CN204450795U - A kind of doorframe machining production line - Google Patents
A kind of doorframe machining production line Download PDFInfo
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- CN204450795U CN204450795U CN201520126394.5U CN201520126394U CN204450795U CN 204450795 U CN204450795 U CN 204450795U CN 201520126394 U CN201520126394 U CN 201520126394U CN 204450795 U CN204450795 U CN 204450795U
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Abstract
The utility model relates to a kind of doorframe machining production line, comprise dimension saw, hinge groove processing machine, bolt plate groove processing machine and some band to band transfer module, described dimension saw is used for the length scaling sawing of hinge side frame, lock side frame and upper ledge, connecting one after dimension saw can the first band to band transfer module of two-way conveying in length and breadth, from dimension saw hinge side frame out through the first band to band transfer module longitudinally transmission arrive the second adjacent band to band transfer module then lateral transfer to hinge groove processing machine; From dimension saw lock side frame out through the first band to band transfer module longitudinally transmission arrive the 3rd adjacent band to band transfer module then cross drive to bolt plate groove processing machine; From dimension saw upper ledge out through the first band to band transfer module cross drive to upper ledge collecting region.The utility model can process three assemblies of doorframe on the different station of a production line, has that efficiency is high, stable, the advantage of processed in batches.
Description
Technical field
The utility model relates to wood door machine tool field, specifically a kind of doorframe machining production line.
Background technology
The processing of doorframe is a part for processing, comprises the hinge side frame of worked door frame, lock side frame and upper ledge, and the hinge side frame of frame is for installing hinge, and the lock side frame of frame, for installing dead bolt baffle plate, is locked and the function of switch gate to realize timber.
The annexation of usual hinge side frame, lock side frame and upper ledge has two kinds, and one is hinge side frame, lock side frame and upper ledge all produces 45
oslope, hinge side frame and upper ledge adopt the mode of slope to slope to fit, lock side frame and upper ledge be also adopt the mode of slope to slope to fit; Another is hinge side frame, the termination of locking side frame and upper ledge is all made into 180
oplane, hinge side frame and lock side frame termination be all overlapped on upper ledge.Two kinds of annexations respectively have pluses and minuses, and the former fits firm, but 45
oslope processing get up more complicated; The intensity of the latter's overlap joint is high less than the former, but Flat-end processing simple and fast.
In " a kind of door pocket frame installation site Combined machining lathe " patent that the applicant applies in February, 2014, refer to a kind of processing method of doorframe, the hinge side frame of frame and the lock side frame of frame are processing in pairs, it is processed with obvious improved efficiency to doorframe, but this lathe can only to the laggard row processing of the pre-fracture of upper ledge, directly can not process upper ledge, therefore also there is the requirement of lifting in its operating efficiency.
In view of this, special proposition the utility model.
Summary of the invention
The technical problems to be solved in the utility model is to overcome the deficiencies in the prior art, a kind of doorframe machining production line is provided, can the fly-cutting hinge side frame, lock side frame and the end plane of upper ledge that go out to adopt overlapping mode to assemble, and realize hinge side frame, the lock side frame and the disposable accessory processing of upper ledge of doorframe, to improve the working (machining) efficiency of doorframe.
The technical scheme of the utility model patent application is: a kind of doorframe machining production line, comprise dimension saw, hinge groove processing machine, bolt plate groove processing machine and some band to band transfer module, described dimension saw is for processing the hinge side frame of doorframe, the lock side frame of doorframe and the scale sawing of upper ledge, connecting one after dimension saw can the first band to band transfer module of two-way conveying in length and breadth, from dimension saw hinge side frame out through the first band to band transfer module longitudinally transmission arrive the second adjacent band to band transfer module then lateral transfer to hinge groove processing machine, the hole slot of hinge is installed in processing, from dimension saw lock side frame out through the first band to band transfer module longitudinally transmission arrive the 3rd adjacent band to band transfer module then cross drive be to bolt plate groove processing machine, the hole slot of bolt plate is installed in processing, from dimension saw upper ledge out through the first band to band transfer module cross drive to upper ledge collecting region.
Described hinge groove processing machine is identical with function with the primary structure of bolt plate groove processing machine, can substitute placement mutually, also only can use a wherein machine when disregarding working (machining) efficiency.Two kinds of hole slot machines just have increase and decrease in the quantity of power of motor and cutter shaft.
The order of arranging before and after upper ledge collecting region, hinge groove processing machine, bolt plate groove processing machine can replace arbitrarily, and the rear workpiece of transposition flows to precedence and converts accordingly.
Described dimension saw comprises feeding device and saw cutting device, described feeding device comprises support, pusher, location, side and material carrying mechanism and the first width compression cylinder, described pusher is arranged on support, pusher comprises servomotor, clamping cylinder and pincers hand, servomotor promotes clamping cylinder and pincers hand moves reciprocatingly on support, clamping cylinder drives the clamping of pincers hand or loosens workpiece end, location, side and material carrying mechanism are for horizontal support workpiece and at side positioning workpieces, first width compression cylinder is arranged on the end of feeding device, for workpiece being pressed to the vertical roller of location, side and material carrying mechanism, described saw cutting device comprises head saw assembly, work top, vertical compression cylinder, the second width compression cylinder and the 3rd width compression cylinder, described head saw assembly is arranged under work top, vertical compression cylinder, the second width compression cylinder and the 3rd width compression cylinder are all arranged on work top, vertical compression cylinder is used for vertical workpiece pressing, and the second width compression cylinder and the 3rd width compression cylinder are used for horizontal workpiece pressing.
