CN115891394A - High temperature resistant metal clad sheet production and processing equipment - Google Patents
High temperature resistant metal clad sheet production and processing equipment Download PDFInfo
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- CN115891394A CN115891394A CN202310089415.XA CN202310089415A CN115891394A CN 115891394 A CN115891394 A CN 115891394A CN 202310089415 A CN202310089415 A CN 202310089415A CN 115891394 A CN115891394 A CN 115891394A
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- fixedly connected
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- panel
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- 238000004519 manufacturing process Methods 0.000 title claims abstract description 33
- 229910052751 metal Inorganic materials 0.000 title abstract description 4
- 239000002184 metal Substances 0.000 title abstract description 4
- AZDRQVAHHNSJOQ-UHFFFAOYSA-N alumane Chemical group [AlH3] AZDRQVAHHNSJOQ-UHFFFAOYSA-N 0.000 claims abstract description 151
- 238000005520 cutting process Methods 0.000 claims abstract description 131
- 239000000853 adhesive Substances 0.000 claims abstract description 49
- 230000001070 adhesive effect Effects 0.000 claims abstract description 49
- 238000004026 adhesive bonding Methods 0.000 claims abstract description 29
- 239000002905 metal composite material Substances 0.000 claims abstract description 25
- 238000007790 scraping Methods 0.000 claims abstract description 23
- 230000000670 limiting effect Effects 0.000 claims description 93
- 239000003292 glue Substances 0.000 claims description 49
- 238000002347 injection Methods 0.000 claims description 33
- 239000007924 injection Substances 0.000 claims description 33
- 238000000034 method Methods 0.000 claims description 17
- 238000010030 laminating Methods 0.000 claims description 15
- 239000002131 composite material Substances 0.000 claims description 7
- 239000003870 refractory metal Substances 0.000 claims description 6
- 239000011248 coating agent Substances 0.000 claims description 5
- 238000000576 coating method Methods 0.000 claims description 5
- 238000003892 spreading Methods 0.000 claims description 4
- 238000009434 installation Methods 0.000 claims description 2
- 239000000463 material Substances 0.000 abstract description 3
- 230000001413 cellular effect Effects 0.000 description 13
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 10
- 229910052782 aluminium Inorganic materials 0.000 description 10
- 230000005484 gravity Effects 0.000 description 7
- 238000001125 extrusion Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 2
- 238000005452 bending Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 239000003973 paint Substances 0.000 description 1
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Abstract
The invention relates to the field of metal plate processing, in particular to high-temperature-resistant metal composite plate production and processing equipment. The technical problem is as follows: the artifical inside wall that is difficult to scribble the adhesive on the panel and panel uniformly, artifical use the knife can make it produce the deformation when cutting honeycomb aluminium core, can not make the marginal edge of incomplete simultaneously laminate the inside wall of panel to it can both be stained with the adhesive to be difficult to ensure every hole limit of honeycomb aluminium core. The technical scheme is as follows: a high-temperature resistant metal composite plate production and processing device comprises a workbench, a gluing system, a first cutting system and the like; a gluing system is arranged above the inner part of the workbench; the gluing system is connected with a first cutting system, and the first cutting system is positioned on the left of the gluing system. The invention keeps the inclined state under the action of the torsion spring through the scraper made of rubber materials and uniformly coats the adhesive falling on the panel by scraping the adhesive on the panel, thereby avoiding the problem that the adhesive cannot be uniformly coated on the panel when being manually coated.
Description
Technical Field
The invention relates to the field of metal plate processing, in particular to high-temperature-resistant metal composite plate production and processing equipment.
Background
When the composite honeycomb aluminum plate is machined at the present stage, a special adhesive needs to be coated on the panel, the honeycomb aluminum core is placed and attached to the panel, then the back plate is covered on the honeycomb aluminum core, the back plate and the panel are tightly spliced, then the back plate and the panel are placed under a hydraulic press for forming, when the adhesive is coated on the panel, due to the uncertainty of manual operation, the adhesive is difficult to be uniformly coated on the panel and the inner side wall of the panel, and the phenomena of coating leakage and coating loss exist.
Simultaneously when putting into the honeycomb aluminum core and laminating the panel, in order to ensure that the honeycomb aluminum core can laminate into the panel completely, the area that generally can get the honeycomb aluminum core is greater than the area of panel, at this moment, just need amputate unnecessary honeycomb aluminum core on the panel, artifical when using the knife to amputate unnecessary honeycomb aluminum core, because the honeycomb aluminum core has porous structure, the knife can make the honeycomb aluminum core produce the deformation when cutting it, the honeycomb aluminum core after the cutting finishes has incomplete edge simultaneously, the artifical inside wall that can not make the edge of incomplete laminating the panel when the cutting, lead to laminating inseparable between honeycomb aluminum core and the panel.
Meanwhile, since the honeycomb aluminum core has a porous structure, when the honeycomb aluminum core is placed on the panel, it is difficult to ensure that each hole edge of the honeycomb aluminum core can be stained with an adhesive, and thus the adhesive effect is poor.
Disclosure of Invention
The invention provides a high-temperature-resistant metal composite plate production and processing device, aiming at overcoming the defects that an adhesive is difficult to be uniformly coated on a panel and the inner side wall of the panel manually, the honeycomb aluminum core is deformed when being cut by a knife manually, the incomplete edge cannot be attached to the inner side wall of the panel, and the adhesive is difficult to adhere to each hole edge of the honeycomb aluminum core.
The technical scheme is as follows: a high-temperature resistant metal composite plate production and processing device comprises a workbench, a gluing system, a first cutting system, a second cutting system and an adjusting system; the workbench is fixedly connected with two positioning plates; two seventh fixing plates are fixedly connected to the left side and the right side of the workbench respectively; a gluing system is arranged above the inner part of the workbench; the gluing system is connected with a first cutting system, and the first cutting system is positioned on the left of the gluing system; the gluing system is connected with a second cutting system, and the second cutting system is positioned on the left of the first cutting system; the second cutting system is connected with an adjusting system; the gluing system is used for coating an adhesive on the panel; the first cutting system is used for cutting off the redundant honeycomb aluminum core on the right side after the honeycomb aluminum core is placed on the panel; the second cutting system is used for cutting off redundant honeycomb aluminum cores on the front side of the honeycomb aluminum cores after the honeycomb aluminum cores are placed on the panel; the adjustment system is used to adjust the position of the aluminum honeycomb core on the panel.
Preferably, the gluing system consists of a glue injection assembly and a flat laying assembly; a glue injection assembly is arranged at the inner upper part of the workbench; the glue injection assembly is connected with a flat laying assembly; the flat laying assembly is used for uniformly laying the adhesive on the panel; the glue injection assembly comprises a first supporting plate, a first guide rail, a first moving block, a first push rod, a mounting plate, a glue injector, a glue injection hopper, a second moving block and a third moving block; a first supporting plate is arranged above the inside of the workbench; the first support plate is fixedly connected with a first guide rail; the first guide rail is connected with a first moving block in a sliding manner; the first moving block is fixedly connected with a first push rod; the telescopic end of the first push rod is fixedly connected with a mounting plate; the mounting plate is fixedly connected with a glue injector; the glue injection opening of the glue injector is communicated with a glue injection hopper; the first guide rail is connected with a second moving block in a sliding manner, and the second moving block is positioned on the left of the first moving block; the second moving block is connected with a first cutting system; the first guide rail is connected with a third moving block in a sliding manner, and the third moving block is positioned on the left of the second moving block; the third moving block is connected with a second cutting system; the glue injector is used for injecting the adhesive into the panel.
