CN116553234A - Uv pressure-sensitive adhesive coating production equipment - Google Patents

Uv pressure-sensitive adhesive coating production equipment Download PDF

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Publication number
CN116553234A
CN116553234A CN202310447150.6A CN202310447150A CN116553234A CN 116553234 A CN116553234 A CN 116553234A CN 202310447150 A CN202310447150 A CN 202310447150A CN 116553234 A CN116553234 A CN 116553234A
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CN
China
Prior art keywords
plate
fixedly connected
sliding
cutting
paper
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN202310447150.6A
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Chinese (zh)
Inventor
马月春
肖建平
潘华国
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ruijin Sumond New Material Technology Co ltd
Original Assignee
Ruijin Sumond New Material Technology Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ruijin Sumond New Material Technology Co ltd filed Critical Ruijin Sumond New Material Technology Co ltd
Priority to CN202310447150.6A priority Critical patent/CN116553234A/en
Publication of CN116553234A publication Critical patent/CN116553234A/en
Pending legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H18/00Winding webs
    • B65H18/08Web-winding mechanisms
    • B65H18/10Mechanisms in which power is applied to web-roll spindle
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H19/00Changing the web roll
    • B65H19/22Changing the web roll in winding mechanisms or in connection with winding operations
    • B65H19/2207Changing the web roll in winding mechanisms or in connection with winding operations the web roll being driven by a winding mechanism of the centre or core drive type
    • B65H19/2215Turret-type with two roll supports
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H19/00Changing the web roll
    • B65H19/22Changing the web roll in winding mechanisms or in connection with winding operations
    • B65H19/26Cutting-off the web running to the wound web roll
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H19/00Changing the web roll
    • B65H19/22Changing the web roll in winding mechanisms or in connection with winding operations
    • B65H19/28Attaching the leading end of the web to the replacement web-roll core or spindle
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/10Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working

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  • Replacement Of Web Rolls (AREA)

Abstract

The invention relates to the field of adhesive tape production, in particular to uv pressure-sensitive adhesive coating production equipment. The technical problems of the invention are as follows: in the production process of the American-style paper, the American-style paper cannot be completely cut by manpower, and scraps generated by cutting can be adhered to the American-style paper. The technical scheme of the invention is as follows: the uv pressure-sensitive adhesive coating production equipment comprises a rewinder body, a replacement system, a cleaning protection system and the like; the rewinder body is connected with a replacement system; a cleaning protection system is arranged in front of the rewinder body. According to the invention, the cutting and feeding system is used for cutting off the masking paper and clamping the cut of the masking paper, so that the problem that the masking paper cannot be completely cut off manually in the traditional technology is solved, the masking paper is protected from being stained with fragments generated by cutting in the cutting process by the cleaning and protecting system, and the fragments stained in the slit cut by the masking paper are cleaned and collected, so that the masking paper cut by the invention is not stained with fragments.

