CN108453847A - A kind of full-automatic groove broacher for timber processing - Google Patents
A kind of full-automatic groove broacher for timber processing Download PDFInfo
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- CN108453847A CN108453847A CN201810407825.3A CN201810407825A CN108453847A CN 108453847 A CN108453847 A CN 108453847A CN 201810407825 A CN201810407825 A CN 201810407825A CN 108453847 A CN108453847 A CN 108453847A
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- Prior art keywords
- support
- timber
- guide rail
- welded
- rope
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27F—DOVETAILED WORK; TENONS; SLOTTING MACHINES FOR WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES
- B27F5/00—Slotted or mortised work
- B27F5/02—Slotting or mortising machines tools therefor
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- Life Sciences & Earth Sciences (AREA)
- Engineering & Computer Science (AREA)
- Wood Science & Technology (AREA)
- Mechanical Engineering (AREA)
- Forests & Forestry (AREA)
- Automatic Tool Replacement In Machine Tools (AREA)
Abstract
The invention discloses a kind of full-automatic groove broachers for timber processing, its structure includes numerical controller, power cord, electric rotating machine, preceding fixed limited block, kerve blade, No.1 support column, No. two support columns, reinforcement clamp, fixes limited block, support moving guide rail, guide supporting seat, support cabinet, screw thread moving guide rail, blade support pedestal, individual motor, distribution control box afterwards, the lower mechanical for fixing limited block afterwards is connected to the right side of support moving guide rail upper end, beneficial effects of the present invention:By increasing reinforcement clamp in equipment, when equipment carries out timber processing kerve operation, when needing its timber kerve is fixed, timber can quickly be fixed, and it can be adjusted according to timber size, preferable fixed timber is carried out to not only save the workload of staff to quickly carry out timber kerve operation and reduce the abrasion of timber.
Description
Technical field
The present invention is a kind of full-automatic groove broacher for timber processing, belongs to timber processing kerve training equipment field.
Background technology
Groove broacher, it is special for producing wooden barrel, it also cries and draws seam machine, also someone is referred to as wooden barrel concentric reducer trimmer, it can be with
The concentric reducer and side bevel edge of wooden barrel circular arc standard edition are processed simultaneously, if milling cutter used has tongue and groove, can also be processed
Go out suitable tongue and groove.
In the prior art, equipment needs to draw after its timber is fixed when carrying out timber processing kerve operation
Slot operation, equipment be fixed timber encounter timber it is not of uniform size when, can not quickly be fixed, staff is needed to carry out
Adjusting device, to enable a device to preferably be fixed timber, not only be easy to cause the abrasion of timber and adjustment time compared with
It is long, greatly increase the workload of its staff.
Invention content
In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of full-automatic kerves for timber processing
Machine, to solve in the prior art, equipment needs to draw after its timber is fixed when carrying out timber processing kerve operation
Slot operation, equipment be fixed timber encounter timber it is not of uniform size when, can not quickly be fixed, staff is needed to carry out
Adjusting device, to enable a device to preferably be fixed timber, not only be easy to cause the abrasion of timber and adjustment time compared with
The problem of growing, greatly increasing the workload of its staff.
To achieve the goals above, the present invention is to realize by the following technical solutions:It is a kind of to be used for what timber was processed
Full-automatic groove broacher, structure include numerical controller, power cord, electric rotating machine, preceding fixed limited block, kerve blade, No.1
Support column, reinforcement clamp, fixes limited block, support moving guide rail, guide supporting seat, support cabinet, screw thread shifting at No. two support columns afterwards
Dynamic guide rail, blade support pedestal, individual motor, distribution control box, the lower mechanical of fixed limited block is connected to support after described
The right side of moving guide rail upper end, it is described to support the lower end being installed on the left of moving guide rail upper end in the middle part of kerve blade, the drawing
The front end of slot blade is welded in the upper end of blade support pedestal, and the rear end of the blade support pedestal is threadedly connected to screw thread movement
The outer surface of guide rail, the guide supporting seat set there are two and are installed in the left and right ends of screw thread moving guide rail, the guide rail branch
The left end of support seat is mechanically connected to the right end of individual motor, and the rear end screw connection of the individual motor and guide supporting seat is in branch
The upside of cabinet front end is supportted, the left end of fixed limited block is welded in the middle part of the right end of reinforcement clamp after described, the support cabinet
Upper center, which is equipped with, supports moving guide rail, and the lower end of the No.1 support column and No. two support columns is welded in support moving guide rail
Upper end, the front end of the electric rotating machine are connected with the rear end of distribution control box by power cord, the distribution control box it is upper
Plan is installed in the rear end of numerical controller before end, the left side clearance fit of the kerve blade in the right side of preceding fixed limited block,
The reinforcement clamp include multi-buffer folder, bidirectionally limited piece, transmission latch plate, screw thread wheel, motion thread column, conversion driving wheel,
No.1 pulley, rope connection guide, support motion bar, two-way bar, the first rope link block, circular arc driving wheel, vertically pushes away connecting rope
Bar, No. two pulleys, guide rail groove, connection convex block, connection push rod, No. three pulleys, connection runner, support balance guide rod, two-way company