Preferably, the tiling component comprises two tiling parts distributed left and right; the glue injection hopper is connected with two horizontally distributed flat laying components; the right tiled component consists of a first fixed block, a first rotating rod, a rotating plate, a scraping plate, a first fixed plate, a first connecting plate, a second connecting plate, a third connecting plate, a second fixed plate, a second rotating rod and a scraping strip; the glue injection hopper is fixedly connected with two first fixed blocks; the two first fixed blocks are connected with a first rotating rod in a rotating mode together; the first rotating rod is fixedly connected with a rotating plate, and a torsion spring is arranged between the rotating plate and the first fixed block; the rotating plate is fixedly connected with a scraping plate; the glue injection hopper is fixedly connected with two first fixing plates; the rotating plate is fixedly connected with two first connecting plates; the two first connecting plates are movably connected with a second connecting plate respectively; the two second connecting plates are respectively and rotatably connected with a third connecting plate, and the third connecting plates are rotatably connected with the first fixing plate; the two third connecting plates are respectively provided with an end part, and the end parts are matched with the seventh fixing plate; the rotating plate is fixedly connected with two second fixing plates; the two second fixing plates are respectively connected with a second rotating rod in a rotating way; the two second rotating rods are respectively connected with a scraping strip in a rotating way; two ends of the two second rotating rods are respectively connected with a wheel in a rotating way; the scraper is used for evenly spreading the adhesive on the panel.
Preferably, the first cutting system comprises a cutting assembly and a first attaching assembly; the second moving block is connected with a cutting assembly; the cutting assembly is connected with a first laminating assembly; the cutting assembly is used for cutting off the redundant honeycomb aluminum core on the right side after the honeycomb aluminum core is placed on the panel; the first attaching component is used for attaching the first edge of the first attaching component to the panel after cutting off the redundant honeycomb aluminum core.
Preferably, the cutting assembly comprises a second push rod, a third fixing plate, a first cutting machine, a first spring rod, a first limiting ball, a fourth connecting plate, a first limiting plate, a second fixing block, a second spring rod, a first pressure rod, a first spring ball, a second supporting plate, a third guide rail and a fifth moving block; the second moving block is fixedly connected with a second push rod; the telescopic end of the second push rod is fixedly connected with a second supporting plate; the second supporting plate is fixedly connected with a third guide rail; the third guide rail is connected with a fifth moving block in a sliding manner; a third fixed plate is fixedly connected with the fifth moving block; the third fixing plate is fixedly connected with a first cutting machine; the third fixing plate is fixedly connected with two first spring rods; the telescopic ends of the two first spring rods are fixedly connected with a first limiting ball respectively, and the first limiting ball is provided with a notch; the third fixing plate is fixedly connected with a fourth connecting plate; the fourth connecting plate is fixedly connected with a first limiting plate; the first limiting plate is fixedly connected with a second fixing block; two second spring rods are fixedly connected to the third fixing plate; the telescopic ends of the two second spring rods are jointly and rotatably connected with a first pressure rod; the first pressure lever is fixedly connected with a plurality of first spring balls; the first cutting machine is used for cutting off the excessive honeycomb aluminum core on the right side after the honeycomb aluminum core is put on the panel.
Preferably, the first attaching assembly comprises a third spring rod, a second limiting ball, a fifth connecting plate, a fourth spring rod, a round ball and a fifth spring rod; a third spring rod is fixedly connected with the third fixing plate; the telescopic end of the third spring rod is fixedly connected with a second limiting ball; a fixed end of the third spring rod is fixedly connected with a fifth connecting plate; the fifth connecting plate is rotatably connected with a fourth spring rod, and a torsional spring is arranged between the fourth spring rod and the fifth connecting plate; the telescopic end of the fourth spring rod is fixedly connected with a ball; the fixed end of the second limiting ball is movably connected with a fifth spring rod, and the telescopic end of the fifth spring rod is rotatably connected with the telescopic end of the fourth spring rod; the round ball is used for cutting off the redundant honeycomb aluminum core on the right side and then attaching the first edge of the honeycomb aluminum core to the panel.
Preferably, the second cutting system comprises a third push rod, a fourth fixing plate, a sixth spring rod, a second pressure rod, a second spring ball, a sixth connecting plate, a fifth fixing plate, a second cutting machine, a seventh spring rod, a third limiting ball, a second limiting plate and a third fixing block; a third push rod is fixedly connected with the third moving block; the telescopic end of the third push rod is fixedly connected with a fourth fixing plate; the fourth fixing plate is connected with an adjusting system; the fourth fixed plate is fixedly connected with two sixth spring rods; the telescopic ends of the two sixth spring rods are connected with a second pressure rod in a rotating mode together; a plurality of second spring balls are fixedly connected to the second pressure lever; a sixth connecting plate is fixedly connected to the fourth fixing plate; a fifth fixing plate is fixedly connected with the sixth connecting plate; the fifth fixing plate is fixedly connected with a second cutting machine; the fifth fixing plate is fixedly connected with two seventh spring rods; the telescopic ends of the two seventh spring rods are fixedly connected with a third limiting ball respectively; the sixth connecting plate is fixedly connected with a second limiting plate; the second limiting plate is fixedly connected with a third fixing block; and the second cutting machine is used for cutting off the redundant honeycomb aluminum core on the front side after the honeycomb aluminum core is placed on the panel.
Preferably, the adjusting system comprises an adjusting component and a second fitting component; the fourth fixing plate is connected with an adjusting component; the adjusting assembly is connected with a second laminating assembly; the adjusting component is used for adjusting the position of the honeycomb aluminum core on the panel; the second laminating subassembly is used for making the both sides of honeycomb aluminum core laminate to the panel.
Preferably, the adjusting component comprises a second guide rail, a ninth spring rod, a third pressure rod, an air bag and an adjusting component; the fourth fixed plate is fixedly connected with a second guide rail; the second guide rail is connected with two adjusting components which are distributed front and back in a sliding way; the adjusting component is connected with a second laminating component; the fourth fixed plate is fixedly connected with two ninth spring rods; the telescopic ends of the two ninth spring rods are connected with a third pressure rod in a rotating mode together; two ends of the third pressure lever are fixedly connected with an air bag respectively; the front adjusting component consists of a fourth moving block, an electric pick, a sixth fixing plate, an eighth spring rod and a fourth limiting ball; the second guide rail is connected with a fourth moving block in a sliding manner; an electric pick is fixedly connected with the fourth moving block; a pick head of the electric pick is fixedly connected with a sixth fixing plate; two eighth spring rods are fixedly connected to the sixth fixing plate; the telescopic ends of the two eighth spring rods are respectively fixedly connected with a fourth limiting ball; the sixth fixing plate is connected with a second laminating assembly; the electric pick is used for adjusting the position of the honeycomb aluminum core on the panel.
Preferably, the second attaching assembly comprises four attaching parts; the joint component comprises a tenth spring rod, a fifth limiting ball, a seventh connecting plate, an eleventh spring rod, a hemisphere, a third spring ball and a twelfth spring rod; a tenth spring rod is fixedly connected to the sixth fixing plate; the telescopic end of the tenth spring rod is fixedly connected with a fifth limiting ball; a seventh connecting plate is fixedly connected to the fixed end of the tenth spring rod; the seventh connecting plate is rotatably connected with an eleventh spring rod, and a torsion spring is arranged between the eleventh spring rod and the seventh connecting plate; the telescopic end of the eleventh spring rod is rotatably connected with two hemispheres; a plurality of third spring balls are fixedly connected to the two hemispheres respectively; a fixed end of the fifth limiting ball is fixedly connected with a twelfth spring rod, and a telescopic end of the twelfth spring rod is rotatably connected with a telescopic end of the eleventh spring rod; the hemisphere is used to make the honeycomb aluminum core attach to the panel on both sides.