Description

Uv pressure-sensitive adhesive coating production equipment
Technical Field
The invention relates to the field of adhesive tape production, in particular to uv pressure-sensitive adhesive coating production equipment.
Background
In the production process of the masking paper, the masking paper is required to be rewound through a rewinding machine, then the masking paper is manually cut off to obtain a masking paper roll after the rewinding is completed, then the rewound masking paper is manually taken off from the rewinding machine to replace a new roll, then the masking paper is manually pasted on the paper roll for the second time, then the rewound masking paper is placed on a splitting machine for splitting, then the masking paper is smoothed out of the splitting machine after the masking paper is split, so that the production of the masking paper is completed, the cut masking paper is manually fixed on the rewinding machine again when the masking paper is manually cut off, and when the masking paper is manually cut off, the masking paper is manually cut off from below because the masking paper tape is provided with glue, and a part of masking paper is manually cut off from below when the masking paper is manually cut off, and the masking paper cannot be completely cut off because the masking paper is manually cut off, so that a part of masking paper is not completely cut off, and the masking paper is cut off from the masking paper is manually when the masking paper is cut off from the masking paper;
the masking paper is manually transferred from the rewinder to the splitting machine after the masking paper is rewound, and the masking paper is manually fixed on the rewinder again when the next rewinding is performed, so that the steps are complex, and time and labor are wasted;
When the American vein paper is cut, a large amount of scraps can be generated due to the cutting, the scraps can splash onto the surface of the American vein paper, and glue is contained in the scraps, so that the scraps splash onto the surface of the American vein paper and then can be stained on the American vein paper, and the scraps can enter into gaps after the cutting of the American vein paper along with the cutting, so that the scraps can be stained in the gaps after the cutting of the American vein paper.
Disclosure of Invention
In order to overcome the defects that the American paper cannot be cut off completely by manpower and scraps generated by cutting can be adhered to the American paper in the production process of the American paper, the invention provides uv pressure-sensitive adhesive coating production equipment.
The technical proposal is as follows: the uv pressure-sensitive adhesive coating production equipment comprises a rewinder body, a replacement system, a cutting and feeding system and a cleaning and protecting system; the rewinder body is connected with a replacement system; the replacement system is connected with a cutting-off feeding system; a cleaning protection system is arranged in front of the rewinder body; the replacement system is used for carrying out the rewinding work of the masking paper in cooperation with the rewinder body, the cutting and feeding system is used for cutting off the masking paper after the rewinding is completed and fixing the cut of the cut masking paper on the replacement system again, and the cleaning and protecting system is used for preventing the surface of the masking paper from being stained with cutting scraps when the masking paper is cut.
As a further preferable scheme, the replacing system comprises a first supporting table, a first push rod, a first supporting plate, a second push rod, a fixed sleeve, a first fixed plate, a third push rod, a second supporting plate, a first motor, a replacing plate, an electric clamping ring, a rewinding roller, a fourth push rod, a second fixed plate, a first extruding roller, a first rotating plate and a second motor; a first supporting table is arranged on the right of the rewinder body; the first supporting table is fixedly connected with two first push rods which are distributed left and right; the telescopic ends of the two first push rods are fixedly connected with a first support plate together, and the rear side of the first support table is fixedly connected with another first support plate through a support rod; the two first support plates are fixedly connected with a second push rod; the telescopic ends of the two second push rods are fixedly connected with a fixed sleeve; the first supporting table is fixedly connected with a first fixing plate, and the first fixing plate is positioned at the rear of the first push rod; the first fixing plate is fixedly connected with two third push rods which are distributed left and right; the telescopic ends of the two third push rods are fixedly connected with a second support plate together; the second supporting plate is fixedly connected with a first motor; the output shaft of the first motor is fixedly connected with a replacement plate; the replacement plate is fixedly connected with two electric clamping rings which are distributed front and back; the two fixing sleeves are sleeved with a rewinding roller; the first supporting plate at the rear is fixedly connected with a fourth push rod, and the rewinder body is fixedly connected with another fourth push rod; the telescopic ends of the two fourth push rods are fixedly connected with a second fixing plate; the second fixed plate is rotationally connected with a first squeeze roller; the two rewinding rollers are connected with a first rotating plate in a rotating way, and the first rotating plate is connected with the rewinding machine body in a rotating way; the first rotating plate is fixedly connected with two second motors, and an output shaft of each second motor is fixedly connected with one rewinding roller respectively.
As a further preferable scheme, the cutting and feeding system comprises a feeding component and a cutting component; the replacement system is connected with a feeding assembly; the feeding assembly is connected with a cutting assembly; the feeding assembly is used for fixing the cut of the cut masking paper on the replacement system again, and the cutting assembly is used for cutting off the masking paper after rewinding is completed.
As a further preferable scheme, the feeding assembly comprises a second supporting table, a third motor, a second rotating plate, a third supporting plate, a third rotating plate, a clamping rod, a first spring, a third fixing plate, a fifth push rod, a fourth fixing plate, a first sliding plate and a first extruding plate; the first supporting table is fixedly connected with a second supporting table, and the second supporting table is positioned at the left side of the first supporting plate at the rear; the second supporting table is fixedly connected with a third motor; the output shaft of the third motor is fixedly connected with a second rotating plate, and the second rotating plate is rotationally connected with the rewinder body; the second rotating plate is fixedly connected with a third supporting plate; the third supporting plate is rotationally connected with two third rotating plates distributed left and right through torsion springs, and the two third rotating plates are bilaterally symmetrical; the two third rotating plates are respectively connected with a plurality of clamping rods which are distributed front and back in a sliding way; the opposite ends of each left clamping rod and each right clamping rod are sleeved with a first spring, one end of each first spring is fixedly connected with the adjacent clamping rod, and the other end of each first spring is fixedly connected with the adjacent third rotating plate; the third supporting plate is fixedly connected with a third fixing plate; the third fixing plate is fixedly connected with four fifth push rods which are bilaterally symmetrical; the telescopic ends of the two fifth push rods on the same side are fixedly connected with a fourth fixing plate, and the fourth fixing plate is provided with a groove which can enable the first extrusion plate to pass through; the two fourth fixing plates are both connected with a first sliding plate in a sliding way, and the first sliding plate is movably connected with the adjacent clamping rods; the third supporting plate is fixedly connected with four first extrusion plates which are distributed in a rectangular manner, and the left first extrusion plate and the right first extrusion plate are mutually symmetrical; the clamping rod is used for clamping the cut after the cutting of the masking paper.
As a further preferable scheme, one end of the clamping rod, which is close to the textured paper, is an inclined surface which is inclined downwards.