Extension bar, transmission balance guide rod, extends support column, fan-deck card tooth plate, support circular shaft, connection card tooth plate, No. four cunnings at T-type connecting rod
Wheel, support transverse slat, extends supporting rod, pressure convex block, No. two link blocks, stretch cord, protection support housing, rotation at No.1 link block
Runner, spring support seat, transmission gear, compression spring, driving belt, groove link block, circular arc convex block, the second rope link block,
It is welded in the upper end of No. two link blocks on the downside of the rotation wheel outer surface, No.1 is welded on the right side of the rotation wheel outer surface
The left end of link block, the lower end of the No.1 link block are installed in the upper end of the second rope link block, the second rope link block
Lower end is connected by connecting rope with the left end of connection card tooth plate, and support is mechanically connected in the middle part of the lower end of the connection card tooth plate
The outer surface of circular shaft, the upper end of the connection card tooth plate are meshed in the lower end of fan-deck card tooth plate, the fan-deck card tooth plate it is upper
End is movably connected on the lower end for extending support column, and the right side clearance fit extended on the upside of support column is in transmission balance guide rod
The front end of left end, the transmission balance guide rod is connected with the front end on the left of T-type connecting rod by being bi-directionally connected bar, the T-type
The right end of connecting rod is installed in the left side of support balance lower end of the guide rod, and the upper end screw connection of the support balance guide rod is in connection
The upper end of the lower end of push rod, the connection push rod is connected with the lower end of vertical push rod by connecting convex block, the connection convex block
Left end be movably connected on the middle part of guide rail groove right end, the upper mechanical of the vertical push rod is connected to circular arc driving wheel front end
Right side, the lower end of two-way bar is installed on the left of circular arc driving wheel front end, the upper end of the two-way bar is movably connected on
Support motion bar it is upper all, the lower gap of the support motion bar is matched with the right side of rope connection guide upper end, the rope company
The lower end of guide rod is welded in the upper end of the first rope link block, and the lower end of the first rope link block is by connecting rope and connect turn
The outer surface of wheel is connected, and the outer surface of No. two pulleys and No. three pulleys is equipped with connecting rope, the left end of the connection runner
It is welded in the right end of circular arc convex block, the outer surface of the circular arc convex block left end is affixed the middle part together in groove link block right end, institute
The upper end for stating groove link block is matched by No.1 pulley with the right end of motion thread column, outer in the middle part of the motion thread column
Surface is meshed in the rear end of screw thread wheel, and the front end of the screw thread wheel is connected with the front end of conversion driving wheel by driving belt
It connects, the outer surface of the conversion driving wheel is matched by driving belt with the front end of transmission gear, a left side for the transmission gear
End is meshed in the right end of transmission latch plate, and the upper end of the transmission latch plate is welded in the right side of bidirectionally limited piece of lower end, institute
It states bidirectionally limited piece of left end and is installed in the right end that multi-buffer presss from both sides, bidirectionally limited piece of the backend space is matched with protection branch
The upside of enclosure is supportted, bidirectionally limited piece of the lower end is installed in the upper end of compression spring, the lower end of the compression spring
It is mechanically connected to the middle part of the upper end of spring support seat, is welded on the left of the spring support seat inside protection support housing
Left end, through the lower end on the left of protection support housing, the right end of the pressure convex block welds for the outer surface of the pressure convex block
In the left end for extending supporting rod, the right end for extending supporting rod is installed in the middle part of support transverse slat left end, and the stretch cord is set
There are two and right end be mechanically connected to the upper and lower ends on the left of support transverse slat, the right end clearance fit of multi-buffer folder is in guarantor
Protect the upside of support housing left end.
Further, the left end of fixed limited block before being installed on the right side of the electric rotating machine upper end.
Further, the multi-buffer folder includes three-level spring, two-level spring, support limit bar, reinforces plush copper, level-one
Buffer layer, level 2 buffering layer, three-level buffer layer, buffering plate.
Further, the lower end of the buffering plate is installed in the upper end of three-level buffer layer, under the three-level buffer layer
End is mechanically connected to the upper end of level 2 buffering layer, and the lower end of the level 2 buffering layer is matched with the upper end of first-level buffer layer, institute
The front center for stating first-level buffer layer is welded in the rear end for reinforcing plush copper, and the rear robot for reinforcing plush copper is connected to support limit
The front end of position bar, the upper end of the support limit bar is installed in the lower end of two-level spring, the lower end of the three-level spring and two level
The upper end of buffer layer matches, and the upper end of the three-level spring is installed in the middle part of the lower end of buffering plate.
Further, the front end of limited block is fixed in protection support housing right side outer surface after being welded in.
Further, the multi-buffer sandwiched there are four and four ends that are uniformly distributed on front side of reinforcement clamp.
Further, the outer surface of the kerve moving guide rail is equipped with thread groove, for moving and supporting blade support bottom
Seat.