The invention has the beneficial effects that: the invention keeps an inclined state under the action of the torsion spring through the scraper made of rubber, uniformly coats the adhesive falling on the panel by scraping the adhesive falling on the panel, simultaneously upwards conveys the adhesive accumulated on the front inner side wall and the rear inner side wall of the panel to the second rotating rod through the rotating spiral scraping strip, uniformly coats the adhesive on the front inner side wall and the rear inner side wall of the panel along with the rotation of the second rotating rod, and drives the scraper made of rubber to coat the adhesive on the left inner side wall and the right inner side wall of the panel through the rotating plate, so that the adhesive is uniformly coated on the panel and the inner side walls of the panel, and the problems that the adhesive cannot be uniformly coated on the panel when being manually coated and the inner side walls of the panel are not coated and are coated less are solved.
The invention prevents the honeycomb aluminum core in front of the first cutting machine from deforming during cutting by the aid of the limiting function of the ball head of the first limiting ball falling into the hole of the honeycomb aluminum core under the action of self gravity and the telescopic matching of the first spring rod, enables the incomplete first edge of the honeycomb aluminum core to move towards the direction close to the inner wall of the right side of the panel by the aid of the anticlockwise rotation of the front-back viewing angle while the ball moves downwards, enables the incomplete first edge to cling to the inner wall of the right side of the panel, and simultaneously enables the ball head of the third limiting ball to fall into the hole of the honeycomb aluminum core under the action of self gravity and the telescopic matching of the seventh spring rod, so that the honeycomb aluminum core is limited, prevents the front side of the honeycomb aluminum core from deforming during cutting, enables the ball head of the third limiting ball to rotate towards the direction close to the inner walls of the two sides of the panel while the ball head of the third spring rod moves downwards, clamps the second edge of the honeycomb aluminum core to drag towards the direction close to the inner walls of the two sides of the panel, so that the two sides of the honeycomb aluminum core are prevented from being stuck to the inner wall of the honeycomb aluminum core when the honeycomb is manually cut by the pocket, and the inner wall of the honeycomb aluminum core is prevented from being stuck to the inner wall of the honeycomb panel when the honeycomb is cut by the pocket.
According to the invention, the pickaxe head of the electric pickaxe drives the components connected with the electric pickaxe head to horizontally reciprocate, so that after the bulb heads of the fifth limiting ball and the fourth limiting ball fall into the hole of the honeycomb aluminum core downwards, the bulb heads of the fifth limiting ball and the fourth limiting ball drive the honeycomb aluminum core to horizontally reciprocate, the position of the honeycomb aluminum core on the panel is adjusted, the honeycomb aluminum core is uniformly distributed in the panel as a whole, an adhesive can be coated on each hole edge of the honeycomb aluminum core, and two sides of the honeycomb aluminum core are attached to the panel, thereby avoiding the problem that manual work is difficult to ensure that each hole edge of the honeycomb aluminum core can be stained with the adhesive, and the adhesion effect is poor.
Drawings
FIG. 1 is a schematic view of a first structure disclosed by the apparatus for manufacturing and processing a high temperature resistant metal composite plate according to the present invention;
FIG. 2 is a schematic view of a second structure disclosed in the apparatus for manufacturing and processing a refractory metal composite plate according to the present invention;
FIG. 3 is a schematic view of a combined partial structure of a workbench and a gluing system disclosed by the production and processing equipment for the high-temperature resistant metal composite plate;
FIG. 4 is a schematic view of a first partial structure of a gluing system disclosed by the production and processing equipment for the high-temperature-resistant metal composite plate of the invention;
FIG. 5 is a schematic view of a second partial structure of a gluing system disclosed by the production and processing equipment for the high-temperature-resistant metal composite plate of the invention;
FIG. 6 is a schematic partial structural view of a first cutting system disclosed in the apparatus for manufacturing and processing a refractory metal composite plate according to the present invention;
FIG. 7 is a schematic view of a partial structure of a first bonding assembly disclosed in the apparatus for manufacturing and processing a high temperature resistant metal composite plate according to the present invention;
FIG. 8 is a schematic view of a partial structure of a cutting assembly disclosed in the apparatus for manufacturing and processing a refractory metal composite plate according to the present invention;
FIG. 9 is a schematic view of a combined partial structure of a workbench, a second cutting system and an adjusting system disclosed by the high-temperature resistant metal composite board production and processing equipment;
FIG. 10 is a schematic view of a combined partial structure of a workbench and a second cutting system disclosed in the high temperature resistant metal composite plate production and processing equipment of the present invention;
FIG. 11 is a schematic view of a first combined partial structure of a workbench and an adjustment system disclosed in the apparatus for manufacturing and processing a refractory metal composite plate according to the present invention;
FIG. 12 is a schematic view of a second combined partial structure of a workbench and an adjusting system disclosed in the apparatus for manufacturing and processing a refractory metal composite plate according to the present invention;
fig. 13 is a schematic partial structure view of a second attaching assembly disclosed in the high temperature resistant metal composite plate production and processing apparatus of the present invention.
Description of reference numerals: 1-workbench, 2-panel, 3-honeycomb aluminum core, 101-first supporting plate, 102-first guide rail, 103-first moving block, 104-first push rod, 105-mounting plate, 106-glue injector, 107-glue injection bucket, 108-second moving block, 109-third moving block, 111-first fixed block, 112-first rotating rod, 113-rotating plate, 114-scraping plate, 115-first fixed plate, 116-first connecting plate, 117-second connecting plate, 118-third connecting plate, 119-second fixed plate, 1110-second rotating rod, 1111-scraping strip, 201-second push rod, 202-third fixed plate, 203-first cutting machine, 204-first spring rod, 205-first limiting ball, 206-fourth connecting plate, 207-a first limiting plate, 208-a second fixing block, 209-a second spring rod, 2010-a first pressure lever, 2011-a first spring ball, 2012-a second supporting plate, 2013-a third guide rail, 2014-a fifth moving block, 211-a third spring rod, 212-a second limiting ball, 213-a fifth connecting plate, 214-a fourth spring rod, 215-a ball, 216-a fifth spring rod, 301-a third push rod, 302-a fourth fixing plate, 303-a sixth spring rod, 304-a second pressure lever, 305-a second spring ball, 306-a sixth connecting plate, 307-a fifth fixing plate, 308-a second cutting machine, 309-a seventh spring rod, 3010-a third limiting ball, 3011-a second limiting plate, 3012-a third fixing block, 401-a second guide rail, 402-a fourth moving block, 403-an electric pick, 404-a sixth fixing plate, 405-an eighth spring rod, 406-a fourth limiting ball, 407-a ninth spring rod, 408-a third pressure rod, 409-an air bag, 411-a tenth spring rod, 412-a fifth limiting ball, 413-a seventh connecting plate, 414-an eleventh spring rod, 415-a hemisphere, 416-a third spring ball, 417-a twelfth spring rod, 1 a-a positioning plate, 1 b-a seventh fixing plate, 3 a-a first edge, 3 b-a second edge, 118 a-an end part and 205 a-a notch.
Detailed description of the preferred embodiments
The invention is further described with reference to the following figures and detailed description.