As a further preferable scheme, the cutting assembly comprises a second sliding plate, a cutter, a first limiting plate, a second spring, a fifth fixed plate, a third sliding plate, a third spring, a second squeeze roller, a motor, a winding wheel, a first rope, a second squeeze plate, a third squeeze plate and a first limiting block; the third fixed plate is connected with a second sliding plate in a sliding way; the second sliding plate is connected with a cutter with a baffle at the lower end in a sliding way; the second sliding plate is connected with four first limiting plates which are distributed in a rectangular mode and provided with sliding rods in a sliding mode, and the first limiting plates are matched with baffle plate parts of the cutters; the sliding rod parts of the four first limiting plates are sleeved with a second spring; the second sliding plate is fixedly connected with a fifth fixed plate; the fifth fixed plate is connected with a third sliding plate with four sliding rods at the bottom in a sliding way; the four sliding rod parts of the third sliding plate are sleeved with a third spring; the third sliding plate is rotationally connected with a plurality of second squeeze rollers distributed left and right; the third fixing plate is fixedly connected with two motors which are distributed left and right; the output shafts of the motors are fixedly connected with a winding wheel; the third fixed plate is fixedly connected with a second extrusion plate; the third fixing plate is fixedly connected with a third extrusion plate, and the third extrusion plate is positioned at the left side of the second extrusion plate; the third fixing plate is fixedly connected with two first limiting blocks; the first rope passes through the two first limiting blocks and then is wound on the other winding wheel; the cutter is used for cutting off the beautiful line paper.
As a further preferable mode, the second squeeze roll is provided obliquely.
As a further preferred aspect, the cleaning and protecting system comprises a protecting component and a cleaning component; a protective component is arranged in front of the rewinder body; the protection component is connected with the cleaning component; the protection component is used for preventing the surface of the masking paper from being stained with cutting scraps when the masking paper is cut, and the cleaning component is used for cleaning scraps stained in gaps of the masking paper after cutting.
As a further preferable scheme, the protection component comprises a sliding rail, a moving block, a sixth fixed plate, a sixth push rod, a fourth sliding plate, a fourth motor, a cutting piece, a fourth supporting plate, a connecting plate, a first electric protection plate and a second electric protection plate; a sliding rail is arranged in front of the rewinder body; the sliding rail is connected with a moving block in a sliding way; the moving block is fixedly connected with a sixth fixed plate; the sixth fixing plate is fixedly connected with two sixth push rods which are distributed left and right; the telescopic ends of the two sixth push rods are fixedly connected with a fourth sliding plate, and the fourth sliding plate is in sliding connection with the sixth fixed plate; the fourth sliding plate is fixedly connected with a fourth motor; the output shaft of the fourth motor is fixedly connected with a cutting blade; the fourth sliding plate is fixedly connected with a fourth supporting plate, and the left side of the moving block is slidingly connected with another fourth supporting plate; a connecting plate is fixedly connected between the two fourth supporting plates; the right fourth supporting plate is rotationally connected with a first electric protection plate, and the first electric protection plate is connected with a driving motor; the fourth supporting plate on the left is fixedly connected with a second electric protection plate, and the second electric protection plate is connected with a driving motor; the first electric protection plate and the second electric protection plate are used for preventing the surface of the masking paper from being stained with fragments generated by cutting.
As a further preferable scheme, the cleaning component comprises a fifth sliding plate, a second rope, a rotating block, a second limiting block, a seventh fixed plate, a scraping plate, a fourth spring, an extrusion block, a rotating roller, a third extrusion roller, a fourth extrusion plate, a fifth spring, a second limiting plate, a sixth spring, a limiting rod, a seventh spring, a fifth extrusion plate, an eighth spring, a collecting box, an eighth fixed plate, a ninth spring and a pull rod; a fifth sliding plate is connected with the lower protection plate part of the first electric protection plate in a sliding way; the fifth sliding plate is fixedly connected with a second rope; the lower protection plate part of the first electric protection plate is fixedly connected with a rotating block; the lower protection plate part of the first electric protection plate is fixedly connected with a second limiting block; the lower protection plate part of the first electric protection plate is fixedly connected with a seventh fixing plate, and the other end of the second rope bypasses the rotating block and passes through the second limiting block to be fixedly connected with the seventh fixing plate; the lower guard plate part of the first electric guard plate is connected with a scraping plate in a sliding manner; the scraping plate is fixedly connected with two fourth springs which are distributed in the front-back direction, and the other end of each fourth spring is fixedly connected with the first electric protection plate; the lower guard plate part of the first electric guard plate is fixedly connected with four extrusion blocks which are distributed in a rectangular manner; the scraping plate is rotationally connected with two rotating rollers; the scraping plate is fixedly connected with a third extrusion roller; the lower guard plate part of the first electric guard plate is connected with a fourth extrusion plate in a sliding way; the fourth extrusion plate is fixedly connected with two fifth springs which are distributed left and right, and the other end of the fifth springs is fixedly connected with the first electric protection plate; the lower guard plate part of the first electric guard plate is connected with four second limiting plates which are distributed in a rectangular manner and provided with sliding rods in a sliding manner; the sliding rod parts of the four second limiting plates are sleeved with a sixth spring; the lower protection plate part of the first electric protection plate is connected with two limit rods with sliding rods in a sliding way, and the limit rods are positioned below the second limit plate; the sliding rod parts of the limiting rods are sleeved with a seventh spring; a fifth extrusion plate is connected to the lower protection plate part of the first electric protection plate in a sliding manner, and the fifth extrusion plate is positioned below the fourth extrusion plate; the fifth extrusion plate is fixedly connected with two eighth springs which are distributed left and right, and the other end of the eighth spring is fixedly connected with the first electric protection plate; the lower protection plate part of the first electric protection plate is connected with a collection box with a sliding rod in a sliding way; the sliding rod part of the collecting box is connected with an eighth fixed plate in a sliding way, and the eighth fixed plate is fixedly connected with the first electric protection plate; the sliding rod parts of the collecting boxes are sleeved with a ninth spring, and the other ends of the ninth springs are fixedly connected with an eighth fixing plate; the eighth fixed plate is fixedly connected with a pull rod; the scraping plate is used for cleaning scraps stained in gaps of the cut finished product of the textured paper.
The invention has the following advantages: according to the invention, the cutting and feeding system is used for cutting the masking paper and clamping the cut of the masking paper, so that the masking paper can be immediately re-fixed to the replacement system to start the next rewinding after the masking paper is cut, manual re-fixation is not needed, the efficiency is greatly improved, the problem that the masking paper cannot be completely cut by manpower in the traditional technology is solved, the masking paper is protected from being stained with fragments generated by cutting in the cutting process of the masking paper by the cleaning and protecting system, and the fragments stained in the cutting gap of the masking paper are cleaned and collected, so that the masking paper cut by the invention is not stained with fragments, and the problem that the fragments generated by cutting in the traditional technology are stained with the masking paper is solved;
according to the invention, the clamping rod rotates towards the direction close to the third supporting plate, so that the masking paper is clamped, the masking paper is moved leftwards through the cutter, the masking paper is cut off, the positions of the two rewinding rollers of the replacement plate are exchanged, and after the third supporting plate rotates to the position of the front rewinding roller, the third supporting plate is attached to the front rewinding roller, so that the masking paper is attached to the front rewinding roller, and further, the next rewinding is conveniently carried out, so that the masking paper cutting device does not need to be manually fixed again, the efficiency is greatly improved, and the problem that the masking paper cannot be completely cut off manually in the traditional technology is solved;