Further, the No.1 support column is mutually parallel with No. two support columns.
Advantageous effect
A kind of full-automatic groove broacher for timber processing of the present invention, when needing to carry out timber processing kerve operation, work
Making personnel first should even connect with the mains equipment, and its timber is placed on No.1 support column and No. two support columns, by preceding solid
Fixing limit block fixes its timber with rear fixed limited block, and when timber pushes the pressure convex block in the middle part of reinforcement clamp, pressure convex block will
It can move right, to push two No. two link blocks, so that it is driven rotating wheel, and drive No.1 link block, to by connecting
Rope pulls connection card tooth plate, is driven in the fan-deck card tooth plate by being meshed and extends support column promotion transmission balance guide rod, to make
Transmission balance guide rod is tilted to the left, and under the action of being bi-directionally connected bar, T-type connecting rod will also be tilted to the left, to make its support
It balances guide rod and drives connection pushrod movement, so that it is connected push rod and push up, under the action of guide rail groove, vertical push rod will
It pushes up, under the drive of circular arc driving wheel, support motion bar will move downward, to make rope connection guide to updip
Tiltedly, and the first rope link block is made to move upwards, makes it that connecting rope be pulled to move upwards, by No. two pulleys and No. three pulleys
Under effect, connection runner will rotate, and groove link block is made to move downward, and under the action of connecting rope and No.1 pulley,
So that its motion thread column is moved right, and screw thread wheel is made to rotate, under the transmission by conversion driving wheel and transmission gear, drives
Transmission latch plate moves downward, and is moved downward by bidirectionally limited piece and multi-buffer folder, when timber is larger, multi-buffer folder
First-level buffer layer and level 2 buffering layer can be adjusted according to size, enable the preferably fixed timber of its equipment, fixing
After timber, staff can carry out control device by numerical controller, and make the kerve operation of its kerve blade progress timber:
By increasing reinforcement clamp in equipment, when equipment carries out timber processing kerve operation, need its timber drawing is fixed
When slot, timber can quickly be fixed, and can be adjusted according to timber size, preferable fixed timber be carried out, to quickly
Timber kerve operation is carried out, the workload of staff is not only saved and reduces the abrasion of timber.
Description of the drawings
Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention,
Objects and advantages will become more apparent upon:
Fig. 1 is a kind of structural schematic diagram of full-automatic groove broacher for timber processing of the present invention.
Fig. 2 is the structural schematic diagram of part on a kind of reinforcement clamp of full-automatic groove broacher for timber processing of the present invention.
Fig. 3 is the structural schematic diagram of the working condition of part on reinforcement clamp of the present invention.
Fig. 4 is a kind of structural schematic diagram of the reinforcement clamp of full-automatic groove broacher for timber processing of the present invention.
Fig. 5 is the structural schematic diagram of the working condition of reinforcement clamp of the present invention.
Fig. 6 is the structural schematic diagram that the multi-buffer of reinforcement clamp of the present invention presss from both sides.
Fig. 7 is the structural schematic diagram of the adjustment state of multi-buffer of the present invention folder.
In figure:Numerical controller -1, power cord -2, electric rotating machine -3, preceding fixed limited block -4, kerve blade -5, No.1
Support column -6, No. two support columns -7, reinforcement clamp -8, afterwards fix limited block -9, support moving guide rail -10, guide supporting seat -11,
Support cabinet -12, screw thread moving guide rail -13, blade support pedestal -14, individual motor -15, distribution control box -16, multistage slow
Punching folder -801, bidirectionally limited piece -802, transmission latch plate -803, screw thread wheel -804, motion thread column -805, conversion driving wheel -
806, No.1 pulley -807, connecting rope -808, rope connection guide -809, support motion bar -8010, two-way bar -8011, the first rope
Link block -8012, circular arc driving wheel -8013, vertical push rod -8014, No. two pulleys -8015, guide rail groove -8016, connection are convex
Block -8017, No. three pulleys -8019, connection runner -8020, support balance guide rod -8021, is bi-directionally connected connection push rod -8018
Bar -8022, transmission balance guide rod -8024, extends support column -8025, fan-deck card tooth plate -8026, support at T-type connecting rod -8023
Circular shaft -8027, No.1 link block -8030, support transverse slat -8031, extends branch at -8028, No. four pulleys -8029 of connection card tooth plate
Strut -8032, -8033, No. two link blocks -8034 of pressure convex block, stretch cord -8035, protection support housing -8036, rotating wheel -
8037, spring support seat -8038, transmission gear -8039, compression spring -8040, driving belt -8041, groove link block -
8042, the rope of circular arc convex block -8043, second link block -8044, three-level spring -80101, two-level spring -80102, support limit
Bar -80103 reinforces plush copper -80104, first-level buffer layer -80105, level 2 buffering layer -80106, three-level buffer layer -80107, delays
Rush pedestal -80108.
Specific implementation mode
To make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, with reference to
Specific implementation mode, the present invention is further explained.