Further, described saw cutting device also comprises front end pusher cylinder, rear end pusher cylinder and waste material box, and waste material box and head saw assembly are fixed together, and the two is all arranged under work top; Front end pusher cylinder and rear end pusher cylinder are all arranged on work top, and front end pusher cylinder and rear end pusher cylinder are all for pushing waste material box by the waste material after sawing.The setting of front end pusher cylinder, rear end pusher cylinder and waste material box, can dispose the front-end and back-end waste material after cutting easily.
Described hinge groove processing machine comprises slotter frame, table assembly and milling head assembly, described table assembly and milling head assembly are all arranged in described slotter frame, described table assembly comprises guiding wheels, deck plate, position block, compression cylinder, anterior backer, rear portion backer, feeler block, location switch and lifting roller, deck plate has polylith, first deck plate is provided with guiding wheels and anterior backer, guiding wheels form an entrance shunk gradually on first deck plate, enter on workbench and smooth location for guiding workpiece; Position block and compression cylinder are matingly arranged on several deck plates subsequently; Feeler block is arranged on one of them deck plate; One in two location switches is arranged on first position block limit, and another one is arranged on last position block limit, last deck plate is provided with rear portion backer, and lifting roller is arranged in the space of two adjacent deck plates formation.
Described milling head assembly comprises and moves left and right support, movable support, milling head, dust shield and servo-actuatedly to hold down assembly, move left and right support installing on the guide rail of slotter frame, movable support installing is on the guide rail moving left and right support, milling head, dust shield and servo-actuated holding down assembly are arranged on movable support, and servo-actuated holding down assembly comprises two groups of cylinders and contact roller.
Described bolt plate groove processing machine comprises slotter frame, table assembly and milling head assembly, described table assembly and milling head assembly are all arranged in described slotter frame, described table assembly comprises guiding wheels, deck plate, position block, compression cylinder, anterior backer, rear portion backer, feeler block, location switch and lifting roller, deck plate has polylith, first deck plate is provided with guiding wheels and anterior backer, guiding wheels form an entrance shunk gradually on first deck plate, on workbench and smooth location is entered for guiding workpiece, position block and compression cylinder are matingly arranged on several deck plates subsequently, feeler block is arranged on one of them deck plate, one in two location switches is arranged on first position block limit, and another one is arranged on last position block limit, last deck plate is provided with rear portion backer, and lifting roller is arranged in the space of two adjacent deck plates formation.
The beneficial effects of the utility model are: be 1. combined on one group of machine by the three-procedure that former hinge side frame, lock side frame and upper ledge carry out processing respectively and process, decrease production process; 2. the three kinds of assemblies needed by same doorframe carry out accessory processing, decrease and produce turnover, improve production efficiency; 3. the work of bolt plate groove processing machine and hinge groove processing machine can phase trans-substitution; when bolt plate groove processing machine or hinge groove processing machine fault or when overhauling; the processing of an other machine can be replaced on the normal machine used, reduced the probability of production line stop.
Accompanying drawing explanation
Fig. 1 is the horizontal layout schematic diagram of the utility model doorframe machining production line.
Fig. 2 is the transport platform schematic top plan view of getting the raw materials ready of the utility model doorframe machining production line.
Fig. 3 is the dimension saw schematic perspective view of the utility model doorframe machining production line.
Fig. 4 is the hinge groove processing machine schematic perspective view of the utility model doorframe machining production line.
Fig. 5 is the bolt plate groove processing machine schematic perspective view of the utility model doorframe machining production line.
In figure, 1-gets the raw materials ready transport platform, 101-material preparing table support, 102-backgauge cylinder, 103-motor, 104-connecting rod, 105-conveyer belt;
2-dimension saw, 20-feeding device, 201-support, 2011-upper beam, 2012-column, 202-pusher, 2021-servomotor, 2022-clamping cylinder, 2023-clamps hand, location, 203-side and material carrying mechanism, the vertical roller of 2031-, 2032-carrying roller, 204-first width compression cylinder, 21-saw cutting device, 211-head saw assembly, 212-work top, the vertical compression cylinder of 213-, 214-second width compression cylinder, 215-the 3rd width compression cylinder, 216-front end pusher cylinder, 217-rear end pusher cylinder, 218-waste material box;
3-hinge groove processing machine, 301-slotter frame, 302-table assembly, 3021-leads wheels, 3022-deck plate, 3023-position block, 3024-compression cylinder, the anterior backer of 3025-, 3026-rear portion backer, 3027-feeler block, 3028-location switch, 3029-is elevated roller, 303-milling head assembly, 3031-moves left and right support, and 3032-moves forward and backward support, 3033-milling head, 3034-dust shield, 3035-cylinder, 3036-contact roller;
4-bolt plate groove processing machine, 401-slotter frame, 402-table assembly, 4021-leads wheels, 4022-deck plate, 4023-position block, 4024-compression cylinder, the anterior backer of 4025-, 4026-rear portion backer, 4027-feeler block, 4028-location switch, 4029-is elevated roller, 403-milling head assembly, 4031-moves left and right support, and 4032-moves forward and backward support, 4033-milling head, 4034-dust shield, 4035-cylinder, 4036-contact roller;
5-first band to band transfer module, 6-second band to band transfer module, 7-the 3rd band to band transfer module, 8-the 4th band to band transfer module, 9-the 5th band to band transfer module, 10-the 6th band to band transfer module, 11-the 7th band to band transfer module, 12-hinge side plate, 13-locks side plate, 14-upper ledge.
Detailed description of the invention
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail, to help understanding content of the present utility model.
