CN114055853B - Windowing production equipment and method for windowing envelope - Google Patents

Abstract

The invention provides window production equipment and a production method of a window envelope, and belongs to the technical field of window envelope processing equipment. Through the die cutter looks adaptation on first die cutting roller surface die cutting groove and second die cutting roller surface in the cross cutting mechanism, rotate through first die cutting roller and second die cutting roller, realize the cutting to the note both sides, realize windowing and the viscose to the note through windowing viscose mechanism, realize pasting and compressing tightly through fourth hydraulic stem in diaphragm and viscose department through tectorial membrane mechanism, rotate through the surplus material roller of second, collect the diaphragm after the cutting, realize the stoving to glue and the cutting to the note through stoving mechanism and partition mechanism, and then obtain single envelope semi-manufactured goods.

Description

Windowing production equipment and method for windowing envelope

Technical Field

The invention belongs to the technical field of windowing envelope processing equipment, and particularly relates to windowing envelope production equipment and a windowing envelope production method.

Background

The front of the envelope leaves a window covered with transparent paper, through which the names and addresses of the letters and letters written in the window can be seen. The envelope is called a windowing envelope, the windowing envelope needs to be windowed and coated with paper strips in the production process, the existing windowing and coating equipment is complex, the production efficiency is low, and most of equipment only performs windowing and coating on a single unfolded envelope after cutting and fails to continuously produce.

Therefore, we propose a windowing production device and a production method for windowing envelopes.

Disclosure of Invention

The embodiment of the invention provides window production equipment and a production method of a window envelope, and aims to solve the problem that the production equipment of the existing window production equipment is low in efficiency.

In view of the above problems, the technical scheme provided by the invention is as follows:

a windowing production facility for windowing envelopes, comprising:

window opening production equipment

The windowing production equipment is sequentially provided with a die cutting mechanism, a windowing adhesive mechanism, a film covering mechanism, a drying mechanism and a dividing mechanism from left to right;

the die cutting mechanism comprises a first mounting plate, the first mounting plate is vertically arranged, a first raw material roller and a first residual material roller with the same height are mounted on one side surface bearing of the first mounting plate, a first die cutting roller and a second die cutting roller which are perpendicular to one side surface of the first mounting plate are arranged below the first raw material roller and close to the lower side of the first residual material roller, the first die cutting roller is arranged right above the second die cutting roller, a die cutting groove is formed in the surface of the first die cutting roller, a die cutting knife is arranged on the surface of the second die cutting roller, a first limit roller is arranged on one side, close to the lower side of the first residual material roller, and a first driving roller perpendicular to one side surface of the first mounting plate is arranged on one side, far away from the lower side of the first raw material roller;

the window-opening gluing mechanism comprises a first supporting table, side plates and a first top plate, wherein the side plates are arranged on two sides of the first supporting table, the first top plates are arranged on the top ends of the two side plates, a window-opening seat is arranged on the top surface of the first supporting table, a window-opening groove is formed in the center of the top surface of the window-opening seat, first hydraulic rods are vertically arranged at the center of the bottom surface of the first top plate, which is close to the two sides, a compaction block is arranged by pushing the first hydraulic rods, a first opening part and a square mounting groove are sequentially formed in the center of the top surface of the compaction block from inside to outside, a glue box is arranged in the square mounting groove, a second opening part is formed in the center of the surface of the glue box, a second hydraulic rod is vertically arranged in the center of the bottom surface of the first top plate, and a window-opening block is arranged at the pushing end of the second hydraulic rod;

the film laminating mechanism comprises a second supporting table, a second top plate and two second mounting plates, wherein the two second mounting plates are vertical and symmetrically arranged on two sides of the second supporting table and are perpendicular to the first mounting plates, the two adjacent ends of the bottom surface of the second top plate are respectively arranged between the adjacent top ends of one side of the two second mounting plates through triangular fixing frames, a film laminating seat is arranged on the top surface of the second supporting table, supporting rods are respectively arranged at four corners of the top surface of the film laminating seat, first die cutting blocks are arranged at the top ends of the supporting rods, vertical third hydraulic rods are respectively arranged at the adjacent ends of the bottom surface of the second top plate, second die cutting blocks are arranged at the center of the bottom surface of the second top plate, a third opening is respectively formed in the adjacent surfaces of the first die cutting blocks and the second die cutting blocks, a third opening is respectively formed in the adjacent side of the second mounting plates, a second rest roll is respectively arranged below the second top plate, a second rest roll is respectively arranged below the second rest roll is adjacent to the first rest roll, and a rest roll is respectively arranged below the second rest roll is adjacent to the second rest roll, and the rest roll is respectively arranged below the second rest roll is adjacent to the second rest roll;

the drying mechanism comprises a drying box, a second driving roller is arranged on one side, close to the film covering mechanism, of the drying box, a dividing mechanism is arranged on one side, far away from the film covering mechanism, of the drying box, the dividing mechanism comprises a third driving roller, and a first cutting roller and a second cutting roller are arranged on one side, far away from the drying box, of the third driving roller.

As a preferable technical scheme of the invention, the first die cutting roller, the second die cutting roller, the first limiting roller and the first driving roller are all arranged on one side surface of the first mounting plate through bearings, one ends of the first die cutting roller, the second die cutting roller and the first driving roller penetrate through the first mounting plate to be connected with a driving motor in a driving way, and the die cutting knife is matched with the die cutting groove.

