing two ends of the reel 9, A tape sticking pressing plate 621 and a tape sticking pressing cylinder 622 are arranged above the tape sticking placing groove, the tape sticking pressing cylinder 622 drives the tape sticking pressing plate 621 to move along the vertical direction, two ends of the winding drum 9 are placed in the tape sticking placing groove, and the tape sticking pressing plate 621 moves downwards to press two ends of the winding drum 9; the tape-attaching moving frame 64 is movable along the tape-attaching guide 63, and is provided with a tape tension pulley 641, a tape feeding guide 642, a tape feeding clamping cylinder 643, a tape attaching mechanism 646, and a tape cutting mechanism 645, wherein the upper end surface of the moving frame is inclined upward and is close to the side wall of the reel 9, the tension pulley is provided on the side surface of the moving frame, the tape feeding guide 642 is covered on the upper end surface of the moving frame and is movable along the upper end surface thereof, the tape feeding guide 642 is covered between the upper end surfaces of the moving frame and is provided with a gap for passing a tape, the tape feeding clamping cylinder 643 is perpendicular to the tape feeding guide 642, and the tape attaching mechanism 646 is movable in the vertical direction.

The adhesive tape disc is formed by rolling double-sided adhesive tape, one sticky side of the adhesive tape faces the adhesive tape feeding guide plate 642, and the other side of the adhesive tape is covered with protective paper.

When the adhesive tape cutting device works, the adhesive tape moving cylinder 648 drives the adhesive tape moving frame 64 to move below one end part of the winding drum 9 along the adhesive tape guide rail 63, an adhesive tape passes through a tension wheel, a gap between the adhesive tape feeding guide plate 642 and the upper end surface of the moving frame and the adhesive tape cutting mechanism 645 in sequence, the head end of the adhesive tape is positioned at the adhesive tape cutting mechanism 645, the adhesive tape feeding clamping cylinder 643 moves towards the adhesive tape feeding guide plate 642 to attach a part of the adhesive tape between the adhesive tape feeding guide plate 642 and the upper end surface of the moving frame to the adhesive tape feeding guide plate 642, the adhesive tape feeding cylinder 649 drives the adhesive tape feeding guide plate 642 to move forwards along the upper end surface of the adhesive tape moving frame 64 to further drive the adhesive tape to move forwards, so that the head end of the adhesive tape is positioned above the adhesive tape attaching mechanism 646, the adhesive tape attaching cylinder 647 drives the adhesive tape attaching mechanism 646 to, the tape adhering mechanism 646 is lowered back to the initial position, the tape moving cylinder 648 drives the tape moving frame 64 to move along the tape guide 63 below the other end of the reel 9, and the tape cutting cylinder 644 drives the cutter of the tape cutting mechanism 645 to cut the tape.

Preferably, the adhesive tape cutting mechanism 645 includes a stepped knife groove 6451 and a knife head moving in a vertical direction, and the adhesive tape cutting cylinder 644 drives the knife head to move upward to cut the adhesive tape placed in the stepped knife groove 6451.