As shown in Figure 1, doorframe machining production line of the present utility model comprises transport platform 1 of getting the raw materials ready, dimension saw 2, hinge groove processing machine 3, bolt plate groove processing machine 4 and some band to band transfer module, transport platform of getting the raw materials ready 1 connects dimension saw 2, and dimension saw 2 is for the scale sawing of hinge side frame 12, lock side frame 13 and upper ledge 14.Dimension saw 2 below connects three band to band transfer module 5-7, workpiece through can the first band to band transfer module 5 of transmitted in both directions in length and breadth by upper ledge 14 lateral transport to upper ledge collecting region; Then lateral transport hinge side frame 12 is to hinge groove processing machine 3 through the first band to band transfer module 5 the second band to band transfer module 6 that longitudinally transmission arrival is adjacent for workpiece, and the hole slot of hinge is installed in processing; Then cross drive is to bolt plate groove processing machine 4 through the first band to band transfer module 5 the 3rd band to band transfer module 7 that longitudinally transmission arrival is adjacent for workpiece, and the hole slot of bolt plate is installed in processing.The work of bolt plate groove processing machine 4 and hinge groove processing machine 3 can phase trans-substitution; when bolt plate groove processing machine 4 or hinge groove processing machine 3 fault or when overhauling; the processing of an other machine can be replaced on the normal machine used, reduced the probability of doorframe production line stop.
First band to band transfer module 5 has lifting conveyer belt and roller above, wherein transmit with two, for receiving the hinge side frame 12, lock side frame 13 and the upper ledge 14 that send out from dimension saw 2, and hinge side frame 12 is longitudinally passed to the second band to band transfer module 6, lock side frame 13 is longitudinally passed to the 3rd band to band transfer module 7; When workpiece is upper ledge 14, conveyer belt is motionless, and upper ledge 14 lateral transfer is left conveyer belt by roller, and by upper ledge 14 lateral transfer on the 4th band to band transfer module 8, then by the 4th band to band transfer module 8, upper ledge 14 is transported on the 5th band to band transfer module 9, finally enter upper ledge collecting region.
Second band to band transfer module 6 has lifting conveyer belt and roller above, wherein transmits with two, for receiving the hinge side frame 12 sent out from the first band to band transfer module 5; Conveyer belt declines, and hinge side frame 12 lateral transfer on hinge groove processing machine 3, is transferred to after processing hinge assemblies hole on the 6th band to band transfer module 10 by hinge groove processing machine 3 by roller, finally enters hinge side frame collecting region.
3rd band to band transfer module 7 has lifting conveyer belt and roller above, wherein transmits with two, for receiving the lock side frame 13 sent out from the first band to band transfer module 5; Conveyer belt declines, and roller will lock side frame 13 lateral transfer on bolt plate groove processing machine 4, is transferred on the 7th band to band transfer module 11, finally enters lock side frame collecting region by bolt plate groove processing machine 4 after being processed the bolt plate assembling hole slot of lock side frame 13.
4th band to band transfer module 8, the 5th band to band transfer module 9, the 6th band to band transfer module 10 and the 7th band to band transfer module 11 are nonessential auxiliary equipment, do not have them can realize function of the present utility model in the same old way, but have had them, and doorframe production line can be made more in order clean and tidy.
As shown in Figure 2, transport platform of getting the raw materials ready 1 comprises material preparing table support 101, many group backgauge cylinders 102, motor 103, connecting rod 104 and many conveyer belts be arranged in parallel 105, here conveyer belt 105 is 4, the distance between two conveyer belts with applicable placement hinge side frame 12, lock side frame 13 and upper ledge 14 for principle.Motor drive link 104, thus drive conveyer belt 105 to carry out transmitting moving, backgauge cylinder 102, motor 103, connecting rod 104 and conveyer belt 105 are all arranged on material preparing table support 101.
As shown in Figure 3, dimension saw 2 comprises feeding device 20 and saw cutting device 21, described feeding device 20 comprises support 201, pusher 202, location, side and material carrying mechanism 203 and the first width compression cylinder 204, described pusher 202 is arranged in the upper beam 2011 of support 201, pusher 202 comprises servomotor 2021, clamping cylinder 2022 and pincers hand 2023, servomotor 2021 promotes clamping cylinder 2022 and pincers hand 2023 moves reciprocatingly forward or backward on the guide rail of frame upper crossbeam 2011, the cylinder rod of clamping cylinder 2022 stretches, pincers hand 2023 can be driven to clamp or loosen workpiece end, location, side and material carrying mechanism 203 are arranged on the medium position of several root posts 2012 of support 201 mid portion, for horizontal support workpiece and at side positioning workpieces, first width compression cylinder 204 is arranged on the end of feeding device 20, for workpiece being pressed to the vertical roller 2031 of location, side and material carrying mechanism 203, described saw cutting device 21 comprises head saw assembly 211, work top 212, vertical compression cylinder 213, second width compression cylinder 214, the 3rd width compression cylinder 215, front end pusher cylinder 216, rear end pusher cylinder 217 and waste material box 218, described head saw assembly 211 is fixed together with waste material box 218, the two is all arranged under work top 212, and the saw blade of head saw assembly 211 can carry out sawing through the saw blade seam of work top 212 to workpiece, vertical compression cylinder 213, second width compression cylinder 214, the 3rd width compression cylinder 215, front end pusher cylinder 216 and rear end pusher cylinder 217 are all arranged on work top 212, vertical compression cylinder 213 is for vertical workpiece pressing, second width compression cylinder 214 and the 3rd width compression cylinder 215 are for horizontal workpiece pressing, and front end pusher cylinder 216 and rear end pusher cylinder 217 are all for pushing waste material box 218 by the waste material after sawing.
