CN108556476A - Printed on line applies silicon and applies hot-melt adhesive device - Google Patents

Abstract

The present invention relates to a kind of printed on line to apply silicon painting hot-melt adhesive device, including rack, the first discharge mechanism, the first print couple, painting silicone oil mechanism, hot melt adhesive coating mechanism and receiving mechanism.First print couple is set to the downstream in rack and positioned at the first discharge mechanism.The downstream that silicone oil mechanism is set in rack and is located at the first print couple is applied, for coating silicone oil on the wherein one side of the first paper.Hot melt adhesive coating mechanism is set in rack and positioned at the downstream for applying silicone oil mechanism, for the coating hot-melt adhesive on the another side of the first paper.Receiving mechanism is set to the downstream in rack and positioned at hot melt adhesive coating mechanism, for handling the first paper winding after coating hot-melt adhesive.Above-mentioned printed on line applies silicon and applies hot-melt adhesive device, and printing, painting silicone oil apply hot melt adhesive and settles at one go, eliminate first printing and are then transferred to the process that coating machine applies silicon gluing, avoid circulation and waste time phenomenon, improve work efficiency, the production time is greatly saved.

Description

Printed on line applies silicon and applies hot-melt adhesive device

Technical field

The present invention relates to a kind of printing equipments, and applying silicon more particularly to a kind of printed on line applies hot-melt adhesive device.

Background technology

Traditional paper, which can not directly carry out applying silicone oil and gluing after press printing, to be operated, and needs will to print Finished paper, which is transferred on coating machine, carries out applying successively silicone oil and gluing operation.However, the paper printed is transferred to coating The regular hour is needed on machine, the working efficiency of sheet processing processing is relatively low.

Invention content

Based on this, it is necessary to overcome the deficiencies of existing technologies, provide a kind of printed on line painting silicon painting hot-melt adhesive device, its energy Enough improve working efficiency.

Its technical solution is as follows：A kind of printed on line painting silicon painting hot-melt adhesive device, including：Rack；First discharge mechanism, institute It states the first discharge mechanism to be arranged in the rack, for discharging the first paper；First print couple, first print couple Downstream in the rack and positioned at first discharge mechanism, for printing first paper；Apply silicone oil mechanism, institute Shu Tu silicone oil mechanism be set to the rack on and positioned at first print couple downstream, for first paper its Silicone oil is coated on middle one side；Hot melt adhesive coating mechanism, the hot melt adhesive coating mechanism are set in the rack and positioned at described The downstream for applying silicone oil mechanism, for the coating hot-melt adhesive on the another side of first paper；Receiving mechanism, the collecting machine Structure is set to the downstream in the rack and positioned at the hot melt adhesive coating mechanism, is used for first paper after coating hot-melt adhesive Open winding processing.

Above-mentioned printed on line applies silicon and applies hot-melt adhesive device, after the first discharge mechanism discharges the first paper, passes sequentially through the One the first paper of print couple pair carries out printing treatment, applies the first paper of silicone oil mechanism pair wherein one side and coats silicone oil, hot melt The first paper of glue coating mechanism pair another side coating hot-melt adhesive.In this way, printing, painting silicone oil apply hot melt adhesive and settle at one go, save First printing is then transferred to the process that coating machine applies silicon gluing, avoids circulation and wastes time phenomenon, improve work efficiency, greatly Save the production time greatly.

Further, it further includes the first deviation correction mechanism that the printed on line, which applies silicon and applies hot-melt adhesive device, and described first entangles Inclined mechanism is arranged in the rack and positioned at the downstream of first discharge mechanism, and first deviation correction mechanism is used for first Paper correction is handled.

Further, it further includes the first anti-mechanism of paper that the printed on line, which applies silicon and applies hot-melt adhesive device, first print Swabbing group includes being successively set on first printing mechanism and the second printing mechanism in first discharge mechanism downstream, and described first Anti- mechanism of paper be arranged in the rack and positioned at first printing mechanism downstream and second printing mechanism it is upper Trip.

Further, it further includes the second anti-mechanism of paper that the printed on line, which applies silicon and applies hot-melt adhesive device, and described second is anti- Mechanism of paper is arranged in the rack and positioned at the downstream of the painting silicone oil mechanism and the upstream of the hot melt adhesive coating mechanism.

Further, it further includes drying mechanism that the printed on line, which applies silicon and applies hot-melt adhesive device, and the drying mechanism is set It sets in the rack and positioned at the downstream of the painting silicone oil mechanism and the upstream of the hot melt adhesive coating mechanism, the drying The first paper that mechanism is used to be coated with silicone oil carries out drying and processing.