As a preferable technical scheme of the invention, limiting blocks are arranged at the bottom ends of the square mounting grooves and close to the centers of the four sides, the glue box is in a shape of a Chinese character 'hui', clamping grooves are formed at the centers of the four sides of the glue box, and the four clamping grooves are respectively matched with the four limiting blocks.

As a preferable technical scheme of the invention, four fixing blocks are arranged on the top surface of the compaction block, the four fixing blocks are L-shaped, two sides of the glue box are respectively fixed with the compaction block through two fixing blocks, a plurality of glue outlet holes are formed in the bottom surface of the glue box, limit rods are arranged on the top ends of the glue outlet holes, the number of the limit rods above each glue outlet hole is three, the three limit rods are distributed on the glue outlet holes on the inner bottom surface of the glue box in an annular array mode by taking the center of the glue outlet holes as the center of the array, sleeves are arranged on the top ends of the three limit rods, springs are arranged in the sleeves, sealing plugs are arranged on the bottom surfaces of the springs, the bottom ends of the sealing plugs penetrate through the bottom surfaces of the sleeves to the top ends of the glue outlet holes, extension rods are vertically arranged on the bottom centers of the sealing plugs, and the bottom ends of the extension rods penetrate through the glue outlet holes to the outside of the bottom surfaces of the glue box.

As a preferable technical scheme of the invention, the surface of the sealing plug is in clearance fit with the inner wall of the sleeve, the height of the sealing plug is higher than that of the limiting rod, the diameter of the sealing plug is larger than that of the glue outlet hole, and the diameter of the glue outlet hole is larger than that of the extension rod.

As a preferable technical scheme of the invention, the second raw material roller and the second residual material roller are perpendicular to the surface of one side of the second mounting plate through bearings, one end of the second residual material roller penetrates through one side of the second mounting plate to be connected with a driving motor in a transmission way, and the height of the center of the second limiting roller is the same as the height of the top surface of the first die-cut block.

As a preferable embodiment of the present invention, the size of the first opening, the size of the second opening, and the size of the fenestration product are the same, and the surface of the fenestration product is in clearance fit with the inner wall of the fenestration product.

As a preferable embodiment of the present invention, an inner wall of the third opening portion is in clearance fit with a surface of the cut film block, and a size of the third opening portion is larger than a size of the window groove.

As a preferable technical scheme of the invention, the surface of the first cutting roller is provided with a cutting knife, and the surface of the second cutting roller is provided with a cutting groove matched with the cutting knife.

On the other hand, the invention provides a production method of windowing production equipment of windowing envelopes, which comprises the following steps:

s1, envelope model manufacturing, preparing, namely enabling the paper roll end part on a first raw material roller to pass through the space between a first die cutting roller and a second die cutting roller, the space between a first limit roller, the space between a first driving roller, the top surface of a top surface film covering seat of a window opening seat, the space between a second driving roller, the inside of a drying box, the space between a third driving roller and the space between the first cutting roller and the second cutting roller, enabling the paper roll end part on the second raw material roller to pass through the space between two second limit rollers and a first die cutting block and a second die cutting block, and being fixed on a second residual material roller, and enabling the paper roll end part on the second raw material roller to pass through the space between the two second limit rollers and the first die cutting block and the second die cutting block through the rotation of the second residual material roller, wherein the paper roll moving is realized through the rotation of the second residual material roller during working: the surface of the first die cutting roller is matched with the die cutting knife on the surface of the second die cutting roller, the first die cutting roller and the second die cutting roller rotate to cut two sides of the paper strip, the cut surplus material and the paper strip pass through the first limit roller together, the waste surplus material passes through the rotation of the first surplus material roller to collect the surplus material, and the cut paper strip passes through the first transmission roller for transmission;

s2, windowing and gluing, wherein when the paper strip processed in the S1 passes through the windowing seat, the first hydraulic rod works to push the pressing block to move downwards and clamp the paper strip with the windowing seat, the second hydraulic rod works to push the windowing block to move downwards, when the windowing block passes through the first opening part and the second opening part and moves to the bottom surface of the windowing groove, windowing of the paper strip is realized, the pressing block contacts the bottom end of the extension rod with the top surface of the windowing seat in the downward moving process, the sealing plug is pressed, the sealing plug is separated from the glue outlet hole, glue flows out from the glue outlet hole on the bottom surface of the glue box, so that gluing around the paper strip windowing is realized, the first hydraulic rod and the second hydraulic rod retract and reset after completion, the bottom surface of the sealing plug returns to the glue outlet Kong Dusi through the elasticity of the spring, and waste caused by glue outflow is avoided;

s3, coating a film on the window, pushing a second die cutting block through a third hydraulic rod when the paper strip processed in the S2 passes through the top surface of the film coating seat, clamping a film membrane between the first die cutting block and the second die cutting block through the second die cutting block and the first die cutting block, pushing the film cutting block to move downwards through the fourth hydraulic rod, cutting the film through the clearance fit of the third opening and the film cutting block when the film cutting block passes through the two third opening, enabling the film to be matched with the adhesive of the window, enabling the film on the bottom surface of the film cutting block to move downwards to the top surface of the film coating seat through a negative pressure air hole on the bottom surface of the film cutting block, further achieving pasting of the film and the adhesive, compacting through the fourth hydraulic rod, rotating the film after film cutting through a second residual material roller, and collecting the cut film;