As shown in Figure 4, hinge groove processing machine 3 comprises slotter frame 301, table assembly 302 and milling head assembly 303, table assembly 302 and milling head assembly 303 are all arranged in slotter frame 301, table assembly 302 comprises guiding wheels 3021, deck plate 3022, position block 3023, compression cylinder 3024, anterior backer 3025, rear portion backer 3026, feeler block 3027, location switch 3028 and lifting roller 3029, guiding wheels 3021 have two row's directive wheels, often arrange inside directive wheel and all comprise multiple directive wheel, often arrange in directive wheel in the diagram and have 4 directive wheels, also can be arranged to often to arrange 6 or more, deck plate 3022 has polylith, equably, etc. be laid in slotter frame 301 with gap, first deck plate 3022 is provided with guiding wheels 3021 and anterior backer 3025, two row's directive wheels form an entrance shunk gradually on first deck plate, enter on workbench and smooth location for guiding workpiece, position block 3023 and compression cylinder 3024 are matingly arranged on several deck plates subsequently, and feeler block 3027 is placed on one of them deck plate, a location switch 3028 is arranged on first position block limit, and another one is arranged on last position block limit, last deck plate is provided with rear portion backer 3026, and lifting roller 3029 is arranged in the space of two adjacent deck plates formation.
Milling head assembly 303 comprises and moves left and right support 3031, movable support 3032, milling head 3033, dust shield 3034 and servo-actuatedly to hold down assembly, moving left and right support 3031 is arranged on the guide rail of slotter frame 301, movable support 3032 be arranged on move left and right support 3031 guide rail on, milling head 3033, dust shield 3034 and servo-actuated holding down assembly are arranged on movable support 3032, and servo-actuated holding down assembly comprises two groups of cylinders 3035 and contact roller 3036.
The structure of bolt plate groove processing machine 4 is substantially identical with the structure of hinge groove processing machine 3, and just in the quantity of power of motor and cutter shaft, have increase and decrease, the function of the two can be replaced mutually.
As shown in Figure 5, bolt plate groove processing machine 4 comprises slotter frame 401, table assembly 402 and milling head assembly 403, table assembly 402 and milling head assembly 403 are all arranged in slotter frame 401, table assembly 402 comprises guiding wheels 4021, deck plate 4022, position block 4023, compression cylinder 4024, anterior backer 4025, rear portion backer 4026, feeler block 4027, location switch 4028 and lifting roller 4029, guiding wheels 4021 have two row's directive wheels, often arrange inside directive wheel and all comprise multiple directive wheel, often arrange in directive wheel in this Fig. 5 and have 4 directive wheels, also can be arranged to often to arrange 6 or more, deck plate 4022 has polylith, equably, etc. be laid in slotter frame 401 with gap, first deck plate 4022 is provided with guiding wheels 4021 and anterior backer 4025, two row's directive wheels form an entrance shunk gradually on first deck plate, enter on workbench and smooth location for guiding workpiece, position block 4023 and compression cylinder 4024 are matingly arranged on several deck plates subsequently, and feeler block 4027 is placed on one of them deck plate, a location switch 4028 is arranged on first position block limit, and another one is arranged on last position block limit, last deck plate is provided with rear portion backer 4026, and lifting roller 4029 is arranged in the space of two adjacent deck plates formation.
Milling head assembly 403 comprises and moves left and right support 4031, movable support 4032, milling head 4033, dust shield 4034 and servo-actuatedly to hold down assembly, moving left and right support 4031 is arranged on the guide rail of slotter frame 401, movable support 4032 be arranged on move left and right support 4031 guide rail on, milling head 4033, dust shield 4034 and servo-actuated holding down assembly are arranged on movable support 4032, and servo-actuated holding down assembly comprises two groups of cylinders 4035 and contact roller 4036.
Workflow of the present utility model is described below:
According to blas, hinge side frame 12, lock side frame 13 and the raw material of upper ledge 14 being placed in order by workman gets the raw materials ready on the conveyer belt 105 of transport platform 1, drive conveyer belt 105 by motor 103, the raw material of hinge side frame 12, lock side frame 13, upper ledge 14 are conveyed into dimension saw 2 successively.
