CN218840774U - Composite board production line - Google Patents

Abstract

The utility model discloses a composite board production line, which comprises a frame, a transmission device, two feeding devices and the like, wherein the transmission device is arranged on the frame, the transmission device comprises a first transmission line, a second transmission line and a third transmission line, the first transmission line is provided with a first stacking area, and the second transmission line is provided with a second stacking area; one of the feeding devices is arranged on one side of the second stacking area and used for conveying the sheet materials to the conveying device and conveying the sheet materials to the first stacking area, the other feeding device is arranged on one side of the first stacking area and used for conveying the laths so that the laths are stacked on the sheet materials, and when the stacked sheet materials pass through the second stacking area, the other feeding device conveys the other sheet materials so that the sheet materials are stacked on the surfaces of the laths far away from the other sheet materials. The utility model discloses technical scheme can make the panel of treating the spraying obtain effectual spraying to make the bonding between sheet material and the lath more stable, still improve spraying equipment's work efficiency.

Description

Composite board production line

Technical Field

The utility model relates to a composite sheet production technical field, in particular to composite sheet production line.

Background

The composite board is an artificial board obtained by the working procedures of glue spraying, pressing and the like on a multilayer board. The existing composite board production equipment needs to manually paint glue on the boards, then the two boards are laminated and arranged on the laminating device, the automation degree is low, and the efficiency of board laminating is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a composite sheet production line, aim at through setting up loading attachment, spout mucilage binding and compression fittings etc. realize the automated production of composite sheet, need not artifical the participation to can make the panel of treating the spraying obtain effectual spraying, so that the bonding between sheet material and the lath is more stable, still improved spraying equipment's work efficiency.

In order to achieve the above object, the utility model provides a composite board production line, the composite board production line includes:

a frame;

the conveying device is arranged on the rack and comprises a first conveying line, a second conveying line and a third conveying line which are sequentially arranged, the first conveying line is provided with a first stacking area, and the second conveying line is provided with a second stacking area;

the feeding device is arranged on one side of the second stacking area and used for conveying a sheet material so that the sheet material enters the conveying device and is conveyed to the first stacking area through the conveying device, the feeding device is arranged on one side of the first stacking area and used for conveying laths so that the laths are stacked on the sheet material, and when the two sheets after being stacked pass through the second stacking area, one feeding device conveys the other sheet material so that the sheet material is stacked on the surface of the lath away from the other sheet material;

the positioning devices are arranged on the rack and are respectively positioned on two sides of the first conveying line and the second conveying line so as to position the stacked sheet plates and the stacked laths;

the glue spraying device is arranged on the rack and is positioned above the first conveying line so as to spray glue to the sheet plates or the battens respectively;

and the pressing device is arranged between the second conveying line and the third conveying line so as to perform pressing treatment on the stacked sheet plates and the stacked laths to form the composite plate.

In an alternative embodiment, each of the feeding devices is a conveyor belt assembly, the conveyor belt assembly includes a frame body, a feeding belt arranged on the frame body, and a conveying driving member, the conveying driving member is connected to the feeding belt in a driving manner, and the sheet material or the lath is conveyed to the first conveying line and the second conveying line through the feeding belt.

In an alternative embodiment, each of the feeding devices is a material taking and carrying assembly, and the material taking and carrying assembly includes:

a gantry;

the lifting piece is movably connected to the portal frame;

the translation piece is connected to the lifting piece and can move along the moving direction vertical to the lifting piece; and

and the material taking part comprises a material taking plate connected to the translation part, the material taking plate is connected with at least one vacuum chuck, and the sheet material is sucked by the vacuum chuck.

In an optional embodiment, the gantry includes a mounting column and two columns, and the two columns are respectively connected to two ends of the mounting column;

the lifting piece comprises two lifting guide rails, a lifting frame body and two lifting slide blocks, the two lifting guide rails are respectively fixed on two opposite surfaces of the two upright posts, each lifting slide block is connected with each lifting guide rail in a sliding manner, and the two lifting slide blocks are respectively fixed on two outer sides of the lifting frame body;

the material taking and carrying assembly further comprises two carrying driving pieces, and one of the carrying driving pieces is in driving connection with the lifting slide block so that the lifting slide block can slide along the lifting guide rail and drive the lifting frame body to move up and down.

