The content of the invention
Be necessary to propose a kind of automaticity it is high, suitable for different production-scale executing agencies.
It there is a need to and propose a kind of galvanized hexagonal wire mesh lock seaming equipment that executing agency is set.
A kind of executing agency, including two execution units and an edge locking die, edge locking die are arranged on two and perform list
Set between member, inside execution unit and twist gear, opened up in the side for the end face for twisting gear at the axle center for the basic circle for twisting gear
The entry of extension, the opening depth of entry are more than the radius for the basic circle for twisting gear, for inserting galvanized hexagonal wire mesh and receiving side iron wire,
Connected between edge locking die and the strand gear of execution unit, so that edge locking die rotates with strand gear synchronous.
Preferably, the execution unit includes mounting seat, left executive module, right executive module, and left executive module and the right side are held
Row component is symmetricly set on the both sides of mounting seat, and left executive module includes drive gear and twists gear, drive gear and strand gear
In mounting seat, drive gear engages connection with twisting gear, opens up insert port in the front end of mounting seat, and insert port is to installation
The inside of seat extends to be penetrated with the entry for twisting gear, and right executive module is also provided with entry, so that left executive module is cut
The insert port insertion of entrance, the entry of right executive module and mounting seat, for galvanized hexagonal wire mesh and receive the insertion of side iron wire.
Preferably, the left executive module also includes the first travelling gear, the second travelling gear, the first travelling gear, the
Two travelling gears are arranged in the mounting seat between drive gear and strand gear, the first travelling gear, the one of the second travelling gear
Side wheel tooth engages connection with drive gear, and the opposite side gear teeth engage connection with twisting gear.
Preferably, the execution unit also includes shutter, and the shutter is arranged on left executive module and lock seaming mechanism
Between, the gear of left executive module is covered, the shutter is additionally arranged between right executive module and lock seaming mechanism, will
The gear covering of right executive module, the insert port identical opening with the front end of mounting seat is also opened up in the front end of shutter, with
For galvanized hexagonal wire mesh and the insertion of side iron wire is received, the hole corresponding with the fixing hole of driven gear is also opened up in the side wall of shutter, with
Inserted for the fix bar of edge locking die.
Preferably, the edge locking die includes plate wheel and is arranged on the fix bar of plate wheel both sides, in left executive module
Strand gear basic circle side wall on fixing hole is set, also set and fix in the side wall of the basic circle of the strand gear of right executive module
Hole, the fix bar of plate wheel both sides is inserted in the fixing hole of two strand gears of two groups of execution units respectively, by edge locking die
It is fixed between two groups of adjacent execution units, and with basic circle synchronous axial system.
Preferably, twisting the fixing hole of the basic circle of gear includes the first fixing hole and the second fixing hole, the first fixing hole and
Two fixing holes are disposed side by side on the homonymy of entry, and the fix bar of the edge locking die also includes the first fix bar and second and fixed
Bar, the first fix bar and the second fix bar are corresponding with the first fixing hole and the second fixing hole.
Preferably, the plate wheel includes plate, and the working face of plate is plane, is set in one end of the working face of plate
Middle projection, the height of the middle projection is higher than the height of the working face of middle projection both sides, with the both sides of middle projection
Form shoulder.
Preferably, the plate wheel includes plate, and the working face of plate is plane, is set in one end of the working face of plate
The height of left side projection and right side projection, left side projection and right side projection is higher than the working face between left side projection and right side projection
Height, to form shoulder between left side projection and right side projection.
It is a kind of set executing agency galvanized hexagonal wire mesh lock seaming equipment, if including frame, be arranged in frame main driving mechanism,
Dry executing agency, the main driving mechanism include main motor, the final drive shaft driven by main motor, and main motor is arranged on frame
One end, length direction of the final drive shaft along frame are set, the mounting seat of each execution unit of each executing agency with
Frame is connected, and some executing agencies are disposed side by side in frame, and the final drive shaft of the main driving mechanism passes through mounting seat and drive
At the axle center of moving gear, the rotation of drive gear is driven with the rotation by final drive shaft, and then is driven by drive gear and twists tooth
Wheel rotates, and the executing agency is above-mentioned executing agency.