First the raw material of hinge side frame 12 are admitted on the feeding device 20 of dimension saw 2, location, side on feeding device 20 and multiple carrying rollers 2032 be arranged in parallel of material carrying mechanism 203 rise, the raw material of hinge side frame 12 are held, at this moment the servomotor 2021 on pusher 202 starts, drive clamping cylinder 2022 and pincers hand 2023 near the raw-material end of hinge side frame 12, pincers hand 2023 promotes hinge side frame 12 raw material and slides towards saw cutting device 21 direction on carrying roller 2032 after touching the raw-material end of hinge side frame 12, when clamping hand 2023 and arriving corresponding carrying roller 2032 position, the carrying roller 2032 of this position declines successively, to prevent the operation interfering pincers hand 2023, when hinge side frame 12 raw material arrive the position of the first width compression cylinder 204, first width compression cylinder 204 starts, hinge side frame 12 raw material are pressed on the multiple vertical rollers 2031 be arranged in parallel on location, side and material carrying mechanism 203, pincers hand 2023 continues to push hinge side frame 12 raw material and enters on the work top 212 of saw cutting device 21 under the driving of servomotor 2021, when the arrival of hinge side frame 12 raw material needs the position of sawing, second width clamping cylinder starts, vertical compression cylinder also starts, the clamping cylinder 2022 that pincers hand 2023 connects below also starts, pincers hand 2023 is driven to clamp the raw-material end of hinge side frame 12, these clamping cylinders or compression cylinder common action, hinge side frame 12 raw material are tightly positioned on work top 212, at this moment the saw blade in head saw assembly 211 starts, along saw blade seam transversely cutting hinge side frame 12 raw material of work top 212, then front end pusher cylinder 216 action, the waste material sawed from hinge side frame 12 raw material front end is pushed in waste material box 218, waste material box 218 follows head saw assembly 211 to move to outside saw cutting device 21, waste material is discharged saw cutting device 21, then head saw assembly 211 resets with waste material box 218, front end pusher cylinder 216, second width compression cylinder 214, vertical compression cylinder 213 resets, pincers hand 2023 clips hinge side frame 12 raw material to be continued to move towards saw cutting device 21, when clamping hand 2023 and arriving the first width compression cylinder 204 position, first width compression cylinder 204 resets, when clamping hand 2023 and arriving second sawing position, 3rd width compression cylinder 215 starts, vertical compression cylinder 213 starts, being compressed by hinge side frame 12 raw material is positioned on work top 212, then clamping hand 2023 unclamps the raw-material clamping of hinge side frame 12, servomotor 2021 starts, original position is return with clamping cylinder 2022 and pincers hand 2023, at this moment the saw blade in head saw assembly 211 starts, along saw blade seam transversely cutting hinge side frame 12 raw material of work top 212, then rear end pusher cylinder 217 action, the waste material got off from the rear end sawing of hinge side frame 12 raw material is pushed in waste material box 218, waste material box 218 follows head saw assembly 211 to move to outside saw cutting device 21, waste material is discharged saw cutting device 21, then head saw assembly 211 resets with waste material box 218, 3rd width compression cylinder 215, vertical compression cylinder 213 resets, hinge side frame 12 raw material completing two ends Cutting indexes are removed by the first transmission platform 5, and be transferred on the second transmission platform 6, then the processing that hinge groove processing machine 3 carries out hinge assemblies hole is entered.
Pincers hand 2023 is provided with a contact-making switch, from touching workpiece end and trigger this contact-making switch, the controller be connected with servomotor 2021 just starts to record and clamps hand 2023 movable length in orbit, thus determines the cutting position whether workpiece reaches predetermined.
Next, lock side frame 13 raw material are admitted to dimension saw 2, and the process of lock side frame 13 raw material on dimension saw 2 is identical with the process of hinge side frame 12 raw material on dimension saw 2, does not repeat them here.Lock side frame 13 raw material completing two ends Cutting indexes are removed by the first transmission platform 5, and are transferred on the 3rd transmission platform 7, then enter the processing that bolt plate groove processing machine 4 carries out bolt plate pilot hole.
Next, upper ledge 14 raw material are admitted to dimension saw 2, at this moment two kinds of situations can be run into, when upper ledge 14 raw material are shorter, when can only process a upper ledge 14, at this moment the process of upper ledge 14 raw material on dimension saw 2 is identical with the process of locking side plate 13 with hinge side plate 12, does not repeat them here.When upper ledge 14 raw material are long, when can process two upper ledges 14, its process is as follows: first upper ledge 14 raw material are admitted on the feeding device 20 of dimension saw 2, location, side on feeding device 20 and multiple carrying rollers 2032 be arranged in parallel of material carrying mechanism 203 rise, upper ledge 14 raw material are held, at this moment the servomotor 2021 on pusher 202 starts, drive clamping cylinder 2022 and pincers hand 2023 near the raw-material end of upper ledge 14, pincers hand 2023 promotes upper ledge 14 raw material and slides towards saw cutting device 21 direction on carrying roller 2032 after touching the raw-material end of upper ledge 14, when clamping hand 2023 and arriving corresponding carrying roller 2032 position, the carrying roller 2032 of this position declines successively, to prevent the operation interfering pincers hand 2023, when upper ledge 14 raw material arrive the position of the first width compression cylinder 204, first width compression cylinder 204 starts, upper ledge 14 raw material are pressed on the multiple vertical rollers 2031 be arranged in parallel on location, side and material carrying mechanism 203, pincers hand 2023 continues to push upper ledge 14 raw material and enters on the work top 212 of saw cutting device 21 under the driving of servomotor 2021, when the arrival of upper ledge 14 raw material needs the position of sawing, second width clamping cylinder 214 starts, vertical compression cylinder 213 also starts, the clamping cylinder 2022 that pincers hand 2023 connects below also starts, pincers hand 2023 is driven to clamp the raw-material end of upper ledge 14, these clamping cylinders or compression cylinder common action, upper ledge 14 raw material are tightly positioned on work top 212, at this moment the saw blade in head saw assembly 211 starts, and along saw