s4, drying the glue, namely pressing and transmitting the membrane and the adhesive again through the second transmission roller by the paper strip processed in the S3, and when the paper strip passes through the drying box, the drying box works to dry the glue;

s5, the semi-finished product is cut, the paper strip processed by the S4 is transmitted through the third transmission roller, and is matched with a cutting groove formed in the surface of the second cutting roller through a cutting knife on the surface of the first cutting roller between the first cutting roller and the second cutting roller, so that the paper strip is cut, and then a single semi-finished product of an envelope is obtained, and at the moment, the third transmission roller not only realizes the transmission of the paper strip, but also realizes the clamping and fixing of the paper strip, and the first cutting roller and the second cutting roller are guaranteed to realize the cutting of the paper strip.

Compared with the prior art, the invention has the beneficial effects that:

(1) Through first cross cutting roller, second cross cutting roller, first driving roller, second driving roller, third driving roller, first cutting roller and second cutting roller work, realize that the note removes, pass between two second spacing rollers and first die cutting piece and the second cross cutting piece with the roll up membrane tip on the second raw materials roller to fix on the second clout roller, realize the removal of roll up the membrane through the rotation of second clout roller, during operation: the die cutters on the surfaces of the first die cutting roller and the second die cutting roller are matched, the first die cutting roller and the second die cutting roller rotate to cut two sides of paper strips, cut surplus materials and paper strips pass through the first limiting roller together, waste surplus materials pass through the rotation of the first surplus material roller to collect the surplus materials, and the cut paper strips pass through the first transmission roller for transmission.

(2) Through first hydraulic stem work, promote the compact heap to move down to press from both sides tight with the note with the seat of windowing, work through the second hydraulic stem, promote the piece of windowing to move down, the piece of windowing passes first opening, when the second opening moved to the bottom surface of windowing the groove, realize windowing to the note, the compact heap is in the down move in-process through the contact of extension pole bottom with the seat top surface of windowing, with the seal top, the spring is stressed, the sealing plug leaves out the glue hole, glue flows from the glue outlet of gluing the box bottom surface, thereby realize the viscose around the note windowing, first hydraulic stem and second hydraulic stem retract the reset after the completion, the top surface that the bottom surface of sealing plug got back to the glue hole through the elasticity of spring will go out glue Kong Dusi, avoid glue outflow to cause extravagant.

(3) The second die cutting block is pushed through the third hydraulic rod, the membrane between the first die cutting block and the second die cutting block is clamped through the second die cutting block and the first die cutting block, the membrane cutting block is pushed to move downwards through the fourth hydraulic rod, when the membrane cutting block passes through the two third opening parts, the membrane cutting block is matched with the window adhesive through the clearance fit between the third opening parts and the membrane cutting block, the membrane on the bottom surface of the membrane cutting block is matched with the window adhesive through the negative pressure air hole on the bottom surface of the membrane cutting block, the membrane cutting block downwards moves to the top surface of the membrane covering seat, the membrane is adhered to the adhesive through the fourth hydraulic rod, and the membrane after the membrane cutting is rotated through the second residual material roller to collect the membrane after the membrane cutting.

(4) The second driving roller is used for pressing and driving the membrane and the viscose again, and when the paper strip passes through the drying box, the drying box works to dry the glue.

(5) The cutting knife on the surface of the first cutting roller is matched with the cutting groove formed in the surface of the second cutting roller, so that the paper strip is cut, and then a single semi-finished envelope product is obtained.

The foregoing description is only an overview of the present invention, and is intended to be implemented in accordance with the teachings of the present invention in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present invention more readily apparent.

Drawings

FIG. 1 is a schematic perspective view of a windowing production facility for windowing envelopes disclosed in the present invention;

FIG. 2 is a schematic perspective view of a die cutting mechanism of a windowing production facility for windowing envelopes in accordance with the present disclosure;

FIG. 3 is a perspective view of a windowing adhesive mechanism of a windowing envelope production facility disclosed in the present invention;

FIG. 4 is an enlarged schematic view of the mechanism of the A structure of FIG. 3;

FIG. 5 is a perspective view of a film laminating mechanism of a windowing production facility for windowing envelopes disclosed in the present invention;

FIG. 6 is a schematic perspective view of a drying mechanism of a windowing production facility for windowing envelopes disclosed in the present invention;

FIG. 7 is a schematic perspective view of a parting mechanism of a windowing production facility for windowing envelopes disclosed in the present invention;

fig. 8 is a workflow diagram of a method of producing a fenestration product facility for fenestration envelopes as disclosed herein.