Preferably, the first guide rail is also set up at the top of frame, is opened up in the bottom of the mounting seat of each execution unit
The through hole passed through for the first guide rail, so that execution unit slides along the first guide rail, and then adjust the position of execution unit.
Executing agency in the utility model, including two execution units and an edge locking die, edge locking die are arranged on
Set between two execution units, inside execution unit and twist gear, driven by execution unit and twist pinion rotation, then by strand gear
Galvanized hexagonal wire mesh is lockstitched a border.
Galvanized hexagonal wire mesh lock seaming equipment in the utility model includes main driving mechanism, some executing agencies, realizes and performs list
The automatic driving of member, autostop, automatic installing/dismounting, it is the lock seaming equipment of complete set, during applied to manufacturing enterprise, production
Efficiency high, lock seaming effect are good.
Brief description of the drawings
Fig. 1 is executing agency and sets the structural representation of the galvanized hexagonal wire mesh lock seaming equipment of executing agency.
Fig. 2 is executing agency and sets the structural representation of another angle of the galvanized hexagonal wire mesh lock seaming equipment of executing agency.
Fig. 3 is the partial enlarged drawing of Tu1Zhong expression and localizations mechanism.
Fig. 4 is the partial enlarged drawing that elevating mechanism is expressed in Fig. 1.
Fig. 5 is the partial enlarged drawing of Tu2Zhong expression and localizations mechanism.
Fig. 6 is the partial enlarged drawing that elevating mechanism is expressed in Fig. 2.
Fig. 7 is the structural representation of executing agency.
Fig. 8 is the front view of executing agency.
Fig. 9 is the left view of executing agency.
Figure 10 is the structural representation of execution unit.
Figure 11 is the structural representation of another angle of execution unit.
Figure 12 is the structural representation of side silk bending mechanism.
Figure 13 is the structural representation of another angle of side silk bending mechanism.
Figure 14 is the structural representation of lock seaming mechanism.
Figure 15 is the structural representation of another angle of lock seaming mechanism.
Figure 16 is the schematic diagram of galvanized hexagonal wire mesh.
Figure 17 is the schematic diagram lockstitched a border using executing agency's galvanized hexagonal wire mesh lateral opening to wounded in the battle closing in.
Figure 18 is the schematic diagram lockstitched a border using executing agency to not wounded in the battle open lateral opening galvanized hexagonal wire mesh.
In figure:Frame 10, the first guide rail 11, main driving mechanism 20, main motor 21, final drive shaft 22, executing agency 30, hold
Row unit 31, mounting seat 32, insert port 321, right executive module 33, drive gear 331, twist gear 332, entry 3321, the
One fixing hole 3322, the second fixing hole 3323, the first travelling gear 333, the second travelling gear 334, left executive module 34, block
Plate 35, lock seaming mechanism 40, edge locking die 41, plate wheel 411, plate 4111, middle projection 4112, left side projection 4113, right side
Projection 4114, fix bar 412, elevating mechanism 50, outer framework 51, column 52, slideway 521, top plate 522, lifter plate 531, auxiliary
Bearing 5311, auxiliary guide bracket 5312, push-and-pull motor 5313, push-and-pull leading screw 5314, right jacking block 5315, magnetic element 5316, lifting
Leading screw 532, lifting motor 533, transfer guide rail 534, from travel mechanism 60, from move dolly 61, the second guide rail 62, from move leading screw
63rd, detent mechanism 70, location-plate 71, connecting rod 72, half way motor 73, shaft coupling 74, lateral opening edge locking die 75, side silk bar folder
Structure 80, cylinder 81, bending motor 82, bending mold 83, guide 831, hexagonal axis 832, the first guide rod 833, the second guide rod 834,
Translating rails 835, translation link 836, galvanized hexagonal wire mesh 100, wounded in the battle closing in are lateral opening 101, not wounded in the battle open lateral opening 102, receipts
Side iron wire 200.
Embodiment
, below will be to required use in embodiment in order to illustrate more clearly of the technical scheme of the utility model embodiment
Accompanying drawing be briefly described, it should be apparent that, drawings in the following description are some embodiments of the utility model, for this
For the those of ordinary skill of field, on the premise of not paying creative work, it can also be obtained according to these accompanying drawings other
Accompanying drawing.