Further, the printed on line apply silicon apply hot-melt adhesive device further include waste material cutting mechanism, waste discharge mechanism and Cutting mechanism, the waste material cutting mechanism and the cutting mechanism, which are arranged at, described to be located in rack and is sequentially located at the painting The downstream of silicone oil mechanism and the upstream of the hot melt adhesive coating mechanism, the waste material cutting mechanism are used for first paper Both sides excess waste removal procedure, the waste discharge mechanism are arranged in the rack and for cutting off the waste material cutting mechanism Excess waste carry out waste discharge processing, the cutting mechanism be used for will first slitting paper handle.

Further, the hot melt adhesive coating mechanism includes holder, walks paper web and glue spreading assembly；The holder is arranged in institute It states in rack；It is described walk paper web be provided with manhole appendix, it is described walk paper web be used for by the manhole appendix and low-temperature receiver mechanism connection, institute Paper web is stated away rotationally to install on the bracket, it is described walk paper web be used for transmission first paper；The glue spreading assembly On the bracket, the glue spreading assembly is used to hot-melt being layed onto the surface of first paper for installing.

A kind of printed on line painting silicon painting hot-melt adhesive device, including：Rack；First discharge mechanism, first discharge mechanism It is arranged in the rack, for discharging the first paper；First print couple, first print couple are set in the rack And positioned at the downstream of first discharge mechanism, for printing first paper；Second discharge mechanism, second feeding machine Structure is arranged in the rack, for discharging the second paper；Rubber-coated mechanism, the rubber-coated mechanism is arranged in the rack and position In the downstream of first discharge mechanism and/or second discharge mechanism, in first paper and/or described second Viscose glue is coated on paper；Laminating mechanism, the laminating mechanism are located at the downstream of the rubber-coated mechanism, are used for first paper It presses to form extrusion coating paper with second paper；Silicone oil mechanism is applied, the painting silicone oil mechanism is set in the rack and is located at institute The downstream for stating laminating mechanism, for coating silicone oil on the wherein one side of the extrusion coating paper；Hot melt adhesive coating mechanism, the heat Melten gel coating mechanism is set in the rack and positioned at the downstream of the painting silicone oil mechanism, in the other side of the extrusion coating paper Coating hot-melt adhesive on face；Receiving mechanism, the receiving mechanism are set in the rack and positioned at the hot melt adhesive coating mechanism Downstream is used to coat the extrusion coating paper winding processing after viscose glue.

Above-mentioned printed on line applies silicon and applies hot-melt adhesive device, increases the second discharge mechanism, rubber-coated mechanism and laminating mechanism, So it can apply hot melt adhesive by printing, compound, painting silicone oil and settle at one go to obtain extrusion coating paper, equally eliminate first printing and retransfer The process for applying silicon gluing to coating machine, avoids circulation and wastes time phenomenon, improve work efficiency, when production is greatly saved Between.

Further, it further includes isolation oil paint mechanism, the isolation that the printed on line, which applies silicon and applies hot-melt adhesive device, Oil paint mechanism is arranged in the rack and is located at the downstream of first print couple and the upstream of the rubber-coated mechanism, It is coated to first paper for oil will to be isolated.

Further, it further includes the second print couple that the printed on line, which applies silicon and applies hot-melt adhesive device, second print Swabbing group is arranged in the rack and positioned at the downstream of the laminating mechanism and the upstream for applying silicone oil mechanism, for printing Brush second paper.

Description of the drawings

Fig. 1 is that the printed on line described in one embodiment of the invention applies the structural schematic diagram that silicon applies hot-melt adhesive device；

Fig. 2 is that the printed on line described in another embodiment of the present invention applies the structural schematic diagram that silicon applies hot-melt adhesive device；

Fig. 3 is the structural schematic diagram of the hot melt adhesive coating mechanism described in one embodiment of the invention；

Fig. 4 is the vertical view of the hot melt adhesive coating mechanism described in one embodiment of the invention；

Fig. 5 is the side view of the hot melt adhesive coating mechanism described in one embodiment of the invention；

Fig. 6 is the operating diagram of the hot melt adhesive coating mechanism described in one embodiment of the invention；

Fig. 7 is that the printed on line described in further embodiment of this invention applies the structural schematic diagram that silicon applies hot-melt adhesive device.