In an alternative embodiment, the translator comprises:

the two translation sliding blocks are respectively and movably connected to the two inner sides of the lifting frame body;

the two ends of the cross beam are fixedly connected to the translation sliding block, and the material taking plate is movably connected to the cross beam;

and the other conveying driving part is also in driving connection with the translation sliding block so that the translation sliding block slides on the lifting frame body and drives the material taking plate to move along the moving direction vertical to the lifting frame body.

In an optional embodiment, the material taking plate is fixed with a plurality of vacuum strips, and the vacuum suckers are communicated with the vacuum strips and arranged at intervals along the length direction of the vacuum strips.

In an optional embodiment, a receiving frame is arranged on one side of the mounting column away from the conveying device, and a sheet material or a lath to be sprayed with the glue is placed on the receiving frame.

In an alternative embodiment, each of the positioning devices includes four first positioning members disposed opposite to each other, two second positioning members disposed opposite to each other, and six positioning driving assemblies, each of the positioning driving assemblies is respectively connected to each of the first positioning members and each of the second positioning members in a driving manner, every two of the second positioning members are disposed on two sides of the first positioning member, and a positioning space is formed by enclosing the four first positioning members and the two second positioning members.

Optional embodiment, it includes mounting bracket, glue outlet pipe and shower nozzle to spout the mucilage binding and put, the mounting bracket install in the frame, glue outlet pipe is equipped with a plurality ofly, and is a plurality of glue outlet pipe interval install in on the mounting bracket, and each be equipped with a plurality of shower nozzles on the glue outlet pipe, and glue outlet pipe's one end is passed the mounting bracket intercommunication has the glue tank.

According to an optional embodiment, the pressing device comprises an installation table, a pressing cylinder, a first pressing plate and a second pressing plate, the pressing cylinder is installed on the installation table and is connected to the first pressing plate in a driving mode, the second pressing plate is installed on the installation table and is located below the first pressing plate, and a pressing space for the composite plate to penetrate through is formed between the first pressing plate and the second pressing plate.

The utility model discloses a composite board production line of technical scheme, the composite board production line includes frame, transmission device, two loading attachment, at least two positioner, spouts mucilage binding to put, compression fittings, and transmission device locates in the frame, and transmission device includes first transfer chain, second transfer chain and the third transfer chain that arranges the setting in proper order, and first transfer chain is equipped with first pile up the district, is equipped with the second pile up the district on the second transfer chain; one of the feeding devices is arranged at one side of the second stacking area and used for conveying the sheet materials so that the sheet materials enter the conveying device and are conveyed to the first stacking area, the other feeding device is arranged at one side of the first stacking area and used for conveying the laths so that the laths are stacked on the sheet materials, and when the two stacked sheets pass through the second stacking area after stacking is completed, the other feeding device conveys the other sheet material so that the sheet materials are stacked on the surface of the lath away from the other sheet material; the at least two positioning devices are arranged on the rack and are respectively positioned on two sides of the first conveying line and the second conveying line so as to position the stacked sheet plates and the stacked laths; the glue spraying device is arranged on the rack and is positioned above the first conveying line and between the two positioning devices so as to spray glue to the sheet plates or the laths respectively; and the pressing device is arranged between the second conveying line and the third conveying line to perform pressing treatment on the stacked sheet plates and the sheet bars to form the composite plate. Through setting up loading attachment, spouting mucilage binding and compression fittings etc. realize the automated production of composite sheet, need not artifical the participation to can make the panel of treating the spraying obtain effectual spraying, so that the bonding between piece panel and the lath is more stable, still improve spraying equipment's work efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of a composite board production line of the present invention;

FIG. 2 is a schematic diagram of another embodiment of the composite panel production line of FIG. 1;

FIG. 3 is a schematic view of a transfer drive of the take-away transfer assembly of FIG. 1;

FIG. 4 is a schematic view of a bonding apparatus in the composite board manufacturing line of FIG. 1;

FIG. 5 is a schematic view of a positioning device in the composite panel production line of FIG. 1;

fig. 6 is a schematic structural view of a glue spraying device in the composite board production line shown in fig. 1.