Referring to Fig. 1 to Fig. 6, the utility model embodiment provides a kind of automatic folding type executing agency of receipts side iron wire and set
Put the galvanized hexagonal wire mesh lock seaming equipment of executing agency, including frame 10, the main driving mechanism 20 being arranged in frame 10, executing agency
30th, lockstitch a border mechanism 40, receive side iron wire 200 bending mechanism 80, main driving mechanism 20 includes main motor 21, driven by main motor 21
Final drive shaft 22, main motor 21 are arranged on one end of frame 10, and length direction of the final drive shaft 22 along frame 10 is set.
Referring to Fig. 7 to Figure 11, executing agency 30 includes some execution units 31, and execution unit 31 includes mounting seat 32, tool
There are mutually isostructural left executive module 34 and right executive module 33, mounting seat 32 is arranged in frame 10, the left He of executive module 34
Right executive module 33 is oppositely arranged on the both sides of mounting seat 32, and right executive module 33 includes drive gear 331 and twists gear 332,
Drive gear 331 engages connection with twisting gear 332, and drive gear 331 and strand gear 332 are arranged in mounting seat 32, main driving
The final drive shaft 22 of mechanism 20 is passed through at the axle center of mounting seat 32 and drive gear 331, to pass through the rotational band of final drive shaft 22
The rotation of dynamic drive gear 331, the side for twisting the end face of gear 332 open up entry 3321, twist the entry 3321 of gear 332
Extended to from the gear teeth at the axle center of basic circle, also open up insert port 321 in the front end of mounting seat 32, insert port 321 is to mounting seat 32
Inside extend to twist gear 332 axle center at entry 3321 penetrate, left executive module 34 is also provided with entry 3321,
So that the insert port 321 of the entry 3321 of left executive module 34, the entry 3321 of right executive module 33 and mounting seat 32 is passed through
It is logical, so that galvanized hexagonal wire mesh 100 and receipts side iron wire 200 insert.
Lock seaming mechanism 40 includes edge locking die 41, and edge locking die 41 is fixed between two groups of adjacent execution units 31, and
With the strand synchronous axial system of gear 332.
Referring to Figure 12, Figure 13, receiving side iron wire bending mechanism 80 includes cylinder 81, bending motor 82, bending mold 83, cylinder
81 and bending motor 82 be connected with frame 10, bending mold 83 including guide 831, hexagonal axis 832, the first guide rod 833, second lead
Bar 834, guide 831 is connected with bending the output end of motor 82, to drive guide 831 to rotate 180 degree, hexagonal axis in the horizontal plane
832 are inserted in the inside of guide 831 through the axle center of guide 831, and the low side of hexagonal axis 832 is connected with the telescopic end of cylinder 81,
To drive hexagonal axis 832 to move up and down by cylinder 81, the top of hexagonal axis 832 sets the first guide rod 833 and the second guide rod
834, reserved between the first guide rod 833 and the second guide rod 834 and receive the gap that side iron wire 200 inserts.
After the completion of galvanized hexagonal wire mesh 100 and receipts side iron wire 200 are lockstitched a border, two terminations for receiving side iron wire 200 still leak outside, and leak outside
Termination be easy to by the hand of operating personnel or user of service scratch, so using bending mold 83 will receive side iron wire 200 end
Head bending, is prevented plowing from.When lockstitching a border operation, the hexagonal axis 832 of bending mechanism is driven by cylinder 81 to be moved down, and makes second to lead
The height of bar 834 is less than the height of frame 10, and then avoids interfering between the guide rod 834 of galvanized hexagonal wire mesh 100 and second, is lockstitching a border
After the completion of, cylinder 81 drives the guide rod 834 of hexagonal axis 832 and second to be moved upward to the height higher than frame 10, with to receiving side iron
The termination of silk 200 is bent.
Wherein, the first guide rod 833 is set close to executing agency 30, and the second guide rod 834 is set away from executing agency 30, and first
The height of guide rod 833 is less than the height of the second guide rod 834.