It please refers to Fig.1 to Fig. 7, the present invention provides a kind of full-automatic groove broacher for timber processing:Its structure includes number
Value controller 1, power cord 2, electric rotating machine 3, preceding fixed limited block 4, kerve blade 5,6, No. two support columns 7 of No.1 support column,
Reinforcement clamp 8, rear fixed limited block 9, support moving guide rail 10, guide supporting seat 11, support cabinet 12, screw thread moving guide rail 13,
Blade support pedestal 14, individual motor 15, distribution control box 16, the lower mechanical of fixed limited block 9 is connected to support after described
The right side of 10 upper end of moving guide rail, it is described to support the lower end that 5 middle part of kerve blade is installed on the left of 10 upper end of moving guide rail, institute
The front end for stating kerve blade 5 is welded in the upper end of blade support pedestal 14, and the rear end of the blade support pedestal 14 is threadedly coupled
In the outer surface of screw thread moving guide rail 13, the guide supporting seat 11 sets there are two and is installed in the left and right of screw thread moving guide rail 13
The left end at both ends, the guide supporting seat 11 is mechanically connected to the right end of individual motor 15, the individual motor 15 and guide rail branch
The rear end screw connection of seat 11 is supportted in the upside of 12 front end of support cabinet, the left end of fixed limited block 9 is welded in reinforcement after described
In the middle part of the right end of folder 8, the upper center of the support cabinet 12 is equipped with support moving guide rail 10, the No.1 support column 6 and two
The lower end of number support column 7 is welded in the upper end of support moving guide rail 10, front end and the distribution control box 16 of the electric rotating machine 3
Rear end is connected by power cord 2, and plan is installed in the rear end of numerical controller 1 before the upper end of the distribution control box 16, described
For the left side clearance fit of kerve blade 5 in the right side of preceding fixed limited block 4, the reinforcement clamp 8 includes multi-buffer folder 801, double
To limited block 802, transmission latch plate 803, screw thread wheel 804, motion thread column 805, conversion driving wheel 806, No.1 pulley 807,
Connecting rope 808, rope connection guide 809, support motion bar 8010, the rope of two-way bar 8011, first link block 8012, circular arc driving wheel
8013,8014, No. two pulleys 8015 of vertical push rod, guide rail groove 8016, connection convex block 8017, connection 8018, No. three cunnings of push rod
8019, connection runner 8020 is taken turns, support balance guide rod 8021, bar 8022, T-type connecting rod 8023 is bi-directionally connected, is driven to balance and lead
Bar 8024 extends 8028, No. four support column 8025, fan-deck card tooth plate 8026, support circular shaft 8027, connection card tooth plate pulleys
8029, No.1 link block 8030, support transverse slat 8031, extend supporting rod 8032,8033, No. two link blocks 8034 of pressure convex block,
Stretch cord 8035, protection support housing 8036, rotating wheel 8037, spring support seat 8038, transmission gear 8039, compression spring
8040, driving belt 8041, groove link block 8042, the rope link block 8044 of circular arc convex block 8043, second, the rotating wheel 8037
It is welded in the upper end of No. two link blocks 8034 on the downside of outer surface, No.1 company is welded on the right side of 8037 outer surface of the rotating wheel
Connecing the left end of block 8030, the lower end of the No.1 link block 8030 is installed in the upper end of the second rope link block 8044, and described second
The lower end of rope link block 8044 is connected by connecting rope 808 with the left end of connection card tooth plate 8028, the connection card tooth plate
Be mechanically connected to the outer surface of support circular shaft 8027 in the middle part of 8028 lower end, the upper end of the connection card tooth plate 8028 be meshed in
The lower end of fan-deck card tooth plate 8026, the upper end of the fan-deck card tooth plate 8026 are movably connected on the lower end for extending support column 8025,
For the right side clearance fit for extending 8025 upside of support column in the left end of transmission balance guide rod 8024, the transmission balances guide rod
8024 front end is connected with the front end in 8023 left side of T-type connecting rod by being bi-directionally connected bar 8022, the T-type connecting rod 8023
Right end be installed in the left side of support balance guide rod 8021 lower end, the upper end screw connection of the support balance guide rod 8021 is in even
The lower end of push rod 8018 is connect, the upper end for connecting push rod 8018 is with the lower end of vertical push rod 8014 by connecting 8017 phase of convex block
The left end of connection, the connection convex block 8017 is movably connected on the middle part of 8016 right end of guide rail groove, the vertical push rod 8014
Upper mechanical be connected to the right side of 8013 front end of circular arc driving wheel, be installed on the left of 8013 front end of circular arc driving wheel double
To the lower end of bar 8011, the upper end of the two-way bar 8011 be movably connected on support motion bar 8010 it is upper all, the support work
The lower gap of lever 8010 is matched with the right side of 809 upper end of rope connection guide, and the lower end of the rope connection guide 809 is welded in
First rope link block 8012 upper end, it is described first rope link block 8012 lower end by connecting rope 808 with connect runner 8020
