CN107571365B - Door pocket board processing lines - Google Patents
Door pocket board processing lines Download PDFInfo
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- CN107571365B CN107571365B CN201710999153.5A CN201710999153A CN107571365B CN 107571365 B CN107571365 B CN 107571365B CN 201710999153 A CN201710999153 A CN 201710999153A CN 107571365 B CN107571365 B CN 107571365B
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Abstract
The invention relates to the technical field of door pocket plate processing, in particular to a door pocket plate processing production line which comprises a feeding device, two sets of vertical plate pocket processing devices, a top plate pocket processing device and a discharging device, wherein the feeding device conveys various pocket plate blanks into respective processing devices, each processing device is connected with the discharging device, and the discharging device outputs the door pocket plate. In addition, the door pocket plate processing production line realizes automatic production, and is simple to control and convenient to operate.
Description
Technical Field
The invention relates to the technical field of door pocket plate processing, in particular to a door pocket plate processing production line.
Background
At present, in the production and processing process of door pocket board, because the processing requirement of roof and curb plate is different to the hinge curb plate in the curb plate is also different with lock curb plate processing requirement, need use different equipment to process respectively usually, and the processing equipment integration level is not high, and the flow is difficult to coordinate, causes equipment, place, time and energy extravagant, and influences the product quality of door pocket board.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a door pocket plate processing production line which can solve the problems in the prior art, realize automatic continuous processing, effectively improve the production efficiency and improve the product quality.
In order to solve the technical problem, the application discloses a door pocket board processing lines, including feed arrangement, two riser sleeve processingequipment, roof cover processingequipment and discharging device, feed arrangement carries into respective processingequipment with all kinds of lagging blanks, each processingequipment is connected with discharging device, by discharging device exports the door pocket board.
The feeding device comprises a feeding conveying platform assembly and a material grabbing lifting conveyor arranged on the feeding conveying platform assembly, the feeding conveying platform assembly is connected with a conveying platform in the previous working procedure, and the vertical plate sleeves are conveyed to the two vertical plate sleeve processing devices to be processed from the lower layer of the feeding conveying platform assembly; the top plate sleeve is conveyed to the upper conveying table by the material grabbing lifting conveyor, passes through the upper high conveying table of the vertical plate sleeve processing device, is conveyed to the lower conveying table by the material grabbing lifting conveyor, and enters the top plate sleeve processing device for processing.
The discharging device comprises a discharging conveying table assembly, the discharging conveying table assembly is respectively connected with the output tables of the two vertical plate sleeve processing devices and the top plate sleeve processing device, a vacuum rotary conveyor is arranged above the output tables of the two vertical plate sleeve processing devices, and the end faces of 45 degrees are on the same side when the vertical plate sleeves are output.
Further, two riser cover processingequipment include lock side lagging processingequipment and hinge side lagging processingequipment, lock side lagging processingequipment includes the compound nailer of lock side, carry the platform to carry the riser cover to the compound nailer of lock side, spout white latex to the blend stop inslot simultaneously, lock side blend stop storehouse goes out a corresponding blend stop, carry into the compound nailer location of lock side, the pressfitting nailing, advance numerical control lock side scale saw and accomplish riser cover scale, advance numerical control riser cover drilling machine and accomplish 45 degrees side slash face and draw hole processing, advance numerical control lock tongue groove processing machine and accomplish locking plate, lock tongue groove processing, get into the discharging device ejection of compact through riser cover delivery side.
Further, hinge side lagging processingequipment includes the compound nailer of hinge side, carries the riser cover to the compound nailer of hinge side by double-deck delivery platform lower floor, spouts white latex to the parting stop inslot simultaneously, hinge side parting stop storehouse goes out a corresponding parting stop, carries into the compound nailer location of hinge side, the pressfitting nailing, advance numerical control hinge side scale saw and accomplish riser cover scale, advance numerical control riser cover drilling machine and accomplish 45 degrees side bevel approach hole processing, advance numerical control hinge groove processing machine and accomplish hinge processing, get into the discharging device ejection of compact through riser cover delivery table.