Reference numeral：

10, rack, the 21, first discharge mechanism, the 22, second discharge mechanism, the 30, first print couple, the 31, first printing machine Structure, the 32, second printing mechanism, 40, apply silicone oil mechanism, 50, hot melt adhesive coating mechanism, 510, holder, 511, sliding rail, 512, sliding Block, 520, walk paper web, 521, first walks paper web, the 5211, first spindle nose, the 5212, first sprocket wheel, and 522, second walks paper web, 5221, Second spindle nose, the 5222, second sprocket wheel, 523, transmission gear, 530, glue spreading assembly, 531, gluing head, 532, telescoping mechanism, 541, First paper feeding roller, the 542, second paper feeding roller, 551, bottom plate, 552, mounting blocks, 553, fixed block, 554, fine tuning screw rod, 561, wall Plate, 5611, angle slot, 562, rotor plate, 571, Limit screw, 572, limited block, 573, connecting plate, 60, receiving mechanism, 71, First anti-mechanism of paper, the 72, second anti-mechanism of paper, 73, drying mechanism, 74, waste material cutting mechanism, 75, waste discharge mechanism, 76, cutting Mechanism, the 77, first deviation correction mechanism, the 78, second deviation correction mechanism, 81, rubber-coated mechanism, 82, laminating mechanism, 83, isolation oil paint machine Structure, the 90, second print couple, the 100, first paper, the 200, second paper.

Specific implementation mode

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, below in conjunction with the accompanying drawings to the present invention Specific implementation mode be described in detail.Many details are elaborated in the following description in order to fully understand this hair It is bright.But the invention can be embodied in many other ways as described herein, those skilled in the art can be not Similar improvement is done in the case of violating intension of the present invention, therefore the present invention is not limited by following public specific embodiment.

In the description of the present invention, it is to be understood that, term " first ", " second " are used for description purposes only, and cannot It is interpreted as indicating or implies relative importance or implicitly indicate the quantity of indicated technical characteristic.Define as a result, " the One ", the feature of " second " can explicitly or implicitly include at least one of the features.In the description of the present invention, " multiple " It is meant that at least two, such as two, three etc., unless otherwise specifically defined.

It in the description of the present invention, it is to be understood that, can be with when an element is considered as " connection " another element It is directly to another element or may be simultaneously present intermediary element.On the contrary, when element be referred to as " direct " with it is another When element connects, intermediary element is not present.

It please refers to Fig.1 and Fig. 2, in one embodiment, a kind of printed on line applies silicon and applies hot-melt adhesive device, including rack 10, the first discharge mechanism 21, the first print couple 30, painting silicone oil mechanism 40, hot melt adhesive coating mechanism 50 and receiving mechanism 60.Institute It states the first discharge mechanism 21 to be arranged in the rack 10, for discharging the first paper 100.First print couple 30 is set to Downstream in the rack 10 and positioned at first discharge mechanism 21, for printing first paper 100.The painting silicone oil Mechanism 40 is set to the downstream in the rack 10 and positioned at first print couple 30, in first paper 100 Wherein silicone oil is coated on one side.The hot melt adhesive coating mechanism 50 is set in the rack 10 and is located at the painting silicone oil mechanism 40 downstream, for the coating hot-melt adhesive on the another side of first paper 100.The receiving mechanism 60 is set to the machine Downstream on frame 10 and positioned at the hot melt adhesive coating mechanism 50, for receiving first paper 100 after coating hot-melt adhesive Volume processing.

Above-mentioned printed on line applies silicon painting hot-melt adhesive device and leads to successively after the first discharge mechanism 21 discharges the first paper 100 It crosses the first print couple 30 and printing treatment is carried out to the first paper 100, apply silicone oil mechanism 40 to the first paper 100 wherein one side Silicone oil is coated, hot melt adhesive coating mechanism 50 is to 100 another side coating hot-melt adhesive of the first paper.In this way, printing, painting silicone oil apply heat Melten gel settles at one go, eliminates first printing and is then transferred to the process that coating machine applies silicon gluing, avoids circulation and waste time phenomenon, It improves work efficiency, the production time is greatly saved.

In addition, further, it further includes the first deviation correction mechanism 77 that the printed on line, which applies silicon and applies hot-melt adhesive device,.It is described First deviation correction mechanism 77 is arranged in the rack 10 and positioned at the downstream of first discharge mechanism 21, first rectification machine Structure 77 is used to handle 100 correction of the first paper.