Outer surface be connected, the outer surface of No. two pulleys 8015 and No. three pulleys 8019 is equipped with connecting rope 808, and the connection turns
The left end of wheel 8020 is welded in the right end of circular arc convex block 8043, and the outer surface of 8043 left end of circular arc convex block is affixed together in groove
The upper end at the middle part of 8042 right end of link block, the groove link block 8042 passes through No.1 pulley 807 and motion thread column 805
Right end matches, and the outer surface at 805 middle part of the motion thread column is meshed in the rear end of screw thread wheel 804, the screw thread wheel 804
Front end be connected by driving belt 8040 with the front end of conversion driving wheel 806, the outer surface of the conversion driving wheel 806 is logical
It crosses driving belt 8040 to match with the front end of transmission gear 8039, the left end of the transmission gear 8039 is meshed to be blocked in transmission
The upper end of the right end of tooth plate 803, the transmission latch plate 803 is welded in the right side of bidirectionally limited piece of 802 lower ends, the two-way limit
The left end of position block 802 is installed in the right end of multi-buffer folder 801, and bidirectionally limited piece 802 of the backend space is matched with protection
Upside inside support housing 8036, bidirectionally limited piece 802 of the lower end are installed in the upper end of compression spring 8040, the pressure
The lower mechanical of power spring 8040 is connected to the middle part of the upper end of spring support seat 8038, the left side of the spring support seat 8038
The left end being welded in inside protection support housing 8036, the outer surface of the pressure convex block 8033 is through protecting support housing
The lower end in 8036 left sides, the right end of the pressure convex block 8033 are welded in the left end for extending supporting rod 8032, the extension support
The right end of bar 8032 be installed in support 8031 left end of transverse slat middle part, the stretch cord 8035 set there are two and right end be mechanically connected
Upper and lower ends in 8031 left side of support transverse slat, the right end clearance fit of the multi-buffer folder 801 is in protection support housing
The upside of 8036 left ends, the left end of fixed limited block 4, the multi-buffer before being installed on the right side of 3 upper end of the electric rotating machine
Folder 801 includes three-level spring 80101, two-level spring 80102, support limit bar 80103, reinforces plush copper 80104, first-level buffer layer
80105, level 2 buffering layer 80106, three-level buffer layer 80107, buffering plate 80108, the lower end dress of the buffering plate 80108
Set on the upper end of three-level buffer layer 80107, the lower mechanical of the three-level buffer layer 80107 is connected to level 2 buffering layer 80106
Upper end, the lower end of the level 2 buffering layer 80106 matches with the upper end of first-level buffer layer 80105, the first-level buffer layer
80105 front center is welded in the rear end for reinforcing plush copper 80104, and the rear robot for reinforcing plush copper 80104 is connected to branch
Support the front end of gag lever post 80103, the upper end of the support limit bar 80103 is installed in the lower end of two-level spring 80102, and described three
The lower end of grade spring 80101 is matched with the upper end of level 2 buffering layer 80106, and the upper end of the three-level spring 80101 is installed in
In the middle part of the lower end of buffering plate 80108, before limited block 9 is fixed in the 8036 right side outer surface of protection support housing after being welded in
End, the multi-buffer folder 801 set there are four and are uniformly distributed in four ends of 8 front side of reinforcement clamp, the kerve moving guide rail 13
Outer surface be equipped with thread groove, for moving and supporting blade support pedestal 14, the No.1 support column 6 and No. two support columns 7
It is mutually parallel.
Electric rotating machine 3 described in this patent has the stator of coil, and be rotatably arranged in stator former between gap,
In rotary axis direction by two segmentations, the magnet interaction configuration in a rotational direction of excitation that respective polarity is different rotor, with
And it is encouraged corresponding to the aforementioned excitation magnet of a side and the aforementioned of another party of aforementioned two segmentations rotor of aforementioned two segmentations rotor
The balance in the torque direction of magnetic action power and rotor between magnetic magnet makes another party relative to aforementioned two segmentations rotor
It is aforementioned two segmentation rotor a side opposite rotary axis direction change in location mechanism;Make relative to aforementioned two segmentation
The position of the opposite rotary axis direction of one side of the aforementioned two segmentations rotor of another party of rotor is to aforementioned excitation magnet
In the case of synthesizing the specified position variation that excitation value reduces, make aforementioned two points of another party relative to aforementioned two segmentations rotor
The position of the opposite rotary axis direction of a side of rotor is cut to the synthesis excitation value of aforementioned excitation magnet in aforementioned predetermined bits
After setting the change in location to become smaller compared with the synthesis excitation value of aforementioned excitation magnet, then it is made to change to aforementioned predetermined bits
It sets.