Further, roof cover processingequipment includes the compound nailer of top cover, warp the high-rise transport platform in riser cover processingequipment upper portion, grab material lifting conveyor, lower part transport platform carry the roof cover to the compound nailer of roof spouts white latex to the fender inslot simultaneously, and the fixed set fender strip storehouse goes out a corresponding fender strip, carries into the compound nailer location of top cover, the pressfitting nailing, advances numerical control top cover scale saw and accomplishes roof cover scale, advances numerical control roof cover drilling machine and accomplishes 45 degrees side slope induction hole processing, gets into the discharging device ejection of compact through roof cover delivery board.
Furthermore, the rear parts of the lock side composite nailing machine, the hinge side composite nailing machine and the top sleeve composite nailing machine are provided with patching devices for patching the tail end positions of the vertical plate sleeve and the top plate sleeve.
Further, the method also comprises a lateral bealock route and a top bealock route, wherein the lateral bealock route is the same as a vertical plate sleeve route of the vertical plate sleeve processing device; and the path of the bealock is the same as the path of the top plate sleeve processing device.
Compared with the prior art, the application can obtain the following technical effects:
the door pocket plate processing production line comprises a feeding device, two sets of vertical plate sleeve processing devices, a top plate sleeve processing device and a discharging device, wherein the feeding device conveys various pocket plate blanks into the respective processing devices, each processing device is connected with the discharging device, and the discharging device outputs the door pocket plates. In addition, the door pocket plate processing production line realizes automatic production, and is simple to control and convenient to operate.
Drawings
FIG. 1 is a schematic structural diagram of the present invention.
FIG. 2 is a schematic view of the structure of a processed product of the present invention.
FIG. 3 is a process flow diagram of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-3, a door pocket plate processing production line, specifically, a front process of a pocket plate 51 is scanned and then sent to a first bidirectional conveying table 1, a lock side pocket plate enters a fourth bidirectional conveying table 33 through a third bidirectional conveying table 31, white latex is sprayed into a barrier groove, and then the lock side pocket plate enters a lock side composite nailing machine 34 to wait; a corresponding barrier strip 50 is discharged from the lock side barrier strip storage 39, the lock side composite nailing machine 34 is conveyed and positioned, the barrier strip is grabbed by a numerical control grab on the lock side composite nailing machine 34 and conveyed to the position of a sleeve plate barrier strip groove, pressing and nailing are carried out, the lock side composite nailing machine 34 is discharged, nails are supplemented at a proper position of the tail end of a workpiece, the lock side sleeve plate sizing is finished by a numerical control lock side sizing saw 36, 45-degree side inclined surface guide hole machining is finished by a second numerical control side sleeve drilling machine 35, the sleeve plate is conveyed into the first numerical control lock tongue groove machining machine 41 through the sixth two-way conveying table 38 and the seventh two-way conveying table 40 to finish lock cover sheet groove machining, the lock tongue groove machining is finished by the second numerical control lock tongue groove machining machine 42, and is conveyed into the eighth two-way conveying table 44, if 90 degrees are on the right side, the sleeve plate is discharged through the first one-way belt conveying table 45, the second one-way belt conveying table 46 and the ninth two-way conveying table 48; if 45 degrees are on the right side, the vacuum rotary conveyor 43 sucks up the workpiece, rotates 180 degrees and then places the workpiece on the ninth bidirectional conveying table 48 for discharging.