Reference numerals illustrate: 100. window production equipment; 200. a die cutting mechanism; 2001. a first mounting plate; 2002. a first raw material roll; 2003. a first remainder roll; 2004. a first die cutting roller; 2005. a second die cutting roller; 2006. a first limit roller; 2007. a first driving roller; 2008. a die cutter; 2009. cutting the die; 300. a windowing and gluing mechanism; 3001. a first support table; 3002. a window seat; 3003. a window opening groove; 3004. a side plate; 3005. a first top plate; 3006. a first hydraulic lever; 3007. a second hydraulic lever; 3008. a compaction block; 3009. square mounting grooves; 3010. a limiting block; 3011. a first opening portion; 3012. a window opening block; 3013. a fixed block; 3014. a glue box; 3015. a second opening portion; 3016. a clamping groove; 3017. a sleeve; 3018. a limit rod; 3019. a spring; 3020. a sealing plug; 3021. an extension rod; 400. a film covering mechanism; 4001. a second support table; 4002. a film covering seat; 4003. a support rod; 4004. a first die-cut block; 4005. a second die-cut block; 4006. a third opening portion; 4007. a third hydraulic lever; 4008. a second top plate; 4009. a fourth hydraulic lever; 4010. cutting film blocks; 4011. a second mounting plate; 4012. a second raw material roll; 4013. a second remainder roller; 4014. the second limit roller; 500. a drying mechanism; 5001. a drying box; 5002. a second driving roller; 600. a dividing mechanism; 6001. a third driving roller; 6002. a first cutting roller; 6003. a cutting knife; 6004. a second cutting roll; 6005. cutting grooves.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Example 1

Referring to the accompanying drawings 1-7, the invention provides a technical scheme that: a windowing production facility for windowing envelopes, comprising a windowing production facility 100;

referring to fig. 1 to 7, the windowing production facility 100 is provided with a die cutting mechanism 200, a windowing adhesive mechanism 300, a film covering mechanism 400, a drying mechanism 500 and a dividing mechanism 600 in order from left to right;

the die cutting mechanism 200 comprises a first mounting plate 2001, the first mounting plate 2001 is vertically arranged, a first raw material roller 2002 and a first residual material roller 2003 with the same height are mounted on one side surface bearing of the first mounting plate 2001, a first die cutting roller 2004 and a second die cutting roller 2005 which are perpendicular to one side surface of the first mounting plate 2001 are arranged below the first raw material roller 2002 and close to the lower side of the first residual material roller 2003, the first die cutting roller 2004 is arranged right above the second die cutting roller 2005, a die cutting groove 2009 is formed in the surface of the first die cutting roller 2004, a die cutting cutter 2008 is arranged on the surface of the second die cutting roller 2005, a first limit roller 2006 is arranged on one side, close to the lower side of the first residual material roller 2003, and a first driving roller 2007 perpendicular to one side surface of the first mounting plate 2001 is arranged on one side, far from the first raw material roller 2002;

the windowing and gluing mechanism 300 comprises a first supporting table 3001, side plates 3004 and a first top plate 3005, wherein the side plates 3004 are arranged on two sides of the first supporting table 3001, the first top plate 3005 is arranged at the top ends of the two side plates 3004, a windowing seat 3002 is arranged on the top surface of the first supporting table 3001, a windowing groove 3003 is formed in the center of the top surface of the windowing seat 3002, first hydraulic rods 3006 are vertically arranged at the center of the bottom surface of the first top plate 3005, close to the two sides, a pressing block 3008 is arranged by pushing the two first hydraulic rods 3006, a first opening 3011 and a square mounting groove 3009 are sequentially formed in the center of the top surface of the pressing block 3008 from inside to outside, a glue box 3014 is arranged in the square mounting groove 3009, a second opening 3015 is formed in the center of the surface of the glue box 3014, a second hydraulic rod 3007 is vertically arranged in the center of the bottom surface of the first top plate 3005, and a windowing block 3012 is arranged at the pushing end of the second hydraulic rod 3007;

the film coating mechanism 400 comprises a second supporting table 4001, a second top plate 4008 and two second mounting plates 4011, wherein the two second mounting plates 4011 are vertically and symmetrically arranged on two sides of the second supporting table 4001 and are perpendicular to the first mounting plates 2001, the positions, close to two ends, of the bottom surface of the second top plate 4008 are respectively arranged between the positions, close to the top ends, of one sides of the two second mounting plates 4011 through triangular fixing frames, the top surface of the second supporting table 4001 is provided with a film coating seat 4002, the four corners of the top surface of the film coating seat 4002 are respectively provided with a supporting rod 4003, the top ends of the supporting rods 4003 are provided with first die cutting blocks 4004, the positions, close to two ends, of the bottom surface of the second top plate 4008 are respectively provided with vertical third hydraulic rods 4007, the pushing ends of the third hydraulic rods 4007 are provided with second die cutting blocks 4006, a vertical fourth hydraulic rod 4009 is arranged at the center of the bottom surface of the second top plate 4008, a film cutting block 4010 is arranged at the pushing end of the fourth hydraulic rod 4009, third opening parts 4006 are formed on the surfaces of the first die cutting block 4004 and the second die cutting block 4005, a second raw material roller 4012 and a second residual material roller 4013 are respectively arranged on one side of the two second mounting plates 4011, which is close to the second top plate 4008, under the second raw material roller 4012, which is close to the second residual material roller 4013, and under the second residual material roller 4013, which is close to the second raw material roller 4012, which is provided with a second limit roller 4014, and bearings of the two second limit rollers 4014 are respectively arranged on one side surfaces of the two second mounting plates 4011;

the drying mechanism 500 comprises a drying box 5001, a second driving roller 5002 is arranged on one side, close to the film covering mechanism 400, of the drying box 5001, a dividing mechanism 600 is arranged on one side, far away from the film covering mechanism 400, of the drying box 5001, the dividing mechanism 600 comprises a third driving roller 6001, and a first cutting roller 6002 and a second cutting roller 6004 are arranged on one side, far away from the drying box 5001, of the third driving roller 6001.