It is carrying out in use, staff should first confirm whether the full-automatic groove broacher processed for timber can normally make
With, and whether reinforcement clamp 8 damages, and after confirming no problem, this equipment will can be used normally, and is needing to carry out timber processing drawing
When slot operation, staff first should even connect with the mains equipment, and its timber is placed on No.1 support column 6 and No. two support columns
On 7, its timber is fixed by preceding fixed limited block 4 and rear fixed limited block 9, pushes the pressure at 8 middle part of reinforcement clamp convex in timber
When block 8033, pressure convex block 8033 will move right, and to push two No. two link blocks 8034, it be made to drive rotating wheel
8037, and No.1 link block 8030 is driven, to pull connection card tooth plate 8028 by connecting rope 808, in the sector by being meshed
Latch plate 8026, which drives, extends the promotion transmission balance guide rod 8024 of support column 8025, to make transmission balance guide rod 8024 incline to the left
Tiltedly, under the action of being bi-directionally connected bar 8022, T-type connecting rod 8023 will also be tilted to the left, to make its support balance guide rod
8021 drive connection push rod 8021 to move, and so that it is connected push rod 8021 and push up, under the action of guide rail groove 8016, vertically
Push rod 8014 will push up, and under the drive of circular arc driving wheel 8013, support motion bar 8010 will move downward, to
So that rope connection guide 809 is tilted upwards, and the first rope link block 8012 is made to move upwards, makes it that connecting rope 808 be pulled to transport upwards
Dynamic, under the action of by No. two pulleys 8015 and No. three pulley 8019, connection runner 8020 will rotate, and groove is made to connect
Block 8042 moves downward, and under the action of connecting rope 808 and No.1 pulley 807, its motion thread column 805 is made to move right,
And screw thread wheel 804 is made to rotate, under the transmission by conversion driving wheel 806 with transmission gear 8039, drive transmission latch plate 803
It moves downward, and is moved downward by bidirectionally limited piece 802 and multi-buffer folder 801, when timber is larger, multi-buffer folder 801
First-level buffer layer 80105 and level 2 buffering layer 80106 can be adjusted according to size, enable the preferably fixed wood of its equipment
Material, after fixing timber, staff can carry out control device by numerical controller, and its kerve blade 5 is made to carry out wood
The kerve operation of material.
In the prior art, equipment is needed when carrying out timber processing kerve operation by its timber problems solved by the invention
After being fixed carry out kerve operation, equipment be fixed timber encounter timber it is not of uniform size when, can not quickly be fixed,
It needs staff to be adjusted equipment, to enable a device to preferably be fixed timber, not only be easy to cause timber
Abrasion and adjustment time is longer, greatly increases the workload of its staff, the present invention pass through above-mentioned component mutual group
It closes, by increasing reinforcement clamp in equipment, when equipment carries out timber processing kerve operation, needs its timber being fixed
When kerve, timber can quickly be fixed, and can be adjusted according to timber size, preferable fixed timber be carried out, to fast
Speed carries out timber kerve operation, not only saves the workload of staff and reduces the abrasion of timber.
The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention, for this field skill
For art personnel, it is clear that invention is not limited to the details of the above exemplary embodiments, and without departing substantially from the present invention spirit or
In the case of essential characteristic, the present invention can be realized in other specific forms.Therefore, in all respects, should all incite somebody to action
Embodiment regards exemplary as, and is non-limiting, the scope of the present invention by appended claims rather than on state
Bright restriction, it is intended that including all changes that come within the meaning and range of equivalency of the claims in the present invention
It is interior.Any reference signs in the claims should not be construed as limiting the involved claims.
In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped
Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should
It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art
The other embodiment being appreciated that.
Claims (6)
1. a kind of full-automatic groove broacher for timber processing, structure includes numerical controller (1), power cord (2), electric rotating
Machine (3), kerve blade (5), No.1 support column (6), No. two support columns (7), reinforcement clamp (8), is consolidated at preceding fixed limited block (4) afterwards
Fixing limit block (9), support moving guide rail (10), guide supporting seat (11), support cabinet (12), screw thread moving guide rail (13), knife
Piece support base (14), individual motor (15), distribution control box (16), it is characterised in that:
The lower mechanical of fixed limited block (9) is connected to the right side of support moving guide rail (10) upper end after described, and the branch shifts
The lower end in the middle part of kerve blade (5) is installed on the left of dynamic guide rail (10) upper end, the front end of the kerve blade (5) is welded in knife
The rear end of the upper end of piece support base (14), the blade support pedestal (14) is threadedly connected to the outer of screw thread moving guide rail (13)
Surface, the guide supporting seat (11) set there are two and are installed in the left and right ends of screw thread moving guide rail (13), the guide rail branch
The left end of support seat (11) is mechanically connected to the right end of individual motor (15), the individual motor (15) and guide supporting seat (11)
Rear end screw connection is in the upside of support cabinet (12) front end, and the left end of fixed limited block (9) is welded in reinforcement clamp (8) after described
Right end in the middle part of, it is described support cabinet (12) upper center be equipped with support moving guide rail (10), the No.1 support column (6) with
The lower end of No. two support columns (7) is welded in the upper end of support moving guide rail (10), and the front end of the electric rotating machine (3) is matched with control