The reference numbers illustrate:

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the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

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

It should be noted that all the directional indicators (such as up, down, left, right, front, back \8230;) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

Furthermore, descriptions in the present application as to "first," "second," etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a composite sheet production line aims at realizing the automated production of composite sheet, need not artifical the participation to can make the panel of treating the spraying obtain effectual spraying, so that the bonding between sheet material and the lath is more stable, still improved spraying equipment's work efficiency.

Referring to fig. 1 to 6, a specific structure of the composite board production line 10 according to the present invention will be described in a specific embodiment, in an embodiment of the present invention, the composite board production line 10 includes:

a frame;

the transmission device 11 is arranged on the rack, the transmission device 11 comprises a first conveying line 111, a second conveying line 112 and a third conveying line 113 which are sequentially arranged, the first conveying line 111 is provided with a first stacking area 1111, and the second conveying line 112 is provided with a second stacking area 1121;

two feeding devices 12, wherein one of the feeding devices 12 is disposed at one side of the second stacking region 1121 for conveying the sheet materials to enter the transmission device 11 so as to convey the sheet materials to the first stacking region 1111 through the transmission device 11, the other feeding device 12 is disposed at one side of the first stacking region 1111 for conveying the slats so as to stack the slats on the sheet materials, and when the stacked sheet materials pass through the second stacking region 1121, the other feeding device 12 conveys the other sheet material so as to stack the sheet materials on the surface of the slat away from the other sheet material;

at least two positioning devices 15, wherein the at least two positioning devices 15 are arranged on the rack and are respectively positioned at two sides of the first conveying line 111 and the second conveying line 112 so as to position the stacked sheet plates and the stacked laths;

the glue spraying device 14 is arranged on the rack, is positioned above the first conveying line 111 and is used for spraying glue to the sheet plates or the laths respectively;

and the pressing device 15 is arranged between the second conveying line 112 and the third conveying line 113, and the pressing device 15 is used for performing pressing treatment on the stacked sheet plates and the stacked laths to form the composite plate.

It can be known, composite sheet production line 10 is used for gluing polylith panel, for example, need to glue polylith lath between two sheets of panel, in order to constitute the composite sheet, its essential element is transmission device 11, spout mucilage binding 14 and compression fittings 15, wherein adopt artifical material loading, artifical with sheet and lath place on transmission device 11, through transmission device 11 with sheet or lath transportation to the region that needs processing, according to the actual production needs, accomplish multiple sheet and lath combination and form the composite sheet afterwards, carry out the pressfitting with the composite sheet through this compression fittings 15 at last, in order to further improve the bonding stability between sheet and the lath.

In this embodiment, the composite board production line 10 further includes two feeding devices 12 and at least two positioning devices 15, and one of the feeding devices 12 is disposed at one side of the second stacking region 1121 and is used for conveying the sheet material, and the other feeding device 12 is disposed at one side of the first stacking region 1111 and is used for conveying the laths, when the sheet material enters the second conveying line 112 through the feeding device 12, the first conveying line 111 and the second conveying line 112 at this time drive the sheet material to move to the right, when the sheet material passes through the glue spraying device 14, the sheet material is sprayed with glue at one surface facing the glue spraying device 14, and then the sheet material comes onto the first stacking region 1111, at this time, the laths placed on the other feeding device 12 move and are stacked on the sheet material, then, the first conveying line 111 and the second conveying line 112 move to the left and drive the sheet material and the sheet material to pass through the positioning device 15, under the effect of the positioning device 15, the two sheets are aligned, so that the sheet material and the laths are stacked in order, then, the two sheets are moved through the glue spraying device 14, and the positioning device 15 is moved to the upper surface of the other side of the sheet material, and the laminated sheet material is not easily separated from the laminated device, and the laminated three devices, and the laminated sheet material is conveyed to the laminated device 1121, and the laminated device 15, and the laminated device is not easily formed by the laminated device, and the laminated three devices, and the laminated device. Through material loading, spout gluey, pile up, location and pressfitting, realize the automatic generation of sheet material composite sheet material, not only do not need artifical the participation, still improve the production efficiency of composite sheet material.