Further, translating rails 835, the cylinder of bending mechanism are set along the length direction of frame 10 also in frame 10
81 are fixed on translation link 836 with bending motor 82, and translating rails 835 are through translation link 836, so that bending mechanism
Slided on translating rails 835.Corresponding various sizes of galvanized hexagonal wire mesh 100, width is different, and the length for receiving side iron wire 200 differs
Sample, the position of receipts side iron wire 200 termination is also different, by link translational movement on translating rails 835, and then adjusts bending
The position of mechanism so that the termination for receiving side iron wire 200 is just fallen into the gap between the first guide rod 833 and the second guide rod 834.
Further, the first guide rail 11 is also set up at the top of frame 10, in the mounting seat 32 of each execution unit 31
Bottom opens up the through hole passed through for the first guide rail 11, so that execution unit 31 slides along the first guide rail 11, and then adjusts and performs
The position of unit 31, receiving the automatic folding type galvanized hexagonal wire mesh lock device of side iron wire also includes elevating mechanism 50, and elevating mechanism 50 is arranged on
The other end of frame 10, elevating mechanism 50 include transfer guide rail 534, and transfer guide rail 534 docks with the first guide rail 11, so that first
Execution unit 31 on guide rail 11 is transitioned on transfer guide rail 534, includes the second guide rail 62, the second guide rail 62 from travel mechanism 60
Docked with the transfer guide rail 534 of elevating mechanism 50, so that execution unit 31 is transitioned on the second guide rail 62 from transfer guide rail 534.
Referring to Fig. 3 to Fig. 6, further, elevating mechanism 50 includes outer framework 51, inner frame, lowering or hoisting gear, outer framework 51 with
Frame 10 is fixedly connected, and inner frame is arranged on the inside of outer framework 51, and inner frame includes the column 52 and top plate being vertically arranged
522, slideway 521 is set on the madial wall of column 52, and lowering or hoisting gear includes lifter plate 531, elevating screw 532, lifting motor
533rd, guide rail 534 is shifted, the side of lifter plate 531 is slidably matched with the slideway 521 of column 52, and lifting motor 533 is fixed on interior
The bottom of framework, the lower end of elevating screw are connected with lifting motor 533, and the upper end of elevating screw passes through lifter plate 531 and inside casing
The top plate 522 of frame, elevating screw 532 coordinate with the screw thread of lifter plate 531, to drive lifter plate by the rotation of elevating screw 532
531 are slided up and down along the slideway 521 of column 52, and transfer guide rail 534 is arranged on lifter plate 531, shifts guide rail 534 and frame
The face of first guide rail 11 contact at 10 tops, so that the execution unit 31 on the first guide rail 11 is transitioned on transfer guide rail 534.
Further, auxiliary support 5311, auxiliary guide bracket 5312, push-and-pull motor 5313, push-and-pull are set also on lifter plate 531
Leading screw 5314, right jacking block 5315, push-and-pull motor 5313 are fixed on auxiliary support 5311, one end of push-and-pull leading screw 5314 and push-and-pull
Motor 5313 is connected, and the other end of push-and-pull leading screw 5314 is connected through auxiliary guide bracket 5312 with right jacking block 5315, in right jacking block
5315 towards setting magnetic element 5316 in the side wall of execution unit 31, with by magnetic element 5316 to close execution unit
31 absorption are fixed.When execution unit 31 needs to dismantle from frame 10, execution unit 31 is first promoted close to elevating mechanism 50, together
When push-and-pull leading screw 5314 stretch out, right jacking block 5315 adsorbs execution unit 31, and then push-and-pull leading screw 5314 shrinks, and pulling performs list
Member 31 is slided from the first guide rail 11 of frame 10 to be transitioned on the transfer guide rail 534 of elevating mechanism 50, realizes dismounting;When need
When installing, the first frame 10 of push-and-pull leading screw 5314 is stretched out, and promotes execution unit 31 to be transitioned into the of frame 10 from transfer guide rail 534
On one guide rail 11, installation is realized.