Examples
A high-temperature resistant metal composite plate production and processing device is shown in figures 1-13 and comprises a workbench 1, a gluing system, a first cutting system, a second cutting system and an adjusting system; the workbench 1 is fixedly connected with two positioning plates 1a; two seventh fixing plates 1b are fixedly connected to the left side and the right side of the workbench 1 respectively; a gluing system is arranged at the upper part in the workbench 1; the gluing system is connected with a first cutting system, and the first cutting system is positioned on the left of the gluing system; the gluing system is connected with a second cutting system, and the second cutting system is positioned on the left of the first cutting system; the second cutting system is connected with an adjusting system; the adhesive is uniformly coated on the panel 2 through a gluing system, the first cutting system cuts off the redundant honeycomb aluminum core 3 on the right side of the honeycomb aluminum core 3 after the honeycomb aluminum core 3 is placed on the panel 2, meanwhile, the second cutting system cuts off the redundant honeycomb aluminum core 3 on the front side of the honeycomb aluminum core 3, and the adjusting system adjusts the position of the honeycomb aluminum core 3 on the panel 2.
Artifical be difficult to paint the adhesive on panel 2 and panel 2's inside wall uniformly, artifical use the knife can make it produce the deformation when cutting honeycomb aluminium core 3, can not make the edge of incomplete simultaneously laminate the inside wall of panel 2 to it can both be stained with the adhesive to be difficult to ensure every hole limit of honeycomb aluminium core 3. Aiming at the problem, the invention provides a production and processing device for a high-temperature-resistant metal composite plate.
When the device is used, the high-temperature-resistant metal composite plate production and processing equipment is placed on a horizontal ground, then the running state of the equipment is manually checked and adjusted, a power supply is switched on to control the equipment to run, and then the panel 2 is manually placed between the two positioning plates 1a on the workbench 1;
then, controlling the gluing system to operate, and uniformly coating the adhesive on the panel 2, wherein in the process, the gluing system uniformly coats the adhesive on the side wall of the panel 2;
then, manually placing the honeycomb aluminum core 3 on the panel 2 coated with the adhesive, and enabling the rear side of the honeycomb aluminum core 3 to be flush with the rear side of the panel 2, and the left side of the honeycomb aluminum core 3 to be flush with the left side of the panel 2, wherein redundant honeycomb aluminum cores 3 are arranged on the right side and the front side of the panel 2;
subsequently, the gluing system is controlled to operate, so that the first cutting system is positioned on the right side of the panel 2, and the second cutting system is positioned on the left side of the panel 2;
then, controlling a first cutting system to operate, cutting off the redundant honeycomb aluminum core 3 on the right side of the panel 2, wherein in the process, the first cutting system prevents the honeycomb aluminum core 3 from deforming when cutting, and simultaneously enables the incomplete edge to be attached to the right inner side wall of the panel 2;
meanwhile, the second cutting system is controlled to operate, the redundant honeycomb aluminum core 3 on the front side of the panel 2 is cut off, in the process, the adjusting system is controlled to operate, the position of the honeycomb aluminum core 3 on the panel 2 is adjusted, the honeycomb aluminum core 3 is uniformly distributed in the panel 2 integrally, each hole edge of the honeycomb aluminum core 3 can be coated with the adhesive, and two sides of the honeycomb aluminum core 3 are attached to the panel 2.
The glue spreading system consists of a glue injection assembly and a flat laying assembly; a glue injection assembly is arranged at the upper part in the workbench 1; the glue injection assembly is connected with a flat laying assembly; the glue injection assembly comprises a first supporting plate 101, a first guide rail 102, a first moving block 103, a first push rod 104, an installation plate 105, a glue injector 106, a glue injection hopper 107, a second moving block 108 and a third moving block 109; a first supporting plate 101 is arranged at the upper part in the workbench 1; the first support plate 101 is bolted with a first guide rail 102; the first guide rail 102 is connected with a first moving block 103 in a sliding manner; the first moving block 103 is connected with a first push rod 104 through bolts; the telescopic end of the first push rod 104 is fixedly connected with a mounting plate 105; the mounting plate 105 is connected with a glue injector 106 through bolts; a glue injection opening of the glue injector 106 is communicated with a glue injection hopper 107; the first guide rail 102 is connected with a second moving block 108 in a sliding manner, and the second moving block 108 is positioned on the left of the first moving block 103; the second moving block 108 is connected with a first cutting system; the first guide rail 102 is connected with a third moving block 109 in a sliding manner, and the third moving block 109 is located on the left of the second moving block 108; a second cutting system is connected to the third moving block 109.
The tiling component comprises two tiling components which are distributed left and right; the glue injection hopper 107 is connected with two horizontally distributed flat laying components; the right flat laying component consists of a first fixed block 111, a first rotating rod 112, a rotating plate 113, a scraping plate 114, a first fixed plate 115, a first connecting plate 116, a second connecting plate 117, a third connecting plate 118, a second fixed plate 119, a second rotating rod 1110 and a scraping strip 1111; the glue injection hopper 107 is fixedly connected with two first fixed blocks 111; the two first fixing blocks 111 are connected with a first rotating rod 112 in a co-rotating manner; the first rotating rod 112 is fixedly connected with a rotating plate 113, and a torsion spring is arranged between the rotating plate 113 and the first fixed block 111; the rotating plate 113 is fixedly connected with a scraping plate 114; the glue injection hopper 107 is fixedly connected with two first fixing plates 115; the rotating plate 113 is fixedly connected with two first connecting plates 116; each of the two first connecting plates 116 is hinged with a second connecting plate 117; each of the two second connecting plates 117 is rotatably connected with a third connecting plate 118, and the third connecting plate 118 is rotatably connected with the first fixing plate 115; the two third connecting plates 118 are respectively provided with an end 118a, and the end 118a and the seventh fixing plate 1b are mutually matched; the rotating plate 113 is fixedly connected with two second fixing plates 119; a second rotating rod 1110 is rotatably connected to each of the two second fixing plates 119; each of the two second rotating bars 1110 is rotatably connected with a scraping strip 1111; two ends of the two second rotating rods 1110 are respectively connected with a wheel in a rotating way; the adhesive agent accumulated on the front and rear inner sidewalls of the panel 2 is upwardly transferred to the second rotary bar 1110 by the rotating spiral bar 1111, and is uniformly applied to the front and rear inner sidewalls of the panel 2 as the second rotary bar 1110 rotates.
The first cutting system comprises a cutting assembly and a first fitting assembly; the second moving block 108 is connected with a cutting assembly; the cutting assembly is connected with a first laminating assembly.
The cutting assembly comprises a second push rod 201, a third fixing plate 202, a first cutting machine 203, a first spring rod 204, a first limiting ball 205, a fourth connecting plate 206, a first limiting plate 207, a second fixing block 208, a second spring rod 209, a first pressure rod 2010, a first spring ball 2011, a second supporting plate 2012, a third guide rail 2013 and a fifth moving block 2014; the second moving block 108 is connected with a second push rod 201 through a bolt; a second support plate 2012 is fixedly connected to the telescopic end of the second push rod 201; the second support plate 2012 is bolted with a third guide rail 2013; the third guide rail 2013 is slidably connected with a fifth moving block 2014; the fifth moving block 2014 is fixedly connected with a third fixing plate 202; the third fixing plate 202 is bolted with a first cutting machine 203; two first spring rods 204 are fixedly connected to the third fixing plate 202; the telescopic ends of the two first spring rods 204 are respectively fixedly connected with a first limiting ball 205, and the first limiting ball 205 is provided with a notch 205a; the third fixing plate 202 is fixedly connected with a fourth connecting plate 206; the fourth connecting plate 206 is fixedly connected with a first limiting plate 207; a second fixing block 208 is welded on the first limiting plate 207; two second spring rods 209 are fixedly connected to the third fixing plate 202; the telescopic ends of the two second spring rods 209 are connected with a first pressure rod 2010 in a co-rotating manner; the first pressure lever 2010 is fixedly connected with a plurality of first spring balls 2011.