Specifically, the sheet materials enter the second conveying line 112 from the feeding device 12 located on the second stacking area 1121, then enter the first stacking area 1111 under the driving of the second conveying line 112 and the first conveying line 111, the slats are lowered from the feeding device 12 located on the first stacking area 1111 and are placed above the sheet materials, the first stacking is completed, then the two sheet materials are returned to the second stacking area 1121 again under the driving of the first conveying line 111 and the second conveying line 112, and another sheet material is lifted from the feeding device 12 and stacked above the slats, so that the second stacking is completed. It should be noted that the first transfer line 111 and the second transfer line 112 are circulating transfer lines.

Further, in the process that the sheet materials and the laths are stacked in sequence, the positioning devices 15 are respectively arranged on the first conveying line 111 and the second conveying line 112, when the sheet materials and the laths are stacked for the first time, the sheet materials and the laths are tidily processed through the positioning devices 15, when the sheet materials, the laths and the sheet materials are tidily processed through the other positioning devices 15 when the sheet materials and the laths are stacked for the second time, and finally, the sheet materials, the laths and the sheet materials are pressed through the pressing device 15 to form a complete and stable composite board.

The sheet material may be a metal plate, a ceramic plate, a wood plate, or the like, and the strip may be a metal plate, a ceramic plate, a wood beam, or the like, which is not limited herein.

Referring to fig. 2, in an alternative embodiment, each loading device 12 is a conveyor belt assembly 12a, the conveyor belt assembly 12a includes a frame body, a feeding belt 121 disposed on the frame body, and a conveying driving member, the conveying driving member is connected to the feeding belt 121 in a driving manner, the sheet material or the slat is conveyed to the first conveying line 111 and the second conveying line 112 through the feeding belt 121, and the sheet material or the slat can smoothly enter the second conveying line 112 and the first conveying line 111 through the conveyor belt assembly 12a, so as to smoothly perform subsequent operations.

In this embodiment, the feeding device 12 is a conveyor belt assembly 12a, the conveyor belt assembly 12a includes a frame body, a feeding belt 121 disposed on the frame body, and a conveying driving member, the sheet metal plate or the plate bar is placed on the feeding belt 121, and the feeding belt 121 drives the sheet metal plate or the sheet metal plate into the second conveying line 112 or the first conveying line 111 under the driving of the conveying driving member. It should be noted that the feeding belt 121 is inclined and the feeding belt 121 is lower at one end near the conveying device 11 than at the other end of the feeding belt 121, so that the sheet or strip can be smoothly fed onto the conveying device 11.

Referring to fig. 1 and 3, in an alternative embodiment, each loading device 12 is a take-away carrier assembly 12b, and the take-away carrier assembly 12b includes:

a gantry 122;

the lifting piece 123 is movably connected to the portal frame 122;

the translation piece 124 is connected to the lifting piece 123 and can move along the direction perpendicular to the moving direction of the lifting piece 123;

get material piece 125, get material piece 125 including connect to the flitch 1251 that takes of translation piece 124, get flitch 1251 and be connected with at least one vacuum chuck 1252 to absorb the sheet material through vacuum chuck 1252, absorb the sheet material or lath through vacuum chuck 1252, vacuum chuck 1252 can use alone in order to carry sheet material or lath, whole handling process motion is steady reliable.