Together referring to Fig.2, further, it further includes the first anti-mechanism of paper that the printed on line, which applies silicon and applies hot-melt adhesive device, 71.First print couple 30 includes being successively set on first printing mechanism 31 and the in 21 downstream of the first discharge mechanism Two printing mechanisms 32, the first anti-mechanism of paper 71 are arranged in the rack 10 and under first printing mechanisms 31 The upstream of trip and second printing mechanism 32.In this way, the first printing mechanism 31 can be by the wherein side of the first paper 100 Face carries out printing operation, the first paper 100 that the first printing mechanism 31 is completed for printing by the first anti-mechanism of paper 71 overturn after by the Two printing mechanisms 32 carry out printing operation to the another side of the first paper 100, can be convenient in this way in 100 two sides of the first paper Carry out printing operation.

Further, it further includes the second anti-mechanism of paper 72 that the printed on line, which applies silicon and applies hot-melt adhesive device,.Described second Anti- mechanism of paper 72 is arranged in the rack 10 and positioned at the downstream of the painting silicone oil mechanism 40 and the hot melt adhesive coating machine The upstream of structure 50.In this way, applying silicone oil mechanism 40 after the upside of the first paper 100 coating silicone oil, then pass through the second anti-mechanism of paper First paper 100 is carried out turning operation by 72, by side-overturning of first paper 100 coated with silicone oil to the uncoated silicone oil in downside Side-overturning to upside, and by hot melt adhesive coating mechanism 50 in 100 upper side coating hot-melt adhesive of the first paper.

Further, it further includes drying mechanism 73 that the printed on line, which applies silicon and applies hot-melt adhesive device,.The drying mechanism 73 are arranged in the rack 10 and positioned at the upper of the downstream of the painting silicone oil mechanism 40 and the hot melt adhesive coating mechanism 50 Trip, the first paper 100 that the drying mechanism 73 is used to be coated with silicone oil carry out drying and processing.In this way, 73 energy of drying mechanism Enough 100 drying and processings of the first paper for being coated with silicone oil in time, ensure the silicone oil coating quality on the first paper 100.Tool Body, drying mechanism 73 is ultraviolet radiator.

Further, it further includes waste material cutting mechanism 74, waste discharge mechanism that the printed on line, which applies silicon and applies hot-melt adhesive device, 75 and cutting mechanism 76.The waste material cutting mechanism 74 and the cutting mechanism 76 be arranged at it is described be located in rack 10 and according to The secondary upstream positioned at the downstream and the hot melt adhesive coating mechanism 50 for applying silicone oil mechanism 40, the waste material cutting mechanism 74 For by first paper, 100 both sides excess waste removal procedure, the waste discharge mechanism 75 to be arranged in the rack 10 simultaneously Excess waste for cutting off the waste material cutting mechanism 74 carries out waste discharge processing, and the cutting mechanism 76 is used for described the One paper, 100 cutting is handled.

Further, Fig. 3 and Fig. 6 are please referred to, the hot melt adhesive coating mechanism 50 includes holder 510, walks paper web 520 and apply Glue component 530.The holder 510 is arranged in the rack 10.It is described walk paper web 520 be provided with manhole appendix, it is described walk paper web 520 by the manhole appendix be used for low-temperature receiver mechanism connection, it is described walk paper web 520 be rotationally installed on the holder 510, It is described walk paper web 520 be used for transmission first paper 100.The glue spreading assembly 530 is installed on the holder 510, described Glue spreading assembly 530 is used to hot-melt being layed onto the surface of first paper 100.In this way, will be transmitted by walking paper web 520 The first paper 100 in the process introduces, while the low-temperature receiver in low-temperature receiver mechanism being entered away in paper web 520 by manhole appendix to walking Paper web 520 carries out cooling down processing.Cooling paper web 520 of walking not only acts as transmission the first paper 100 effect, touches first Can also the first paper 100 be subjected to cooling processing when paper 100.In this way, viscose glue is coated to the surface of paper by glue spreading assembly 530 After upper, the viscose glue flatness on obtained paper surface is preferable.

Together refering to Fig. 4 and Fig. 5, further, it is described walk paper web 520 walk paper web 521 and second including first and walk paper web 522.Described first, which walks paper web 521, walks the interval arranged side by side of paper web 522 with described second and is rotationally installed in the holder 510 On, described first walk paper web 521 and described second walk paper web 522 be connected in series with after be connected with the low-temperature receiver mechanism.In this way, first Walk paper web 521, second walk paper web 522 contact transmission the first paper 100 when the first paper 100 can be cooled, the first paper 100 effect that cools is preferable.It walks paper web 521 in addition, the low-temperature receiver in low-temperature receiver mechanism is delivered to first successively and is walked with second It in paper web 522, and returns in low-temperature receiver mechanism and is cooled down, constantly recycle, ensure preferable cooling effect.Optionally, described One, which walks paper web 521 and described second, walks paper web 522 and can be connected in parallel with low-temperature receiver mechanism.The quantity for walking paper web 520 can not also It is only two, can also is three, four or five.