The first attaching component comprises a third spring rod 211, a second limiting ball 212, a fifth connecting plate 213, a fourth spring rod 214, a round ball 215 and a fifth spring rod 216; a third spring rod 211 is fixedly connected to the third fixing plate 202; the telescopic end of the third spring rod 211 is fixedly connected with a second limiting ball 212; a fixed end of the third spring rod 211 is fixedly connected with a fifth connecting plate 213; the fifth connecting plate 213 is rotatably connected with a fourth spring rod 214, and a torsion spring is arranged between the fourth spring rod 214 and the fifth connecting plate 213; the telescopic end of the fourth spring rod 214 is fixedly connected with a round ball 215; the fixed end of the second limiting ball 212 is hinged with a fifth spring rod 216, and the telescopic end of the fifth spring rod 216 is rotatably connected with the telescopic end of the fourth spring rod 214; the round ball 215 moves downward and rotates counterclockwise from the front to the rear, so that the incomplete first edge 3a of the aluminum honeycomb core 3 moves toward the inner wall of the right side of the panel 2, and the incomplete first edge 3a is tightly attached to the inner wall of the right side of the panel 2.
The second cutting system comprises a third push rod 301, a fourth fixing plate 302, a sixth spring rod 303, a second pressure rod 304, a second spring ball 305, a sixth connecting plate 306, a fifth fixing plate 307, a second cutting machine 308, a seventh spring rod 309, a third limiting ball 3010, a second limiting plate 3011 and a third fixing block 3012; the third moving block 109 is connected with a third push rod 301 through a bolt; a fourth fixing plate 302 is fixedly connected to the telescopic end of the third push rod 301; the fourth fixing plate 302 is connected with an adjusting system; two sixth spring rods 303 are fixedly connected to the fourth fixing plate 302; the telescopic ends of the two sixth spring rods 303 are connected with a second pressure rod 304 in a co-rotating manner; a plurality of second spring balls 305 are fixedly connected to the second pressure lever 304; a sixth connecting plate 306 is fixedly connected to the fourth fixing plate 302; a fifth fixing plate 307 is fixedly connected to the sixth connecting plate 306; the fifth fixing plate 307 is bolted with a second cutter 308; two seventh spring rods 309 are fixedly connected to the fifth fixing plate 307; the telescopic ends of the two seventh spring rods 309 are fixedly connected with a third limiting ball 3010 respectively; the sixth connecting plate 306 is fixedly connected with a second limiting plate 3011; the second stopper 3011 is welded with a third fixing block 3012.
The adjusting system comprises an adjusting component and a second fitting component; the fourth fixing plate 302 is connected with an adjusting component; the adjusting component is connected with a second fitting component.
The adjusting component comprises a second guide rail 401, a ninth spring rod 407, a third pressure rod 408, an air bag 409 and an adjusting component; the fourth fixing plate 302 is bolted with a second guide rail 401; the second guide rail 401 is slidably connected with two adjusting components which are distributed front and back; the adjusting component is connected with a second laminating component; two ninth spring rods 407 are fixedly connected to the fourth fixing plate 302; the telescopic ends of the two ninth spring rods 407 are connected with a third pressure rod 408 in a rotating way; two ends of the third compression bar 408 are fixedly connected with an air bag 409 respectively; the forward adjusting component consists of a fourth moving block 402, an electric pick 403, a sixth fixing plate 404, an eighth spring rod 405 and a fourth limiting ball 406; the second guide rail 401 is connected with a fourth moving block 402 in a sliding manner; the fourth moving block 402 is connected with an electric pick 403 through bolts; a sixth fixing plate 404 is fixedly connected to the pick head of the electric pick 403; two eighth spring rods 405 are fixedly connected to the sixth fixing plate 404; the telescopic ends of the two eighth spring rods 405 are respectively fixedly connected with a fourth limiting ball 406; the sixth fixing plate 404 is connected with a second attaching assembly; the bulb heads of the fifth limiting ball 412 and the fourth limiting ball 406 drive the honeycomb aluminum core 3 to horizontally reciprocate through the pick head of the electric pick 403, so that the position of the honeycomb aluminum core 3 on the panel 2 is adjusted, the honeycomb aluminum core 3 is uniformly distributed in the panel 2, and each hole edge of the honeycomb aluminum core 3 can be coated with the adhesive.
The second attaching component comprises four attaching parts; the attaching component comprises a tenth spring rod 411, a fifth limiting ball 412, a seventh connecting plate 413, an eleventh spring rod 414, a hemisphere 415, a third spring ball 416 and a twelfth spring rod 417; a tenth spring rod 411 is fixedly connected to the sixth fixing plate 404; a fifth limiting ball 412 is fixedly connected to the telescopic end of the tenth spring rod 411; a seventh connecting plate 413 is fixedly connected to the fixed end of the tenth spring rod 411; the seventh connecting plate 413 is rotatably connected with an eleventh spring rod 414, and a torsion spring is arranged between the eleventh spring rod 414 and the seventh connecting plate 413; the telescopic end of the eleventh spring rod 414 is rotatably connected with two hemispheres 415; a plurality of third spring balls 416 are fixedly connected to the two hemispheres 415 respectively; a twelfth spring rod 417 is fixedly connected to the fixed end of the fifth limiting ball 412, and the telescopic end of the twelfth spring rod 417 is rotatably connected to the telescopic end of the eleventh spring rod 414; the second edge 3b holding the aluminum honeycomb core 3 is pulled in the direction of approaching the inner walls of both sides of the panel 2 by rotating in the direction of approaching the inner walls of both sides of the panel 2 while moving downward by the hemisphere 415 and the third spring ball 416, so that both sides of the aluminum honeycomb core 3 are closely adhered to the inner walls of both sides of the panel 2.
Second limiting plate 3011 and first limiting plate 207 are the arc setting, make the burr bending on the first edge 3a of honeycomb aluminum core 3, push first edge 3a in the panel 2 to make honeycomb aluminum core 3 fall into in the panel 2.
The squeegee 114 is made of rubber so as to apply an adhesive to the left and right inner side walls of the panel 2.