In this embodiment, the loading device 12 is a material taking and conveying assembly 12b, wherein the material taking and conveying assembly 12b includes a gantry 122, a lifting member 123, a translation member 124 and a material taking member 125, the material taking member 125 is mounted on the translation member 124, the translation member 124 is mounted on the lifting member 123, the lifting member 123 is movably connected to the gantry 122, the material taking member 125 includes a vacuum chuck 1252, the vacuum chuck 1252 is driven by the lifting frame to move up and down on the gantry 122, so that the sheet material or the lath is sucked up, and then the sheet material or the lath can be placed on the second conveying line 112 and the first conveying line 111 along with the movement of the translation member 124, the whole conveying process can be controlled to operate by an electric cabinet (not shown), the efficiency is high, the safety and the reliability are high, and both the lifting member 123 and the translation member 124 are movably connected to the gantry 122, so that the gravity of the sucked sheet material or lath can be borne on the gantry 122, and the whole conveying process is stable and reliable in motion. The vacuum chuck 1252 is controlled by a vacuum device (not shown) to generate air pressure for sucking the workpiece, and the vacuum device may be mounted on the gantry 122 or externally connected through an air pipe.

Referring to fig. 3, in an alternative embodiment, the gantry 122 includes a mounting post 1221 and two upright posts 1222, wherein the two upright posts 1222 are respectively connected to two ends of the mounting post 1221;

the lifting member 123 includes two lifting guide rails 1231, a lifting frame body 1232 and two lifting sliders 1233, the two lifting guide rails 1231 are respectively fixed on two opposite surfaces of the two upright posts 1222, each lifting slider 1233 is slidably connected to each lifting guide rail 1231, and the two lifting sliders 1233 are respectively fixed on two outer sides of the lifting frame body 1232;

the material taking and conveying assembly 12b further comprises two conveying driving members 125, one conveying driving member 125 is drivingly connected to the lifting slide 1233, so that the lifting slide 1233 slides along the lifting guide rail 1231 and drives the lifting frame body 1232 to move up and down, the lifting slide 1233 is driven by the conveying driving member 125 to drive the lifting frame body 1232 to move up and down along the upright posts 1222, and the vacuum chuck 1252 can be driven to move up and down, so that the vacuum chuck 1252 can conveniently suck or put down a sheet material or a lath.

In this embodiment, the portal frame 122 includes the erection column 1221 and the coexistence post 1222, and the coexistence post 1222 is installed at the both ends of erection column 1221, and the lifting member 123 passes through lifting slide 1233 movable mounting on the coexistence post 1222, under the drive of transport driving member 125, so that the lifting slide 1233 slides along the lifting guide rail 1231, and drives the lifting frame body 1232 to move up and down, and then realizes setting up moving up and down at the material taking frame, in order to absorb or loosen sheet material or lath, and easy and convenient to operate, and work efficiency is high and stable.

Referring still to fig. 3, in an alternative embodiment, the translating element 124 includes:

the two translation sliding blocks 1241 are respectively and movably connected to the two inner sides of the lifting frame body 1232;

the two ends of the cross beam 1242 are fixedly connected to the translation slide block 1241, and the material taking plate 1251 is movably connected to the cross beam 1242;

the other transporting driving member 125 is further drivingly connected to the translating slider 1241, so that the translating slider 1241 slides on the lifting frame body 1232, and drives the material taking plate 1251 to move along a moving direction perpendicular to the lifting frame body 1232, thereby facilitating the vacuum chuck 1252 to move to a suitable position to suck or release the sheet material or the lath.

In this embodiment, the translating unit 124 includes two translating sliders 1241, and the two translating sliders 1241 are movably connected to two inner sides of the lifting frame body 1232, and two ends of the cross beam 1242 are fixedly connected to the two translating sliders 1241, and the material taking plate 1251 is movably connected to the cross beam 1242, so that under the driving of the carrying driving unit 125, the translating slider 1241 drives the material taking plate 1251 to move in the moving direction perpendicular to the lifting frame body 1232, and then the vacuum chuck 1252 can be moved to a proper position, and then a sheet material or a lath is sucked or loosened, which is efficient and operates stably and reliably.