According to the invention, the rolled masking paper is wrapped by the first electric protection plate and the second electric protection plate, so that when the masking paper is cut, fragments generated by cutting are not adhered to the surface of the masking paper, the finished masking paper is extruded by the extrusion block, the distance between the finished masking paper and the rewound masking paper is increased by the scraping plate, and the scraping plate can scrape the fragments adhered to the cut of the masking paper when the masking paper is cut, so that the masking paper cut by the invention is not adhered with the fragments, and the problem that the fragments generated by cutting in the traditional technology are adhered to the masking paper is solved.
Drawings
FIG. 1 is a schematic diagram of a construction of a uv pressure-sensitive adhesive coating production apparatus of the present invention;
FIG. 2 is a schematic view of a first partial construction of a rewinder body, a replacement system and a cut-off feeding system disclosed by the uv pressure sensitive adhesive coating production apparatus of the present invention;
FIG. 3 is a schematic view of a second partial construction of a rewinder body, a replacement system and a cut-off feeding system disclosed by the uv pressure sensitive adhesive coating production apparatus of the present invention;
FIG. 4 is an enlarged view of the portion A of FIG. 3 of the uv pressure sensitive adhesive coating production apparatus of the present invention;
FIG. 5 is a schematic view of a first partial construction of a cutoff loading system disclosed in the uv pressure sensitive adhesive coating production facility of the present invention;
FIG. 6 is a schematic view of a second partial construction of a cutoff loading system disclosed in the uv pressure sensitive adhesive coating production facility of the present invention;
FIG. 7 is an enlarged view of FIG. 6 at B of the uv pressure sensitive adhesive coating production facility of the present invention;
FIG. 8 is a schematic view of a third partial construction of a cutoff loading system disclosed in the uv pressure sensitive adhesive coating production facility of the present invention;
FIG. 9 is a schematic diagram of a cleaning and protecting system disclosed by the uv pressure sensitive adhesive coating production equipment of the present invention;
FIG. 10 is a schematic view of a first partial construction of a cleaning and protection system disclosed in the uv pressure sensitive adhesive coating production facility of the present invention;
FIG. 11 is a schematic view of a second partial construction of a cleaning and protection system disclosed in the uv pressure sensitive adhesive coating production facility of the present invention;
FIG. 12 is an enlarged view of FIG. 11 at C of the uv pressure sensitive adhesive coating production facility of the present invention;
FIG. 13 is a first partial cross-sectional view of a cleaning and protection system disclosed in the uv pressure sensitive adhesive coating production facility of the present invention;
FIG. 14 is an enlarged view of FIG. 13 at D of the uv pressure sensitive adhesive coating production facility of the present invention;
FIG. 15 is a second partial cross-sectional view of a cleaning and protection system disclosed in the uv pressure sensitive adhesive coating production facility of the present invention;
FIG. 16 is an enlarged view of FIG. 15 at E of the uv pressure sensitive adhesive coating production facility of the present invention.
Wherein: 1-rewinder body, 101-first supporting table, 102-first push rod, 103-first supporting plate, 104-second push rod, 105-fixed sleeve, 106-first fixed plate, 107-third push rod, 1071-second supporting plate, 108-first motor, 109-replacement plate, 1091-electric clamping ring, 1010-rewinding roller, 1011-fourth push rod, 1012-second fixed plate, 1013-first squeeze roller, 1014-first rotating plate, 1015-second motor, 201-second supporting table, 202-third motor, 203-second rotating plate, 204-third supporting plate, 205-third rotating plate, 206-clamping lever, 207-first spring, 208-third fixed plate, 209-fifth push rod, 2010-fourth fixed plate, 2011-first sliding plate, 2012-first pressing plate, 211-second sliding plate, 212-cutter, 213-first limit plate, 2113-first limit block, 214-second spring, 2141-fifth fixed plate, 215-third sliding plate, 216-third spring, 217-second pressing roller, 218-motor, 219-reel, 2110-first rope, 2111-second pressing plate, 2112-third pressing plate, 301-slide rail, 302-moving block, 303-sixth fixed plate, 304-sixth push rod, 305-fourth sliding plate, 306-fourth motor, 307-cutting blade, 308-fourth support plate, 309-connecting plate, 3010-first electric shield, 3011-second electric shield, 311-fifth sliding plate, 312-second rope, 313-rotating block, 314-second limiting block, 3141-seventh fixed plate, 315-scraping plate, 316-fourth spring, 317-extruding block, 318-rotating roller, 319-third extruding roller, 3110-fourth extruding plate, 3111-fifth spring, 3112-second limiting plate, 3113-sixth spring, 3114-limiting rod, 3115-seventh spring, 3116-fifth extruding plate, 3117-eighth spring, 3118-collecting box, 3119-eighth fixed plate, 3120-ninth spring, 3121-pull rod.
Description of the embodiments
The invention will be further illustrated by the following description of specific examples, which are given by the terms such as: setting, mounting, connecting are to be construed broadly, and may be, for example, fixed, removable, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.
Examples
The uv pressure-sensitive adhesive coating production equipment comprises a rewinder body 1, a replacement system, a cutting and feeding system and a cleaning and protecting system, wherein the cleaning and protecting system is shown in figures 1-16; the rewinder body 1 is connected with a replacement system; the replacement system is connected with a cutting-off feeding system; a cleaning protection system is arranged in front of the rewinder body 1; the replacement system is matched with the rewinder body 1 to perform the rewinding work of the masking paper, the cutting-off feeding system cuts off the masking paper after the rewinding is completed, the cut-off part of the cut masking paper is fixed on the replacement system again, and the cleaning protection system protects the surface of the masking paper from being stained with cutting scraps when the masking paper is cut.
In the production process of the American paper, the American paper cannot be completely cut off manually, and scraps produced by cutting can be adhered to the American paper, the invention specifically works, before the invention works, the invention needs to be powered on, then the American paper is manually fixed in a rewinder body 1, then the rewinder body 1 is controlled to start, and then the replacement system is matched for rewinding the American paper, after the rewinding is completed, a cutting and feeding system cuts off the American paper and clamps the incisions of the American paper, then the cutting and feeding system re-fixes the incisions of the American paper to the replacement system, then a cleaning and protecting system cuts the rewound American paper, and in the cutting process, the cleaning and protecting system can protect the American paper from adhering scraps produced by cutting, and the cleaning and protecting system can clean and collect scraps adhered in the slit after the American paper is cut; the cutting and feeding system is used for cutting the masking paper and clamping the cut of the masking paper, so that the masking paper can be immediately re-fixed to the replacement system to start the next rewinding after the masking paper is cut, manual re-fixation is not needed, the efficiency is greatly improved, the problem that the masking paper cannot be completely cut in the prior art is solved, the masking paper is protected from being stained with scraps generated by cutting in the cutting process by the cleaning and protecting system, scraps stained with gaps after the masking paper is cleaned and collected, the masking paper cut by the invention is not stained with scraps, and the problem that scraps generated by cutting in the traditional technology are stained with masking paper is solved.
The replacement system comprises a first supporting table 101, a first push rod 102, a first supporting plate 103, a second push rod 104, a fixed sleeve 105, a first fixed plate 106, a third push rod 107, a second supporting plate 1071, a first motor 108, a replacement plate 109, an electric clamping ring 1091, a rewinding roller 1010, a fourth push rod 1011, a second fixed plate 1012, a first squeeze roller 1013, a first rotating plate 1014 and a second motor 1015; a first supporting table 101 is arranged on the right of the rewinder body 1; the first supporting table 101 is fixedly connected with two first push rods 102 distributed left and right; the telescopic ends of the two first push rods 102 are fixedly connected with a first supporting plate 103 together, and the rear side of the first supporting table 101 is fixedly connected with another first supporting plate 103 through a supporting rod; the two first support plates 103 are fixedly connected with a second push rod 104; the telescopic ends of the two second push rods 104 are fixedly connected with a fixed sleeve 105; the first supporting table 101 is fixedly connected with a first fixing plate 106, and the first fixing plate 106 is positioned behind the first push rod 102; the first fixing plate 106 is fixedly connected with two third push rods 107 which are distributed left and right; the telescopic ends of the two third push rods 107 are fixedly connected with a second supporting plate 1071 together; the second support plate 1071 is fixedly connected with a first motor 108; the output shaft of the first motor 108 is fixedly connected with a replacement plate 109; the replacement plate 109 is fixedly connected with two electric clamping rings 1091 which are distributed back and forth; both fixed sleeves 105 are sleeved with a rewinding roller 1010; the first supporting plate 103 at the rear is fixedly connected with a fourth push rod 1011, and the rewinder body 1 is fixedly connected with another fourth push rod 1011; the telescopic ends of the two fourth push rods 1011 are fixedly connected with a second fixing plate 1012; the second fixing plate 1012 is rotatably connected to the first pressing roller 1013; the two rewinding rollers 1010 are connected with a first rotating plate 1014 in a rotating way, and the first rotating plate 1014 is connected with the rewinding machine body 1 in a rotating way; the first rotating plate 1014 is fixedly connected with two second motors 1015, and an output shaft of each second motor 1015 is fixedly connected with one rewinding roller 1010.