Further, it described first 521 both ends of paper web is walked is equipped be rotationally installed on the holder 510 One spindle nose 5211.First spindle nose 5211 offers the manhole appendix that the inner cavity for walking paper web 521 with described first is connected. Described second, which walks 522 both ends of paper web, is equipped with the second spindle nose 5221 being rotationally installed on the holder 510, and described second Spindle nose 5221 offers the manhole appendix that the inner cavity for walking paper web 522 with described second is connected.One of them described first axle First 5211 manhole appendix is connected by connecting tube with the second spindle nose 5221 described in one of them, another described first spindle nose The manhole appendix of 5211 manhole appendix and another second spindle nose 5221 is connected with the low-temperature receiver mechanism.In this way, low-temperature receiver machine Low-temperature receiver in structure, such as low-temperature receiver are cooling water, enter first by the manhole appendix of the first spindle nose 5211 and walk in paper web 521 Chamber, cooling water is walked first can walk the progress cooling down of paper web 521 inside paper web 521 by first.First walk it is cold in paper web 521 But water is flowed out from the manhole appendix of another the first spindle nose 5211, is entered second from the manhole appendix of the second spindle nose 5221 and is walked paper web 522 inner cavity, cooling water is walked second can walk the progress cooling down of paper web 522 inside paper web 522 by second, and second walks paper web Cooling water in 522 is flowed back into from the manhole appendix of another the second spindle nose 5221 in low-temperature receiver mechanism, is so moved in circles.Specifically Ground, first walk paper web 521 and second walk paper web 522 inner cavity heat exchange fin or S-shaped pipe can be set, in this way be conducive to cooling Water reduction by first walks paper web 521 and second and walks the temperature of paper web 522.

Further, referring again to Fig. 1, the first sprocket wheel 5212, second spindle nose are provided on first spindle nose 5211 The second sprocket wheel 5222 is provided on 5221.First sprocket wheel 5212 is connected with second sprocket wheel 5222 by driving chain. It is provided with transmission gear 523 on first spindle nose 5211 or second spindle nose 5221.In this way, the torque output shaft of motor drives Nutating gear 523 rotates, and transmission gear 523 drives the first spindle nose 5211 or the rotation of the second spindle nose 5221, makees in driving chain Under, first, which walks paper web 521 and second, walks paper web 522 by synchronous rotation, has preferable laser propagation effect.

In one embodiment, the hot melt adhesive coating mechanism 50 further includes the first paper feeding roller 541 and the second paper feeding roller 542.First paper feeding roller 541 is rotatably arranged in second paper feeding roller 542 on the holder 510.Described One paper 100 is transferred to first through first paper feeding roller 541 guiding and walks on paper web 521, and described first walks paper web 521 by first Paper 100 is transferred to described second through second paper feeding roller 542 guiding and walks paper web 522.In this way, passing through the first paper feeding roller 541 First paper 100 is oriented to the second paper feeding roller 542, the transmission of the first paper 100 is not only convenient for, also so that the first paper 100 can with first walk paper web 521 and second walk paper web 522 lateral wall more contact, preferable drop can be played in this way Warm cooling effect.

Further, the glue spreading assembly 530 includes gluing head 531.The gluing head 531 and described first walks paper web 521 lateral wall interval setting, the gluing head 531 and the described first interval for walking between the lateral wall of paper web 521 can be worn Cross the first paper 100.Described first lateral wall for walking paper web 521 is equipped with adherent layer.In this way, viscose glue is coated to by gluing head 531 Paper web 521 is walked through first to transmit on the surface of the first paper 100.First adherent layer for walking the lateral wall of paper web 521 is avoided that First paper 100 is sticked on the lateral wall that first walks paper web 521.In addition, being also equipped on the lateral wall of the first paper feeding roller 41 anti- Adhesion coating, adherent layer are avoided that paper 100 is sticked on the lateral wall of the first paper feeding roller 41.