Referring to fig. 3 again, in an alternative embodiment, the material taking plate 1251 is fixed with a plurality of vacuum strips, the vacuum chucks 1252 are connected to the vacuum strips, and the plurality of vacuum chucks 1252 are arranged at intervals along the length direction of the vacuum strips, so that the suction force of the vacuum chucks 1252 on the sheet material or the lath is more uniform, the suction is more stable and reliable, and the sheet material or the lath is not easy to drop.

In this embodiment, get and install the vacuum strip on the flitch 1251, and the one end of vacuum strip is passed through the trachea and is connected with vacuum apparatus, can set up a plurality of mounting holes (not shown) at the length direction of vacuum strip interval, a plurality of vacuum chuck 1252 correspond the cooperation and imbed in the mounting hole, and through the pneumatics in the vacuum apparatus control vacuum strip, adsorb piece panel or lath when realizing a plurality of vacuum chuck 1252, make vacuum chuck 1252 can adsorb the heavier and longer piece panel or lath of length of lifting load, and can not drop. Furthermore, the plurality of vacuum chucks 1252 can be arranged at regular intervals, so that the vacuum suction force is more uniform, and the workpiece can be more stably and firmly sucked.

Referring to fig. 3, in an alternative embodiment, a receiving rack 1223 is disposed on a side of the mounting column 1221 away from the conveying device 11, and a sheet material or a slat to be sprayed with a glue is placed on the receiving rack 1223, so that the material taking and conveying assembly 12b can conveniently take up the sheet material or slat, and naturally, the sheet material or slat on the receiving rack 1223 can be manually placed.

Referring to fig. 5, in an alternative embodiment, each positioning device 15 includes four first positioning members 131, two second positioning members 132, and six positioning driving assemblies 133, each positioning driving assembly 133 is respectively connected to each first positioning member 131 and each second positioning member 132 in a driving manner, each two second positioning members 132 are disposed on two sides of the first positioning members 131, and the four first positioning members 131 and the two second positioning members 132 form a positioning space therebetween, so that the sheet material and the lath are completely aligned, and subsequent processing can be performed smoothly.

In this embodiment, the positioning driving assembly 133 can be a positioning cylinder, and the positioning cylinder includes a cylinder body arranged on the frame and a telescopic rod movable relative to the cylinder body, and therefore, the telescopic rod of the positioning cylinder is connected to the first positioning member 131 and the second positioning member 132, and further when the positioning and clamping of the sheet material and the lath are required, the first positioning member 131 and the second positioning member 132 are driven by the positioning driving assembly 133 and abut against the peripheral side walls of the sheet material or the lath, so as to complete the position adjustment between the sheet material and the lath, and thus the alignment between the sheet material and the lath can be completed, and the subsequent glue spraying and pressing are facilitated. It should be noted that the first positioning member 131 and the second positioning member 132 may be positioning plates.

Referring to fig. 6, in an alternative embodiment, the glue spraying device 14 includes an installation frame 141, a plurality of glue outlet pipes 142 and spray heads 143, the installation frame 141 is installed on the rack, the glue outlet pipes 142 are installed in plurality, the plurality of glue outlet pipes 142 are installed on the installation frame 141 at intervals, each glue outlet pipe 142 is provided with the plurality of spray heads 143, one end of each glue outlet pipe 142 penetrates through the installation frame 141 and is communicated with a glue tank, the glue tank is communicated with the glue outlet pipes 142 through the arrangement of the plurality of glue outlet pipes 142, and each glue outlet pipe 142 is provided with the plurality of spray heads 143, so that the spray heads 143 can spray glue on the sheet material or the lath rapidly, and the glue is sprayed uniformly, so that the adhesion degree between the sheet material and the lath is better, and the connection between the sheet material and the lath is more stable.