blade seam transversely cutting upper ledge 14 raw material of work top 212, when front end waste material length is greater than 160mm, front end waste material is removed by the first band to band transfer module 5, when front end waste material length is less than 160mm, front end pusher cylinder 216 action, front end waste material is pushed in waste material box 218, waste material box 218 follows head saw assembly 211 to move to outside saw cutting device 21, waste material is discharged saw cutting device 21, then head saw assembly 211 resets with waste material box 218, and front end pusher cylinder 216, second width compression cylinder 214, vertical compression cylinder 213 reset, and first time sawing completes.Pincers hand 2023 clips upper ledge 14 raw material to be continued to move towards saw cutting device 21, when clamping hand 2023 and arriving second sawing position, 3rd width compression cylinder 215 starts, vertical compression cylinder 213 starts, being compressed by upper ledge 14 raw material is positioned on work top 212, at this moment the saw blade in head saw assembly 211 starts, along saw blade seam transversely cutting upper ledge 14 raw material of work top 212, 3rd width compression cylinder 215, vertical compression cylinder 213 resets, head saw assembly 211 resets with waste material box 218, removed by the first band to band transfer module 5 by sawed-off material by that section that the 3rd width compression cylinder 215 is pushed down, the raw-material second time sawing of upper ledge 14 completes.Pincers hand 2023 clips remaining upper ledge 14 raw material to be continued to move towards saw cutting device 21, when clamping hand 2023 and arriving the first width compression cylinder 204 position, first width compression cylinder 204 resets, when clamping hand 2023 and arriving third time sawing position, 3rd width compression cylinder 215 starts, vertical compression cylinder 213 starts, being compressed by remaining upper ledge 14 raw material is positioned on work top 212, then clamping hand 2023 unclamps the raw-material clamping of upper ledge 14, servomotor 2021 starts, and returns original position with clamping cylinder 2022 and pincers hand 2023, at this moment the saw blade in head saw assembly 211 starts, along saw blade seam transversely cutting upper ledge 14 raw material of work top 212, then rear end pusher cylinder 217 action, the waste material got off from the rear end sawing of upper ledge 14 raw material is pushed in waste material box 218, waste material box 218 follows head saw assembly 211 to move to outside saw cutting device 21, waste material is discharged saw cutting device 21, then head saw assembly 211 resets with waste material box 218, 3rd width compression cylinder 215, vertical compression cylinder 213 resets, upper ledge 14 raw material completing two ends Cutting indexes are removed by the first band to band transfer module 5, the raw-material third time sawing of upper ledge 14 completes.Three sawings can obtain two finished product upper ledges 14.
Next, hinge side frame 12, lock side frame 13 and upper ledge 14 are shifted on the first band to band transfer module 5, according to set program, conveyer belt on first band to band transfer module 5 rises and moves, hinge side frame 12 and lock side frame 13 are transported on the second band to band transfer module 6 and the 3rd band to band transfer module 7 respectively, and upper ledge 14 is when being shifted on the first band to band transfer module 5, conveyer belt on first band to band transfer module 5 is motionless, roller on defeated 5 rolls, enter in the 5th transport platform 8 with upper ledge 14, roller in 5th transport platform 8 also rolls, enter in the 6th transport platform 9 with upper ledge 14, then upper ledge collecting region is entered.
According to set program, when hinge side frame 12 is transported on the second band to band transfer module 6, the rising movement of lifting conveyer belt, stop motion after hinge side frame 12 is transported to precalculated position also declines, hinge side frame 12 is declined to being placed on conveying roll and rolls, enter hinge groove processing machine 3 with hinge side frame 12 and process.
When hinge side frame 12 is transfused to hinge groove processing machine 3, need the guiding through guiding wheels 3021, at this moment be elevated roller 3029 to rise, accept and transmit the hinge side frame 12 transmitted from the second band to band transfer module 6, the other inductive switch installed of deck plate 3022 sends the anterior entering signal of hinge side frame 12, rear portion backer 3026 stretches out and higher than the horizontal plane of deck plate 3022, before hinge side frame 12, one end is transported to rear portion backer 3026.Lifting roller 3029 declines, and allows deck plate 3022 hold hinge side frame 12.Start compression cylinder 3024, hinge side frame 12 is pushed to position block 3023 and location switch 3028, then rear portion backer 3026 stretches out forward, when location switch 3028 by hinge side frame 12 oppress all put in place with rear portion backer's cylinder magnetic switch time, milling head assembly 303 is started working, move left and right support 3031 and movable support 3032 moves, milling head 3033 is made to navigate to precalculated position, servo-actuated hold down assembly on two groups of cylinders 3035 work, contact roller 3036 is driven to be depressed into hinge side frame 12 surface, now hinge side frame 12 is limited by rear portion backer 3026 in the position of transverse direction, longitudinal position is limited by position block 3023 and compression cylinder 3024, vertical position by servo-actuated hold down assembly and deck plate 3022 limit, because which form highly stable location.Milling head 3033 starts, and processes hinge side frame 12 according to program, and the chip produced in processing is siphoned away by dust shield 3034.Hinge side frame 12 completion of processing, servo-actuated hold down assembly in cylinder 3035 move, lifting contact roller 3036 makes it depart from the surface of hinge side frame 12, compression cylinder 3024 action, loosen the clamping to hinge side frame 12, rear portion backer 3026 retracts, decline and lower than the horizontal plane of deck plate 3022, lifting roller 3029 lifting hinge side frame 12 makes it higher than the horizontal plane of deck plate 3022, the roller of lifting roller 3029 rotates, hinge side frame 12 is transferred on the 6th band to band transfer module 10, and is transferred to hinge side frame collecting region by the 6th band to band transfer module 10.
According to set program, when lock side frame 13 is transported on the 3rd band to band transfer module 7, conveyer belt on 3rd band to band transfer module 7, stop motion after lock side frame 13 is transported to precalculated position also declines, lock side frame 13 is declined to being placed on conveying roll and rolls, enter bolt plate groove processing machine 4 with lock side frame 13 and process.