As an embodiment of the present invention, further, the first die-cutting roller 2004, the second die-cutting roller 2005, the first limiting roller 2006 and the first driving roller 2007 are all installed on one side surface of the first mounting plate 2001 through bearings, one end of each of the first die-cutting roller 2004, the second die-cutting roller 2005 and the first driving roller 2007 passes through the first mounting plate 2001 to be connected with a driving motor, and the die-cutting rule 2008 is adapted to the die-cutting groove 2009.

As an embodiment of the present invention, further, the bottom end of the square mounting groove 3009 is provided with limiting blocks 3010 near the centers of the four sides, the shape of the glue box 3014 is in a shape of a Chinese character 'hui', the centers of the four sides of the glue box 3014 are provided with clamping grooves 3016, and the four clamping grooves 3016 are respectively matched with the four limiting blocks 3010.

As an embodiment of the present invention, further, four fixing blocks 3013 are disposed on the top surface of the pressing block 3008, the four fixing blocks 3013 are all L-shaped, two sides of the glue box 3014 are respectively fixed with the pressing block 3008 through two fixing blocks 3013, a plurality of glue outlet holes are disposed on the bottom surface of the glue box 3014, the top ends of the glue outlet holes are all provided with three limiting rods 3018, the number of the limiting rods 3018 above each glue outlet hole is three, the three limiting rods 3018 are distributed in the glue outlet holes on the inner bottom surface of the glue box 3014 in an annular array with the center of the glue outlet holes as the center, sleeves 3017 are disposed on the top ends of the three limiting rods 3018, springs 3019 are disposed in the inner portion of the sleeves 3017, sealing plugs 3020 are disposed on the bottom surfaces of the springs 3019, the bottom ends of the sealing plugs 3020 extend to the top ends of the glue outlet holes through the bottom surfaces of the sleeves 3017, extension rods 3021 are disposed vertically on the bottom surfaces of the sealing plugs 3020, and the bottom ends of the extension rods 3021 extend to the outside the bottom surfaces of the glue box 3014 through the glue outlet holes.

As an embodiment of the present invention, further, the surface of the sealing plug 3020 is in clearance fit with the inner wall of the sleeve 3017, the height of the sealing plug 3020 is higher than the height of the limiting rod 3018, the diameter of the sealing plug 3020 is larger than the diameter of the glue outlet hole, and the diameter of the glue outlet hole is larger than the diameter of the extension rod 3021.

As an embodiment of the present invention, further, the second raw material roller 4012 and the second residual material roller 4013 are perpendicular to a surface of one side of the second mounting plate 4011 through bearings, one end of the second residual material roller 4013 passes through one side of the second mounting plate 4011 to be connected with a driving motor in a transmission manner, and the height of the center of the second limiting roller 4014 is the same as the height of the top surface of the first die cutting block 4004.

As one embodiment of the present invention, further, the size of the first opening 3011, the size of the second opening 3015, and the size of the fenestration 3003 are the same, and the surface of the fenestration block 3012 is in clearance fit with the inner wall of the fenestration 3003.

As an embodiment of the present invention, further, the inner wall of the third opening 4006 is in clearance fit with the surface of the slit film block 4010, and the size of the third opening 4006 is larger than the size of the fenestration 3003.

As an embodiment of the present invention, further, a cutting knife 6003 is provided on the surface of the first cutting roller 6002, and a cutting groove 6005 adapted to the cutting knife 6003 is provided on the surface of the second cutting roller 6004.

Example two

Referring to fig. 8, the processing method of the windowing production device of the windowing envelope provided by the embodiment of the invention further comprises the following steps:

the method comprises the steps of firstly, making an envelope model, preparing, namely enabling a paper roll end part on a first raw material roll 2002 to pass through a space between a first die cutting roll 2004 and a second die cutting roll 2005, a space between a first limit roll 2006, a space between a first driving roll 2007, a top surface of a top surface film coating seat 4002 of a window opening seat 3002, a space between a second driving roll 5002, a drying box 5001, a space between a third driving roll 6001 and a space between a first cutting roll 6002 and a second cutting roll 6004, enabling the paper roll to move through the space between the two second limit rolls 4014 and a first die cutting block 4004 and a second die cutting block 4005 by the operation of the first die cutting roll 2004, the second die cutting roll 2005, the first driving roll 2007, the second driving roll 5002, the third driving roll 6001, the first cutting roll 6002 and the second cutting roll 6004, enabling the film roll end part on the second raw material roll 4012 to pass through the space between the two second limit rolls 4014 and the first die cutting block 4005 and be fixed on the second residual roll 4013, and enabling the movement of a roll film to be realized through the rotation of the second residual roll 4013, and the operation: the die cutting knives 2008 on the surfaces of the first die cutting roller 2004 and the second die cutting roller 2005 are matched, the first die cutting roller 2004 and the second die cutting roller 2005 rotate to cut two sides of the paper strip, the cut surplus materials and the paper strip pass through the first limit roller 2006 together, the waste surplus materials pass through the first surplus material roller 2003 to collect the surplus materials, and the cut paper strip passes through the first transmission roller 2007 to be transmitted;