The first edge 3a of the honeycomb aluminum core 3 processed by the device is an edge parallel to the cutter of the first cutting machine 203, the first edge 3a is an edge inclined to the cutter of the second cutting machine 308, when the device is used, the high-temperature-resistant metal composite plate production and processing equipment is placed on a horizontal ground, then the running state of the equipment is checked and adjusted manually, the power supply is switched on, the equipment is controlled to run, and then the panel 2 is placed between the two positioning plates 1a on the workbench 1 manually;
then, the first guide rail 102 is controlled to enable the first moving block 103 to drive the connected components to move leftwards until the glue injection hopper 107 is positioned above the right side of the panel 2, then, the first push rod 104 is controlled to stretch and retract to enable the mounting plate 105 to drive the connected components to move downwards until the scraping plate 114 contacts the bottom in the panel 2, and the second rotating rod 1110 is tightly attached to the front inner side wall and the rear inner side wall of the panel 2;
then, controlling an external pump to start, sending the adhesive into the glue injector 106, then controlling the glue injector 106 to start, so that the adhesive falls onto the panel 2 from the glue injection hopper 107, and meanwhile, controlling the first guide rail 102 to enable the first moving block 103 to drive the connected components to move leftwards, wherein in the process, the scraper 114 made of rubber keeps an inclined state under the action of the torsion spring and uniformly coats the adhesive falling onto the panel 2 by scraping the adhesive falling onto the panel 2;
in the process, as the second rotating rod 1110 is tightly attached to the front inner side wall and the rear inner side wall of the panel 2, when the second rotating rod 1110 moves leftwards along with the scraping plate 114, the second rotating rod 1110 and the scraping strip 1111 rotate on the inner side wall of the panel 2 through the friction force between the wheels on the second rotating rod 1110 and the inner side wall of the panel 2, in the process, the scraping plate 114 can scrape more adhesive to the front side and the rear side of the panel 2 due to the fact that the bottom of the scraping plate 114 is thick in the middle and thin in the two sides, at the moment, the adhesive accumulated on the front inner side wall and the rear inner side wall of the panel 2 is upwards transported to the second rotating rod 1110 through the rotating spiral scraping strip 1111, and the wheels on the second rotating rod 1110 are attached to the inner side wall of the panel 2 to rotate so as to uniformly coat the adhesive on the front inner side wall and the rear inner side wall of the panel 2;
then, as the first guide rail 102 makes the first moving block 103 drive the connected component to move leftward continuously until the left third connecting plate 118 contacts the seventh fixing plate 1b on the workbench 1, and the scraper 114 contacts the left inner side wall of the panel 2, at this time, the end 118a of the left third connecting plate 118 rotates downward under the limiting action of the arc-shaped seventh fixing plate 1b, so that the second connecting plate 117 drives the rotating plate 113 and the connected component to rotate upward through the first connecting plate 116, and the rotating plate 113 drives the scraper 114 made of rubber material to smear the adhesive on the panel 2 onto the left inner side wall of the panel 2, and similarly, when the first guide rail 102 makes the first moving block 103 drive the connected component to move rightward, the rotating plate 113 on the right side drives the scraper 114 made of rubber material to smear the adhesive on the panel 2 onto the right inner side wall of the panel 2;
then, manually placing the honeycomb aluminum core 3 on the panel 2 coated with the adhesive, and enabling the rear side of the honeycomb aluminum core 3 to be flush with the rear side wall of the panel 2, and the left side of the honeycomb aluminum core 3 to be flush with the left side wall of the panel 2, wherein redundant honeycomb aluminum cores 3 are arranged on the right side and the front side of the panel 2;
subsequently, the first guide rail 102 is controlled to enable the second moving block 108 to drive the connected part to move rightwards until the first cutting machine 203 is positioned above the right front side of the panel 2, and meanwhile, the first guide rail 102 is controlled to enable the third moving block 109 to drive the connected part to move rightwards until the second cutting machine 308 is positioned above the left front side of the panel 2;
then, the second push rod 201 makes the second support plate 2012 drive the connected components to move downwards until the first cutting machine 203 contacts the excessive cellular aluminum cores 3 on the right side wall of the panel 2, and then controls the third guide rail 2013 to make the fifth moving block 2014 drive the connected components to move backwards, and at the same time controls the first cutting machine 203 to start, and cuts off the excessive cellular aluminum cores 3 on the right side of the panel 2 through the first cutting machine 203;
in the process, the first cutting machine 203 generates backward extrusion force on the cellular aluminum core 3 with the porous structure when moving backward for cutting, so that the cellular aluminum core 3 is deformed, at the moment, the ball head of the first limiting ball 205 falls into the hole of the cellular aluminum core 3 under the action of self gravity and the telescopic matching of the first spring rod 204, so that the cellular aluminum core 3 is limited, the cellular aluminum core 3 in front of the first cutting machine 203 is prevented from being deformed when being cut, and in the process, when the first limiting ball 205 moves to the first edge 3a, the notch 205a is attached to the first edge 3a, so that the cellular aluminum core 3 is continuously limited;
in the process, the cutter of the first cutting machine 203 can make the first edge 3a generate more burrs, so that the first edge 3a is hung on the side edge of the panel 2, and the honeycomb aluminum core 3 cannot fall into the panel 2, at the moment, the cut honeycomb aluminum core 3 is pushed away from the panel 2 by the wedge-shaped second fixing block 208, the cut honeycomb aluminum core 3 is prevented from being hung on the side edge of the panel 2, the burrs on the first edge 3a of the honeycomb aluminum core 3 are pushed by the arc-shaped first limiting plate 207 to be bent, the first edge 3a is pushed into the panel 2, so that the honeycomb aluminum core 3 falls into the panel 2, and the first pressure rod 2010 and the first spring ball 2011 press the cut honeycomb aluminum core 3 into the panel 2 under the action of the second spring rod 209;
in the process, the ball head of the second limiting ball 212 falls into the hole of the honeycomb aluminum core 3 under the action of the self gravity and the telescopic cooperation of the third spring rod 211, so that the honeycomb aluminum core 3 is limited, the honeycomb aluminum core 3 in front of the first cutting machine 203 is prevented from being deformed during cutting, when the second limiting ball 212 falls into the hole of the honeycomb aluminum core 3 downwards, the fixed end of the fifth spring rod 216 moves downwards along with the fixed end of the fifth spring rod 216, the fifth spring rod 216 is compressed, the telescopic end of the fourth spring rod 214 and the round ball 215 are driven to move downwards and simultaneously rotate anticlockwise from a front view angle to a back view angle through the telescopic end of the fifth spring rod 216, the incomplete first edge 3a of the honeycomb aluminum core 3 moves towards the direction close to the right inner wall of the panel 2 through the rotation of the round ball 215, and the incomplete first edge 3a is enabled to be tightly attached to the right inner wall of the panel 2;
meanwhile, the third push rod 301 is controlled to stretch and retract so that the fourth fixing plate 302 drives the connected part to move downwards until the second cutting machine 308 contacts the redundant aluminum honeycomb cores 3 on the front side of the panel 2, then the first guide rail 102 is controlled so that the third moving block 109 drives the connected part to move rightwards, and meanwhile, the second cutting machine 308 is controlled to start, and the redundant aluminum honeycomb cores 3 on the front side of the panel 2 are cut off through the second cutting machine 308;
in the process, the second press rod 304 and the second spring ball 305 press down the honeycomb aluminum core 3 on the panel 2 under the action of the sixth spring rod 303 to prevent the honeycomb aluminum core 3 from being tilted by the extrusion force of the second cutting machine 308 in the cutting process, meanwhile, the second spring balls 305 spirally distributed at the two ends of the second press rod 304 pull the two sides of the honeycomb aluminum core 3 to the front and back sides in the rotating process, so that the two sides of the honeycomb aluminum core 3 are tightly attached to the front and back inner side walls of the panel 2, and meanwhile, the second press rod 304 presses down the honeycomb aluminum core 3 to prevent the honeycomb aluminum core 3 from being deformed by the rightward extrusion force of the second cutting machine 308;
in the process, the second cutting machine 308 generates extrusion force on the cellular aluminum core 3 with the porous structure when moving rightwards for cutting, so that the cellular aluminum core 3 deforms, and at the moment, the ball head of the third limiting ball 3010 falls into the hole of the cellular aluminum core 3 under the action of self gravity and the telescopic matching of the seventh spring rod 309, so that the cellular aluminum core 3 is limited, and the front side of the cellular aluminum core 3 is prevented from deforming during cutting;