Further, receiving the automatic folding type galvanized hexagonal wire mesh lock device of side iron wire also includes from travel mechanism 60, from travel mechanism 60
Including from moving dolly 61, the second guide rail 62, moving leading screw 63 certainly, the second guide rail 62 is arranged on the bottom of frame 10, the second guide rail 62
Being set along the length wise of frame 10, the length wise from shifting leading screw 63 along frame 10 is arranged on the bottom of frame 10, from
The bottom that dolly 61 is arranged on frame 10 is moved, and is slidably matched from dolly 61 is moved with the second guide rail 62, in turning for elevating mechanism 50
When shifting guide rail 534 is displaced downwardly to the bottom of outer framework 51, the second guide rail 62 contacts with the transfer face of guide rail 534, so that execution unit
31 are transitioned on the second guide rail 62 from transfer guide rail 534, the connector being connected with execution unit 31 are set from shifting dolly 61, with logical
Crossing from shifting dolly 61 drives execution unit 31 to be moved along the second guide rail 62 to the direction away from or close to elevating mechanism 50.From shifting
Motivation structure 60 coordinates with elevating mechanism 50, and the execution unit 31 disassembled is temporarily placed on the second guide rail 62, or will
Execution unit 31 to be mounted is needed to be delivered to from from travel mechanism 60 on elevating mechanism 50.
Further, edge locking die 41 includes plate wheel 411 and is arranged on the fix bar 412 of the both sides of plate wheel 411, is held on a left side
Fixing hole, the also basic circle for twisting gear 332 in right executive module 33 are set in the side wall of the basic circle of the strand gear 332 of row component 34
Side wall on fixing hole is set, the fix bar 412 of the both sides of plate wheel 411 inserts two strand gears of two groups of execution units 31 respectively
In 332 fixing hole, between edge locking die 41 is fixed on into two groups of adjacent execution units 31, and it is same with gear 332 is twisted
Step rotates.
Referring to Figure 16 to Figure 18, during lock seaming operation, first by it is due-in while galvanized hexagonal wire mesh 100 and when receiving iron wire 200 it is wounded in the battle
Close up lateral opening 101 or not wounded in the battle open lateral opening each execution unit 31 of 102 face mounting seat 32 insert port 321 insert
Enter so that the work of the wounded in the battle lateral opening 101 or not wounded in the battle open lateral opening 102 plate wheels 411 for being overlapped on lock seaming mechanism 40 that close up
Make on face, then length direction of the receipts side iron wire 200 along frame 10 is sequentially inserted into the left execution of each execution unit 31
The entry 3321 of component 34, the insert port 321 of mounting seat 32, the entry 3321 of right executive module 33, keep receiving side iron wire
200 are placed at the axle center for twisting gear 332, then start main motor 21, and final drive shaft 22 drives drive gear 331, twists gear
332 rotations, twist gear 332 and drive plate wheel 411 to rotate, plate wheel 411 drives galvanized hexagonal wire mesh 100 and receipts side iron on its working face
The wounded in the battle closing in lateral opening 101 or not wounded in the battle open lateral opening 102 of silk 200 rotates around side iron wire 200 is received, and then will be wounded in the battle
Close up lateral opening 101 or not wounded in the battle open lateral opening 102 be wrapped in receive side iron wire 200 on, complete lock seaming.
Include the first fixing hole 3322 and the second fixing hole 3323 in the fixing hole of the strand gear 332 of left executive module 34,
First fixing hole 3322 and the second fixing hole 3323 are disposed side by side on the homonymy of entry 3321, the fix bar of edge locking die 41
412 also include the first fix bar 412 and the second fix bar 412, and the first fix bar 412 and the second fix bar 412 and first are fixed
The correspondence of 3322 and second fixing hole of hole 3323.
Further, referring to Figure 14, Figure 15, plate wheel 411 includes plate 4111, and the working face of plate 4111 is plane,
One end of the working face of plate 4111 sets middle projection 4112, and the height of middle projection 4112 is higher than the middle both sides of projection 4112
Working face height, with the both sides of middle projection 4112 formed shoulder.In galvanized hexagonal wire mesh 100 and side iron wire 200 is received along L lines
During cut-out, the lateral opening of two kinds of forms can be formed, a kind of is wounded in the battle closing in lateral opening 101, corresponding another to be not wounded in the battle, spacious
Mouthful it is lateral opening, this plate wheel 411 is applied to not wounded in the battle open lateral opening 102, during lock seaming, by two lateral opening iron wires of the opening
The both sides shoulder of middle projection 4112 of plate wheel 411 is overlapped on, then starts to lockstitch a border, such plate wheel 411 causes open side
Two iron wires in hole will not positioning.