The cutting and feeding system comprises a feeding assembly and a cutting assembly; the replacement system is connected with a feeding assembly; the feeding assembly is connected with a cutting assembly; and the cut part of the cut masking paper is fixed on the replacement system again through the feeding component, and the masking paper after rewinding is cut off through the cutting component.
The feeding assembly comprises a second supporting table 201, a third motor 202, a second rotating plate 203, a third supporting plate 204, a third rotating plate 205, a clamping rod 206, a first spring 207, a third fixed plate 208, a fifth push rod 209, a fourth fixed plate 2010, a first sliding plate 2011 and a first extruding plate 2012; the first supporting table 101 is fixedly connected with a second supporting table 201, and the second supporting table 201 is positioned at the left side of the first supporting plate 103 at the rear; the second supporting table 201 is fixedly connected with a third motor 202; the output shaft of the third motor 202 is fixedly connected with a second rotating plate 203, and the second rotating plate 203 is rotationally connected with the rewinder body 1; the second rotating plate 203 is fixedly connected with a third supporting plate 204; the third supporting plate 204 is rotationally connected with two third rotating plates 205 distributed left and right through torsion springs, and the two third rotating plates 205 are bilaterally symmetrical; the two third rotating plates 205 are respectively connected with a plurality of clamping rods 206 which are distributed back and forth in a sliding way; a first spring 207 is sleeved at opposite ends of each left and right adjacent clamping rods 206, one end of the first spring 207 is fixedly connected with the adjacent clamping rods 206, and the other end of the first spring 207 is fixedly connected with the adjacent third rotating plate 205; the third support plate 204 is fixedly connected with a third fixing plate 208; the third fixing plate 208 is fixedly connected with four fifth push rods 209 which are bilaterally symmetrical; the telescopic ends of the two fifth push rods 209 on the same side are fixedly connected with a fourth fixing plate 2010, and the fourth fixing plate 2010 is provided with a groove which can enable the first extrusion plate 2012 to pass through; the two fourth fixing plates 2010 are both slidably connected with a first sliding plate 2011, and the first sliding plate 2011 is movably connected with the adjacent clamping rod 206; the third support plate 204 is fixedly connected with four first extrusion plates 2012 distributed in a rectangular shape, and the left and right first extrusion plates 2012 are symmetrical to each other; the cut after the cutting of the masking paper is held by the holding rod 206.
The end of the clamping rod 206 near the textured paper is an inclined surface facing downwards, so that the clamping rod 206 can not damage the textured paper when moving towards the textured paper.
The cutting assembly comprises a second sliding plate 211, a cutter 212, a first limiting plate 213, a second spring 214, a fifth fixing plate 2141, a third sliding plate 215, a third spring 216, a second squeeze roll 217, a motor 218, a winding wheel 219, a first rope 2110, a second squeeze plate 2111, a third squeeze plate 2112 and a first limiting block 2113; the third fixing plate 208 is slidably coupled with a second sliding plate 211; the second sliding plate 211 is slidably connected with a cutter 212 with a baffle at the lower end; the second sliding plate 211 is slidably connected with four first limiting plates 213 with sliding rods, which are distributed in a rectangular shape, and the first limiting plates 213 are matched with the baffle parts of the cutters 212; the sliding rod parts of the four first limiting plates 213 are sleeved with a second spring 214; the second sliding plate 211 is fixedly connected with a fifth fixing plate 2141; the fifth fixing plate 2141 is slidably connected with a third sliding plate 215 having four sliding bars at the bottom; the four sliding rod portions of the third sliding plate 215 are each sleeved with a third spring 216; the third sliding plate 215 is rotatably connected with a plurality of second squeeze rollers 217 distributed left and right; the third fixing plate 208 is fixedly connected with two motors 218 distributed left and right; the output shafts of the motors 218 are fixedly connected with a winding wheel 219; the third fixing plate 208 is fixedly connected with a second pressing plate 2111; the third fixing plate 208 is fixedly connected with a third compression plate 2112, and the third compression plate 2112 is positioned at the left of the second compression plate 2111; the third fixing plate 208 is fixedly connected with two first limiting blocks 2113; the winding wheel 219 is wound with a first rope 2110, and the first rope 2110 passes through two first limiting blocks 2113 and then is wound on the other winding wheel 219; the textured paper is cut by the cutter 212.
The second squeeze roll 217 is disposed obliquely, so that the second squeeze roll 217 can better adhere to the rewinding roll 1010.
The third sliding plate 215 is in ball connection with the sliding rod part, so that the second squeeze roller 217 can rotate in a self-adaptive manner when touching the rewinding roller 1010.
The cleaning and protecting system comprises a protecting component and a cleaning component; a protective component is arranged in front of the rewinder body 1; the protection component is connected with the cleaning component; the protection assembly is used for protecting the surface of the masking paper from being stained with cutting scraps when the masking paper is cut, and the cleaning assembly is used for cleaning scraps stained in gaps of the masking paper after cutting.
The protection assembly comprises a sliding rail 301, a moving block 302, a sixth fixed plate 303, a sixth push rod 304, a fourth sliding plate 305, a fourth motor 306, a cutting blade 307, a fourth supporting plate 308, a connecting plate 309, a first electric protection plate 3010 and a second electric protection plate 3011; a slide rail 301 is arranged in front of the rewinder body 1; the sliding rail 301 is connected with a moving block 302 in a sliding manner; the moving block 302 is fixedly connected with a sixth fixing plate 303; the sixth fixing plate 303 is fixedly connected with two sixth push rods 304 distributed left and right; the telescopic ends of the two sixth push rods 304 are fixedly connected with a fourth sliding plate 305, and the fourth sliding plate 305 is in sliding connection with the sixth fixed plate 303; the fourth sliding plate 305 is fixedly connected with a fourth motor 306; the output shaft of the fourth motor 306 is fixedly connected with a cutting blade 307; the fourth sliding plate 305 is fixedly connected with a fourth supporting plate 308, and the left side of the moving block 302 is slidingly connected with another fourth supporting plate 308; a connecting plate 309 is fixedly connected between the two fourth supporting plates 308; the right fourth support plate 308 is rotatably connected with a first electric protection plate 3010, and the first electric protection plate 3010 is connected with a driving motor; the fourth supporting plate 308 on the left is fixedly connected with a second electric protection plate 3011, and the second electric protection plate 3011 is connected with a driving motor; the surface of the textured paper is protected by the first and second motor protection plates 3010 and 3011 to prevent the stickers generated by the dicing.