in the process, the cut honeycomb aluminum core 3 is pushed away from the panel 2 by the wedge-shaped third fixing block 3012, so that the cut honeycomb aluminum core 3 is prevented from being hung on the side edge of the panel 2, and the incomplete second edge 3b of part of the honeycomb aluminum core 3 is pushed into the panel 2 by the arc-shaped second limiting plate 3011, so that the incomplete second edge 3b is prevented from escaping;
in the process, the second guide rail 401 is controlled to enable the fourth moving block 402 to drive the connected part to move towards the middle of the honeycomb aluminum core 3, at the moment, the ball head of the fourth limiting ball 406 falls into the hole of the honeycomb aluminum core 3 under the action of self gravity and the telescopic matching of the eighth spring rod 405, so that the limiting effect is generated on the honeycomb aluminum core 3, at the moment, the ball head of the fifth limiting ball 412 falls into the hole of the honeycomb aluminum core 3 under the action of self gravity and the telescopic matching of the tenth spring rod 411, so that the limiting effect is generated on the honeycomb aluminum core 3;
when the fifth limiting ball 412 falls down into the hole of the aluminum honeycomb core 3, the fixed end of the twelfth spring bar 417 moves downward along with the fifth limiting ball, so that the twelfth spring bar 417 is compressed, and then the telescopic end of the twelfth spring bar 417 drives the telescopic end of the eleventh spring bar 414, the hemisphere 415 and the third spring ball 416 to move downward and rotate towards the direction close to the inner walls of the two sides of the panel 2, and the second edge 3b clamping the aluminum honeycomb core 3 is pulled towards the direction close to the inner walls of the two sides of the panel 2 through the rotation of the hemisphere 415 and the third spring ball 416, so that the two sides of the aluminum honeycomb core 3 are tightly attached to the inner walls of the two sides of the panel 2;
meanwhile, the electric pick 403 is controlled to be started, the pick head of the electric pick 403 drives the connected components to horizontally reciprocate, so that after the ball heads of the fifth limiting ball 412 and the fourth limiting ball 406 drop into the holes of the honeycomb aluminum core 3, the ball heads of the fifth limiting ball 412 and the fourth limiting ball 406 drive the honeycomb aluminum core 3 to horizontally reciprocate, the position of the honeycomb aluminum core 3 on the panel 2 is adjusted, the honeycomb aluminum core 3 is uniformly distributed in the panel 2 as a whole, each hole edge of the honeycomb aluminum core 3 can be coated with an adhesive, and two sides of the honeycomb aluminum core 3 are attached to the panel 2;
in this process, the honeycomb aluminum core 3 of the position of adjusting is pushed down under the effect of ninth spring lever 407 when third depression bar 408 and gasbag 409 remove right, make its whole honeycomb aluminum core 3 of closely laminating, avoid honeycomb aluminum core 3 to escape panel 2, at this moment, gasbag 409 carries on spacingly to honeycomb aluminum core 3's both sides edge, make honeycomb aluminum core 3's both sides edge and panel 2's both sides edge parallel and level, because gasbag 409 has deformability, can avoid honeycomb aluminum core 3's both sides edge to take place deformation.
The above embodiments are only for illustrating the technical idea and features of the present invention, and the purpose of the present invention is to enable those skilled in the art to understand the content of the present invention and implement the present invention, and not to limit the protection scope of the present invention by this means. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.
Claims (10)
1. A production and processing device for high-temperature resistant metal composite plates comprises a workbench (1); the workbench (1) is fixedly connected with two positioning plates (1 a); two seventh fixing plates (1 b) are fixedly connected to the left side and the right side of the workbench (1) respectively; the method is characterized in that: the automatic cutting machine also comprises a gluing system, a first cutting system, a second cutting system and an adjusting system; a gluing system is arranged above the inner part of the workbench (1); the gluing system is connected with a first cutting system, and the first cutting system is positioned on the left of the gluing system; the gluing system is connected with a second cutting system, and the second cutting system is positioned on the left of the first cutting system; the second cutting system is connected with an adjusting system; the gluing system is used for coating an adhesive on the panel (2); the first cutting system is used for cutting off the redundant honeycomb aluminum core (3) on the right side after the honeycomb aluminum core (3) is placed on the panel (2); the second cutting system is used for cutting off the redundant honeycomb aluminum core (3) at the front side after the honeycomb aluminum core (3) is put on the panel (2); the adjusting system is used for adjusting the position of the honeycomb aluminum core (3) on the panel (2).
2. The production and processing equipment for the high-temperature-resistant metal composite plate as claimed in claim 1, wherein the glue spreading system is composed of a glue injection assembly and a flat laying assembly; a glue injection assembly is arranged above the inner part of the workbench (1); the glue injection assembly is connected with a flat laying assembly; the flat laying component is used for uniformly laying the adhesive on the panel (2); the glue injection assembly comprises a first supporting plate (101), a first guide rail (102), a first moving block (103), a first push rod (104), an installation plate (105), a glue injector (106), a glue injection hopper (107), a second moving block (108) and a third moving block (109); a first supporting plate (101) is arranged above the inner part of the workbench (1); a first guide rail (102) is fixedly connected with the first supporting plate (101); the first guide rail (102) is connected with a first moving block (103) in a sliding manner; a first push rod (104) is fixedly connected with the first moving block (103); the telescopic end of the first push rod (104) is fixedly connected with a mounting plate (105); the mounting plate (105) is fixedly connected with a glue injector (106); a glue injection opening of the glue injector (106) is communicated with a glue injection hopper (107); the first guide rail (102) is connected with a second moving block (108) in a sliding mode, and the second moving block (108) is located on the left of the first moving block (103); the second moving block (108) is connected with a first cutting system; the first guide rail (102) is connected with a third moving block (109) in a sliding mode, and the third moving block (109) is located on the left of the second moving block (108); the third moving block (109) is connected with a second cutting system; the glue injector (106) is used for injecting the adhesive onto the panel (2).
3. The apparatus of claim 2, wherein the lay-up assembly comprises two lay-up members disposed side-to-side; the glue injection hopper (107) is connected with two horizontally distributed flat laying components; the right flat laying component consists of a first fixed block (111), a first rotating rod (112), a rotating plate (113), a scraping plate (114), a first fixed plate (115), a first connecting plate (116), a second connecting plate (117), a third connecting plate (118), a second fixed plate (119), a second rotating rod (1110) and a scraping strip (1111); the glue injection hopper (107) is fixedly connected with two first fixed blocks (111); the two first fixing blocks (111) are connected with a first rotating rod (112) in a co-rotating manner; the first rotating rod (112) is fixedly connected with a rotating plate (113), and a torsion spring is arranged between the rotating plate (113) and the first fixed block (111); a scraper (114) is fixedly connected with the rotating plate (113); two first fixing plates (115) are fixedly connected with the glue injection hopper (107); two first connecting plates (116) are fixedly connected with the rotating plate (113); the two first connecting plates (116) are respectively and movably connected with a second connecting plate (117); the two second connecting plates (117) are respectively and rotatably connected with a third connecting plate (118), and the third connecting plates (118) are rotatably connected with the first fixing plate (115); the two third connecting plates (118) are respectively provided with an end part (118 a), and the end parts (118 a) and the seventh fixing plate (1 b) are mutually matched; two second fixing plates (119) are fixedly connected to the rotating plate (113); the two second fixing plates (119) are respectively connected with a second rotating rod (1110) in a rotating way; the two second rotating rods (1110) are respectively connected with a scraping strip (1111) in a rotating way; two ends of the two second rotating rods (1110) are respectively connected with a wheel in a rotating way; the scraper (114) is used for evenly spreading the adhesive on the panel (2).
4. The production and processing equipment for the high-temperature-resistant metal composite plate as claimed in claim 3, wherein the first cutting system comprises a cutting assembly and a first attaching assembly; the second moving block (108) is connected with a cutting component; the cutting assembly is connected with a first laminating assembly; the cutting assembly is used for cutting off the redundant honeycomb aluminum core (3) on the right side after the honeycomb aluminum core (3) is placed on the panel (2); the first attaching component is used for attaching the first edge (3 a) to the panel (2) after cutting off the redundant honeycomb aluminum core (3).