The rear end of electronic box (16) is connected by power cord (2), and plan is installed in Numerical Control before the upper end of the distribution control box (16)
The rear end of device (1), the left side clearance fit of the kerve blade (5) is in the right side of preceding fixed limited block (4);
The reinforcement clamp (8) includes multi-buffer folder (801), bidirectionally limited piece (802), transmission latch plate (803), screw thread wheel
(804), motion thread column (805), conversion driving wheel (806), No.1 pulley (807), connecting rope (808), rope connection guide
(809), support motion bar (8010), two-way bar (8011), the first rope link block (8012), circular arc driving wheel (8013), vertical
Push rod (8014), No. two pulleys (8015), guide rail groove (8016), connection convex block (8017), connection push rod (8018), No. three cunnings
Wheel (8019), connection runner (8020), support balance guide rod (8021), be bi-directionally connected bar (8022), T-type connecting rod (8023),
Transmission balance guide rod (8024) extends support column (8025), fan-deck card tooth plate (8026), support circular shaft (8027), connection latch
Plate (8028), No.1 link block (8030), support transverse slat (8031), extends supporting rod (8032), pressure at No. four pulleys (8029)
Convex block (8033), No. two link blocks (8034), stretch cord (8035), protection support housing (8036), rotating wheel (8037), spring
Support base (8038), transmission gear (8039), compression spring (8040), driving belt (8041), groove link block (8042), circle
Arc convex block (8043), the second rope link block (8044);
The upper end of No. two link blocks (8034), the rotating wheel (8037) are welded on the downside of rotating wheel (8037) outer surface
The left end of No.1 link block (8030) is welded on the right side of outer surface, the lower end of the No.1 link block (8030) is installed in second
The lower end of the upper end of rope link block (8044), the second rope link block (8044) passes through connecting rope (808) and connection card tooth plate
(8028) left end is connected, and the outer of support circular shaft (8027) is mechanically connected in the middle part of the lower end of the connection card tooth plate (8028)
The upper end on surface, the connection card tooth plate (8028) is meshed in the lower end of fan-deck card tooth plate (8026), the fan-deck card tooth plate
(8026) upper end is movably connected on the lower end for extending support column (8025), between the right side extended on the upside of support column (8025)
Gap is matched with the left end of transmission balance guide rod (8024), the front end of the transmission balance guide rod (8024) and T-type connecting rod
(8023) front end on the left of is connected by being bi-directionally connected bar (8022), and the right end of the T-type connecting rod (8023) is installed in branch
The left side of support balance guide rod (8021) lower end, the upper end screw connection of the support balance guide rod (8021) is in connection push rod
(8018) lower end, the upper end for connecting push rod (8018) is with the lower end of vertical push rod (8014) by connecting convex block (8017)
It is connected, the left end of the connection convex block (8017) is movably connected on the middle part of guide rail groove (8016) right end, described vertically to push away
The upper mechanical of bar (8014) is connected to the right side of circular arc driving wheel (8013) front end, circular arc driving wheel (8013) front end
Left side is installed in the lower end of two-way bar (8011), and the upper end of the two-way bar (8011) is movably connected on support motion bar (8010)
It is upper all, the lower gap of the support motion bar (8010) is matched with the right side of rope connection guide (809) upper end, rope company
The lower end of guide rod (809) is welded in the upper end of the first rope link block (8012), the lower end of the first rope link block (8012)
It is connected with the outer surface for connecting runner (8020) by connecting rope (808), No. two pulleys (8015) and No. three pulleys
(8019) outer surface is equipped with connecting rope (808), and the left end of the connection runner (8020) is welded in circular arc convex block (8043)
The outer surface of right end, circular arc convex block (8043) left end is affixed the middle part together in groove link block (8042) right end, described recessed
The upper end of slot link block (8042) is matched by No.1 pulley (807) with the right end of motion thread column (805), the transmission spiral shell
Outer surface in the middle part of line column (805) is meshed in the rear end of screw thread wheel (804), and front end and the conversion of the screw thread wheel (804) pass
The front end of driving wheel (806) is connected by driving belt (8040), and the outer surface of the conversion driving wheel (806) is by being driven skin
Band (8040) is matched with the front end of transmission gear (8039), and the left end of the transmission gear (8039) is meshed in transmission latch
The upper end of the right end of plate (803), the transmission latch plate (803) is welded in the right side of bidirectionally limited piece of (802) lower end, described double
It is installed in the right end that multi-buffer presss from both sides (801), the backend space of bidirectionally limited piece (802) to the left end of limited block (802)
It is matched with the internal upside of protection support housing (8036), the lower end of bidirectionally limited piece (802) is installed in compression spring
(8040) upper end, the lower mechanical of the compression spring (8040) are connected to the middle part of the upper end of spring support seat (8038),
The internal left end of protection support housing (8036), the pressure convex block are welded on the left of the spring support seat (8038)
(8033) it is welded through the lower end on the left of protection support housing (8036), the right end of the pressure convex block (8033) outer surface
In the left end for extending supporting rod (8032), the right end for extending supporting rod (8032) is installed in support transverse slat (8031) left end
Middle part, the stretch cord (8035) set there are two and right end be mechanically connected to upper and lower ends on the left of support transverse slat (8031), institute
The right end clearance fit of multi-buffer folder (801) is stated in the upside of protection support housing (8036) left end.