After the hinged side sleeve plate enters the first bidirectional conveying table 1, the lower layers of the hinged side sleeve plate pass through a first double-layer one-way belt conveying table 3, a second double-layer one-way belt conveying table 4, a third double-layer one-way belt conveying table 5, a fourth double-layer one-way belt conveying table 6, a fifth double-layer one-way belt conveying table 7, a sixth double-layer one-way belt conveying table 8 and a seventh double-layer one-way belt conveying table 9 and are waited by a lower layer of a first double-layer two-way conveying table 11 and a lower layer of a hinged side composite nailing machine 14, and white latex is sprayed into the barrier groove. A corresponding stop strip is output from the hinge side stop strip storage 12 and is conveyed to the hinge side composite nailing machine 14, the stop strip is grabbed by a numerical control gripper on the hinge side composite nailing machine 14 and is conveyed to the sleeve plate stop strip groove, composite nailing is carried out, the hinge side composite nailing machine 14 is output, and the tail end of the composite nailing machine is subjected to nail repairing at a proper position. A workpiece enters a numerical control hinge side sizing saw 16 for sizing through a second double-layer bidirectional conveying table 17, enters a first numerical control side sleeve drilling machine 13 for drilling a 45-degree surface guide hole, enters a first numerical control hinge groove processing machine 19 for processing a hinge groove at one end, enters a second numerical control hinge groove processing machine 22 for processing a hinge groove at the other end, and if 90 degrees are on the right side, a sleeve plate is discharged through a second unidirectional conveying table 47 and a ninth bidirectional conveying table 48; if 45 degrees are on the right side, the workpiece is stopped on the ninth bidirectional conveying table 48, sucked up by the vacuum rotary conveyor 43, rotated 180 degrees, and placed on the ninth bidirectional conveying table 48 for discharge.
Wherein, the jacking sleeve plate enters the first bidirectional conveying platform 1, is sucked up by the first material grabbing lifting conveyor 2 and is conveyed to the upper layer of the first double-layer unidirectional belt conveying platform 3, passes through the first double-layer unidirectional belt conveying platform 3, the second double-layer unidirectional belt conveying platform 4, the third double-layer unidirectional belt conveying platform 5, the fourth double-layer unidirectional belt conveying platform 6, the fifth double-layer unidirectional belt conveying platform 7, the sixth double-layer unidirectional belt conveying platform 8 and the seventh double-layer unidirectional belt conveying platform 9, passes through the upper layer of the first double-layer bidirectional conveying platform 11, passes through the hinge side composite nailing machine 14, the upper layer of the second double-layer bidirectional conveying platform 17 and the first high-layer unidirectional conveying platform 20, enters the second high-layer unidirectional conveying platform 24, is sucked up by the second material grabbing lifting conveyor 25, is placed on the first unidirectional conveying platform 27, the jacking sleeve composite nailing machine 15 waits, and sprays glue into the blocking strip groove at the same time, the jacking sleeve blocking strip warehouse 21 outputs a corresponding blocking strip, the stop strip is grabbed by a numerical control gripper on the top sleeve composite nailing machine 15 and is conveyed to the position of a stop strip groove of a sleeve plate of the top sleeve composite nailing machine 15, composite nailing is carried out, the top sleeve composite nailing machine 15 is ejected, nails are supplemented at a proper position of the tail end, a numerical control top sleeve sizing saw 29 is fed through a second bidirectional conveying table 28, holes are drilled at two ends of a numerical control top sleeve drilling machine 30, and discharging is carried out through a third unidirectional belt conveying table 49 and a ninth bidirectional conveying table 48.
Wherein, the lateral bealock path goes through a hinge lateral sleeve path, enters a first double-layer bidirectional conveying platform 11, then enters a numerical control hinge lateral sizing saw 16 for sizing through a hinge lateral composite nailing machine 14 and a second double-layer bidirectional conveying platform 17, enters a first numerical control lateral sleeve drilling machine 13 for drilling, and then is discharged through a first numerical control hinge slot processing machine 19, a second numerical control hinge slot processing machine 22, a second one-way conveying platform 47 and a ninth bidirectional conveying platform 48.
The top bealock path is moved through a top side sleeve path and moved by a high-rise conveying table, after entering a first double-layer bidirectional conveying table 11, the top bealock path is sucked up by a second material grabbing lifting conveyor 25 through a hinged side composite nailing machine 14, a second double-layer bidirectional conveying table 17, a first high-rise unidirectional conveying table 20 and a second high-rise unidirectional conveying table 24, placed on a first unidirectional conveying table 27, and then enters a numerical control top sleeve sizing saw 29 to be sized through a top sleeve composite nailing machine 15 and a second bidirectional conveying table 28, two ends of a numerical control top sleeve drilling machine 30 are drilled, and then the materials are discharged through a third unidirectional belt conveying table 49 and a ninth bidirectional conveying table 48.