The cleaning assembly includes a fifth sliding plate 311, a second rope 312, a rotating block 313, a second limiting block 314, a seventh fixed plate 3141, a scraper 315, a fourth spring 316, an extrusion block 317, a rotating roller 318, a third extrusion roller 319, a fourth extrusion plate 3110, a fifth spring 3111, a second limiting plate 3112, a sixth spring 3113, a limiting rod 3114, a seventh spring 3115, a fifth extrusion plate 3116, an eighth spring 3117, a collection box 3118, an eighth fixed plate 3119, a ninth spring 3120, and a pull rod 3121; a fifth sliding plate 311 is slidably connected to a lower guard plate portion of the first electric guard plate 3010; the fifth sliding plate 311 is fixedly connected with a second rope 312; a rotating block 313 is fixedly connected to the lower guard plate part of the first electric guard plate 3010; a second limiting block 314 is fixedly connected to the lower protection plate part of the first electric protection plate 3010; a seventh fixing plate 3141 is fixedly connected to the lower guard plate portion of the first electric guard plate 3010, and the other end of the second rope 312 bypasses the rotating block 313 and passes through the second limiting block 314 to be fixedly connected to the seventh fixing plate 3141; a scraper 315 is slidably connected to the lower guard plate portion of the first electric guard plate 3010; the scraper 315 is fixedly connected with two fourth springs 316 which are distributed back and forth, and the other ends of the fourth springs 316 are fixedly connected with the first electric protection plate 3010; four extrusion blocks 317 which are distributed in a rectangular shape are fixedly connected to the lower protection plate part of the first electric protection plate 3010; the scraper 315 is rotatably connected with two rotating rollers 318; the scraper 315 is fixedly connected with a third squeeze roller 319; a fourth pressing plate 3110 is slidably connected to a lower shield portion of the first electric shield 3010; the fourth extrusion plate 3110 is fixedly connected with two left-right distributed fifth springs 3111, and the other end of the fifth springs 3111 is fixedly connected with the first electric protection plate 3010; the lower guard plate part of the first electric guard plate 3010 is slidably connected with four second limiting plates 3112 with sliding rods in rectangular distribution; the sliding rod parts of the four second limiting plates 3112 are respectively sleeved with a sixth spring 3113; the lower guard plate part of the first electric guard plate 3010 is slidably connected with two limit rods 3114 with sliding rods distributed left and right, and the limit rods 3114 are located below the second limit plates 3112; the sliding rod parts of the limiting rods 3114 are respectively sleeved with a seventh spring 3115; a fifth pressing plate 3116 is slidably connected to a lower shielding plate portion of the first electric shielding plate 3010, and the fifth pressing plate 3116 is located below the fourth pressing plate 3110; the fifth extrusion plate 3116 is fixedly connected with two eighth springs 3117 distributed left and right, and the other end of the eighth springs 3117 is fixedly connected with the first electric protection plate 3010; a lower shield part of the first electric shield 3010 is slidably connected to a collection box 3118 with a slide bar; the slide bar portion of the collection box 3118 is slidably connected to an eighth fixed plate 3119, and the eighth fixed plate 3119 is fixedly connected to the first electric guard 3010; the sliding rod parts of the collecting boxes 3118 are respectively sleeved with a ninth spring 3120, and the other ends of the ninth springs 3120 are fixedly connected with an eighth fixed plate 3119; the eighth fixed plate 3119 is fixedly connected with a pull rod 3121; the scraping plate 315 cleans the scraps adhered to the slit cut by the finished product of the masking paper.
The scraper 315 is provided with a V-shaped groove, so that the scraper 315 can scrape the other side while scraping.
The cross section of the extrusion block 317 is triangular, so that the extrusion block 317 can better enlarge the distance between the finished product textured papers.
The invention specifically works, before the invention specifically works, the invention needs to be powered on, then a paper tube is sleeved on both rewinding rollers 1010 manually, then the paper tube on the rewinding rollers 1010 at the rear is dipped with the paper after the paper passes through the clamping rod 206 and the third supporting plate 204 manually, then the fifth push rod 209 is controlled to start, the fifth push rod 209 pushes the two fourth fixing plates 2010 to move towards each other, the fourth fixing plates 2010 push the two first sliding plates 2011 to move towards each other, when the first sliding plates 2011 move to the positions of the first pressing plates 2012, the first pressing plates 2012 press the first sliding plates 2011, so that the first sliding plates 2011 move downwards, the first sliding plates 2011 drive the clamping rods 206 to rotate around the third rotating plates 205, the clamping rods 206 tilt upwards, the first springs 207 are in a stretching state, then the clamping rod 206 can not stop the winding of the masking paper, then the second motor 1015 at the rear is controlled to start, then the second motor 1015 drives the rear winding roller 1010 to rotate, then the winding roller 1010 winds the masking paper, and then starts the winding work of the masking paper, after the winding of the masking paper is completed, the second motor 1015 at the rear is controlled to stop rotating, and then the winding work of the masking paper is stopped, then the fifth push rod 209 is controlled to pull the fourth fixing plate 2010 and the first sliding plate 2011 to move reversely, and then the first sliding plate 2011 is not extruded by the first extrusion plate 2012, and then the torsion spring drives the third rotating plate 205 to reset, and the first spring 207 pulls the clamping rod 206 to reset, and then the clamping rod 206 is enabled to rotate towards the direction close to the third supporting plate 204 rapidly, and then the masking paper is better clamped, then the motor 218 at the left is controlled to start, and then the motor 218 drives the winding wheel 219 at the left side to rotate, the winding wheel 219 at the left side pulls the first rope 2110, the first rope 2110 pulls the second sliding plate 211 to slide leftwards, the second sliding plate 211 drives the cutter 212, the first limiting plate 213, the second spring 214 and all parts connected with the cutter 212 to move leftwards, the cutter 212 cuts off the masking paper, and the masking paper is clamped by the clamping rod 206 at the moment, so that the masking paper still cannot fall off from the third supporting plate 204 after being cut off; when the cutter 212 moves leftwards to the position of the third extrusion plate 2112, the third extrusion plate 2112 extrudes the cutter 212, so that the cutter 212 moves downwards, when the straight plate part of the cutter 212 moves downwards to the position of the first limiting plate 213, the cutter 212 extrudes the first limiting plate 213, so that the first limiting plate 213 moves backwards, so that the cutter 212 can continue to move downwards, when the straight plate part of the cutter 212 moves below the first limiting plate 213 below, the first limiting plate 213 limits the cutter 212, so that the cutter 212 keeps the position after the downward movement, so that the cutter 212 does not hurt the masking paper when moving rightwards, when the next cutting is needed, the motor 218 on the right can be controlled to start, so that the cutter 212 is pulled rightwards, and the cutter 212 can be extruded above the first limiting plate 213 through the second extrusion plate 213, then the fourth push rod 1011 is controlled to start, so that the second push rod 1011 pushes the second fixing plate 1012 and the first extrusion motor 1013 move downwards, so that the masking paper 1015 is extruded downwards, and the masking paper 1015 is rolled downwards, and the masking paper is cut downwards well is rolled;
Then the third push rod 107 is controlled to start, the third push rod 107 pushes the second supporting plate 1071 to move upwards, the second supporting plate 1071 drives the first motor 108, the replacement plate 109 and the electric clamping ring 1091 to move upwards, after the electric clamping ring 1091 moves upwards to the horizontal position of the rotating shafts of the two rewinding rollers 1010, the electric clamping ring 1091 is controlled to start, the electric clamping ring 1091 clamps the rotating shafts of the two rewinding rollers 1010, then the two second push rods 104 are controlled to start, the second push rod 104 pulls the fixing sleeve 105 to move rightwards, the fixing sleeve 105 releases the fixing of the rewinding rollers 1010, then the first motor 108 is controlled to start, the first motor 108 drives the replacement plate 109 to rotate, the replacement plate 109 drives the electric clamping ring 1091 and the two rewinding rollers 1010 to rotate, the positions of the two rewinding rollers 1010 are exchanged, the rewinding rollers 1010 with the textured paper are further rotated to the positions of the front empty rewinding rollers 1010, then the third motor 202 is controlled to start, the third motor 202 drives the second rotating plate 203 to rotate, the second rotating plate 203 drives the third supporting plate 204, the third rotating plate 205 and the clamping rod 206 to rotate, and then drives the cutting of the masking paper to rotate, when the third supporting plate 204 rotates to the position of the front rewinding roller 1010, the third supporting plate 204 is attached to the front rewinding roller 1010, the clamping rod 206 stops the masking paper, but the middle part of the masking paper still sticks to the paper tube due to the wide masking paper, then the fifth push rod 209 is controlled to pull the fourth fixing plate 2010 to move back to back, the fourth fixing plate 2010 drives the first sliding plate 2011 to move back to back, and then pulls the clamping rod 206 to slide back in the third rotating plate 205, when the opposite ends of the clamping rod 206 move to the position of the third rotating plate 205, the clamping rod 206 is not blocking the masking paper, the paper with the beautiful patterns is fully attached to the paper tube on the front rewinding roller 1010, so that the next rewinding operation is conveniently started, then the right motor 218 is controlled to start, the second sliding plate 211 sliding to the left is pulled to slide rightwards, the cutter 212, the first limiting plate 213, the second spring 214 and all parts connected with the cutter are driven to move rightwards, and then when the second extruding roller 217 moves rightwards, the notch of the paper with the beautiful patterns can be attached to the paper tube on the front rewinding roller 1010, so that the notch is not pressed after being folded due to the fact that the notch is not attached to the rewinding roller 1010 during rewinding, and feeding is completed;