2. a kind of full-automatic groove broacher for timber processing according to claim 1, it is characterised in that:The electric rotating
The left end of fixed limited block (4) before being installed on the right side of machine (3) upper end.
3. a kind of full-automatic groove broacher for timber processing according to claim 1, it is characterised in that:It is described multistage slow
Punching folder (801) includes three-level spring (80101), two-level spring (80102), support limit bar (80103), reinforces plush copper
(80104), first-level buffer layer (80105), level 2 buffering layer (80106), three-level buffer layer (80107), buffering plate
(80108)。
4. a kind of full-automatic groove broacher for timber processing according to claim 1, it is characterised in that:The buffering bottom
The lower end of seat (80108) is installed in the upper end of three-level buffer layer (80107), the lower mechanical of the three-level buffer layer (80107)
It is connected to the upper end of level 2 buffering layer (80106), lower end and the first-level buffer layer (80105) of the level 2 buffering layer (80106)
Upper end match, the front center of the first-level buffer layer (80105) is welded in the rear end for reinforcing plush copper (80104), described
The rear robot for reinforcing plush copper (80104) is connected to the front end of support limit bar (80103), the support limit bar (80103)
Upper end be installed in the lower ends of two-level spring (80102), lower end and the level 2 buffering layer of the three-level spring (80101)
(80106) upper end matches, and the upper end of the three-level spring (80101) is installed in the middle part of the lower end of buffering plate (80108).
5. a kind of full-automatic groove broacher for timber processing according to claim 1, it is characterised in that:The protection branch
The front end of limited block (9) is fixed in outer surface on the right side of support shell (8036) after being welded in.
6. a kind of full-automatic groove broacher for timber processing according to claim 1, it is characterised in that:It is described multistage slow
Four ends that punching folder (801) sets there are four and is uniformly distributed on front side of reinforcement clamp (8).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810407825.3A CN108453847A (en) | 2018-05-02 | 2018-05-02 | A kind of full-automatic groove broacher for timber processing |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810407825.3A CN108453847A (en) | 2018-05-02 | 2018-05-02 | A kind of full-automatic groove broacher for timber processing |
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Publication Number | Publication Date |
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CN108453847A true CN108453847A (en) | 2018-08-28 |
Family
ID=63214434
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CN201810407825.3A Withdrawn CN108453847A (en) | 2018-05-02 | 2018-05-02 | A kind of full-automatic groove broacher for timber processing |
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CN202053320U (en) * | 2011-04-28 | 2011-11-30 | 刘福权 | Dual purpose numerically controlled wood working lathe for lathing and boring |
CN202985698U (en) * | 2012-10-29 | 2013-06-12 | 高密市新成橡木桶有限公司 | Barrel seal groove machining device |
CN203062895U (en) * | 2012-11-26 | 2013-07-17 | 刘世亮 | Numerical control wood working machine tool equipped with universal self-centering sliding sleeve |
CN205799286U (en) * | 2016-07-15 | 2016-12-14 | 安吉泰茂竹制品有限公司 | A kind of broken bamboo machine top cylinder |
CN206230642U (en) * | 2016-11-01 | 2017-06-09 | 欧洋富瑞江苏木业有限公司 | Round log device for peeling |
CN107225628A (en) * | 2017-06-07 | 2017-10-03 | 李赵和 | A kind of fixing device of the good timber processing of clamping function |
CN107856158A (en) * | 2017-12-25 | 2018-03-30 | 青岛宝泓家具有限公司 | A kind of bed board bar round log peeling equipment |
-
2018
- 2018-05-02 CN CN201810407825.3A patent/CN108453847A/en not_active Withdrawn
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN202053320U (en) * | 2011-04-28 | 2011-11-30 | 刘福权 | Dual purpose numerically controlled wood working lathe for lathing and boring |
CN202985698U (en) * | 2012-10-29 | 2013-06-12 | 高密市新成橡木桶有限公司 | Barrel seal groove machining device |
CN203062895U (en) * | 2012-11-26 | 2013-07-17 | 刘世亮 | Numerical control wood working machine tool equipped with universal self-centering sliding sleeve |
CN205799286U (en) * | 2016-07-15 | 2016-12-14 | 安吉泰茂竹制品有限公司 | A kind of broken bamboo machine top cylinder |
CN206230642U (en) * | 2016-11-01 | 2017-06-09 | 欧洋富瑞江苏木业有限公司 | Round log device for peeling |
CN107225628A (en) * | 2017-06-07 | 2017-10-03 | 李赵和 | A kind of fixing device of the good timber processing of clamping function |
CN107856158A (en) * | 2017-12-25 | 2018-03-30 | 青岛宝泓家具有限公司 | A kind of bed board bar round log peeling equipment |
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