In one embodiment, the glue spreading assembly 530 includes gluing head 531 and telescoping mechanism 532.The gluing head 531 with it is described walk paper web 520 lateral wall interval be arranged, the gluing head 531 and it is described walk paper web 520 lateral wall between Interval can pass through the first paper 100.The telescoping mechanism 532 for drive the gluing head 531 closer or far from it is described walk Paper web 520.In this way, telescoping mechanism 532 drives gluing head 531 to adjust gluing head 531 and paper feed closer or far from paper web 520 is walked Spacing between cylinder 520, to can guarantee 531 preferable gluing effect of gluing head.In addition, when telescoping mechanism 532 drives gluing After first 531 far from paper web 520 is walked, it can be convenient for operating around paper.Specifically, telescoping mechanism 532 can be cylinder driving, lead screw drive Dynamic, hydraulic oil cylinder driving or Driven by Hydraulic Cylinder.In addition, telescoping mechanism 532 can be two and be installed on holder 510, one of them Telescoping mechanism 532 is connected with the transmission of one end of gluing head 531, another telescoping mechanism 532 is connected with 531 other end of gluing head. It drives gluing head 531 far from or close to walk paper web 520 jointly by two telescoping mechanisms 532, can preferably adjust gluing in this way First 531 and walk the position relationship between paper web 520.

Further, it is provided with sliding rail 511 on the holder 510, sliding block 512 is installed on the sliding rail 511.It is described to stretch Contracting mechanism 532 drives the sliding block 512 to be slided along the sliding rail 511.It is described for driving in 512 moving process of the sliding block Gluing head 531 closer or far from it is described walk paper web 520.Specifically, sliding rail 511 and sliding block 512 are two, two sliding blocks 512 It is corresponding one by one to two sliding rails 511 respectively.In this way, when telescoping mechanism 532 acts, sliding block 512 will be made to be slided along sliding rail 511 It is dynamic, it can guarantee that gluing head 531 moves back and forth in the straight direction in this way.

Further, the hot melt adhesive coating mechanism 50 further include bottom plate 551, mounting blocks 552, fixed block 553 with it is micro- Adjust screw rod 554.The gluing head 531 is slidably disposed on the bottom plate 551, and the gluing head 531 is installed in the peace It fills on block 552.The mounting blocks 552 are slidably disposed on the bottom plate 551.The fixed block 553 is fixed on the bottom On plate 551, the tapped through hole coordinated with the fine tuning screw rod 554 is provided on the fixed block 553.The fine tuning screw rod 554 It is installed in the tapped through hole and is connected with the mounting blocks 552.In this way, driving fine tuning screw rod 554 rotates, screw rod is finely tuned 554 will drive mounting blocks 552 to be moved on bottom plate 551, can to drive gluing head 531 far from or close to walk paper web 520 It to gluing head 531 and walks the spacing between paper web 520 and is micro-adjusted, ensure the gluing effect of gluing head 531.Specifically, pacify It is two to fill block 552, fixed block 553 and fine tuning screw rod 554.

Further, the hot melt adhesive coating mechanism 50 further includes wallboard 561, rotor plate 562 and installation part.It is described to stretch Contracting mechanism 532 for drive the wallboard 561 closer or far from it is described walk paper web 520.562 one end of the rotor plate and the wall Plate 561 is rotatably connected, and 562 other end of the rotor plate is detachably connected by the installation part with the wallboard 561.It is described Bottom plate 551 is installed on the rotor plate 562.In this way, telescoping mechanism 532 drives wallboard 561 closer or far from walking paper web 520 When, wallboard 561 drives the gluing head 531 on bottom plate 551 closer or far from walking paper web 520.In addition, when needing to adjust gluing head 531 relative to the angle for walking paper web 520 when, dismantle installation part, so that rotor plate 562 561 is turned to proper angle with respect to wallboard, so Fixation will be attached between rotor plate 562 and wallboard 561 by installation part afterwards.In this way, gluing head 531 is relative to walking paper web 520 angle can adjust, and can guarantee preferable gluing effect.

Specifically, angled slot 5611 is set on wallboard 561, and installation part can be movable in angle slot 5611, installation part Wallboard 561 and rotor plate 562 are fixedly linked across angle slot 5611.

In addition, the hot melt adhesive coating mechanism 50 further includes the position-limit mechanism for limiting the movement of sliding block 512.Position restrainer Structure is installed on holder 510.Limiting mechanism can limit the movement of sliding block 512, and gluing head 531 is avoided to collide with paper web 520 is walked. Specifically, position-limit mechanism includes Limit screw 571 and limited block 572.Limited block 572, which is provided with, to be coordinated with Limit screw 571 Screw hole, Limit screw 571 are fixed on holder 510.Limited block 572 is installed on Limit screw 571, and limited block 572 is used Coordinate in being contradicted with sliding block 512.In this way, position of the limited block 572 on Limit screw 571 can be adjusted, it is conveniently adjusted sliding block 512 restriction site.