In addition, in this embodiment, the above-mentioned numerical control fixed length saw: the cutting machine is divided into three fixed-length saws, namely a lock side fixed-length saw, a hinge side fixed-length saw and a top side fixed-length saw, wherein two ends of the lock side fixed-length saw and two ends of the hinge side fixed-length saw are respectively provided with a set of 45-degree saw and a set of 90-degree saw, and numerical control switching is carried out; two ends of the top side fixed length saw are respectively provided with a set of 45-degree saw. Calling out a processing program according to the scanning data, moving the movable end to a designated position, enabling the workpiece to enter, clamping the workpiece in width, lifting the workbench, pushing the workpiece to the upper fixed workbench, and simultaneously sawing the two ends.
Wherein, numerical control side cover drilling machine: and calling a machining program according to the scanning data, and drilling holes on the 45-degree surface vertically to the 45-degree surface. The two ends of the length of the device are configured identically, and the device is suitable for left and right door opening door covers. Numerical control top sleeve drilling machine: and calling a machining program according to the scanning data, and drilling holes on the 45-degree surface vertically to the 45-degree surface. Spraying glue in the sheathing board groove, wherein the glue is S-shaped glue lines, and white latex is used as glue.
The above description is only an embodiment of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement or the like made within the spirit and principle of the present application shall be included in the scope of the claims of the present application.
Claims (4)
1. The utility model provides a door pocket board processing lines, includes feed arrangement, two founds board cover processingequipment, a roof cover processingequipment and discharging device, feed arrangement carries into respective processingequipment with all kinds of lagging blanks, each processingequipment is connected with discharging device, by discharging device exports its characterized in that with the door pocket board:
the feeding device comprises a feeding conveying platform assembly and a material grabbing lifting conveyor arranged on the feeding conveying platform assembly, the feeding conveying platform assembly is connected with a previous working procedure conveying platform, and vertical plate sleeves are conveyed to the two vertical plate sleeve processing devices by the lower layer of the feeding conveying platform assembly to be processed; the top plate sleeve is conveyed to the upper-layer conveying table by the material grabbing lifting conveyor, passes through the upper-layer conveying table of the vertical plate sleeve processing device, is conveyed to the lower-layer conveying table by the material grabbing lifting conveyor, and enters the top plate sleeve processing device for processing;
the discharging device comprises a discharging conveying table assembly, the discharging conveying table assembly is respectively connected with the output tables of the two vertical plate sleeve processing devices and the top plate sleeve processing device, a vacuum rotary conveyor is arranged above the output tables of the two vertical plate sleeve processing devices, and the end faces of 45 degrees are ensured to be on the same side when the vertical plate sleeves are output;
the two vertical plate sleeve processing devices comprise a lock side sleeve plate processing device and a hinge side sleeve plate processing device, the lock side sleeve plate processing device comprises a lock side composite nailing machine, a conveying table conveys a vertical plate sleeve to the lock side composite nailing machine, white latex is sprayed into a barrier strip groove, a corresponding barrier strip is stored out from the lock side barrier strip, the lock side composite nailing machine is conveyed to be positioned, nailing is pressed, a numerical control lock side sizing saw is fed to complete vertical plate sleeve sizing, a numerical control vertical plate sleeve drilling machine is fed to complete 45-degree side inclined surface guide hole processing, a numerical control lock tongue groove processing machine is fed to complete lock cover plate and lock tongue groove processing, and the vertical plate sleeve output table is fed into a discharging device to be discharged;
roof cover processingequipment includes the compound nailer of top cover, warp the high-rise transport platform in riser cover processingequipment upper portion, grab material lifting conveyor, lower part transport platform carry the roof cover to the compound nailer of roof, spout white latex to the parting stop inslot simultaneously, the parting stop storehouse goes out a corresponding parting stop, carries into the compound nailer location of top cover, the pressfitting nailing, advance numerical control top cover sizing saw and accomplish roof cover scale, advance numerical control roof cover drilling machine and accomplish 45 degrees laterad lead hole processing, get into the discharging device ejection of compact through roof cover delivery outlet.