In this embodiment, glue spraying device 14 includes mounting bracket 141, glue outlet pipe 142 and shower nozzle 143, and glue outlet pipe 142 is provided with a plurality ofly, a plurality of glue outlet pipes 142 are installed on mounting bracket 141, and pass mounting bracket 141 intercommunication glue tank, so that every glue outlet pipe 142 homoenergetic lets in glue, and install a plurality of shower nozzles 143 of arranging at interval on every glue outlet pipe 142, and then the glue is spouted to sheet material or lath simultaneously to a plurality of shower nozzles 143 of accessible, and glue covers automatically, spray evenly, make the adhesion degree between the panel better.

Specifically, through setting up a plurality of glue outlet pipes 142 to set up a plurality of shower nozzles 143 on each glue outlet pipe 142, and then can be according to the production conditions of reality, the simultaneous working of a plurality of glue outlet pipes 142 of simultaneous control, so that spray evenly, still can be through controlling interval work between a plurality of glue outlet pipes 142, and then spray under the even condition, practice thrift glue, avoid extravagant unnecessary glue.

Referring to fig. 4, in an alternative embodiment, the pressing device 15 includes a mounting platform 151, a pressing cylinder 152, a first pressing plate 153 and a second pressing plate 154, the pressing cylinder 152 is mounted on the mounting platform 151 and is drivingly connected to the first pressing plate 153, the second pressing plate 154 is mounted on the mounting platform 151 and is located below the first pressing plate 153, a pressing space 155 for the composite board to penetrate is formed between the first pressing plate 153 and the second pressing plate 154, and the pressing device 15 can enable the glue between the sheet material and the strip to escape more quickly, so as to effectively press the multilayer sheet material to a greater extent, enhance the adhesion of the glue to the sheet material, and improve the production quality of the composite board.

In this embodiment, the pressing device 15 includes an installation platform 151, a pressing cylinder 152, a first pressing plate 153 and a second pressing plate 154, the pressing cylinder 152 may be an oil cylinder or an air cylinder, and the first pressing plate 153 is fixedly connected to the telescopic end of the pressing cylinder 152, so that when the pressing cylinder 152 is extended, the first pressing plate 153 is pressed on the stacked sheet material, the second pressing plate 154 is disposed below another sheet material, and when the pressing cylinder 152 is extended continuously, the first pressing plate 153 can be pressed on the sheet material stably, so that the multi-layer sheet material can be pressed effectively to a greater extent, the adhesion of glue to the sheet material is enhanced, and the production quality of the composite plate is improved.

Specifically, the pressing device 15 is disposed between the second conveying line 112 and the third conveying line 113, so that when the stacked sheet plates and the sheet bars are driven by the second conveying line 112, a pressing space 155 for the composite plate to penetrate through is formed between the first pressing plate 153 and the second pressing plate 154, and then under the operation of the pressing cylinder 152, the first pressing plate 153 presses on the composite plate, and the second pressing plate 154 is fixedly mounted on the mounting table, so that effective pressing between the plurality of sheet plates can be achieved, glue between the sheet plates is sufficiently diffused, the adhesion of the glue to the sheet plates is enhanced, and the production quality of the composite plate is improved.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A composite board production line, characterized in that the composite board production line comprises:

a frame;

the conveying device is arranged on the rack and comprises a first conveying line, a second conveying line and a third conveying line which are sequentially arranged, the first conveying line is provided with a first stacking area, and the second conveying line is provided with a second stacking area;

the feeding device is arranged on one side of the second stacking area and used for conveying a sheet material so that the sheet material enters the conveying device and is conveyed to the first stacking area through the conveying device, the feeding device is arranged on one side of the first stacking area and used for conveying laths so that the laths are stacked on the sheet material, and when the two sheets after being stacked pass through the second stacking area, the feeding device conveys the other sheet material so that the sheet material is stacked on the surface of the lath, which is far away from the other sheet material;

the positioning devices are arranged on the rack and are respectively positioned on two sides of the first conveying line and the second conveying line so as to position the stacked sheet plates and the stacked laths;

the glue spraying device is arranged on the rack and positioned above the first conveying line so as to respectively spray glue on the sheet plates or the laths;

and the pressing device is arranged between the second conveying line and the third conveying line so as to perform pressing treatment on the stacked sheet plates and the stacked laths to form the composite plate.