s2, windowing and gluing, when the paper strip processed in S1 passes through the windowing seat 3002, the first hydraulic rod 3006 works to push the pressing block 3008 to move downwards and clamp the paper strip with the windowing seat 3002, the second hydraulic rod 3007 works to push the windowing block 3012 to move downwards, when the windowing block 3012 moves to the bottom surface of the windowing groove 3003 through the first opening part 3011 and the second opening part 3015, windowing of the paper strip is realized, the pressing block 3008 pushes the sealing plug 3020 upwards by contact between the bottom end of the extension rod 3021 and the top surface of the windowing seat 3002 in the downward moving process, the spring 3019 is stressed, the sealing plug 3020 leaves the glue outlet hole, glue flows out of the glue outlet hole on the bottom surface of the glue box 3014, so that gluing around the paper strip windowing is realized, after completion, the first hydraulic rod 3006 and the second hydraulic rod 3007 retract and reset, the bottom surface of the sealing plug 3020 returns to the glue outlet Kong Dusi through the elasticity of the spring 3019, and waste caused by outflow of glue is avoided;

s3, coating a window, pushing a second die cutting block 4005 through a third hydraulic rod 4007 when the paper strip processed in S2 passes through the top surface of a coating seat 4002, clamping a film membrane between the first die cutting block 4004 and the second die cutting block 4005 through the second die cutting block 4005 and the first die cutting block 4004, pushing a film cutting block 4010 to move downwards through the fourth hydraulic rod 4009, cutting the film through the clearance fit between the third opening parts 4006 and the film cutting block 4010 when the film cutting block 4010 passes through two third opening parts 4006, adapting the film to a window adhesive position, enabling the film on the bottom surface of the film cutting block 4010 to move downwards to the top surface of the coating seat 4002 through a negative pressure air hole on the bottom surface of the film cutting block 4010, further realizing pasting of the film and the adhesive position, compacting through the fourth hydraulic rod 4009, and collecting the cut film through the rotation of a second residual material roller 4013;

s4, drying the glue, namely pressing and transmitting the film and the glue again through the second transmission roller 5002 by the paper strip processed in the S3, and when the paper strip passes through the drying box 5001, the drying box 5001 works to dry the glue;

s5, semi-manufactured goods are cut, the paper strip processed through S4 is transmitted through the third transmission roller 6001, passes through between the first cutting roller 6002 and the second cutting roller 6004, is matched with a cutting groove 6005 formed in the surface of the second cutting roller 6004 through a cutting knife 6003 on the surface of the first cutting roller 6002, and is cut, so that a single semi-manufactured envelope product is obtained, and at the moment, the third transmission roller 6001 not only realizes the transmission of the paper strip, but also clamps and fixes the paper strip, and the first cutting roller 6002 and the second cutting roller 6004 are guaranteed to realize the cutting of the paper strip.

It should be noted that, the model specifications of the first hydraulic rod 3006, the second hydraulic rod 3007, the third hydraulic rod 4007 and the fourth hydraulic rod 4009 need to be determined by selecting the model according to the actual specifications of the device, etc., and the specific model selection calculation method adopts the prior art, so that detailed descriptions thereof are omitted. .

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A windowing production facility for windowing envelopes, comprising:

the window production equipment (100) is provided with a die cutting mechanism (200), a window gluing mechanism (300), a film covering mechanism (400), a drying mechanism (500) and a dividing mechanism (600) in sequence from left to right;

the die cutting mechanism (200), the die cutting mechanism (200) comprises a first mounting plate (2001), the first mounting plate (2001) is vertically arranged, a first raw material roller (2002) and a first residual material roller (2003) with the same height are mounted on a side surface bearing of the first mounting plate (2001), a first die cutting roller (2004) and a second die cutting roller (2005) which are perpendicular to the side surface of the first mounting plate (2001) are arranged below the first residual material roller (2002), the first die cutting roller (2004) is arranged right above the second die cutting roller (2005), a die cutting groove (2009) is formed in the surface of the first die cutting roller (2004), a die cutter (2008) is arranged on the surface of the second die cutting roller (2005), a first limit roller (2006) is arranged on one side, close to the first residual material roller (2003), below the first die cutting roller (2004), and one side, far away from the first side, of the first transmission roller (2007) is arranged right below the first residual material roller (2003);

the window gluing mechanism (300), the window gluing mechanism (300) comprises a first supporting table (3001), side plates (3004) and a first top plate (3005), wherein the side plates (3004) are arranged on two sides of the first supporting table (3001), the first top plate (3005) is arranged on the top ends of the two side plates (3004), a window opening seat (3002) is arranged on the top surface of the first supporting table (3001), a window opening groove (3003) is formed in the center of the top surface of the window opening seat (3002), first hydraulic rods (3006) are vertically arranged on the positions, close to the two sides, of the center of the bottom surface of the first top plate (3005), a pressing block (3008) is arranged on the pushing of the two first hydraulic rods (3006), a first opening part (3011) and a square mounting groove (3009) are sequentially formed in the center of the top surface of the pressing block (3008), a glue box (4) is arranged in the square mounting groove (3009), and a second hydraulic rod (3017) is vertically arranged on the center of the bottom surface of the glue box (3004), and a second hydraulic rod (3017) is vertically arranged on the center of the second hydraulic rod (3007);