When lock side frame 13 is transfused to bolt plate groove processing machine 4, need the guiding through guiding wheels 4021, at this moment be elevated roller 4029 to rise, accept and transmit the lock side frame 13 transmitted from the 3rd band to band transfer module 7, send lock side frame 13 afterbody at the other inductive switch installed of deck plate 4022 and leave signal, lifting roller 4029 stops rolling, anterior backer 4025 stretches out and higher than the horizontal plane of deck plate 4022, lifting roller 4029 reverses, before lock side frame 13, one end is transported to anterior backer 4025, lifting roller 4029 declines, and allows deck plate 4022 hold lock side frame 13.Start compression cylinder 4024, lock side frame 13 is pushed to position block 4023 and location switch 4028, then anterior backer 4025 protrudes upward, when location switch 4028 by lock side frame 13 oppress all put in place with anterior backer 4025 cylinder magnetic switch time, milling head assembly 403 start processing, processing mode and hinge side frame 12 similar.The lock side frame 13 processing bolt plate assembling hole slot is transferred on the 7th band to band transfer module 11, and is transferred to lock side frame collecting region by the 7th band to band transfer module 11.
The above is only preferred embodiment of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.
Claims (9)
1. a doorframe machining production line, comprise dimension saw (2), hinge groove processing machine (3), bolt plate groove processing machine (4) and some band to band transfer module, it is characterized in that: described dimension saw (2) is for the hinge side frame (12) of doorframe, the lock side frame (13) of doorframe and the scale sawing of upper ledge (14), dimension saw (2) connects below one can first band to band transfer module (5) of two-way conveying in length and breadth, from dimension saw (2) hinge side frame (12) out through the first band to band transfer module (5) longitudinally transmission arrive adjacent the second band to band transfer module (6) then lateral transfer to hinge groove processing machine (3), the hole slot of hinge is installed in processing, from dimension saw (2) lock side frame (13) out through the first band to band transfer module (5) longitudinally transmission arrive the 3rd adjacent band to band transfer module (7) then cross drive to bolt plate groove processing machine (4), the hole slot of processing installation bolt plate, from dimension saw (2) upper ledge out (14) through the first band to band transfer module (5) cross drive to upper ledge collecting region.
2. a kind of doorframe machining production line as claimed in claim 1, it is characterized in that: described hinge groove processing machine (3) is identical with function with the primary structure of bolt plate groove processing machine (4), placement can being substituted mutually, also only can use a wherein machine when disregarding working (machining) efficiency.
3. a kind of doorframe machining production line as claimed in claim 1, it is characterized in that: before and after upper ledge collecting region, hinge groove processing machine (3), bolt plate groove processing machine (4), the order of arrangement can replace arbitrarily, the rear workpiece of transposition flows to precedence and converts accordingly.
4. a kind of doorframe machining production line as described in claim 1 or 2 or 3, it is characterized in that: described dimension saw (2) comprises feeding device (20) and saw cutting device (21), described feeding device (20) comprises support (201), pusher (202), location, side and material carrying mechanism (203) and the first width compression cylinder (204), described pusher (202) is arranged on support (201), pusher (202) comprises servomotor (2021), clamping cylinder (2022) and pincers hand (2023), servomotor (2021) promotes clamping cylinder (2022) and pincers hand (2023) move reciprocatingly on support (201), clamping cylinder (2022) drives pincers hand (2023) clamp or loosen workpiece end, location, side and material carrying mechanism (203) are for horizontal support workpiece and at side positioning workpieces, first width compression cylinder (204) is arranged on the end of feeding device (20), for workpiece being pressed to the vertical roller (2031) of location, side and material carrying mechanism (203), described saw cutting device (21) comprises head saw assembly (211), work top (212), vertical compression cylinder (213), second width compression cylinder (214) and the 3rd width compression cylinder (215), described head saw assembly (211) is arranged under work top (212), vertical compression cylinder (213), second width compression cylinder (214) and the 3rd width compression cylinder (215) are all arranged on work top (212), vertical compression cylinder (213) is for vertical workpiece pressing, second width compression cylinder (214) and the 3rd width compression cylinder (215) are for horizontal workpiece pressing.
5. a kind of doorframe machining production line as claimed in claim 4, it is characterized in that: described saw cutting device (21) also comprises front end pusher cylinder (216), rear end pusher cylinder (217) and waste material box (218), waste material box (218) and head saw assembly (211) are fixed together, and the two is all arranged under work top (212); Front end pusher cylinder (216) and rear end pusher cylinder (217) are all arranged on work top (212), and the two is all for pushing waste material box (218) by the waste material after sawing.
6. a kind of doorframe machining production line as described in claim 1 or 2 or 3 or 5, it is characterized in that: described hinge groove processing machine (3) comprises slotter frame (301), table assembly (302) and milling head assembly (303), described table assembly (302) and milling head assembly (303) are all arranged on described slotter frame (301), described table assembly (302) comprises guiding wheels (3021), deck plate (3022), position block (3023), compression cylinder (3024), anterior backer (3025), rear portion backer (3026), feeler block (3027), location switch (3028) and lifting roller (3029), deck plate (3022) has polylith, first deck plate (3022) is provided with guiding wheels (3021) and anterior backer (3025), guiding wheels (3021) is at the upper formation entrance shunk gradually of first deck plate (3022), on workbench and smooth location is entered for guiding workpiece, position block (3023) and compression cylinder (3024) are matingly arranged on several deck plates (3022) subsequently, feeler block (3027) is arranged on one of them deck plate (3022), one in two location switches (3028) is arranged on first position block limit, another one is arranged on last position block limit, last deck plate is provided with rear portion backer (3026), lifting roller (3029) is arranged in the space of two adjacent deck plates formation.
7. a kind of doorframe machining production line as claimed in claim 6, it is characterized in that: described milling head assembly (303) comprises and moves left and right support (3031), movable support (3032), milling head (3033), dust shield (3034) and servo-actuatedly to hold down assembly, moving left and right support (3031) is arranged on the guide rail of slotter frame (301), movable support (3032) be arranged on move left and right support (3031) guide rail on, milling head (3033), dust shield (3034) and servo-actuated holding down assembly are arranged on movable support (3032), servo-actuated holding down assembly comprises two groups of cylinders (3035) and contact roller (3036).