Then, the third motor 202 is controlled to rotate reversely, so as to drive the second rotating plate 203, the third supporting plate 204 and the third rotating plate 205 to reset, and then after the reset is completed, the fifth push rod 209 is controlled to push the fourth fixing plate 2010 to move oppositely, so that the clamping rod 206 is inclined upwards again, and further the next clamping of the clamping rod 206 is facilitated;
then the next winding of the paper can be performed, and during the winding, the second motor 1015 in front is controlled to start, then the second motor 1015 drives the front winding roller 1010 to rotate, then the winding paper is driven to rotate, then the sliding rail 301 is controlled to start, then the sliding rail 301 drives the moving block 302 to move rightwards, then the moving block 302 drives the sixth fixing plate 303, the sixth push rod 304, the fourth sliding plate 305 and all parts connected with the sixth fixing plate, the sixth push rod 304, the fourth sliding plate 305 to move rightwards, when the left extrusion block 317 moves to the right side of the paper in a long roll, the distance between the cutting plate 307 and the extrusion block 317 at this time is the length of the finished paper, then the fourth motor 306 is controlled to start, then the fourth motor 306 drives the cutting plate 307 to rotate, then the sixth push rod 304 is controlled to start, then the sixth push rod 304 pushes the fourth sliding plate 305 to move backwards, and then the fourth motor 306 and the cutting plate 307 are driven to move backwards, the cutting sheet 307 starts to cut the rewound masking paper, before the cutting sheet 307 contacts the masking paper, the first electric protection plate 3010 and the second electric protection plate 3011 are controlled to be started, the first electric protection plate 3010 and the second electric protection plate 3011 wrap the rewound masking paper, so that scraps generated by cutting can not be stained on the surface of the masking paper when the masking paper is cut, after the rewound masking paper is cut for the first time, the sixth push rod 304 is controlled to pull the fourth motor 306 and the cutting sheet 307 to move forwards, then the slide rail 301 is controlled to start, the slide rail 301 drives the fourth motor 306 and the cutting sheet 307 to move leftwards, after the cutting sheet 307 moves leftwards for the length of one masking paper roll, the sixth push rod 304 is controlled to push the cutting sheet 307 to move backwards, and then the next cutting is performed, in the process that the first electric protection plate 3010 and the second electric protection plate 3011 wrap the rewound paper with the finished paper, the extrusion block 317 extrudes the finished paper, and the distance between the finished paper and the rewound paper is increased, and then the scraping plate 315 can move between the finished paper and the rewound paper, then after the paper is wrapped by the first electric protection plate 3010, the upper protection plate of the upper first electric protection plate 3010 extrudes the fifth sliding plate 311, and then the fifth sliding plate 311 moves forwards on the lower protection plate part of the first electric protection plate 3010, and then the fifth sliding plate 311 drives the second rope 312 to move forwards, and then the second rope 312 moves forwards, and then the second rope 315 moves towards the direction close to the circle center, and then the scraping plate 315 moves between the finished paper and the rewound paper, and then the scraping plate 315 cuts the scraps on the paper, and then the scraping plate 3110 moves downwards, and then the fourth sliding plate 3114 moves upwards, and then the fourth sliding plate 3114 moves the fourth sliding plate 3114, and the fourth sliding plate 3114 moves upwards, and the fourth sliding plate 3114 moves the second rope 312 forwards, and the second rope 312 moves forwards, and the scraping plate 315 moves towards the direction close to the circle center, the second limiting plate 3112 is further enabled to limit the limiting rod 3114, the seventh spring 3115 is in a compressed state at this time, the limiting rod 3114 can be kept to be attached to the second limiting plate 3112 all the time, the fifth pressing plate 3116 is further facilitated to press the limiting rod 3114 out of the second limiting plate 3112, the limiting rod 3114 is further enabled to limit the collecting box 3118, the ninth spring 3120 is in a compressed state, after the limiting rod 3114 moves back to back, the ninth spring 3120 pushes the scraping plate 315, the collecting box 3118 is further enabled to be attached to the scraping plate 315, and therefore the collecting box 3118 can collect scraps scraped by the scraping plate 315 into the collecting box 3118 when the scraping plate 315 moves upwards next time;
Then, when the next slitting is performed, the scraper 315 drives the third squeeze roller 319 to move upwards, and when the third squeeze roller 319 moves to the position of the fifth squeeze plate 3116, the third squeeze roller 319 squeezes the fifth squeeze plate 3116, so that the fifth squeeze plate 3116 moves upwards, the eighth spring 3117 is in a stretched state, and when the next slitting is performed by the scraper 315, the eighth spring 3117 can drive the fifth squeeze plate 3116 to reset, and then the fifth squeeze plate 3116 squeezes the limiting rod 3114, so that the limiting rod 3114 moves towards each other between the second limiting plates 3112, the second limiting plate 3112 does not limit the limiting rod 3114, and then the limiting rod 3114 continues to move, and then the limiting rod 3114 squeezes the collecting box 3118, so that the collecting box 3118 moves away from the scraper, and then the collecting box 3118 can not block the movement of the scraper 315, and when the next slitting is performed by the collecting box 3118 can collect the scraps on the scraper, and thus the paper after the slitting is finished, the paper after the slitting is finished;
it should be noted that, after slitting the multi-roll finished product masking paper, the four pressing blocks 317 can fix the finished product masking paper between the four pressing blocks 317, so as to prevent the finished product masking paper from moving rightwards, when more chips are collected in the collection box 3118, the eighth fixing plate 3119 can be manually detached, and then the collection box 3118 is pulled out by the pull rod 3121, so as to be cleaned;
Then, the second push rod 104 in front is controlled to pull the fixing sleeve 105 to move rightwards, so that the fixing sleeve 105 in front is not fixed on the front rewinding roller 1010, then the first push rod 102 is controlled to start, then the first push rod 102 pulls the first supporting plate 103, the second push rod 104 and the fixing sleeve 105 to move downwards, so that a paper tube is conveniently placed on the rewinding roller 1010 manually, then a cut roll of finished product masking paper on the front rewinding roller 1010 is manually smoothed down and collected, production of masking paper is finished, then the paper tube is manually placed on the front rewinding roller 1010, further the rewinding roller 1010 can be carried out for the next time, then after the rear masking paper is rewound, the replacement plate 109 and the electric clamping ring 1091 are exchanged again for the two rewinding rollers 1010, the two rewinding rollers 1010 are controlled to be fixed again after the completion of the two fixing sleeves 105, next time rewinding and cutting are carried out, and continuous production of masking paper is carried out in a reciprocating mode.
The technical principles of the embodiments of the present invention are described above in connection with specific embodiments. The description is only intended to explain the principles of the embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will recognize other embodiments of the present invention without undue burden, and those ways that are within the scope of the present invention.