tectorial membrane mechanism (400), tectorial membrane mechanism (400) include second brace table (4001), second roof (4008) and two second mounting panel (4011), two second mounting panel (4011) vertical and be the symmetry set up in both sides and all perpendicular to of second brace table (4001) first mounting panel (2001), the bottom surface of second roof (4008) is close to both ends department and is set up two through the triangle fixed frame respectively between one side of second mounting panel (4011) is close to the top, the top surface of second brace table (4001) is equipped with tectorial membrane seat (4002), the top surface four corners department of tectorial membrane seat (4002) all is equipped with bracing piece (4003), the top of bracing piece (4003) is equipped with first die cut piece (4004), the bottom surface of second roof (4008) is close to both ends department and all is equipped with vertical third hydraulic stem (4007), the promotion end of third hydraulic stem (4007) is equipped with second die cut piece (4005), the top surface of second roof (4008) is equipped with fourth die cut piece (4004), fourth die cut piece (4006) are equipped with the top surface (4004), a second raw material roller (4012) and a second residual material roller (4013) are respectively arranged on one side, close to the second top plate (4008), of the two second mounting plates (4011), a second limit roller (4014) is respectively arranged under the second raw material roller (4012) and under the second residual material roller (4013) and under the second raw material roller (4012), and the respective bearings of the two second limit rollers (4014) are mounted on one side surfaces of the two second mounting plates (4011);

stoving mechanism (500), stoving mechanism (500) include stoving case (5001), stoving case (5001) is close to one side of tectorial membrane mechanism (400) is equipped with second driving roller (5002), stoving case (5001) are kept away from one side of tectorial membrane mechanism (400) is equipped with segmentation mechanism (600), segmentation mechanism (600) include third driving roller (6001), third driving roller (6001) are kept away from one side of stoving case (5001) is equipped with first cutting roller (6002) and second cutting roller (6004).

2. The windowing production device for windowed envelopes according to claim 1, wherein the first die-cutting roller (2004), the second die-cutting roller (2005), the first limiting roller (2006) and the first driving roller (2007) are all installed on one side surface of the first mounting plate (2001) through bearings, one ends of the first die-cutting roller (2004), the second die-cutting roller (2005) and the first driving roller (2007) are all connected with a driving motor through transmission of the first mounting plate (2001), and the die-cutting cutter (2008) is matched with the die-cutting groove (2009).

3. The windowing production device of the windowing envelope according to claim 1, wherein limiting blocks (3010) are arranged at the centers, close to four sides, of the bottom ends of the square mounting grooves (3009), the shape of the glue box (3014) is in a shape of a Chinese character 'hui', clamping grooves (3016) are formed at the centers of the four sides of the glue box (3014), and the four clamping grooves (3016) are respectively matched with the four limiting blocks (3010).

4. The windowing production device of a windowing envelope according to claim 1, wherein four fixing blocks (3013) are arranged on the top surface of each pressing block (3008), the four fixing blocks (3013) are in an L shape, two sides of each glue box (3014) are respectively fixed with the pressing blocks (3008) through two fixing blocks (3013), a plurality of glue outlet holes are formed in the bottom surface of each glue box (3014), limit rods (3018) are arranged on the top ends of the glue outlet holes, the number of the limit rods (3018) above each glue outlet hole is three, the three limit rods (3018) are distributed in the glue outlet holes on the inner bottom surface of each glue box (3014) in an annular array mode by taking the center of each glue outlet hole as the center, sleeves (3017) are arranged on the top ends of the three limit rods (3018), springs (3019) are arranged in the inner portions of the sleeves (3017), a plurality of the springs 3029 are arranged on the bottom surface, the bottom surfaces (3020) of each glue outlet hole are provided with a sealing plug (3010), and the bottom ends of each glue outlet hole (3010) extend to the bottom surface (3010) of each glue outlet hole are extended to the bottom surface (3011).

5. The windowing production device of a windowing envelope according to claim 4, wherein the surface of the sealing plug (3020) is in clearance fit with the inner wall of the sleeve (3017), the height of the sealing plug (3020) is higher than the height of the limit rod (3018), the diameter of the sealing plug (3020) is larger than the diameter of the glue outlet hole, and the diameter of the glue outlet hole is larger than the diameter of the extension rod (3021).

6. The windowing production device of the windowing envelope according to claim 1, wherein the second raw material roller (4012) and the second residual material roller (4013) are perpendicular to one side surface of the second mounting plate (4011) through bearings, one end of the second residual material roller (4013) penetrates through one side of the second mounting plate (4011) to be connected with a driving motor in a transmission manner, and the height of the center of the second limiting roller (4014) is the same as the height of the top surface of the first die-cut block (4004).

7. The windowing production facility of a windowing envelope according to claim 1, wherein the size of the first opening portion (3011), the size of the second opening portion (3015) and the size of the windowing groove (3003) are the same, and the surface of the windowing block (3012) is in clearance fit with the inner wall of the windowing groove (3003).