Specifically, wallboard 561 is installed on sliding block 512.For the ease of wallboard 561 is installed on sliding block 512, Ke Yi Connecting plate 573 is set between sliding block 512 and wallboard 561, connecting plate 573 is installed on sliding block 512, wallboard 561 is fixed It is installed on connecting plate 573.

Also referring to Fig. 7, a kind of printed on line painting silicon painting hot-melt adhesive device, including：Rack 10, the first discharge mechanism 21, the first print couple 30, the second discharge mechanism 22, rubber-coated mechanism 81, laminating mechanism 82, painting silicone oil mechanism 40, hot-melt Cover mechanism 50 and receiving mechanism 60.First discharge mechanism 21 is arranged in the rack 10, for discharging the first paper 100.First print couple 30 is set to the downstream in the rack 10 and positioned at first discharge mechanism 21, for printing First paper 100.Second discharge mechanism 22 is arranged in the rack 10 and for discharging the second paper 200.Institute Rubber-coated mechanism 81 is stated to be arranged in the rack 10 and be located at first discharge mechanism 21 and/or second discharge mechanism 22 Downstream, for coating viscose glue on first paper and/or second paper.The laminating mechanism 82 is arranged described Downstream in rack 10 and positioned at the rubber-coated mechanism 81, for pressing first paper 100 and second paper 200 Form extrusion coating paper.The downstream for applying silicone oil mechanism 40 and being set in the rack 10 and being located at the laminating mechanism 82, is used for Silicone oil is coated on the wherein one side of the extrusion coating paper.The hot melt adhesive coating mechanism 50 is set in the rack 10 and is located at institute The downstream of Shu Tu silicone oil mechanism 40, for the coating hot-melt adhesive on the another side of the extrusion coating paper.The receiving mechanism 60 is set In the downstream in the rack 10 and positioned at the hot melt adhesive coating mechanism 50, it is used to coat the extrusion coating paper after viscose glue and receives Volume processing.

Above-mentioned printed on line applies silicon and applies hot-melt adhesive device, is different from printed on line shown in Fig. 1 and applies silicon painting hot melt adhesive Device increases the second discharge mechanism 22, rubber-coated mechanism 81 and laminating mechanism 82, can so pass through printing, compound, painting silicone oil It applies hot melt adhesive to settle at one go to obtain extrusion coating paper, equally eliminates first printing and be then transferred to the process that coating machine applies silicon gluing, avoid Circulation wastes time phenomenon, improves work efficiency, the production time is greatly saved.

Further, it further includes isolation oil paint mechanism 83 that the printed on line, which applies silicon and applies hot-melt adhesive device,.It is described every It is arranged in the rack 10 from oil paint mechanism 83 and positioned at the downstream of first print couple 30 and the glue spreader The upstream of structure 81 is coated to first paper 100 for oil will to be isolated.In this way, after being printed by the first print couple 30 First paper 100 is isolated the coating isolation oil of oil paint mechanism 83, the first paper 100 and the second paper 200 of coating isolation oil Compound tense just can form the areas Yi Si.

Further, it further includes the second print couple 90 that the printed on line, which applies silicon and applies hot-melt adhesive device,.Described second Print couple 90 is arranged in the rack 10 and positioned at the downstream of the laminating mechanism 82 and the silicone oil mechanism 40 of applying Upstream, for printing second paper 200.

In addition, it further includes the second deviation correction mechanism 78 that printed on line, which applies silicon to apply hot-melt adhesive device,.Second deviation correction mechanism 78 It is arranged in the rack 10 and positioned at the downstream of second discharge mechanism 22, second deviation correction mechanism 78 is used for second 200 correction of paper is handled.In this way, can guarantee the contraposition effect between the first paper 100 and the second paper 200, what is obtained is compound The quality of paper is higher.

Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the range of this specification record.

Several embodiments of the invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection of the present invention Range.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (10)

1. a kind of printed on line applies silicon and applies hot-melt adhesive device, which is characterized in that including：

Rack；

First discharge mechanism, first discharge mechanism are arranged in the rack, for discharging the first paper；

First print couple, first print couple are set to the downstream in the rack and positioned at first discharge mechanism, For printing first paper；

Silicone oil mechanism is applied, the downstream for applying silicone oil mechanism and being set in the rack and being located at first print couple is used for Silicone oil is coated on the wherein one side of first paper；

Hot melt adhesive coating mechanism, the hot melt adhesive coating mechanism are set in the rack and under the painting silicone oil mechanism Trip, for the coating hot-melt adhesive on the another side of first paper；

Receiving mechanism, the receiving mechanism are set to the downstream in the rack and positioned at the hot melt adhesive coating mechanism, and being used for will The first paper winding processing after coating hot-melt adhesive.