Claims (10)

1. The uv pressure-sensitive adhesive coating production equipment comprises a rewinder body (1); the method is characterized in that: the device also comprises a replacement system, a cutting-off feeding system and a cleaning protection system; the rewinder body (1) is connected with a replacement system; the replacement system is connected with a cutting-off feeding system; a cleaning protection system is arranged in front of the rewinder body (1); the replacement system is used for carrying out the rewinding work of the masking paper in cooperation with the rewinder body (1), the cutting and feeding system is used for cutting off the masking paper after the rewinding is completed and fixing the cut of the cut masking paper on the replacement system again, and the cleaning and protecting system is used for preventing the surface of the masking paper from being stained with cutting scraps when the masking paper is cut.
2. The uv pressure-sensitive adhesive coating production apparatus according to claim 1, wherein: the replacement system comprises a first supporting table (101), a first push rod (102), a first supporting plate (103), a second push rod (104), a fixed sleeve (105), a first fixed plate (106), a third push rod (107), a second supporting plate (1071), a first motor (108), a replacement plate (109), an electric clamping ring (1091), a rewinding roller (1010), a fourth push rod (1011), a second fixed plate (1012), a first squeeze roller (1013), a first rotating plate (1014) and a second motor (1015); a first supporting table (101) is arranged on the right of the rewinder body (1); the first supporting table (101) is fixedly connected with two first push rods (102) which are distributed left and right; the telescopic ends of the two first push rods (102) are fixedly connected with a first supporting plate (103) together, and the rear side of the first supporting table (101) is fixedly connected with another first supporting plate (103) through a supporting rod; the two first support plates (103) are fixedly connected with a second push rod (104); the telescopic ends of the two second push rods (104) are fixedly connected with a fixed sleeve (105); the first supporting table (101) is fixedly connected with a first fixing plate (106), and the first fixing plate (106) is positioned behind the first push rod (102); the first fixing plate (106) is fixedly connected with two third push rods (107) which are distributed left and right; the telescopic ends of the two third push rods (107) are fixedly connected with a second supporting plate (1071) together; the second supporting plate (1071) is fixedly connected with a first motor (108); an output shaft of the first motor (108) is fixedly connected with a replacement plate (109); the replacement plate (109) is fixedly connected with two electric clamping rings (1091) which are distributed front and back; the two fixing sleeves (105) are sleeved with a rewinding roller (1010); the first supporting plate (103) at the rear is fixedly connected with a fourth push rod (1011), and the rewinder body (1) is fixedly connected with another fourth push rod (1011); the telescopic ends of the two fourth push rods (1011) are fixedly connected with a second fixing plate (1012); the second fixed plate (1012) is rotatably connected with a first squeeze roller (1013); the two rewinding rollers (1010) are connected with a first rotating plate (1014) in a common rotating way, and the first rotating plate (1014) is connected with the rewinding machine body (1) in a rotating way; the first rotating plate (1014) is fixedly connected with two second motors (1015), and the output shaft of each second motor (1015) is fixedly connected with one rewinding roller (1010).
3. The uv pressure-sensitive adhesive coating production apparatus according to claim 2, wherein: the cutting and feeding system comprises a feeding assembly and a cutting assembly; the replacement system is connected with a feeding assembly; the feeding assembly is connected with a cutting assembly; the feeding assembly is used for fixing the cut of the cut masking paper on the replacement system again, and the cutting assembly is used for cutting off the masking paper after rewinding is completed.
4. A uv pressure sensitive adhesive coating production apparatus according to claim 3, wherein: the feeding assembly comprises a second supporting table (201), a third motor (202), a second rotating plate (203), a third supporting plate (204), a third rotating plate (205), a clamping rod (206), a first spring (207), a third fixing plate (208), a fifth push rod (209), a fourth fixing plate (2010), a first sliding plate (2011) and a first extrusion plate (2012); the first supporting table (101) is fixedly connected with a second supporting table (201), and the second supporting table (201) is positioned at the left side of the first supporting plate (103) at the rear; the second supporting table (201) is fixedly connected with a third motor (202); the output shaft of the third motor (202) is fixedly connected with a second rotating plate (203), and the second rotating plate (203) is rotationally connected with the rewinder body (1); the second rotating plate (203) is fixedly connected with a third supporting plate (204); the third supporting plate (204) is rotationally connected with two third rotating plates (205) distributed left and right through torsion springs, and the two third rotating plates (205) are bilaterally symmetrical; the two third rotating plates (205) are respectively connected with a plurality of clamping rods (206) which are distributed front and back in a sliding way; the opposite ends of each left and right adjacent clamping rods (206) are sleeved with a first spring (207), one end of each first spring (207) is fixedly connected with the adjacent clamping rod (206), and the other end of each first spring (207) is fixedly connected with the adjacent third rotating plate (205); the third supporting plate (204) is fixedly connected with a third fixing plate (208); the third fixing plate (208) is fixedly connected with four fifth push rods (209) which are bilaterally symmetrical; the telescopic ends of the two fifth push rods (209) on the same side are fixedly connected with a fourth fixing plate (2010), and the fourth fixing plate (2010) is provided with a groove which can enable the first extrusion plate (2012) to pass through; the two fourth fixing plates (2010) are both connected with a first sliding plate (2011) in a sliding manner, and the first sliding plate (2011) is movably connected with the adjacent clamping rods (206); the third supporting plate (204) is fixedly connected with four first extrusion plates (2012) which are distributed in a rectangular mode, and the first extrusion plates (2012) on the left and the right are symmetrical to each other; the clamping rod (206) is used for clamping the cut after the cutting of the textured paper.
5. The uv pressure-sensitive adhesive coating production apparatus according to claim 4, wherein: one end of the clamping rod (206) close to the textured paper is an inclined surface which is inclined downwards.
6. The uv pressure-sensitive adhesive coating production apparatus according to claim 4, wherein: the cutting assembly comprises a second sliding plate (211), a cutter (212), a first limiting plate (213), a second spring (214), a fifth fixed plate (2141), a third sliding plate (215), a third spring (216), a second extrusion roller (217), a motor (218), a winding wheel (219), a first rope (2110), a second extrusion plate (2111), a third extrusion plate (2112) and a first limiting block (2113); the third fixed plate (208) is connected with a second sliding plate (211) in a sliding way; the second sliding plate (211) is connected with a cutter (212) with a baffle at the lower end in a sliding way; the second sliding plate (211) is connected with four first limiting plates (213) with sliding rods in rectangular distribution in a sliding way, and the first limiting plates (213) are matched with baffle parts of the cutters (212); the sliding rod parts of the four first limiting plates (213) are sleeved with a second spring (214); the second sliding plate (211) is fixedly connected with a fifth fixed plate (2141); the fifth fixed plate (2141) is connected with a third sliding plate (215) with four sliding rods at the bottom in a sliding way; the four sliding rod parts of the third sliding plate (215) are sleeved with a third spring (216); the third sliding plate (215) is rotationally connected with a plurality of second squeeze rollers (217) which are distributed left and right; the third fixed plate (208) is fixedly connected with two motors (218) which are distributed left and right; the output shafts of the motors (218) are fixedly connected with a winding wheel (219); the third fixing plate (208) is fixedly connected with a second extrusion plate (2111); the third fixing plate (208) is fixedly connected with a third extrusion plate (2112), and the third extrusion plate (2112) is positioned at the left side of the second extrusion plate (2111); the third fixing plate (208) is fixedly connected with two first limiting blocks (2113); the first rope (2110) is wound on the winding wheel (219), and the first rope (2110) passes through the two first limiting blocks (2113) and then is wound on the other winding wheel (219); the cutter (212) is used for cutting off the textured paper.
7. The uv pressure-sensitive adhesive coating production apparatus according to claim 6, wherein: the second squeeze roller (217) is obliquely arranged.
8. The uv pressure-sensitive adhesive coating production apparatus according to claim 6, wherein: the cleaning and protecting system comprises a protecting component and a cleaning component; a protective component is arranged in front of the rewinder body (1); the protection component is connected with the cleaning component; the protection component is used for preventing the surface of the masking paper from being stained with cutting scraps when the masking paper is cut, and the cleaning component is used for cleaning scraps stained in gaps of the masking paper after cutting.
9. The uv pressure-sensitive adhesive coating production apparatus according to claim 8, wherein: the protection assembly comprises a sliding rail (301), a moving block (302), a sixth fixed plate (303), a sixth push rod (304), a fourth sliding plate (305), a fourth motor (306), a cutting piece (307), a fourth supporting plate (308), a connecting plate (309), a first electric protection plate (3010) and a second electric protection plate (3011); a sliding rail (301) is arranged in front of the rewinder body (1); the sliding rail (301) is connected with a moving block (302) in a sliding way; the moving block (302) is fixedly connected with a sixth fixed plate (303); the sixth fixing plate (303) is fixedly connected with two sixth push rods (304) which are distributed left and right; the telescopic ends of the two sixth push rods (304) are fixedly connected with a fourth sliding plate (305) together, and the fourth sliding plate (305) is in sliding connection with the sixth fixed plate (303); the fourth sliding plate (305) is fixedly connected with a fourth motor (306); an output shaft of the fourth motor (306) is fixedly connected with a cutting blade (307); the fourth sliding plate (305) is fixedly connected with a fourth supporting plate (308), and the left side of the moving block (302) is slidingly connected with another fourth supporting plate (308); a connecting plate (309) is fixedly connected between the two fourth supporting plates (308); the right fourth supporting plate (308) is rotatably connected with a first electric protection plate (3010), and the first electric protection plate (3010) is connected with a driving motor; the fourth supporting plate (308) on the left is fixedly connected with a second electric protection plate (3011), and the second electric protection plate (3011) is connected with a driving motor; the first electric protection plate (3010) and the second electric protection plate (3011) are used for preventing the surface of the textured paper from being stained with fragments generated by cutting.
10. The uv pressure-sensitive adhesive coating production apparatus according to claim 9, wherein: the cleaning assembly comprises a fifth sliding plate (311), a second rope (312), a rotating block (313), a second limiting block (314), a seventh fixed plate (3141), a scraping plate (315), a fourth spring (316), an extruding block (317), a rotating roller (318), a third extruding roller (319), a fourth extruding plate (3110), a fifth spring (3111), a second limiting plate (3112), a sixth spring (3113), a limiting rod (3114), a seventh spring (3115), a fifth extruding plate (3116), an eighth spring (3117), a collecting box (3118), an eighth fixed plate (3119), a ninth spring (3120) and a pull rod (3121); a fifth sliding plate (311) is connected to the lower guard plate part of the first electric guard plate (3010) in a sliding manner; the fifth sliding plate (311) is fixedly connected with a second rope (312); a rotating block (313) is fixedly connected to the lower protection plate part of the first electric protection plate (3010); a second limiting block (314) is fixedly connected to the lower protection plate part of the first electric protection plate (3010); a seventh fixed plate (3141) is fixedly connected to the lower protection plate part of the first electric protection plate (3010), and the other end of the second rope (312) bypasses the rotating block (313) and passes through the second limiting block (314) to be fixedly connected with the seventh fixed plate (3141); a scraping plate (315) is connected to the lower protection plate part of the first electric protection plate (3010) in a sliding manner; the scraping plate (315) is fixedly connected with two fourth springs (316) which are distributed in the front-back direction, and the other end of each fourth spring (316) is fixedly connected with the first electric protection plate (3010); four extrusion blocks (317) which are distributed in a rectangular shape are fixedly connected to the lower protection plate part of the first electric protection plate (3010); the scraping plate (315) is rotatably connected with two rotating rollers (318); the scraping plate (315) is fixedly connected with a third squeeze roller (319); a fourth extrusion plate (3110) is slidingly connected to the lower guard plate part of the first electric guard plate (3010); the fourth extrusion plate (3110) is fixedly connected with two left-right distributed fifth springs (3111), and the other end of the fifth springs (3111) is fixedly connected with the first electric protection plate (3010); the lower guard plate part of the first electric guard plate (3010) is connected with four second limit plates (3112) with sliding rods in rectangular distribution in a sliding way; the sliding rod parts of the four second limiting plates (3112) are respectively sleeved with a sixth spring (3113); the lower protection plate part of the first electric protection plate (3010) is connected with two limit rods (3114) with sliding rods in a sliding way, and the limit rods (3114) are positioned below the second limit plate (3112); the sliding rod parts of the limiting rods (3114) are respectively sleeved with a seventh spring (3115); a fifth extrusion plate (3116) is slidably connected to the lower guard plate portion of the first electric guard plate (3010), and the fifth extrusion plate (3116) is located below the fourth extrusion plate (3110); the fifth extrusion plate (3116) is fixedly connected with two eighth springs (3117) which are distributed left and right, and the other end of the eighth spring (3117) is fixedly connected with the first electric protection plate (3010); the lower guard plate part of the first electric guard plate (3010) is connected with a collecting box (3118) with a sliding rod in a sliding way; the sliding rod part of the collecting box (3118) is connected with an eighth fixed plate (3119) in a sliding way, and the eighth fixed plate (3119) is fixedly connected with the first electric protection plate (3010); the sliding rod parts of the collecting boxes (3118) are respectively sleeved with a ninth spring (3120), and the other ends of the ninth springs (3120) are fixedly connected with an eighth fixed plate (3119); the eighth fixed plate (3119) is fixedly connected with a pull rod (3121); the scraping plate (315) is used for cleaning scraps attached to gaps of the cut finished product of the textured paper.
CN202310447150.6A 2023-04-24 2023-04-24 Uv pressure-sensitive adhesive coating production equipment Pending CN116553234A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202310447150.6A CN116553234A (en) 2023-04-24 2023-04-24 Uv pressure-sensitive adhesive coating production equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202310447150.6A CN116553234A (en) 2023-04-24 2023-04-24 Uv pressure-sensitive adhesive coating production equipment

Publications (1)

Publication Number Publication Date
CN116553234A true CN116553234A (en) 2023-08-08

Family

ID=87487141

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202310447150.6A Pending CN116553234A (en) 2023-04-24 2023-04-24 Uv pressure-sensitive adhesive coating production equipment

Country Status (1)

Country Link
CN (1) CN116553234A (en)

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