Further, plate wheel 411 includes plate 4111, and the working face of plate 4111 is plane, in the work of plate 4111
The height of one end setting left side projection 4113 and right side projection 4114 in face, left side projection 4113 and right side projection 4114 is higher than a left side
The height of working face between side projection 4113 and right side projection 4114, between left side projection 4113 and right side projection 4114
Form shoulder.
This plate wheel 411 is applied to wounded in the battle closing in lateral opening 101, and during lock seaming, the lateral opening wounded in the battle place of the closing in is overlapped
Shoulder between the left side projection 4113 and right side projection 4114 of plate wheel 411, then starts to lockstitch a border, such plate wheel
411 are limited in the lateral opening wounded in the battle iron wire that closes up the shoulder between left side projection 4113 and right side projection 4114, will not during lock seaming
Positioning.
Further, right executive module 33 also includes the first travelling gear 333, the second travelling gear 334, the first travelling gear
333rd, the second travelling gear 334 is arranged in the mounting seat 32 between drive gear 331 and strand gear 332, the first travelling gear
333rd, the side gear teeth of the second travelling gear 334 engage connection with drive gear 331, and the opposite side gear teeth engage with twisting gear 332
Connection.
Open up entry 3321 on end face due to twisting gear 332, when using travelling gear by drive gear 331 with
When twisting gear 332 and engaging, or by drive gear 331 and when twisting gear 332 and directly engaging, due to the presence of entry 3321,
When strand gear 332, which turns to entry 3321, to be contacted with drive gear 331 or a travelling gear face, due to entry
3321 go out to lack the gear teeth, cause strand gear 332 imperfect because engaging between drive gear 331 or a travelling gear, can lead
Cause to twist the driving of gear 332 and gets stuck or pause or skid, in order to avoid the generation of the problem, there is provided with drive gear 331 and twisting
Gear 332 engages the first travelling gear 333 of connection, the second travelling gear 334, so, even if a travelling gear is with twisting
Engaged between gear 332 it is incomplete simultaneously, another travelling gear and twist gear 332 between engaging be certainly it is complete,
Driven both as the complementary transmission for twisting gear 332, solve above mentioned problem.
Execution unit 31 also includes shutter 35, and shutter 35 is arranged between left executive module 34 and lock seaming mechanism 40,
So that the gear of left executive module 34 to be covered, shutter 35 is additionally arranged between right executive module 33 and lock seaming mechanism 40, will
The gear covering of right executive module 33, is also opened up identical with the insert port of the front end of mounting seat 32 321 in the front end of shutter 35
Opening, for galvanized hexagonal wire mesh 100 and receive side iron wire 200 and insert, also open up in the side wall of shutter 35 and to consolidate with strand gear 332
Determine the corresponding hole in hole, inserted for the fix bar 412 of edge locking die 41.
Detent mechanism 70 is set close to one end of main motor 21 in frame 10, detent mechanism 70 includes location-plate 71, connection
Bar 72, location-plate 71 are fixedly connected with frame 10, and one end of connecting rod 72 is connected with location-plate 71, the other end of connecting rod 72 with
The mounting seat 32 of execution unit 31 is connected, and execution unit 31 is fixed.
Detent mechanism 70 also includes half way motor 73, shaft coupling 74, lateral opening edge locking die 7541, half way motor 73 and positioning
Plate 71 is fixedly connected, and the output end of half way motor 73 is connected with shaft coupling 74, the other end of shaft coupling 74 and lateral opening edge locking die
7541 one end connection, the other end of lateral opening edge locking die 7541 are fixedly connected with the basic circle of the strand gear 332 of execution unit 31,
So that to be lockstitched a border lateral opening of galvanized hexagonal wire mesh 100 is overlapped on the working face of lateral opening edge locking die 7541.
Module or unit in the utility model embodiment device can be merged, divide and deleted according to being actually needed
Subtract.
Above disclosed is only the utility model preferred embodiment, can not limit the utility model with this certainly
Interest field, one of ordinary skill in the art will appreciate that realize all or part of flow of above-described embodiment, and according to this reality
The equivalent variations made with new claim, still fall within the scope that utility model is covered.