5. The production and processing equipment for the high-temperature-resistant metal composite plates as claimed in claim 4, wherein the cutting assembly comprises a second push rod (201), a third fixing plate (202), a first cutting machine (203), a first spring rod (204), a first limiting ball (205), a fourth connecting plate (206), a first limiting plate (207), a second fixing block (208), a second spring rod (209), a first pressure rod (2010), a first spring ball (2011), a second supporting plate (2012), a third guide rail (2013) and a fifth moving block (2014); a second push rod (201) is fixedly connected with the second moving block (108); a second support plate (2012) is fixedly connected to the telescopic end of the second push rod (201); a third guide rail (2013) is fixedly connected to the second support plate (2012); the third guide rail (2013) is connected with a fifth moving block (2014) in a sliding mode; a third fixed plate (202) is fixedly connected to the fifth moving block (2014); a first cutting machine (203) is fixedly connected with the third fixing plate (202); two first spring rods (204) are fixedly connected to the third fixing plate (202); the telescopic ends of the two first spring rods (204) are respectively fixedly connected with a first limiting ball (205), and the first limiting ball (205) is provided with a notch (205 a); a fourth connecting plate (206) is fixedly connected to the third fixing plate (202); the fourth connecting plate (206) is fixedly connected with a first limiting plate (207); a second fixed block (208) is fixedly connected with the first limiting plate (207); two second spring rods (209) are fixedly connected to the third fixing plate (202); the telescopic ends of the two second spring rods (209) are connected with a first pressure rod (2010) in a co-rotating manner; a plurality of first spring balls (2011) are fixedly connected with the first pressure lever (2010); the first cutting machine (203) is used for cutting off the excessive honeycomb aluminum core (3) on the right side after the honeycomb aluminum core (3) is put on the panel (2).
6. The production and processing equipment for the high-temperature-resistant metal composite plate as claimed in claim 5, wherein the first attaching assembly comprises a third spring rod (211), a second limiting ball (212), a fifth connecting plate (213), a fourth spring rod (214), a round ball (215) and a fifth spring rod (216); a third spring rod (211) is fixedly connected with the third fixing plate (202); the telescopic end of the third spring rod (211) is fixedly connected with a second limiting ball (212); a fixed end of the third spring rod (211) is fixedly connected with a fifth connecting plate (213); the fifth connecting plate (213) is rotatably connected with a fourth spring rod (214), and a torsion spring is arranged between the fourth spring rod (214) and the fifth connecting plate (213); a telescopic end of the fourth spring rod (214) is fixedly connected with a round ball (215); the fixed end of the second limiting ball (212) is movably connected with a fifth spring rod (216), and the telescopic end of the fifth spring rod (216) is rotatably connected with the telescopic end of the fourth spring rod (214); the round ball (215) is used for cutting off the left-side redundant honeycomb aluminum core (3) and then attaching the first edge (3 a) to the panel (2).
7. The production and processing equipment for the high-temperature-resistant metal composite plates according to claim 6, wherein the second cutting system comprises a third push rod (301), a fourth fixing plate (302), a sixth spring rod (303), a second pressure rod (304), a second spring ball (305), a sixth connecting plate (306), a fifth fixing plate (307), a second cutting machine (308), a seventh spring rod (309), a third limiting ball (3010), a second limiting plate (3011) and a third fixing block (3012); a third push rod (301) is fixedly connected to the third moving block (109); a fourth fixing plate (302) is fixedly connected to the telescopic end of the third push rod (301); the fourth fixing plate (302) is connected with an adjusting system; two sixth spring rods (303) are fixedly connected to the fourth fixing plate (302); the telescopic ends of the two sixth spring rods (303) are jointly and rotatably connected with a second pressure rod (304); a plurality of second spring balls (305) are fixedly connected to the second pressure lever (304); a sixth connecting plate (306) is fixedly connected to the fourth fixing plate (302); a fifth fixing plate (307) is fixedly connected to the sixth connecting plate (306); a second cutting machine (308) is fixedly connected with the fifth fixing plate (307); two seventh spring rods (309) are fixedly connected to the fifth fixing plate (307); the telescopic ends of the two seventh spring rods (309) are respectively fixedly connected with a third limiting ball (3010); a second limiting plate (3011) is fixedly connected to the sixth connecting plate (306); a third fixed block (3012) is fixedly connected to the second limiting plate (3011); the second cutter (308) is used for cutting off the excessive honeycomb aluminum core (3) on the front side after the honeycomb aluminum core (3) is put on the panel (2).
8. The production and processing equipment for the high-temperature-resistant metal composite plate as claimed in claim 7, wherein the adjusting system comprises an adjusting assembly and a second fitting assembly; the fourth fixing plate (302) is connected with an adjusting component; the adjusting assembly is connected with a second laminating assembly; the adjusting component is used for adjusting the position of the honeycomb aluminum core (3) on the panel (2); the second attaching assembly is used for attaching two sides of the honeycomb aluminum core (3) to the panel (2).
9. The production and processing equipment for the high-temperature-resistant metal composite plate is characterized in that the adjusting assembly comprises a second guide rail (401), a ninth spring rod (407), a third pressure rod (408), an air bag (409) and an adjusting component; a second guide rail (401) is fixedly connected to the fourth fixing plate (302); the second guide rail (401) is connected with two adjusting components which are distributed in the front-back direction in a sliding way; the adjusting component is connected with a second laminating component; two ninth spring rods (407) are fixedly connected to the fourth fixing plate (302); the telescopic ends of the two ninth spring rods (407) are connected with a third pressure rod (408) in a rotating way; two ends of the third pressure lever (408) are fixedly connected with an air bag (409) respectively; the front adjusting component consists of a fourth moving block (402), an electric pick (403), a sixth fixing plate (404), an eighth spring rod (405) and a fourth limiting ball (406); a fourth moving block (402) is connected to the second guide rail (401) in a sliding manner; an electric pick (403) is fixedly connected to the fourth moving block (402); a sixth fixing plate (404) is fixedly connected to the pick head of the electric pick (403); two eighth spring rods (405) are fixedly connected to the sixth fixing plate (404); the telescopic ends of the two eighth spring rods (405) are respectively fixedly connected with a fourth limiting ball (406); the sixth fixing plate (404) is connected with a second laminating component; the electric pick (403) is used for adjusting the position of the honeycomb aluminum core (3) on the panel (2).
10. The apparatus for manufacturing and processing a refractory metal composite panel according to claim 9, wherein the second bonding assembly comprises four bonding members; the attaching component comprises a tenth spring rod (411), a fifth limiting ball (412), a seventh connecting plate (413), an eleventh spring rod (414), a hemisphere (415), a third spring ball (416) and a twelfth spring rod (417); a tenth spring rod (411) is fixedly connected to the sixth fixing plate (404); a telescopic end of the tenth spring rod (411) is fixedly connected with a fifth limiting ball (412); a seventh connecting plate (413) is fixedly connected to the fixed end of the tenth spring rod (411); an eleventh spring rod (414) is rotatably connected to the seventh connecting plate (413), and a torsion spring is arranged between the eleventh spring rod (414) and the seventh connecting plate (413); the telescopic end of the eleventh spring rod (414) is rotatably connected with two hemispheres (415); a plurality of third spring balls (416) are fixedly connected to the two hemispheres (415) respectively; a twelfth spring rod (417) is fixedly connected to the fixed end of the fifth limiting ball (412), and the telescopic end of the twelfth spring rod (417) is rotatably connected with the telescopic end of the eleventh spring rod (414); the hemisphere 415 is used for attaching both sides of the honeycomb aluminum core 3 to the face plate 2.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202310089415.XA CN115891394B (en) | 2023-02-09 | 2023-02-09 | Production and processing equipment for high-temperature-resistant metal composite plate |
Applications Claiming Priority (1)
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