The collecting device 7 is arranged at a collecting station, the collecting device 7 comprises a collecting box, and the material moving device 3 moves the assembled winding drum 9 to the collecting box for collection.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all of which utilize the equivalent structure or equivalent flow transformation made by the content of the specification of the present invention, or directly or indirectly applied to other related technical fields, all included in the same way in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides an automatic solar energy silk screen printing medium spool jacketing machine which characterized in that includes: the device comprises a feeding device, a material moving device, a correcting device, an assembling device, a tape pasting device, a collecting device and an electric control device which are arranged on a supporting frame, wherein the electric control device is respectively electrically connected with the feeding device, the material moving device, the correcting device, the assembling device and the tape pasting device, a feeding waiting station, a correcting station, an assembling station, a tape pasting station and a collecting station are sequentially arranged on the supporting frame, the feeding device continuously conveys a single reel to be processed to the feeding waiting station of a discharge port of the single reel, the material moving device simultaneously moves the reel from the feeding waiting station, the correcting station, the assembling station and the tape pasting station to the next station, the correcting device rotates the reel to a set position, the assembling device installs end covers at two ends of the reel, the tape pasting device pastes a tape to the side wall of the reel, and the collecting device collects the assembled reel, the electric control device respectively with feed arrangement, move material device, correcting unit, assembly device and rubberizing tape device electric connection and to its send control command, feed arrangement includes the feed cylinder, ends material clamping jaw cylinder and striker plate cylinder, the discharge gate downward sloping setting of feed cylinder, it sets up to end material clamping jaw cylinder the top of the discharge gate of feed cylinder, the striker plate cylinder sets up the discharge gate of feed cylinder blocks or exposes the discharge gate through the removal, move the material device including setting up on the base along the horizontal direction move the year linear slide rail, install on the slider that moves year linear slide rail along vertical direction's centre gripping lift linear guide and a plurality of product clamping jaws of parallel arrangement on centre gripping lift linear guide's slider, correcting unit is including setting up on first support be used for cliping the calibration location cylinder of location reel, The calibration head and the fixed head are matched with each other, the calibration positioning cylinder is arranged at a calibration station, the calibration head and the fixed head are respectively arranged at two sides of the calibration positioning cylinder, the clamping end part of the calibration positioning cylinder is respectively provided with a corresponding roller, the outer side wall of the calibration head is provided with an elastic bulge structure corresponding to the groove of the winding drum, the calibration head drives the winding drum to rotate, the calibration head and the fixed head can relatively move the positioning winding drum along the horizontal direction, the assembling device comprises an assembling positioning cylinder, a terminal transfer device, a terminal overturning cylinder, an assembling assisting cylinder and a vibrating disc which are arranged on a second support and used for clamping the positioning winding drum, the assembling positioning cylinder is arranged at an assembling station, the vibrating disc conveys terminals to feed inlets at two sides of the assembling station, and the terminal overturning cylinder is provided with an imitated groove for placing the terminals, the terminal transfer device carries the terminal into the contour groove, the terminal overturning cylinder moves along the horizontal direction after overturning to install the terminal at two ends of the winding drum, the baffle plate of the assembly boosting cylinder moves along the horizontal direction to block the rear end of the contour groove, the tape pasting device comprises a tape support, a tape pasting positioning mechanism arranged on a third support and used for pressing and positioning the winding drum, a tape pasting guide rail and a tape pasting moving frame, the tape pasting moving frame can move along the tape pasting guide rail, the tape pasting positioning mechanism is arranged at a tape pasting station and positioned above the tape pasting moving frame, the tape support is arranged at one side of the third support, a tape tensioning wheel, a tape feeding guide plate, a tape feeding clamping cylinder, a tape cutting mechanism and a tape pasting mechanism are arranged on the moving frame, the upper end face of the moving frame inclines upwards, and the tensioning wheel is arranged at the side face of the moving frame, the adhesive tape feeding guide plates are covered on the upper end faces of the movable frames and can move along the upper end faces of the movable frames, gaps for adhesive tapes to penetrate through are formed between the adhesive tape feeding guide plates and the upper end faces of the movable frames, the adhesive tape feeding clamping cylinders are perpendicular to the adhesive tape feeding guide plates, the adhesive tape pasting mechanism can move in the vertical direction, and the collecting device is arranged at the collecting station.

2. The automatic solar silk-screen medium reel jacketing machine of claim 1, wherein the respective moving directions of the material stopping clamping jaw cylinder and the material baffle plate cylinder are respectively perpendicular to the downward inclined surface of the discharge port.

3. The automatic solar screen printing medium reel jacketing machine of claim 1, wherein the material moving device comprises a clamping and moving cylinder, a clamping and lifting cylinder and a product clamping cylinder.

4. The automatic solar screen printing medium reel jacketing machine of claim 1, wherein buffers are provided at both ends of the transfer linear slide.

5. The automatic solar screen printing medium reel jacketing machine of claim 1, wherein the calibration device comprises a calibration clamping rail, a calibration clamping motor, a calibration motor and a calibration module, the calibration clamping rail is mounted on the first support, the calibration head and the fixed head are mounted on the corresponding calibration module, the calibration clamping motor drives the calibration module to move along the calibration clamping rail, and the calibration motor drives the calibration head to rotate.

6. The automatic solar screen printing media reel-in-tube machine of claim 1, wherein the alignment positioning cylinder clamps the reel with the circumferential surface of the roller against the reel.

7. The automatic solar screen printing medium reel-in-tube machine of claim 1, wherein the assembling device comprises an assembling guide rail and an assembling motor, and the assembling motor drives a terminal overturning cylinder to move along the assembling guide rail to install the terminals at two ends of the winding drum.

8. The automatic solar screen printing medium reel jacketing machine of claim 1, wherein the terminal transfer device comprises a terminal horizontal transfer cylinder, a terminal lifting cylinder, and a terminal clamping cylinder, wherein the terminal clamping cylinder is mounted on the terminal lifting cylinder, and the terminal lifting cylinder is mounted on the terminal horizontal transfer cylinder.

9. The automatic solar screen printing medium reel jacketing machine of claim 1, wherein the taping device comprises a taping moving cylinder, a tape feeding cylinder, a taping cylinder, and a tape cutting cylinder, the taping moving cylinder drives the taping moving frame to move along the taping guide rail, the tape feeding cylinder drives the tape feeding guide plate to move forward along the upper end surface of the taping moving frame to drive the tape to move forward, the taping cylinder drives the taping mechanism to move upward to apply the upper end of the tape to the side wall of the reel, and the tape cutting cylinder drives the cutter head of the tape cutting mechanism to cut the tape.

10. The automatic solar screen printing media reel-in jacketing machine of claim 1, wherein the tape severing mechanism comprises a stepped knife slot and a vertically moving knife head.

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