2. The composite panel production line of claim 1, wherein each of the feeding devices is a conveyor belt assembly, the conveyor belt assembly includes a frame body, a feeding belt disposed on the frame body, and a conveying driving member drivingly connected to the feeding belt, and the sheet material or the strip is conveyed onto the first conveyor line and the second conveyor line via the feeding belt.

3. The composite panel production line of claim 1, wherein each loading device is a take-off handling assembly comprising:

a gantry;

the lifting piece is movably connected to the portal frame;

the translation piece is connected to the lifting piece and can move along the moving direction vertical to the lifting piece; and

and the material taking part comprises a material taking plate connected to the translation part, the material taking plate is connected with at least one vacuum chuck, and the sheet material is sucked by the vacuum chuck.

4. The composite board production line of claim 3, wherein the gantry comprises a mounting post and two posts, the two posts being connected to two ends of the mounting post, respectively;

the lifting piece comprises two lifting guide rails, a lifting frame body and two lifting slide blocks, the two lifting guide rails are respectively fixed on two opposite surfaces of the two upright posts, each lifting slide block is connected to each lifting guide rail in a sliding mode, and the two lifting slide blocks are respectively fixed on two outer sides of the lifting frame body;

the material taking and carrying assembly further comprises two carrying driving pieces, and one of the carrying driving pieces is in driving connection with the lifting slide block so that the lifting slide block can slide along the lifting guide rail and drive the lifting frame body to move up and down.

5. The composite panel production line of claim 4, wherein the translating member comprises:

the two translation sliding blocks are respectively and movably connected to the two inner sides of the lifting frame body;

the two ends of the cross beam are fixedly connected to the translation sliding block, and the material taking plate is movably connected to the cross beam;

and the other carrying driving part is also in driving connection with the translation sliding block so as to enable the translation sliding block to slide on the lifting frame body and drive the material taking plate to move along the moving direction vertical to the lifting frame body.

6. The composite board production line according to claim 5, wherein the material taking plate is fixed with a vacuum strip, the vacuum suction cups are communicated with the vacuum strip, and the vacuum suction cups are multiple and are arranged at intervals along the length direction of the vacuum strip.

7. The composite board production line according to claim 6, wherein the mounting post is provided with a receiving rack on a side away from the conveying device, and a sheet material or a lath to be sprayed with glue is placed on the receiving rack.

8. The composite board production line according to claim 1, wherein each positioning device comprises four first positioning members disposed opposite to each other, two second positioning members disposed opposite to each other, and six positioning driving assemblies, each positioning driving assembly is respectively connected to each first positioning member and each second positioning member in a driving manner, each two second positioning members are disposed on two sides of the first positioning member, and a positioning space is defined between the four first positioning members and the two second positioning members.

9. The composite board production line according to claim 1, wherein the glue spraying device comprises a mounting frame, a plurality of glue outlet pipes and spray heads, the mounting frame is mounted on the frame, the plurality of glue outlet pipes are mounted on the mounting frame at intervals, a plurality of spray heads are arranged on each glue outlet pipe, and one end of each glue outlet pipe penetrates through the mounting frame and is communicated with a glue tank.

10. The composite board production line of claim 1, wherein the pressing device comprises a mounting table, a pressing cylinder, a first pressing board, and a second pressing board, the pressing cylinder is mounted on the mounting table and drivingly connected to the first pressing board, the second pressing board is mounted on the mounting table and positioned below the first pressing board, and a pressing space for the composite board to pass through is formed between the first pressing board and the second pressing board.

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