2. A door pocket plate processing line according to claim 1, characterized in that:
hinge side sleeve board processingequipment includes the compound nailer of hinge side, carries the riser cover to the compound nailer of hinge side by double-deck delivery platform lower floor, spouts white latex to the parting stop inslot simultaneously, hinge side parting stop storehouse goes out a corresponding parting stop, carries into the compound nailer location of hinge side, the pressfitting nailing, advance numerical control hinge side scale saw and accomplish riser cover scale, advance numerical control riser cover drilling machine and accomplish 45 degrees side slope guide hole processing, advance numerical control hinge groove processing machine and accomplish hinge processing, get into the discharging device ejection of compact through riser cover delivery station.
3. A door pocket plate processing line according to claim 2, characterized in that:
and the rear parts of the lock side composite nailing machine, the hinge side composite nailing machine and the top sleeve composite nailing machine are provided with patching devices for patching the tail ends of the vertical plate sleeve and the top plate sleeve.
4. The door pocket plate processing production line of claim 1, characterized by further comprising a lateral bealock route and a top bealock route, wherein the lateral bealock route is the same as a vertical plate pocket route of the vertical plate pocket processing device; and the path of the bealock is the same as the path of the top plate sleeve processing device.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201710999153.5A CN107571365B (en) | 2017-10-20 | 2017-10-20 | Door pocket board processing lines |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201710999153.5A CN107571365B (en) | 2017-10-20 | 2017-10-20 | Door pocket board processing lines |
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| CN107571365A CN107571365A (en) | 2018-01-12 |
| CN107571365B true CN107571365B (en) | 2022-09-20 |
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| CN201710999153.5A Active CN107571365B (en) | 2017-10-20 | 2017-10-20 | Door pocket board processing lines |
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Families Citing this family (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109227851B (en) * | 2018-08-06 | 2020-12-11 | 杭州新松机器人自动化有限公司 | Automatic assembling equipment for wooden door frame |
| CN109483237B (en) * | 2018-12-28 | 2024-04-09 | 南通跃通数控设备股份有限公司 | Lock reaming groove processing machine |
| CN110533306A (en) * | 2019-08-13 | 2019-12-03 | 南通跃通数控设备股份有限公司 | A kind of method for allocating tasks of Wooden-door frame recessed hinge and lock tongue slot processing |
| CN111571755B (en) * | 2020-05-11 | 2021-09-07 | 江山欧派门业股份有限公司 | Continuous production device for wooden door pocket and use method thereof |
| CN113733283A (en) * | 2021-08-31 | 2021-12-03 | 梦天家居集团股份有限公司 | Main and auxiliary sleeve composite processing method and system |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| DE3019692C2 (en) * | 1980-05-23 | 1983-12-08 | Rapid Maschinenbau Gmbh, 7404 Ofterdingen | Device for processing and processing profile strips or bars |
| US6561238B2 (en) * | 2000-10-13 | 2003-05-13 | Norfield Industries | Menu-driven, configurable door processing station |
| CN102581706A (en) * | 2012-03-23 | 2012-07-18 | 济南德佳机器有限公司 | Multi-manipulator multi-station combination flexible production line for energy-saving doors and windows and processing method of multi-manipulator multi-station combination flexible production line for energy-saving doors and windows |
| CN104526820B (en) * | 2015-01-13 | 2016-05-04 | 南通跃通数控设备有限公司 | Doorframe production line |
| CN106002262B (en) * | 2016-07-08 | 2017-12-29 | 梦天木门集团有限公司 | A kind of door pocket plate processes composite production line |
| CN205799795U (en) * | 2016-07-08 | 2016-12-14 | 梦天木门集团有限公司 | Door leaf lines machining production line |
| CN207480829U (en) * | 2017-10-20 | 2018-06-12 | 南通跃通数控设备有限公司 | A kind of door pocket plate machining production line |
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Address after: 226600 No.69, South Tongyu Road, Chengdong Town, Haian City, Nantong City, Jiangsu Province Applicant after: Yue Yue Tong CNC equipment Address before: 226600 No. 198, Tongyu Road, Haian County, Nantong, Jiangsu Applicant before: NANTONG YUETONG NUMERICAL CONTROL EQUIPMENT Co.,Ltd. |
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