2. printed on line according to claim 1 applies silicon and applies hot-melt adhesive device, which is characterized in that further include the first rectification machine Structure, first deviation correction mechanism are arranged in the rack and positioned at the downstream of first discharge mechanism, first corrections Mechanism is used to handle the first paper correction.

3. printed on line according to claim 1 applies silicon and applies hot-melt adhesive device, which is characterized in that further include the first anti-paper machine Structure, first print couple include being successively set on the first printing mechanism and second printing in first discharge mechanism downstream Mechanism, the first anti-mechanism of paper are arranged in the rack and positioned at the downstreams and described second of first printing mechanism The upstream of printing mechanism.

4. printed on line according to claim 1 applies silicon and applies hot-melt adhesive device, which is characterized in that further include the second anti-paper machine Structure, the second anti-mechanism of paper are arranged in the rack and positioned at the downstream of the painting silicone oil mechanism and the hot-melts Cover the upstream of mechanism.

5. printed on line according to claim 1 applies silicon and applies hot-melt adhesive device, which is characterized in that further include drying mechanism, The drying mechanism is arranged in the rack and positioned at the downstream of the painting silicone oil mechanism and the hot melt adhesive coating mechanism Upstream, the drying mechanism be used for be coated with silicone oil the first paper carry out drying and processing.

6. printed on line according to claim 1 applies silicon and applies hot-melt adhesive device, which is characterized in that further include waste material cutting machine Structure, waste discharge mechanism and cutting mechanism, the waste material cutting mechanism are arranged at described be located in rack simultaneously with the cutting mechanism It is sequentially located at the downstream of the painting silicone oil mechanism and the upstream of the hot melt adhesive coating mechanism, the waste material cutting mechanism is used for By first paper both sides excess waste removal procedure, the waste discharge mechanism is arranged in the rack and for described will give up Expect that the excess waste of cutting mechanism excision carries out waste discharge processing, the cutting mechanism is used for first slitting paper processing.

7. the printed on line according to claim 1 to 6 any one applies silicon and applies hot-melt adhesive device, which is characterized in that described Hot melt adhesive coating mechanism includes holder, walks paper web and glue spreading assembly；The holder is arranged in the rack；It is described walk paper web set Be equipped with manhole appendix, it is described walk paper web by the manhole appendix be used for low-temperature receiver mechanism connection, it is described walk paper web rotationally install On the bracket, it is described walk paper web be used for transmission first paper；The glue spreading assembly installing is on the bracket, described Glue spreading assembly is used to hot-melt being layed onto the surface of first paper.

8. a kind of printed on line applies silicon and applies hot-melt adhesive device, which is characterized in that including：

Rack；

First discharge mechanism, first discharge mechanism are arranged in the rack, for discharging the first paper；

First print couple, first print couple are set to the downstream in the rack and positioned at first discharge mechanism, For printing first paper；

Second discharge mechanism, second discharge mechanism are arranged in the rack, for discharging the second paper；

Rubber-coated mechanism, the rubber-coated mechanism are arranged in the rack and are located at first discharge mechanism and/or described second The downstream of discharge mechanism, for coating viscose glue on first paper and/or second paper；

Laminating mechanism, the laminating mechanism are arranged in the rack and positioned at the downstreams of the rubber-coated mechanism, and being used for will be described First paper and second paper press to form extrusion coating paper；

Apply silicone oil mechanism, the downstream for applying silicone oil mechanism and being set in the rack and being located at the laminating mechanism, in institute It states and coats silicone oil on the wherein one side of extrusion coating paper；

Hot melt adhesive coating mechanism, the hot melt adhesive coating mechanism are set in the rack and under the painting silicone oil mechanism Trip, for the coating hot-melt adhesive on the another side of the extrusion coating paper；

Receiving mechanism, the receiving mechanism are set to the downstream in the rack and positioned at the hot melt adhesive coating mechanism, and being used for will Coat the extrusion coating paper winding processing after viscose glue.

9. printed on line according to claim 8 applies silicon and applies hot-melt adhesive device, which is characterized in that further include isolation oil paint Mechanism, the isolation oil paint mechanism are arranged in the rack and positioned at the downstream of first print couple and the painting The upstream of gluing mechanism is coated to first paper for oil will to be isolated.

10. printed on line according to claim 8 or claim 9 applies silicon and applies hot-melt adhesive device, which is characterized in that further include the second print Swabbing group, second print couple are arranged in the rack and positioned at the downstream of the laminating mechanism and the painting silicone oil The upstream of mechanism, for printing second paper.