8. The windowing production device of a windowing envelope according to claim 1, wherein an inner wall of the third opening portion (4006) is in clearance fit with a surface of the cut film block (4010), and a size of the third opening portion (4006) is larger than a size of the windowing groove (3003).

9. The windowing production device for windowed envelopes according to claim 1, characterized in that a cutting knife (6003) is arranged on the surface of the first cutting roller (6002), and a cutting groove (6005) adapted to the cutting knife (6003) is arranged on the surface of the second cutting roller (6004).

10. A production method of a windowing production facility for windowing envelopes, applied to a windowing production facility for windowing envelopes as claimed in any one of claims 1 to 9, characterized by comprising the steps of:

s1, envelope model manufacturing, preparation work, firstly, enabling a paper strip roll end part on a first raw material roll (2002) to pass through a space between a first die cutting roll (2004) and a second die cutting roll (2005), a space between a first limit roll (2006), a space between a first driving roll (2007), a top surface of a top surface film coating seat (4002) of a window opening seat (3002), a space between a second driving roll (5002), a drying box (5001), a space between a third driving roll (6001) and a space between the first cutting roll (6002) and the second cutting roll (6004), enabling movement through the work of the first die cutting roll (2004), the second die cutting roll (2005), the first driving roll (2007), the second driving roll (5002), the third driving roll (6001), the first cutting roll (6002) and the second cutting roll (6004), enabling a roll film roll end part on the second raw material roll (4012) to pass through two second limit rolls (4014) and a first die block (4014) and a second die block (6005), and enabling a residual film roll (4013) to move when being fixed on the second raw material roll (4013): the die cutting rule (2008) on the surface of the first die cutting roller (2004) is matched with the die cutting rule (2009) on the surface of the second die cutting roller (2005), the first die cutting roller (2004) and the second die cutting roller (2005) rotate to cut two sides of the paper strip, the cut surplus material and the paper strip pass through the first limit roller (2006) together, the waste surplus material passes through the rotation of the first surplus material roller (2003) to collect the surplus material, and the cut paper strip passes through the first transmission roller (2007) to be transmitted;

s2, windowing and gluing, wherein when the paper strip processed by S1 passes through the windowing seat (3002), the first hydraulic rod (3006) works to push the pressing block (3008) to move downwards and clamp the paper strip with the windowing seat (3002), the second hydraulic rod (3007) works to push the windowing block (3012) to move downwards, when the windowing block (3012) passes through the first opening part (3011) and the second opening part (3015) to move to the bottom surface of the windowing groove (3003), windowing of the paper strip is realized, the pressing block (3008) pushes the sealing plug (3020) upwards through the contact between the bottom end of the extension rod (3021) and the top surface of the windowing seat (3002) in the downward moving process, the spring (3019) is stressed, the sealing plug (3020) is separated from a glue outlet hole, glue flows out of the glue outlet on the bottom surface of the glue box (3014), and after the completion, the first hydraulic rod (3006) and the second hydraulic rod (3007) move to the bottom surface (3003) to the bottom surface, and the top surface of the sealing plug (3020) is retracted to avoid waste of glue outlet hole by the spring Kong Dusi;

s3, coating a window, pushing a second die-cut block (4005) through a third hydraulic rod (4007) when the paper strip processed in S2 passes through the top surface of a coating seat (4002), clamping a membrane between the first die-cut block (4004) and the second die-cut block (4005) through the second die-cut block (4005) and the first die-cut block (4004), pushing a membrane-cut block (4010) to move downwards through a fourth hydraulic rod (4009), enabling the membrane to be cut through the clearance fit between the third opening (4006) and the membrane-cut block (4010) when the membrane-cut block (4010) passes through two third opening (4006), enabling the membrane to be matched with the window-cut adhesive, enabling the membrane on the bottom surface of the membrane-cut block (4010) to follow the membrane-cut block (4010) to move downwards to the top surface of the coating seat (4002) through a negative pressure air hole on the bottom surface of the membrane-cut block (4010), further enabling the adhesive to be adhered to the top surface of the membrane-cut block and collecting the membrane through a fourth hydraulic rod (4019), and rotating the membrane after the membrane-cut block (4010) passes through the second opening (4010), and collecting the membrane after the membrane-cut block (4010) passes through the second opening;

s4, drying the glue, namely pressing and transmitting the film and the glue again through a second transmission roller (5002) by the paper strip processed in the S3, and enabling the drying box (5001) to work when the paper strip passes through the drying box (5001) so as to dry the glue;

s5, semi-manufactured goods cutting, the paper strip after being processed through S4 is driven through the third driving roller (6001), between the first cutting roller (6002) and the second cutting roller (6004), through the cutting knife (6003) on the surface of the first cutting roller (6002) and the cutting groove (6005) looks adaptation of seting up on the surface of the second cutting roller (6004), the cutting of the paper strip is achieved, and then the single semi-manufactured goods of envelope is obtained, and at the moment, the third driving roller (6001) not only achieves the driving of the paper strip, but also achieves the clamping and fixing of the first cutting roller (6002) and the second cutting roller (6004) achieve the cutting of the paper strip.