8. a kind of doorframe machining production line as claimed in claim 4, it is characterized in that: described hinge groove processing machine (3) comprises slotter frame (301), table assembly (302) and milling head assembly (303), described table assembly (302) and milling head assembly (303) are all arranged on described slotter frame (301), described table assembly (302) comprises guiding wheels (3021), deck plate (3022), position block (3023), compression cylinder (3024), anterior backer (3025), rear portion backer (3026), feeler block (3027), location switch (3028) and lifting roller (3029), deck plate (3022) has polylith, first deck plate (3022) is provided with guiding wheels (3021) and anterior backer (3025), guiding wheels (3021) is at the upper formation entrance shunk gradually of first deck plate (3022), on workbench and smooth location is entered for guiding workpiece, position block (3023) and compression cylinder (3024) are matingly arranged on several deck plates (3022) subsequently, feeler block (3027) is arranged on one of them deck plate (3022), one in two location switches (3028) is arranged on first position block limit, another one is arranged on last position block limit, last deck plate is provided with rear portion backer (3026), lifting roller (3029) is arranged in the space of two adjacent deck plates formation.
9. a kind of doorframe machining production line as claimed in claim 8, it is characterized in that: described milling head assembly (303) comprises and moves left and right support (3031), movable support (3032), milling head (3033), dust shield (3034) and servo-actuatedly to hold down assembly, moving left and right support (3031) is arranged on the guide rail of slotter frame (301), movable support (3032) be arranged on move left and right support (3031) guide rail on, milling head (3033), dust shield (3034) and servo-actuated holding down assembly are arranged on movable support (3032), servo-actuated holding down assembly comprises two groups of cylinders (3035) and contact roller (3036).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520126394.5U CN204450795U (en) | 2015-03-04 | 2015-03-04 | A kind of doorframe machining production line |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520126394.5U CN204450795U (en) | 2015-03-04 | 2015-03-04 | A kind of doorframe machining production line |
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| CN204450795U true CN204450795U (en) | 2015-07-08 |
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| CN201520126394.5U Withdrawn - After Issue CN204450795U (en) | 2015-03-04 | 2015-03-04 | A kind of doorframe machining production line |
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Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104626314A (en) * | 2015-03-04 | 2015-05-20 | 南通跃通数控设备有限公司 | Door frame machining production line |
| CN106002262A (en) * | 2016-07-08 | 2016-10-12 | 梦天木门集团有限公司 | Processing combination production line for door cleading |
| CN107414961A (en) * | 2017-06-12 | 2017-12-01 | 南通跃通数控设备有限公司 | A kind of numerical control door leaf sawing machine and its application method |
| CN109264384A (en) * | 2018-11-01 | 2019-01-25 | 江西英硕智能科技有限公司 | A kind of slotter clamping feeding and discharging mechanism |
| CN110524638A (en) * | 2019-08-20 | 2019-12-03 | 南通跃通数控设备股份有限公司 | The fixed mobile work platform in guiding ruler, fixture relative position in Wooden-door frame processing |
| CN110539368A (en) * | 2019-09-05 | 2019-12-06 | 南通跃通数控设备股份有限公司 | Method and device for detecting machining reference |
| CN111571755A (en) * | 2020-05-11 | 2020-08-25 | 江山欧派门业股份有限公司 | Continuous production device for wooden door pocket and use method thereof |
| CN112917631A (en) * | 2021-01-22 | 2021-06-08 | 徐根生 | Three-centimeter flush all-in-one machine for processing indoor door frame |
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2015
- 2015-03-04 CN CN201520126394.5U patent/CN204450795U/en not_active Withdrawn - After Issue
Cited By (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104626314A (en) * | 2015-03-04 | 2015-05-20 | 南通跃通数控设备有限公司 | Door frame machining production line |
| CN106002262A (en) * | 2016-07-08 | 2016-10-12 | 梦天木门集团有限公司 | Processing combination production line for door cleading |
| 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 |
| CN107414961A (en) * | 2017-06-12 | 2017-12-01 | 南通跃通数控设备有限公司 | A kind of numerical control door leaf sawing machine and its application method |
| CN109264384A (en) * | 2018-11-01 | 2019-01-25 | 江西英硕智能科技有限公司 | A kind of slotter clamping feeding and discharging mechanism |
| CN110524638A (en) * | 2019-08-20 | 2019-12-03 | 南通跃通数控设备股份有限公司 | The fixed mobile work platform in guiding ruler, fixture relative position in Wooden-door frame processing |
| CN110524638B (en) * | 2019-08-20 | 2021-07-30 | 南通跃通数控设备股份有限公司 | Movable workbench with fixed guiding rule and clamp relative positions in wooden door frame processing |
| CN110539368A (en) * | 2019-09-05 | 2019-12-06 | 南通跃通数控设备股份有限公司 | Method and device for detecting machining reference |
| CN111571755A (en) * | 2020-05-11 | 2020-08-25 | 江山欧派门业股份有限公司 | Continuous production device for wooden door pocket and use method thereof |
| CN112917631A (en) * | 2021-01-22 | 2021-06-08 | 徐根生 | Three-centimeter flush all-in-one machine for processing indoor door frame |
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| AV01 | Patent right actively abandoned |
Granted publication date: 20150708 Effective date of abandoning: 20170531 |
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| AV01 | Patent right actively abandoned |